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1

Definition: Kilowatt-hour | Open Energy Information  

Open Energy Info (EERE)

Kilowatt-hour Kilowatt-hour Jump to: navigation, search Dictionary.png Kilowatt-hour A unit of measure for energy, typically applied to electricity usage; equal to the amount of energy used at a rate of 1,000 watts over the course of one hour. One kWh is equivalent to 3,412 Btu, or 3,600 kJ.[1][2] View on Wikipedia Wikipedia Definition The kilowatt hour, or kilowatt-hour, (symbol kW·h, kW h or kWh) is a unit of energy equal to 1000 watt hours or 3.6 megajoules. For constant power, energy in watt hours is the product of power in watts and time in hours. The kilowatt hour is most commonly known as a billing unit for energy delivered to consumers by electric utilities. Also Known As kWh Related Terms British thermal unit, Electricity, Energy, Kilowatt, energy, electricity generation

2

LBNL-50991  

Office of Scientific and Technical Information (OSTI)

50991 50991 Preprint CO 2 -H 2 O Mixtures in the Geological Sequestration of CO 2 . I. Assessment and Calculation of Mutual Solubilities from 12 to 100 °C and up to 600 bar. Nicolas Spycher, Karsten Pruess Earth Sciences Division and Jonathan Ennis-King CSIRO Petroleum July 2002 Submitted to Geochimica et Cosmochimica Acta LBNL-50991 CO 2 -H 2 O MIXTURES IN THE GEOLOGICAL SEQUESTRATION OF CO 2 . I. ASSESSMENT AND CALCULATION OF MUTUAL SOLUBILITIES FROM 12 TO 100 °C AND UP TO 600 BAR. NICOLAS SPYCHER KARSTEN PRUESS Earth Sciences Division, Lawrence Berkeley National Laboratory MS 90-1116, 1 Cyclotron Road, Berkeley, California, USA and JONATHAN ENNIS-KING CSIRO Petroleum, P.O. Box 3000, Glen Waverley 3150, Australia Submitted to Geochimica et Cosmochimica Acta

3

max kwh | OpenEI Community  

Open Energy Info (EERE)

max kwh max kwh Home Ewilson's picture Submitted by Ewilson(53) Contributor 4 January, 2013 - 08:42 Rates with tier problems max kwh tiers I've detected that the following rates all have the improper number of "Max kWh" values (should be one less than the number of charges, since the highest tier is always "all remaining"). This is likely due to users not understanding the meaning of "Max kWh"--often I see things like: "300, 700, 1000" (derived from "first 300, next 700, greater than 1000") which should be entered as "300, 1000". This is why we need checks on input that prevent users from entering this incorrectly. Here is the list (my script only checked residential rates): Syndicate content 429 Throttled (bot load)

4

kWh | OpenEI  

Open Energy Info (EERE)

kWh kWh Dataset Summary Description This dataset contains hourly load profile data for 16 commercial building types (based off the DOE commercial reference building models) and residential buildings (based off the Building America House Simulation Protocols). This dataset also includes the Residential Energy Consumption Survey (RECS) for statistical references of building types by location. Source Commercial and Residential Reference Building Models Date Released April 18th, 2013 (9 months ago) Date Updated July 02nd, 2013 (7 months ago) Keywords building building demand building load Commercial data demand Energy Consumption energy data hourly kWh load profiles Residential Data Quality Metrics Level of Review Some Review Comment Temporal and Spatial Coverage Frequency Annually

5

Average Price (Cents/kilowatthour) by State by Provider, 1990-2012  

U.S. Energy Information Administration (EIA) Indexed Site

Average Price (Cents/kilowatthour) by State by Provider, 1990-2012" Average Price (Cents/kilowatthour) by State by Provider, 1990-2012" "Year","State","Industry Sector Category","Residential","Commercial","Industrial","Transportation","Other","Total" 2012,"AK","Total Electric Industry",17.88,14.93,16.82,0,"NA",16.33 2012,"AL","Total Electric Industry",11.4,10.63,6.22,0,"NA",9.18 2012,"AR","Total Electric Industry",9.3,7.71,5.77,11.23,"NA",7.62 2012,"AZ","Total Electric Industry",11.29,9.53,6.53,0,"NA",9.81 2012,"CA","Total Electric Industry",15.34,13.41,10.49,7.17,"NA",13.53

6

Beyond kWh and kW demand: Understanding the new real-time electric power  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Beyond kWh and kW demand: Understanding the new real-time electric power Beyond kWh and kW demand: Understanding the new real-time electric power measurement system in LBNL Building 90 Speaker(s): Alex McEachern Date: January 14, 2010 - 12:00pm Location: 90-3122 In the Summer of 2009, LBNL researchers installed end-use sub-metering equipment and associated Energy Information System (EIS) tools to characterize energy use and comfort in Building 90. Seven of 40 key electric loads were measured using advanced meters that make sophisticated real-time measurements of dozens of power flow parameters, power disturbances, and harmonics. The talk will review some electrical engineering fundamentals, how use and interpret data measured in building 90 in real-time. The real-time data available includes power, volt-amps, VAR's, unbalance voltage and current, voltage and current distortion,

7

LBNL Ergo Team  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

LBNL Ergo Team LBNL Ergo Team With LBNL Ergo Advocates and Safety Coordinators, we have, together, built a world- class Ergonomics Program. In an effort to sustain this momentum, we"re launching a semi-annual forum for advancing our knowledge in ergonomics. Our first seminar will occur on Wednesday, February 22 nd from 1:30-3PM in Perseverance Hall. UC Prof. David Rempel, MD, MPH will discuss how recent research on computer use can help us all become more effective in our ergo work. Click here for further info on this world- renowned researcher. No need to sign up ahead of time, just come on down and bring your questions and curiosity - we"re sure it will be worth your while. Please see schedule at left. Volume 3, Issue 3 February 2012 By Popular Demand -- Ergo Seminar Series!

8

LBNL Community Advisory Group  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Organizing Framework Organizing Framework CAG Organizing Framework The Community Advisory Group Organizing Framework is composed of three primary components: CAG Purpose and Charge CAG Member Responsibilities Operating Principles CAG Membership and Participation Download a pdf of the CAG Organizing Framework. Purpose and Charge The purpose of the LBNL Community Advisory Group (CAG) is to provide input into the Lab's physical plans and development projects. The specific charge to this group is to: Advise LBNL staff on issues related to the environmental impacts of proposed planning and development projects; Articulate key community planning and design principles to be considered in the review of individual projects as well as to guide the physical development of LBNL overall; Identify recommended strategies and actions for addressing community

9

LBNL-40374 UC-426  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

LBNL-40374 LBNL-40374 UC-426 presented at the 7th International Conference on Ion Sources Taormina, Italy, September 7-13, 1997 and accepted for publication "as is" on Sept. 12, 1997 Review of Scientific Instruments Characterization of a low-energy constricted-plasma source André Anders 1 and Michael Kühn 2 1 Ernest Orlando Lawrence Berkeley National Laboratory, University of California, Berkeley, CA 94720 2 Institute of Physics, Technical University of Chemnitz, 09107 Chemnitz, Germany August 1997 Abstract The construction and principle of operation of the Constricted-Plasma Source are described. A supersonic plasma stream is produced by a special form of a dc-glow discharge, the constricted glow discharge. The discharge current and gas flow pass through an orifice of

10

Property:Incentive/PVComFitDolKWh | Open Energy Information  

Open Energy Info (EERE)

Property Property Edit with form History Facebook icon Twitter icon » Property:Incentive/PVComFitDolKWh Jump to: navigation, search Property Name Incentive/PVComFitDolKWh Property Type String Description Feed-in tariff for commercial systems. The $ amount per kWh generated such that the incentive is disbursed over time based on metered production. 100% of energy generated is exported; none is used on-site. Ex: TVA Green Power Switch $0.15/kWh; We Energies $0.225/kWh Format: $0.225 [1] References ↑ DSIRE Pages using the property "Incentive/PVComFitDolKWh" Showing 25 pages using this property. (previous 25) (next 25) A Alliant Energy (Wisconsin Power and Light) - Advanced Renewables Tariff (Wisconsin) + $0.25 + C CPS Energy - Solartricity Producer Program (Texas) + $0.27 +

11

Property:Incentive/PVResFitDolKWh | Open Energy Information  

Open Energy Info (EERE)

Property Property Edit with form History Facebook icon Twitter icon » Property:Incentive/PVResFitDolKWh Jump to: navigation, search Property Name Incentive/PVResFitDolKWh Property Type String Description Feed-in Tariff (FIT): The $ amount per kWh generated such that the incentive is disbursed over time based on metered production. 100% of energy generated is exported; none is used on-site. Ex: TVA Green Power Switch $0.15/kWh; We Energies $0.225/kWh Format: $0.225 [1] References ↑ DSIRE Pages using the property "Incentive/PVResFitDolKWh" Showing 25 pages using this property. (previous 25) (next 25) A Alliant Energy (Wisconsin Power and Light) - Advanced Renewables Tariff (Wisconsin) + $0.25 + C CPS Energy - Solartricity Producer Program (Texas) + $0.27 +

12

Property:Incentive/PVNPFitDolKWh | Open Energy Information  

Open Energy Info (EERE)

Property Property Edit with form History Facebook icon Twitter icon » Property:Incentive/PVNPFitDolKWh Jump to: navigation, search Property Name Incentive/PVNPFitDolKWh Property Type String Description Feed-in tariff for non-profit and/or government systems. The $ amount per kWh generated such that the incentive is disbursed over time based on metered production. 100% of energy generated is exported; none is used on-site. Ex: TVA Green Power Switch $0.15/kWh; We Energies $0.225/kWh Format: $0.225 [1] References ↑ DSIRE Pages using the property "Incentive/PVNPFitDolKWh" Showing 25 pages using this property. (previous 25) (next 25) A Alliant Energy (Wisconsin Power and Light) - Advanced Renewables Tariff (Wisconsin) + $0.25 + C CPS Energy - Solartricity Producer Program (Texas) + $0.27 +

13

NDCX-II project commencing at LBNL  

E-Print Network [OSTI]

AC52- 07NA27344, and by Princeton Plasma Physics LaboratoryLBNL, LLNL, and the Princeton Plasma Physics Laboratory (

Friedman, Alex

2010-01-01T23:59:59.000Z

14

LBNL Frequently Needed Proposal Information  

E-Print Network [OSTI]

National Laboratory was founded by Nobel Laureate, Dr. Ernest Orlando Lawrence in 1931. For more Orlando Lawrence Berkeley National Laboratory" LBNL/Office of Sponsored Projects Office Address Lawrence or Linda Nowell at lcnowell@lbl.gov (510) 486-6873. About Lawrence Berkeley National Laboratory Lawrence

15

Sheltering in Place at LBNL  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Sheltering in Place at LBNL Sheltering in Place at LBNL Speaker(s): Valerie Quiggley Date: November 2, 2004 - 12:00pm Location: Bldg. 90 Lab employees could be instructed by Lab management to "Shelter in Place", rather than to evacuate during an emergency situation created by a wildland fire approaching the Lab, or other emergencies involving outside air quality such as a biological or chemical accident, or even a terrorist attack. Would you know what to do if instructed to shelter in place? How could staying inside the building be safe if fire is raging outside? And what about the air conditioning system which draws air from outside to circulate inside the building? How do we keep smoke or other toxins outside while we shelter inside? Bring all your questions and attend this seminar

16

Simulation Research Group, LBNL, USA  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

* T. Hong () Simulation Research Group, LBNL, USA e-mail: thong@lbl.gov Building Energy Benchmarking between the United States and China: Methods and Challenges Tianzhen Hong 1,* , Le Yang 2 , Jianjun Xia 2 , Wei Feng 1 1 Lawrence Berkeley National Laboratory, 1 Cyclotron Road, Berkeley, CA 94720, USA 2 Tsinghua University, Beijing 100084, China Abstract. Currently, buildings in the U.S. account for more than 40% of total primary energy. In China the

17

LBNL Developing Countries Studies | Open Energy Information  

Open Energy Info (EERE)

LBNL Developing Countries Studies LBNL Developing Countries Studies (Redirected from Developing Countries Studies) Jump to: navigation, search Logo: Developing Countries Studies at LBNL Name Developing Countries Studies at LBNL Agency/Company /Organization Lawrence Berkeley National Laboratory Sector Energy Focus Area Energy Efficiency Topics GHG inventory, Resource assessment, Background analysis Resource Type Dataset, Software/modeling tools, Presentation Website http://ies.lbl.gov/node/251 References Lawrence Berkeley [1] Abstract LBNL's International Energy Studies Group is involved in a number of activities relating to energy use in developing countries and climate change. LBNL's International Energy Studies Group is involved in a number of activities relating to energy use in developing countries and climate

18

PASIG_LBNL_Storage.ppt  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Supporting DOE Science Supporting DOE Science Jason Hick jhick@lbl.gov NERSC LBNL http://www.nersc.gov/nusers/systems/HPSS/ http://www.nersc.gov/nusers/systems/NGF/ May 12, 2011 * Operated by UC for the DOE * NERSC serves a large population - Approximately 4000 users, 400 projects, 500 codes - Focus on "unique" resources * High-end computing systems * High-end storage systems - Large shared GPFS (a.k.a. NGF) - Large archive (a.k.a. HPSS) * Interface to high speed networking - ESnet soon to be 100Gb (a.k.a. ANI) * Our mission is to accelerate the pace of discovery by providing high performance computing, data, and communication services to the DOE Office of Science community. The Production Facility for DOE Office of Science 2010 storage usage by area of science.

19

LBNL Developing Countries Studies | Open Energy Information  

Open Energy Info (EERE)

Countries Studies Countries Studies Jump to: navigation, search Logo: Developing Countries Studies at LBNL Name Developing Countries Studies at LBNL Agency/Company /Organization Lawrence Berkeley National Laboratory Sector Energy Focus Area Energy Efficiency Topics GHG inventory, Resource assessment, Background analysis Resource Type Dataset, Software/modeling tools, Presentation Website http://ies.lbl.gov/node/251 References Lawrence Berkeley [1] Abstract LBNL's International Energy Studies Group is involved in a number of activities relating to energy use in developing countries and climate change. LBNL's International Energy Studies Group is involved in a number of activities relating to energy use in developing countries and climate change. Developed international energy use data and emissions scenarios for

20

Photo of the Week: LBNL Takes Over @Energy's Instagram! | Department...  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

LBNL Takes Over @Energy's Instagram Photo of the Week: LBNL Takes Over @Energy's Instagram May 15, 2014 - 3:16pm Addthis All day today, Lawrence Berkeley National Lab is taking...

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


21

A Next Generation Light Source Facility at LBNL  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

A Next Generation Light Source Facility at LBNL A Next Generation Light Source Facility at LBNL Author: Corlett, J.N. Publication Date: 04-12-2011 Publication Info: Lawrence Berkeley National Laboratory Permalink: http://escholarship.org/uc/item/81t3h97w Keywords: NGLS, FEL, 2 GeV superconducting linear accelerator, high-brightness, highrepetition- rate, high- repetition-rate (1 MHz) Local Identifier: LBNL Paper LBNL-4391E Preferred Citation:

22

LBNL International Energy Studies | Open Energy Information  

Open Energy Info (EERE)

LBNL International Energy Studies LBNL International Energy Studies (Redirected from International Energy Studies) Jump to: navigation, search Logo: International Energy Studies Name International Energy Studies Agency/Company /Organization Lawrence Berkeley National Laboratory Sector Energy, Land Focus Area Energy Efficiency, Forestry Topics Implementation, GHG inventory, Policies/deployment programs, Resource assessment, Pathways analysis, Background analysis Resource Type Dataset Website http://ies.lbl.gov References IES Homepage[1] Abstract The International Energy Studies (IES) Group has been active for more than 25 years and is composed of scientists active on the world forum in the areas of energy, forestry, and climate research. Recently LBNL and UC Berkeley also initiated a new program on India the Berkeley India Joint Leadership on Energy and Environment (BIJLEE).

23

LBNL/PUB-5515 Ernest Orlando Lawrence  

E-Print Network [OSTI]

LBNL/PUB-5515 Report on Ernest Orlando Lawrence Berkeley National Laboratory Laboratory Directed Research and Development Program FY 2006 Ernest Orlando Lawrence Berkeley National Laboratory Berkeley, CA of California. Lawrence Berkeley Laboratory is an equal opportunity employer. #12;iii Table of Contents

24

LBNL-Climate Change and International Studies | Open Energy Information  

Open Energy Info (EERE)

LBNL-Climate Change and International Studies LBNL-Climate Change and International Studies Jump to: navigation, search Name LBNL-Climate Change and International Studies Agency/Company /Organization Lawrence Berkeley National Laboratory Sector Energy, Land Topics Co-benefits assessment Resource Type Training materials, Lessons learned/best practices Website http://eetd.lbl.gov/ea/EA_C_I. References LBNL CC and Intl[1] "LBNL-Climate Change and International Studies program generates and interprets information to inform governments and international institutions on energy-related issues to help them formulate energy and environmental policies." References ↑ "LBNL CC and Intl" Retrieved from "http://en.openei.org/w/index.php?title=LBNL-Climate_Change_and_International_Studies&oldid=333866

25

LBNL's 75th Anniversary Film Montage  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

LBNL's 75th Anniversary Film Montage LBNL's 75th Anniversary Film Montage Speaker(s): Donald Grether Date: December 7, 2006 - 12:00pm Location: 90-3122 Seminar Host/Point of Contact: Donald Grether The Laboratory's 75th Anniversary Symposium and Gala Dinner were held on November 14, 2006. For the occasion the Lab's photographer, Roy Kaltschmidt, prepared a 15-minute long movie that is a first-rate "Ken Burns style" linear montage of photos from the Lab's founding in 1931 to the present day. The movie is not narrated but rather has background music. It was shown with music at the Symposium to much applause, and silently on a flat panel display at the dinner. It was made available on a DVD to those who attended the dinner. The movie will be screened twice during this Dec. 7th seminar: once with the background music on and, for those interested, a

26

Energy Efficiency at LBNL | Open Energy Information  

Open Energy Info (EERE)

at LBNL at LBNL Jump to: navigation, search The mission of Berkeley Lab's Environmental Energy Technologies Division is to perform analysis, research and development leading to better energy technologies and reduction of adverse energy-related environmental impacts. Our work increases the efficiency of energy use, reduces its environmental effects, provides the nation with environmental benefits, and helps developing nations achieve similar goals through technical advice. EETD carries out its work through the support of the U.S. Department of Energy (the Division's primary sponsor), other federal entities, state governments and the private sector. Our staff of nearly 400 represents a diverse cross section of fields and skills, ranging from architecture, physics, and mechanical engineering to economics and public policy.

27

LBNL-Cookstoves Projects | Open Energy Information  

Open Energy Info (EERE)

Cookstoves Projects Cookstoves Projects Jump to: navigation, search Name LBNL-Cookstoves Projects Agency/Company /Organization Lawrence Berkeley National Laboratory (LBNL) Sector Energy Focus Area Biomass, - Biomass Combustion Topics Co-benefits assessment, - Energy Access Website http://cookstoves.lbl.gov/ Country Sudan, Ethiopia, Haiti, Mongolia Northern Africa, Eastern Africa, Caribbean, Eastern Asia References Website[1] "In 2005, the U.S. government asked Dr. Ashok Gadgil, Director of Lawrence Berkeley National Lab's Environmental Energy Technologies Division, for a solution to this grave problem. His team designed a fuel-efficient cookstove which is tailored to Darfur's climate and cooking. The Berkeley-Darfur Stove requires less than half the fuel of traditional

28

LBNL Windows & Daylighting Software -- WINDOW Documentation  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Cellular / Honeycomb Shades Cellular / Honeycomb Shades Updated 09/30/2013 It is now possible to model cellular / honeycomb shading systems in the Shading System Library and then add them to a glazing system in the Glazing System Library. NOTE: Before attempting to calculate a glazing system with a cellular shade, you must make the following change to the THERM7.ini file, which is located in C:\Users\Public\LBNL\Settings. Close WINDOW7 before making this change. DocPath=C:\Users\Public\LBNL\WINDOW7\debug Shading Layer Library A cellular / honeycomb shade can now be defined in the Shading Layer Library. Defining this type of shading system requires an XML file which contains information about the cell geometry and the material thermal and optical properties. WINDOW can model two different types of cellular shades:

29

LBNL Window & Daylighting Software -- CGDB  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Overview Overview The LBNL WINDOW and THERM simulation programs (versions 6 and higher) have the capability to model "complex glazing systems" which include woven shades, venetian blinds, fritted glass, and other systems that can be characterized by BSDF (Bi-Directional Scattering Distribution Function) files. To support the modeling of these complex systems, it is necessary to characterize the optical and thermal properties of the materials and the systems being modeled. The Complex Glazing Database (CGDB) contains the data needed to model various manufacturers' systems. LBNL is still developing the measuring and submittal procedures so that manufacturers can submit measured data for review and inclusion in future CGDB releases. When these procedures are complete, it is hoped that manufacturers will measure and submit data for their products to LBNL for inclusion in the CGDB. In a similar process to the IGDB (International Glazing Database) it is envisioned that the CGDB will be released multiple times per year as new materials and systems are measured and added to the database.

30

11. 2.. 30 LBNL-41343 ERNEST ORLANDO LAWRENCE  

E-Print Network [OSTI]

11. 2.. 30 LBNL-41343 ERNEST ORLANDO LAWRENCE BERKELEY NATIONAL LABORATORY Steady-State Solution Government or any agency thereof. or The Regents of the University of California. Ernest Orlando Lawrence Berkeley National Laboratory is an equal opportunity employer. #12;LBNL-41343 STEADY-STATE SOLUTION

31

LBNL International Energy Studies | Open Energy Information  

Open Energy Info (EERE)

Studies Studies Jump to: navigation, search Logo: International Energy Studies Name International Energy Studies Agency/Company /Organization Lawrence Berkeley National Laboratory Sector Energy, Land Focus Area Energy Efficiency, Forestry Topics Implementation, GHG inventory, Policies/deployment programs, Resource assessment, Pathways analysis, Background analysis Resource Type Dataset Website http://ies.lbl.gov References IES Homepage[1] Abstract The International Energy Studies (IES) Group has been active for more than 25 years and is composed of scientists active on the world forum in the areas of energy, forestry, and climate research. Recently LBNL and UC Berkeley also initiated a new program on India the Berkeley India Joint Leadership on Energy and Environment (BIJLEE).

32

Lawrence Berkeley National Laboratory (LBNL) | Open Energy Information  

Open Energy Info (EERE)

Lawrence Berkeley National Laboratory (LBNL) Lawrence Berkeley National Laboratory (LBNL) (Redirected from LBNL) Jump to: navigation, search Logo: LBNL Name LBNL Address 1 Cyclotron Road Place Berkeley, California Zip 94720 Region Bay Area Coordinates 37.876917°, -122.25023° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":37.876917,"lon":-122.25023,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

33

Property:Building/SPBreakdownOfElctrcityUseKwhM2Total | Open Energy  

Open Energy Info (EERE)

SPBreakdownOfElctrcityUseKwhM2Total" SPBreakdownOfElctrcityUseKwhM2Total" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 71.4577086539 + Sweden Building 05K0002 + 110.926946534 + Sweden Building 05K0003 + 72.9096074806 + Sweden Building 05K0004 + 66.0248923654 + Sweden Building 05K0005 + 54.8654809632 + Sweden Building 05K0006 + 65.291976787 + Sweden Building 05K0007 + 65.5403331042 + Sweden Building 05K0008 + 41.6418235453 + Sweden Building 05K0009 + 56.5413268466 + Sweden Building 05K0010 + 150.269021739 + Sweden Building 05K0011 + 27.5018481341 + Sweden Building 05K0012 + 37.9937990385 + Sweden Building 05K0013 + 68.8990371973 + Sweden Building 05K0014 + 166.794253904 + Sweden Building 05K0015 + 71.0813662687 + Sweden Building 05K0016 + 38.5267410327 +

34

Property:Building/SPPurchasedEngyPerAreaKwhM2Total | Open Energy  

Open Energy Info (EERE)

SPPurchasedEngyPerAreaKwhM2Total" SPPurchasedEngyPerAreaKwhM2Total" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 221.549575215 + Sweden Building 05K0002 + 213.701117318 + Sweden Building 05K0003 + 195.801526718 + Sweden Building 05K0004 + 174.148148148 + Sweden Building 05K0005 + 340.088495575 + Sweden Building 05K0006 + 211.255924171 + Sweden Building 05K0007 + 144.028151521 + Sweden Building 05K0008 + 171.282051282 + Sweden Building 05K0009 + 140.296360236 + Sweden Building 05K0010 + 300.961098398 + Sweden Building 05K0011 + 98.1045751634 + Sweden Building 05K0012 + 106.609793929 + Sweden Building 05K0013 + 175.776187637 + Sweden Building 05K0014 + 291.160427408 + Sweden Building 05K0015 + 174.193548387 + Sweden Building 05K0016 + 145.793794187 +

35

Property:Building/SPPurchasedEngyPerAreaKwhM2DstrtHeating | Open Energy  

Open Energy Info (EERE)

Property Property Edit with form History Facebook icon Twitter icon » Property:Building/SPPurchasedEngyPerAreaKwhM2DstrtHeating Jump to: navigation, search This is a property of type String. District heating Pages using the property "Building/SPPurchasedEngyPerAreaKwhM2DstrtHeating" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 111.56331078 + Sweden Building 05K0002 + 72.7932960894 + Sweden Building 05K0003 + 111.899416255 + Sweden Building 05K0004 + 72.865497076 + Sweden Building 05K0005 + 285.840707965 + Sweden Building 05K0006 + 128.449958182 + Sweden Building 05K0007 + 63.8377147588 + Sweden Building 05K0008 + 115.128205128 + Sweden Building 05K0009 + 66.5515753129 + Sweden Building 05K0010 + 148.741418764 +

36

Property:Building/SPBreakdownOfElctrcityUseKwhM2Misc | Open Energy  

Open Energy Info (EERE)

SPBreakdownOfElctrcityUseKwhM2Misc SPBreakdownOfElctrcityUseKwhM2Misc Jump to: navigation, search This is a property of type String. Miscellaneous Pages using the property "Building/SPBreakdownOfElctrcityUseKwhM2Misc" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.0 + Sweden Building 05K0002 + 9.09953195331 + Sweden Building 05K0003 + 8.78442379242 + Sweden Building 05K0004 + 0.0 + Sweden Building 05K0005 + 0.0 + Sweden Building 05K0006 + 0.0 + Sweden Building 05K0007 + 12.9530389597 + Sweden Building 05K0008 + 6.03377747253 + Sweden Building 05K0009 + 0.0 + Sweden Building 05K0010 + 10.9950724049 + Sweden Building 05K0011 + 0.0 + Sweden Building 05K0012 + 0.0 + Sweden Building 05K0013 + 14.2856105095 + Sweden Building 05K0014 + 27.8718727739 +

37

Property:Building/SPPurchasedEngyPerAreaKwhM2Oil-FiredBoiler | Open Energy  

Open Energy Info (EERE)

SPPurchasedEngyPerAreaKwhM2Oil-FiredBoiler SPPurchasedEngyPerAreaKwhM2Oil-FiredBoiler Jump to: navigation, search This is a property of type String. Oil-fired boiler Pages using the property "Building/SPPurchasedEngyPerAreaKwhM2Oil-FiredBoiler" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.0 + Sweden Building 05K0002 + 0.0 + Sweden Building 05K0003 + 0.0 + Sweden Building 05K0004 + 0.0 + Sweden Building 05K0005 + 0.0 + Sweden Building 05K0006 + 0.0 + Sweden Building 05K0007 + 0.0 + Sweden Building 05K0008 + 0.0 + Sweden Building 05K0009 + 0.0 + Sweden Building 05K0010 + 0.0 + Sweden Building 05K0011 + 0.0 + Sweden Building 05K0012 + 0.0 + Sweden Building 05K0013 + 0.0 + Sweden Building 05K0014 + 0.0 + Sweden Building 05K0015 + 0.0 + Sweden Building 05K0016 + 0.0 +

38

Property:Building/SPBreakdownOfElctrcityUseKwhM2HeatPumps | Open Energy  

Open Energy Info (EERE)

SPBreakdownOfElctrcityUseKwhM2HeatPumps SPBreakdownOfElctrcityUseKwhM2HeatPumps Jump to: navigation, search This is a property of type String. Heat pumps Pages using the property "Building/SPBreakdownOfElctrcityUseKwhM2HeatPumps" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.0 + Sweden Building 05K0002 + 0.0 + Sweden Building 05K0003 + 0.0 + Sweden Building 05K0004 + 0.0 + Sweden Building 05K0005 + 0.0 + Sweden Building 05K0006 + 0.0 + Sweden Building 05K0007 + 0.0 + Sweden Building 05K0008 + 0.0 + Sweden Building 05K0009 + 0.0 + Sweden Building 05K0010 + 0.0 + Sweden Building 05K0011 + 0.0 + Sweden Building 05K0012 + 0.0 + Sweden Building 05K0013 + 0.0 + Sweden Building 05K0014 + 0.0 + Sweden Building 05K0015 + 0.0 + Sweden Building 05K0016 + 0.0 +

39

LBNL Windows & Daylighting Software -- THERM  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

THERM 5.2 (older version) THERM 5.2 (older version) Download New Features Knowledge Base (Check here first if you are experiencing a problem with the software) Documentation Two-Dimensional Building Heat-Transfer Modeling THERM is a state-of-the-art, Microsoft Windows™-based computer program developed at Lawrence Berkeley National Laboratory (LBNL) for use by building component manufacturers, engineers, educators, students, architects, and others interested in heat transfer. Using THERM, you can model two-dimensional heat-transfer effects in building components such as windows, walls, foundations, roofs, and doors; appliances; and other products where thermal bridges are of concern. THERM's heat-transfer analysis allows you to evaluate a product’s energy efficiency and local temperature patterns, which may relate directly to problems with

40

The Future of Buildings Research at LBNL  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

The Future of Buildings Research at LBNL An Interview with Mark Levine, Director of the Environmental Energy Technologies Division Mark Levine Mark Levine Mark Levine is the newly appointed Director of Berkeley Lab's Environmental Energy Technologies Division (formerly Energy & Environment). He was the head of the Energy Analysis Program from 1986 until his appointment in March. Levine received a B.S. in chemistry from Princeton, and a doctorate in chemistry from the University of California, Berkeley. Before joining Berkeley Lab in 1978, he was a staff scientist at the Ford Foundation Energy Project, and a senior energy policy analyst at SRI International in Menlo Park, Calif. His current research interests include energy efficiency in China and global energy-demand studies. Levine is on the boards of

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


41

Risk-Related research at LBNL  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Risk-Related Research at Lawrence Berkeley National Laboratory Risk-Related Research at Lawrence Berkeley National Laboratory Table of Contents Human Exposure Assessment Cancer Risk Assessment Extrapolation of Cancer Risks from Animals to Humans Biodosimetry to Assess Human Genotoxicity from Mutagenic or Clastogenic Agents Transgenic Mouse Models Biological Effects of Complex Chemical Mixtures Physiologically-Based Pharmacokinetic (PBPK) and Cancer Models Electromagnetic Fields Risks of Ionizing Radiation in Space Risk-Based Remediation Strategy for Kesterson Reservoir Wetland Restoration and Sediment Quality Integrated, Risk-Based Environmental Clean-up SELECT: Environmental Decision-Making Software Introduction The Ernest Orlando Lawrence Berkeley National Laboratory (LBNL) conducts research to improve the scientific basis of risk assessment.

42

LBNL's In-House Energy Management Program  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

1 1 LBNL's In-House Energy Management Program IHEM retrofit projects save Berkeley Lab $2.3 million per year in electricity costs. The increase in energy use after 1994 reflects the start-up of new experimental facilities. Technologies developed at Lawrence Berkeley National Laboratory's Center for Building Science have helped energy users in the U.S. and throughout the world save energy since the 1970s. To save energy and money by applying energy-efficient technology and practices in its own facilities, as well as set an example for the rest of the world, Berkeley Lab launched an energy-savings program in 1985. The efforts of the In-House Energy Management Program (IHEM) have led to an annual savings of $2.3 million in energy costs at Berkeley Lab. Additional benefits include reduced

43

LBNL Windows & Daylighting Software -- WINDOW Documentation  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

CGDB Import Into WINDOW CGDB Import Into WINDOW Updated: 11/14/12 Detailed Instructions for Importing CGDB data into WINDOW These instructions apply to either WINDOW 6 or 7. WINDOW 6 vs WINDOW 7 Because the database structure of WINDOW 6 is different that WINDOW 7, there are different CGDB files to go with each version of WINDOW. There are also different versions of the XML files for each version, because in WINDOW 7 some problems with the files were fixed. Setup of CGDB The CGDB consists of a WINDOW database of records in the Shading Layer, Shade Material Library, and Glass Library, as well as a set of text files for systems that reference BSDF XML files. Database: The installation will put two databases into the "LBNL Shared" directory: (the location will depend on your operating system):

44

Property:Building/SPPurchasedEngyPerAreaKwhM2ElctrcHeating | Open Energy  

Open Energy Info (EERE)

SPPurchasedEngyPerAreaKwhM2ElctrcHeating" SPPurchasedEngyPerAreaKwhM2ElctrcHeating" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.915704329247 + Sweden Building 05K0002 + 0.0 + Sweden Building 05K0003 + 0.0 + Sweden Building 05K0004 + 0.0 + Sweden Building 05K0005 + 0.745132743363 + Sweden Building 05K0006 + 0.0 + Sweden Building 05K0007 + 0.0 + Sweden Building 05K0008 + 0.0 + Sweden Building 05K0009 + 0.0 + Sweden Building 05K0010 + 0.0 + Sweden Building 05K0011 + 0.0 + Sweden Building 05K0012 + 0.0 + Sweden Building 05K0013 + 0.0 + Sweden Building 05K0014 + 0.0 + Sweden Building 05K0015 + 25.8064516129 + Sweden Building 05K0016 + 5.89159465829 + Sweden Building 05K0017 + 0.0 + Sweden Building 05K0018 + 0.0 + Sweden Building 05K0019 + 0.0 +

45

Property:Building/SPBreakdownOfElctrcityUseKwhM2ElctrcHeating | Open Energy  

Open Energy Info (EERE)

SPBreakdownOfElctrcityUseKwhM2ElctrcHeating" SPBreakdownOfElctrcityUseKwhM2ElctrcHeating" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.915704329247 + Sweden Building 05K0002 + 0.0 + Sweden Building 05K0003 + 0.0 + Sweden Building 05K0004 + 0.0 + Sweden Building 05K0005 + 0.745132743363 + Sweden Building 05K0006 + 0.0 + Sweden Building 05K0007 + 0.0 + Sweden Building 05K0008 + 0.0 + Sweden Building 05K0009 + 0.0 + Sweden Building 05K0010 + 0.0 + Sweden Building 05K0011 + 0.0 + Sweden Building 05K0012 + 0.0 + Sweden Building 05K0013 + 0.0 + Sweden Building 05K0014 + 0.0 + Sweden Building 05K0015 + 25.8064516129 + Sweden Building 05K0016 + 5.89159465829 + Sweden Building 05K0017 + 0.0 + Sweden Building 05K0018 + 0.0 + Sweden Building 05K0019 + 0.0 +

46

Property:Building/SPPurchasedEngyPerAreaKwhM2OtherElctrty | Open Energy  

Open Energy Info (EERE)

OtherElctrty OtherElctrty Jump to: navigation, search This is a property of type String. Other electricity Pages using the property "Building/SPPurchasedEngyPerAreaKwhM2OtherElctrty" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 70.305743501 + Sweden Building 05K0002 + 95.9357541899 + Sweden Building 05K0003 + 72.2496632241 + Sweden Building 05K0004 + 65.8830409357 + Sweden Building 05K0005 + 53.5026548673 + Sweden Building 05K0006 + 58.7608028994 + Sweden Building 05K0007 + 61.5607534672 + Sweden Building 05K0008 + 40.3846153846 + Sweden Building 05K0009 + 56.4810818587 + Sweden Building 05K0010 + 152.219679634 + Sweden Building 05K0011 + 25.5555555556 + Sweden Building 05K0012 + 35.8807888323 + Sweden Building 05K0013 + 61.3267863536 +

47

Property:Building/SPBreakdownOfElctrcityUseKwhM2Pumps | Open Energy  

Open Energy Info (EERE)

Pumps Pumps Jump to: navigation, search This is a property of type String. Pumps Pages using the property "Building/SPBreakdownOfElctrcityUseKwhM2Pumps" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 6.37190900733 + Sweden Building 05K0002 + 6.03888185355 + Sweden Building 05K0003 + 3.38991548528 + Sweden Building 05K0004 + 4.33303636174 + Sweden Building 05K0005 + 2.75390897598 + Sweden Building 05K0006 + 7.77750996655 + Sweden Building 05K0007 + 1.66724551261 + Sweden Building 05K0008 + 3.32543498168 + Sweden Building 05K0009 + 3.08636405861 + Sweden Building 05K0010 + 14.8373684211 + Sweden Building 05K0011 + 1.47492819795 + Sweden Building 05K0012 + 3.32673206926 + Sweden Building 05K0013 + 2.63132906976 +

48

Property:Building/SPBreakdownOfElctrcityUseKwhM2LargeComputersServers |  

Open Energy Info (EERE)

LargeComputersServers LargeComputersServers Jump to: navigation, search This is a property of type String. Large computers / servers Pages using the property "Building/SPBreakdownOfElctrcityUseKwhM2LargeComputersServers" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 2.88701226026 + Sweden Building 05K0002 + 0.0 + Sweden Building 05K0003 + 0.0 + Sweden Building 05K0004 + 3.90838206628 + Sweden Building 05K0005 + 0.697674418605 + Sweden Building 05K0006 + 1.18332311465 + Sweden Building 05K0007 + 11.4098804421 + Sweden Building 05K0008 + 0.0 + Sweden Building 05K0009 + 0.556088941246 + Sweden Building 05K0010 + 10.0228832952 + Sweden Building 05K0011 + 0.471022727273 + Sweden Building 05K0012 + 0.774049003718 + Sweden Building 05K0013 + 0.0 +

49

Property:Building/SPBreakdownOfElctrcityUseKwhM2Elevators | Open Energy  

Open Energy Info (EERE)

Elevators Elevators Jump to: navigation, search This is a property of type String. Elevators Pages using the property "Building/SPBreakdownOfElctrcityUseKwhM2Elevators" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.0 + Sweden Building 05K0002 + 0.139664804469 + Sweden Building 05K0003 + 5.78356533453 + Sweden Building 05K0004 + 0.0116959064327 + Sweden Building 05K0005 + 0.0 + Sweden Building 05K0006 + 0.0 + Sweden Building 05K0007 + 0.699648105982 + Sweden Building 05K0008 + 0.192307692308 + Sweden Building 05K0009 + 0.0661775284132 + Sweden Building 05K0010 + 0.0 + Sweden Building 05K0011 + 0.0 + Sweden Building 05K0012 + 0.0 + Sweden Building 05K0013 + 0.163674492353 + Sweden Building 05K0014 + 2.7497571546 +

50

Property:Building/SPBreakdownOfElctrcityUseKwhM2Fans | Open Energy  

Open Energy Info (EERE)

Fans Fans Jump to: navigation, search This is a property of type String. Fans Pages using the property "Building/SPBreakdownOfElctrcityUseKwhM2Fans" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 5.21311928139 + Sweden Building 05K0002 + 18.5995610535 + Sweden Building 05K0003 + 20.3514016294 + Sweden Building 05K0004 + 8.08671679198 + Sweden Building 05K0005 + 16.0166245259 + Sweden Building 05K0006 + 10.358795651 + Sweden Building 05K0007 + 8.3953561818 + Sweden Building 05K0008 + 9.28527472527 + Sweden Building 05K0009 + 12.8398873749 + Sweden Building 05K0010 + 20.0966982674 + Sweden Building 05K0011 + 6.90408963585 + Sweden Building 05K0012 + 8.60719192175 + Sweden Building 05K0013 + 16.7539365907 +

51

Property:Building/SPBreakdownOfElctrcityUseKwhM2Copiers | Open Energy  

Open Energy Info (EERE)

Copiers Copiers Jump to: navigation, search This is a property of type String. Copiers Pages using the property "Building/SPBreakdownOfElctrcityUseKwhM2Copiers" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.0 + Sweden Building 05K0002 + 0.85593220339 + Sweden Building 05K0003 + 0.447247706422 + Sweden Building 05K0004 + 0.0 + Sweden Building 05K0005 + 0.0 + Sweden Building 05K0006 + 0.0 + Sweden Building 05K0007 + 0.897811865554 + Sweden Building 05K0008 + 0.9 + Sweden Building 05K0009 + 0.0 + Sweden Building 05K0010 + 7.78032036613 + Sweden Building 05K0011 + 0.0 + Sweden Building 05K0012 + 0.0 + Sweden Building 05K0013 + 1.24104401228 + Sweden Building 05K0014 + 2.91414481058 + Sweden Building 05K0015 + 0.41935483871 +

52

Property:Building/SPPurchasedEngyPerAreaKwhM2ElctrtyTotal | Open Energy  

Open Energy Info (EERE)

ElctrtyTotal ElctrtyTotal Jump to: navigation, search This is a property of type String. Electricity, total Pages using the property "Building/SPPurchasedEngyPerAreaKwhM2ElctrtyTotal" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 71.2214478303 + Sweden Building 05K0002 + 95.9357541899 + Sweden Building 05K0003 + 72.2496632241 + Sweden Building 05K0004 + 65.8830409357 + Sweden Building 05K0005 + 54.2477876106 + Sweden Building 05K0006 + 58.7608028994 + Sweden Building 05K0007 + 61.5607534672 + Sweden Building 05K0008 + 40.3846153846 + Sweden Building 05K0009 + 56.4810818587 + Sweden Building 05K0010 + 152.219679634 + Sweden Building 05K0011 + 25.5555555556 + Sweden Building 05K0012 + 35.8807888323 + Sweden Building 05K0013 + 61.3267863536 +

53

Property:Building/SPBreakdownOfElctrcityUseKwhM2CirculationFans | Open  

Open Energy Info (EERE)

CirculationFans CirculationFans Jump to: navigation, search This is a property of type String. Circulation fans Pages using the property "Building/SPBreakdownOfElctrcityUseKwhM2CirculationFans" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 13.3422495258 + Sweden Building 05K0002 + 0.0 + Sweden Building 05K0003 + 2.80646609789 + Sweden Building 05K0004 + 8.95823904901 + Sweden Building 05K0005 + 5.55016340076 + Sweden Building 05K0006 + 6.81308969891 + Sweden Building 05K0007 + 2.02541916787 + Sweden Building 05K0008 + 0.625641025641 + Sweden Building 05K0009 + 7.59721281624 + Sweden Building 05K0010 + 0.0 + Sweden Building 05K0011 + 0.757191316527 + Sweden Building 05K0012 + 6.04077487892 + Sweden Building 05K0013 + 0.767224182906 +

54

Property:Building/SPPurchasedEngyPerAreaKwhM2DstrtColg | Open Energy  

Open Energy Info (EERE)

DstrtColg DstrtColg Jump to: navigation, search This is a property of type String. District cooling Pages using the property "Building/SPPurchasedEngyPerAreaKwhM2DstrtColg" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 38.7648166048 + Sweden Building 05K0002 + 44.9720670391 + Sweden Building 05K0003 + 11.6524472384 + Sweden Building 05K0004 + 35.3996101365 + Sweden Building 05K0005 + 0.0 + Sweden Building 05K0006 + 24.0451630889 + Sweden Building 05K0007 + 18.6296832954 + Sweden Building 05K0008 + 15.7692307692 + Sweden Building 05K0009 + 17.2637030643 + Sweden Building 05K0010 + 0.0 + Sweden Building 05K0011 + 5.09803921569 + Sweden Building 05K0012 + 15.0675825393 + Sweden Building 05K0013 + 21.4822771214 +

55

Property:Building/SPBreakdownOfElctrcityUseKwhM2AirCompressors | Open  

Open Energy Info (EERE)

AirCompressors AirCompressors Jump to: navigation, search This is a property of type String. Air compressors Pages using the property "Building/SPBreakdownOfElctrcityUseKwhM2AirCompressors" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 1.33591087145 + Sweden Building 05K0002 + 0.0 + Sweden Building 05K0003 + 0.0 + Sweden Building 05K0004 + 1.86549707602 + Sweden Building 05K0005 + 2.04651162791 + Sweden Building 05K0006 + 1.92596566524 + Sweden Building 05K0007 + 0.0 + Sweden Building 05K0008 + 0.0 + Sweden Building 05K0009 + 0.970107495214 + Sweden Building 05K0010 + 0.0 + Sweden Building 05K0011 + 1.30894886364 + Sweden Building 05K0012 + 2.01978262942 + Sweden Building 05K0013 + 0.0 + Sweden Building 05K0014 + 0.0 +

56

Property:Building/SPBreakdownOfElctrcityUseKwhM2Lighting | Open Energy  

Open Energy Info (EERE)

This is a property of type String. This is a property of type String. Lighting Pages using the property "Building/SPBreakdownOfElctrcityUseKwhM2Lighting" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 13.6004313481 + Sweden Building 05K0002 + 51.2740526316 + Sweden Building 05K0003 + 25.3519773429 + Sweden Building 05K0004 + 14.5539566929 + Sweden Building 05K0005 + 17.1088606195 + Sweden Building 05K0006 + 11.7758321884 + Sweden Building 05K0007 + 16.0796522459 + Sweden Building 05K0008 + 15.7053876478 + Sweden Building 05K0009 + 19.44639866 + Sweden Building 05K0010 + 37.0625 + Sweden Building 05K0011 + 12.9336787565 + Sweden Building 05K0012 + 12.985779547 + Sweden Building 05K0013 + 21.6361810339 + Sweden Building 05K0014 + 29.853732347 +

57

Property:Building/SPBreakdownOfElctrcityUseKwhM2LargeKitchens | Open Energy  

Open Energy Info (EERE)

LargeKitchens LargeKitchens Jump to: navigation, search This is a property of type String. Large kitchens Pages using the property "Building/SPBreakdownOfElctrcityUseKwhM2LargeKitchens" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.763086941039 + Sweden Building 05K0002 + 0.0 + Sweden Building 05K0003 + 0.0 + Sweden Building 05K0004 + 0.409356725146 + Sweden Building 05K0005 + 2.13953488372 + Sweden Building 05K0006 + 0.383200490497 + Sweden Building 05K0007 + 3.38701556508 + Sweden Building 05K0008 + 0.0 + Sweden Building 05K0009 + 0.294507436313 + Sweden Building 05K0010 + 0.0 + Sweden Building 05K0011 + 0.177556818182 + Sweden Building 05K0012 + 0.0953379731147 + Sweden Building 05K0013 + 0.0 + Sweden Building 05K0014 + 0.0 +

58

Property:Building/SPBreakdownOfElctrcityUseKwhM2Pcs | Open Energy  

Open Energy Info (EERE)

Pcs Pcs Jump to: navigation, search This is a property of type String. PCs Pages using the property "Building/SPBreakdownOfElctrcityUseKwhM2Pcs" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 26.0998626444 + Sweden Building 05K0002 + 22.2888135593 + Sweden Building 05K0003 + 4.12075688073 + Sweden Building 05K0004 + 22.9175048733 + Sweden Building 05K0005 + 6.03962790698 + Sweden Building 05K0006 + 15.790619252 + Sweden Building 05K0007 + 5.8172794947 + Sweden Building 05K0008 + 4.66333333333 + Sweden Building 05K0009 + 8.50154616404 + Sweden Building 05K0010 + 8.05491990847 + Sweden Building 05K0011 + 2.70028409091 + Sweden Building 05K0012 + 2.19353608542 + Sweden Building 05K0013 + 8.43270214944 +

59

Property:Building/SPBreakdownOfElctrcityUseKwhM2Printers | Open Energy  

Open Energy Info (EERE)

Printers Printers Jump to: navigation, search This is a property of type String. Printers Pages using the property "Building/SPBreakdownOfElctrcityUseKwhM2Printers" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.928422444931 + Sweden Building 05K0002 + 1.42372881356 + Sweden Building 05K0003 + 0.412844036697 + Sweden Building 05K0004 + 0.980506822612 + Sweden Building 05K0005 + 1.76744186047 + Sweden Building 05K0006 + 1.27988963826 + Sweden Building 05K0007 + 1.12158808933 + Sweden Building 05K0008 + 0.0 + Sweden Building 05K0009 + 0.765719334413 + Sweden Building 05K0010 + 1.01601830664 + Sweden Building 05K0011 + 0.774147727273 + Sweden Building 05K0012 + 1.11545428544 + Sweden Building 05K0013 + 0.549891248721 +

60

Property:Building/SPBreakdownOfElctrcityUseKwhM2SmallKitchensCoffeeRms |  

Open Energy Info (EERE)

SmallKitchensCoffeeRms SmallKitchensCoffeeRms Jump to: navigation, search This is a property of type String. Small kitchens / coffee rooms Pages using the property "Building/SPBreakdownOfElctrcityUseKwhM2SmallKitchensCoffeeRms" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.0 + Sweden Building 05K0002 + 1.20677966102 + Sweden Building 05K0003 + 1.46100917431 + Sweden Building 05K0004 + 0.0 + Sweden Building 05K0005 + 0.0 + Sweden Building 05K0006 + 2.53105456775 + Sweden Building 05K0007 + 1.08639747349 + Sweden Building 05K0008 + 0.910666666667 + Sweden Building 05K0009 + 2.06390811368 + Sweden Building 05K0010 + 3.29519450801 + Sweden Building 05K0011 + 0.0 + Sweden Building 05K0012 + 0.0 + Sweden Building 05K0013 + 1.54234902764 +

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


61

Property:Building/SPBreakdownOfElctrcityUseKwhM2Refrigeration | Open Energy  

Open Energy Info (EERE)

Refrigeration Refrigeration Jump to: navigation, search This is a property of type String. Refrigeration Pages using the property "Building/SPBreakdownOfElctrcityUseKwhM2Refrigeration" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.0 + Sweden Building 05K0002 + 0.0 + Sweden Building 05K0003 + 0.0 + Sweden Building 05K0004 + 0.0 + Sweden Building 05K0005 + 0.0 + Sweden Building 05K0006 + 2.77390577084 + Sweden Building 05K0007 + 0.0 + Sweden Building 05K0008 + 0.0 + Sweden Building 05K0009 + 0.0 + Sweden Building 05K0010 + 37.1080462614 + Sweden Building 05K0011 + 0.0 + Sweden Building 05K0012 + 0.0 + Sweden Building 05K0013 + 0.895094880057 + Sweden Building 05K0014 + 12.4536103016 + Sweden Building 05K0015 + 0.0 +

62

Design and testing of the HTS bearing for a 10 kWh flywheel system  

Science Journals Connector (OSTI)

Flywheels are of interest for a wide range of energy storage applications, from support of renewable resources to distributed power applications and uninterruptible power systems (UPS) (Day et al 2000 Proc. EESAT 2000 (Orlando, FL, Sept. 2000)). The use of high-temperature superconducting (HTS) bearings for such systems has significant advantages for applications requiring large amounts of energy to be stored with low parasitic losses and with minimal system maintenance. As flywheel systems increase in size, it becomes a significant challenge to provide adequate stiffness in these bearings without exceeding the strength limits of rotating magnet assemblies. The Boeing Company is designing and building a prototype flywheel of 10 kWh total stored energy and has focused much effort on the HTS bearing system. This paper will describe the general structure of the bearing and the steps taken to optimize its magnetic and structural performance and show recent test results.

A C Day; M Strasik; K E McCrary; P E Johnson; J W Gabrys; J R Schindler; R A Hawkins; D L Carlson; M D Higgins; J R Hull

2002-01-01T23:59:59.000Z

63

CAUSAL ANALYSIS PROGRAM MANUAL LBNL/PUB-5519 (2), Rev. 2  

E-Print Network [OSTI]

: Howard Hatayama Ernest Orlando Lawrence Berkeley National Laboratory #12;LBNL/PUB-5519 (2), Rev. 2 Page 2 of issues self-identified by Lawrence Berkeley National Laboratory (LBNL), identified through external

64

Transporting & Shipping Hazardous Materials at LBNL: Radioactive Materials  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Radioactive Materials Radioactive Materials Refer to transportation guidelines in the applicable Radioactive Work Authorization (RWA). Contact the Radiation Protection Group (x7652) if transportation assistance is needed or if radioactive materials need to be shipped. Refer to RPG's Zone sheet to identifying the RCT or HP for your building: https://ehswprod.lbl.gov/rpg/who_to_call.shtml Need radioactive material shipped from LBNL? Please complete the request for shipment form online, print, sign, and forward to your building assigned RPG support person: RPG Transportation - Request for Shipment Form: http://www.lbl.gov/ehs/rpg/assets/docs/Transportation4.pdf Receiving radioactive material at LBNL? If receiving radioactive material at LBNL; radioactive material should be sent to the following address:

65

Environment/Health/Safety (EHS): Operating Permits for LBNL Activities  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Operating Permits for LBNL Activities Operating Permits for LBNL Activities LBNL Main Site Agency Expiration Date Certified Unified Program Agency Permit and Registration Hazardous Materials Release Response Plan (Hazardous Materials Business Plan) Aboveground Petroleum Storage Tanks, Spill Prevention Control and Countermeasures Plan Underground Storage Tank Program Hazardous Waste Generator Program Tiered Permit Program for Onsite Treatment of Hazardous Wastes City of Berkeley March 1, 2014 Fuel Dispensing Sources at Building 76: E85 Unleaded Bay Area Air Quality Management District July 1, 2014 Stationary Air Emission Sources (28 permits): Diesel-powered Emergency Standby Generators: Buildings 2, 31, 37(2), 48, 50A, 50B, 55, 62, 64(2), 66, 67, 68, 70, 70A, 72, 74, 77, 84B, 85 and three (3) portable units

66

LBNL Building 90 Monitoring: Status Update and New Energy Information  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

LBNL Building 90 Monitoring: Status Update and New Energy Information LBNL Building 90 Monitoring: Status Update and New Energy Information System Features Speaker(s): Girish Ghatikar Jeff Propp Kevin Kircher Richard Diamond Steve Greenberg Tom Owen Date: December 14, 2009 - 1:00pm Location: 90-3122 (Additional speakers from EETD will be: Rick Diamond (lead), Steve Greenberg, Rish Ghatikar, Kevin Kircher & more...) On the LBNL site, Building 90 (B-90) is a 1960's vintage, 90,000 sq. ft., four-story building that is occupied by approximately 450 researchers and other staff (and growing!). In 2009, a team of EETD's Building Technologies Department researchers and facilities staff, with collaboration from subcontractors, initiated the B-90 Monitoring and Energy Information System (EIS) Project to understand the energy use and environmental conditions in B-90 in order

67

Property:Building/SPPurchasedEngyPerAreaKwhM2DigesterLandfillGas | Open  

Open Energy Info (EERE)

DigesterLandfillGas DigesterLandfillGas Jump to: navigation, search This is a property of type String. Digester / landfill gas Pages using the property "Building/SPPurchasedEngyPerAreaKwhM2DigesterLandfillGas" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.0 + Sweden Building 05K0002 + 0.0 + Sweden Building 05K0003 + 0.0 + Sweden Building 05K0004 + 0.0 + Sweden Building 05K0005 + 0.0 + Sweden Building 05K0006 + 0.0 + Sweden Building 05K0007 + 0.0 + Sweden Building 05K0008 + 0.0 + Sweden Building 05K0009 + 0.0 + Sweden Building 05K0010 + 0.0 + Sweden Building 05K0011 + 0.0 + Sweden Building 05K0012 + 0.0 + Sweden Building 05K0013 + 0.0 + Sweden Building 05K0014 + 0.0 + Sweden Building 05K0015 + 0.0 + Sweden Building 05K0016 + 0.0 +

68

Property:Building/SPBreakdownOfElctrcityUseKwhM2Laundry | Open Energy  

Open Energy Info (EERE)

Laundry Laundry Jump to: navigation, search This is a property of type String. Laundry Pages using the property "Building/SPBreakdownOfElctrcityUseKwhM2Laundry" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.0 + Sweden Building 05K0002 + 0.0 + Sweden Building 05K0003 + 0.0 + Sweden Building 05K0004 + 0.0 + Sweden Building 05K0005 + 0.0 + Sweden Building 05K0006 + 0.0 + Sweden Building 05K0007 + 0.0 + Sweden Building 05K0008 + 0.0 + Sweden Building 05K0009 + 0.0 + Sweden Building 05K0010 + 0.0 + Sweden Building 05K0011 + 0.0 + Sweden Building 05K0012 + 0.0 + Sweden Building 05K0013 + 0.0 + Sweden Building 05K0014 + 0.0 + Sweden Building 05K0015 + 0.0 + Sweden Building 05K0016 + 0.0 + Sweden Building 05K0017 + 0.0 +

69

Property:Building/SPPurchasedEngyPerAreaKwhM2WoodChips | Open Energy  

Open Energy Info (EERE)

WoodChips WoodChips Jump to: navigation, search This is a property of type String. Wood chips Pages using the property "Building/SPPurchasedEngyPerAreaKwhM2WoodChips" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.0 + Sweden Building 05K0002 + 0.0 + Sweden Building 05K0003 + 0.0 + Sweden Building 05K0004 + 0.0 + Sweden Building 05K0005 + 0.0 + Sweden Building 05K0006 + 0.0 + Sweden Building 05K0007 + 0.0 + Sweden Building 05K0008 + 0.0 + Sweden Building 05K0009 + 0.0 + Sweden Building 05K0010 + 0.0 + Sweden Building 05K0011 + 0.0 + Sweden Building 05K0012 + 0.0 + Sweden Building 05K0013 + 0.0 + Sweden Building 05K0014 + 0.0 + Sweden Building 05K0015 + 0.0 + Sweden Building 05K0016 + 0.0 + Sweden Building 05K0017 + 0.0 +

70

Property:Building/SPPurchasedEngyPerAreaKwhM2Pellets | Open Energy  

Open Energy Info (EERE)

Pellets Pellets Jump to: navigation, search This is a property of type String. Pellets Pages using the property "Building/SPPurchasedEngyPerAreaKwhM2Pellets" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.0 + Sweden Building 05K0002 + 0.0 + Sweden Building 05K0003 + 0.0 + Sweden Building 05K0004 + 0.0 + Sweden Building 05K0005 + 0.0 + Sweden Building 05K0006 + 0.0 + Sweden Building 05K0007 + 0.0 + Sweden Building 05K0008 + 0.0 + Sweden Building 05K0009 + 0.0 + Sweden Building 05K0010 + 0.0 + Sweden Building 05K0011 + 0.0 + Sweden Building 05K0012 + 0.0 + Sweden Building 05K0013 + 0.0 + Sweden Building 05K0014 + 0.0 + Sweden Building 05K0015 + 0.0 + Sweden Building 05K0016 + 0.0 + Sweden Building 05K0017 + 0.0 +

71

Property:Building/SPPurchasedEngyPerAreaKwhM2Other | Open Energy  

Open Energy Info (EERE)

This is a property of type String. This is a property of type String. Other Pages using the property "Building/SPPurchasedEngyPerAreaKwhM2Other" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.0 + Sweden Building 05K0002 + 0.0 + Sweden Building 05K0003 + 0.0 + Sweden Building 05K0004 + 0.0 + Sweden Building 05K0005 + 0.0 + Sweden Building 05K0006 + 0.0 + Sweden Building 05K0007 + 0.0 + Sweden Building 05K0008 + 0.0 + Sweden Building 05K0009 + 0.0 + Sweden Building 05K0010 + 0.0 + Sweden Building 05K0011 + 0.0 + Sweden Building 05K0012 + 0.0 + Sweden Building 05K0013 + 0.0 + Sweden Building 05K0014 + 0.0 + Sweden Building 05K0015 + 0.0 + Sweden Building 05K0016 + 0.0 + Sweden Building 05K0017 + 0.0 + Sweden Building 05K0018 + 0.0 +

72

Property:Building/SPPurchasedEngyPerAreaKwhM2Logs | Open Energy Information  

Open Energy Info (EERE)

Logs Logs Jump to: navigation, search This is a property of type String. Logs Pages using the property "Building/SPPurchasedEngyPerAreaKwhM2Logs" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.0 + Sweden Building 05K0002 + 0.0 + Sweden Building 05K0003 + 0.0 + Sweden Building 05K0004 + 0.0 + Sweden Building 05K0005 + 0.0 + Sweden Building 05K0006 + 0.0 + Sweden Building 05K0007 + 0.0 + Sweden Building 05K0008 + 0.0 + Sweden Building 05K0009 + 0.0 + Sweden Building 05K0010 + 0.0 + Sweden Building 05K0011 + 0.0 + Sweden Building 05K0012 + 0.0 + Sweden Building 05K0013 + 0.0 + Sweden Building 05K0014 + 0.0 + Sweden Building 05K0015 + 0.0 + Sweden Building 05K0016 + 0.0 + Sweden Building 05K0017 + 0.0 +

73

Property:Building/SPBreakdownOfElctrcityUseKwhM2ElctrcEngineHeaters | Open  

Open Energy Info (EERE)

ElctrcEngineHeaters ElctrcEngineHeaters Jump to: navigation, search This is a property of type String. Electric engine heaters Pages using the property "Building/SPBreakdownOfElctrcityUseKwhM2ElctrcEngineHeaters" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.0 + Sweden Building 05K0002 + 0.0 + Sweden Building 05K0003 + 0.0 + Sweden Building 05K0004 + 0.0 + Sweden Building 05K0005 + 0.0 + Sweden Building 05K0006 + 2.44788473329 + Sweden Building 05K0007 + 0.0 + Sweden Building 05K0008 + 0.0 + Sweden Building 05K0009 + 0.353408923575 + Sweden Building 05K0010 + 0.0 + Sweden Building 05K0011 + 0.0 + Sweden Building 05K0012 + 0.835160644485 + Sweden Building 05K0013 + 0.0 + Sweden Building 05K0014 + 0.0 + Sweden Building 05K0015 + 0.0 +

74

Property:Building/SPPurchasedEngyPerAreaKwhM2TownGas | Open Energy  

Open Energy Info (EERE)

TownGas TownGas Jump to: navigation, search This is a property of type String. Town gas Pages using the property "Building/SPPurchasedEngyPerAreaKwhM2TownGas" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.0 + Sweden Building 05K0002 + 0.0 + Sweden Building 05K0003 + 0.0 + Sweden Building 05K0004 + 0.0 + Sweden Building 05K0005 + 0.0 + Sweden Building 05K0006 + 0.0 + Sweden Building 05K0007 + 0.0 + Sweden Building 05K0008 + 0.0 + Sweden Building 05K0009 + 0.0 + Sweden Building 05K0010 + 0.0 + Sweden Building 05K0011 + 0.0 + Sweden Building 05K0012 + 0.0 + Sweden Building 05K0013 + 0.0 + Sweden Building 05K0014 + 0.0 + Sweden Building 05K0015 + 0.0 + Sweden Building 05K0016 + 0.0 + Sweden Building 05K0017 + 0.0 +

75

Property:Building/SPPurchasedEngyPerAreaKwhM2NaturalGas | Open Energy  

Open Energy Info (EERE)

NaturalGas NaturalGas Jump to: navigation, search This is a property of type String. Natural gas Pages using the property "Building/SPPurchasedEngyPerAreaKwhM2NaturalGas" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.0 + Sweden Building 05K0002 + 0.0 + Sweden Building 05K0003 + 0.0 + Sweden Building 05K0004 + 0.0 + Sweden Building 05K0005 + 0.0 + Sweden Building 05K0006 + 0.0 + Sweden Building 05K0007 + 0.0 + Sweden Building 05K0008 + 0.0 + Sweden Building 05K0009 + 0.0 + Sweden Building 05K0010 + 0.0 + Sweden Building 05K0011 + 0.0 + Sweden Building 05K0012 + 0.0 + Sweden Building 05K0013 + 0.0 + Sweden Building 05K0014 + 0.0 + Sweden Building 05K0015 + 0.0 + Sweden Building 05K0016 + 0.0 + Sweden Building 05K0017 + 0.0 +

76

Planned Changes to the LBNL Shuttle Bus System  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Planned Changes to the LBNL Shuttle Bus System Planned Changes to the LBNL Shuttle Bus System Speaker(s): Steve Black Date: December 5, 2006 - 12:00pm Location: 90-3122 BACKGROUND: Several recent issues of Today At Berkeley Lab, including for today, December 1, have called our attention to the planned changes to the Lab's shuttle bus system. If you have not yet viewed the description of the planned new system and the maps showing the new routes it is advisable for you to do so as the changes are significant, not just a "fine tuning". Several EETD staff members and shuttle bus riders have expressed serious concerns about the changes, which has prompted us to set up this special seminar. DESCRIPTION: Steve Black, who is fairly new to the Lab, has responsibility for a number of Laboratory support services

77

Microsoft Word - lbnl5401E-rev.2.doc  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Development of a Development of a Residential Integrated Ventilation Controller I.S. Walker, M.H. Sherman and D.J. Dickerhoff Environmental Energy Technologies Division December 2011 (revised July 2012) also known as LBNL-5401E This work was supported by the California Energy Commission Public Interest Energy Research Program BERG Grant #55044A/06-27and the Assistant Secretary for Energy Efficiency and Renewable Energy, Building Technologies Program, of the U.S. Department of Energy under contract No. DE-AC02- 05CH11231. LBNL 5554E 2 Disclaimer This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the

78

Heavy-ion Accelerators for Testing Microelectronic Components at LBNL |  

Office of Science (SC) Website

Heavy-ion Accelerators for Testing Heavy-ion Accelerators for Testing Microelectronic Components at LBNL Nuclear Physics (NP) NP Home About Research Facilities Science Highlights Benefits of NP Spinoff Applications Spinoff Archives SBIR/STTR Applications of Nuclear Science and Technology Funding Opportunities Nuclear Science Advisory Committee (NSAC) News & Resources Contact Information Nuclear Physics U.S. Department of Energy SC-26/Germantown Building 1000 Independence Ave., SW Washington, DC 20585 P: (301) 903-3613 F: (301) 903-3833 E: sc.np@science.doe.gov More Information » Spinoff Archives Heavy-ion Accelerators for Testing Microelectronic Components at LBNL Print Text Size: A A A RSS Feeds FeedbackShare Page Application/instrumentation: Use of heavy-ion accelerators for testing microelectronic components for

79

Lawrence Berkeley National Laboratory (LBNL) | Open Energy Information  

Open Energy Info (EERE)

form form View source History View New Pages Recent Changes All Special Pages Semantic Search/Querying Get Involved Help Apps Datasets Community Login | Sign Up Search Page Edit with form History Facebook icon Twitter icon » Lawrence Berkeley National Laboratory (LBNL) Jump to: navigation, search Logo: LBNL Name LBNL Address 1 Cyclotron Road Place Berkeley, California Zip 94720 Region Bay Area Coordinates 37.876917°, -122.25023° Loading map... {"minzoom":false,"mappingservice":"googlemaps3","type":"ROADMAP","zoom":14,"types":["ROADMAP","SATELLITE","HYBRID","TERRAIN"],"geoservice":"google","maxzoom":false,"width":"600px","height":"350px","centre":false,"title":"","label":"","icon":"","visitedicon":"","lines":[],"polygons":[],"circles":[],"rectangles":[],"copycoords":false,"static":false,"wmsoverlay":"","layers":[],"controls":["pan","zoom","type","scale","streetview"],"zoomstyle":"DEFAULT","typestyle":"DEFAULT","autoinfowindows":false,"kml":[],"gkml":[],"fusiontables":[],"resizable":false,"tilt":0,"kmlrezoom":false,"poi":true,"imageoverlays":[],"markercluster":false,"searchmarkers":"","locations":[{"text":"","title":"","link":null,"lat":37.876917,"lon":-122.25023,"alt":0,"address":"","icon":"","group":"","inlineLabel":"","visitedicon":""}]}

80

Global Nuclear Energy Initiative at LBNL | U.S. DOE Office of...  

Office of Science (SC) Website

Global Nuclear Energy Initiative at LBNL Nuclear Physics (NP) NP Home About Research Facilities Science Highlights Benefits of NP Applications of Nuclear Science Applications of...

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


81

LBNL-45363, CBP Note 333 BEAM-BEAM SIMULATIONS FOR SEPARATED BEAMS  

E-Print Network [OSTI]

LBNL-45363, CBP Note 333 BEAM-BEAM SIMULATIONS FOR SEPARATED BEAMS Miguel A. Furman, Center for Beam Physics, LBNL, Berkeley, CA 94720 Abstract We present beam-beam simulation results from a strong- strong gaussian code for separated beams for the LHC and RHIC. The frequency spectrum produced

Furman, Miguel

82

LBNL-46223, CBP Note 350 BEAM-BEAM SIMULATIONS FOR SEPARATED BEAMS IN THE LHC  

E-Print Network [OSTI]

LBNL-46223, CBP Note 350 BEAM-BEAM SIMULATIONS FOR SEPARATED BEAMS IN THE LHC M. A. Furman, W. C. Turner, Center for Beam Physics, LBNL, Berkeley, CA 94720, USA Abstract We present beam-beam simulation results from a strong- strong gaussian code for separated beams for the LHC. We focus on the possible

Furman, Miguel

83

Microsoft Word - AC Report Final LBNL format-2.docx  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

ERNEST ORLANDO LAWRENCE ERNEST ORLANDO LAWRENCE BERKELEY NATIONAL LABORATORY Cooling the Planet: Opportunities for Deployment of Superefficient Room Air Conditioners Nihar Shah 1 , Paul Waide 2 , Amol Phadke 1 LBNL-XXXX 1 Environmental Energy Technologies Division, International Energy Studies Group, Lawrence Berkeley National Laboratory 2 Navigant Consulting, Inc. This work was funded by the Bureau of Oceans and International Environmental and Scientific Affairs, U.S. Department of State, and administered by the U.S. Department of Energy in support of the Super-efficient Equipment and Appliance Deployment (SEAD) initiative through the U.S. Department of Energy under Contract No. DE-AC02-05CH11231 i Disclaimer This document was prepared as an account of work sponsored by the United States Government in

84

Lawrence Berkeley National Laboratory (LBNL) Feed | Open Energy Information  

Open Energy Info (EERE)

source source History View New Pages Recent Changes All Special Pages Semantic Search/Querying Get Involved Help Apps Datasets Community Login | Sign Up Search Page Edit History Facebook icon Twitter icon » Lawrence Berkeley National Laboratory (LBNL) Feed Jump to: navigation, search Home | About | Inventory | Partnerships | Capacity Building | Webinars | Reports | Events | News | List Serve CLEAN Member Feeds Center for Environment and National Security at Scripps Centro de Energías Renovables (CER) The Children's Investment Fund Foundation (CIFF) Climate and Development Knowledge Network (CDKN) Climate Technology Initiative (CTI) ClimateWorks Foundation Coalition for Rainforest Nations (CfRN) Ecofys Energy Research Centre of the Netherlands (ECN) Energy Sector Management Assistance Program of the World Bank (ESMAP)

85

Microsoft Word - LBNL_Version_ProcIEEE_Embargoed-1.docx  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Estimating the Energy Use and Efficiency Estimating the Energy Use and Efficiency Potential of U.S. Data Centers Eric R. Masanet, Richard E. Brown, Arman Shehabi, Jonathan G. Koomey, and Bruce Nordman Environmental Energy Technologies Division Proceedings of the IEEE. vol. 99, no. 8. August 2011. pp. 1440 - 1453. August 2011 This work was supported by the U.S. Environmental Protection Agency, Climate Protection Partnerships Division, Office of Air and Radiation, under U.S. Department of Energy Contract No. DE-AC02-05CH11231. The authors gratefully acknowledge data support from IDC. LBNL-5830E Disclaimer This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States

86

ARM-LBNL-NOAA Flask Sampler for Carbon Cycle Gases  

DOE Data Explorer [Office of Scientific and Technical Information (OSTI)]

Data from ccg-flasks are sampled at the ARM SGP site and analyzed by the NOAA Earth System Research Laboratory (ESRL) as part of the NOAA Cooperative Global Air Sampling Network. Surface samples are collected from a 60m tower at the SGP Central Facility, usually once per week on one afternoon. The aircraft samples are collected approximately weekly from a chartered aircraft, and the collection flight path is centered over the tower where the surface samples are collected. Samples are collected by the ARM/LBNL Carbon Project. CO2 flask data contains measurements of CO2 concentration and CO2 stable isotope ratios (13CO2 and C18OO) from flasks collected at the SGP site. The flask samples are collected at 2m, 4m, 25m, and 60m along the 60m tower.

Torn, Margaret

87

High Purity Germanium Detectors at LBNL | U.S. DOE Office of Science (SC)  

Office of Science (SC) Website

Purity Germanium Detectors at LBNL Purity Germanium Detectors at LBNL Nuclear Physics (NP) NP Home About Research Facilities Science Highlights Benefits of NP Spinoff Applications Spinoff Archives SBIR/STTR Applications of Nuclear Science and Technology Funding Opportunities Nuclear Science Advisory Committee (NSAC) News & Resources Contact Information Nuclear Physics U.S. Department of Energy SC-26/Germantown Building 1000 Independence Ave., SW Washington, DC 20585 P: (301) 903-3613 F: (301) 903-3833 E: sc.np@science.doe.gov More Information » Spinoff Archives High Purity Germanium Detectors at LBNL Print Text Size: A A A RSS Feeds FeedbackShare Page Application/instrumentation: Highly Segmented Hyper-Pure Germanium Detectors Developed at: LBNL, LLNL Developed in: 1998-current Result of NP research: Gamma Ray Energy Tracking Array project and Majorana double beta decay

88

LBNL Scientist Shares 2011 Physics Nobel Prize | U.S. DOE Office of Science  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

LBNL Scientist Shares 2011 Physics Nobel Prize LBNL Scientist Shares 2011 Physics Nobel Prize High Energy Physics (HEP) HEP Home About Research Facilities Science Highlights Benefits of HEP Funding Opportunities Advisory Committees News & Resources Contact Information High Energy Physics U.S. Department of Energy SC-25/Germantown Building 1000 Independence Ave., SW Washington, DC 20585 P: (301) 903-3624 F: (301) 903-2597 E: sc.hep@science.doe.gov More Information » October 2012 LBNL Scientist Shares 2011 Physics Nobel Prize Astrophysicist Saul Perlmutter wins Nobel "for the discovery of the accelerating expansion of the universe through observations of distant supernovae." Print Text Size: A A A Subscribe FeedbackShare Page Click to enlarge photo. Enlarge Photo Image courtesy of LBNL Saul Perlmutter pictured with a view of the supernova 1987a in the

89

Neutron Generators Developed at LBNL for Homeland Security and Imaging Applications  

E-Print Network [OSTI]

NEUTRON GENERATORS DEVELOPED AT LBNL FOR HOMELAND SECURITYMeV) and T-T (09 MeV) neutron generators for wide range ofon Mars. These neutron generators utilize RF induction

Reijonen, Jani

2006-01-01T23:59:59.000Z

90

Basic Research for an Era of Nuclear Energy at LBNL, LLNL, AND...  

Office of Science (SC) Website

Basic Research for an Era of Nuclear Energy at LBNL, LLNL, AND LANL Nuclear Physics (NP) NP Home About Research Facilities Science Highlights Benefits of NP Applications of Nuclear...

91

Development of a High-Brightness VHF Electron Source at LBNL  

E-Print Network [OSTI]

A HIGH-BRIGHTNESS VHF ELECTRON SOURCE AT LBNL* S. Lidia # ,design for a 750kV electron source and beam injection systemFEL projects require electron beam sources that can generate

Lidia, Steven M.; Sannibale, Fernando; Staples, John W.; Virostek, Steve P.; Wells, Russell P.

2008-01-01T23:59:59.000Z

92

ARM - PI Product - ARM-LBNL-NOAA Flask Sampler for Carbon Cycle Gases  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

ProductsARM-LBNL-NOAA Flask Sampler for Carbon Cycle ProductsARM-LBNL-NOAA Flask Sampler for Carbon Cycle Gases Comments? We would love to hear from you! Send us a note below or call us at 1-888-ARM-DATA. Send PI Product : ARM-LBNL-NOAA Flask Sampler for Carbon Cycle Gases Site(s) SGP General Description Data from ccg-flasks are sampled at the ARM SGP site and analyzed by the NOAA Earth System Research Laboratory (ESRL) as part of the NOAA Cooperative Global Air Sampling Network. Surface samples are collected from a 60m tower at the SGP Central Facility, usually once per week on one afternoon. The aircraft samples are collected approximately weekly from a chartered aircraft, and the collection flight path is centered over the tower where the surface samples are collected. Samples are collected by the ARM/LBNL Carbon Project. CO2 flask data contains measurements of CO2

93

Property:Building/SPBreakdownOfElctrcityUseKwhM2HeatPumpsUsedForColg | Open  

Open Energy Info (EERE)

HeatPumpsUsedForColg HeatPumpsUsedForColg Jump to: navigation, search This is a property of type String. Heat pumps used for cooling Pages using the property "Building/SPBreakdownOfElctrcityUseKwhM2HeatPumpsUsedForColg" Showing 25 pages using this property. (previous 25) (next 25) S Sweden Building 05K0001 + 0.0 + Sweden Building 05K0002 + 0.0 + Sweden Building 05K0003 + 0.0 + Sweden Building 05K0004 + 0.0 + Sweden Building 05K0005 + 0.0 + Sweden Building 05K0006 + 0.250906049624 + Sweden Building 05K0007 + 0.0 + Sweden Building 05K0008 + 0.0 + Sweden Building 05K0009 + 0.0 + Sweden Building 05K0010 + 0.0 + Sweden Building 05K0011 + 0.0 + Sweden Building 05K0012 + 0.0 + Sweden Building 05K0013 + 0.0 + Sweden Building 05K0014 + 0.0 + Sweden Building 05K0015 + 0.0 +

94

Nick Balthaser! Wayne Hurlbert! LBNL/NERSC Storage Systems Group  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Wayne Hurlbert! Wayne Hurlbert! LBNL/NERSC Storage Systems Group T10KC Technology in Production --- 1 --- May 9 , 2 013 Agenda * Environment - Number T 10KC d rives - Length o f 9 me i n p roduc9on - Drive f eatures i n u se * Data V olume - Carts, T B, fi les * Workload - Exchanges/unit 9 me - IO R ates: R aw v s. H PSS * Error R ates * Data L oss * Conclusion --- 2 --- Environment * Currently 3 4 T 10KC i n p roducDon - Total p opula9on o f 1 62 O racle/STK t ape d rives i n 4 SL8500s - First s et o f 1 8 C d rives p ut i nto p roduc9on o n 0 1/25/2012 - Second s et o f 1 6 d rives p ut i nto p roduc9on i n 0 7 --- 0 8/2012 - Adding t hird s et o f 1 0 d rives A SAP 2 013 ( drives o n s ite) - Intending t o p urchase a nother s et A SAP * No opDonal drive features in use - We d o n ot u se e ncryp9on - We d o n ot u se t he t ape l ength e xtension

95

Microsoft Word - Diamond_715_ACEEE_2012_LBNL.docx  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

How How w ell d o h ome e nergy a udits s erve the h omeowner? Aaron I ngle 1 , M ithra M oezzi 1, Loren Lutzenhiser 1 , a nd R ichard D iamond 2 1 Portland S tate U niversity Portland, O R 9 7207 2 Lawrence B erkeley N ational L aboratory 1 C yclotron R oad Berkeley, C A 9 4720 May 2 012 This p aper w as a lso p ublished i n t he Proceedings o f the 2 012 S ummer S tudy o n E nergy E fficiency i n Buildings o f t he A merican C ouncil f or a n E nergy Efficient E conomy LBNL-5712E 1 Disclaimer This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the University of California, nor any of their employees, makes any warranty, express or implied, or assumes any legal

96

Chlorine hazard evaluation for the zinc-chlorine electric vehicle battery. Final technical report. [50 kWh  

SciTech Connect (OSTI)

Hazards associated with conceivable accidental chlorine releases from zinc-chlorine electric vehicle batteries are evaluated. Since commercial batteries are not yet available, this hazard assessment is based on both theoretical chlorine dispersion models and small-scale and large-scale spill tests with chlorine hydrate (which is the form of chlorine storage in the charged battery). Six spill tests involving the chlorine hydrate equivalent of a 50-kWh battery indicate that the danger zone in which chlorine vapor concentrations intermittently exceed 100 ppM extends at least 23 m directly downwind of a spill onto a warm (30 to 38/sup 0/C) road surface. Other accidental chlorine release scenarios may also cause some distress, but are not expected to produce the type of life-threatening chlorine exposures that can result from large hydrate spills. Chlorine concentration data from the hydrate spill tests compare favorably with calculations based on a quasi-steady area source dispersion model and empirical estimates of the hydrate decomposition rate. The theoretical dispersion model was combined with assumed hydrate spill probabilities and current motor vehicle accident statistics in order to project expected chlorine-induced fatality rates. These calculations indicate that expected chlorine fataility rates are several times higher in a city such as Los Angeles with a warm and calm climate than in a colder and windier city such as Boston. Calculated chlorine-induced fatality rate projections for various climates are presented as a function of hydrate spill probability in order to illustrate the degree of vehicle/battery crashworthiness required to maintain chlorine-induced fatality rates below current vehicle fatality rates due to fires and asphyxiations. 37 figures, 19 tables.

Zalosh, R. G.; Bajpai, S. N.; Short, T. P.; Tsui, R. K.

1980-04-01T23:59:59.000Z

97

Performance of the upgraded LBNL AECR ion source  

SciTech Connect (OSTI)

The LBNL AECR ion source has been upgraded in July 1996 by increasing its magnetic fields to improve its plasma confinement and thereby enhance the source performance. After a few months of tailoring the magnetic field configuration to match the two-frequency plasma heating (14 and 10 GHz), the upgraded AECR ion source (AECR-U) with its higher magnetic fields and higher magnetic mirror ratios has demonstrated significantly enhanced performance. For heavy ions at intensity of about 1 e{mu}A, the charge state was shifted from 42+ to 48+ for uranium and from 41+ to 46+ for bismuth. An order of magnitude enhancement for fully stripped argon ions (I {ge} 60 enA) also has been achieved. Hydrogen-like krypton ions at intensity of about 10{sup 5} pps were extracted from the source and confirmed by measuring its characteristic x-ray with a SiLi crystal detector. High charge state heavy ion beams of xenon-136 and uranium-238 produced with the AECR-U ion source were accelerated by the 88-Inch Cyclotron. Despite poor transmission for the highly charged heavy ions due to vacuum losses in the cyclotron, 11 MeV/nucleon {sup 136}Xe{sup 41+} at 1 x 10{sup 7} pps, 13 MeV/nucleon {sup 136}Xe{sup 46+} at a few hundred pps, and 7 MeV/nucleon {sup 238}U{sup 55+} at 3 x 10{sup 4} pps and 8 MeV/nucleon {sup 238}U{sup 60+} at a few pps were confirmed with a crystal energy detector after extraction from the cyclotron. The total energy of 1.935 GeV of the extracted {sup 238}U{sup 60+} ions is the highest energy ever produced by the 88-Inch Cyclotron. Detailed optimization of the AECR Upgrade will be presented in this paper.

Xie, Z.Q.; Lyneis, C.M.

1997-02-01T23:59:59.000Z

98

LBNL: Oct 1, 2008 - Sept 30, 2009 | U.S. DOE Office of Science (SC)  

Office of Science (SC) Website

LBNL: Oct 1, 2008 - Sept 30, 2009 LBNL: Oct 1, 2008 - Sept 30, 2009 Laboratory Policy and Evaluation (LPE) LPE Home Staff M&O Contracts SC Laboratory Appraisal Process FY 2013 SC Laboratory Performance Report Cards FY 2012 SC Laboratory Performance Report Cards FY 2011 SC Laboratory Performance Report Cards FY 2010 SC Laboratory Performance Report Cards FY 2009 SC Laboratory Performance Report Cards Ames: Oct 1, 2008 - Sept 30, 2009 Argonne: Oct 1, 2008 - Sept 30, 2009 BNL: Oct 1, 2008 - Sept 30, 2009 Fermilab: Oct 1, 2008 - Sept 30, 2009 LBNL: Oct 1, 2008 - Sept 30, 2009 ORNL: Oct 1, 2008 - Sept 30, 2009 PNNL: Oct 1, 2008 - Sept 30, 2009 PPPL: Apr 1, 2009 - Sept 30, 2009 SLAC: Oct 1, 2008 - Sept 30, 2009 JLab: Oct 1, 2008 - Sept 30, 2009 FY 2008 SC Laboratory Performance Report Cards FY 2007 SC Laboratory Performance Report Cards

99

LBNL: Oct 1, 2006 - Sept 30, 2007 | U.S. DOE Office of Science (SC)  

Office of Science (SC) Website

LBNL: Oct 1, 2006 - Sept 30, 2007 LBNL: Oct 1, 2006 - Sept 30, 2007 Laboratory Policy and Evaluation (LPE) LPE Home Staff M&O Contracts SC Laboratory Appraisal Process FY 2013 SC Laboratory Performance Report Cards FY 2012 SC Laboratory Performance Report Cards FY 2011 SC Laboratory Performance Report Cards FY 2010 SC Laboratory Performance Report Cards FY 2009 SC Laboratory Performance Report Cards FY 2008 SC Laboratory Performance Report Cards FY 2007 SC Laboratory Performance Report Cards Ames: Jan 1, 2007 - Sept 30, 2007 Argonne: Oct 1, 2006 - Sept 30, 2007 BNL: Oct 1, 2006 - Sept 30, 2007 Fermilab: Jan 1, 2007 - Sept 30, 2007 LBNL: Oct 1, 2006 - Sept 30, 2007 ORNL: Oct 1, 2006 - Sept 30, 2007 PNNL: Oct 1, 2006 - Sept 30, 2007 PPPL: Oct 1, 2006 - Sept 30, 2007 SLAC: Oct 1, 2006 - Sept 30, 2007

100

LBNL: Oct 1, 2007 - Sept 30, 2008 | U.S. DOE Office of Science (SC)  

Office of Science (SC) Website

LBNL: Oct 1, 2007 - Sept 30, 2008 LBNL: Oct 1, 2007 - Sept 30, 2008 Laboratory Policy and Evaluation (LPE) LPE Home Staff M&O Contracts SC Laboratory Appraisal Process FY 2013 SC Laboratory Performance Report Cards FY 2012 SC Laboratory Performance Report Cards FY 2011 SC Laboratory Performance Report Cards FY 2010 SC Laboratory Performance Report Cards FY 2009 SC Laboratory Performance Report Cards FY 2008 SC Laboratory Performance Report Cards Ames: Oct 1, 2007 - Sept 30, 2008 Argonne: Oct 1, 2007 - Sept 30, 2008 BNL: Oct 1, 2007 - Sept 30, 2008 Fermilab: Oct 1, 2007 - Sept 30, 2008 JLab: Oct 1, 2007 - Sept 30, 2008 LBNL: Oct 1, 2007 - Sept 30, 2008 ORNL: Oct 1, 2007 - Sept 30, 2008 PNNL: Oct 1, 2007 - Sept 30, 2008 PPPL: Oct 1, 2007 - Sept 30, 2008 SLAC: Oct 1, 2007 - Sept 30, 2008 FY 2007 SC Laboratory Performance Report Cards

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


101

LBNL: Oct 1, 2011 - Sept 30, 2012| U.S. DOE Office of Science (SC)  

Office of Science (SC) Website

LBNL: Oct 1, 2011 - Sept 30, 2012 LBNL: Oct 1, 2011 - Sept 30, 2012 Laboratory Policy and Evaluation (LPE) LPE Home Staff M&O Contracts SC Laboratory Appraisal Process FY 2013 SC Laboratory Performance Report Cards FY 2012 SC Laboratory Performance Report Cards Ames: Oct 1, 2011 - Sept 30, 2012 Argonne: Oct 1, 2011 - Sept 30, 2012 BNL: Oct 1, 2011 - Sept 30, 2012 Fermilab: Oct 1, 2011 - Sept 30, 2012 LBNL: Oct 1, 2011 - Sept 30, 2012 ORNL: Oct 1, 2011 - Sept 30, 2012 PNNL: Oct 1, 2011 - Sept 30, 2012 PPPL: Oct 1, 2011 - Sept 30, 2012 SLAC: Oct 1, 2011 - Sept 30, 2012 JLab: Oct 1, 2011 - Sept 30, 2012 FY 2011 SC Laboratory Performance Report Cards FY 2010 SC Laboratory Performance Report Cards FY 2009 SC Laboratory Performance Report Cards FY 2008 SC Laboratory Performance Report Cards FY 2007 SC Laboratory Performance Report Cards

102

LBNL: Oct 1, 2009 - Sept 30, 2010 | U.S. DOE Office of Science (SC)  

Office of Science (SC) Website

LBNL: Oct 1, 2009 - Sept 30, 2010 LBNL: Oct 1, 2009 - Sept 30, 2010 Laboratory Policy and Evaluation (LPE) LPE Home Staff M&O Contracts SC Laboratory Appraisal Process FY 2013 SC Laboratory Performance Report Cards FY 2012 SC Laboratory Performance Report Cards FY 2011 SC Laboratory Performance Report Cards FY 2010 SC Laboratory Performance Report Cards Ames: Oct 1, 2009 - Sept 30, 2010 Argonne: Oct 1, 2009 - Sept 30, 2010 BNL: Oct 1, 2009 - Sept 30, 2010 Fermilab: Oct 1, 2009 - Sept 30, 2010 LBNL: Oct 1, 2009 - Sept 30, 2010 ORNL: Oct 1, 2009 - Sept 30, 2010 PNNL: Oct 1, 2009 - Sept 30, 2010 PPPL: October 1, 2009 - September 30, 2010 SLAC: Oct 1, 2009 - Sept 30, 2010 JLab: Oct 1, 2009 - Sept 30, 2010 FY 2009 SC Laboratory Performance Report Cards FY 2008 SC Laboratory Performance Report Cards

103

LBNL: Oct 1, 2005 - Sept 30, 2006 | U.S. DOE Office of Science (SC)  

Office of Science (SC) Website

LBNL: Oct 1, 2005 - Sept 30, 2006 LBNL: Oct 1, 2005 - Sept 30, 2006 Laboratory Policy and Evaluation (LPE) LPE Home Staff M&O Contracts SC Laboratory Appraisal Process FY 2013 SC Laboratory Performance Report Cards FY 2012 SC Laboratory Performance Report Cards FY 2011 SC Laboratory Performance Report Cards FY 2010 SC Laboratory Performance Report Cards FY 2009 SC Laboratory Performance Report Cards FY 2008 SC Laboratory Performance Report Cards FY 2007 SC Laboratory Performance Report Cards FY 2006 SC Laboratory Performance Report Cards Ames: Oct 1, 2005 - Sept 30, 2006 Argonne: Oct 1, 2005 - Sept 30, 2006 BNL: Oct 1, 2005 - Sept 30, 2006 Fermilab: Oct 1, 2005 - Sept 30, 2006 LBNL: Oct 1, 2005 - Sept 30, 2006 ORNL: Oct 1, 2005 - Sept 30, 2006 PNNL: Oct 1, 2005 - Sept 30, 2006 PPPL: Oct 1, 2005 - Sept 30, 2006

104

LBNL: Oct 1, 2010 - Sept 30, 2011 | U.S. DOE Office of Science (SC)  

Office of Science (SC) Website

LBNL: Oct 1, 2010 - Sept 30, 2011 LBNL: Oct 1, 2010 - Sept 30, 2011 Laboratory Policy and Evaluation (LPE) LPE Home Staff M&O Contracts SC Laboratory Appraisal Process FY 2013 SC Laboratory Performance Report Cards FY 2012 SC Laboratory Performance Report Cards FY 2011 SC Laboratory Performance Report Cards Ames: Oct 1, 2010 - Sept 30, 2011 Argonne: Oct 1, 2010 - Sept 30, 2011 BNL: Oct 1, 2010 - Sept 30, 2011 Fermilab: Oct 1, 2010 - Sept 30, 2011 LBNL: Oct 1, 2010 - Sept 30, 2011 ORNL: Oct 1, 2010 - Sept 30, 2011 PNNL: Oct 1, 2010 - Sept 30, 2011 PPPL: October 1, 2010 - September 30, 2011 SLAC: Oct 1, 2010 - Sept 30, 2011 JLab: Oct 1, 2010 - Sept 30, 2011 FY 2010 SC Laboratory Performance Report Cards FY 2009 SC Laboratory Performance Report Cards FY 2008 SC Laboratory Performance Report Cards

105

LBNL: Oct 1, 2012 - Sept 30, 2013| U.S. DOE Office of Science (SC)  

Office of Science (SC) Website

LBNL: Oct 1, 2012 - Sept 30, 2013 LBNL: Oct 1, 2012 - Sept 30, 2013 Laboratory Policy and Evaluation (LPE) LPE Home Staff M&O Contracts SC Laboratory Appraisal Process FY 2013 SC Laboratory Performance Report Cards Ames: Oct 1, 2012 - Sept 30, 2013 Argonne: Oct 1, 2012 - Sept 30, 2013 BNL: Oct 1, 2012 - Sept 30, 2013 Fermilab: Oct 1, 2012 - Sept 30, 2013 LBNL: Oct 1, 2012 - Sept 30, 2013 ORNL: Oct 1, 2012 - Sept 30, 2013 PNNL: Oct 1, 2012 - Sept 30, 2013 PPPL: Oct 1, 2012 - Sept 30, 2013 SLAC: Oct 1, 2012 - Sept 30, 2013 JLab: Oct 1, 2012 - Sept 30, 2013 FY 2012 SC Laboratory Performance Report Cards FY 2011 SC Laboratory Performance Report Cards FY 2010 SC Laboratory Performance Report Cards FY 2009 SC Laboratory Performance Report Cards FY 2008 SC Laboratory Performance Report Cards FY 2007 SC Laboratory Performance Report Cards

106

CERTS 2012 Program Review - NASPI ESG and ARRA RFP Support - Joe Eto, LBNL  

Broader source: Energy.gov (indexed) [DOE]

LBNL Support for NASPI LBNL Support for NASPI Joe Eto Lawrence Berkeley National Lab jheto@lbl.gov 12/13 June 2012 Washington, DC OE Transmission Reliability Program Review 2 Project Objective(s) To improve the reliable operation of the North American power system by successfully transitioning synchrophasor technologies from research to industry adoption LBNL's activities in support of NASPI include:  Coordinate DOE support that is led by other CERTS partners  Liaison with and provide direct support to NERC  Lead or organize selected initiatives, largely inspired by the needs of ARRA grant awardees 3 Major FY12 Accomplishments Deliverables/Schedule for FY12  Coordinate DOE support that is led by other CERTS partners

107

Completed April 30, 2004. LBNL-54966. The Energy-Savings Potential of Electrochromic Windows  

E-Print Network [OSTI]

% market penetration level in that year. Keywords: Building energy-efficiency, electrochromic windows1 Completed April 30, 2004. LBNL-54966. The Energy-Savings Potential of Electrochromic Windows Road, Berkeley, CA 94720, USA Abstract Switchable electrochromic (EC) windows have been projected

108

LBNL/NREL Analysis Predicts Record Low LCOE for Wind Energy in 2012-2013  

Broader source: Energy.gov [DOE]

A recent analysis conducted by the Lawrence Berkley National Laboratory (LBNL) and the National Renewable Energy Laboratory (NREL) suggests that lower capital costs and continued increases in wind turbine productivity will drive down the levelized cost of wind energy for U.S. wind projects constructed in 2012 2013.

109

The CITRIS-LBNL-CIEE i4Energy Center focuses on the  

E-Print Network [OSTI]

of a Frequency Response Metric to Assess the Planning and Operating Requirements for Reliable Integration KEVIN DASSO [PG&E] 5.3.13 Advanced Energy Storage JANICE LIN [Strategen] 5.10.13 Design for Change LabThe CITRIS-LBNL-CIEE i4Energy Center focuses on the development of IT systems that facilitate

Yoo, S. J. Ben

110

Neutron Generators Developed at LBNL for Homeland Security and Imaging Applications  

E-Print Network [OSTI]

NEUTRON GENERATORS DEVELOPED AT LBNL FOR HOMELAND SECURITYtypes of advanced D-D (neutron energy 2.5 MeV), D-T (14MeV) and T-T (09 MeV) neutron generators for wide range of

Reijonen, Jani

2006-01-01T23:59:59.000Z

111

US LHC Accelerator Research Program For the BNL-FNAL-LBNL LHC Accelerator Collaboration  

E-Print Network [OSTI]

US LHC Accelerator Research Program Jim Strait For the BNL-FNAL-LBNL LHC Accelerator Collaboration LHC Symposium 3 May 2003 brookhaven - fermilab - berkeley US LHC Accelerator Research Program #12;LHC Symposium - 3 May 03 US LHC Accelerator Research Program - J. Strait 2 Outline Program Goals R&D to Maximize

Large Hadron Collider Program

112

Protons and Neutrons for Testing at LBNL | U.S. DOE Office of Science (SC)  

Office of Science (SC) Website

Protons and Neutrons for Testing at Protons and Neutrons for Testing at LBNL Nuclear Physics (NP) NP Home About Research Facilities Science Highlights Benefits of NP Spinoff Applications Spinoff Archives SBIR/STTR Applications of Nuclear Science and Technology Funding Opportunities Nuclear Science Advisory Committee (NSAC) News & Resources Contact Information Nuclear Physics U.S. Department of Energy SC-26/Germantown Building 1000 Independence Ave., SW Washington, DC 20585 P: (301) 903-3613 F: (301) 903-3833 E: sc.np@science.doe.gov More Information » Spinoff Archives Protons and Neutrons for Testing at LBNL Print Text Size: A A A RSS Feeds FeedbackShare Page Application/instrumentation: Use of protons and neutrons for testing of microelectronics, optical components and nanostructures for advanced accelerators, ground and space

113

Basic Research for an Era of Nuclear Energy at LBNL, LLNL, AND LANL | U.S.  

Office of Science (SC) Website

Basic Research for an Era of Nuclear Basic Research for an Era of Nuclear Energy at LBNL, LLNL, AND LANL Nuclear Physics (NP) NP Home About Research Facilities Science Highlights Benefits of NP Spinoff Applications Spinoff Archives SBIR/STTR Applications of Nuclear Science and Technology Funding Opportunities Nuclear Science Advisory Committee (NSAC) News & Resources Contact Information Nuclear Physics U.S. Department of Energy SC-26/Germantown Building 1000 Independence Ave., SW Washington, DC 20585 P: (301) 903-3613 F: (301) 903-3833 E: sc.np@science.doe.gov More Information » Spinoff Archives Basic Research for an Era of Nuclear Energy at LBNL, LLNL, AND LANL Print Text Size: A A A RSS Feeds FeedbackShare Page Application/instrumentation: Basic Research for an Era of Nuclear Energy Developed at: Lawrence Berkeley National Laboratory, Lawrence Livermore National

114

Cyclotrons to Make Neutrons & Radioactive Targets for SBSS at LBNL | U.S.  

Office of Science (SC) Website

Cyclotrons to Make Neutrons & Cyclotrons to Make Neutrons & Radioactive Targets for SBSS at LBNL Nuclear Physics (NP) NP Home About Research Facilities Science Highlights Benefits of NP Spinoff Applications Spinoff Archives SBIR/STTR Applications of Nuclear Science and Technology Funding Opportunities Nuclear Science Advisory Committee (NSAC) News & Resources Contact Information Nuclear Physics U.S. Department of Energy SC-26/Germantown Building 1000 Independence Ave., SW Washington, DC 20585 P: (301) 903-3613 F: (301) 903-3833 E: sc.np@science.doe.gov More Information » Spinoff Archives Cyclotrons to Make Neutrons & Radioactive Targets for SBSS at LBNL Print Text Size: A A A RSS Feeds FeedbackShare Page Application/instrumentation: Use of cyclotrons for producing neutrons & radioactive targets for

115

Global Nuclear Energy Initiative at LBNL | U.S. DOE Office of Science (SC)  

Office of Science (SC) Website

Global Nuclear Energy Initiative at Global Nuclear Energy Initiative at LBNL Nuclear Physics (NP) NP Home About Research Facilities Science Highlights Benefits of NP Spinoff Applications Spinoff Archives SBIR/STTR Applications of Nuclear Science and Technology Funding Opportunities Nuclear Science Advisory Committee (NSAC) News & Resources Contact Information Nuclear Physics U.S. Department of Energy SC-26/Germantown Building 1000 Independence Ave., SW Washington, DC 20585 P: (301) 903-3613 F: (301) 903-3833 E: sc.np@science.doe.gov More Information » Spinoff Archives Global Nuclear Energy Initiative at LBNL Print Text Size: A A A RSS Feeds FeedbackShare Page Application/instrumentation: Global nuclear energy initiative Developed at: 88-inch Cyclotron, Lawrence Berkeley National Laboratory Developed in:

116

Nuclear Science and Physics Data from the Isotopes Project, Lawrence Berkeley National Laboratory (LBNL)  

DOE Data Explorer [Office of Scientific and Technical Information (OSTI)]

The Isotopes Project pages at Lawrence Berkeley National Laboratory have been a source of nuclear data and reference information since the mid-nineties. Almost all of the data, the results of analyses, the specialized charts and interfaces, and the extensive bibiographic references are fed to the National Nuclear Data Center (NNDC) at Brookhaven National Laboratory and maintained there. The Isotope Project pages at LBNL provide a glimpse of early versions for many of the nuclear data resources.

117

Bioremediation: Hope/Hype for Environmental Cleanup (LBNL Summer Lecture Series)  

SciTech Connect (OSTI)

Summer Lecture Series 2007: Terry Hazen, Senior Staff Scientists and Head of the LBNL Ecology Department, discusses when it's best to resort to engineered bioremediation of contaminated sites, and when it's best to rely on natural attenuation. Recent advances have greatly broadened the potential applications for bioremediation. At the same time, scientists' knowledge of biogeochemical processes has advanced and they can better gauge how quickly and completely contaminants can be degraded without human intervention.

Hazen, Terry (LBNL, Ecology Dept) [LBNL, Ecology Dept

2007-07-18T23:59:59.000Z

118

VENDOR POLICIES AND PROCEDURES LBNL PeopleSoft 8.8 Vendor Procedures-Updated 08/14/2008 Page 1 of 33  

E-Print Network [OSTI]

VENDOR POLICIES AND PROCEDURES LBNL ­ PeopleSoft 8.8 Vendor Procedures-Updated 08/14/2008 Page 1 that vendor, please follow procedures for requesting an address addition. #12;VENDOR POLICIES AND PROCEDURES LBNL ­ PeopleSoft 8.8 Vendor Procedures-Updated 08/14/2008 Page 2 of 33 Vendor Information Tabs

119

Microsoft Word - Material_ChemEmissions_Info_LBNL_090810_final-2  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Environmental Energy Technologies Division September 2010 Funding was provided by the U.S. Dept. of Energy Building Technologies Program, Office of Energy Efficiency and Renewable Energy under DOE Contract No. DE-AC02- 05CH11231; by the U.S. Dept. of Housing and Urban Development Office of Healthy Homes and Lead Hazard Control through Interagency Agreement I-PHI-01070, and by the California Energy Commission through Contract 500-08-06. Chemical Emissions of Residential Materials and Products: Review of Available Information Henry Willem and Brett C. Singer LBNL-3938E Chemical Emissions of Residential Materials and Products: Review of Available Information

120

LBNL-6484E Exploring California PV Home Premiums Ben Hoen, Geoffrey T. Klise, Joshua Graff-Zivin, Mark  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

484E 484E Exploring California PV Home Premiums Ben Hoen, Geoffrey T. Klise, Joshua Graff-Zivin, Mark Thayer, Joachim Seel and Ryan Wiser Environmental Energy Technologies Division December 2013 Download from: http://emp.lbl.gov/publications/exploring-california-pv-home-premiums This research builds on work published in 2011 entitled "An Analysis of the Effects of Residential Photovoltaic Energy Systems on Home Sales Prices in California," LBNL- 4476E, which can be downloaded here: http://eetd.lbl.gov/ea/emp/reports/lbnl-

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


121

LBNL-44314  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

129E 129E Modeling and Simulation of HVAC Faulty Operations and Performance Degradation due to Maintenance Issues Liping Wang, Tianzhen Hong Environmental Energy Technologies Division January 2013 This work was supported by the Assistant Secretary for Energy Efficiency and Renewable Energy, the U.S.-China Clean Energy Research Center for Building Energy Efficiency, of the U.S. Department of Energy under Contract No. DE-AC02- 05CH11231. This is a paper published at ASim 2012 - 1st Asia conference of

122

LBNL-44314  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

432E 432E Comparison of Building Energy Modeling Programs: HVAC Systems Xin Zhou 1 , Tianzhen Hong 2 , Da Yan 1 1 Tsinghua University, China 2 Environmental Energy Technologies Division August 2013 This work was supported by the Assistant Secretary for Energy Efficiency and Renewable Energy, the U.S.-China Clean Energy Research Center for Building Energy Efficiency, of the U.S. Department of Energy under Contract No. DE-AC02- 05CH11231. It was co-sponsored by Energy Foundation under the China Sustainable Energy Program. ERNEST ORLANDO LAWRENCE BERKELEY NATIONAL LABORATORY Disclaimer This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither

123

LBNL-57260  

E-Print Network [OSTI]

This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the University of California, nor any of their employees, makes any warranty, express or implied, or assumes any legal responsibility for the accuracy, completeness, or usefulness of any information, apparatus, product, or process disclosed, or represents that its use would not infringe privately owned rights. Reference herein to any specific commercial product, process, or service by its trade name, trademark, manufacturer, or otherwise, does not necessarily constitute or imply its endorsement, recommendation, or favouring by the United States

Christina Galitsky; Sheng-chieh Chang; Ernst Worrell; Eric Masanet; Christina Galitsky; Sheng-chieh Chang; Ernst Worrell; Eric Masanet

2005-01-01T23:59:59.000Z

124

Microsoft Word - SEAD_TA_PC_Monitors_LBNL final_0629 2012.docx  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

ERNEST ORLANDO LAWRENCE ERNEST ORLANDO LAWRENCE BERKELEY NATIONAL LABORATORY LBNL-xxxxE Efficiency Improvement Opportunities for Personal Computer Monitors: Implications for Market Transformation Programs Won Young Park, Amol Phadke, Nihar Shah Environmental Energy Technologies Division International Energy Studies Group June 29, 2012 This work was funded by the Bureau of Oceans and International Environmental and Scientific Affairs, U.S. Department of State, and administered by the U.S. Department of Energy in support of the Super-efficient Equipment and Appliance Deployment (SEAD) initiative through the U.S. Department of Energy under Contract No. DE-AC02-05CH11231. Disclaimer This document was prepared as an account of work sponsored by the United States Government in

125

PDSF Office Hours 10/17/13 from 2:00 to 4:00 pm at LBNL  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

10/17/13 from 10/17/13 from 2:00 to 4:00 pm at LBNL PDSF Office Hours 10/17/13 from 2:00 to 4:00 pm at LBNL October 7, 2013 (0 Comments) I have biweekly office hours on Thursdays at LBNL. The next one is Thursday 10/17/13 from 2:00 - 4:00 pm in the NERSC drop in office at 050A-0143A (in the basement by the bus offices). Please feel free to stop by if you have any questions or want some hands on help with PDSF issues. Post your comment You cannot post comments until you have logged in. Login Here. Comments No one has commented on this page yet. RSS feed for comments on this page | RSS feed for all comments User Announcements Email announcement archive Subscribe via RSS Subscribe Browse by Date November 2013 October 2013 September 2013 August 2013 March 2012 February 2012 January 2012

126

PDSF Office Hours 9/5/13 from 2:00 to 4:00 pm at LBNL  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

9/5/13 from 9/5/13 from 2:00 to 4:00 pm at LBNL PDSF Office Hours 9/5/13 from 2:00 to 4:00 pm at LBNL September 5, 2013 (0 Comments) I have biweekly office hours on Thursdays at LBNL. The next one is Thursday 9/5/13 from 2:00 - 4:00 pm in the NERSC drop in office at 050A-0143A (in the basement by the bus offices). Please feel free to stop by if you have any questions or want some hands on help with PDSF issues. Post your comment You cannot post comments until you have logged in. Login Here. Comments No one has commented on this page yet. RSS feed for comments on this page | RSS feed for all comments User Announcements Email announcement archive Subscribe via RSS Subscribe Browse by Date November 2013 October 2013 September 2013 August 2013 March 2012 February 2012 January 2012

127

ESS 2012 Peer Review - Hydrogen-Bromine Flow Batteries for Grid-Scale Energy Storage - Vincent Battaglia, LBNL  

Broader source: Energy.gov (indexed) [DOE]

H H 2 /Br 2 Flow Battery for Grid-Scale Energy Storage Venkat Srinivasan, Adam Weber, & Vince Battaglia Lawrence Berkeley National Laboratory * DOE ESS Review * Washington, DC * September 26, 2012 vsbattaglia@lbl.gov Purpose Develop a low-cost, energy-storage system with high power density at 80% efficiency Use H 2 and Br 2 in a flow battery Future Plans Modeling Funding from ARPA-E GRIDS, USDOE LBNL: Kyu Taek Cho (Cell studies); Paul Ridgway (Catalysis studies); Sophia Haussener (Transport modeling) Bosch: Paul Albertus (Cost Modeling); Roel Sanchez-Carrera and Boris Kozinsky (Catalyst theory)

128

LBNL/ PUB 3000 Chapter 8 Questions on Electrical Cords 2010 Questions have been asked about electrical safety that includes extension cords,  

E-Print Network [OSTI]

LBNL/ PUB 3000 Chapter 8 ­ Questions on Electrical Cords 2010 Questions have been asked about at the lab out of Pub 3000 chapter 8 & 10 Chapter 8 ELECTRICAL SAFETY Contents Approved by Keith Gershon construction sites, in damp areas, or in an area where a person may be in direct contact with a solidly

Knowles, David William

129

Presented at the 2nd International Meeting on Electrochromism, IME2, (San Diego, CA, October, 1996), to be published in Solar Energy Materials and Solar Cells. LBNL #39633  

E-Print Network [OSTI]

), to be published in Solar Energy Materials and Solar Cells. LBNL #39633 ANALYSIS OF DURABILITY IN LITHIUM NICKEL an electronically isolated corner into devices. This structure enabled identification of potential problems-time effects. Testing and analysis of durability for electrochromic devices is a very complex problem involving

130

Logue and Singer, HVAC&R, 20(2): 264-275, 2014. Energy Impacts of Effective Residential Range Hood Use, LBNL-6683E Page 1  

E-Print Network [OSTI]

Logue and Singer, HVAC&R, 20(2): 264-275, 2014. Energy Impacts of Effective Residential Range Hood and Singer, HVAC&R, 20(2): 264-275, 2014. Energy Impacts of Effective Residential Range Hood Use, LBNL-6683E Laboratory is an equal opportunity employer. #12;Logue and Singer, HVAC&R, 20(2): 264-275, 2014. Energy

131

KWhOURS | Open Energy Information  

Open Energy Info (EERE)

Zip: 1982 Sector: Services Product: Massachusetts software maker which provides mobile data collection, calculation, and report generation services that reduce cost and time...

132

Sandia National Laboratories: $0.06 per kilowatt-hour for solar...  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Systems Evaluation Laboratory (PSEL), Renewable Energy, Solar, Solar Newsletter, SunShot, Systems Analysis The solar industry is now more than 60% of the way toward achieving...

133

LBNL Community Advisory Group  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Meetings and Documents Meetings and Documents The CAG meets four to eight times per year. Meetings are scheduled to maximize member participation and to ensure that CAG members can provide timely input on Lab projects and related topics. 2014 Monday, November 17, 2014 Monday, September 15, 2014 Monday, July 14, 2014 Monday, May 12, 2014 Thursday, March 20, 2014 Monday, January 13, 2014 Agenda 2013 Monday, November 18, 2013 Agenda Video of meeting proceedings Presentation: Capital Projects Update Presentation: Director's State of the Lab Monday, September 16, 2013 Agenda Video of meeting proceedings Presentation: Capital Projects Update Presentation: Protective Services Protective Services Video: Annual Evacuation Exercise Presentation: Sustainability Activities and Planning Presentation: Climate Modeling

134

LBNL-6471E  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

1E 1E Optimal investment and scheduling of distributed energy resources with uncertainty in electric vehicles driving schedules G. Cardoso 1 , M. Stadler 2,3 , M. C. Bozchalui 4 , R. Sharma 4 , C. Marnay 2 , A. Barbosa-Póvoa 1 , P. Ferrão 1 1 Instituto Superior Técnico - Technical University of Lisbon, Portugal 2 Ernest Orlando Lawrence Berkeley National Laboratory, USA 3 Center for Energy and Innovative Technologies, Austria 4 NEC Laboratories America Inc., USA October 2013 Submitted to Energy DISCLAIMER This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the University of

135

LBNL-6496E  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

96E 96E Empirical assessment of a prismatic daylight- redirecting window film in a full-scale office testbed Anothai Thanachareonkit Lawrence Berkeley National Laboratory Eleanor S. Lee Lawrence Berkeley National Laboratory Andrew McNeil Lawrence Berkeley National Laboratory Windows and Envelope Materials Group Building Technology and Urban Systems Department Environmental Energy Technologies Division August 2013 Presented to the IESNA 2013 Annual Conference, Huntington Beach, CA, 26-29 October 2013, and published in Leukos, the journal of the IESNA. DISCLAIMER This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the University of

136

LBNL-XXXXX  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

314 314 Energy Use and Energy Intensity of the U.S. Chemical Industry Ernst Worrell, Dian Phylipsen, Dan Einstein, and Nathan Martin Energy Analysis Department Environmental Energy Technologies Division Ernest Orlando Lawrence Berkeley National Laboratory University of California Berkeley, California 94720 April 2000 This work was supported by the Climate Protection Division, Office of Air and Radiation, U.S. Environmental Protection Agency through the U.S. Department of Energy under Contract No. DE-AC03-76SF00098. i Energy Use and Energy Intensity of the U.S. Chemical Industry Ernst Worrell, Dian Phylipsen, Dan Einstein, Nathan Martin Energy Analysis Department Environmental Energy Technologies Division Ernest Orlando Lawrence Berkeley National Laboratory April 2000

137

LBNL-6033E  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

033E 033E Transforming BIM to BEM: Generation of Building Geometry for the NASA Ames Sustainability Base BIM James T. O'Donnell, Tobias Maile, Cody Rose, Nataša Mrazović, Elmer Morrissey, Cynthia Regnier, Kristen Parrish and Vladimir Bazjanac January 2013 2 Disclaimer This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the University of California, nor any of their employees, makes any warranty, express or implied, or assumes any legal responsibility for the accuracy, completeness, or

138

LBNL-918E  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

8E 8E Specification of an Information Delivery Tool to Support Optimal Holistic Environmental and Energy Management in Buildings James O'Donnell IRUSE, University College Cork Marcus Keane IRUSE, National University of Ireland Galway Vladimir Bazjanac Lawrence Berkeley National Laboratory August 2008 Presented at the SimBuild 2008 Conference, Berkeley, CA July 30 - August 1, 2008 and published in the Proceedings DISCLAIMER This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the University of California, nor any of their employees, makes any warranty, express or implied, or assumes

139

LBNL Campus Map Final  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

C C A L IF O R N IA G O L D E N B E A R S ⌬⌲⌭ ⌺〈⌭ ⌺⌵ ⌮⌿ Sherman Davis A r d e n Faculty Glade P P H H H H H H P P H S P L L L L O O O O O O O O O O O O O S O S O O L L L L L Mather Redwood Grove Californian North American Meso- American Garden of Old Roses Mediterranean/ European Miocene Sequoia Forest Western Herbs Chinese Herbs Australian Asian New World Desert South American African Palms & Cycads LeRoy Ave La Loma Ave Highland Pl Bancroft Way G a y le y R d S t a d i u m R i m W a y C a n y o n R d M o s s w o o d R d C e n te nn ia l D r C e n t e n n ia l D r C y c l o t r o n R d Un ive rs ity S o u th D r Piedm on t Av e C a l v in R d G la s e r R d M c M il la n R d C h a m b e r l a i n R d A l v a r e z R d 88 65 50A 50 50B 70A 70 54 6 7 17 27 53 52 16 14 4 5 25 45 48 37 80 10 2 29 58 47 51 64 63 60 81 82 55 56 90 71 46 26 76 78 75 75A 75B 69 77 79 77A 31 72 Strawberry Entrance Grizzly Peak Entrance National Center for Electron Microscopy 66 62 73 83 85B 84 Human Genome Laboratory 85 74 Lawrence Berkeley

140

LBNL-41172 Discovery  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

1172 1172 Discovery of a Supernova Explosion at Half the Age of the Universe and its Cosmological Implications S. Perlmutter, G. Aldering, M. Della Valle, S. Deustua, R. S. Ellis, S. Fabbro, A. Fruchter, G. Goldhaber, A. Goobar, D. E. Groom, 1. M. Hook, A. G. Kim, M. Y. Kim, R.A. Knop, C. Lidman, R. G. McMahon, P. Nugent, R. Pain, N. Panagia, C. R. Pennypacker, P. Ruiz-Lapuente, B. Schaefer & N. Walton (The Supernova Cosmology Project) This work was supported in part by the Director, Office of Science, Office of High Energy Physics, of the U.S. Department of Energy under Contract No. DE-AC03-76SF00098. DISCLAIMER This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the University of California, nor any of their

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
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We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


141

LBNL-5954E  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

4E 4E A Practical Framework for Sharing and Rendering Real-World Bidirectional Scattering Distribution Functions G. Ward Anyhere Software M. Kurt International Computer Institute N. Bonneel Harvard University Windows and Envelope Materials Group Building Technology and Urban Systems Department Environmental Energy Technologies Division September 2012 DISCLAIMER This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the University of California, nor any of their employees, makes any warranty, express or implied, or assumes any legal responsibility for the accuracy, completeness, or usefulness of any information,

142

LBNL.PDF  

Broader source: Energy.gov (indexed) [DOE]

ON THE ON THE REVIEW OF SCIENTIFIC INTEGRITY ISSUES AT LAWRENCE BERKELEY NATIONAL LABORATORY JULY 2000 DOE/IG-0478 I N S P E C T I O N R E P O R T U.S. DEPARTMENT OF ENERGY OFFICE OF INSPECTOR GENERAL OFFICE OF INSPECTIONS July 28, 2000 MEMORANDUM FOR THE SECRETARY FROM: Gregory H. Friedman /s/ Inspector General SUBJECT: INFORMATION: Report on "Inspection on the Review of Scientific Integrity Issues at Lawrence Berkeley National Laboratory" BACKGROUND The Office of Inspector General initiated an inspection into issues relating to allegations of scientific misconduct on the part of a research scientist at the Lawrence Berkeley National Laboratory (Berkeley). This was done in response to your request. RESULTS OF INSPECTION The inspection disclosed the following information:

143

LBNL-6349E  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

349E 349E ERNEST ORLANDO LAWRENCE BERKELEY NATIONAL LABORATORY Assessing the Costs and Benefits of the Superior Energy Performance Program Peter Therkelsen and Aimee McKane Environmental Energy Technologies Division Lawrence Berkeley National Laboratory Ridah Sabouni and Tracy Evans Energetics Incorporated Paul Scheihing Advanced Manufacturing Office United States Department of Energy Reprint version of conference paper presented at American Council for an Energy-Efficient Economy Summer Study on Energy Efficiency in Industry, please cite as: Peter Therkelsen, Ridah Sabouni, Aimee McKane, and Paul Scheihing. (2013). Assessing the Costs and Benefits of the Superior Energy Performance Program, 2013 ACEEE Summer Study on Energy Efficiency in Industry, Niagara Falls, NY

144

LBNL-51477.PDF  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Conservation in California During the Summer of 2001 Conservation in California During the Summer of 2001 Emily Bartholomew, Robert Van Buskirk, Chris Marnay Lawrence Berkeley National Laboratory Berkeley, CA 94720 September 2002 Acknowledgements The work described in this report was coordinated by the Consortium for Electric Reliability Technology Solutions, and funded by the Assistant Secretary of Energy Efficiency and Renewable Energy, Office of Power Technologies of the U.S. Department of Energy under Contract No. DE-AC03-76SF00098. The authors would like to acknowledge the assistance of Joseph Eto, Charles Goldman and Galen Barbose, of Lawrence Berkeley National Laboratory, as well as the work of Michel Bollet of the Institut National des Sciences Appliquées de Lyon. Introduction

145

Electrochemistry Diagnostics at LBNL  

Broader source: Energy.gov (indexed) [DOE]

* Li + ions tend to form stronger bonds with carbon edge atoms than in between graphene layers * Li + surface concentration in graphite during intercalation is always higher...

146

ELECTROCHEMISTRY DIAGNOSTICS AT LBNL  

Broader source: Energy.gov (indexed) [DOE]

Gen-2 and Gen-3 electrode composition, structure, and SEIs Provided key information on anode SEI characteristics, and demonstrated important differences between Gen-2 and Gen-3...

147

ELECTROCHEMISTRY DIAGNOSTICS AT LBNL  

Broader source: Energy.gov [DOE]

2009 DOE Hydrogen Program and Vehicle Technologies Program Annual Merit Review and Peer Evaluation Meeting, May 18-22, 2009 -- Washington D.C.

148

Diagnostics at LBNL  

Broader source: Energy.gov (indexed) [DOE]

AFM, emphasize Raman, move from ex situ to in situ Action: Apply subtractively normalized infrared reflection spectroscopy (SNIFTERS) for in situ characterization of electrode...

149

KWH_APS_DPP07_1Page.ppt  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Ion-Temperature and Rotation-Velocity Profiles from a Spatially Resolving X-Ray Crystal Spectrometer on Alcator C-Mod Ion-Temperature and Rotation-Velocity Profiles from a Spatially Resolving X-Ray Crystal Spectrometer on Alcator C-Mod K. W. Hill, 1 M. Bitter, 1 P. Beiersdorfer, 3 Ch. Broennimann, 4 E. F. Eikenberry, 4 A. Ince-Cushman, 2 Ming-Feng Gu, 3 S. G. Lee, 5 M. Reinke, 2 J. E. Rice, 2 S. D. Scott, 1 and B. Stratton 1 1 Princeton Plasma Physics Laboratory, Princeton, NJ 2 MIT Plasma Science and Fusion Center, Cambridge, MA 3 LLNL, Livermore, CA 4 DECTRIS Ltd., 5232 Villigen-PSI, Switzerland 5 NFRC, Korea Basic Science Institute, Daejeon, Korea Abstract A new x-ray crystal spectrometer capable of providing spatially (~1.5 cm) and temporally (~10 ms) resolved, high resolution spectra of He-like Ar Kα lines has been installed on Alcator C-Mod. The imaging spectrometer consists of a

150

kWh Analytics: Quality Ratings for PV  

Broader source: Energy.gov [DOE]

This presentation summarizes the information given during the SunShot Grand Challenge Summit and Technology Forum, June 13-14, 2012.

151

Comparing Mainframe and Windows Server Transactions per kWh  

E-Print Network [OSTI]

........................................................................................14 Appendix A. Platform Comparison and Conversion Factors...............................................................................................................15 Conversion Factors............................................................................................................................3 Objective: Estimate Energy Consumption for Similar Uses

Narasayya, Vivek

152

LBNL DSD Whole Frog Project  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Enhanced Science Education: The Whole Frog Project Enhanced Science Education: The Whole Frog Project Computers can't teach everything in anatomy, but they can teach some things better, either by themselves or through synergy with conventional methods. Try out this award-winning virtual frog- as a case in point. Jump right into the Virtual Frog Dissection Kit. Sample images from the virtual frog dissection kit: Example 1 viewable GIF file.. Example 1 printable TIF file.. Example 2 viewable GIF file.. Example 2 printable TIF file.. Read an introductory lecture on the Whole Frog project that explains its pedagogical and technological basis, or a summary paper that emphasizes its Web aspects. For live frog lovers .... Sounds of North American Frogs (a CD from Smithsonian Folkways). WHOLE FROG PROJECT Introduction

153

BUSINESS PLAN LBNL Main Site  

E-Print Network [OSTI]

of petroleum products (new or used) in aboveground tanks or containers. NoDoes your facility have Regulated for which an emergency plan is required pursuant to 10 CFR Parts 30, 40 or 70? Yes Underground Petroleum

Eisen, Michael

154

LBNL SEED for Cities Overview  

Broader source: Energy.gov [DOE]

One page overview produced by Lawrence Berkeley National Lab detailing the use of the Standard Energy Efficiency Data (SEED) Platform for cities interested in using it for data collection and management.

155

Fact #766: February 11, 2013 Electricity Prices are More Stable than Gasoline Prices  

Broader source: Energy.gov [DOE]

All energy prices vary from month to month and year to year. However, when comparing the national average retail price for a gallon of regular gasoline and a kilowatt-hour (kWh) for residential...

156

Private Companies, Federal Agencies and National Labs Join Better...  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

over the next decade. Data centers consumed about 100 billion kilowatt-hours (kWh) of electricity in the U.S last year and that number is expected to grow as more information...

157

City of Houston- Green Power Purchasing  

Broader source: Energy.gov [DOE]

In 2007, the City of Houston negotiated a 5-year contract with Reliant Energy for up to 80 MW or 700 million kilowatt-hours (kWh) annually of renewable energy credits (RECs). These RECs will be...

158

Fact #822: May 26, 2014 Battery Capacity Varies Widely for Plug-In Vehicles  

Broader source: Energy.gov [DOE]

Battery-electric vehicles have capacities ranging from 12 kilowatt-hours (kWh) in the Scion iQ EV to 85 kWh in the Tesla Model S. Plug-in hybrid-electric vehicles typically have smaller battery...

159

LBNL Windows & Daylighting Software -- WINDOW Documentation  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

(6.3.74 -- February 14, 2012) Release Notes Updated: 02/15/13 If you find bugs, or if you think these have not been fixed, please do not hesitate to send an email to WINDOWHelp@lbl.gov to report your findings. Getting feedback from users is how we improve the program. WINDOW 6.3.74 Program Changes Window LIbrary: Window Types In previous versions of WINDOW 6.3, there were two different Window Type lists, with conflicting ID numbers, which resulted in the possibility of a Window Library made with one set of Window Types would become corrupted (the wrong Window Types assigned) if the database records were imported into a another database with the different Window Type list. To solve this problem, we have added a database "migration" with this version of WINDOW -- when it opens any older database, it will update the Window Types list to have the choices (and IDs) shown below and then it will also update all the Window Library records to map to the new Window Types based on what the records were set to originally.

160

finalreport_stockcharaterizationLBNL41365.PDF  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

365 365 Efficient Thermal Energy Distribution in Commercial Buildings Final Report to California Institute for Energy Efficiency Mark Modera, Tengfang Xu, Helmut Feustel, and Nance Matson Indoor Environment Program Energy and Environment Division Lawrence Berkeley National Laboratory Berkeley, California Charlie Huizenga, Fred Bauman, and Edward Arens Center for Environmental Design Research University of California Berkeley, California Tom Borgers California State University, Humboldt Arcata, California May 1994 (Revised in August 1999) Disclaimer This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States nor any agency thereof, nor The Regents of the University of California, nor any of their employees,

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


161

LBNL Windows & Daylighting Software -- WINDOW Documentation  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Release Notes Release Notes Updated: 11/07/11 History of COMFEN 3.1 Releases New Features Glazed Wall Assembly In addition to modeling individual windows, COMFEN now has the capability of modeling "Glazed Wall Assemblies" which allow you to specify the number of horizontal and vertical framing members, as well as their spacing, and the program automatically generates the facade. Click here for more details. Material Library COMFEN now has a Material Library, which can be used in the Wall Construction and Spandrel Libraries. See the User Manual for more details. Wall Library COMFEN now has a Wall Library which can be used to build up layers from the Material Library to define a wall. See the User Manual for more details. Spandrel Library COMFEN now has a Spandrel Library which can be used to build up layers from the Material Library to define a spandrel, including glass and glazing systems as the outer-most layers. See the User Manual for more details.

162

LBNL Window & Daylighting Software -- RESFEN  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

SYSTEM REQUIREMENTS GET A COPY DOCUMENTATION KNOWLEDGE BASE Overview Today's energy-efficient windows can dramatically lower the heating and cooling costs associated with windows while increasing occupant comfort and minimizing window surface condensation problems. However, consumers are often confused about how to pick the most efficient window for a residence. Product information typically offers window properties: U-factors or R-values, Solar Heat Gain Coefficients or Shading Coefficients, and air leakage rates. However, the relative importance of these properties depends on site- and building-specific conditions. Furthermore, these properties are based on static evaluation conditions that are very different from the real situation a window will be used in.

163

DOE/ LBNL FY10 Technical Report Deliverable  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Annual daylighting performance of a passive Annual daylighting performance of a passive optical light shelf in sidelit perimeter zones of commercial buildings Andrew McNeil Lawrence Berkeley National Laboratory Eleanor S. Lee Lawrence Berkeley National Laboratory Windows and Envelope Materials Group Building Technology and Urban Systems Department Environmental Energy Technologies Division June 2013 DISCLAIMER This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the University of California, nor any of their employees, makes any warranty, express or implied, or assumes any legal responsibility for the accuracy, completeness, or usefulness of any information,

164

LBNL Windows & Daylighting Software -- WINDOW  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

WINDOW WINDOW NFRC Certification Version Release Version Beta Version WINDOW 6.3 (For NFRC Certification and modeling Complex Glazing Systems) WINDOW 7.1 For modeling vacuum glazing, deflected glass, vertical venetian blinds and perforated screens WINDOW 7.2 For modeling Cellular Shades, in addition to vacuum glazing, deflected glass, vertical venetian blinds and perforated screens Download WINDOW 6.3 (for NFRC Certification and complex glazing systems) Download WINDOW 7.1 Download WINDOW 7.2 Knowledge Base (Check here first if you are experiencing a problem with the software) Knowledge Base (Check here first if you are experiencing a problem with the software) Knowledge Base (Check here first if you are experiencing a problem with the software) New Features

165

LBNL Windows & Daylighting Software -- WINDOW Documentation  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Specular Glazing Systems Specular Glazing Systems NFRC THERM 6.3 / WINDOW 6.3 Simulation Manual July 2013: bullet Entire Manual in PDF Format approximate 8 MB Comparison of WINDOW 5 / THERM 5 and WINDOW 6 / THERM 6 Results for Specular Glazing Systems (PDF Format) NFRC WINDOW 6 / THERM 6 Training for Specular Systems (Power Point Presentation, Oct/Nov 2010) Tutorials Complex Glazing Systems bullet WINDOW 6.2 / THERM 6.2 Research Version User Manual (Documents features in WINDOW6 and THERM 6 for modeling complex glazing systems) bullet WINDOW 6.2 / THERM 6.2 Simulation Manual Chapter for Complex Glazing (Draft) This was used for NFRC Simulator training in June 2009, and includes detailed descriptions for modeling venetian blinds between glass and frits. bullet Complex Glazing Summary -- PDF File

166

Microsoft Word - LBNL-62500.v3.doc  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

500 500 Understanding and Mitigating Multicore Performance Issues on the AMD Opteron Architecture John Levesque, Jeff Larkin, Martyn Foster, Joe Glenski, Garry Geissler, Stephen Whalen Cray Inc. Brian Waldecker AMD Inc. Jonathan Carter, David Skinner, Helen He, Harvey Wasserman, John Shalf NERSC Division Lawrence Berkeley National Laboratory Hongzhang Shan, Erich Strohmaier Computational Research Division Lawrence Berkeley National Laboratory March 7, 2007 This work was supported by the Director, Office of Science, Office of Advanced Scientific Computing Research of the U.S. Department of Energy under Contract No. DE-AC02-05CH11231. 2 Understanding and Mitigating Multicore Performance Issues on the AMD Opteron Architecture

167

LBNL Windows & Daylighting Software -- WINDOW Documentation  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Optics 6.0 Optics 6.0 (6.0 -- February 13, 2012) Release Notes Updated: 07/16/12 Program Changes Microsoft Windows 7 / Vista Operating System"Aware" Optics now installs and operates much better under the Microsoft Windows 7 and Vista operating systems. It is no longer necessary to run the "VistaFix" batch file after installing the program. Fixed Bugs If you find bugs, or if you think these have not been fixed, please do not hesitate to send an email to OpticsHelp@lbl.gov to report your findings. Getting feedback from users is how we improve the program. Paths Appear in Tools/Options In the Microsoft Windows 7 / Vista Operating System environments, the program would not display the directory paths in the Tools / Options "File Locations" dialog box. This is now fixed.

168

LBNL Windows & Daylighting Software -- WINDOW Documentation  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Vacuum Glazing Modeling Vacuum Glazing Modeling It is now possible to model vacuum glazing in WINDOW 7. The first step is to define a new vacuum "gap" in the "Gap Library" (formerly the Gas Library). Then that vacuum gap is used in a glazing system to calculate the thermal characteristics of the glazing system with a vacuum gap. Gap Library The Gas Library has been renamed the Gap Library. To define a vacuum gap, check the "Vacuum" checkbox (this is only available for single gases, not gas mixtures). When this box is checked, new input variables will appear, including the vacuum pressure, the specific heat ratio and molecular weight of the vacuum gas. It is also necessary to define a pillar system for the vacuum gap. Pillar Definition Double click the double arrow to the right of the Pillar Definition pulldown to define a new pillar system. Define the shape and dimensions of the pillar system.

169

LBNL Windows & Daylighting Software -- WINDOW Documentation  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Release Notes Release Notes Updated: 10/29/12 COMFEN 4.0 Release Notes History of COMFEN 3.1 Releases New Features Natural Ventilation Model COMFEN now has the ability to model natural ventilation as a replacement for a mechanical cooling system. Click here for more details. Cost Data COMFEN now has a simple Cost module, with default costs that can be over-ridden with user data. Click here for more details. Radiance Rendering Additions There are additional Radiance Renderings available, including Illuminance Maps. Click here for more details. Program Changes Updating Database from COMFEN 4.0 to 4.1 COMFEN will automatically update your 4.0 database to be compatible with the 4.1 database structure the first time you open a 4.0 database in version 4.1. This includes adding all the cost fields to the new database, as well as default cost data. If you have any problems with updating a COMFEN 4.0 database to 4.1, please email COMFENHelp@lbl.gov

170

LBNL Windows & Daylighting Software -- WINDOW Documentation  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

2 2 (7.2.29 -- December 29 2013) Release Notes Updated: 12/29/13 If you find bugs, or have comments about this version, please do not hesitate to send an email to WINDOWHelp@lbl.gov to report your findings. Getting feedback from users is how we improve the program. WINDOW 7.2.29 (December 29, 2013) Program Changes Glazing System Shading System Details For shading system in a Glazing System Library construction, the emittances, conductance and TIR are not displayed, as they are only available after a calculation has been completed. Perforated Screens An input value for "Effective Openness Factor" has been added to the Shading Layer Library for perforated screens. At a future date, we will update the program to calculate this value automatically.

171

LBNL Window & Daylighting Software -- COMFEN  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

5 Beta 5 Beta (5.0.05 -- January 1, 2013) Last Updated: 01/01/2013 Screen Shots Opening Screen, Overview Tab Climate Tab Facade Edit Screen The Facade Library screen allows the user to define a facade with windows, and overhangs and fins for each window. COMFEN displays the geometry of each window that is defined as well as the position in the facade. Each window can be defined with a different glazing system and frame combination if desired. Multiple facades can be defined on this screen, and then compared in the Project screen, described below. Glazed Wall Assembly Definition Glazing System Library The Glazing System Library allows the user to make new glazing systems or import them from a WINDOW 6 database. Shading Control Scheme Library The Shading Control Scheme Library screen allows the user to define interior, exterior and between glass shading systems for

172

LBNL Windows & Daylighting Software -- WINDOW Documentation  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Vertical Louvered Blind Shading Systems Vertical Louvered Blind Shading Systems It is now possible to model Vertical Louvered Blinds in the Shading Layer Library, and then add them to a glazing system in the Glazing System Library. Shading Layer Library In the Shading Layer Library, set the Type to "Venetian blind, vertical" and then input values for the slat width, slat spacing and tilt will appear. The graphic image is a "plan" view of the vertical louvered blinds and will display the geometry of the blind based on the input values. Glazing System Library Once the Vertical Louvered Blind is defined in the Shading Layer Library, it can be added to a glazing system in the Glazing System Library. The blind in the screen shot below has been added to the inside of a double-glazed IGU.

173

Microsoft Word - LBNL-57260-Revision.doc  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

7260-Revision 7260-Revision ERNEST ORLANDO LAWRENCE BERKELEY NATIONAL LABORATORY Energy Efficiency Improvement and Cost Saving Opportunities for the Pharmaceutical Industry An ENERGY STAR ® Guide for Energy and Plant Managers Christina Galitsky, Sheng-chieh Chang, Ernst Worrell, and Eric Masanet Environmental Energy Technologies Division Sponsored by the U.S. Environmental Protection Agency March 2008 Disclaimer This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the University of California, nor any of their employees, makes any warranty, express or implied, or assumes

174

Transporting & Shipping Hazardous Materials at LBNL  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

EHSS EHSS Industrial Hygiene Group HazMat Transport/Shipping Home Biological & Infectious Substances Chemicals Compressed Gas Cryogens Dry Ice Engineered Nanomaterials Gasoline Lithium Betteries Radioactive Materials Waste: Hazardous, Biohazardous, Medical or Radioactive Mixed Hazardous Materials Personal/Rental Vehicles HazMat Transport/Shipping Transporting and shipping hazardous materials can be dangerous, but both activities can be done safely - much of it by the researchers themselves. Each of the items below is subject to some transportation or shipping restrictions. Click on the applicable hazardous material icon below to learn how you can safely (and legally) transport that hazardous material and to learn what laboratory resources are available to you for your shipping needs.

175

Microsoft Word - lbnl54202_final_051404.doc  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

02 02 Field Power Measurements of Imaging Equipment Marla McWhinney, Gregory Homan, Richard Brown, Judy Roberson, Bruce Nordman, John Busch Energy Analysis Department Environmental Energy Technologies Division Ernest Orlando Lawrence Berkeley National Laboratory University of California Berkeley CA 94720, USA May 2004 The work described in this paper was supported by the Office of Atmospheric Programs, Climate Protection Partnerships Division of the U.S. Environmental Protection Agency and prepared for the U.S. Department of Energy under Contract No. DE-AC03- 76SF00098. 2 This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the

176

LBNL Windows & Daylighting Software -- WINDOW Documentation  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

WINDOW 6 and THERM 6 Technical Documentation WINDOW 6 and THERM 6 Technical Documentation Algorithm Documentation WINDOW6 and THERM6 implement the ISO 15099 algorithms: bullet ISO 15099 The algorithms in WINDOW6 and THERM6 follow the procedures presented in ISO 15099: "Thermal performance of windows, doors and shading devices - Detailed calculations." See: http://webstore.ansi.org/ansidocstore/product.asp?sku=ISO+15099%3A2003 In addition to implementing ISO 15099 algorithms in WINDOW6 and THERM6, we have added additional capabilities to WINDOW6. The following reports and papers describe these additional capabilities and/or elaborate on ISO15099. bullet Thermal Algorithm Documentation for THERM6: Conrad 5 & Viewer 5 Technical and Programming Documentation June 20, 2006 bullet Thermal Algorithm Documentation for WINDOW6:

177

LBNL Windows & Daylighting Software -- THERM Documentation  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

THERM Tutorials THERM Tutorials bullet Creating THERM Sample File (Flash Video) (A 17 minute video which will open in your browser) specification document to accompany the Tutorial (PDF file) bullet Creating a Steel Stud Wall in THERM (Flash Video) Windows Media Player: WMV QuickTime: MOV bullet U-factor tags explanation (Flash Video) Windows Media Player WMV QuickTime: MOV bullet DXF Underlay - False Die Mold Method (Flash Video) Windows Media Player WMV QuickTime: MOV bullet The Calc Manager in THERM has been made into a multi-threaded process which allows it to take advantage of multi-core processors. See this video for more information about this enhancement. QuickTime:MOV bullet Displaying Surface Condensation Potential in THERM 7 QuickTime:MOV bullet Viewing R-values instead of U-factors in THERM 7

178

LBNL Windows & Daylighting Software -- WINDOW Documentation  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Deflection Modeling Deflection Modeling It is now possible to model the effects of glass deflection in WINDOW 7. Glazing System Library The Glazing System Library is where the deflection modeling input values are entered. When the "Model Deflection" box is checked, a Deflection input box appears. When the Glazing System is calculated, two rows of results, one for the undeflected state and one for the deflected state, appear for Center of Glass Results, Temperature Data and Angular data. In addition, a Deflection tab appears, which shows the deflection of each glass layer and the resulting gap width for each gap. Glazing System Deflect Input There are two options for defining the deflection in a glazing system, by choosing from the "Input" pulldown list:

179

LBNL China Energy Group | Open Energy Information  

Open Energy Info (EERE)

Group Group Jump to: navigation, search Logo: China Energy Group Name China Energy Group Agency/Company /Organization Lawrence Berkeley National Laboratory Sector Energy Focus Area Energy Efficiency Topics Implementation, GHG inventory, Market analysis, Policies/deployment programs, Resource assessment, Pathways analysis, Background analysis Resource Type Dataset, Software/modeling tools, Training materials, Lessons learned/best practices Website http://china.lbl.gov/ Country China Eastern Asia References Program Homepage [1] Abstract The China Energy Group at Lawrence Berkeley National Laboratory is committed to understanding those opportunities, and to exploring their implications for policy and business. "While daunting, the challenge of meeting China's energy needs presents a

180

LBNL Windows & Daylighting Software -- THERM Components  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Components Components THERM has three basic components: Graphic User Interface: a graphic user interface that allows you to draw a cross section of the product or component for which you are performing thermal calculations. Heat Transfer Analysis: a heat-transfer analysis component that includes: an automatic mesh generator to create the elements for the finite-element analysis, a finite-element solver, an optional error estimator and adaptive mesh generator, and an optional view-factor radiation model. Results: a results displayer. Graphic User Interface THERM has standard graphic capabilities associated with the Microsoft Windows™ operating system. For example, THERM allows you to use: Both mouse and cursor operations; Standard editing features, such as Cut, Copy, Paste, Select All, and Delete;

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


181

LBNL Window & Daylighting Software -- COMFEN  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

1 1 Last Updated: 10/04/2012 Screen Shots Opening Screen, Overview Tab Climate Tab Facade Edit Screen The Facade Library screen allows the user to define a facade with windows, and overhangs and fins for each window. COMFEN displays the geometry of each window that is defined as well as the position in the facade. Each window can be defined with a different glazing system and frame combination if desired. Multiple facades can be defined on this screen, and then compared in the Project screen, described below. Glazed Wall Assembly Definition Glazing System Library The Glazing System Library allows the user to make new glazing systems or import them from a WINDOW 6 database. Shading Control Scheme Library The Shading Control Scheme Library screen allows the user to define interior, exterior and between glass shading systems for

182

FY2012 LBNL LDRD Annual Report (PUB)  

E-Print Network [OSTI]

demand implications of carbon capture and sequestration, inResearch on Biological Carbon Capture and Soil Carbonexplicit impacts of carbon capture and sequestration on

Ho, Darren

2014-01-01T23:59:59.000Z

183

esd14089-lbnl | netl.doe.gov  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Numerical and Laboratory Investigations for Maximization of Production from TightShale Oil Reservoirs: From Fundamental Studies to Technology Development and Evaluation Last...

184

LBNL-103E-2008 Laboratory Directed Research  

E-Print Network [OSTI]

of California. Lawrence Berkeley Laboratory is an equal opportunity employer. #12;Report on Ernest Orlando Lawrence Berkeley National Laboratory Laboratory Directed Research and Development Program FY 2008 Ernest Orlando Lawrence Berkeley National Laboratory Berkeley, CA 94720 MARCH, 2009 Prepared for the U

185

FY2012 LBNL LDRD Annual Report (PUB)  

E-Print Network [OSTI]

8450, p36. LDRD FY2012 Annual Report [Publications List] 119Light LDRD FY2012 Annual Report [Publications List] 95List] LDRD FY2012 Annual Report depletion of branched and

Ho, Darren

2014-01-01T23:59:59.000Z

186

FY2012 LBNL LDRD Annual Report (PUB)  

E-Print Network [OSTI]

Environmental Science and Technology, 46, 10632-10640, doi:Environmental Science and Technology) 2012. M. Decker, D. R.Environmental Science and Technology, draft publication. J.

Ho, Darren

2014-01-01T23:59:59.000Z

187

FY2012 LBNL LDRD Annual Report (PUB)  

E-Print Network [OSTI]

Fossil Fuel to Photovoltaics: Economic and Environmental/Healthfossil fuel to photovoltaics: Economic, environmental and healthFossil Fuel to Photovoltaics: Economic and Environmental/Health

Ho, Darren

2014-01-01T23:59:59.000Z

188

FY2012 LBNL LDRD Annual Report (PUB)  

E-Print Network [OSTI]

short-term: insulation, phase-change materials, chassis andWHO's phase change materials and thermoelectric

Ho, Darren

2014-01-01T23:59:59.000Z

189

Carlos Hernandez Faham LBNL NERSC@40  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Symmetry Magazine NERSC@40 Feb 5, 2014 Carlos Faham 9 "Eager Graduate Students" Davis Cavern, Oct 2011 "Busy Graduate Students" Davis Cavern, Sep 2012 LUX Water Tank - Outside...

190

Energy Neutrinos Ever Lisa Gerhardt, LBNL  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

objects CR P. Gorham Distance to AGNs 4 (A Few) Neutrino Sources CRs: atm Gamma Ray Bursts Dark Matter Supernovae Active Galactic Nuclei GZK p + CMB ...

191

May 1999 LBNL -42975 ASHRAE'S RESIDENTIAL VENTILATION  

E-Print Network [OSTI]

indoor air quality in dwellings and to set minimum standards that would allow for energy efficiency Secretary for Energy Efficiency and Renewable Energy, Office of Building Technology of the U.S. Department measures to be evaluated. The standard has requirements for whole-house ventilation, local exhaust

192

FY2012 LBNL LDRD Annual Report (PUB)  

E-Print Network [OSTI]

algae and cyanobacteria, offer the potential to convert sunlight and CO 2 directly to transportation fuels,

Ho, Darren

2014-01-01T23:59:59.000Z

193

LBNL -47412 Residential Commissioning to Assess  

E-Print Network [OSTI]

..................................................................................15 Refrigerant Charge Level

194

FY2012 LBNL LDRD Annual Report (PUB)  

E-Print Network [OSTI]

provide a most very opportunity to test the compression of the fusion driver beam at a very economical scale using low energy

Ho, Darren

2014-01-01T23:59:59.000Z

195

esd14085-lbnl | netl.doe.gov  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

within regions of unconventional shale reservoirs stimulated by water-based hydraulic fracturing fluids. Laboratory tests and modeling studies will be performed on gas shales...

196

NDCX-II project commencing at LBNL  

E-Print Network [OSTI]

This work was supported by the Director, Office of Science,Office of Fusion Energy Sciences, of the U.S. Department ofof Energys Office of Fusion Energy Sciences. It is being

Friedman, Alex

2010-01-01T23:59:59.000Z

197

LBNL SEED: Why Open Source Overview  

Broader source: Energy.gov [DOE]

One page overview produced by Lawrence Berkeley National Lab detailing the strengths and flexibility of the open source data platform used by the Standard Energy Efficiency Data (SEED) platform.

198

LBNL China Energy Group | Open Energy Information  

Open Energy Info (EERE)

National Laboratory Sector Energy Focus Area Energy Efficiency Topics Implementation, GHG inventory, Market analysis, Policiesdeployment programs, Resource assessment, Pathways...

199

LBNL -53547 Advanced Duct Sealant Testing  

E-Print Network [OSTI]

for Energy Efficiency and Renewable Energy, Office of Building Technology, State and Community Programs of Buildings Group Environmental Energy Technologies Division Lawrence Berkeley National Laboratory Berkeley, Office of Building Research and Standards, of the U.S. Department of Energy under contract no. DE-AC03

200

Status of the APEX Project at LBNL  

E-Print Network [OSTI]

shielding configuration of the bunker where APEX is locatedconfiguration of the bunker housing APEX will limits the

Sannibale, F.

2014-01-01T23:59:59.000Z

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


201

esd14084-lbnl | netl.doe.gov  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Laboratory and Numerical Investigation of Hydraulic Fracture Propagation and Permeability Evolution in Heterogeneous and Anisotropic Shale Last Reviewed 1212015 ESD14084 Goal The...

202

LBNL-59192 Improving Dynamic Load and  

E-Print Network [OSTI]

not infringe privately owned rights. Reference herein to any specific commercial product, process, or service of any information, apparatus, product, or process disclosed, or represents that its use would

203

NDCX-II project commencing at LBNL  

E-Print Network [OSTI]

facility is Livermores National Ignition Facility (NIF).NIF is expected to establish the fundamental feasibility of

Friedman, Alex

2010-01-01T23:59:59.000Z

204

FY2012 LBNL LDRD Annual Report (PUB)  

E-Print Network [OSTI]

Accelerator and Engineering Strategies for Ion Beam CancerAccelerator and Engineering Strategies for Ion Beam CancerAccelerator & Engineering Strategies for Ion Beam Cancer

Ho, Darren

2014-01-01T23:59:59.000Z

205

FY2012 LBNL LDRD Annual Report (PUB)  

E-Print Network [OSTI]

Cushion Gas for Compressed Air Energy Storage in Subsurfacefor porous media compressed air energy storage, GreenhousePan, Porous media compressed air energy storage (PM- CAES):

Ho, Darren

2014-01-01T23:59:59.000Z

206

FY2012 LBNL LDRD Annual Report (PUB)  

E-Print Network [OSTI]

and Nuclear Security (unclassified fundamental research that supports stockpile safety and nonproliferation programs).

Ho, Darren

2014-01-01T23:59:59.000Z

207

FY2012 LBNL LDRD Annual Report (PUB)  

E-Print Network [OSTI]

M DOE grant on advanced hydrogen fuel cells, awarded in partsolar cells, hydrogen storage, batteries and fuel cells. The

Ho, Darren

2014-01-01T23:59:59.000Z

208

Physics Meets Biology (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Summer Lecture Series 2006: If scientists could take advantage of the awesomely complex and beautiful functioning of biologys natural molecular machines, their potential for application in many disciplines would be incalculable. Nobel Laureate and Director of the Lawrence Berkeley National Laboratory Steve Chu explores Possible solutions to global warming and its consequences.

Chu, Steve [Director, LBNL

2011-04-28T23:59:59.000Z

209

LBNL-56380 (2007) 2007 Status Report  

E-Print Network [OSTI]

and practices. Operated jointly by the Environmental Protection Agency (EPA) and the U.S. Department of Energy Laboratory Environmental Energy Technologies Division March 23, 2007 #12;DISCLAIMER This document to 2025. The target market penetration forecast represents our best estimate of future ENERGY STAR savings

210

LBNL-56380 (2008) 2008 Status Report  

E-Print Network [OSTI]

and practices. Operated jointly by the Environmental Protection Agency (EPA) and the U.S. Department of Energy Laboratory Environmental Energy Technologies Division November 28, 2007 #12;2 DISCLAIMER This document savings forecasts for the periods 2008 to 2015 and 2008 to 2025. The forecast represents our best estimate

211

LBNL-56380 (2005) 2005 Status Report  

E-Print Network [OSTI]

-efficient products, buildings and practices. Operated jointly by the Environmental Protection Agency (EPA) and the U and 2005 to 2020. The target market penetration forecast represents our best estimate of future ENERGY STAR. Acknowledgments This work was supported by the U.S. Environmental Protection Agency, Climate Protection Division

212

Workshop on induced Seismicity due to fluid injection/production from Energy-Related Applications  

E-Print Network [OSTI]

DOE DOE DOE DOE NWT DOE/NETL NSF LBNL SNL LBNL LBNL LBNLDOE DOE DOE DOE NWT DOE/NETL NSF LBNL SNL LBNL LBNL LBNL

Majer, E.L.

2011-01-01T23:59:59.000Z

213

Radionuclide Air Emission Report for 2010, LBNL Report number LBNL-470E  

E-Print Network [OSTI]

Radionuclide Air Emission Report for 2010 2010 Average Windat DOE Facilities, Final Report, Eastern Research Group,470E-2010 Radionuclide Air Emission Report for Prepared by:

,

2014-01-01T23:59:59.000Z

214

Nick Balthaser! LBNL/NERSC Storage Systems Group LBNL/NERSC Site  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

N ew t echnology i s t hen deployed v ia e ither: - Technology I nseron * Rere m edia f rom p revious s torage c lass * Re---create H PSS S torage C lass w ith n ew d rive...

215

Functions, Part 1 c csun Fall 2011 v15  

E-Print Network [OSTI]

one element in the second set. 34 #12;Electricity costs Edcon power company charges its residential customers $14.00 per month plus $0.10 per kilowatt-hour (KWH) of electricity used. Thus, the monthly cost, and E(k) be the monthly cost for electricity in dollars. · What are the units of measurement for k

Fuller, Terry

216

A U.S. and China Regional Analysis of Distributed Energy Resources in Buildings  

E-Print Network [OSTI]

AC ASHRAE CHP CO 2 DER DER-CAM EUI FYP kW kWh m 2 MEF MWh PVannual energy use intensity (EUI) is 287 kilowatt-hours (in the U.S. , Fairbanks, the EUI is less than 250 kWh/m 2 .

Feng, Wei

2014-01-01T23:59:59.000Z

217

Teresa's Notes  

E-Print Network [OSTI]

2) A small office unit is to contain 500 square feet of floor space. .... 5) An electric company charges its customer's $0.0575 per kilowatt-hour for the first 1000 kWh ..... 5) The ideal gas law states that the volume V that a gas occupies is directly...

David Evans

2013-01-09T23:59:59.000Z

218

Transporting & Shipping Hazardous Materials at LBNL: Chemicals  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Chemicals Chemicals Hand-Carry Self-Transport by Vehicle Ship by Common Carrier Conduct Field Work Hand-Carry Employees may hand-carry small quantities of hazardous materials between adjacent buildings and in connecting spaces (i.e., hallways, stairs, etc.) within buildings, provided it can be done safely and without spilling the materials. Staff must use hand carts, drip trays, or another type of secondary container to contain any spills should they occur during self-transport. Hazardous materials hand-carried between non-adjacent buildings should be packaged to a higher level of integrity. As a best practice, package these substances following the General Requirements listed under the Self-Transport by Vehicle. As with any work involving chemicals, staff must also have completed

219

LBNL Window & Daylighting Software -- WINDOW 6 Research Version  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

2 2 Last Updated: 12/29/2013 If you find bugs, or have comments about this version, please do not hesitate to send an email to WINDOWHelp@lbl.gov to report your findings. Getting feedback from users is how we improve the program. WINDOW 7.2 (7.2.29) (12/29/2013) Release Notes -- Please read these before running this version ! This version contains these new modeling features Honeycomb shades Dynamic Glazing (Thermochromic and Electrochromic) This version is compatible with THERM 7.1 Please send us emails as you find issues in the program -- that is the only way that we can make it more robust. We hope to iterate versions fairly quickly in the next month or so to get the bugs ironed out. Radiance for WINDOW 7 Get a copy of Radiance for WINDOW 7.2 Must be used with WINDOW 7.0.59 or later

220

LBNL Windows & Daylighting Software -- WINDOW5: Knowledge Base  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

6.3 Knowledge Base 6.3 Knowledge Base Tip - use the Find function in your browser to search this page Last update:11/04/13 01:16 PM Download WINDOW 6.3 Send feedback via email to WindowHelp@lbl.gov. Also as bugs and comments are submitted by testers, the will be posted on this Knowledge Base, so check here for the latest information about the program. CONTENTS INSTALLATION KNOWN BUGS ** Operating Systems -- Microsoft Windows 7 and Vista ** Environmental Conditions -- Kimura convection model not working Locked Files with Install/De-install Environmental Conditions -- Fixed Combined Coefficient Bug Installation Problems Error Message during Calc due to decimal point of "," Minimum computer requirements Importing THERM file into WINDOW generates "Unnamed file has a bad format" error message

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


221

SC report July 21 2011 LBNL format final  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

82E 82E Automated Demand Response Technology Demonstration for Small and Medium Commercial Buildings Janie Page, Sila Kiliccote, Junqiao Han Dudley, Mary Ann Piette Lawrence Berkeley National Laboratory Albert. K. Chiu, Bashar Kellow Pacific Gas and Electric Company Ed Koch, Paul Lipkin Akuacom July 2011 Disclaimer This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the University of California, nor any of their employees, makes any warranty, express or implied, or assumes any legal responsibility for the accuracy, completeness, or usefulness of any information,

222

Transporting & Shipping Hazardous Materials at LBNL: Compressed Gases  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Compressed Gases Compressed Gases Self-Transport by Hand & Foot Self-Transport by Vehicle Ship by Common Carrier Conduct Field Work Return Cylinders Self-Transport by Hand & Foot Staff may personally move (self-transport) compressed gas cylinders by hand & foot between buildings and in connecting spaces (i.e., hallways, elevators, etc.) within buildings provided it can be done safely. The following safety precautions apply: Use standard cylinder dollies to transport compressed gas cylinders. While dollies are preferred, cylinders weighing 11 Kg (25 lbs) or less may be hand-carried. Never move a cylinder with a regulator connected to it. Cylinder valve-protection caps and valve-opening caps must be in place when moving cylinders. Lecture bottles and other cylinders that are

223

Microsoft Word - LBNL Low E Storm-Drumheller.doc  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

1940E 1940E Field Evaluation of Low-E Storm Windows S.C. Drumheller NAHB Research Center C. Kohler Lawrence Berkeley National Laboratory S. Minen Utilivate Technologies 2007 Presented at the Thermal Performance of the Exterior Envelopes of Whole Buildings X International Conference, Clearwater Beach, FL December 2-7, 2007 and published in the Proceedings DISCLAIMER This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the University of California, nor any of their employees, makes any warranty, express or implied, or assumes any legal responsibility for the accuracy, completeness, or usefulness of any information,

224

Microsoft Word - LBNL-53250 Geomechanical risks, Myer.doc  

Office of Scientific and Technical Information (OSTI)

Geomechanical Risks in Coal Bed Carbon Dioxide Sequestration Larry R. Myer Lawrence Berkeley National Laboratory. Earth Sciences Division, Berkeley, CA 94720 INTRODUCTION The purpose of this report is to summarize and evaluate geomechanical factors which should be taken into account in assessing the risk of leakage of CO 2 from coal bed sequestration projects. The various steps in developing such a project will generate stresses and displacements in the coal seam and the adjacent overburden. The question is whether these stresses and displacements will generate new leakage pathways by failure of the rock or slip on pre-existing discontinuities such as fractures and faults. In order to evaluate the geomechanical issues in CO 2 sequestration in coal beds, it is necessary to review

225

LBNL-322E-GTC paper.doc  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Greening the U.S. House of Representatives Greening the U.S. House of Representatives Rick Diamond and Christopher Payne, Lawrence Berkeley National Laboratory Grant Scherling, Office of the Chief Administrative Officer, U.S. House of Representatives ABSTRACT The Greening the Capitol initiative was launched in March, 2007 with the threefold goals of making the U.S. House of Representatives: 1) carbon neutral within 18 months, 2) reducing energy use by 50% in ten years, and 3) becoming a model of sustainable operations. We report on the recommendations to meet these goals, looking at the targets of opportunity at the Capitol Power Plant, the existing buildings, and the overall operations of the complex. Our findings have shown that these goals are achievable, and that through an integrated approach the savings in carbon and energy can

226

ACEEE_LBNL_Role-of-Industry_Paper-38_Final  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

37E 37E Demand Response Opportunities in Industrial Refrigerated Warehouses in California Sasank Goli, Aimee McKane, Daniel Olsen Environmental Energy Technologies Division July 2011 Presented at the 2011 ACEEE Summer Study on Energy Efficiency in Industry, Niagara Falls, NY, July 26-29, 2011, and to be published in the Proceedings DISCLAIMER This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the University of California, nor any of their employees, makes any warranty, express or implied, or assumes any legal responsibility for the accuracy, completeness, or usefulness of any information,

227

LBNL Windows & Daylighting Software -- THERM: Future Work  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

FUTURE WORK FUTURE WORK As window products are designed and manufactured to become increasingly more energy efficient, it is imperative that the software tools such as THERM, which are used to design and rate such products for U-values and Condensation Resistance, are increasingly accurate in order to capture the true benefits of high-performance products. THERM's user interface and algorithms were therefore designed to accommodate the results of ongoing research on fenestration product heat transfer. These topics include: Providing a library of local film coefficients to better model frame and edge heat transfer and projecting products such as skylights and greenhouse windows. Incorporating the effects of 3D heat transfer paths into THERM. Developing a convection model for small cavities (in extruded frames) and in large cavities (domed skylights).

228

LBNL Windows & Daylighting Software -- COMFEN3: Knowledge Base  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

COMFEN 4.0 COMFEN 4.0 Knowledge Base Last update:09/11/13 11:38 AM Download COMFEN Release Notes (includes a list of changes to the program by version) Send feedback via email to COMFENHelp@lbl.gov. Also as bugs and comments are submitted by testers, they will be posted on this Knowledge Base, so check here for the latest information about the program. CONTENTS INSTALLATION KNOWN ISSUES Installation Issues -- Administrator Between Blind Slat Width Greater than Glazing System Gap Installation Issues -- Microsoft.NET Using COMFEN 3 databases in COMFEN 4 Installation Problems COMFEN 4 database is not compatible with COMFEN 3.1 program Installation Directories by Operating System Site To Source Multiplier -- changing it does not invalidate results Minimum computer requirements

229

LBNL Windows & Daylighting Software -- COMFEN3: Knowledge Base  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

5 5 (5.0.05 -- January 1, 2013) Last update:09/11/13 11:40 AM Download COMFEN Release Notes (includes a list of changes to the program by version) Send feedback via email to COMFENHelp@lbl.gov. Also as bugs and comments are submitted by testers, they will be posted on this Knowledge Base, so check here for the latest information about the program. CONTENTS INSTALLATION KNOWN ISSUES Installation Issues -- Administrator Between Blind Slat Width Greater than Glazing System Gap Installation Issues -- Microsoft.NET Site To Source Multiplier -- changing it does not invalidate results Installation Directories by Operating System Natural Ventilation -- heating load increases Minimum computer requirements Climate Data Does Not Display Project Database from Previous Versions -- where is it ?

230

LBNL-PG&E High Tech Building Initiative  

Broader source: Energy.gov (indexed) [DOE]

www.femp.energy.gov/training Federal Energy Management Program Labs, Data Centers, and High Tech Facilities Dale Sartor, Lawrence Berkeley National Laboratory 2 | FUPWG April 2012 High Tech Buildings are Energy Hogs Comparative Energy Costs High-Tech Facilities vs. Standard Buildings Annual Energy Costs ($/square foot) 3 | FEMP First Thursday Seminars femp.energy.gov/training FEMP First Thursday Seminars Energy Efficiency in Data Centers 4 | FUPWG April 2012 High voltage distribution High efficiency UPS systems Efficient redundancy strategies Use of DC power Better air management Move to liquid cooling Optimized chilled-water plants Use of free cooling Heat recovery Server innovation Virtualization High efficiency power supplies

231

LBNL-5268E An Examination of Temporal Trends  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

68E 68E An Examination of Temporal Trends in Electricity Reliability Based on Reports from U.S. Electric Utilities Joseph H. Eto, Kristina Hamachi LaCommare, Peter Larsen, Annika Todd, and Emily Fisher January 2012 The work described in this report was funded by the Office of Electricity Delivery and Energy Reliability of the U.S. Department of Energy under Contract No. DE-AC02- 05CH11231. ERNEST ORLANDO LAWRENCE BERKELEY NATIONAL LABORATORY Disclaimer This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the University of California, nor any of their employees, makes any warranty, express or

232

LBNL Windows & Daylighting Software -- COMFEN3: Knowledge Base  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

4.1 4.1 (4.1.25 -- October 4, 2012) Last update:09/11/13 11:39 AM Download COMFEN Release Notes (includes a list of changes to the program by version) Send feedback via email to COMFENHelp@lbl.gov. Also as bugs and comments are submitted by testers, they will be posted on this Knowledge Base, so check here for the latest information about the program. CONTENTS INSTALLATION KNOWN ISSUES Installation Issues -- Administrator Between Blind Slat Width Greater than Glazing System Gap Installation Issues -- Microsoft.NET Site To Source Multiplier -- changing it does not invalidate results Installation Directories by Operating System Natural Ventilation -- heating load increases Minimum computer requirements Simulation Error When Calculating a Scenario Project Database from Previous Versions -- where is it ?

233

LBNL-6140E The Impact of City-level  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

0E 0E The Impact of City-level Permitting Processes on Residential Photovoltaic Installation Prices and Development Times: An Empirical Analysis of Solar Systems in California Cities Ryan Wiser and Changgui Dong Environmental Energy Technologies Division April 2013 Download from: http://emp.lbl.gov/reports This work was supported by the Office of Energy Efficiency and Renewable Energy (Solar Energy Technologies Office) of the U.S. Department of Energy under Contract No. DE-AC02-05CH11231. ERNEST ORLANDO LAWRENCE BERKELEY NATIONAL LABORATORY i Disclaimer This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States

234

Microsoft Word - Lynn Price.LBNL.CV.2013 (1).docx  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

LYNN PRICE LYNN PRICE Staff Scientist 1 Cyclotron Road, MS 90R4000 Leader, China Energy Group Berkeley, CA 94720 Energy Analysis & Environmental Impacts Department (510) 486-6519 Environmental Energy Technologies Division (510) 710-2877 cell Lawrence Berkeley National Laboratory LKPrice@LBL.gov EMPLOYMENT Lawrence Berkeley National Laboratory, Berkeley, California 1990 - Present Price Associates, Berkeley, California 1989 - 1990 MHB Technical Associates, San Jose, California 1983 -1989 PROFESSIONAL EXPERIENCE  Lead author, Intergovernmental Panel on Climate Change Second Assessment Report, Technical Paper on Technologies, Policies and Measures for Mitigating Climate Change, Special Report on Emissions Scenarios, Third Assessment Report, Fourth Assessment

235

LBNL-3831E Achieving Energy Savings with Highly-  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

831E 831E Achieving Energy Savings with Highly- Controlled Lighting in an Open-Plan Office Author(s), F. Rubinstein, and A. Enscoe Environmental Energy Technologies Division April 2010 Highly-Controlled Lighting 1 of 50 April 19, 2010 Achieving Energy Savings with Highly-Controlled Lighting in an Open-Plan Office Prepared for the General Services Administration by Francis Rubinstein and Abby Enscoe Lawrence Berkeley National Laboratory Highly-Controlled Lighting 2 of 50 April 19, 2010 DISCLAIMER This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the University of

236

LBNL-5933E An Evaluation of Solar Valuation  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

3E 3E An Evaluation of Solar Valuation Methods Used in Utility Planning and Procurement Processes Andrew Mills and Ryan Wiser Environmental Energy Technologies Division December 2012 The work described in this report was funded by the U.S. Department of Energy (Office of Energy Efficiency and Renewable Energy and Office of Electricity Delivery and Energy Reliability) under Lawrence Berkeley National Laboratory Contract No. DE- AC02-05CH1123 ERNEST ORLANDO LAWRENCE BERKELEY NATIONAL LABORATORY Disclaimer This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the

237

LBNL Window & Daylighting Software -- WINDOW 6 Research Version  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

7.0 7.0 Last Updated: 05/20/2013 EN 673 / ISO 10077 Using WINDOW 7 and THERM 7 for EN 673 / ISO 10077 Calculations If you are interested in using WINDOW and THERM for EN 673 / ISO 10077 calculations, we have added that option to WINDOW 7. The calculation is not fully automated in the program yet, so there are many steps and a spreadsheet for the final calculation. We are interested in feedback (email WINDOWHelp@lbl.gov) about the process and the results from anyone who tests this feature. CAUTION: Do not model shading systems with the EN 673 thermal model. The program will produce results but they will most likely not be correct. Download this zip file (EN673.zip) which contains the following: Description of how to use WINDOW 6 and THERM 6 for the EN 673 / ISO 10077 calculations (PDF file)

238

LBNL Window & Daylighting Software -- WINDOW 6 Research Version  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

(6.3.9) (6.3.9) October 2010 Last Updated: 11/07/2010 Complex Glazing Features for WINDOW6 The Research Version of WINDOW 6 has the following modeling capabilities: Shading Layer Library: A Shading Layer Library has been added to define shading systems, such as venetian blinds and diffusing layers, which can then be added as layers in the Glazing System Library. Shade Material Library: A Shading Material Library has been added to define materials to be used in the Shading Layer Library. Properties defined in this library include shade material reflectance and absorptance (in the solar, visible and IR wavelengths ranges), as well as the conductivity of the material. Glazing System Library In the “Layers” section of the Glazing System definition, it is now possible to specify either a glass layer or a shading layer. The shading system is chosen from the Shading Layer Library.

239

LBNL-470E-2010 Radionuclide Air Emission Report for  

E-Print Network [OSTI]

and Safety Division Environmental Services Group May 25, 2011 Ernest Orlando Lawrence Berkeley National Report for 2010 (in compliance with 40 CFR 61, Subpart H) Site Name: Ernest Orlando Lawrence Berkeley National Laboratory Operation Office Information Office: U.S. Department of Energy Berkeley Site Office

Eisen, Michael

240

LBNL-470E-2008 Radionuclide Air Emission Report  

E-Print Network [OSTI]

compliance with 40 CFR 61, Subpart H) Site Name: Ernest Orlando Lawrence Berkeley National Laboratory, and Safety Division Environmental Services Group May 21, 2009 Ernest Orlando Lawrence Berkeley National Laboratory Berkeley, CA 94720 This work was supported by the U.S. Department of Energy under Contract No. DE

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


241

LBNL-470E-2009 Radionuclide Air Emission Report for  

E-Print Network [OSTI]

and Safety Division Environmental Services Group June 2010 Ernest Orlando Lawrence Berkeley National Report for 2009 (in compliance with 40 CFR 61, Subpart H) Site Name: Ernest Orlando Lawrence Berkeley National Laboratory Operation Office Information Office: U.S. Department of Energy Berkeley Site Office

242

LBNL-470E-2011 Radionuclide Air Emission Report for  

E-Print Network [OSTI]

and Safety Division Environmental Services Group June 4, 2012 Ernest Orlando Lawrence Berkeley National Report for 2011 (in compliance with 40 CFR 61, Subpart H) Site Name: Ernest Orlando Lawrence Berkeley National Laboratory Operation Office Information Office: U.S. Department of Energy Berkeley Site Office

Eisen, Michael

243

Integrated Lab/Industry Research Project at LBNL  

Broader source: Energy.gov (indexed) [DOE]

energies are quite large and consistent with the interaction between lithium ion and solvents in an electrolyte as determined by a theoretical calculation. Abe et al., J....

244

Cool Cities, Cool Planet (LBNL Science at the Theater)  

ScienceCinema (OSTI)

Science at the Theater: Berkeley Lab scientists discuss how cool roofs can cool your building, your city ... and our planet. Arthur Rosenfeld, Professor of Physics Emeritus at UC Berkeley, founded the Berkeley Lab Center for Building Science in 1974. He served on the California Energy Commission from 2000 to 2010 and is commonly referred to as California's godfather of energy efficiency. Melvin Pomerantz is a member of the Heat Island Group at Berkeley Lab. Trained as a physicist at UC Berkeley, he specializes in research on making cooler pavements and evaluating their effects. Ronnen Levinson is a staff scientist at Berkeley Lab and the acting leader of its Heat Island Group. He has developed cool roofing and paving materials and helped bring cool roof requirements into building energy efficiency standards.

Rosenfeld, Arthur; Pomerantz, Melvin; Levinson, Ronnen

2011-04-28T23:59:59.000Z

245

Seventy Five Years of Particle Accelerators (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Summer Lecture Series 2006: Andy Sessler, Berkeley Lab director from 1973 to 1980, sheds light on the Lab's nearly eight-decade history of inventing and refining particle accelerators, which continue to illuminate the nature of the universe.

Sessler, Andy

2011-04-28T23:59:59.000Z

246

Beyond The Human Genome: What's Next? (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

UC Berkeley's Daniel Rokhsar and his colleagues were instrumental in contributing the sequences for three of the human body's chromosomes in the effort to decipher the blueprint of life- the completion of the DNA sequencing of the human genome. Now he is turning to the structure and function of genes in other organisms, some of them no less important to the planet's future than the human map. Hear the latest in this lecture from Lawrence Berkeley National Laboratory.

Rokhsar, Daniel

2014-05-06T23:59:59.000Z

247

LBNL Renewable Energy Market and Policy Analysis | Open Energy...  

Open Energy Info (EERE)

renewable energy industry, and others to conduct public interest research on renewable energy markets, policies, costs, benefits, and performance. "Lawrence Berkeley National...

248

Renewable Energy from Synthetic Biology (LBNL Science at the Theater)  

ScienceCinema (OSTI)

Jay Keasling, co-leader of Berkeley Lab's Helios Project, is a groundbreaking researcher in the new scientific field of synthetic biology. In Helios, he directs the biology program, incorporating a range of approaches to increasing the efficacy and economy of plants and cellulose-degrading microbes to make solar-based fuels. He is a UC Berkeley professor of Chemical and Bioengineering, and founder of Amyris Biotechnologies, a company that was honored as a Technology Pioneer for 2006 by the World Economic Forum. Keasling has succeeded in using synthetic biology to develop a yeast-based production scheme for precursors of the antimalarial drug artemisinin in work funded by the Bill & Melinda Gates Foundation.

Keasling, Jay

2011-04-28T23:59:59.000Z

249

Solar Energy for Transportation Fuel (LBNL Science at the Theater)  

ScienceCinema (OSTI)

Nate Lewis' talk looks at the challenge of capturing solar energy and storing it as an affordable transportation fuel - all on a scale necessary to reduce global warming. Overcoming this challenge will require developing new materials that can use abundant and inexpensive elements rather than costly and rare materials. He discusses the promise of new materials in the development of carbon-free alternatives to fossil fuel.

Lewis, Nate

2011-04-28T23:59:59.000Z

250

Microsoft Word - LBNL 53866_SPME-MTBE_Final_112103.doc  

Office of Scientific and Technical Information (OSTI)

There are numerous sources of MTBE contamination including leaking underground storage tanks, surface runoff, and precipitation (1-4). In California, MTBE contamination of...

251

20130226_sunshot_transcript_lbnl.doc | Department of Energy  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

Documents & Publications textalternativestatwebinar2012725.docx Why Are Resiential PV Prices in Germany So Much Lower Than in the United States? sunshotsummitchutext.docx...

252

LBNL REPORT NUMBER 53776; OCTOBER 2003 ASHRAE &Residential Ventilation  

E-Print Network [OSTI]

Performance of Buildings Group IED/EETD Lawrence Berkeley Laboratory1 MHSherman@lbl.gov ASHRAE, the American list of things that homeowners should be aware of to protect their indoor environment. This article

253

Nuclear Data from the LBNL Particle Data Group (PDG)  

DOE Data Explorer [Office of Scientific and Technical Information (OSTI)]

The Particle Data Group is an international collaboration charged with summarizing Particle Physics, as well as related areas of Cosmology and Astrophysics. The summaries are published in even-numbered years as a book, the Review of Particle Physics, and as an abbreviated version, the Particle Physics Booklet. The Review is also published in a major journal. The Review has been called the bible of particle physics; over the years, it has been cited in tens of thousands of papers. The Review includes a compilation and evaluation of measurements of the properties of the elementary particles. Evaluations of these properties are abstracted in summary tables. Data and data applications found on the PDG website include: 1) PDG Live (Interactive tables of data and reviews from the Review of Particle Physics; 2) Hundreds of pages of summary tables from the Review; 3) Reviews, tables, and data plots grouped by subject area rather than names of particles; 4) Particle listings; and 5) Atomic and Nuclear Properties of Materials for more than 300 substances.

254

Toward An Affordable Commercial Fuel Cell (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Steve Visco, a materials scientist, has come up with a solid oxide fuel cell that promises to generate electricity as cheaply as the most efficient gas turbine engine. But there's a lot more work to do before commercially viable fuel cells and pollution-free power generators become reality.

Visco, Steve

2014-05-06T23:59:59.000Z

255

DUSEL-related Science at LBNL -- Program and Opportunities  

E-Print Network [OSTI]

the only operating underground facility in the world fora next gener- ation underground facility at the DUSELshielded Oroville underground facility. These facilities

Bauer, Christian

2010-01-01T23:59:59.000Z

256

Microsoft Word - LBNL-52550 Jart Yellowstone,Dobson.doc  

Office of Scientific and Technical Information (OSTI)

94720, USA ABSTRACT The Yellowstone geothermal system provides an ideal opportunity to test the ability of reactive transport models to simulate the chemical and hydrological...

257

Hot Technology, Cool Science (LBNL Science at the Theater)  

ScienceCinema (OSTI)

Great innovations start with bold ideas. Learn how Berkeley Lab scientists are devising practical solutions to everything from global warming to how you get to work. On May 11, 2009, five Berkeley Lab scientists participated in a roundtable dicussion ? moderated by KTVU's John Fowler ? on their leading-edge research. This "Science at the Theater" event, held at the Berkeley Repertory Theatre, featured technologies such as cool roofs, battery-driven transportation, a pocket-sized DNA probe, green supercomputing, and a noncontact method for restoring damaged and fragile mechanical recordings.

None available

2011-04-28T23:59:59.000Z

258

Space Radiation and Cataracts (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Summer Lecture Series 2009: Eleanor Blakely, radiation biologist of the Life Sciences Division at Lawrence Berkeley National Laboratory, has been a scientist at Berkeley Lab since 1975. She is studying the effect of radiation on cataracts which concerns not only cancer patients, but also astronauts. As astronauts spend increasingly longer time in space, the effects of cosmic radiation exposure will become an increasingly important health issue- yet there is little human data on these effects. Blakely reviews this emerging field and the contributions made at Berkeley Lab

Blakely, Eleanor

2011-04-28T23:59:59.000Z

259

Genome Science and Personalized Cancer Treatment (LBNL Summer Lecture Series)  

SciTech Connect (OSTI)

Summer Lecture Series 2009: Results from the Human Genome Project are enabling scientists to understand how individual cancers form and progress. This information, when combined with newly developed drugs, can optimize the treatment of individual cancers. Joe Gray, director of Berkeley Labs Life Sciences Division and Associate Laboratory Director for Life and Environmental Sciences, will focus on this approach, its promise, and its current roadblocks particularly with regard to breast cancer.

Gray, Joe

2009-08-04T23:59:59.000Z

260

Next Generation Lighting Technologies (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

For the past several years, Michael Siminovittch, a researcher in the Environmental Energy Technologies Division of Lawrence Berkeley National Laboratory, has worked to package efficient lighting in an easy-to-use and good-looking lamp. His immensely popular "Berkeley Lamp" has redefined how America lights its offices.

Siminovittch, Micheal

2014-05-06T23:59:59.000Z

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


261

The World as a Hologram (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Summer Lecture Series 2006: UC Berkeley's Raphael Bousso presents a friendly introduction to the ideas behind the holographic principle, which may be very important in the hunt for a theory of quantum gravity.

Bousso, Raphael

2011-04-28T23:59:59.000Z

262

New Light on Dark Energy (LBNL Science at the Theater)  

ScienceCinema (OSTI)

A panel of Lab scientists ? including Eric Linder, Shirly Ho, and Greg Aldering ? along with Andrew Fraiknoi, the Bay Area's most popular astronomy explainer, gathered at the Berkeley Repertory Theatre on Monday, April 25, 2011, for a discussion about "New Light on Dark Energy." Topics will include hunting down Type 1a supernovae, measuring the universe using baryon oscillation, and whether dark energy is the true driver of the universe.

Linder, Eric; Ho, Shirly; Aldering, Greg; Fraiknoi, Andrew

2011-06-08T23:59:59.000Z

263

Saving Power at Peak Hours (LBNL Science at the Theater)  

ScienceCinema (OSTI)

California needs new, responsive, demand-side energy technologies to ensure that periods of tight electricity supply on the grid don't turn into power outages. Led by Berkeley Lab's Mary Ann Piette, the California Energy Commission (through its Public Interest Energy Research Program) has established a Demand Response Research Center that addresses two motivations for adopting demand responsiveness: reducing average electricity prices and preventing future electricity crises. The research seeks to understand factors that influence "what works" in Demand Response. Piette's team is investigating the two types of demand response, load response and price response, that may influence and reduce the use of peak electric power through automated controls, peak pricing, advanced communications, and other strategies.

Piette, Mary Ann

2011-04-28T23:59:59.000Z

264

E=mc2 (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Summer Lecture Series 2006: Go behind the famous equation with Hitoshi Murayama. This famous equation, part of the theory of relativity set forth by Einstein, changed our understanding of nature at the most fundamental level. The fascinating story of energy (E) and mass (m) is still evolving a century since Einstein as we understand more of where they come from, how they shape the universe, and the missing pieces of the universe: Dark Matter and Dark Energy.

Murayama, Hitoshi

2011-04-28T23:59:59.000Z

265

Development of Cellulosic Biofuels (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Summer Lecture Series 2007: Chris Somerville, Director of the Energy Biosciences Institute and an award-winning plant biochemist with Berkeley Lab's Physical Biosciences Division, is a leading authority on the structure and function of plant cell walls. He discusses an overview of some of the technical challenges associated with the production of cellulosic biofuels, which will require an improved understanding of a diverse range of topics in fields such as agronomy, chemical engineering, microbiology, structural biology, genomics, environmental sciences, and socioeconomics.

Somerville, Chris [Director, Energy Biosciences Institute

2011-04-28T23:59:59.000Z

266

Buildings That Think Green (LBNL Science at the Theater)  

ScienceCinema (OSTI)

Buildings are the SUVs of U.S. energy consumption, gobbling up 71 percent of the nation's electricity. In this Sept. 22, 2008 talk, Arun Majumdar, Director of Berkeley Lab's Environmental Energy Technologies Division, discusses how scientists are creating a new generation of net-zero energy, carbon-neutral buildings.

Majumdar, Arun

2011-04-28T23:59:59.000Z

267

What's Right with Kansas? (LBNL Science at the Theater)  

ScienceCinema (OSTI)

On Monday, Oct. 3 at 7 p.m. in Berkeley's Repertory Theater, the Lab presented "What's Right with Kansas," an evening of conversation with the Kansas-based Climate and Energy Project's founder and board chair, Nancy Jackson, and Berkeley Lab scientist Merrian Fuller, an electricity-market, policy and consumer behavior expert. Berkeley Lab will also debut its video "Common Ground," which showcases how CEP has become a Kansas mainstay and an inspiration to environmental organizations across the country. In a state rife with climate-change skepticism, CEP has changed behavior, and some minds, by employing rural values of thrift, independence, conservation, and friendly competition to promote energy efficiency.

Fuller, Merrian; Jackson, Nancy

2014-05-06T23:59:59.000Z

268

Discovery of the Transuranium Elements (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Summer Lecture Series 2006: Darleane Hoffman, a Berkeley Lab nuclear chemist, chronicles the discovery of the heaviest elements ? those much heavier than uranium and plutonium.

Hoffman, Darleane

2011-04-28T23:59:59.000Z

269

DUSEL-related Science at LBNL -- Program and Opportunities  

E-Print Network [OSTI]

3 Neutrinoless double beta decay 3.1dark matter and neutrinoless double beta decay searches. Theparticular, neutrinoless double beta decay, and accelerator-

Bauer, Christian

2010-01-01T23:59:59.000Z

270

SAS Output  

U.S. Energy Information Administration (EIA) Indexed Site

5. Unit of Measure Equivalents 5. Unit of Measure Equivalents Unit Equivalent Kilowatt (kW) 1,000 (One Thousand) Watts Megawatt (MW) 1,000,000 (One Million) Watts Gigawatt (GW) 1,000,000,000 (One Billion) Watts Terawatt (TW) 1,000,000,000,000 (One Trillion) Watts Gigawatt 1,000,000 (One Million) Kilowatts Thousand Gigawatts 1,000,000,000 (One Billion) Kilowatts Kilowatthours (kWh) 1,000 (One Thousand) Watthours Megawatthours (MWh) 1,000,000 (One Million) Watthours Gigawatthours (GWh) 1,000,000,000 (One Billion) Watthours Terawatthours (TWh) 1,000,000,000,000 (One Trillion) Watthours Gigawatthours 1,000,000 (One Million) Kilowatthours Thousand Gigawatthours 1,000,000,000(One Billion Kilowatthours U.S. Dollar 1,000 (One Thousand) Mills U.S. Cent 10 (Ten) Mills Barrel of Oil 42 Gallons

271

Presidential Permit Holders - Annual Reports | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

Permit Holders - Permit Holders - Annual Reports Presidential Permit Holders - Annual Reports Presidential permit holders are responsible for reporting the gross amount electric energy which flows into and out of the United States over the permitted international transmission facility regardless if the energy is wheeled to or for another entity. For example, utility A receives a Presidential permit for a single international transmission line across the U.S.-Canadian border. During the calendar year just completed, 300,000,000 kilowatt-hours (kwh) are imported from Canada across this line. Utility A arranged for the purchase of 200,000,000 kwh for its own use and wheeled 100,000,000 kwh to neighboring utility B. Utility A must report 300,000,000 kwh of imports over the international

272

SRP - Net Metering | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

SRP - Net Metering SRP - Net Metering SRP - Net Metering < Back Eligibility Commercial Residential Savings Category Buying & Making Electricity Solar Wind Program Info State Arizona Program Type Net Metering Provider SRP Salt River Project (SRP) modified an existing net-metering program for residential and commercial customers in November 2013. Net metering is now available to customers who generate electricity using photovoltaic (PV), geothermal, or wind systems up to 300 kilowatts (kW) in AC peak capacity. The kilowatt-hours (kWh) delivered to SRP are subtracted from the kWh delivered from SRP for each billing cycle. If the kWh calculation is net positive for the billing cycle, SRP will bill the net kWh to the customer under the applicable price plan, Standard Price Plan E-21, E-23, E-26,

273

Data:B5de3eef-0a20-4b11-95b7-608518715f9d | Open Energy Information  

Open Energy Info (EERE)

B5de3eef-0a20-4b11-95b7-608518715f9d B5de3eef-0a20-4b11-95b7-608518715f9d No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Village of Lodi, Ohio (Utility Company) Effective date: 2007/03/15 End date if known: Rate name: Commercial Load Management Rate Sector: Commercial Description: *Applicable for commercial secondary service for commercial customers with less than 50 kVA demands through one meter. Subject to Power Cost Adjustment and Ohio kWh Tax. State of Ohio Kilowatt-Hour Tax Tax rates are applied to all kWH usage: $0.00465 per kWH first 2000 kWh $0.00419 per kWH next 13000 kWh $0.00363 per kWH over 15000 kWh

274

Data:8720921a-1600-4028-8fc8-e83e11818502 | Open Energy Information  

Open Energy Info (EERE)

20921a-1600-4028-8fc8-e83e11818502 20921a-1600-4028-8fc8-e83e11818502 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: City of Lebanon, Ohio (Utility Company) Effective date: End date if known: Rate name: Industrial Primary Power Customer Service Sector: Industrial Description: *Subject to Fuel Adjustment Charge and Ohio kWh Tax. State of Ohio Kilowatt-Hour Tax Tax rates are applied to all kWH usage: $0.00465 per kWH first 2000 kWh $0.00419 per kWH next 13000 kWh $0.00363 per kWH over 15000 kWh Source or reference: http://www.lebanonohio.gov/index.aspx?NID=321 Source Parent: Comments Applicability

275

Data:C09dc47c-963e-4df6-b262-a3a5f7001cd7 | Open Energy Information  

Open Energy Info (EERE)

dc47c-963e-4df6-b262-a3a5f7001cd7 dc47c-963e-4df6-b262-a3a5f7001cd7 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: City of Lebanon, Ohio (Utility Company) Effective date: End date if known: Rate name: Industrial Large Power Customer Service Sector: Industrial Description: *Subject to Fuel Adjustment Charge and Ohio kWh Tax. State of Ohio Kilowatt-Hour Tax Tax rates are applied to all kWH usage: $0.00465 per kWH first 2000 kWh $0.00419 per kWH next 13000 kWh $0.00363 per kWH over 15000 kWh Source or reference: http://www.lebanonohio.gov/index.aspx?NID=321 Source Parent: Comments Applicability Demand (kW)

276

Farmers Electric Cooperative (Kalona) - Renewable Energy Purchase Rate |  

Broader source: Energy.gov (indexed) [DOE]

Farmers Electric Cooperative (Kalona) - Renewable Energy Purchase Farmers Electric Cooperative (Kalona) - Renewable Energy Purchase Rate Farmers Electric Cooperative (Kalona) - Renewable Energy Purchase Rate < Back Eligibility Commercial Residential Savings Category Solar Buying & Making Electricity Wind Maximum Rebate Payment limited to 25% of customers monthly kWh usage Program Info State Iowa Program Type Performance-Based Incentive Rebate Amount $0.20/kWh Provider Farmers Electric Cooperative Farmers Electric Cooperative offers a production incentive to members that install qualifying wind and solar electricity generating systems. Qualifying grid-tied solar and wind energy systems are eligible for a $0.20 per kilowatt-hour (kWh) production incentive for up to 10 years for energy production that offsets up to 25% of monthly energy usage.

277

Golden Valley Electric Association - Sustainable Natural Alternative Power  

Broader source: Energy.gov (indexed) [DOE]

Sustainable Natural Sustainable Natural Alternative Power (SNAP) Program Golden Valley Electric Association - Sustainable Natural Alternative Power (SNAP) Program < Back Eligibility Agricultural Commercial Industrial Institutional Nonprofit Residential Schools Savings Category Bioenergy Buying & Making Electricity Solar Home Weatherization Water Wind Maximum Rebate 1.50/kWh Program Info State Alaska Program Type Performance-Based Incentive Rebate Amount Varies; determined by kWh produced and contributions from supporting members. Provider Golden Valley Electric Golden Valley Electric Association's (GVEA) SNAP program encourages members to install renewable energy generators and connect them to the utility's electrical distribution system by offering an incentive payment based on the system's production on a dollar per kilowatt-hour ($/kWh) basis. The

278

Okanogan County PUD - Sustainable Natural Alternative Power Program |  

Broader source: Energy.gov (indexed) [DOE]

Sustainable Natural Alternative Power Program Sustainable Natural Alternative Power Program Okanogan County PUD - Sustainable Natural Alternative Power Program < Back Eligibility Agricultural Commercial Industrial Local Government Residential Schools State Government Savings Category Bioenergy Solar Buying & Making Electricity Alternative Fuel Vehicles Wind Maximum Rebate 1.00/kWh Program Info State District of Columbia Program Type Performance-Based Incentive Rebate Amount Varies, 0.037/kWh in July 2011 Provider Okanogan County PUD Conservation Department Created in October 2004, Okanogan County PUD's Sustainable Natural Alternative Power Program (SNAP) encourages members to install renewable energy systems by offering an incentive payment based on the system's production on a dollar per kilowatt-hour ($/kWh) basis. SNAP producers also

279

CX-002104: Categorical Exclusion Determination | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

2104: Categorical Exclusion Determination 2104: Categorical Exclusion Determination CX-002104: Categorical Exclusion Determination Street Light and Signal Relamping CX(s) Applied: B5.1 Date: 04/19/2010 Location(s): Shelburne, Vermont Office(s): Energy Efficiency and Renewable Energy Energy Efficiency and Conservation Block Grant for: The Chittenden County Regional Planning Commission is focused on Energy Efficient Lighting. The Town of Shelburne is proposing to work with Green Mountain Power Company to replace 181 existing mercury vapor and sodium vapor municipal lights with light-emitting diode (LED) lights. Currently, the 181 lights that will be replaced use an estimated 107,427 kilowatt-hours (kWh) of electricity annually. The replacement LED heads will use an estimated 29,565 kWh of electricity providing a decrease of 77,862 kWh of electricity per year. The

280

System Benefits Charge | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

System Benefits Charge System Benefits Charge System Benefits Charge < Back Eligibility Commercial Industrial Residential Schools Utility Program Info State New Hampshire Program Type Public Benefits Fund Provider New Hampshire Public Utilities Commission New Hampshire's 1996 electric-industry restructuring legislation authorized the creation of a system benefits charge (SBC) to support energy-efficiency programs and energy-assistance programs for low-income residents. The efficiency fund, which took effect in 2002, is funded by a non-bypassable surcharge of 1.8 mills per kilowatt-hour ($0.0018/kWh) on electric bills. A separate surcharge of 1.5 mills per kWh ($0.0015/kWh) supports low-income energy assistance programs. Approximately $19 million is collected annually to support the efficiency fund, although the annual sum collected has

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


281

A comprehensive power loss, efficiency, reliability and cost calculation of a 1MW/500kWh battery based energy storage system for frequency regulation application  

Science Journals Connector (OSTI)

Abstract Battery based energy storage system (ESS) has tremendous diversity of application with an intense focus on frequency regulation market. An ESS typically comprised of a battery and a power conversion system. A calculation of performance parameters is performed in this research. The aim is to formulate an in-depth analysis of the ESS in terms of power losses of the semiconductor and electrical devices, efficiency, reliability and cost which would foster various research groups and industries around the globe to improve their future product. In view of this, a relation between the operating conditions and power losses is established to evaluate the efficiency of the system. The power loss calculation presented in this paper has taken into account the conduction and switching losses of the semiconductor devices. Afterwards, the Arrhenius Life Stress relation is adopted to calculate the reliability of the system by considering temperature as a covariate. And finally, a cost calculation is executed and presented as a percentage of total cost of the ESS. It has been found that the power loss and efficiency of the ESS at rated power is 146kW and 85% respectively. Furthermore, the mean time between failures of the ESS is 8 years and reliability remains at 73% after a year. The major cost impact observed is for battery and PCS as 58% and 16% respectively. Finally, it has been determined that further research is necessary for higher efficient and lower cost system for high penetration of energy storage system in the market.

Md Arifujjaman

2015-01-01T23:59:59.000Z

282

Data:C764a1f5-c1ee-44f9-afb7-7fd14125e707 | Open Energy Information  

Open Energy Info (EERE)

4a1f5-c1ee-44f9-afb7-7fd14125e707 4a1f5-c1ee-44f9-afb7-7fd14125e707 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Village of Lodi, Ohio (Utility Company) Effective date: 2007/03/15 End date if known: Rate name: Commercial Three Phase Phase Load Management Rate Sector: Commercial Description: *Applicable for commercial secondary service for commercial customers with less than 50 kVA demands through one meter. Subject to Power Cost Adjustment and Ohio kWh Tax. State of Ohio Kilowatt-Hour Tax Tax rates are applied to all kWH usage: $0.00465 per kWH first 2000 kWh $0.00419 per kWH next 13000 kWh

283

Data:F2ebdf65-e5e7-4dd9-89fb-ba9f3153f655 | Open Energy Information  

Open Energy Info (EERE)

ebdf65-e5e7-4dd9-89fb-ba9f3153f655 ebdf65-e5e7-4dd9-89fb-ba9f3153f655 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: City of Kirkwood, Missouri (Utility Company) Effective date: 2011/10/31 End date if known: Rate name: Class R (Residential) Sector: Residential Description: *Purchase Power Adjustment (Rider PPA). A purchased power adjustment will be applicable to all metered kilowatt-hours (kwh) of energy. During the summer months a purchase power adjustment of 0.4225¢ shall be applied to all metered kilowatt-hours. During the winter months a purchase power adjustment of 1.13¢ shall be applied the first 750 kilowatt-hours and a purchase power adjustment of 3.39¢ shall be applied to all metered kilowatt-hours over 750.

284

Nuclear Waste Fund fee adequacy: An assessment  

SciTech Connect (OSTI)

The purpose of this report is to present the Department of Energy`s (the Department) analysis of the adequacy of the 1.00 mill per kilowatt-hour (kWh) fee being paid by the utilities generating nuclear power for the permanent disposal of their spent nuclear fuel (SNF). In accordance with the Nuclear Waste Policy Act (NWPA), the SNF would be disposed of in a geologic repository to be developed by the Department. An annual analysis of the fee`s adequacy is required by the NWPA.

NONE

1990-11-01T23:59:59.000Z

285

Property:PotentialCSPGeneration | Open Energy Information  

Open Energy Info (EERE)

PotentialCSPGeneration PotentialCSPGeneration Jump to: navigation, search Property Name PotentialCSPGeneration Property Type Quantity Description The estimated potential energy generation from CSP for a particular place. Use this type to express a quantity of energy. The default unit for energy on OpenEI is the Kilowatt hour (kWh), which is 3,600,000 Joules. http://en.wikipedia.org/wiki/Unit_of_energy It's possible types are Watt hours - 1000 Wh, Watt hour, Watthour Kilowatt hours - 1 kWh, Kilowatt hour, Kilowatthour Megawatt hours - 0.001 MWh, Megawatt hour, Megawatthour Gigawatt hours - 0.000001 GWh, Gigawatt hour, Gigawatthour Joules - 3600000 J, Joules, joules Pages using the property "PotentialCSPGeneration" Showing 25 pages using this property. (previous 25) (next 25)

286

Property:PotentialBiopowerSolidGeneration | Open Energy Information  

Open Energy Info (EERE)

PotentialBiopowerSolidGeneration PotentialBiopowerSolidGeneration Jump to: navigation, search Property Name PotentialBiopowerSolidGeneration Property Type Quantity Description The estimated potential energy generation from solid biopower for a particular place. Use this type to express a quantity of energy. The default unit for energy on OpenEI is the Kilowatt hour (kWh), which is 3,600,000 Joules. http://en.wikipedia.org/wiki/Unit_of_energy It's possible types are Watt hours - 1000 Wh, Watt hour, Watthour Kilowatt hours - 1 kWh, Kilowatt hour, Kilowatthour Megawatt hours - 0.001 MWh, Megawatt hour, Megawatthour Gigawatt hours - 0.000001 GWh, Gigawatt hour, Gigawatthour Joules - 3600000 J, Joules, joules Pages using the property "PotentialBiopowerSolidGeneration" Showing 25 pages using this property. (previous 25) (next 25)

287

Property:PotentialHydropowerGeneration | Open Energy Information  

Open Energy Info (EERE)

PotentialHydropowerGeneration PotentialHydropowerGeneration Jump to: navigation, search Property Name PotentialHydropowerGeneration Property Type Quantity Description The estimated potential energy generation from Hydropower for a particular place. Use this type to express a quantity of energy. The default unit for energy on OpenEI is the Kilowatt hour (kWh), which is 3,600,000 Joules. http://en.wikipedia.org/wiki/Unit_of_energy It's possible types are Watt hours - 1000 Wh, Watt hour, Watthour Kilowatt hours - 1 kWh, Kilowatt hour, Kilowatthour Megawatt hours - 0.001 MWh, Megawatt hour, Megawatthour Gigawatt hours - 0.000001 GWh, Gigawatt hour, Gigawatthour Joules - 3600000 J, Joules, joules Pages using the property "PotentialHydropowerGeneration" Showing 25 pages using this property. (previous 25) (next 25)

288

Property:PotentialGeothermalHydrothermalGeneration | Open Energy  

Open Energy Info (EERE)

PotentialGeothermalHydrothermalGeneration PotentialGeothermalHydrothermalGeneration Jump to: navigation, search Property Name PotentialGeothermalHydrothermalGeneration Property Type Quantity Description The estimated potential energy generation from Geothermal Hydrothermal for a particular place. Use this type to express a quantity of energy. The default unit for energy on OpenEI is the Kilowatt hour (kWh), which is 3,600,000 Joules. http://en.wikipedia.org/wiki/Unit_of_energy It's possible types are Watt hours - 1000 Wh, Watt hour, Watthour Kilowatt hours - 1 kWh, Kilowatt hour, Kilowatthour Megawatt hours - 0.001 MWh, Megawatt hour, Megawatthour Gigawatt hours - 0.000001 GWh, Gigawatt hour, Gigawatthour Joules - 3600000 J, Joules, joules Pages using the property "PotentialGeothermalHydrothermalGeneration"

289

River Falls Municipal Utilities - Distributed Solar Tariff | Department of  

Broader source: Energy.gov (indexed) [DOE]

River Falls Municipal Utilities - Distributed Solar Tariff River Falls Municipal Utilities - Distributed Solar Tariff River Falls Municipal Utilities - Distributed Solar Tariff < Back Eligibility Agricultural Commercial Fed. Government Industrial Institutional Local Government Nonprofit Residential Schools State Government Savings Category Solar Buying & Making Electricity Program Info State Wisconsin Program Type Performance-Based Incentive Rebate Amount $0.30/kWh Provider River Falls Municipal Utilities River Falls Municipal Utilities (RFMU), a member of WPPI Energy, offers a special energy purchase rate to its customers that generate electricity using solar photovoltaic (PV) systems. The special rate, $0.30/kilowatt-hour (kWh), is available to all the RFMU customers on a first-come, first-served basis for systems up to 4 kilowatts (kW). The RFMU

290

Wind Power for America: Rural Electric Utilities Harvest a New Crop  

Wind Powering America (EERE)

Independent Power Independent Power Producer Financing Co-op Financing Cost of Energy (cents /kWh) 8.0 7.0 6.0 5.0 4.0 3.0 Installed Wind Turbine Capacity 2 MW 10 MW 50 MW 50 MW Without Federal incentives (current $) With Federal incentives (current $) WIND ECONOMICS AT A GLANCE Wind power is one of mankind's oldest energy sources. In 1700, the most powerful machines in Europe were Dutch windmills. During the 1930s, half a million windmills pumped water on the Great Plains. Today's wind turbine is a far cry from the old water pumpers. By using state-of-the-art engineering, wind turbine manufacturers have produced sleek, highly efficient machines that produce inexpensive electricity, and lots of it. Depending on their size and location, wind farms can produce electricity for 4-6 cents per kilowatt-hour (kWh).

291

Property:PotentialRuralUtilityScalePVGeneration | Open Energy Information  

Open Energy Info (EERE)

PotentialRuralUtilityScalePVGeneration PotentialRuralUtilityScalePVGeneration Jump to: navigation, search Property Name PotentialRuralUtilityScalePVGeneration Property Type Quantity Description The estimated potential energy generation from utility-scale PV in rural areas of a particular place. Use this type to express a quantity of energy. The default unit for energy on OpenEI is the Kilowatt hour (kWh), which is 3,600,000 Joules. http://en.wikipedia.org/wiki/Unit_of_energy It's possible types are Watt hours - 1000 Wh, Watt hour, Watthour Kilowatt hours - 1 kWh, Kilowatt hour, Kilowatthour Megawatt hours - 0.001 MWh, Megawatt hour, Megawatthour Gigawatt hours - 0.000001 GWh, Gigawatt hour, Gigawatthour Joules - 3600000 J, Joules, joules Pages using the property "PotentialRuralUtilityScalePVGeneration"

292

Property:PotentialUrbanUtilityScalePVGeneration | Open Energy Information  

Open Energy Info (EERE)

PotentialUrbanUtilityScalePVGeneration PotentialUrbanUtilityScalePVGeneration Jump to: navigation, search Property Name PotentialUrbanUtilityScalePVGeneration Property Type Quantity Description The estimated potential energy generation from utility-scale PV in urban areas of a particular place. Use this type to express a quantity of energy. The default unit for energy on OpenEI is the Kilowatt hour (kWh), which is 3,600,000 Joules. http://en.wikipedia.org/wiki/Unit_of_energy It's possible types are Watt hours - 1000 Wh, Watt hour, Watthour Kilowatt hours - 1 kWh, Kilowatt hour, Kilowatthour Megawatt hours - 0.001 MWh, Megawatt hour, Megawatthour Gigawatt hours - 0.000001 GWh, Gigawatt hour, Gigawatthour Joules - 3600000 J, Joules, joules Pages using the property "PotentialUrbanUtilityScalePVGeneration"

293

Property:PotentialEGSGeothermalGeneration | Open Energy Information  

Open Energy Info (EERE)

PotentialEGSGeothermalGeneration PotentialEGSGeothermalGeneration Jump to: navigation, search Property Name PotentialEGSGeothermalGeneration Property Type Quantity Description The estimated potential energy generation from EGS Geothermal for a particular place. Use this type to express a quantity of energy. The default unit for energy on OpenEI is the Kilowatt hour (kWh), which is 3,600,000 Joules. http://en.wikipedia.org/wiki/Unit_of_energy It's possible types are Watt hours - 1000 Wh, Watt hour, Watthour Kilowatt hours - 1 kWh, Kilowatt hour, Kilowatthour Megawatt hours - 0.001 MWh, Megawatt hour, Megawatthour Gigawatt hours - 0.000001 GWh, Gigawatt hour, Gigawatthour Joules - 3600000 J, Joules, joules Pages using the property "PotentialEGSGeothermalGeneration" Showing 25 pages using this property. (previous 25) (next 25)

294

Biomass Energy Production Incentive | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

Biomass Energy Production Incentive Biomass Energy Production Incentive Biomass Energy Production Incentive < Back Eligibility Agricultural Commercial Industrial Savings Category Bioenergy Commercial Heating & Cooling Manufacturing Buying & Making Electricity Maximum Rebate 100,000 per fiscal year per taxpayer; 2.1 million per fiscal year for all taxpayers Program Info Start Date 5/29/2008 State South Carolina Program Type Performance-Based Incentive Rebate Amount 0.01 per kWh / 0.30 per therm Provider South Carolina Energy Office In 2007 South Carolina enacted the ''Energy Freedom and Rural Development Act'', which provides production incentives for certain biomass-energy facilities. Eligible systems earn $0.01 per kilowatt-hour (kWh) for electricity generated or $0.30 per therm (100,000 Btu) for energy produced

295

Property:PotentialOnshoreWindGeneration | Open Energy Information  

Open Energy Info (EERE)

PotentialOnshoreWindGeneration PotentialOnshoreWindGeneration Jump to: navigation, search Property Name PotentialOnshoreWindGeneration Property Type Quantity Description The area of potential onshore wind in a place. Use this type to express a quantity of energy. The default unit for energy on OpenEI is the Kilowatt hour (kWh), which is 3,600,000 Joules. http://en.wikipedia.org/wiki/Unit_of_energy It's possible types are Watt hours - 1000 Wh, Watt hour, Watthour Kilowatt hours - 1 kWh, Kilowatt hour, Kilowatthour Megawatt hours - 0.001 MWh, Megawatt hour, Megawatthour Gigawatt hours - 0.000001 GWh, Gigawatt hour, Gigawatthour Joules - 3600000 J, Joules, joules Pages using the property "PotentialOnshoreWindGeneration" Showing 25 pages using this property. (previous 25) (next 25)

296

Property:PotentialRooftopPVGeneration | Open Energy Information  

Open Energy Info (EERE)

PotentialRooftopPVGeneration PotentialRooftopPVGeneration Jump to: navigation, search Property Name PotentialRooftopPVGeneration Property Type Quantity Description The estimated potential energy generation from Rooftop PV for a particular place. Use this type to express a quantity of energy. The default unit for energy on OpenEI is the Kilowatt hour (kWh), which is 3,600,000 Joules. http://en.wikipedia.org/wiki/Unit_of_energy It's possible types are Watt hours - 1000 Wh, Watt hour, Watthour Kilowatt hours - 1 kWh, Kilowatt hour, Kilowatthour Megawatt hours - 0.001 MWh, Megawatt hour, Megawatthour Gigawatt hours - 0.000001 GWh, Gigawatt hour, Gigawatthour Joules - 3600000 J, Joules, joules Pages using the property "PotentialRooftopPVGeneration" Showing 25 pages using this property. (previous 25) (next 25)

297

Solar space cooling | Open Energy Information  

Open Energy Info (EERE)

cooling cooling Jump to: navigation, search Solarcooling.jpg Contents 1 Introduction 2 Solar Absorption Technology 3 Solar Desiccant Technology 4 Passive Solar Cooling 5 References Introduction There are many benefits to Solar Cooling systems. For one the sun is a clean energy resource that we should be using more often. It also produces no emissions and is replenished naturally, it reduces greenhouse gases, it saves the release of 1.6 lbs. of carbon dioxide (CO2) for each kilowatt-hour (kWh) produced, it saves the use of one-half gallon of water for each kWh of solar energy produced, it saves the release of other emissions that result from the burning of fossil fuels such as nitrogen oxides, sulfur dioxide or mercury and it provides customers with options to reduce their electric bills. But up to this point Solar Cooling systems are

298

Property:PotentialOffshoreWindGeneration | Open Energy Information  

Open Energy Info (EERE)

PotentialOffshoreWindGeneration PotentialOffshoreWindGeneration Jump to: navigation, search Property Name PotentialOffshoreWindGeneration Property Type Quantity Description The estimated potential energy generation from Offshore Wind for a particular place. Use this type to express a quantity of energy. The default unit for energy on OpenEI is the Kilowatt hour (kWh), which is 3,600,000 Joules. http://en.wikipedia.org/wiki/Unit_of_energy It's possible types are Watt hours - 1000 Wh, Watt hour, Watthour Kilowatt hours - 1 kWh, Kilowatt hour, Kilowatthour Megawatt hours - 0.001 MWh, Megawatt hour, Megawatthour Gigawatt hours - 0.000001 GWh, Gigawatt hour, Gigawatthour Joules - 3600000 J, Joules, joules Pages using the property "PotentialOffshoreWindGeneration" Showing 25 pages using this property. (previous 25) (next 25)

299

Property:PotentialBiopowerGaseousGeneration | Open Energy Information  

Open Energy Info (EERE)

PotentialBiopowerGaseousGeneration PotentialBiopowerGaseousGeneration Jump to: navigation, search Property Name PotentialBiopowerGaseousGeneration Property Type Quantity Description The estimated potential energy generation from gaseous biopower for a particular place. Use this type to express a quantity of energy. The default unit for energy on OpenEI is the Kilowatt hour (kWh), which is 3,600,000 Joules. http://en.wikipedia.org/wiki/Unit_of_energy It's possible types are Watt hours - 1000 Wh, Watt hour, Watthour Kilowatt hours - 1 kWh, Kilowatt hour, Kilowatthour Megawatt hours - 0.001 MWh, Megawatt hour, Megawatthour Gigawatt hours - 0.000001 GWh, Gigawatt hour, Gigawatthour Joules - 3600000 J, Joules, joules Pages using the property "PotentialBiopowerGaseousGeneration" Showing 25 pages using this property. (previous 25) (next 25)

300

Data:C8da5820-5252-45a6-99b7-ab14eec17d3e | Open Energy Information  

Open Energy Info (EERE)

da5820-5252-45a6-99b7-ab14eec17d3e da5820-5252-45a6-99b7-ab14eec17d3e No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Village of Lodi, Ohio (Utility Company) Effective date: 2007/03/15 End date if known: Rate name: Commercial Single Phase Load Management Rate-In Village Discount Sector: Commercial Description: *Applicable for commercial secondary service for commercial customers with less than 50 kVA demands through one meter. 5% discount for being inside village limits. Subject to Power Cost Adjustment and Ohio kWh Tax. State of Ohio Kilowatt-Hour Tax Tax rates are applied to all kWH usage:

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


301

2012 CERTS LAAR Program Peer Review - Load as a Regulation Resource, Phase 2 - Sila Kiliccote, LBNL  

Broader source: Energy.gov (indexed) [DOE]

and Distributed Resources Department  Grid Integration Group and Distributed Resources Department  Grid Integration Group Load as a Regulation Resource Sila Kiliccote, Jason MacDonald, Livio Fenga and Dave Watson Demand Response Research Center Grid Integration Group Lawrence Berkeley National Laboratory http://drrc.lbl.gov CERTS review September 20, 2012 Energy Storage and Distributed Resources Department  Grid Integration Group Outline  Phase 1 summary - Overview of OpenADR - Major Phase 1 accomplishments  Project objectives  Tasks and major technical accomplishments completed  Deliverables and schedule  Risk Factors  Follow-on Work Energy Storage and Distributed Resources Department  Grid Integration Group What is OpenADR and how does it work? Signaling- continuous, 2-way, secure messaging system for dynamic prices, emergency and

302

LBNL-54244 Life-cycle Cost and Payback Period Analysis for Commercial Unitary Air Conditioners  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

44 44 Life-cycle Cost and Payback Period Analysis for Commercial Unitary Air Conditioners Greg Rosenquist, Katie Coughlin, Larry Dale, James McMahon, Steve Meyers Energy Analysis Department Environmental Energy Technologies Division Ernest Orlando Lawrence Berkeley National Laboratory University of California Berkeley, CA 94720 March 2004 This work was supported by the Office of Building Technologies of the U.S. Department of Energy, under Contract No. DE-AC03-76SF00098. ii iii ABSTRACT This report describes an analysis of the economic impacts of possible energy efficiency standards for commercial unitary air conditioners and heat pumps on individual customers in terms of two metrics: life-cycle cost (LCC) and payback period (PBP). For each of the two equipment classes considered, the 11.5 EER provides the largest mean LCC savings. The results

303

Ms.#A-3433_revised_v2_flat_LBNL  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Arsenic Removal from Groundwater Using Iron Arsenic Removal from Groundwater Using Iron Electrocoagulation: Effect of Charge Dosage Rate Susan E. Amrose 1,2 , Ashok Gadgil 1,2 , Venkat Srinivasan 2 , Kristin Kowolik 2 , Marc Muller 1 , Jessica Huang 1 , Robert Kostecki 2 1 Department of Civil and Environmental Engineering University of California at Berkeley Berkeley, California 94720, USA 2 Environmental Energy Technologies Division Lawrence Berkeley National Laboratory Berkeley, California 94720, USA April 2013 Support for this work was provided by the the Richard C. Blum Center for Developing Economies, the USEPA P3 (People, Prosperity, and Planet) Phase I award, the UC Berkeley Bears Breaking Boundaries Contest and LDRD funds from Lawrence Berkeley National Laboratory under U.S. Department of Energy

304

CERTS 2012 Program Review - NASPI Transition Planning Presentation - Joe Eto, LBNL  

Broader source: Energy.gov (indexed) [DOE]

Topics Topics to Guide the Transition from R&D to Commercial Operation Joe Eto 12 June 2012 1 NERC and DOE Funding for NASPI * NERC funding of ~$1M/year (through 2013) supports: * NASPI project manager * O&M for TVA Super PDC * R&D for phasor infrastructure (openPDC, phasor gateway) 2 * DOE funding of ~$4M/year supports: * Logistic support and targeted R&D for NASPI task teams * O&M for TVA RTDMS * Advanced synchrophasor demonstrations * Basic R&D for advanced applications What's the future path? Issues that must be addressed: 1. How does synchrophasor technology get mainstreamed? 2. How do the current NASPI task teams and functions evolve into self-sustaining activities? 3. How do we maintain the momentum of the

305

Microsoft Word - ACEEE_2010_HPCD_Paper929_2010-05-21_Final_LBNL_.docx  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Do Heat Pump Clothes Dryers Make Do Heat Pump Clothes Dryers Make Sense for the U.S. Market? Presented at: 2010 ACEEE Summer Study on Energy Efficiency in Buildings August 2010 Steve Meyers, Victor H. Franco, Alex B. Lekov, Lisa Thompson, and Andy Sturges Lawrence Berkeley National Laboratory Environmental Energy Technologies Division One Cyclotron Road Berkeley, CA 94720 This work was supported by the Assistant Secretary for Energy Efficiency and Renewable Energy, Office of Building Technology, State, and Community Programs, of the U.S. Department of Energy under Contract No. DE-AC02-05CH11231. ERNEST ORLANDO LAWRENCE BERKELEY NATIONAL LABORATORY Disclaimer This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither

306

2012 SG Peer Review - CERTS Microgrid Test Bed - Joe Eto, LBNL  

Broader source: Energy.gov (indexed) [DOE]

Peer Peer Review Meeting Peer Review Meeting The CERTS Microgrid Test Bed g Joe Eto Lawrence Berkeley National Laboratory 7 June 2012 The CERTS Microgrid Test Bed Objective To lower the cost and improve the performance of clusters of smaller distributed energy resources and loads when operated in an integrated manner when operated in an integrated manner, i.e., as microgrids Life-cycle Funding Summary ($K) Prior to FY12, FY13, Out-year(s) Technical Scope The CERTS Microgrid Test Bed is being expanded through the addition of new hardware elements: 1) a CERTS- compatible conventional synchronous generator ; 2) an FY 12 , authorized , requested y ( ) 2500K 1000K 1000K 2500K energy management system relying on software as a service (SaaS) for dispatch; 3) a commercially available, stand-alone

307

Microsoft Word - ACEEE_2010_HPWH_Paper497_2010-05-21_final _LBNL_.docx  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Heat Pump Water Heaters and Heat Pump Water Heaters and American Homes: A Good Fit? Presented at: 2010 ACEEE Summer Study on Energy Efficiency in Buildings August 2010 Victor H. Franco, Alex B. Lekov, Steve Meyers, and Virginie Letschert Lawrence Berkeley National Laboratory Environmental Energy Technologies Division One Cyclotron Road Berkeley, CA 94720 This work was supported by the Assistant Secretary for Energy Efficiency and Renewable Energy, Office of Building Technology, State, and Community Programs, of the U.S. Department of Energy under Contract No. DE-AC02-05CH11231. ERNEST ORLANDO LAWRENCE BERKELEY NATIONAL LABORATORY Disclaimer This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither

308

Microsoft Word - ASHRAE_Water Heater Paper_2010-11-24_Final_LBNL_.docx  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Energy Efficiency Design Options for Residential Water Heaters: Economic Impacts on Consumers Presented at: 2011 ASHRAE Winter Conference, Las Vegas, Nevada January 2011 Alex B. Lekov, Victor H. Franco, Steve Meyers, Lisa Thompson, and Virginie Letschert Lawrence Berkeley National Laboratory Environmental Energy Technologies Division One Cyclotron Road Berkeley, CA 94720 This work was supported by the Assistant Secretary for Energy Efficiency and Renewable Energy, Office of Building Technology, State, and Community Programs, of the U.S. Department of Energy under Contract No. DE-AC02-05CH11231. ERNEST ORLANDO LAWRENCE BERKELEY NATIONAL LABORATORY 2 Disclaimer This document was prepared as an account of work sponsored by the United States

309

LBNL-6280E A Fresh Look at Weather Impact on Peak Electricity Demand and  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

280E 280E A Fresh Look at Weather Impact on Peak Electricity Demand and Energy Use of Buildings Using 30- Year Actual Weather Data Tianzhen Hong 1 , Wen-kuei Chang 2 , Hung-Wen Lin 2 1 Environmental Energy Technologies Division 2 Green Energy and Environment Laboratories, Industrial Technology Research Institute, Taiwan, ROC May 2013 This work was supported by the Assistant Secretary for Energy Efficiency and Renewable Energy, the U.S.-China Clean Energy Research Center for Building Energy Efficiency, of the U.S. Department of Energy under Contract No. DE-AC02-

310

Nick Balthaser! LBNL/NERSC Storage Systems Group GlobusOnline/HPSS  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

GlobusOnline/HPSS GlobusOnline/HPSS Demo --- 1 --- HUF 2 013 November 5, 2013 Agenda * Background - GlobusOnline, g ridFTP, a nd H PSS D SI - gridFTP/HPSS a t N ERSC * Mo;va;on f or I mplementa;on * Live Demo - Web---enabled t ransfer * PiEalls, W ish L ist, a nd T o---Dos * Further I nfo --- 2 --- Background * GlobusOnline i s a u ser---friendly i nterface f or m anaging g ridFTP data t ransfers - Both w eb a nd C LI t ransfer m anagement i nterfaces a re s upported - gridFTP/HPSS c ommunicaJon i s i mplemented v ia G lobus T oolkit D ata Storage I nterface ( DSI) s upport * DSI i s a s hared l ibrary i nterface f or gridFTP c ommunicaJon w ith n on---file s ystem storage b ackends * HPSS D SI u ses c lient A PI t o c ommunicate w ith H PSS * gridFTP/HPSS i nterface h as b een i n p roduc;on a t N ERSC s ince HPSS 5.x - HPSS 5 .x

311

Microsoft Word - Gopal_etal_Leapfrog LBNL Report v2-1.docx  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

The Transportation Leapfrog: Using Smart The Transportation Leapfrog: Using Smart Phones to Collect Driving Data and Model Fuel Economy in India Anand Gopal, Laura Schewel, Samveg Saxena, Amol Phadke Environmental Energy Technologies Division May 2013 This work was supported by the Regulatory Assistance Project through the U.S. Department of Energy under Contract No. DE-AC02-05CH11231. Disclaimer This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the University of California, nor any of their employees, makes any warranty, express or implied, or assumes any legal responsibility for the accuracy, completeness, or usefulness of any information, apparatus, product, or process

312

Microsoft Word - LBNL Multifamily retrofits paper submitted_2nd revision_final_no track changes  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Protocol for Maximizing Energy Savings and Protocol for Maximizing Energy Savings and Indoor Environmental Quality Improvements when Retrofitting Apartments Federico Noris 1 , William W. Delp 1 , Kimberly Vermeer 2 , Gary Adamkiewicz 3 , Brett C. Singer 1 and William J. Fisk 1 1 Lawrence Berkeley National Laboratory Environmental Energy Technologies Division Indoor Environment Group Berkeley, CA, USA 2 Urban Habitat Initiatives Inc. Boston, MA, USA 3 Department of Environmental Health Harvard School of Public Health Boston, MA, USA June 18, 2012 Funding was provided by the California Energy Commission, Public Interest Energy Research Program, Energy Related Environmental Research Program, through contract 500-09-022 and by the Assistant

313

LBNL-5803E The Future of Utility Customer- Funded Energy Efficiency Programs  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

803E 803E The Future of Utility Customer- Funded Energy Efficiency Programs in the United States: Projected Spending and Savings to 2025 Galen L. Barbose, Charles A. Goldman, Ian M. Hoffman, Megan Billingsley Environmental Energy Technologies Division January 2013 This work was supported by the National Electricity Delivery Division of the U.S. Department of Energy's Office of Electricity Delivery and Energy Reliability under Lawrence Berkeley National Laboratory Contract No. DE-AC02-05CH11231. ERNEST ORLANDO LAWRENCE BERKELEY NATIONAL LABORATORY Disclaimer This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the

314

Microsoft Word - LBNL M2FT-12LB0807061 final with signatures  

Broader source: Energy.gov (indexed) [DOE]

on Modeling on Modeling Coupled Processes in the Near Field of a Clay Repository Prepared for U.S. Department of Energy Used Fuel Disposition H.H. Liu, Jim Houseworth, Jonny Rutqvist, Lianchong Li, Daisuke Asahina, Fei Chen, Jens Birkholzer Lawrence Berkeley National Laboratory August, 2012 FCRD-UFD-2012-000223 DISCLAIMER This information was prepared as an account of work sponsored by an agency of the U.S. Government. Neither the U.S. Government nor any agency thereof, nor any of their employees, makes any warranty, expressed or implied, or assumes any legal liability or responsibility for the accuracy, completeness, or usefulness, of any information, apparatus, product, or process disclosed, or represents that its use would not infringe privately owned rights. References herein to any specific commercial

315

LBNL Windows & Daylighting Software -- WINDOW5.02: Feature List  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

System Non-Convergence System Non-Convergence Last update:05/19/08 05:03 PM There are some circumstances where WINDOW 5 will give the following error message: This error can occur either in the Window or Glazing System calculation, but it is actually an error that occurs when the program tries to calculate the glazing system thermal properties -- it occurs in the Window Library because the program recalculates the center-of-glass U-value based on the window height. It will happen in rare circumstances because of a problem with the discontinuity in correlations that calculate convective heat transfer in glazing cavities. The solution is to change either the glazing system height or width. In general, the most practical solution is to change the glazing system height rather than the width..

316

LBNL-5800E Thermal Performance Impacts of Center-of- Glass Deflections in Installed Insulating  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

00E 00E Thermal Performance Impacts of Center-of- Glass Deflections in Installed Insulating Glazing Units R.G. Hart Lawrence Berkeley National Laboratory C.W. Goudey Lawrence Berkeley National Laboratory D.K. Arasteh Lawrence Berkeley National Laboratory D.C. Curcija Lawrence Berkeley National Laboratory Windows and Envelope Materials Group Building Technology and Urban Systems Department Environmental Energy Technologies Division June 2012 To be published in Energy and Buildings DISCLAIMER This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the University of

317

LBNL Windows & Daylighting Software -- WINDOW5.02: Feature List  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

System Debugging Information System Debugging Information Last update:08/07/03 12:07 PM To help us determine the problem you are having running or installing our software, please supply us with the information below: Program version (go to the Help menu, About choice) or name of installation file (such as WINDOW5Setup.exe with file date and size) Operating System (ie, MS Windows XP, 2000, 98, etc) DLL Info (see below) System Info (see below) To determine what DLLs are installed on a computer, do the following: Download the program called Dependency Walker, which is a free download from: http://www.dependencywalker.com/ What you download (select the first option, which is for Windows 2000, XP, etc) will be a zip file. Unzip the contents of that file into a new directory (called whatever you want, such as DependencyWalker).

318

Sit Down with Sabin: David Schlegel: Hunting Dark Energy (LBNL Summer Lecture Series)  

SciTech Connect (OSTI)

Lawrence Berkeley National Laboratory physicist and dark energy hunter David Schlegel chats with Sabin Russell, former San Francisco Chronicle reporter turned Berkeley Lab science writer, June 22, 2011. Their conversation is the first installment of "Sit Down With Sabin," a weekly conversation hosted by Russell. Over the course of five conversations with Berkeley Lab staff this summer, Russell will explore the ups and downs of innovative science all without the aid of PowerPoint slides. Brought to you by Berkeley Lab Public Affairs.

Russell, Sabin; Schlegel, David

2011-06-22T23:59:59.000Z

319

Dark Energy Rules the Universe (and why the dinosaurs do not!) (LBNL Science at the Theater)  

SciTech Connect (OSTI)

The revolutionary discovery that the expansion of the universe is speeding up, not slowing down from gravity, means that 75 percent of our universe consists of mysterious dark energy. Berkeley Lab theoretical physicist Eric Linder delves into the mystery of dark energy as part of the Science in the Theatre lecture series on Nov. 24, 2008.

Linder, Eric

2008-11-28T23:59:59.000Z

320

LBNL-53729-Revised After-hours Power Status of Office Equipment and  

E-Print Network [OSTI]

Ernest Orlando Lawrence Berkeley National Laboratory University of California Berkeley CA 94720, USA May

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


321

Summary Results for Brine Migration Modeling Performed by LANL LBNL and SNL for the UFD Program  

SciTech Connect (OSTI)

This report summarizes laboratory and field observations and numerical modeling related to coupled processes involving brine and vapor migration in geologic salt, focusing on recent developments and studies conducted at Sandia, Los Alamos, and Berkeley National Laboratories. Interest into the disposal of heat-generating waste in salt has led to interest into water distribution and migration in both run-of-mine crushed and intact geologic salt. Ideally a fully coupled thermal-hydraulic-mechanical-chemical simulation is performed using numerical models with validated constitutive models and parameters. When mechanical coupling is not available, mechanical effects are prescribed in hydraulic models as source, boundary, or initial conditions. This report presents material associated with developing appropriate initial conditions for a non-mechanical hydrologic simulation of brine migration in salt. Due to the strong coupling between the mechanical and hydrologic problems, the initial saturation will be low for the excavation disturbed zone surrounding the excavation. Although most of the material in this report is not new, the author hopes it is presented in a format making it useful to other salt researchers.

Kuhlman, Kristopher L.

2014-09-01T23:59:59.000Z

322

Physics 101: What Our Next President Needs to Know (LBNL Science at the Theater)  

ScienceCinema (OSTI)

Rich Muller, author of Physics for Future Presidents, argues that the next president can't afford to be ignorant about the science behind terrorism, nuclear dangers, energy, space, and global warming. Muller, a MacArthur Fellow, Berkeley Lab physicist, and one of the most popular lecturers at UC Berkeley, discusses what it takes to survive in today's increasingly dangerous world -- information essential to the next commander-in-chief. He presented his talk Oct. 13, 2008.

Muller, Rich

2011-04-28T23:59:59.000Z

323

Neutron Generators Developed at LBNL for Homeland Security andImaging Applications  

SciTech Connect (OSTI)

The Plasma and Ion Source Technology Group at Lawrence Berkeley National Laboratory has developed various types of advanced D-D (neutron energy 2.5 MeV), D-T (14 MeV) and T-T (0-9 MeV) neutron generators for wide range of applications. These applications include medical (Boron Neutron Capture Therapy), homeland security (Prompt Gamma Activation Analysis, Fast Neutron Activation Analysis and Pulsed Fast Neutron Transmission Spectroscopy) and planetary exploration with a sub-surface material characterization on Mars. These neutron generators utilize RF induction discharge to ionize the deuterium/tritium gas. This discharge method provides high plasma density for high output current, high atomic species from molecular gases, long life operation and versatility for various discharge chamber geometries. Four main neutron generator developments are discussed here: high neutron output co-axial neutron generator for BNCT applications, point neutron generator for security applications, compact and sub-compact axial neutron generator for elemental analysis applications. Current status of the neutron generator development with experimental data will be presented.

Reijonen, Jani

2006-08-13T23:59:59.000Z

324

Microsoft PowerPoint - LBNL's AN 241 1 Web Service Experience...  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

OF CALIFORNIA Paths Converging--AN 241.1 Web Service and a New Scientific Publication Management System at Lawrence Berkeley National Laboratory John W. Stoner Manager, Archives...

325

Sugars Can Actually Be Good For Your Health (LBNL Science at the Theater)  

ScienceCinema (OSTI)

Like peanut M&Ms, all cells are coated with sugars but the functions of these sugar coatings were a mystery until very recently. This presentation will highlight recent fascinating discoveries regarding why cells are coated with sugars, as well as new tools for cancer detection that take advantage of the cells sugar coating. Professor Bertozzis lab focuses on profiling changes in cell surface glycosylation associated with cancer, inflammation and bacterial infection, and exploiting this information for development of diagnostic and therapeutic approaches. In addition, her group develops nanoscience-based technologies for probing cell function and for medical diagnostics.

Bertozzi, Carolyn

2011-10-04T23:59:59.000Z

326

EH&S Standards Set for LBNL Rev 7/16/2009 Page 1 of 9  

E-Print Network [OSTI]

Bird Treaty Act FAC PLAN 9. 16 USC, Chapter 35, 1531 et seq., Federal Endangered Species Act FAC PLAN PLAN 8. 16 USC, Chapter 5a, 668 et seq. - Eagle Protection Act and Chapter 7, 703 et seq. - Migratory

327

Nanoscience at Work: Creating Energy from Sunlight (LBNL Science at the Theater)  

ScienceCinema (OSTI)

Paul Alivisatos, co-leader of Berkeley Lab's Helios Project, is the Associate Director for Physical Sciences and director of the Materials Sciences Division at Berkeley Lab. In the Helios Project, Alivisatos will use nanotechnology in the efficient capture of sunlight and its conversion to electricity to drive economical fuel production processes. He is an authority on artificial nanostructure synthesis and inventor of the quantum dot technology.

Alivisatos, Paul

2011-04-28T23:59:59.000Z

328

The Big Bang, COBE, and the Relic Radiation of Creation (LBNL Science at the Theater)  

ScienceCinema (OSTI)

Berkeley Lab's George Smoot won the 2006 Physics Nobel Prize, together with John Mather of NASA Goddard Space Flight Center, for "the discovery of the blackbody form and anisotropy of the cosmic microwave background radiation." The anisotropy showed as small variations in the map of the early universe. This research looks back into the infant universe and provides a better understanding of the origin of galaxies and stars. The cosmic background radiation is a tool to understand the structure and history of the universe and the structure of space-time. These observations have provided increased support for the big bang theory of the universe's origin. The Cosmic Background Explorer (COBE) NASA satellite, launched in 1989, carries instruments that measured various aspects of cosmic microwave background radiation, and produced the data for these compelling scientific results, which opened up a field that continues very actively today.

Smoot, George

2011-04-28T23:59:59.000Z

329

Hope or Hype? What is Next for Biofuels? (LBNL Science at the Theater)  

ScienceCinema (OSTI)

Science at the Theater: From the sun to your gas tank: A new breed of biofuels may help solve the global energy challenge and reduce the impact of fossil fuels on global warming. KTVU Channel 2 health and science editor John Fowler will moderate a panel of Lawrence Berkeley National Laboratory scientists who are developing ways to convert the solar energy stored in plants into liquid fuels. Jay Keasling is one of the foremost authorities in the ?eld of synthetic biology. He is applying this research toward the production of advanced carbon-neutral biofuels that can replace gasoline on a gallon-for-gallon basis. Keasling is Berkeley Labs Acting Deputy Director and the Chief Executive Of?cer of the U.S. Department of Energys Joint BioEnergy Institute. Jim Bristow is deputy director of programs for the U.S. Department of Energy Joint Genome Institute (JGI), a national user facility in Walnut Creek, CA. He developed and implemented JGIs Community Sequencing Program, which provides large-scale DNA sequencing and analysis to advance genomics related to bioenergy and environmental characterization and cleanup. Susanna Green Tringe is a computational biologist with the U.S. Department of Energy Joint Genome Institute (JGI). She helped pioneer the ?eld of metagenomics, a new strategy for isolating, sequencing, and characterizing DNA extracted directly from environmental samples, such as the contents of the termite gut, which yielded enzymes responsible for breakdown of wood into fuel.

Keasling, Jay; Bristow, Jim; Tringe, Susannah Green

2011-04-28T23:59:59.000Z

330

Dark Energy Rules the Universe (and why the dinosaurs do not!) (LBNL Science at the Theater)  

ScienceCinema (OSTI)

The revolutionary discovery that the expansion of the universe is speeding up, not slowing down from gravity, means that 75 percent of our universe consists of mysterious dark energy. Berkeley Lab theoretical physicist Eric Linder delves into the mystery of dark energy as part of the Science in the Theatre lecture series on Nov. 24, 2008.

Linder, Eric

2011-04-28T23:59:59.000Z

331

Sit Down with Sabin: Henrik Scheller: Customizing plants for biofuels. (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Henrik Scheller from the JBEI appeared on August 3rd, 2011 for this installment of "Sit Down with Sabin," a conversation in which former reporter Sabin Russell chats with Lab staff about innovative science. They will discuss "Customizing plants for biofuels." During this series of conversations, Russell and Lab staff will explore the ups and downs of pioneering science, all without the aid of PowerPoints.

Sabin, Russell; Scheller, Henrik

2014-05-06T23:59:59.000Z

332

Health Detectives: Uncovering the Mysteries of Disease (LBNL Science at the Theater)  

ScienceCinema (OSTI)

In this April 23, 2012 Science at the Theater event, Berkeley Lab scientists discuss how they uncover the mysteries of disease in unlikely places. Speakers and topics include: World-renowned cancer researcher Mina Bissell's pioneering research on the role of the cellular microenvironment in breast cancer has changed the conversation about the disease. How does DNA instability cause disease? To find out, Christie Canaria images neural networks to study disorders such as Huntington's disease. Fruit flies can tell us a lot about ourselves. Susan Celniker explores the fruit fly genome to learn how our genome works. DNA is not destiny. Gary Karpen explores how environmental factors shape genome function and disease through epigenetics.

Bissell, Mina; Canaria, Christie; Celnicker, Susan; Karpen, Gary

2014-05-06T23:59:59.000Z

333

How to Bring Solar Energy to Seven Billion People (LBNL Science at the Theater)  

ScienceCinema (OSTI)

By exploiting the powers of nanotechnology and taking advantage of non-toxic, Earth-abundant materials, Berkeley Lab's Cyrus Wadia has fabricated new solar cell devices that have the potential to be several orders of magnitude less expensive than conventional solar cells. And by mastering the chemistry of these materials-and the economics of solar energy-he envisions bringing electricity to the 1.2 billion people now living without it.

Wadia, Cyrus

2011-04-28T23:59:59.000Z

334

Development of high gradient laser wakefield accelerators towards nuclear detection applications at LBNL  

E-Print Network [OSTI]

laser wakefield accelerators towards nuclear detectionRecent laser wakefield accelerator experiments at LBNLscaling of laser driven accelerators to GeV energies. Stable

Geddes, Cameron GR

2010-01-01T23:59:59.000Z

335

Big Thinking: The Power of Nanoscience (LBNL Science at the Theater)  

SciTech Connect (OSTI)

Science at the Theater, June 6th, 2011: Berkeley Lab scientists reveal how nanoscience will bring us cleaner energy, faster computers, and improved medicine. Alex Weber-Bargioni: How can we see things at the nanoscale? Alex is pioneering new methods that provide unprecedented insight into nanoscale materials and molecular interactions. The goal is to create rules for building nanoscale materials. Babak Sanii: Nature is an expert at making nanoscale devices such as proteins. Babak is developing ways to see these biological widgets, which could help scientists develop synthetic devices that mimic the best that nature has to offer. Ting Xu: How are we going to make nanoscale devices? A future in which materials and devices are able to assemble themselves may not be that far down the road. Ting is finding ways to induce a wide range of nanoscopic building blocks to assemble into complex structures. Delia Milliron: The dividends of nanoscience could reshape the way we live, from smart windows and solar cells to artificial photosynthesis and improved medical diagnosis. Delia is at the forefront of converting fundamental research into nanotechnology. Moderated by Jim DeYoreo, interim director of the Molecular Foundry, a facility located at Berkeley Lab where scientists from around the world address the myriad challenges in nanoscience.

Milliron, Delia; Sanili, Babak; Weber-Bargioni, Alex; Xu, Ting

2011-06-06T23:59:59.000Z

336

LBNL No. 49283 Examples of Cooler Reflective Streets for Urban Heat-Island Mitigation  

E-Print Network [OSTI]

Group Energy Analysis Department Environmental Energy Technologies Division Lawrence Berkeley National energy), but some are within our easy control. Cities necessarily replace most of the bare ground% of the area seen from above the tree canopy was paved (including roads, parking areas, sidewalks). A quick

337

Sit Down with Sabin: Venkat Srinivasan: The Future of Batteries (LBNL Summer Lecture Series)  

SciTech Connect (OSTI)

Lawrence Berkeley National Laboratory battery scientist Venkat Srinivasan appears June 29, 2011 on "Sit Down with Sabin," a weekly conversation in which former reporter Sabin Russell chats with Berkeley Lab staff about innovative science. Over the course of several conversations held at noon in the Building 50 auditorium, Russell and Lab staff will explore the ups and downs of pioneering science all without the aid of PowerPoints. Brought to you by Berkeley Lab Public Affairs.

Russell, Sabin; Srinivasan, Venkat

2011-06-29T23:59:59.000Z

338

Trading Carbon: Can Cookstoves Light the Way (LBNL Science at the Theater)  

ScienceCinema (OSTI)

Science at the Theater: Get smart about carbon! Learn how families in Africa, using stoves designed by Berkeley Lab, are at the forefront of global carbon reduction. Ashok Gadgil is the driving force behind the Berkeley-Darfur Cookstove. He is a researcher, inventor, renowned humanitarian, and director of Berkeley Lab's Environmental Energy Technologies Division. Kayje Booker is a Berkeley Lab researcher and UC Berkeley graduate student in ecosystem sciences. She is exploring how carbon markets can serve as catalysts for innovation in technologies for the poor. Adam Rausch is a Berkeley Lab researcher and UC Berkeley graduate student in civil environmental engineering. He helps to design and test stove designs in Ethiopia and elsewhere.

Gadgil, Ashok; Booker, Kayje; Rausch, Adam

2011-10-04T23:59:59.000Z

339

Invention and History of the Bubble Chamber (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Summer Lecture Series 2006: Don Glaser won the 1960 Nobel Prize for Physics for his 1952 invention of the bubble chamber at Berkeley Lab, a type of particle detector that became the mainstay of high-energy physics research throughout the 1960s and 1970s. He discusses how, inspired by bubbles in a glass of beer, he invented the bubble chamber and detected cosmic-ray muons.

Glaser, Don

2011-04-28T23:59:59.000Z

340

Nuclear Medicine at Berkeley Lab: From Pioneering Beginnings to Today (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Summer Lecture Series 2006: Thomas Budinger, head of Berkeley Lab's Center for Functional Imaging, discusses Berkeley Lab's rich history pioneering the field of nuclear medicine, from radioisotopes to medical imaging.

Budinger, Thomas [LBNL, Center for Functional Imaging

2011-10-04T23:59:59.000Z

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


341

Targeted Delivery of Drugs to Brain Tumors (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Summer Lecture Series 2007: Trudy Forte of Berkeley Lab's Life Sciences Division will discuss her work developing nano-sized low-density lipoprotein (LDL) particles that can be used as a safe and effective means of delivering anticancer drugs to brain tumors, particularly glioblastoma multiforme. This is the most common malignant brain tumor in adults and one of the deadliest forms of cancer. Her research team found that the synthetic LDL particles can target and kill such tumors cells in vitro. The nanoparticles are composed of a lipid core surrounded by a peptide. The peptide contains an amino acid sequence that recognizes the LDL receptor, and the lipid core has the ability to accumulate anti-cancer drugs.

Forte, Trudy

2011-04-28T23:59:59.000Z

342

LBNL Computational Research & Theory Facility Groundbreaking - Full Press Conference. Feb 1st, 2012  

ScienceCinema (OSTI)

Energy Secretary Steven Chu, along with Berkeley Lab and UC leaders, broke ground on the Lab's Computational Research and Theory (CRT) facility yesterday. The CRT will be at the forefront of high-performance supercomputing research and be DOE's most efficient facility of its kind. Joining Secretary Chu as speakers were Lab Director Paul Alivisatos, UC President Mark Yudof, Office of Science Director Bill Brinkman, and UC Berkeley Chancellor Robert Birgeneau. The festivities were emceed by Associate Lab Director for Computing Sciences, Kathy Yelick, and Berkeley Mayor Tom Bates joined in the shovel ceremony.

Yelick, Kathy

2013-05-29T23:59:59.000Z

343

LBNL-48383, CBP Note-399 ELECTRON-CLOUD MEASUREMENTS AND SIMULATIONS  

E-Print Network [OSTI]

or is expected at many storage rings. It is generally a limit- ing factor in the performance of the machine, via. The collector is coated with graphite to lower the SEY, and is biased at 45 V with a battery to increase the collection efficiency. The assembled detector is mounted behind a slotted vacuum penetration on a 2.75-in

Furman, Miguel

344

Genes and the Microenvironment: Two Faces of Breast Cancer (LBNL Science at the Theater)  

ScienceCinema (OSTI)

In this April 21, 2008 Berkeley Lab event, a dynamic panel of Berkeley Lab scientists highlight breast cancer research advances related to susceptibility, early detection, prevention, and therapy - a biological systems approach to tackling the disease from the molecular and cellular levels, to tissues and organs, and ultimately the whole individual. Joe Gray, Berkeley Lab Life Sciences Division Director, explores how chromosomal abnormalities contribute to cancer and respond to gene-targeted therapies. Mina Bissell, former Life Sciences Division Director, approaches the challenge of breast cancer from the breast's three dimensional tissue microenvironment and how the intracellular ''conversation'' triggers malignancies. Mary Helen Barcellos-Hoff, Deputy Director, Life Sciences Division, identifies what exposure to ionizing radiation can tell us about how normal tissues suppress carcinogenesis. The panel is moderated by Susan M. Love, breast cancer research pioneer, author, President and Medical Director of the Dr. Susan Love Research Foundation.

Gray, Joe; Love, Susan M.; Bissell, Min; Barcellos-Hoff, Mary Helen

2011-10-04T23:59:59.000Z

345

Climate Change: The Role of Particles and Gases (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Summer Lecture Series 2008: A member of the Atmospheric Sciences Department in the Environmental Energy Technologies Division (EETD), Surabi Menon's work focuses on the human contribution to increasing impacts of climate change. Her talk will focus on what humans can do about the effects of global warming by examining anthropogenic influences on climate and future anticipated impacts, using a climate model and her own observations.

Menon, Surabi

2011-04-28T23:59:59.000Z

346

LBNL/NREL Analysis Predicts Record Low LCOE for Wind Energy in...  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

LBNLNREL Analysis Predicts Record Low LCOE for Wind Energy in 2012-2013 LBNLNREL Analysis Predicts Record Low LCOE for Wind Energy in 2012-2013 February 24, 2012 - 11:27am...

347

Protons and Neutrons for Testing at LBNL | U.S. DOE Office of...  

Office of Science (SC) Website

Nuclear Science Advisory Committee (NSAC) News & Resources Contact Information Nuclear Physics U.S. Department of Energy SC-26Germantown Building 1000 Independence...

348

High Purity Germanium Detectors at LBNL | U.S. DOE Office of...  

Office of Science (SC) Website

Nuclear Science Advisory Committee (NSAC) News & Resources Contact Information Nuclear Physics U.S. Department of Energy SC-26Germantown Building 1000 Independence...

349

The Energy Problem: What the Helios Project Can Do About it (LBNL Science at the Theater)  

ScienceCinema (OSTI)

The energy problem is one of the most important issues that science and technology has to solve. Nobel laureate and Berkeley Lab Director Steven Chu proposes an aggressive research program to transform the existing and future energy systems of the world away from technologies that emit greenhouse gases. Berkeley Lab's Helios Project concentrates on renewable fuels, such as biofuels, and solar technologies, including a new generation of solar photovoltaic cells and the conversion of electricity into chemical storage to meet future demand.

Chu, Steven

2011-04-28T23:59:59.000Z

350

Just Say No to Carbon Emissions (LBNL Science at the Theater)  

ScienceCinema (OSTI)

Learn about three efforts our grandchildren may thank us for: cheap solar energy, bringing energy efficiency to China, and learning how to store carbon deep underground. Can solar energy be dirt cheap? We're all potentially billionaires when it comes to solar energy. The trick is learning how to convert sunlight to electricity using cheap and plentiful materials. Ramamoorthy Ramesh, an innovative materials scientist at Berkeley Lab, will discuss how he and other researchers are working to make photovoltaic cells using the most abundant elements in the Earth's crust -- materials that are literally as common as dirt. Energy efficiency in China: Nan Zhou is a researcher with Berkeley Labs China Energy Group. She will speak about Chinas energy use and the policies that have been implemented to increase energy efficiency and reduce CO2 emission growth. Her work focuses on building China's capacity to evaluate, adopt and implement low-carbon development strategies. Zhou has an architecture degree from China, and a Master and Ph.D. in Engineering from Japan. Understanding geologic carbon sequestration: Even with continued growth of renewable energy sources such as wind and solar, fossil fuels will likely remain cheap and plentiful for decades to come. Geologist Curt Oldenburg, who heads Berkeley Lab's Geologic Carbon Sequestration Program, will discuss a strategy to reduce carbon emissions from coal and natural gas. It involves pumping compressed CO2 captured from large stationary sources into underground rock formations that can store it for geological time scales.

Ramesh, Ramamoorthy; Zhou, Nan; Oldenburg, Curt

2011-04-28T23:59:59.000Z

351

The Death of the Dinosaurs: 27 Years Later (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Summer Lecture Series 2006: Rich Muller, a Berkeley Lab physicist, discusses Nobel laureate Luis Alvarez and colleagues' 1979 discovery that an asteroid impact killed the dinosaurs. He also discusses what scientists have learned in the subsequent 27 years. Alvarez's team detected unusual amounts of iridium in sedimentary layers. They attributed the excess iridium to an impact from a large asteroid. His talk was presented June 30, 2006.

Muller, Rich

2011-04-28T23:59:59.000Z

352

If Only We Could Account For Every Atom (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Christian Kisielowski, an expert in electron microscopy at Lawrence Berkeley National Laboratory, investigates ways to allow studies of single atoms using sophisticated microscopes and imaginative techniques. His goal is to account for every atom in the interior of both simple and complex materials. Find out how he and his colleagues are breaking the barriers to account for every atom.

Kisielowski, Christian

2014-05-06T23:59:59.000Z

353

ESnet: Large-Scale Science and Data Management ( (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Summer Lecture Series 2004: Bill Johnston of Berkeley Lab's Computing Sciences is a distinguished networking and computing researcher. He managed the Energy Sciences Network (ESnet), a leading-edge, high-bandwidth network funded by DOE's Office of Science. Used for everything from videoconferencing to climate modeling, and flexible enough to accommodate a wide variety of data-intensive applications and services, ESNet's traffic volume is doubling every year and currently surpasses 200 terabytes per month.

Johnston, Bill

2011-04-28T23:59:59.000Z

354

Dark Secrets: What Science Tells Us About the Hidden Universe (LBNL Science at the Theater)  

ScienceCinema (OSTI)

No mystery is bigger than dark energy - the elusive force that makes up three-quarters of the Universe and is causing it to expand at an accelerating rate. KTVU Channel 2 health and science editor John Fowler will moderate a panel of Lawrence Berkeley National Laboratory scientists who use phenomena such as exploding stars and gravitational lenses to explore the dark cosmos. Saul Perlmutter heads the Supernova Cosmology Project, which pioneered the use of precise observations of exploding stars to study the expansion of the Universe. His international team was one of two groups who independently discovered the amazing phenomenon known as dark energy, and he led a collaboration that designed a satellite to study the nature of this dark force. He is an astrophysicist at Berkeley Lab and a professor of physics at UC Berkeley. David Schlegel is a Berkeley Lab astrophysicist and the principal investigator of Baryon Oscillation Spectroscopic Survey (BOSS), the largest of four night-sky surveys being conducted in the third phase of the Sloan Digital Sky Survey, known as SDSS-III. BOSS will generate a 3-D map of two million galaxies and quasars, using a specially built instrument outfitted with 1,000 optical fibers and mounted on the SDSS telescope in New Mexico. Alexie Leauthaud is Chamberlain Fellow at Berkeley Lab. Her work probes dark matter in the Universe using a technique called gravitational lensing. When gravity from a massive object such as a cluster of galaxies warps space around it, this can distort our view of the light from an even more distant object. The scale and direction of this distortion allows astronomers to directly measure the properties of both dark matter and dark energy.

Permutter, Saul; Schlegel, David; Leauthaud, Alexie

2011-04-28T23:59:59.000Z

355

The Future of the Earth's Climate: Frontiers in Forecasting (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Summer Lecture Series 2007: Berkeley Lab's Bill Collins discusses how observations show that the Earth is warming at a rate unprecedented in recent history, and that human-induced changes in atmospheric chemistry are probably the main culprits. He suggests a need for better observations and understanding of the carbon and hydrological cycles.

Collins, Bill

2011-04-28T23:59:59.000Z

356

Reducing Our Carbon Footprint: Frontiers in Climate Forecasting (LBNL Science at the Theater)  

ScienceCinema (OSTI)

Bill Collins directs Berkeley Lab's research dedicated to atmospheric and climate science. Previously, he headed the development of one of the leading climate models used in international studies of global warming. His work has confirmed that man-made greenhouse gases are probably the main culprits of recent warming and future warming poses very real challenges for the environment and society. A lead author of the most recent assessment of the science of climate change by the United Nations' Integovernmental Panel on Climate Change, Collins wants to create a new kind of climate model, one that will integrate cutting-edge climate science with accurate predictions people can use to plan their lives

Collins, Bill

2011-05-09T23:59:59.000Z

357

Putting Carbon in its Place: What You Can Do (LBNL Science at the Theater)  

ScienceCinema (OSTI)

Science at the Theater: Berkeley Lab scientists reveal the latest research on how to reduce your carbon footprint at home, work, and when you shop. Learn how even small choices can have a big impact. Iain Walker's research focuses on optimizing the energy use and comfort of buildings. He's a staff scientist in the Energy Performance of Buildings Group, which is part of Berkeley Lab's Environmen...tal Energy Technologies Division. He's also executive editor of Home Energy Magazine. Cindy Regnier is a Project Manager in the Environmental Energy Technologies Division at Berkeley Lab. She has over 13 years of mechanical engineering design experience, with a focus on low-energy buildings. Her projects have included several LEED Platinum buildings and the design of a 200,000 sf carbon neutral, net-zero energy science museum in San Francisco. Eric Masanet is Acting Deputy Leader of the International Energy Studies Group at Berkeley Lab. His research focuses on life-cycle assessments and energy efficiency analysis. He holds a joint research appointment in the Institute of Transportation Studies at UC Berkeley.

Walker, Iain; Regnier, Cindy [LBNL, Environmental Energy Technologies Division

2011-04-28T23:59:59.000Z

358

Reducing Our Carbon Footprint: Converting Plants to Fuel (LBNL Science at the Theater)  

ScienceCinema (OSTI)

Berkeley Lab's Chris Somerville is a leading authority on the structure and function of plant cell walls, which comprise most of the body mass of higher plants. He views the knowledge of cell wall structure and function as furthering the development of plants with improved usefulness: these plants are strong potential sources of renewable materials and biofuel feedstocks. His scientific expertise defines an ideal match of his interest - in the development of cellulosic and other solar-to-fuel science - with his recent appointment as Director of the Energy Biosciences Institute (EBI). With colleagues in biology, physical sciences, engineering, and environmental and the social sciences, he now leads the EBI multidisciplinary teams' research efforts to develop next-generation, carbon-neutral transportation fuels.

Somerville, Chris

2011-04-28T23:59:59.000Z

359

Energy Efficient Buildings and Appliances: From Berkeley Lab to the Marketplace (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Summer Lecture Series 2006: Art Rosenfeld, an appointee to the California Energy Commission and one of the architects of energy efficiency research at Berkeley Lab in the 1970s, discusses what it takes to shepherd innovative energy efficiency research from the lab to the real world.

Rosenfeld, Art [Commissioner, California Energy Commission

2011-04-28T23:59:59.000Z

360

Fifty Years of Progress, 1937-1987 [Lawrence Berkeley Laboratory (LBL, LBNL)  

DOE R&D Accomplishments [OSTI]

This booklet was prepared for the 50th anniversary of medical and biological research at the Donner Laboratory and the Lawrence Berkeley Laboratory of the University of California. The intent is to present historical facts and to highlight important facets of fifty years of accomplishments in medical and biological sciences. A list of selected scientific publications from 1937 to 1960 is included to demonstrate the character and lasting importance of early pioneering work. The organizational concept is to show the research themes starting with the history, then discoveries of medically important radionuclides, then the use of accelerated charged particles in therapy, next human physiology studies then sequentially studies of biology from tissues to macromolecules; and finally studies of the genetic code.

Budinger, T. F. (ed.)

1987-00-00T23:59:59.000Z

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


361

Dark Secrets: What Science Tells Us About the Hidden Universe (LBNL Science at the Theater)  

SciTech Connect (OSTI)

No mystery is bigger than dark energy - the elusive force that makes up three-quarters of the Universe and is causing it to expand at an accelerating rate. KTVU Channel 2 health and science editor John Fowler will moderate a panel of Lawrence Berkeley National Laboratory scientists who use phenomena such as exploding stars and gravitational lenses to explore the dark cosmos. Saul Perlmutter heads the Supernova Cosmology Project, which pioneered the use of precise observations of exploding stars to study the expansion of the Universe. His international team was one of two groups who independently discovered the amazing phenomenon known as dark energy, and he led a collaboration that designed a satellite to study the nature of this dark force. He is an astrophysicist at Berkeley Lab and a professor of physics at UC Berkeley. David Schlegel is a Berkeley Lab astrophysicist and the principal investigator of Baryon Oscillation Spectroscopic Survey (BOSS), the largest of four night-sky surveys being conducted in the third phase of the Sloan Digital Sky Survey, known as SDSS-III. BOSS will generate a 3-D map of two million galaxies and quasars, using a specially built instrument outfitted with 1,000 optical fibers and mounted on the SDSS telescope in New Mexico. Alexie Leauthaud is Chamberlain Fellow at Berkeley Lab. Her work probes dark matter in the Universe using a technique called gravitational lensing. When gravity from a massive object such as a cluster of galaxies warps space around it, this can distort our view of the light from an even more distant object. The scale and direction of this distortion allows astronomers to directly measure the properties of both dark matter and dark energy.

Permutter, Saul; Schlegel, David; Leauthaud, Alexie

2009-10-26T23:59:59.000Z

362

Compiled Multi-Lab Geochemistry Synoptic Survey (LANL, ORNL, LBNL), Barrow, Alaska; 2012  

DOE Data Explorer [Office of Scientific and Technical Information (OSTI)]

To assess the effects of microtopography and depth on ground water geochemistry in arctic polygonal terrain.

Brent Newman; Heather Throckmorton

363

Lawrence Berkeley National Laboratory report LBNL-50634 Min-max Identities on Boundaries of  

E-Print Network [OSTI]

in their interiors, then min x bd(K) max f bd(L) f(x) = r0 = min f bd(L) max x bd(K) f(x) . (1) This identity (1) is given by max {r : rL K} = r0 = max {r : rK L } , (2) where K is the polar set of K. Finally, the pairs (x0, f0) R ? (Rn ) that solve both min-max problems in equation (1) have x0 r0 bd(L) bd

364

Data:45446e3d-7515-482d-8ed5-91f572dbb96a | Open Energy Information  

Open Energy Info (EERE)

45446e3d-7515-482d-8ed5-91f572dbb96a 45446e3d-7515-482d-8ed5-91f572dbb96a No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Village of Lodi, Ohio (Utility Company) Effective date: 2007/03/15 End date if known: Rate name: General Large Power Rate Sector: Commercial Description: *Applicable for three phase industrial load management service for customers with 50 kVA or greater demands and/or served at primary distribution voltage through one meter. Subject to Power Cost Adjustment and Ohio kWh Tax. State of Ohio Kilowatt-Hour Tax Tax rates are applied to all kWH usage: $0.00465 per kWH first 2000 kWh

365

Data:Dbd2542c-e115-43a9-a72a-938368c19e71 | Open Energy Information  

Open Energy Info (EERE)

Dbd2542c-e115-43a9-a72a-938368c19e71 Dbd2542c-e115-43a9-a72a-938368c19e71 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Village of Lodi, Ohio (Utility Company) Effective date: 2007/03/15 End date if known: Rate name: Industrial Large Power Rate Sector: Industrial Description: *Applicable for three phase industrial load management service for customers with 50 kVA or greater demands and/or served at primary distribution voltage through one meter. Subject to Power Cost Adjustment and Ohio kWh Tax. State of Ohio Kilowatt-Hour Tax Tax rates are applied to all kWH usage: $0.00465 per kWH first 2000 kWh

366

Employee Handbook  

E-Print Network [OSTI]

22, 23, 31 LBNL Employee Handbook 41 Insurance,34 42 LBNL Employee Handbook Strawberry Canyon RecreationalHotline to pro- 40 LBNL Employee Handbook Index A Activities

Bello, Madelyn

2008-01-01T23:59:59.000Z

367

Unlocking the potential for efficiency and demand response through advanced  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Unlocking the potential for efficiency and demand response through advanced Unlocking the potential for efficiency and demand response through advanced metering Title Unlocking the potential for efficiency and demand response through advanced metering Publication Type Conference Paper LBNL Report Number LBNL-55673 Year of Publication 2004 Authors Levy, Roger, Karen Herter, and John Wilson Conference Name 2004 ACEEE Summer Study on Energy Efficiency in Buildings Date Published 06/2004 Publisher ACEEE Conference Location Pacific Grove, CA Call Number California Energy Commission Keywords demand response, demand response and distributed energy resources center, demand response research center, energy efficiency demand response advanced metering, rate programs & tariffs Abstract Reliance on the standard cumulative kilowatt-hour meter substantially compromises energy efficiency and demand response programs. Without advanced metering, utilities cannot support time-differentiated rates or collect the detailed customer usage information necessary to (1) educate the customer to the economic value of efficiency and demand response options, or (2) distribute load management incentives proportional to customer contribution. These deficiencies prevent the customer feedback mechanisms that would otherwise encourage economically sound demand-side investments and behaviors. Thus, the inability to collect or properly price electricity usage handicaps the success of almost all efficiency and demand response options.

368

Titanium: A Java Dialect for High Performance Computing  

E-Print Network [OSTI]

Quorquodale (LBNL) · Sabrina Merchant · Carleton Miyamoto · Chang Sun Lin · Geoff Pike · Luigi Semenzato (LBNL

California at Berkeley, University of

369

Data:D71fe59f-f8a9-46fe-a1e8-6a076be47889 | Open Energy Information  

Open Energy Info (EERE)

9f-f8a9-46fe-a1e8-6a076be47889 9f-f8a9-46fe-a1e8-6a076be47889 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Southeastern Power Admin Effective date: End date if known: Rate name: Wholesale Power Rate Schedule CBR-1-H Sector: Commercial Description: Energy Charge: 17.69 Mills per kilowatt-hour. Source or reference: http://199.44.84.82/files/CBR-1-H.pdf Source Parent: Comments Applicability Demand (kW) Minimum (kW): Maximum (kW): History (months): Energy (kWh) Minimum (kWh): Maximum (kWh): History (months): Service Voltage Minimum (V): Maximum (V): Character of Service Voltage Category: Phase Wiring:

370

Critical-fluid extraction of organics from water. Volume I. Engineering analysis. Final report, 1 October 1979-30 November 1983  

SciTech Connect (OSTI)

Critical-fluid extraction of several organic solutes from water was investigated analytically and experimentally to determine the energy conservation potential of the technology relative to distillation. This Volume gives the results of an engineering analysis. The process uses condensed or supercritical carbon dioxide as an extracting solvent to separate aqueous solutions of common organics such as ethanol, isopropanol and sec-butanol. Energy input to the systems is electric power to drive compressors. A detailed process analysis included evaluation and correlation of thermophysical properties and phase equilibria for the two- and three-component systems involved. The analysis showed that a plant fed with 10 weight percent ethanol feed would consume 0.65 kilowatt-hours (kwh) of power for compression energy per gallon of alcohol. This energy consumption would be 5300 Btu of steam-equivalent, or 6500 Btu of fossil-fuel-equivalent energy. The extraction product, however, would require additional energy to produce high-purity alcohol. Doubling the ethanol feed concentration to 20 weight percent would reduce the energy required to about 0.30 kwh per gallon. Halving the ethanol feed concentration to 5 weight percent would increase the energy required to about 1.35 kwh per gallon. For the same feed composition, isopropanol can be separated with 48% of the energy required for ethanol. The same separation of sec-butanol can be done with 25% of the ethanol energy requirement.

Moses, J.M.; de Filippi, R.P.

1984-06-01T23:59:59.000Z

371

Microsoft PowerPoint - GOLDMAN WRAT RA ChallengesApproachesMetrics CREPC 22Mar04 draft LBNL2.ppt  

Broader source: Energy.gov (indexed) [DOE]

Toward a Well-Functioning Western Electricity System Toward a Well-Functioning Western Electricity System Western Resource Adequacy: Challenges - Approaches - Metrics West-Wide Resource Assessment Team Committee on Regional Electric Power Cooperation March 25, 2004 San Francisco, California Western Resource Adequacy 2 Resource Adequacy: Presentation Overview * Challenges * Approaches * Reserves concepts and metrics * Discussion of next steps * Regional adequacy criteria (WECC) Western Resource Adequacy 3 Resource Adequacy Challenges - 1 * Lack of a common understanding or definition * Focus: sufficiency of generating capacity / fuel * Hybrid markets/regulatory structures lack explicit regulatory compacts and create uncertainty * Uncertainty about responsibility to provide resources * Uncertainty about cost recovery mechanism for

372

Summary Results for Brine Migration Modeling Performed by LANL, LBNL and SNL for the Used Fuel Disposition Program  

Broader source: Energy.gov [DOE]

The report summarizes laboratory and field observations and numerical modeling related to coupledprocesses involving brine and vapor migration in geologic salt, focusing on recent developments and...

373

CERN-US July 1, 2004 Accelerator Systems Plan -S.Peggs 1 bnl fnal -lbnl -slac  

E-Print Network [OSTI]

orders of magnitude speed up Applicable to LHC? #12;CERN-US July 1, 2004 Accelerator Systems Plan - S-CERN Committee, July 1, 2004 #12;CERN-US July 1, 2004 Accelerator Systems Plan - S.Peggs 2 Organization Chart 2

Large Hadron Collider Program

374

Lawrence Berkeley National Laboratory report LBNL-725E 1 A New Type of Steady and Stable, Laminar, Premixed Flame  

E-Print Network [OSTI]

, Premixed Flame in Ultra-Lean, Hydrogen-Air Combustion Joseph F. Grcara a Center for Computational Science and Engineering Lawrence Berkeley National Laboratory Berkeley, CA 94720-8142, USA Abstract Ultra-lean, hydrogen propagating cells. These cells were the original meaning of the word "flamelet" when they were observed

375

Reducing Our Carbon Footprint: A Low-Energy House in Berkeley, Kabul, and Washington DC (LBNL Science at the Theater)  

ScienceCinema (OSTI)

How well can we assess and improve building energy performance in California homes? How much energy-and carbon-do homes use in other parts of the world? Rick Diamond, deputy group leader of the Berkeley Lab Energy Performance of Buildings Group, discusses change, global solutions, and the stories of three houses in Berkeley, Kabul (Afghanistan), and Washington, D.C. Diamond, who is also a senior advisor at the California Institute for Energy and Environment, investigates user interactions with the built environment for improved building energy performance. The group has studied a wide range of issues related to energy use in housing, including duct system efficiency, user behavior, and infiltration and ventilation measurements.

Diamond, Rick

2011-04-28T23:59:59.000Z

376

Imaging the Voices of the Past: Using Physics to Restore Early Sound Recordings (LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Summer Lecture Series 2006: Physicist Carl Haber and colleagues have found a way to digitize century-old recordings believed to be unplayable, and as a result, some of the music and spoken word recordings in the Library of Congress collection may spring back to life. Learn how basic scientific research done at Berkeley Lab may yield results of benefit in other areas of science and culture. Series: "Lawrence Berkeley National Laboratory Summer Lecture Series"

Haber, Carl

2011-04-28T23:59:59.000Z

377

Energy Impacts of Effective Residential Range Hood Use, LBNL-Page 1 Energy Impacts of Effective Range  

E-Print Network [OSTI]

Introduction Cooking is one of the largest sources of air pollutants in residences (Kamens et al. 1991; Lewis.S. Dept. of Housing and Urban Development, Office of Healthy Homes and Lead Hazard Control through- Page 3 Abstract Range hood use during residential cooking is essential to maintaining good indoor air

378

Large Wind Technology | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

Large Wind Technology Large Wind Technology Large Wind Technology The Wind Program works with industry partners to increase the performance and reliability of large wind technologies while lowering the cost of wind energy. The program's research efforts have helped to increase the average capacity factor (a measure of power plant productivity) from 22% for wind turbines installed before 1998 to 35% for turbines installed between 2004 and 2007. Wind energy costs have been reduced from over 55 cents (current dollars) per kilowatt-hour (kWh) in 1980 to under six cents/kWh today. To ensure future industry growth, the technology must continue to evolve, building on earlier successes to further improve reliability, increase capacity factors, and reduce costs. This page describes the goal of the

379

Electricity Consumption | OpenEI  

Open Energy Info (EERE)

Consumption Consumption Dataset Summary Description Total annual electricity consumption by country, 1980 to 2009 (billion kilowatthours). Compiled by Energy Information Administration (EIA). Source EIA Date Released Unknown Date Updated Unknown Keywords EIA Electricity Electricity Consumption world Data text/csv icon total_electricity_net_consumption_1980_2009billion_kwh.csv (csv, 50.7 KiB) Quality Metrics Level of Review Peer Reviewed Comment Temporal and Spatial Coverage Frequency Time Period 1980 - 2009 License License Other or unspecified, see optional comment below Comment Rate this dataset Usefulness of the metadata Average vote Your vote Usefulness of the dataset Average vote Your vote Ease of access Average vote Your vote Overall rating Average vote Your vote Comments Login or register to post comments

380

"Item","Full Service Providers",,,,,"Other Providers",,"Total"  

U.S. Energy Information Administration (EIA) Indexed Site

Nevada" Nevada" "Number of Entities",2,8,1,8,1,2,2,24 "Number of Retail Customers",1151085,28868,6,36469,1,47,"NA",1216476 "Retail Sales (thousand megawatthours)",28422,2034,29,1833,32,1424,"NA",33773 "Percentage of Retail Sales",84.16,6.02,0.09,5.43,0.09,4.22,"NA",100 "Revenue from Retail Sales (million dollars)",2959,123,"*",122,1,76,5,3286 "Percentage of Revenue",90.05,3.75,0.01,3.72,0.02,2.31,0.15,100 "Average Retail Price (cents/kWh)",10.41,6.05,1.07,6.66,2.22,5.34,0.34,9.73 "kWh = Kilowatthours." "* = Value is less than half of the smallest unit of measure (e.g., for values with no decimals, the smallest unit is 1 and values under 0.5 are shown as *)

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


381

Page not found | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

71 - 23680 of 29,416 results. 71 - 23680 of 29,416 results. Rebate Energy Replacement Generation Tax Exemption Iowa imposes a replacement generation tax of 0.06 cents ($0.0006) per kilowatt-hour (kWh) on various forms of electricity generated within the state. This tax is imposed in lieu of a property tax... http://energy.gov/savings/energy-replacement-generation-tax-exemption Rebate Gainesville Regional Utilities- Low-Interest Energy Efficiency Loan Program Gainesville Regional Utilities (GRU) offers a six percent annual interest loan for pre-approved items including the ENERGY STAR refrigerators, high efficiency central air conditioning systems, and... http://energy.gov/savings/gainesville-regional-utilities-low-interest-energy-efficiency-loan-program Rebate La Plata Electric Association- Renewable Generation Rebate Program

382

Definition: Gross generation | Open Energy Information  

Open Energy Info (EERE)

Definition Definition Edit with form History Facebook icon Twitter icon » Definition: Gross generation Jump to: navigation, search Dictionary.png Gross generation The total amount of electric energy produced by generating units (e.g. power plants) and measured at the generating terminal in kilowatt-hours (kWh) or megawatt-hours (MWh).[1] View on Wikipedia Wikipedia Definition Related Terms Electricity generation, Net generation, power References ↑ http://205.254.135.24/tools/glossary/index.cfm?id=G#gross_gen Retri Like Like You like this.Sign Up to see what your friends like. eved from "http://en.openei.org/w/index.php?title=Definition:Gross_generation&oldid=480543" Category: Definitions What links here Related changes Special pages Printable version Permanent link

383

"Item","Full Service Providers",,,,,"Other Providers",,"Total"  

U.S. Energy Information Administration (EIA) Indexed Site

Michigan" Michigan" "Number of Entities",8,41,"NA",10,1,12,2,74 "Number of Retail Customers",4149290,304011,"NA",317505,5,7408,"NA",4778219 "Retail Sales (thousand megawatthours)",83115,7564,"NA",3886,"*",9084,"NA",103649 "Percentage of Retail Sales",80.19,7.3,"NA",3.75,"*",8.76,"NA",100 "Revenue from Retail Sales (million dollars)",8390,697,"NA",437,"*",560,161,10245 "Percentage of Revenue",81.9,6.8,"NA",4.26,"*",5.47,1.57,100 "Average Retail Price (cents/kWh)",10.09,9.21,"NA",11.23,8.88,6.17,1.77,9.88 "kWh = Kilowatthours." "* = Value is less than half of the smallest unit of measure (e.g., for values with no decimals, the smallest unit is 1 and values under 0.5 are shown as *)

384

Untitled  

U.S. Energy Information Administration (EIA) Indexed Site

Executive Summary Executive Summary Potential Savings The overwhelming majority of lights in residential households are incandescent--the least energy efficient of all light types (Figure ES1.). If households replaced the most intensively used bulbs with compact fluorescent bulbs, they would see a sizable savings in their electric bills. The total U.S. household energy that would be saved by replacing all incandescent bulbs used 4 or more hours per day would be 31.7 billion kilowatthours (kWh) annually, or 35 percent of all electricity used for residential lighting. The amount of time it takes for households to see a simple payback from compact fluorescent bulbs depends on the price of electricity. Assuming a 26-watt compact fluorescent bulb that costs 22 dollars, an average sized

385

Renewable Energy Production Incentive | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

Production Incentive Production Incentive Renewable Energy Production Incentive < Back Eligibility Agricultural Commercial Industrial Nonprofit Residential Savings Category Bioenergy Maximum Rebate None Program Info State Minnesota Program Type Performance-Based Incentive Rebate Amount 1.0¢-1.5¢/kWh Other undetermined incentive for on farm biogas ''not'' used to produce electricity Provider Minnesota Department of Commerce Supported by the state's Renewable Development Fund, Minnesota offers a payment of 1.5¢ per kilowatt-hour (kWh) for on-farm biogas facilities. Previously, this incentive also offered payments to wind and hydroelectric facilities, but no new incentives are being offered for these technologies. Hydro Facility Eligibility Generally, the incentive is available to hydro facilities located at the

386

Energy Star Building Upgrade Manual Facility Type: Supermarkets and Grocery Stores Chapter 11  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

1. Facility Type: 1. Facility Type: Supermarkets and Grocery Stores Revised January 2008 11.1 Challenges and Opportunities 2 11.2 Energy Use Profiles 3 11.3 Technical Recommendations 4 Retrocommissioning 5 Lighting 8 Load Reductions 11 Air Distribution Systems 15 Heating and Cooling Systems 16 11.4 Financial and Implementation Issues 17 Bibliography 17 Glossary G-1 ENERGY STAR ® Building Manual 2 11. Facility Type: Supermarkets and Grocery Stores 11.1 Challenges and Opportunities Energy is increasingly joining the ranks of top concerns for supermarket owners and facility managers. Supermarkets are the most electricity-intensive type of commercial building, using an average of about 50 kilowatt-hours (kWh) of electricity. They also use 50 cubic feet of natural gas per square foot (ft

387

Page not found | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

11 - 6620 of 31,917 results. 11 - 6620 of 31,917 results. Page Space Power Systems The Department of Energy (DOE) and its predecessors have provided radioisotope power systems that have safely enabled deep space exploration and national security missions for five decades. http://energy.gov/ne/nuclear-reactor-technologies/space-power-systems Rebate Renewable Energy Production Incentive Supported by the state's Renewable Development Fund, Minnesota offers a payment of 1.5¢ per kilowatt-hour (kWh) for on-farm biogas facilities. Previously, this incentive also offered payments to... http://energy.gov/savings/renewable-energy-production-incentive Download Inspection Report: IG-0369 Report on Inspection of Los Alamos National Laboratory's System for Controlling Cost Overruns on Work-for-Others Projects

388

Page not found | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

41 - 24450 of 28,905 results. 41 - 24450 of 28,905 results. Rebate Renewable Energy Production Incentive Supported by the state's Renewable Development Fund, Minnesota offers a payment of 1.5¢ per kilowatt-hour (kWh) for on-farm biogas facilities. Previously, this incentive also offered payments to... http://energy.gov/savings/renewable-energy-production-incentive Rebate Santa Clara County- Zoning Ordinance (California) Santa Clara County's Zoning Ordinance includes standards for wind and solar structures for residential, agricultural, and commercial uses. http://energy.gov/savings/santa-clara-county-zoning-ordinance-california Rebate Alliant Energy Interstate Power and Light (Electric)- Residential Energy Efficiency Rebate Program (Iowa) Interstate Power and Light (Alliant Energy) offers residential energy

389

Renewable Energy Consumption | OpenEI  

Open Energy Info (EERE)

Consumption Consumption Dataset Summary Description Total annual renewable electricity consumption by country, 2005 to 2009 (available in Billion Kilowatt-hours or as Quadrillion Btu). Compiled by Energy Information Administration (EIA). Source EIA Date Released Unknown Date Updated Unknown Keywords EIA renewable electricity Renewable Energy Consumption world Data text/csv icon total_renewable_electricity_net_consumption_2005_2009billion_kwh.csv (csv, 8.5 KiB) text/csv icon total_renewable_electricity_net_consumption_2005_2009quadrillion_btu.csv (csv, 8.9 KiB) Quality Metrics Level of Review Peer Reviewed Comment Temporal and Spatial Coverage Frequency Time Period 2005 - 2009 License License Other or unspecified, see optional comment below Comment Rate this dataset Usefulness of the metadata

390

Definition: Electricity generation | Open Energy Information  

Open Energy Info (EERE)

Electricity generation Electricity generation Jump to: navigation, search Dictionary.png Electricity generation The process of producing electric energy or the amount of electric energy produced by transforming other forms of energy into electrical energy; commonly expressed in kilowatt-hours (kWh) or megawatt-hours (MWh).[1][2] View on Wikipedia Wikipedia Definition Electricity generation is the process of generating electrical power from other sources of primary energy. The fundamental principles of electricity generation were discovered during the 1820s and early 1830s by the British scientist Michael Faraday. His basic method is still used today: electricity is generated by the movement of a loop of wire, or disc of copper between the poles of a magnet. For electric utilities, it is the

391

EPA_T1542D4488_SCTR_Supermarket  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Supermarkets: An Overview of Energy Supermarkets: An Overview of Energy Use and Energy Efficiency Opportunities Energy Use in Supermarkets On average, supermarkets in the United States use around 50 kilowatt-hours (kWh) of electricity and 50 cubic feet of natural gas per square foot per year - an average annual energy cost of more than $4 per square foot. For an average-size (50,000 square foot) store, this equates to more than $200,000 annually in energy costs and results in 1,900 tons of CO 2 being emitted into the atmosphere - equivalent to the emissions from 360 vehicles in one year! Refrigeration and lighting account for over 50 percent of total energy use in the average supermarket, making these systems the best places to start looking for energy efficiency opportunities. Especially since the profit margins of supermarkets are so thin, on the order

392

LADWP - Net Metering (California) | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

Net Metering (California) Net Metering (California) LADWP - Net Metering (California) < Back Eligibility Agricultural Commercial General Public/Consumer Industrial Residential Savings Category Solar Buying & Making Electricity Wind Program Info State California Program Type Net Metering Provider Los Angeles Department of Water and Power LADWP allows its customers to net meter their photovoltaic (PV), wind, and hybrid systems with a capacity of not more than one megawatt. LADWP will provide the necessary metering equipment unless an installation requires atypical metering equipment. In these cases the customer must cover the additional metering expenses. The customer must also pay any related interconnection fees. Excess kilowatt-hours (kWh) generated by the customer's system will be

393

renewable electricity | OpenEI  

Open Energy Info (EERE)

electricity electricity Dataset Summary Description Total annual renewable electricity consumption by country, 2005 to 2009 (available in Billion Kilowatt-hours or as Quadrillion Btu). Compiled by Energy Information Administration (EIA). Source EIA Date Released Unknown Date Updated Unknown Keywords EIA renewable electricity Renewable Energy Consumption world Data text/csv icon total_renewable_electricity_net_consumption_2005_2009billion_kwh.csv (csv, 8.5 KiB) text/csv icon total_renewable_electricity_net_consumption_2005_2009quadrillion_btu.csv (csv, 8.9 KiB) Quality Metrics Level of Review Peer Reviewed Comment Temporal and Spatial Coverage Frequency Time Period 2005 - 2009 License License Other or unspecified, see optional comment below Comment Rate this dataset Usefulness of the metadata

394

Energy Replacement Generation Tax Exemption | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

Replacement Generation Tax Exemption Replacement Generation Tax Exemption Energy Replacement Generation Tax Exemption < Back Eligibility Commercial Industrial Local Government Residential Savings Category Water Buying & Making Electricity Bioenergy Wind Maximum Rebate None Program Info Start Date 01/01/2008 (retroactively effective) State Iowa Program Type Corporate Exemption Rebate Amount 100% exemption for self-generators, landfill gas and wind Reduced rate for large hydro Provider Iowa Department of Revenue Iowa imposes a replacement generation tax of 0.06 cents ($0.0006) per kilowatt-hour (kWh) on various forms of electricity generated within the state. This tax is imposed in lieu of a property tax on generation facilities. Under the Energy Replacement Generation Tax Exemption, the following

395

Performance-Based Incentive | Open Energy Information  

Open Energy Info (EERE)

Performance-Based Incentive Performance-Based Incentive Jump to: navigation, search Performance-based incentives (PBIs), also known as production incentives, provide cash payments based on the number of kilowatt-hours (kWh) or BTUs generated by a renewable energy system. A "feed-in tariff" is an example of a PBI. To ensure project quality, payments based on a system's actual performance are generally more effective than payments based on a system's rated capacity. (Note that tax incentives based on the amount of energy produced by an eligible commercial facility are categorized as "Corporate Tax Incentives" in DSIRE.) [1] Contents 1 Performance-Based Incentive Incentives 2 References Performance-Based Incentive Incentives CSV (rows 1 - 194) Incentive Incentive Type Place Applicable Sector Eligible Technologies Active

396

Communication and Collaboration Keep San Francisco VA Medical Center  

Broader source: Energy.gov (indexed) [DOE]

Communication and Collaboration Keep San Francisco VA Medical Communication and Collaboration Keep San Francisco VA Medical Center Project on Track Communication and Collaboration Keep San Francisco VA Medical Center Project on Track October 7, 2013 - 1:56pm Addthis San Francisco VA Medical Center The San Francisco VA Medical Center is saving more than $500,000 and almost 3 million kWh every year through a retrofit financed by FEMP's Super ESPC Program. Overview The Veterans Affairs Medical Center in San Francisco is saving almost 3 million kilowatt-hours of electricity, more than 70,000 therms of natural gas, and more than $500,000 annually. The energy savings are enough to power 400 homes and supply natural gas to more than 100 homes each year in California. These savings were realized by taking advantage of Super Energy

397

New Wind Energy Technologies Are Cost-Effective in Federal Applications--Technology Focus  

Broader source: Energy.gov (indexed) [DOE]

energy systems are producing energy systems are producing electricity in some areas of the United States for 5¢ per kilowatt-hour (kWh) or less. As the demand for advanced wind systems increases, wind turbines can be manufactured on a larger scale. This demand, coupled with improvements in the technology, will further reduce the cost of wind- generated electricity. Today, using wind systems to generate electricity can be a cost-effective option for many Federal facilities. This is especially true for facilities that have access to good wind resources and rela- tively high utility costs, and those that depend on diesel power generation. Applications for wind systems are similar to those for solar systems: * Remote communications equipment * Ranger stations * Military installations * Visitor centers and other facilities in

398

Renewable Energy Generation | OpenEI  

Open Energy Info (EERE)

Generation Generation Dataset Summary Description Total annual renewable electricity net generation by country, 1980 to 2009 (available in Billion Kilowatt-hours or as Quadrillion Btu). Compiled by Energy Information Administration (EIA). Source EIA Date Released Unknown Date Updated Unknown Keywords EIA Renewable Energy Generation world Data text/csv icon total_renewable_electricity_net_generation_1980_2009billion_kwh.csv (csv, 37.3 KiB) text/csv icon total_renewable_electricity_net_generation_1980_2009quadrillion_btu.csv (csv, 43 KiB) Quality Metrics Level of Review Peer Reviewed Comment Temporal and Spatial Coverage Frequency Time Period 1980 - 2009 License License Other or unspecified, see optional comment below Comment Rate this dataset Usefulness of the metadata

399

Electricity Generation | OpenEI  

Open Energy Info (EERE)

Generation Generation Dataset Summary Description Total annual electricity generation by country, 1980 to 2009 (available in billion kilowatthours ). Compiled by Energy Information Administration (EIA). Source EIA Date Released Unknown Date Updated Unknown Keywords EIA Electricity Electricity Generation world Data text/csv icon total_electricity_net_generation_1980_2009billion_kwh.csv (csv, 46.4 KiB) Quality Metrics Level of Review Peer Reviewed Comment Temporal and Spatial Coverage Frequency Time Period 1980 - 2009 License License Other or unspecified, see optional comment below Comment Rate this dataset Usefulness of the metadata Average vote Your vote Usefulness of the dataset Average vote Your vote Ease of access Average vote Your vote Overall rating Average vote Your vote

400

Net Metering | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

Residential Residential Savings Category Bioenergy Water Buying & Making Electricity Solar Home Weatherization Wind Program Info State Wyoming Program Type Net Metering Provider Wyoming Public Service Commission Wyoming enacted legislation in February 2001 that established statewide net metering. The law applies to investor-owned utilities, electric cooperatives and irrigation districts. Eligible technologies include solar, wind, biomass and hydropower systems up to 25 kilowatts (kW) in capacity. Systems must be intended primarily to offset part or all of the customer-generator's requirements for electricity. Net excess generation (NEG) is treated as a kilowatt-hour (kWh) credit or other compensation on the customer's following bill.* When an annual period ends, a utility will purchase unused credits at the utility's avoided-cost

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


401

Microsoft Word - Highlights.doc  

Gasoline and Diesel Fuel Update (EIA)

7 7 1 October 2007 Short-Term Energy and Winter Fuels Outlook October 9, 2007 Release Highlights Average winter-season (October 1 to March 31) prices and expenditures for all space-heating fuels are projected to be higher than winter 2006-2007. Residential natural gas prices are expected to average $13.14 per thousand cubic feet (mcf) this winter compared with $12.36 per mcf last winter, heating oil prices are expected to average $2.88 per gallon compared with $2.48 per gallon last winter, and propane prices are expected to average $2.28 per gallon compared with $2.02 per gallon last winter. Residential electricity prices are expected to average 10.3 cents per kilowatthour (kwh) compared with 10.1

402

Data:C10c0c69-1af0-4fd0-b3cf-45093932f0a0 | Open Energy Information  

Open Energy Info (EERE)

c0c69-1af0-4fd0-b3cf-45093932f0a0 c0c69-1af0-4fd0-b3cf-45093932f0a0 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Adams Electric Coop Effective date: 2009/01/01 End date if known: Rate name: Rate Schedule LM-C (Load Management Credits)(Controlled water heater) Sector: Commercial Description: Available to cooperative members with one or more electric water heaters and/or central air conditioners except for limitations listed in the Billing Provisions below. $8.00 credit per month per controlled water heater (12 months per year) (LMCWH)- Minimum monthly usage of 400 kilowatt-hours (kwh) is required.

403

District of Columbia | Department of Energy  

Broader source: Energy.gov (indexed) [DOE]

Grays Harbor PUD - Non-Residential Energy Efficiency Rebate Program Grays Harbor PUD - Non-Residential Energy Efficiency Rebate Program Grays Harbor PUD's Non-Residential Rebate Program offers financial incentives to its commercial, agricultural, industrial, and institutional customers for the installation of energy efficient equipment in their facilities. The program provides rebates for any project with verifiable electric energy savings, including large HVAC, lighting, or refrigeration projects. These rebates are based solely on annual electric energy savings. Rebate amounts are calculated based upon annual kilowatt-hours saved, at the rate of $0.17/kWh, up to 70% of project cost. October 16, 2013 Grays Harbor PUD - Net Metering Grays Harbor PUD's net-metering program differs slightly from what is required by Washington state law in that Grays Harbor PUD reimburses

404

NREL: Energy Analysis - Levelized Cost of Energy Calculator  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Levelized Cost of Energy Calculator Levelized Cost of Energy Calculator Transparent Cost Database Button The levelized cost of energy (LCOE) calculator provides a simple calculator for both utility-scale and distributed generation (DG) renewable energy technologies that compares the combination of capital costs, operations and maintenance (O&M), performance, and fuel costs. Note that this does not include financing issues, discount issues, future replacement, or degradation costs. Each of these would need to be included for a thorough analysis. To estimate simple cost of energy, use the slider controls or enter values directly to adjust the values. The calculator will return the LCOE expressed in cents per kilowatt-hour (kWh). The U.S. Department of Energy (DOE) Federal Energy Management Program

405

Grays Harbor PUD - Non-Residential Energy Efficiency Rebate Program |  

Broader source: Energy.gov (indexed) [DOE]

Grays Harbor PUD - Non-Residential Energy Efficiency Rebate Program Grays Harbor PUD - Non-Residential Energy Efficiency Rebate Program Grays Harbor PUD - Non-Residential Energy Efficiency Rebate Program < Back Eligibility Agricultural Commercial Industrial Institutional Local Government Schools Savings Category Heating & Cooling Commercial Heating & Cooling Cooling Other Heat Pumps Appliances & Electronics Commercial Lighting Lighting Manufacturing Maximum Rebate Verifiable Savings: up to 70% of project cost Heat Pumps/Air Conditioners: 50% of actual project cost Economizers: 50% of actual economizer system installed cost Program Info State District of Columbia Program Type Utility Rebate Program Rebate Amount Verifiable Savings: $0.17/kWh, based upon annual kilowatt-hours saved Heat Pumps/Air Conditioners: $200 per ton X minimum or actual SEER

406

EERE Template for Microsoft Word Document Standard Cover and Second Page  

Broader source: Energy.gov (indexed) [DOE]

President's Solar America Initiative (SAI) President's Solar America Initiative (SAI) Goal The goal of the SAI is to achieve market competitiveness for solar electricity across all sectors by 2015 through public-private partnerships with industry, universities, national laboratories, state municipalities, and/or non- governmental organizations. When federal solar energy research began in the 1970s in response to oil price shocks, the cost of electricity from solar resources was about $2.00 per kilowatt-hour (kWh). Technological advances during the last two decades have reduced solar electricity costs by more than 90 percent, opening up new markets for solar energy. Benefits to the Nation When SAI reaches its full potential in 2015, PV could provide at least 5 GW of electric capacity

407

New Wind Energy Technologies Are Cost-Effective in Federal Applications--Technology Focus  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Wind energy systems are producing Wind energy systems are producing electricity in some areas of the United States for 5¢ per kilowatt-hour (kWh) or less. As the demand for advanced wind systems increases, wind turbines can be manufactured on a larger scale. This demand, coupled with improvements in the technology, will further reduce the cost of wind- generated electricity. Today, using wind systems to generate electricity can be a cost-effective option for many Federal facilities. This is especially true for facilities that have access to good wind resources and rela- tively high utility costs, and those that depend on diesel power generation. Applications for wind systems are similar to those for solar systems: * Remote communications equipment * Ranger stations * Military installations * Visitor centers and other facilities in

408

untitled  

Broader source: Energy.gov (indexed) [DOE]

BREA POWER II, LLC'S BREA POWER II, LLC'S OLINDA COMBINED CYCLE ELECTRIC GENERATING PLANT FUELED BY WASTE LANDFILL GAS, BREA, CALIFORNIA U.S. Department of Energy National Energy Technology Laboratory October 2010 DOE/EA-1744 ACRONYMS AND ABBREVIATIONS CEQA California Environmental Quality Act CFR Code of Federal Regulations CHP combined heat and power CO carbon monoxide dBA A-weighted decibel DOE U.S. Department of Energy (also called the Department) EA environmental assessment EPA U.S. Environmental Protection Agency kWh kilowatt-hour mmscfd million standard cubic feet of landfill gas per day MW megawatt MWh megawatt-hour NAAQS National Ambient Air Quality Standards NEPA National Environmental Policy Act, as amended NO 2 nitrogen dioxide

409

Data:B2c65f0d-449c-464d-815b-af243c2c44c5 | Open Energy Information  

Open Energy Info (EERE)

d-449c-464d-815b-af243c2c44c5 d-449c-464d-815b-af243c2c44c5 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: City of Adel, Georgia (Utility Company) Effective date: End date if known: Rate name: Small Power Service-Commercial Sector: Commercial Description: Billing demand for the current month and the preceding 11 months must be less than 50 KW. Average monthly energy consumption shall be greater than or equal to 3,000 kilowatt-hours. IN the event that average monthly energy consumption becomes permanently less than 3,000KWh, the consumer may switch to the appropriate tariff. Subject to Revenue adjustment and Environmental compliance cost recovery (ECCR)

410

Compare All CBECS Activities: Electricity Use  

U.S. Energy Information Administration (EIA) Indexed Site

Electricity Use Electricity Use Compare Activities by ... Electricity Use Total Electricity Consumption by Building Type Commercial buildings in the U.S. used a total of approximately 908 billion kilowatthours (kWh) of electricity in 1999. Office and mercantile buildings used the most total electricity. Both of these building types used electricity as their predominant energy source. Figure showing total electricity consumption by building type. If you need assistance viewing this page, please call 202-586-8800. Electricity Consumption per Building by Building Type Inpatient health care buildings used by far the most electricity per building. Figure showing electricity consumption per building by building type. If you need assistance viewing this page, please call 202-586-8800.

411

Untitled  

U.S. Energy Information Administration (EIA) Indexed Site

Introduction Introduction The 1993 Residential Energy Consumption Survey (RECS) was the first to permit the estimation of annual kilowatthours (kWh) used for lighting. The survey contained more detailed questions about the number of indoor lights used for specific amounts of time and more detailed questions about the use of outdoor lights than did previous surveys. In addition to these basic questions on the Household Questionnaire, the 1993 RECS also included a supplementary questionnaire, administered to a subset of households, that contained more detailed information about the types of lights used in the household, the rooms in which they were located, and the amount of time they were used. The Residential Energy Consumption Survey The 1993 RECS is the ninth survey in a series of nationwide household

412

EPA Clean Energy-Environment Guide to Action 5.5 Fostering Green Power Markets Policy Description and Objective Summary  

E-Print Network [OSTI]

Green power is a relatively small but growing market that provides electricity customers the opportunity to make environmental choices about their electricity consumption. Programs in more than 40 states currently serve approximately 540,000 customers, representing nearly 4 billion kilowatt-hours (kWh) annually. Green power is offered in both vertically integrated and competitive retail markets. Green power programs have existed for approximately 10 years and have contributed to the development of over 2,200 megawatts (MW) of new renewable capacity over that time. A recent study estimates that this could reach 8,000 MW by 2015 (Wiser et al. 2001). Because participation in green power programs is voluntary, the role for states may be more limited

unknown authors

413

The EPRI/DOE Utility Wind Turbine Performance Verification Program  

SciTech Connect (OSTI)

In 1992, the Electric Power Research Institute (EPRI) and the US Department of Energy (DOE) initiated the Utility Wind Turbine Performance Verification Program (TVP). This paper provides an overview of the TVP, its purpose and goals, and the participating utility projects. Improved technology has significantly reduced the cost of energy from wind turbines since the early 1980s. In 1992, turbines were producing electricity for about $0.07--$0.09/kilowatt-hour (kWh) (at 7 m/s [16 mph sites]), compared with more than $0.30/kWh in 1980. Further technology improvements were expected to lower the cost of energy from wind turbines to $0.05/kWh. More than 17,000 wind turbines, totaling more than 1,500 MW capacity, were installed in the US, primarily in California and Hawaii. The better wind plants had availabilities above 95%, capacity factors exceeding 30%, and operation and maintenance costs of $0.01/kWh. However, despite improving technology, EPRI and DOE recognized that utility use of wind turbines was still largely limited to turbines installed in California and Hawaii during the 1980s. Wind resource assessments showed that other regions of the US, particularly the Midwest, had abundant wind resources. EPRI and DOE sought to provide a bridge from utility-grade turbine development programs under way to commercial purchases of the wind turbines. The TVP was developed to allow utilities to build and operate enough candidate turbines to gain statistically significant operating and maintenance data.

Calvert, S.; Goldman, P. [Department of Energy, Washington, DC (United States); DeMeo, E.; McGowin, C. [Electric Power Research Inst., Palo Alto, CA (United States); Smith, B.; Tromly, K. [National Renewable Energy Lab., Golden, CO (United States)

1997-01-01T23:59:59.000Z

414

Fuel-Cell Fundamentals at Low and Subzero Temperatures  

Broader source: Energy.gov (indexed) [DOE]

Task 6. Component characterization Membrane Catalyst layer Diffusion media Fuel-Cell Fundamentals at Low and Subzero Temperatures LBNL PSU UTC LANL, 3M LBNL PSU LANL, LBNL PSU...

415

Atomistic Modeling of Electrode Materials  

Broader source: Energy.gov (indexed) [DOE]

Doeff (LBNL) on layered Li-TM-O 2 for effects of Al substitution * Phil Ross (LBNL) on nano-LiFePO 4 for nano-scale effects on performance * Robert Kostecki (LBNL) on the...

416

Data:0a6670af-b5e1-4c9b-ada1-5c6e425ac375 | Open Energy Information  

Open Energy Info (EERE)

0af-b5e1-4c9b-ada1-5c6e425ac375 0af-b5e1-4c9b-ada1-5c6e425ac375 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Village of Lodi, Ohio (Utility Company) Effective date: 2007/03/15 End date if known: Rate name: Commercial Large Power Rate-In Village Discount Sector: Commercial Description: *Applicable for three phase industrial load management service for customers with 50 kVA or greater demands and/or served at primary distribution voltage through one meter. 5% discount for being inside village limits. Subject to Power Cost Adjustment and Ohio kWh Tax. State of Ohio Kilowatt-Hour Tax Tax rates are applied to all kWH usage:

417

Data:D792cd26-d72c-465f-9c22-ec0a86e1a514 | Open Energy Information  

Open Energy Info (EERE)

cd26-d72c-465f-9c22-ec0a86e1a514 cd26-d72c-465f-9c22-ec0a86e1a514 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Village of Lodi, Ohio (Utility Company) Effective date: 2007/03/15 End date if known: Rate name: Industrial Large Power Rate-In Village Discount Sector: Industrial Description: *Applicable for three phase industrial load management service for customers with 50 kVA or greater demands and/or served at primary distribution voltage through one meter. 5% discount for being inside village limits. Subject to Power Cost Adjustment and Ohio kWh Tax. State of Ohio Kilowatt-Hour Tax Tax rates are applied to all kWH usage:

418

DOE/NREL Advanced Wind Turbine Development Program  

SciTech Connect (OSTI)

The development of technologically advanced, high-efficiency wind turbines continues to be a high-priority activity of the US wind industry. The National Renewable Energy Laboratory (formerly the Solar Energy Research Institute), sponsored by the US Department of Energy (DOE), has initiated the Advanced Wind Turbine Program to assist the wind industry in the development of a new class of advanced wind turbines. The initial phase of the program focused on developing conceptual designs for near-term and advanced turbines. The goal of the second phase of this program is to use the experience gained over the last decade of turbine design and operation combined with the latest existing design tools to develop a turbine that will produce energy at $0.05 per kilowatt-hour (kWh) in a 5.8-m/s (13-mph) wind site. Three contracts have been awarded, and two more are under negotiation in the second phase. The third phase of the program will use new innovations and state-of-the-art wind turbine design technology to produce a turbine that will generate energy at $0.04/kWh in a 5.8-m/s wind site. Details of the third phase will be announced in early 1993.

Butterfield, C.P.; Smith, B.; Laxson, A.; Thresher, B. [National Renewable Energy Lab., Golden, CO (United States)] [National Renewable Energy Lab., Golden, CO (United States); Goldman, P. [USDOE Assistant Secretary for Conservation and Renewable Energy, Washington, DC (United States). Wind/Hydro/Ocean Technologies Div.] [USDOE Assistant Secretary for Conservation and Renewable Energy, Washington, DC (United States). Wind/Hydro/Ocean Technologies Div.

1993-05-01T23:59:59.000Z

419

Data:Abda09dd-ae5d-4918-b36d-d711d1c87ad7 | Open Energy Information  

Open Energy Info (EERE)

Abda09dd-ae5d-4918-b36d-d711d1c87ad7 Abda09dd-ae5d-4918-b36d-d711d1c87ad7 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Village of Lodi, Ohio (Utility Company) Effective date: 2007/03/15 End date if known: Rate name: Commercial Three Phase Load Management Rate-In Village Discount Sector: Commercial Description: *Applicable for commercial secondary service for commercial customers with less than 50 kVA demands through one meter. 5% discount for being inside the village limits. Subject to Power Cost Adjustment and Ohio kWh Tax. State of Ohio Kilowatt-Hour Tax Tax rates are applied to all kWH usage:

420

Measuring Short-term Air Conditioner Demand Reductions for Operations and Settlement  

E-Print Network [OSTI]

Ernest Orlando Lawrence Berkeley National Laboratory. LBNL-2008. Ernest Orlando Lawrence Berkeley National Laboratory.Ernest Orlando Lawrence Berkeley National Laboratory. LBNL-

Bode, Josh

2013-01-01T23:59:59.000Z

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


421

Operations Division at Berkeley Lab  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Box DivisionsDepartments Suggestions Search: Go | Advanced Emergency Action Guide Quick Reference LBNL Emergency Preparedness Website LBNL Emergency Preparedness Employee Pocket...

422

Summary of AEO2015 Renewable Electricity Working Group Meeting  

Gasoline and Diesel Fuel Update (EIA)

too high, citing LBNL's studies such as the "Wind Technologies Report" and "Tracking the Sun". EIA and LBNL use somewhat different approaches, neither of which may fully capture...

423

Development of Polymer Electrolytes for Advanced Lithium Batteries  

Broader source: Energy.gov (indexed) [DOE]

cycle life * Partners: * ANL, ALS (at LBNL) and NCEM (at LBNL) Objectives * A) Develop cost-effective method for creating nanoporous separators. * B) Study the effect of...

424

Life-cycle analysis results of geothermal systems in comparison to other power systems.  

SciTech Connect (OSTI)

A life-cycle energy and greenhouse gas emissions analysis has been conducted with Argonne National Laboratory's expanded Greenhouse Gases, Regulated Emissions, and Energy Use in Transportation (GREET) model for geothermal power-generating technologies, including enhanced geothermal, hydrothermal flash, and hydrothermal binary technologies. As a basis of comparison, a similar analysis has been conducted for other power-generating systems, including coal, natural gas combined cycle, nuclear, hydroelectric, wind, photovoltaic, and biomass by expanding the GREET model to include power plant construction for these latter systems with literature data. In this way, the GREET model has been expanded to include plant construction, as well as the usual fuel production and consumption stages of power plant life cycles. For the plant construction phase, on a per-megawatt (MW) output basis, conventional power plants in general are found to require less steel and concrete than renewable power systems. With the exception of the concrete requirements for gravity dam hydroelectric, enhanced geothermal and hydrothermal binary used more of these materials per MW than other renewable power-generation systems. Energy and greenhouse gas (GHG) ratios for the infrastructure and other life-cycle stages have also been developed in this study per kilowatt-hour (kWh) of electricity output by taking into account both plant capacity and plant lifetime. Generally, energy burdens per energy output associated with plant infrastructure are higher for renewable systems than conventional ones. GHG emissions per kWh of electricity output for plant construction follow a similar trend. Although some of the renewable systems have GHG emissions during plant operation, they are much smaller than those emitted by fossil fuel thermoelectric systems. Binary geothermal systems have virtually insignificant GHG emissions compared to fossil systems. Taking into account plant construction and operation, the GREET model shows that fossil thermal plants have fossil energy use and GHG emissions per kWh of electricity output about one order of magnitude higher than renewable power systems, including geothermal power.

Sullivan, J. L.; Clark, C. E.; Han, J.; Wang, M.; Energy Systems

2010-10-11T23:59:59.000Z

425

Earth Sciences Division Research Summaries 2006-2007  

E-Print Network [OSTI]

observations during hydraulic fracturing. LBNL-63455.failure in the form of hydraulic fracturing or shear slip

DePaolo, Donald

2008-01-01T23:59:59.000Z

426

BigBOSS: The Ground-Based Stage IV BAO Experiment  

E-Print Network [OSTI]

and repairs. LBNL technical and computing support of the instrument operation and computing pipeline

Schlegel, David

2009-01-01T23:59:59.000Z

427

Advanced Scientific Computing Research Network Requirements  

E-Print Network [OSTI]

partners at LBNL and Princeton Plasma Physics Laboratory (Architecture petaflop Princeton Plasma Physics Laboratory

Dart, Eli

2014-01-01T23:59:59.000Z

428

LBNL-4183E-rev1 N NA AT TU UR RA AL L G GA AS S V VA AR RI  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

4183E-rev1 4183E-rev1 N NA AT TU UR RA AL L G GA AS S V VA AR RI IA AB BI IL LI IT TY Y I IN N C CA AL LI IF FO OR RN NI IA A: : E EN NV VI IR RO ON NM ME EN NT TA AL L I IM MP PA AC CT TS S A AN ND D D DE EV VI IC CE E P PE ER RF FO OR RM MA AN NC CE E E EX XP PE ER RI IM ME EN NT TA AL L E EV VA AL LU UA AT TI IO ON N O OF F I IN NS ST TA AL LL LE ED D C CO OO OK KI IN NG G E EX XH HA AU US ST T F FA AN N P PE ER RF FO OR RM MA AN NC CE E Brett C. Singer, William W. Delp and Michael G. Apte Indoor Environment Department Atmospheric Sciences Department Environmental Energy Technologies Division July 2011 (Revised February 2012) Disclaimer 1 This document was prepared as an account of work sponsored by the United States Government. While this document is believed to contain correct information, neither the United States Government nor any agency thereof, nor The Regents of the University of California, nor any of

429

X:\m_drive\Docs\Publications\LBNL-55088 (Marginal Prices )\LCC_Sample_55088_2005-10-31v2.wpd  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

5088 5088 Development of a U.S. Household Sample for Furnace/Boiler Life-Cycle Cost Analysis Camilla Dunham Whitehead, Victor Franco, Alex Lekov, Jim Lutz, and Jim McMahon Energy Analysis Department Environmental Energy Technologies Division Ernest Orlando Lawrence Berkeley National Laboratory University of California Berkeley, CA 94720 May 2005 This work was supported by the Office of Building Technologies and Community Systems of the U.S. Department of Energy, under Contract No. DE-AC03-76SF00098. i ii Acknowledgments The work described in this report was funded by the Assistant Secretary of Energy Efficiency and Renewable Energy, Office of Building Technologies and Community Systems of the U.S. Department of Energy, under Contract No. DE-AC03-76SF00098. Disclaimer

430

RESEARCH SUMMARY BY QUANLIN ZHOU During my stay at LBNL from March 2001, I have been working on (1) geologic carbon sequestration  

E-Print Network [OSTI]

on (1) geologic carbon sequestration (GCS) projects for mitigating global climate change, (2) the DOE projects. 1 Research Highlights 1.1. Geological Carbon Sequestration I have been working on eight research projects in the area of geologic carbon sequestration since 2006. I have been PI or Co-PI for six projects

Zhou, Quanlin

431

Submitted October 2, 2003, accepted December 19, 2003 and published in Energy and Buildings 36 (2004) 503-513. LBNL-52198.  

E-Print Network [OSTI]

and to an electrochromic window are described. The network interfaces enable one to control and monitor the condition-plan office over two years and in limited bench-scale tests of an electrochromic window. Keywords: Building energy-efficiency, electrochromic windows, motorized roller shades, motorized Venetian blinds, controls

432

LBNL-XXXXX | Logue et al., Evaluation of an Incremental Ventilation Energy Model for Estimating Impacts of Air Sealing and Mechanical Ventilation  

E-Print Network [OSTI]

Impacts of Air Sealing and Mechanical Ventilation 1 Evaluation of an Incremental Ventilation Energy Model for Estimating Impacts of Air Sealing and Mechanical Ventilation Jennifer M. Logue, William J. N for Estimating Impacts of Air Sealing and Mechanical Ventilation 2 Disclaimer This document was prepared

433

The Energy - Water Connection: Can We Sustain Critical Resources and Make them Reliable, Affordable, and Environmentally Sound?(LBNL Summer Lecture Series)  

ScienceCinema (OSTI)

Summer Lecture Series 2006: Jim McMahon of Berkeley Lab's Environmental Energy Technologies Division (EETD) is head of the Energy Analysis Department in EETD, which provides technical analysis to the Department of Energy on things like energy efficiency appliance standards. McMahon and his colleagues helped the nation save tens of billions of dollars in energy costs since the standards program began. Now his Water-Energy Technology Team (WETT) is applying its expertise to the linked problem of energy and water. Each of us requires more than 500 gallons per person per day for food production, plus an additional 465 gallons to produce household electricity. WETT hopes to mine some of the numerous opportunities to save energy and water by applying new technologies.

McMahon, Jim

2011-04-28T23:59:59.000Z

434

To be presented at the ASHRAE 2006 Summer Meeting, Quebec City, Canada, June 24-28, 2006, and published in ASHRAE Transactions. LBNL-58912.  

E-Print Network [OSTI]

1 To be presented at the ASHRAE 2006 Summer Meeting, Quebec City, Canada, June 24-28, 2006 research should be conducted to fine-tune EC control for visual comfort based on solar conditions so

435

Conservation screening curves to compare efficiency investments to power plants: Applications to commercial sector conservation programs  

E-Print Network [OSTI]

7/kWh Gas Turbine 5/kWh Combined-Cycle Oil Baseload Coal7/kWh Gas Turbine 5/kWh Combined-Cycle Oi Baseload Coalof Supply Technologies CT Combined- Cycle Oil Baseload Coal

Koomey, Jonathan; Rosenfeld, Arthur H.; Gadgil, Ashok J.

2008-01-01T23:59:59.000Z

436

Data:C078bcfd-d5f5-4e00-b5df-34ec985adc9f | Open Energy Information  

Open Energy Info (EERE)

8bcfd-d5f5-4e00-b5df-34ec985adc9f 8bcfd-d5f5-4e00-b5df-34ec985adc9f No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Nodak Electric Coop Inc Effective date: 2012/05/20 End date if known: Rate name: Industrial- Distribution Delivery - Three Phase LT Off-Peak Sector: Industrial Description: Additional Meters (Off-Peak Included) $ 3.60/Meter/Mo. Applies to all customers who historically meet the following criteria: 1. average greater than 50 KW monthly demand per year, or 2. have a monthly demand greater than 100 KW two or more times per year, or 3. require service to an irrigation site. Load Management Options - Two options are available to C/I customers who wish to lower their coincidental demand charges by participating in the Load Management Program. 1. Full load management - Under full load management, the customer is expected to curtail load during all hours of load management. Under this option, the customer can avoid all seasonal coincidental demand charges. 2. Incremental pricing - Customers also have the option of purchasing energy during certain control periods. Nodak will provide a signal at the load management receiver indicating whether or not incremental energy is available. The customer is responsible to monitor the load management system status. If the customer chooses to operate through periods when incremental energy is available, coincidental demand charges will not accrue; however, an incremental adder will be charged for each kilowatt-hour consumed during those hours. These charges are as follows: Irrigation incremental adder up to *$0.12/Kwh All other C/I accounts incremental adder up to *$0.095/Kwh

437

Data:6b7aaf31-a3dc-4208-ad5e-a83609ee2b92 | Open Energy Information  

Open Energy Info (EERE)

aaf31-a3dc-4208-ad5e-a83609ee2b92 aaf31-a3dc-4208-ad5e-a83609ee2b92 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Nodak Electric Coop Inc Effective date: End date if known: Rate name: Industrial - Distribution Delivery - Single Phase Sector: Industrial Description: Applies to all customers who historically meet the following criteria: 1. average greater than 50 KW monthly demand per year, or 2. have a monthly demand greater than 100 KW two or more times per year, or 3. require service to an irrigation site. Load Management Options - Two options are available to C/I customers who wish to lower their coincidental demand charges by participating in the Load Management Program. 1. Full load management - Under full load management, the customer is expected to curtail load during all hours of load management. Under this option, the customer can avoid all seasonal coincidental demand charges. 2. Incremental pricing - Customers also have the option of purchasing energy during certain control periods. Nodak will provide a signal at the load management receiver indicating whether or not incremental energy is available. The customer is responsible to monitor the load management system status. If the customer chooses to operate through periods when incremental energy is available, coincidental demand charges will not accrue; however, an incremental adder will be charged for each kilowatt-hour consumed during those hours. These charges are as follows: Irrigation incremental adder up to *$0.12/Kwh All other C/I accounts incremental adder up to *$0.095/Kwh

438

Data:22cc17c3-bfc2-4195-81c9-64e14a8ae881 | Open Energy Information  

Open Energy Info (EERE)

cc17c3-bfc2-4195-81c9-64e14a8ae881 cc17c3-bfc2-4195-81c9-64e14a8ae881 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Nodak Electric Coop Inc Effective date: End date if known: Rate name: Commercial- Distribution Delivery - Three Phase LT Off-Peak Sector: Commercial Description: Applies to all customers who historically meet the following criteria: 1. average greater than 50 KW monthly demand per year, or 2. have a monthly demand greater than 100 KW two or more times per year, or 3. require service to an irrigation site. Load Management Options - Two options are available to C/I customers who wish to lower their coincidental demand charges by participating in the Load Management Program. 1. Full load management - Under full load management, the customer is expected to curtail load during all hours of load management. Under this option, the customer can avoid all seasonal coincidental demand charges. 2. Incremental pricing - Customers also have the option of purchasing energy during certain control periods. Nodak will provide a signal at the load management receiver indicating whether or not incremental energy is available. The customer is responsible to monitor the load management system status. If the customer chooses to operate through periods when incremental energy is available, coincidental demand charges will not accrue; however, an incremental adder will be charged for each kilowatt-hour consumed during those hours. These charges are as follows: Irrigation incremental adder up to *$0.12/Kwh All other C/I accounts incremental adder up to *$0.095/Kwh

439

Data:5617ac0e-3c6b-40ad-a852-daee53a7a636 | Open Energy Information  

Open Energy Info (EERE)

ac0e-3c6b-40ad-a852-daee53a7a636 ac0e-3c6b-40ad-a852-daee53a7a636 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Nodak Electric Coop Inc Effective date: End date if known: Rate name: Commercial - Distribution Delivery - Three Phase Sector: Commercial Description: Applies to all customers who historically meet the following criteria: 1. average greater than 50 KW monthly demand per year, or 2. have a monthly demand greater than 100 KW two or more times per year, or 3. require service to an irrigation site. Load Management Options - Two options are available to C/I customers who wish to lower their coincidental demand charges by participating in the Load Management Program. 1. Full load management - Under full load management, the customer is expected to curtail load during all hours of load management. Under this option, the customer can avoid all seasonal coincidental demand charges. 2. Incremental pricing - Customers also have the option of purchasing energy during certain control periods. Nodak will provide a signal at the load management receiver indicating whether or not incremental energy is available. The customer is responsible to monitor the load management system status. If the customer chooses to operate through periods when incremental energy is available, coincidental demand charges will not accrue; however, an incremental adder will be charged for each kilowatt-hour consumed during those hours. These charges are as follows: Irrigation incremental adder up to *$0.12/Kwh All other C/I accounts incremental adder up to *$0.095/Kwh

440

Data:E4efd66b-9ea9-430c-8080-762214d18e03 | Open Energy Information  

Open Energy Info (EERE)

efd66b-9ea9-430c-8080-762214d18e03 efd66b-9ea9-430c-8080-762214d18e03 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Nodak Electric Coop Inc Effective date: 2012/05/20 End date if known: Rate name: Commercial- Distribution Delivery - Single Phase LT Off-Peak Sector: Commercial Description: Additional Meters (Off-Peak Included) $ 3.60/Meter/Mo. Applies to all customers who historically meet the following criteria: 1. average greater than 50 KW monthly demand per year, or 2. have a monthly demand greater than 100 KW two or more times per year, or 3. require service to an irrigation site. Load Management Options - Two options are available to C/I customers who wish to lower their coincidental demand charges by participating in the Load Management Program. 1. Full load management - Under full load management, the customer is expected to curtail load during all hours of load management. Under this option, the customer can avoid all seasonal coincidental demand charges. 2. Incremental pricing - Customers also have the option of purchasing energy during certain control periods. Nodak will provide a signal at the load management receiver indicating whether or not incremental energy is available. The customer is responsible to monitor the load management system status. If the customer chooses to operate through periods when incremental energy is available, coincidental demand charges will not accrue; however, an incremental adder will be charged for each kilowatt-hour consumed during those hours. These charges are as follows: Irrigation incremental adder up to *$0.12/Kwh All other C/I accounts incremental adder up to *$0.095/Kwh

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


441

Data:41b13de1-e482-4571-8f64-ec2ae89a994a | Open Energy Information  

Open Energy Info (EERE)

de1-e482-4571-8f64-ec2ae89a994a de1-e482-4571-8f64-ec2ae89a994a No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Nodak Electric Coop Inc Effective date: 2012/05/20 End date if known: Rate name: Industrial- Distribution Delivery - Single Phase LT Off-Peak Sector: Industrial Description: Additional Meters (Off-Peak Included) $ 3.60/Meter/Mo. Applies to all customers who historically meet the following criteria: 1. average greater than 50 KW monthly demand per year, or 2. have a monthly demand greater than 100 KW two or more times per year, or 3. require service to an irrigation site. Load Management Options - Two options are available to C/I customers who wish to lower their coincidental demand charges by participating in the Load Management Program. 1. Full load management - Under full load management, the customer is expected to curtail load during all hours of load management. Under this option, the customer can avoid all seasonal coincidental demand charges. 2. Incremental pricing - Customers also have the option of purchasing energy during certain control periods. Nodak will provide a signal at the load management receiver indicating whether or not incremental energy is available. The customer is responsible to monitor the load management system status. If the customer chooses to operate through periods when incremental energy is available, coincidental demand charges will not accrue; however, an incremental adder will be charged for each kilowatt-hour consumed during those hours. These charges are as follows: Irrigation incremental adder up to *$0.12/Kwh All other C/I accounts incremental adder up to *$0.095/Kwh

442

Data:F015fc46-f496-46ae-a3d7-b94f91be0e2b | Open Energy Information  

Open Energy Info (EERE)

fc46-f496-46ae-a3d7-b94f91be0e2b fc46-f496-46ae-a3d7-b94f91be0e2b No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Nodak Electric Coop Inc Effective date: End date if known: Rate name: Commercial- Distribution Delivery - Single Phase Sector: Commercial Description: Applies to all customers who historically meet the following criteria: 1. average greater than 50 KW monthly demand per year, or 2. have a monthly demand greater than 100 KW two or more times per year, or 3. require service to an irrigation site. Load Management Options - Two options are available to C/I customers who wish to lower their coincidental demand charges by participating in the Load Management Program. 1. Full load management - Under full load management, the customer is expected to curtail load during all hours of load management. Under this option, the customer can avoid all seasonal coincidental demand charges. 2. Incremental pricing - Customers also have the option of purchasing energy during certain control periods. Nodak will provide a signal at the load management receiver indicating whether or not incremental energy is available. The customer is responsible to monitor the load management system status. If the customer chooses to operate through periods when incremental energy is available, coincidental demand charges will not accrue; however, an incremental adder will be charged for each kilowatt-hour consumed during those hours. These charges are as follows: Irrigation incremental adder up to *$0.12/Kwh All other C/I accounts incremental adder up to *$0.095/Kwh

443

Data:68d30827-2a11-4da2-b3d9-cf6f30b09e02 | Open Energy Information  

Open Energy Info (EERE)

0827-2a11-4da2-b3d9-cf6f30b09e02 0827-2a11-4da2-b3d9-cf6f30b09e02 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Nodak Electric Coop Inc Effective date: 2012/05/20 End date if known: Rate name: Industrial- Distribution Delivery - Single Phase ST Off-Peak Sector: Industrial Description: Additional Meters (Off-Peak Included) $ 3.60/Meter/Mo. Applies to all customers who historically meet the following criteria: 1. average greater than 50 KW monthly demand per year, or 2. have a monthly demand greater than 100 KW two or more times per year, or 3. require service to an irrigation site. Load Management Options - Two options are available to C/I customers who wish to lower their coincidental demand charges by participating in the Load Management Program. 1. Full load management - Under full load management, the customer is expected to curtail load during all hours of load management. Under this option, the customer can avoid all seasonal coincidental demand charges. 2. Incremental pricing - Customers also have the option of purchasing energy during certain control periods. Nodak will provide a signal at the load management receiver indicating whether or not incremental energy is available. The customer is responsible to monitor the load management system status. If the customer chooses to operate through periods when incremental energy is available, coincidental demand charges will not accrue; however, an incremental adder will be charged for each kilowatt-hour consumed during those hours. These charges are as follows: Irrigation incremental adder up to *$0.12/Kwh All other C/I accounts incremental adder up to *$0.095/Kwh

444

Data:35276a3c-abed-4b10-88aa-13ce3d186247 | Open Energy Information  

Open Energy Info (EERE)

a3c-abed-4b10-88aa-13ce3d186247 a3c-abed-4b10-88aa-13ce3d186247 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Nodak Electric Coop Inc Effective date: End date if known: Rate name: Industrial- Distribution Delivery - Three Phase Sector: Industrial Description: Applies to all customers who historically meet the following criteria: 1. average greater than 50 KW monthly demand per year, or 2. have a monthly demand greater than 100 KW two or more times per year, or 3. require service to an irrigation site. Load Management Options - Two options are available to C/I customers who wish to lower their coincidental demand charges by participating in the Load Management Program. 1. Full load management - Under full load management, the customer is expected to curtail load during all hours of load management. Under this option, the customer can avoid all seasonal coincidental demand charges. 2. Incremental pricing - Customers also have the option of purchasing energy during certain control periods. Nodak will provide a signal at the load management receiver indicating whether or not incremental energy is available. The customer is responsible to monitor the load management system status. If the customer chooses to operate through periods when incremental energy is available, coincidental demand charges will not accrue; however, an incremental adder will be charged for each kilowatt-hour consumed during those hours. These charges are as follows: Irrigation incremental adder up to *$0.12/Kwh All other C/I accounts incremental adder up to *$0.095/Kwh

445

Reference Model 5 (RM5): Oscillating Surge Wave Energy Converter  

SciTech Connect (OSTI)

This report is an addendum to SAND2013-9040: Methodology for Design and Economic Analysis of Marine Energy Conversion (MEC) Technologies. This report describes an Oscillating Water Column Wave Energy Converter (OSWEC) reference model design in a complementary manner to Reference Models 1-4 contained in the above report. A conceptual design for a taut moored oscillating surge wave energy converter was developed. The design had an annual electrical power of 108 kilowatts (kW), rated power of 360 kW, and intended deployment at water depths between 50 m and 100 m. The study includes structural analysis, power output estimation, a hydraulic power conversion chain system, and mooring designs. The results were used to estimate device capital cost and annual operation and maintenance costs. The device performance and costs were used for the economic analysis, following the methodology presented in SAND2013-9040 that included costs for designing, manufacturing, deploying, and operating commercial-scale MEC arrays up to 100 devices. The levelized cost of energy estimated for the Reference Model 5 OSWEC, presented in this report, was for a single device and arrays of 10, 50, and 100 units, and it enabled the economic analysis to account for cost reductions associated with economies of scale. The baseline commercial levelized cost of energy estimate for the Reference Model 5 device in an array comprised of 10 units is $1.44/kilowatt-hour (kWh), and the value drops to approximately $0.69/kWh for an array of 100 units.

Yu, Y. H.; Jenne, D. S.; Thresher, R.; Copping, A.; Geerlofs, S.; Hanna, L. A.

2015-01-01T23:59:59.000Z

446

Data:53418602-3d9a-427a-92ba-5de5f40d6817 | Open Energy Information  

Open Energy Info (EERE)

02-3d9a-427a-92ba-5de5f40d6817 02-3d9a-427a-92ba-5de5f40d6817 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Nodak Electric Coop Inc Effective date: 2012/05/20 End date if known: Rate name: Industrial- Distribution Delivery - Three Phase ST Off-Peak Sector: Industrial Description: Additional Meters (Off-Peak Included) $ 3.60/Meter/Mo. Applies to all customers who historically meet the following criteria: 1. average greater than 50 KW monthly demand per year, or 2. have a monthly demand greater than 100 KW two or more times per year, or 3. require service to an irrigation site. Load Management Options - Two options are available to C/I customers who wish to lower their coincidental demand charges by participating in the Load Management Program. 1. Full load management - Under full load management, the customer is expected to curtail load during all hours of load management. Under this option, the customer can avoid all seasonal coincidental demand charges. 2. Incremental pricing - Customers also have the option of purchasing energy during certain control periods. Nodak will provide a signal at the load management receiver indicating whether or not incremental energy is available. The customer is responsible to monitor the load management system status. If the customer chooses to operate through periods when incremental energy is available, coincidental demand charges will not accrue; however, an incremental adder will be charged for each kilowatt-hour consumed during those hours. These charges are as follows: Irrigation incremental adder up to *$0.12/Kwh All other C/I accounts incremental adder up to *$0.095/Kwh

447

Demand Shifting with Thermal Mass in Large Commercial Buildings in a  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Shifting with Thermal Mass in Large Commercial Buildings in a Shifting with Thermal Mass in Large Commercial Buildings in a California Hot Climate Zone Title Demand Shifting with Thermal Mass in Large Commercial Buildings in a California Hot Climate Zone Publication Type Report LBNL Report Number LBNL-3898e Year of Publication 2009 Authors Xu, Peng, Rongxin Yin, Carrie Brown, and DongEun Kim Date Published June 2009 Publisher CEC/LBNL Keywords demand response, demand shifting (pre-cooling), DRQAT, hot climates, market sectors, office buildings, pre-cooling, technologies, testbed tools and guides, thermal mass Abstract The potential for using building thermal mass for load shifting and peak energy demand reduction has been demonstrated in a number of simulation, laboratory, and field studies. Previous Lawrence Berkeley National Laboratory research has demonstrated that the approach is very effective in cool and moderately warm climate conditions (California Climate Zones 2-4). However, this method had not been tested in hotter climate zones.This project studied the potential of pre-cooling the building early in the morning and increasing temperature setpoints during peak hours to reduce cooling-related demand in two typical office buildings in hotter California climates - one in Visalia (CEC Climate Zone 13) and the other in San Bernardino (CEC Climate Zone 10). The conclusion of the work to date is that pre-cooling in hotter climates has similar potential to that seen previously in cool and moderate climates. All other factors being equal, results to date indicate that pre-cooling increases the depth (kW) and duration (kWh) of the possible demand shed of a given building. The effectiveness of night pre-cooling in typical office building under hot weather conditions is very limited. However, night pre-cooling is helpful for office buildings with an undersized HVAC system. Further work is required to duplicate the tests in other typical buildings and in other hot climate zones and prove that pre-cooling is truly effective.

448

Executive Summary  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

Worker Safety and Health Program LBNL/PUB-3851, Rev. 2.2 (March 2012) Worker Safety and Health Program LBNL/PUB-3851, Rev. 2.2 (March 2012) Worker Safety and Health Program Lawrence Berkeley National Laboratory LBNL Worker Safety and Health Program LBNL/PUB-3851, Rev. 2.2 (March 2012) This page intentionally left blank. LBNL Worker Safety and Health Program LBNL/PUB-3851, Rev. 2.2 (March 2012) i Contents Executive Summary .............................................................................................. v 1. Introduction................................................................................................... 1 1.1 Work Activities .............................................................................................. 1

449

Data:638bc389-fb01-4b31-96a5-0c12a8e0261b | Open Energy Information  

Open Energy Info (EERE)

bc389-fb01-4b31-96a5-0c12a8e0261b bc389-fb01-4b31-96a5-0c12a8e0261b No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Nevada Power Co Effective date: 2013/01/01 End date if known: Rate name: OLGS-1-TOU (Large General Service Time-Of-Use) Sector: Commercial Description: Optional for non-Domestic Service where consumption of energy exceeds 3,500 kWh in any one month, where the Billing Demand is equal to or less than 299 kW in any one month and where time-of-use pricing is requested by the Customer. All service will be supplied at one Point of Delivery and measured through one kilowatthour Meter. Not applicable to standby, resale, temporary, shared, or mixed class of service. Not applicable to supplemental service unless the Customer is a Qualifying Facility under Title 18, Code of Federal Regulations, Section 292.201 through 292.207. This schedule is limited to the addition of 1,000 new Customers per month on all optional time-of-use schedules.

450

Data:331ce72c-3bff-430f-88f3-2d671e4aa4b8 | Open Energy Information  

Open Energy Info (EERE)

2c-3bff-430f-88f3-2d671e4aa4b8 2c-3bff-430f-88f3-2d671e4aa4b8 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Eastern Illinois Elec Coop Effective date: 2013/04/15 End date if known: Rate name: (RATE SCHEDULE 18)LARGE SERVICE - SINGLE-PHASE - 400 AMP OR GREATER Sector: Commercial Description: This rate schedule is available upon application to all member/owners with annual electric use of at least 75,000 kilowatt-hours (kWh), who agree to allow the Cooperative to interrupt all electric service for the period of time specified for all uses, including lighting, heating, and power, subject to the established rules and regulations of the Cooperative. Service under this schedule to permanent installations requires no less than 75 kVA of transformer capacity.

451

Data:3afb299a-f590-437a-af7b-510d756d3879 | Open Energy Information  

Open Energy Info (EERE)

afb299a-f590-437a-af7b-510d756d3879 afb299a-f590-437a-af7b-510d756d3879 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Wake Electric Membership Corp Effective date: 2012/01/01 End date if known: Rate name: NC GreenPower Sector: Description: * Flat rate buy = ($4.00 per block) / (100 kwh per block) NC GreenPower is an independent, nonprofit organization established to improve North Carolina's environment through voluntary contributions toward renewable energy. A landmark initiative approved by the N.C. Utilities Commission, NC GreenPower is the first statewide green energy program in the nation administered independently by a nonprofit organization and supported by all of the state's utilities. The program is designed to improve the environment by encouraging the development of renewable energy resources through consumers' voluntary contributions to NC GreenPower.For as little as $4 a month, you can help NC GreenPower build up the supply of green energy. Your $4 contribution each month will add one block of 100 kilowatt-hours of green power to the North Carolina power grid.

452

Data:C34d8294-6b59-456c-81dd-53b6e64f25bc | Open Energy Information  

Open Energy Info (EERE)

294-6b59-456c-81dd-53b6e64f25bc 294-6b59-456c-81dd-53b6e64f25bc No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Salt River Project Effective date: 2012/11/01 End date if known: Rate name: E-61 STANDARD PRICE PLAN FOR SECONDARY LARGE GENERAL SERVICE Sector: Commercial Description: APPLICABILITY: Service under this price plan is applicable to customers having monthly billing energy in excess of 300,000 kilowatt-hours (kWh) for three consecutive months, supplied through one point of delivery and measured through one meter at the secondary level. The secondary level is defined as service requiring transformation below the voltage level at the low side of a distribution substation. Not available to other customers. Limited to customers whose usage can be measured by time of day.

453

Data:B8aecad3-1c72-423d-a285-4e3d3b228920 | Open Energy Information  

Open Energy Info (EERE)

aecad3-1c72-423d-a285-4e3d3b228920 aecad3-1c72-423d-a285-4e3d3b228920 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Eastern Illinois Elec Coop Effective date: 2013/04/15 End date if known: Rate name: (RATE SCHEDULE 18)LARGE SERVICE - SINGLE-PHASE - LESS THAN 400 AMP Sector: Commercial Description: This rate schedule is available upon application to all member/owners with annual electric use of at least 75,000 kilowatt-hours (kWh), who agree to allow the Cooperative to interrupt all electric service for the period of time specified for all uses, including lighting, heating, and power, subject to the established rules and regulations of the Cooperative. Service under this schedule to permanent installations requires no less than 75 kVA of transformer capacity.

454

US MidAtl PA Site Consumption  

Gasoline and Diesel Fuel Update (EIA)

MidAtl PA MidAtl PA Site Consumption million Btu $0 $500 $1,000 $1,500 $2,000 $2,500 $3,000 US MidAtl PA Expenditures dollars ALL ENERGY average per household (excl. transportation) 0 2,000 4,000 6,000 8,000 10,000 12,000 US MidAtl PA Site Consumption kilowatthours $0 $250 $500 $750 $1,000 $1,250 $1,500 US MidAtl PA Expenditures dollars ELECTRICITY ONLY average per household * Pennsylvania households consume an average of 96 million Btu per year, 8% more than the U.S. average. Pennsylvania residents also spend 16% more than the average U.S. households for energy consumed in their homes. * Average electricity consumption in Pennsylvania homes is 10,402 kWh per year, which is lower than the national average, but 58% more than New York households and 17% more than New Jersey residents.

455

Bird Mortaility at the Altamont Pass Wind Resource Area: March 1998--September 2001  

SciTech Connect (OSTI)

Over the past 15 years, research has shown that wind turbines in the Altamont Pass Wind Resource Area (APWRA) kill many birds, including raptors, which are protected by the Migratory Bird Treaty Act (MBTA), the Bald and Golden Eagle Protection Act, and/or state and federal Endangered Species Acts. Early research in the APWRA on avian mortality mainly attempted to identify the extent of the problem. In 1998, however, the National Renewable Energy Laboratory (NREL) initiated research to address the causal relationships between wind turbines and bird mortality. NREL funded a project by BioResource Consultants to perform this research directed at identifying and addressing the causes of mortality of various bird species from wind turbines in the APWRA.With 580 megawatts (MW) of installed wind turbine generating capacity in the APWRA, wind turbines there provide up to 1 billion kilowatt-hours (kWh) of emissions-free electricity annually. By identifying and implementing new methods and technologies to reduce or resolve bird mortality in the APWRA, power producers may be able to increase wind turbine electricity production at the site and apply similar mortality-reduction methods at other sites around the state and country.

Smallwood, K. S.; Thelander, C. G.

2005-09-01T23:59:59.000Z

456

The avian benefits of wind energy: A 2009 update  

Science Journals Connector (OSTI)

This article summarizes the threats that wind farms pose to birds before surveying the recent literature on avian mortality and summarizing common methodological problems with such studies. Based on operating performance in the United States and Europe, the paper then offers a preliminary calculation of the number of birds killed per kilowatt-hour kWh generated for wind electricity, fossil fuel, and nuclear power systems. The study estimates that wind farms and nuclear power stations are responsible each for between 0.3 and 0.4 fatalities per gigawatt-hour (GWh) of electricity while fossil fueled power stations are responsible for about 5.2 fatalities per GWh. Within the uncertainties of the data used, the estimate means that wind farms killed approximately 20,000 birds in the United States in 2009 but nuclear plants killed about 330,000 and fossil fueled power plants more than 14 million. The paper concludes that further study is needed, but also that fossil fueled power stations appear to pose a much greater threat to birds and avian wildlife than wind farms and nuclear power plants.

Benjamin K. Sovacool

2013-01-01T23:59:59.000Z

457

US MidAtl PA Site Consumption  

U.S. Energy Information Administration (EIA) Indexed Site

MidAtl PA MidAtl PA Site Consumption million Btu $0 $500 $1,000 $1,500 $2,000 $2,500 $3,000 US MidAtl PA Expenditures dollars ALL ENERGY average per household (excl. transportation) 0 2,000 4,000 6,000 8,000 10,000 12,000 US MidAtl PA Site Consumption kilowatthours $0 $250 $500 $750 $1,000 $1,250 $1,500 US MidAtl PA Expenditures dollars ELECTRICITY ONLY average per household * Pennsylvania households consume an average of 96 million Btu per year, 8% more than the U.S. average. Pennsylvania residents also spend 16% more than the average U.S. households for energy consumed in their homes. * Average electricity consumption in Pennsylvania homes is 10,402 kWh per year, which is lower than the national average, but 58% more than New York households and 17% more than New Jersey residents.

458

Data:Aa6700b3-e915-41d8-b445-5dcf818d97d0 | Open Energy Information  

Open Energy Info (EERE)

700b3-e915-41d8-b445-5dcf818d97d0 700b3-e915-41d8-b445-5dcf818d97d0 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Salt River Project Effective date: 2012/11/01 End date if known: Rate name: E-63 STANDARD PRICE PLAN FOR PRIMARY LARGE GENERAL SERVICE Sector: Commercial Description: APPLICABILITY: Service under this price plan is applicable to customers having monthly billing energy in excess of 300,000 kilowatt-hours (kWh) for three consecutive months, supplied through one point of delivery and measured through one meter at the primary level. The primary level is defined as service not requiring transformation below the voltage level at the low side of a distribution substation. Not available to other customers. Limited to customers whose usage can be measured by time of day.

459

Data:D610ff37-b137-480c-8468-027a532c49d7 | Open Energy Information  

Open Energy Info (EERE)

0ff37-b137-480c-8468-027a532c49d7 0ff37-b137-480c-8468-027a532c49d7 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Piedmont Electric Member Corp Effective date: 2012/05/01 End date if known: Rate name: NC GREENPOWER PROGRAM Non-residential(REN-1) Sector: Commercial Description: Availability: This Rider is available on a voluntary basis in conjunction with any of Cooperative's nonresidential service schedules for a Consumer who contracts with the Cooperative for a minimum of 100 blocks of electricity produced from Renewable Resources provided through the statewide NC GreenPower Program. The minimum monthly charge shall be a charge for 100 blocks of electricity. This Rider's Monthly Rate shall be applied to Consumer's billing regardless of Consumer's actual monthly kilowatt-hour consumption.Definitions: 1. Block of Electricity A block of electricity is equal to 100 kWh. 2. Renewable Resources

460

Data:Dadc83e7-f68d-4625-9302-64aec0962068 | Open Energy Information  

Open Energy Info (EERE)

Dadc83e7-f68d-4625-9302-64aec0962068 Dadc83e7-f68d-4625-9302-64aec0962068 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: Wake Electric Membership Corp Effective date: 2012/01/01 End date if known: Rate name: NC GreenPower Large-volume power Sector: Description: * Flat rate buy = ($2.50 per block) / (100 kwh per block) NC GreenPower is an independent, nonprofit organization established to improve North Carolina's environment through voluntary contributions toward renewable energy. A landmark initiative approved by the N.C. Utilities Commission, NC GreenPower is the first statewide green energy program in the nation administered independently by a nonprofit organization and supported by all of the state's utilities. The program is designed to improve the environment by encouraging the development of renewable energy resources through consumers' voluntary contributions to NC GreenPower. For as little as $4 a month, you can help NC GreenPower build up the supply of green energy. Your $4 contribution each month will add one block of 100 kilowatt-hours of green power to the North Carolina power grid.

Note: This page contains sample records for the topic "kwh kilowatthour lbnl" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


461

Data:5428daf7-30a6-45d2-808d-a26e01f670b6 | Open Energy Information  

Open Energy Info (EERE)

daf7-30a6-45d2-808d-a26e01f670b6 daf7-30a6-45d2-808d-a26e01f670b6 No revision has been approved for this page. It is currently under review by our subject matter experts. Jump to: navigation, search Loading... 1. Basic Information 2. Demand 3. Energy << Previous 1 2 3 Next >> Basic Information Utility name: City of Adel, Georgia (Utility Company) Effective date: End date if known: Rate name: Small Power Service- Industrial Sector: Industrial Description: Billing demand for the current month and the preceding 11 months must be less than 50 KW. Average monthly energy consumption shall be greater than or equal to 3,000 kilowatt-hours. IN the event that average monthly energy consumption becomes permanently less than 3,000KWh, the consumer may switch to the appropriate tariff. Subject to Revenue adjustment and Environmental compliance cost recovery (ECCR)

462

The Value of CSP with Thermal Energy Storage in Providing Grid Stability  

Science Journals Connector (OSTI)

Abstract CSP plants both with and without thermal energy storage are unique renewable resources that provide clean electric power and a range of operational capabilities to support continued reliability of electric power systems. Utilizing stored thermal energy storage to operate a conventional synchronous generator, CSP plants with thermal energy storage can support power and provide ancillary services including voltage support, frequency response, regulation and spinning reserves, and ramping serves services that would otherwise be provided, at least in part, by conventional fossil-fuel generation. By being available during peak demand in sunlight hours and providing the capability to shift energy to other hours, the addition of thermal energy storage to CSP plants improves their contribution to resource adequacy, or capacity requirements, especially as solar penetration increases. This makes CSP an ideal complement to support greater adaption of intermittent resources such as wind and PV. To make procurement decisions that include a balance of both solar PV and CSP, utilities need to see reasonable estimates of quantifiable economic benefits. In simulations of the California power system, recent studies by the Lawrence Berkeley National Labs (LBNL) found that the comparative value of CSP with storage increases as the amount of solar on the grid increases. If CSP with six hours of storage and PV with no storage were each providing five percent of the grid's power, CSP power would have an additional value of $19/MWh (1.9/kWh). At grid penetrations of 10 percent each, CSP power would be worth an additional $35/MWh (3.5/kWh). The added value results from a calculation of grid integration costs and market benefits. The author will outline how CSP with storage provides grid stability and its corresponding value to utilities.

J. Forrester

2014-01-01T23:59:59.000Z

463

Office of the Chief Financial Officer Annual Report 2007  

E-Print Network [OSTI]

FNAL LANL LBNL LLNL ORNL PNNL PPPL SLAC SNL a. Ames-OverheadFNAL LANL LBNL LLNL ORNL PNNL PPPL SLAC SNL a. Ames-Overheadprivate business costs. o. PPPL-Distribution base and

Fernandez, Jeffrey

2008-01-01T23:59:59.000Z

464

ERNEST ORLANDO LAWRENCE BERKELEY NATIONAL LABORATORY  

E-Print Network [OSTI]

LBNL-254E ERNEST ORLANDO LAWRENCE BERKELEY NATIONAL LABORATORY ALDEHYDE AND OTHER VOLATILE ORGANIC of California. Ernest Orlando Lawrence Berkeley National Laboratory is an equal opportunity employer. #12;LBNL Environment Department Environmental Energy Technologies Division Lawrence Berkeley National Laboratory

465

Automated Demand Response Technologies and Demonstration in New York City using OpenADR  

E-Print Network [OSTI]

National Laboratory and New York State Energy Research andLaboratory (LBNL) and New York State Energy Research andCenter (DRRC) at LBNL and New York State Energy Research and

Kim, Joyce Jihyun

2014-01-01T23:59:59.000Z

466

BES Science Network Requirements  

E-Print Network [OSTI]

the Directors of the Office of Science, Office of AdvancedOffice of Basic Energy Sciences. This is LBNL report LBNL-BES Science Network Requirements Report of the Basic Energy

Dart, Eli

2011-01-01T23:59:59.000Z

467

_____________________________ Environment, Health, & Safety _________ __________________ Training Program  

E-Print Network [OSTI]

working at the lab must comply with the requirements of Pub 3000, Chapter 8, Electrical Safety at LBNL. · Define roles and responsibilities related to electrical safety at LBNL. · Recognize Stop Work_____________________________ Environment, Health, & Safety _________ __________________ Training

468

A shallow subsurface controlled release facility in Bozeman, Montana, USA, for testing near surface CO2 detection techniques and transport models  

E-Print Network [OSTI]

Energy Technology Lab (NETL), Los Alamos National Lab (Multispectralcamera PNNL NETL LBNLECtower LANLECtowerMultispectralcamera PNNLarray NETL LBNLECtower LANLEC

Benson, S.

2010-01-01T23:59:59.000Z

469

Highly Insulating Residential Windows Using Smart Automated Shading...  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

and in a networked configuration. Project Impact LBNL is aiming toward a mature market cost increment of 12ft2 of window. LBNL will also work with code officials to...

470

Microsoft Word - Science and Technology of Future Light Sources...  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

0839 BNL-81895-2008 LBNL-1090E-2009 SLAC-R-917 Science and Technology of Future Light Sources A White Paper Report prepared by scientists from ANL, BNL, LBNL and SLAC. The...

471

Joseph Metzger  

Broader source: All U.S. Department of Energy (DOE) Office Webpages (Extended Search)

LBNL LBNL-1452 Download File: perfsonar-roads.pdf (pdf: 1.1 MB) Grigoriev M., Boote J., Boyd E., Brown A., Metzger J., DeMar P., Swany M., Tierney B., Zekauskas M., Zurawski J.,...

472

SciDAC Visualization and Analytics Center for Enabling Technology  

E-Print Network [OSTI]

Modeling (S. Jardin, PPPL), (2) Simulation of WaveColella, LBNL and R. Semtaney, PPPL), (4) Full-scale Reactor

2006-01-01T23:59:59.000Z

473

Hawaiian Electric Company Demand Response Roadmap Project  

E-Print Network [OSTI]

widely differing control technologies, notification options,Electric Reliability Technology, LBNL, Joseph Eto E. Availability F. Technology Proposed Residential Large

Levy, Roger

2014-01-01T23:59:59.000Z

474

Smart Grid as a Driver for Energy-Intensive Industries: A Data Center Case Study  

E-Print Network [OSTI]

action in the event of a power grid failure. LBNL discussedthe information from the power grid. National Smart Grid

Ganti, Venkata

2014-01-01T23:59:59.000Z

475

Accelerators and the Accelerator Community  

E-Print Network [OSTI]

of electrostatic accelerators, while Ernest O. Lawrence (CBP 820 LBNL TBA ACCELERATORS ANDTHE ACCELERATOR COMMUNITY 1 ANDREW SESSLER Lawrence Berkeley

Malamud, Ernest

2009-01-01T23:59:59.000Z

476

_____________________________ Environment, Health, & Safety _________ __________________ Training Program  

E-Print Network [OSTI]

-Based Target Audience: This course is for those who conduct welding, cutting, and brazing operations at LBNL

Eisen, Michael

477

California's Energy Future - The View to 2050  

E-Print Network [OSTI]

Energy Biosciences Institute (lead by UC Berkeley and LBNL in partnership with BP and the University of Illinois),

2011-01-01T23:59:59.000Z

478

The New York Times headquarters daylighting mockup: Monitored performance of the daylighting control system  

E-Print Network [OSTI]

with LBNL sensors to monitor outdoor solar conditions,RTD temperature sensor (0.39C) shielded from direct solar

Lee, Eleanor S.; Selkowitz, Stephen E.

2006-01-01T23:59:59.000Z

479

Site Environmental Report for 2010, Volumes 1 & 2  

E-Print Network [OSTI]

Radiation Exposure in the United States, U.S. Environmental Protection Agency LBNL, 2006 Long Range Development Plan (

Baskin, David

2012-01-01T23:59:59.000Z

480

ERNEST ORLANDO LAWRENCE BERKELEY NATIONAL LABORATORY  

E-Print Network [OSTI]

LBNL-56292 LBNL 56292 ERNEST ORLANDO LAWRENCE BERKELEY NATIONAL LABORATORY Efficacy of Intermittent Government or any agency thereof, or The Regents of the University of California. Ernest Orlando Lawrence Berkeley National Laboratory is an equal opportunity employer. LBNL-56292 iii #12;Efficacy of Intermittent

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481

ERNEST ORLANDO LAWRENCE BERKELEY NATIONAL LABORATORY  

E-Print Network [OSTI]

LBNL-58713 LBNL-58713 ERNEST ORLANDO LAWRENCE BERKELEY NATIONAL LABORATORY Report on Applicability Orlando Lawrence Berkeley National Laboratory is an equal opportunity employer. LBNL-58713 ii #12 of the United States Government or any agency thereof, or The Regents of the University of California. Ernest

482

ENVIRONMENTAL ENERGY TECHNOLOGIES DIVISION INDOOR ENVIRONMENT PROGRAM  

E-Print Network [OSTI]

" ­ LBNL 47669 "Laboratory Study of Pressure Losses in Residential Air Distribution Systems" ­ LBNL 49293 Residential HVAC and Distribution Research Implementation CIEE/PG&E Final Report Attachments: "Development-Air Heating and Cooling Systems" -LBNL 47309 "Evaluation of flow hood measurements for residential register

483

1 (Grids_Overview.v.11.VG.fm, 4/14/00)wejohnston@lbl.gov, www.itg.lbl.gov/~wej LBNL and NASA Ames Research Center Computational, Data, and  

E-Print Network [OSTI]

diesel engines, next generation space shuttle, etc. #12;5 (Grids_Overview.v.11.VG.fm, 4/14/00)wejohnston, the DoE Diesel Combustion Collaboratory [5] aims to reduce geographical barriers to information transfer's synchrotron light sources, PNNL's gigahertz NMR machines, etc. Coupling of laboratory instrument experiments

484

Proceedings of the ACEEE '98 Summer Study on Energy Efficiency in Buildings LBNL41940 This work was supported by the U.S. Environmental Protection Agency, Atmospheric Pollution Prevention Division, and  

E-Print Network [OSTI]

This work was supported by the U.S. Environmental Protection Agency, Atmospheric Pollution PreventionProceedings of the ACEEE '98 Summer Study on Energy Efficiency in Buildings LBNL­41940 LC-389 Division, and the Assistant Secretary for Energy Efficiency and Renewable Energy, Office of Building

485

Data:79b8b601-9d3a-423f-bb6c-1afd2e27f810 | Open Energy Information  

Open Energy Info (EERE)

and the net energy charge for the billing period Applicability Demand (kW) Minimum (kW): 26 Maximum (kW): History (months): 1 Energy (kWh) Minimum (kWh): 2501 Maximum (kWh):...

486

Data:05d6c74a-9073-4ad2-8045-cd52082ca0a4 | Open Energy Information  

Open Energy Info (EERE)

http:www.xcelenergy.com Comments Applicability Demand (kW) Minimum (kW): Maximum (kW): History (months): Energy (kWh) Minimum (kWh): Maximum (kWh): History (months): Service...

487

ENERGY & ENVIRONMENT DIVISION. ANNUAL REPORT FY 1980  

E-Print Network [OSTI]

kWh) (kWh) b b Refrigerator and Freezer (kWh) Source: Unionseveral months for refrigerators and freezers to a maximumPart 2, June, 1980. Refrigerator/freezers Freezers Clothes

Authors, Various

2010-01-01T23:59:59.000Z

488

Data:C4c60389-130a-4ffb-bef6-0fd9390d8ce8 | Open Energy Information  

Open Energy Info (EERE)

Applicability Demand (kW) Minimum (kW): Maximum (kW): History (months): Energy (kWh) Minimum (kWh): Maximum (kWh): History (months): Service Voltage Minimum (V):...

489

Data:5ae79a59-909b-4d8e-b6b2-de767fb70902 | Open Energy Information  

Open Energy Info (EERE)

Source Parent: Comments Applicability Demand (kW) Minimum (kW): Maximum (kW): History (months): Energy (kWh) Minimum (kWh): Maximum (kWh): History (months): Service...

490

Data:E90b1d67-8320-4c1e-9538-066872d2d8bf | Open Energy Information  

Open Energy Info (EERE)

Source Parent: Comments Applicability Demand (kW) Minimum (kW): Maximum (kW): History (months): Energy (kWh) Minimum (kWh): Maximum (kWh): History (months): Service...

491

Data:89a183f1-9364-4688-a526-7f3695abc274 | Open Energy Information  

Open Energy Info (EERE)

Source Parent: Comments Applicability Demand (kW) Minimum (kW): Maximum (kW): History (months): Energy (kWh) Minimum (kWh): Maximum (kWh): History (months): Service...

492

Data:F1f7c112-b6f5-41ea-9174-8129be58f96f | Open Energy Information  

Open Energy Info (EERE)

Source Parent: Comments Applicability Demand (kW) Minimum (kW): Maximum (kW): History (months): Energy (kWh) Minimum (kWh): Maximum (kWh): History (months): Service...

493

Data:8edef349-5aad-49ea-8005-247868695cea | Open Energy Information  

Open Energy Info (EERE)

Source Parent: Comments Applicability Demand (kW) Minimum (kW): Maximum (kW): History (months): Energy (kWh) Minimum (kWh): Maximum (kWh): History (months): Service...

494

Data:9aaf2445-9bcb-47ad-ba23-674fdf0cca53 | Open Energy Information  

Open Energy Info (EERE)

Source Parent: Comments Applicability Demand (kW) Minimum (kW): Maximum (kW): History (months): Energy (kWh) Minimum (kWh): Maximum (kWh): History (months): Service...

495

Data:6312d6f0-b4f9-4e0a-b53b-1ce45eb56c46 | Open Energy Information  

Open Energy Info (EERE)

your-home-rates-charges Comments Applicability Demand (kW) Minimum (kW): Maximum (kW): History (months): Energy (kWh) Minimum (kWh): Maximum (kWh): History (months): Service...

496

Data:Cb37b28a-94c2-4591-bc52-b95e50ec7a45 | Open Energy Information  

Open Energy Info (EERE)

Source Parent: Comments Applicability Demand (kW) Minimum (kW): Maximum (kW): History (months): Energy (kWh) Minimum (kWh): Maximum (kWh): History (months): Service...

497

Data:640c04cf-afd0-40a3-a28d-5198194b8b72 | Open Energy Information  

Open Energy Info (EERE)

Source Parent: Comments Applicability Demand (kW) Minimum (kW): Maximum (kW): History (months): Energy (kWh) Minimum (kWh): Maximum (kWh): History (months): Service...

498

Data:52eabb28-cd1d-43dd-80d2-219739044111 | Open Energy Information  

Open Energy Info (EERE)

Source Parent: Comments Applicability Demand (kW) Minimum (kW): Maximum (kW): History (months): Energy (kWh) Minimum (kWh): Maximum (kWh): History (months): Service...

499

Data:7d9701f3-cceb-418d-a3e1-655931024f05 | Open Energy Information  

Open Energy Info (EERE)

Source Parent: Comments Applicability Demand (kW) Minimum (kW): Maximum (kW): History (months): Energy (kWh) Minimum (kWh): Maximum (kWh): History (months): Service...

500

Data:A498cc77-5706-412c-8478-af69daeb86da | Open Energy Information  

Open Energy Info (EERE)

10 Ted Source Parent: Comments Applicability Demand (kW) Minimum (kW): Maximum (kW): History (months): Energy (kWh) Minimum (kWh): Maximum (kWh): History (months): Service...