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Note: This page contains sample records for the topic "local electrical codes" from the National Library of EnergyBeta (NLEBeta).
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they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
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1

Locally Testable Cyclic Codes  

Science Conference Proceedings (OSTI)

Cyclic linear codes of block length n over a finite field \\mathbb{F}_qare the linear subspace of \\mathbb{F}_{_q }^n that are invariant under a cyclic shift of their coordinates. A family of codes is good if all the codes in the family have constant rate ...

Lászl Babai; Amir Shpilka; Daniel Štefankovic

2003-10-01T23:59:59.000Z

2

From irreducible representations to locally decodable codes  

Science Conference Proceedings (OSTI)

A q-query Locally Decodable Code (LDC) is an error-correcting code that allows to read any particular symbol of the message by reading only q symbols of the codeword even if the codeword is adversary corrupted. In this paper we present a new approach ... Keywords: locally decodable codes, representation theory

Klim Efremenko

2012-05-01T23:59:59.000Z

3

Locally Decodable Codes and Private Information Retrieval Schemes  

E-Print Network (OSTI)

This thesis studies two closely related notions, namely Locally Decodable Codes (LDCs) and Private Information Retrieval Schemes (PIRs). Locally decodable codes are error-correcting codes that allow extremely efficient, ...

Yekhanin, Sergey

2007-01-01T23:59:59.000Z

4

PRODCOST: an electric utility generation simulation code  

SciTech Connect

The PRODCOST computer code simulates the operation of an electric utility generation system. Through a probabilistic simulation the expected energy production, fuel consumption, and cost of operation for each plant are determined. Total system fuel consumption, energy generation by type, total generation costs, as well as system loss of load probability and expected unserved energy are also calculated.

Hudson, II, C. R.; Reynolds, T. M.; Smolen, G. R.

1981-02-01T23:59:59.000Z

5

Electric Vehicle and Infrastructure Codes and Standards Citations (Brochure)  

SciTech Connect

This document lists codes and standards typically used for U.S. electric vehicle and infrastructure projects.

Not Available

2010-07-01T23:59:59.000Z

6

" Row: NAICS Codes; Column: Electricity Components;"  

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

1 Electricity: Components of Net Demand, 2002;" 1 Electricity: Components of Net Demand, 2002;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Electricity Components;" " Unit: Million Kilowatthours." " "," ",,,,,," " " "," ",,,"Total ","Sales and","Net Demand","RSE" "NAICS"," ",,"Transfers ","Onsite","Transfers","for","Row" "Code(a)","Subsector and Industry","Purchases"," In(b)","Generation(c)","Offsite","Electricity(d)","Factors" ,,"Total United States"

7

" Row: NAICS Codes; Column: Electricity Components;"  

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

1. Electricity: Components of Net Demand, 1998;" 1. Electricity: Components of Net Demand, 1998;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Electricity Components;" " Unit: Million Kilowatthours." " "," ",,,,,," " " "," ",,,,"Sales and","Net Demand","RSE" "NAICS"," ",,,"Total Onsite","Transfers","for","Row" "Code(a)","Subsector and Industry","Purchases","Transfers In(b)","Generation(c)","Offsite","Electricity(d)","Factors" ,,"Total United States"

8

Local stabilizer codes in three dimensions without string logical operators  

Science Conference Proceedings (OSTI)

We suggest concrete models for self-correcting quantum memory by reporting examples of local stabilizer codes in 3D that have no string logical operators. Previously known local stabilizer codes in 3D all have stringlike logical operators, which make the codes non-self-correcting. We introduce a notion of ''logical string segments'' to avoid difficulties in defining one-dimensional objects in discrete lattices. We prove that every stringlike logical operator of our code can be deformed to a disjoint union of short segments, each of which is in the stabilizer group. The code has surfacelike logical operators whose partial implementation has unsatisfied stabilizers along its boundary.

Haah, Jeongwan [Institute for Quantum Information, California Institute of Technology, Pasadena, California 91125 (United States)

2011-04-15T23:59:59.000Z

9

" Row: NAICS Codes; Column: Electricity Components;"  

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

1.1 Electricity: Components of Net Demand, 2010;" 1.1 Electricity: Components of Net Demand, 2010;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Electricity Components;" " Unit: Million Kilowatthours." " "," " " "," ",,,"Total ","Sales and","Net Demand" "NAICS"," ",,"Transfers ","Onsite","Transfers","for" "Code(a)","Subsector and Industry","Purchases","In(b)","Generation(c)","Offsite","Electricity(d)" ,,"Total United States" 311,"Food",75652,21,5666,347,80993

10

" Row: NAICS Codes; Column: Electricity Components;"  

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

1.1 Electricity: Components of Net Demand, 2006;" 1.1 Electricity: Components of Net Demand, 2006;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Electricity Components;" " Unit: Million Kilowatthours." " "," " " "," ",,,"Total ","Sales and","Net Demand" "NAICS"," ",,"Transfers ","Onsite","Transfers","for" "Code(a)","Subsector and Industry","Purchases","In(b)","Generation(c)","Offsite","Electricity(d)" ,,"Total United States" 311,"Food",73242,309,4563,111,78003

11

Electric Vehicle and Infrastructure Codes and Standards Chart (Revised) (Fact Sheet), NREL (National Renewable Energy Laboratory)  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Dispensing Dispensing Infrastructure NREL is a national laboratory of the U.S. Department of Energy, Office of Energy Efficiency and Renewable Energy, operated by the Alliance for Sustainable Energy, LLC. CONTROLLING AUTHORITIES: State and Federal Energy Regulatory Commissions CONTROLLING AUTHORITIES: Local Building and Fire Departments CONTROLLING AUTHORITIES: DOT/NHTS Many standards development organizations (SDOs) are working to develop codes and standards needed for the utilization of alternative fuel vehicle technologies. This chart shows the SDOs responsible for leading the support and development of key codes and standards for electric. Electric Vehicle and Infrastructure Codes and Standards Chart Institute of Electrical and Electronics Engineers, Inc. FERC Federal Energy

12

The revised National Electrical Code reg sign for new restaurants  

SciTech Connect

A recent change in the 1990 National Electrical Code{reg sign} now makes it possible for restaurant owners and other foodservice operators to save substantial amounts of money on the electrical systems for any new facilities they build. This report discusses the code change in detail, shows how to apply the new code change effectively, and provides detailed information on the code change process. This report is a user's guide which includes a user's manual, containing all technical details necessary for a full understanding of the new provision in Section 220-36 of the 1990 National Electrical Code{reg sign}. The manual can help utility representatives, food-service consultants, and others determine the size of the electric service entrance and the main electrical panel for a new restaurant. It can also be used to determine if additional electrical loads can be added to an existing restaurant's electric service. Only a calculator is needed to work with the manual. In addition, this report details a cost impact study undertaken by EPRI to estimate likely savings resulting from implementing the new code section. In this study, 60% of the cases averaged savings of $9300 per facility. The report also details steps leading to successful adoption of a code change and the supporting documentation presented in the code change process. 40 figs.

Hart, G.K. (Hart, McMurphy and Parks, Inc., Middleburg, VA (United States)); Claar, C.N. (State College, PA (United States))

1991-08-01T23:59:59.000Z

13

Photovoltaic power systems and the National Electrical Code: Suggested practices  

DOE Green Energy (OSTI)

This guide provides information on how the National Electrical Code (NEC) applies to photovoltaic systems. The guide is not intended to supplant or replace the NEC; it paraphrases the NEC where it pertains to photovoltaic systems and should be used with the full text of the NEC. Users of this guide should be thoroughly familiar with the NEC and know the engineering principles and hazards associated with electrical and photovoltaic power systems. The information in this guide is the best available at the time of publication and is believed to be technically accurate; it will be updated frequently. Application of this information and results obtained are the responsibility of the user.

Wiles, J. [New Mexico State Univ., Las Cruces, NM (United States). Southwest Technology Development Inst.

1996-12-01T23:59:59.000Z

14

Electric Vehicle and Infrastructure Codes and Standards Chart (Revised) (Fact Sheet)  

Science Conference Proceedings (OSTI)

This chart shows the SDOs responsible for leading the support and development of key codes and standards for electric.

Not Available

2011-02-01T23:59:59.000Z

15

On the locality of the Pr\\"ufer code  

E-Print Network (OSTI)

The Pr\\"ufer code is a bijection between trees on the vertex set $[n]$ and strings on the set $[n]$ of length $n-2$ (Pr\\"ufer strings of order $n$). In this paper we examine the `locality' properties of the Pr\\"ufer code, i.e. the effect of changing an element of the Pr\\"ufer string on the structure of the corresponding tree. Our measure for the distance between two trees $T,T^*$ is $\\Delta(T,T^*)=n-1-| E(T)\\cap E(T^*)|$. We randomly mutate the $\\mu$th element of the Pr\\"ufer string of the tree $T$, changing it to the tree $T^*$, and we asymptotically estimate the probability that this results in a change of $\\ell$ edges, i.e. $P(\\Delta=\\ell | \\mu).$ We find that P(\\Delta=\\ell | \\mu)$ is on the order of $ n^{-1/3+o(1)}$ for any integer $\\ell>1,$ and that $P(\\Delta=1 | \\mu)=(1-\\mu/n)^2+o(1).$ This result implies that the probability of a `perfect' mutation in the Pr\\"ufer code (one for which $\\Delta(T,T^*)=1$) is $1/3.$

Lennon, Craig

2008-01-01T23:59:59.000Z

16

Electric Field Control of Local Ferromagnetism with a Magnetoelectric...  

NLE Websites -- All DOE Office Websites (Extended Search)

Electric Field Control of Local Ferromagnetism with a Magnetoelectric Multiferroic Print Magnetoelectric multiferroics-materials that simultaneously show some form of magnetic and...

17

An Analysis of Building Energy Code Statewide Adoption Rates by Local  

NLE Websites -- All DOE Office Websites (Extended Search)

An Analysis of Building Energy Code Statewide Adoption Rates by Local An Analysis of Building Energy Code Statewide Adoption Rates by Local Jurisdiction The purpose of this study is to quantify the energy code adoption rate by local jurisdictions from a sample set of 21 states. Some of the states within this sample have statewide energy codes, while others do not. Using construction starts and weighting results by localities that have or have not adopted energy codes, the findings can suggest a means of identifying which states have "effectively" adopted state-wide codes through local adoption and enforcement. Publication Date: Monday, December 31, 2012 BEC_Statewide_Adoption.pdf Document Details Last Name: Cort Initials: KA Affiliation: Pacific Northwest National Laboratory Document Number: PNNL-21963 Prepared by:

18

An Analysis of Statewide Adoption Rates of Building Energy Code by Local Jurisdictions  

Science Conference Proceedings (OSTI)

The purpose of this study is to generally inform the U.S. Department of Energy’s Building Energy Codes Program of the local, effective energy code adoption rate for a sample set of 21 states, some which have adopted statewide codes and some that have not. Information related to the residential energy code adoption process and status at the local jurisdiction was examined for each of the states. Energy code status information was gathered for approximately 2,800 jurisdictions, which effectively covered approximately 80 percent of the new residential building construction in the 21 states included in the study.

Cort, Katherine A.; Butner, Ryan S.

2012-12-31T23:59:59.000Z

19

V-043: Perl Locale::Maketext Module '_compile()' Multiple Code Injection  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

3: Perl Locale::Maketext Module '_compile()' Multiple Code 3: Perl Locale::Maketext Module '_compile()' Multiple Code Injection Vulnerabilities V-043: Perl Locale::Maketext Module '_compile()' Multiple Code Injection Vulnerabilities December 10, 2012 - 1:00am Addthis PROBLEM: Perl Locale::Maketext Module Two Code Injection Vulnerabilities PLATFORM: Locale::Maketext 1.23 is affected; other versions also may be affected. ABSTRACT: Two vulnerabilities have been reported in Locale::Maketext module for Perl REFERENCE LINKS: Secunia Advisory SA51498 Debian Bug report logs - #695224 Bugtraq ID: 56852 IMPACT ASSESSMENT: Medium DISCUSSION: Two vulnerabilities have been reported in Locale::Maketext module for Perl, which can be exploited by malicious users to compromise an application using the module. The vulnerabilities are caused due to the "_compile()" function not

20

V-043: Perl Locale::Maketext Module '_compile()' Multiple Code Injection  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

3: Perl Locale::Maketext Module '_compile()' Multiple Code 3: Perl Locale::Maketext Module '_compile()' Multiple Code Injection Vulnerabilities V-043: Perl Locale::Maketext Module '_compile()' Multiple Code Injection Vulnerabilities December 10, 2012 - 1:00am Addthis PROBLEM: Perl Locale::Maketext Module Two Code Injection Vulnerabilities PLATFORM: Locale::Maketext 1.23 is affected; other versions also may be affected. ABSTRACT: Two vulnerabilities have been reported in Locale::Maketext module for Perl REFERENCE LINKS: Secunia Advisory SA51498 Debian Bug report logs - #695224 Bugtraq ID: 56852 IMPACT ASSESSMENT: Medium DISCUSSION: Two vulnerabilities have been reported in Locale::Maketext module for Perl, which can be exploited by malicious users to compromise an application using the module. The vulnerabilities are caused due to the "_compile()" function not

Note: This page contains sample records for the topic "local electrical codes" 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

Electric Field Control of Local Ferromagnetism with a Magnetoelectric  

NLE Websites -- All DOE Office Websites (Extended Search)

Electric Field Control of Local Ferromagnetism with a Magnetoelectric Multiferroic Print Electric Field Control of Local Ferromagnetism with a Magnetoelectric Multiferroic Print Magnetoelectric multiferroics-materials that simultaneously show some form of magnetic and ferroelectric order-have excited condensed-matter researchers worldwide with the promise of coupling between magnetic and electric order parameters. A Berkeley-Stanford-Swiss group has now used the multiferroic bismuth-iron-oxygen compound BiFeO3 (BFO) to explore electrical control of magnetism through exchange coupling with a ferromagnet. Their experiments reveal the possibility of controlling ferromagnetism with an electric field at room temperature, a capability that could result in new and novel devices for magnetic data storage, spintronics, and high-frequency magnetic devices.

22

Electric Field Control of Local Ferromagnetism with a Magnetoelectric  

NLE Websites -- All DOE Office Websites (Extended Search)

Electric Field Control of Local Ferromagnetism with a Magnetoelectric Multiferroic Print Electric Field Control of Local Ferromagnetism with a Magnetoelectric Multiferroic Print Magnetoelectric multiferroics-materials that simultaneously show some form of magnetic and ferroelectric order-have excited condensed-matter researchers worldwide with the promise of coupling between magnetic and electric order parameters. A Berkeley-Stanford-Swiss group has now used the multiferroic bismuth-iron-oxygen compound BiFeO3 (BFO) to explore electrical control of magnetism through exchange coupling with a ferromagnet. Their experiments reveal the possibility of controlling ferromagnetism with an electric field at room temperature, a capability that could result in new and novel devices for magnetic data storage, spintronics, and high-frequency magnetic devices.

23

Electric Field Control of Local Ferromagnetism with a Magnetoelectric  

NLE Websites -- All DOE Office Websites (Extended Search)

Electric Field Control of Local Ferromagnetism with a Magnetoelectric Multiferroic Print Electric Field Control of Local Ferromagnetism with a Magnetoelectric Multiferroic Print Magnetoelectric multiferroics-materials that simultaneously show some form of magnetic and ferroelectric order-have excited condensed-matter researchers worldwide with the promise of coupling between magnetic and electric order parameters. A Berkeley-Stanford-Swiss group has now used the multiferroic bismuth-iron-oxygen compound BiFeO3 (BFO) to explore electrical control of magnetism through exchange coupling with a ferromagnet. Their experiments reveal the possibility of controlling ferromagnetism with an electric field at room temperature, a capability that could result in new and novel devices for magnetic data storage, spintronics, and high-frequency magnetic devices.

24

Electric Field Control of Local Ferromagnetism with a Magnetoelectric  

NLE Websites -- All DOE Office Websites (Extended Search)

Electric Field Control of Local Ferromagnetism with a Magnetoelectric Multiferroic Print Electric Field Control of Local Ferromagnetism with a Magnetoelectric Multiferroic Print Magnetoelectric multiferroics-materials that simultaneously show some form of magnetic and ferroelectric order-have excited condensed-matter researchers worldwide with the promise of coupling between magnetic and electric order parameters. A Berkeley-Stanford-Swiss group has now used the multiferroic bismuth-iron-oxygen compound BiFeO3 (BFO) to explore electrical control of magnetism through exchange coupling with a ferromagnet. Their experiments reveal the possibility of controlling ferromagnetism with an electric field at room temperature, a capability that could result in new and novel devices for magnetic data storage, spintronics, and high-frequency magnetic devices.

25

Electric Vehicle and Infrastructure Codes and Standards Citations (Brochure), NREL (National Renewable Energy Laboratory)  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

NREL is a national laboratory of the U.S. Department of Energy, Office of Energy Efficiency and Renewable Energy, operated by the Alliance for Sustainable Energy, LLC. NREL is a national laboratory of the U.S. Department of Energy, Office of Energy Efficiency and Renewable Energy, operated by the Alliance for Sustainable Energy, LLC. Electric Vehicle and Infrastructure Codes and Standards Citations This document lists codes and standards typically used for U.S. electric vehicle and infrastructure projects. To determine which codes and standards apply to a specific project, identify the codes and standards currently in effect within the jurisdiction where the project will be located. Some jurisdictions also have unique ordinances or regulations that could apply. Learn about codes and standards basics at www.afdc.energy.gov/afdc/codes_standards_basics.html. Find electric vehicle and infrastructure codes and standards in these categories:

26

Title 20, California Code of Regulations Article 5. Electricity Generation Source Disclosure  

E-Print Network (OSTI)

Commission. (e) "Facility" means one or all generating units at an electric generating station. (f) "Fuel (b)(3)(C) of section 1392. (g) "Generating facility output" means the electrical energy and/or fuel1 Title 20, California Code of Regulations Article 5. Electricity Generation Source Disclosure

27

" Row: NAICS Codes;" " ...  

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

Only","Other than","and","Any","from Only","Other than","and" "Code(a)","Subsector and Industry","Electricity(b)","Local Utility(c)","Local Utility(d)","Other Sources","Natural...

28

" Row: NAICS Codes;" " ...  

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

than","and","Any","from Only","Other than","and","Row" "Code(a)","Subsector and Industry","Electricity(b)","Local Utility(c)","Local Utility(d)","Other Sources","Natural...

29

"Code(a)","End Use","Total","Electricity(b)","Fuel Oil","Diesel...  

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

,,"Net","Residual","and",,"LPG and","(excluding Coal" "Code(a)","End Use","Total","Electricity(b)","Fuel Oil","Diesel Fuel(c)","Natural Gas(d)","NGL(e)","Coke and Breeze)","Other(f...

30

"Code(a)","End Use","for Electricity(b)","Fuel Oil","Diesel Fuel...  

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

","Net Demand","Residual","and",,"LPG and","(excluding Coal" "Code(a)","End Use","for Electricity(b)","Fuel Oil","Diesel Fuel(c)","Natural Gas(d)","NGL(e)","Coke and Breeze...

31

Electric Utility Company Assigned to a Zip Code? | OpenEI Community  

Open Energy Info (EERE)

Electric Utility Company Assigned to a Zip Code? Electric Utility Company Assigned to a Zip Code? Home I have found an error in the utility company assigned to a zip code. I am not sure if the "assigned" utility company covers part of the zip code in question or not. How do I report an error like this for correction? Thanks. Submitted by Conroyt on 23 May, 2013 - 09:01 1 answer Points: 0 Thanks for submitting this. The Utilities Gateway (http://en.openei.org/wiki/Gateway:Utilities) uses the developer.nrel.gov service for zip-code lookups (http://developer.nrel.gov/doc/api/utility_rates/v3). This in turn uses Google for geocoding, and finds the centroid of the geographic region in question. This means that the result is based on the center of a zip code region, which may have no data. This question is timed well as we are

32

V-015: Apple iOS Bugs Let Remote Users Execute Arbitrary Code, Local Users  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

5: Apple iOS Bugs Let Remote Users Execute Arbitrary Code, 5: Apple iOS Bugs Let Remote Users Execute Arbitrary Code, Local Users Bypass the Screen Lock, and Applications Obtain Kernel Address Information V-015: Apple iOS Bugs Let Remote Users Execute Arbitrary Code, Local Users Bypass the Screen Lock, and Applications Obtain Kernel Address Information November 2, 2012 - 6:00am Addthis PROBLEM: Apple iOS Bugs Let Remote Users Execute Arbitrary Code, Local Users Bypass the Screen Lock, and Applications Obtain Kernel Address Information PLATFORM: Apple iOS prior to 6.0.1 ABSTRACT: Three vulnerabilities were reported in Apple iOS. REFERENCE LINKS: Apple Article: HT5567 SecurityTracker Alert ID: 1027716 Bugtraq ID: 56363 CVE-2012-3748 CVE-2012-3749 CVE-2012-3750 IMPACT ASSESSMENT: High DISCUSSION: A remote user can create specially crafted HTML that, when loaded by the

33

Electric utility value determination for wind energy. Volume II. A user's guide. [WTP code; WEIBUL code; ROSEN code; ULMOD code; FINAM code  

DOE Green Energy (OSTI)

This report describes a method for determining the value of wind energy systems to electric utilities. It is performed by a package of computer models available from SERI that can be used with most utility planning models. The final output of these models gives a financial value ($/kW) of the wind energy system under consideration in the specific utility system. This volume, the second of two volumes, is a user's guide for the computer programs available from SERI. The first volume describes the value determination methodology and gives detailed discussion on each step of the computer modeling.

Percival, D.; Harper, J.

1981-02-01T23:59:59.000Z

34

U-264: Apple OS X Lets Remote Users Execute Arbitrary Code and Local Users  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

4: Apple OS X Lets Remote Users Execute Arbitrary Code and 4: Apple OS X Lets Remote Users Execute Arbitrary Code and Local Users Gain Elevated Privileges U-264: Apple OS X Lets Remote Users Execute Arbitrary Code and Local Users Gain Elevated Privileges September 20, 2012 - 6:00am Addthis U-264: Apple OS X Lets Remote Users Execute Arbitrary Code and Local Users Gain Elevated Privileges September 20, 2012 - 6:00am PROBLEM: Apple OS X Lets Remote Users Execute Arbitrary Code and Local Users Gain Elevated Privileges PLATFORM: Apple OS X ABSTRACT: Several vulnerabilities were reported in Apple OS X. reference LINKS: Apple Security Article: HT5501 SecurityTracker Alert ID: 1027551 CVE-2012-0650 CVE-2012-3716 CVE-2012-3718 CVE-2012-3719 CVE-2012-3720 CVE-2012-3721 CVE-2012-3722 CVE-2012-3723 IMPACT ASSESSMENT: Medium Discussion: If the DirectoryService Proxy is used, a remote user can trigger a buffer

35

U-264: Apple OS X Lets Remote Users Execute Arbitrary Code and Local Users  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

4: Apple OS X Lets Remote Users Execute Arbitrary Code and 4: Apple OS X Lets Remote Users Execute Arbitrary Code and Local Users Gain Elevated Privileges U-264: Apple OS X Lets Remote Users Execute Arbitrary Code and Local Users Gain Elevated Privileges September 20, 2012 - 6:00am Addthis U-264: Apple OS X Lets Remote Users Execute Arbitrary Code and Local Users Gain Elevated Privileges September 20, 2012 - 6:00am PROBLEM: Apple OS X Lets Remote Users Execute Arbitrary Code and Local Users Gain Elevated Privileges PLATFORM: Apple OS X ABSTRACT: Several vulnerabilities were reported in Apple OS X. reference LINKS: Apple Security Article: HT5501 SecurityTracker Alert ID: 1027551 CVE-2012-0650 CVE-2012-3716 CVE-2012-3718 CVE-2012-3719 CVE-2012-3720 CVE-2012-3721 CVE-2012-3722 CVE-2012-3723 IMPACT ASSESSMENT: Medium Discussion: If the DirectoryService Proxy is used, a remote user can trigger a buffer

36

Austin's Adoption of ASHRAE S.P. #41 into the Local Energy Code  

E-Print Network (OSTI)

The City of Austin amended the local Energy Code in December 1984 to incorporate the principal recommendations of ASHRAE Standard Project #41. Revisions to the Code were recommended by a special Task Force appointed by the City Council; Task Force members represented major elements of the construction industry and local community. The Code revisions were reviewed and supported by numerous local City boards and commissions after nearly a year's work by the Task Force. Principal changes effecting commercial construction involved deleting OTTV criteria and adding three new criteria: 1. Wall heating criteria 2. Wall cooling criteria 3. Peak cooling criteria The new envelope criteria makes adjustments for building geometry, orientation, shading, insulation, lighting power and controls. A performance index encourages good design by increased awareness of what factors make a difference, The new lighting code methodology is based upon specified watts per square foot for different tasks and gives credit for ceiling height and room size. Cooling equipment efficiencies were increased by 5 to 15%. Pipe and tank insulation Levels were raised and a variety of minor control modifications were added. This paper discusses the code changes related to commercial building envelopes and lighting s-system.

Hart, M. N.; Holder, L.M.

1985-01-01T23:59:59.000Z

37

Statewide Emissions Reduction, Electricity and Demand Savings from the Implementation of Building-Energy-Codes in Texas  

E-Print Network (OSTI)

This paper focuses on the estimate of electricity reduction and electric demand savings from the adoption energy codes for single-family residences in Texas, 2002-2009, corresponding increase in cnstruction costs and estimates of the statewide emissions reduction.

Yazdani, B.; Haberl, J.; Kim, H.; Baltazar, J.C.; Zilbershtein, G.

2012-01-01T23:59:59.000Z

38

Alternative Fuels Data Center: Local Government Plug-in Electric Vehicle  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Local Government Local Government Plug-in Electric Vehicle (PEV) Infrastructure Requirements to someone by E-mail Share Alternative Fuels Data Center: Local Government Plug-in Electric Vehicle (PEV) Infrastructure Requirements on Facebook Tweet about Alternative Fuels Data Center: Local Government Plug-in Electric Vehicle (PEV) Infrastructure Requirements on Twitter Bookmark Alternative Fuels Data Center: Local Government Plug-in Electric Vehicle (PEV) Infrastructure Requirements on Google Bookmark Alternative Fuels Data Center: Local Government Plug-in Electric Vehicle (PEV) Infrastructure Requirements on Delicious Rank Alternative Fuels Data Center: Local Government Plug-in Electric Vehicle (PEV) Infrastructure Requirements on Digg Find More places to share Alternative Fuels Data Center: Local

39

Photovoltaic industry proposed changes for the 1999 national electrical code for PV applications  

SciTech Connect

An industry supported task group has recently completed writing proposals for changes in bring Article 690 of the 1999 National Electrical Code (NEC{reg_sign}) up to the state-of-the-art in photovoltaic device and system technology. This paper summarizes proposed code changes, discusses background on both new and changed, and presents examples for the proposed changes. Topics such as the proposed new temperature compensation table for calculating maximum system voltage are analyzed. Procedures for calculating conductor sizes with the proposed changes are presented. Impacts on photovoltaic installations, building integrated systems, and AC module installations are also analyzed.

Bower, W. [Sandia National Labs., Albuquerque, NM (United States); Wiles, J.C. [New Mexico State Univ., Las Cruces, NM (United States). Southwest Technology Development Institute

1997-06-01T23:59:59.000Z

40

Adoption Process | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Adoption Process Energy codes are adopted at the state and local jurisdiction levels and, in most cases, are part of a broader set of codes addressing building, fire, electrical...

Note: This page contains sample records for the topic "local electrical codes" 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

Level: National Data; Row: End Uses within NAICS Codes; Column: Energy Sources, including Net Electricity;  

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

2 End Uses of Fuel Consumption, 2006; 2 End Uses of Fuel Consumption, 2006; Level: National Data; Row: End Uses within NAICS Codes; Column: Energy Sources, including Net Electricity; Unit: Trillion Btu. Distillate Fuel Oil Coal NAICS Net Residual and LPG and (excluding Coal Code(a) End Use Total Electricity(b) Fuel Oil Diesel Fuel(c) Natural Gas(d) NGL(e) Coke and Breeze) Other(f) Total United States 311 - 339 ALL MANUFACTURING INDUSTRIES TOTAL FUEL CONSUMPTION 15,658 2,850 251 129 5,512 79 1,016 5,820 Indirect Uses-Boiler Fuel -- 41 133 23 2,119 8 547 -- Conventional Boiler Use -- 41 71 17 1,281 8 129 -- CHP and/or Cogeneration Process -- -- 62 6 838 1 417 -- Direct Uses-Total Process -- 2,244 62 52 2,788 39 412 -- Process Heating -- 346 59 19 2,487

42

Level: National Data; Row: End Uses within NAICS Codes; Column: Energy Sources, including Net Electricity;  

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

1 End Uses of Fuel Consumption, 2006; 1 End Uses of Fuel Consumption, 2006; Level: National Data; Row: End Uses within NAICS Codes; Column: Energy Sources, including Net Electricity; Unit: Physical Units or Btu. Distillate Coal Fuel Oil (excluding Coal Net Residual and Natural Gas(d) LPG and Coke and Breeze) NAICS Total Electricity(b) Fuel Oil Diesel Fuel(c) (billion NGL(e) (million Other(f) Code(a) End Use (trillion Btu) (million kWh) (million bbl) (million bbl) cu ft) (million bbl) short tons) (trillion Btu) Total United States 311 - 339 ALL MANUFACTURING INDUSTRIES TOTAL FUEL CONSUMPTION 15,658 835,382 40 22 5,357 21 46 5,820 Indirect Uses-Boiler Fuel -- 12,109 21 4 2,059 2 25 -- Conventional Boiler Use -- 12,109 11 3 1,245 2 6 -- CHP and/or Cogeneration Process

43

Smart buildings with electric vehicle interconnection as buffer for local renewables?  

E-Print Network (OSTI)

Smart buildings with electric vehicle interconnection as buffer for local renewables? Michael, trademark, manufacturer, or otherwise, does not necessarily constitute or imply its endorsement and partly by NEC Laboratories America Inc. Smart buildings with electric vehicle interconnection as buffer

44

Level: National and Regional Data; Row: NAICS Codes; Column: Electricity Components;  

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

1.1 Electricity: Components of Net Demand, 2006; 1.1 Electricity: Components of Net Demand, 2006; Level: National and Regional Data; Row: NAICS Codes; Column: Electricity Components; Unit: Million Kilowatthours. Total Sales and Net Demand NAICS Transfers Onsite Transfers for Code(a) Subsector and Industry Purchases In(b) Generation(c) Offsite Electricity(d) Total United States 311 Food 73,242 309 4,563 111 78,003 3112 Grain and Oilseed Milling 15,283 253 2,845 72 18,310 311221 Wet Corn Milling 6,753 48 2,396 55 9,142 31131 Sugar Manufacturing 920 54 951 7 1,919 3114 Fruit and Vegetable Preserving and Specialty Foo 9,720 1 268 13 9,976 3115 Dairy Products 10,079 0 44 0 10,123 3116 Animal Slaughtering and Processing 17,545 0 17 0 17,562 312 Beverage and Tobacco Products

45

Monthly Diurnal Global Atmospheric Circuit Estimates Derived from Vostok Electric Field Measurements Adjusted for Local Meteorological and Solar Wind Influences  

Science Conference Proceedings (OSTI)

Local temperature, wind speed, pressure, and solar wind–imposed influences on the vertical electric field observed at Vostok, Antarctica, are evaluated by multivariate analysis. Local meteorology can influence electric field measurements via local ...

G. B. Burns; B. A. Tinsley; A. V. Frank-Kamenetsky; O. A. Troshichev; W. J. R. French; A. R. Klekociuk

2012-06-01T23:59:59.000Z

46

Statewide Electricity and Demand Capacity Savings from the Implementation of IECC Code in Texas: Analysis for Single-Family Residences  

E-Print Network (OSTI)

This paper presents estimates of the statewide electricity and electric demand savings achieved from the adoption of the International Energy Conservation Code (IECC) for single-family residences in Texas and includes the corresponding increase in construction costs over the eight-year period from 2002 through 2009. Using the Energy Systems Laboratory's International Code Compliance Calculator (IC3) simulation tool, the annual statewide electricity savings in 2009 are estimated to be $161 million. The statewide peak electric demand reductions in 2009 are estimated to be 694 MW for the summer and 766 MW for the winter periods. Since 2002, the cumulative statewide electricity and electric demand savings over the eight year period from 2002 to 2009 are $1,803 million ($776 million from electricity savings and $1,027 million from electric demand savings) while the total increased costs are estimated to be $670 million.

Kim, H.; Baltazar, J.C.; Haberl, J.

2011-01-01T23:59:59.000Z

47

What Changed in Article 690-Solar Photovoltaic Systems- of the 1999 National Electrical Code?  

DOE Green Energy (OSTI)

Article 690, Solar Photovoltaic Power Systems, has been in the National Electrical Code (NEC) since 1984. An NFPA-appointed Task Group for Article 690 proposed changes to Article 690 for both the 1996 and 1999 codes. The Task Group, supported by more than 50 professionals from throughout the photovoltaic (PV) industry, met seven times during the 1999 code cycle to integrate the needs of the industry with the needs of electrical inspectors and end users to ensure the safety of PV systems. The Task Group proposed 57 changes to Article 690, and all the changes were accepted in the review process. The performance and cost of PV installations were always a consideration as these changes were formed but safety was the number-one priority. All of the proposals were well substantiated and coordinated throughout the PV industry and with representatives of Underwriters Laboratories, Inc (UL). The most significant changes that were made in Article 690 for the 1999 NEC along with some of the rationale are discussed in the remainder of this article.

Bower, W.; Wiles, J.

1999-01-12T23:59:59.000Z

48

" Row: NAICS Codes;" " Column: Supplier Sources of Purchased Electricity, Natural Gas, and Steam;"  

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

8 Number of Establishments by Quantity of Purchased Electricity, Natural Gas, and Steam, 2002;" 8 Number of Establishments by Quantity of Purchased Electricity, Natural Gas, and Steam, 2002;" " Level: National Data; " " Row: NAICS Codes;" " Column: Supplier Sources of Purchased Electricity, Natural Gas, and Steam;" " Unit: Establishment Counts." ,,,"Electricity","Components",,,"Natural","Gas","Components",,"Steam","Components" ,,,,"Electricity","Electricity",,,"Natural Gas","Natural Gas",,,"Steam","Steam" " "," ",,,"from Only","from Both",,,"from Only","from Both",,,"from Only","from Both"," ",," "

49

Electric Field Sensor Array for Node Localization on Two-Dimensional Signal Transmission Sheet  

E-Print Network (OSTI)

Electric Field Sensor Array for Node Localization on Two-Dimensional Signal Transmission Sheet Kei). In the method, the sensor node determines its own position by reading the electric field patterns above scanning. In this paper, firstly we introduce the method. Then we describe the structure of an electric

Shinoda, Hiroyuki

50

Localized electrical fine tuning of passive microwave and radio frequency devices  

DOE Patents (OSTI)

A method and apparatus for the localized electrical fine tuning of passive multiple element microwave or RF devices in which a nonlinear dielectric material is deposited onto predetermined areas of a substrate containing the device. An appropriate electrically conductive material is deposited over predetermined areas of the nonlinear dielectric and the signal line of the device for providing electrical contact with the nonlinear dielectric. Individual, adjustable bias voltages are applied to the electrically conductive material allowing localized electrical fine tuning of the devices. The method of the present invention can be applied to manufactured devices, or can be incorporated into the design of the devices so that it is applied at the time the devices are manufactured. The invention can be configured to provide localized fine tuning for devices including but not limited to coplanar waveguides, slotline devices, stripline devices, and microstrip devices.

Findikoglu, Alp T. (Los Alamos, NM)

2001-04-10T23:59:59.000Z

51

Localization of electric field distribution in graded core-shell metamaterials  

E-Print Network (OSTI)

The local electric field distribution has been investigated in a core-shell cylindrical metamaterial structure under the illumination of a uniform incident optical field. The structure consists of a homogeneous dielectric core, a shell of graded metal-dielectric metamaterial, embedded in a uniform matrix. In the quasi-static limit, the permittivity of the metamaterial is given by the graded Drude model. The local electric potentials and hence the electric fields have been derived exactly and analytically in terms of hyper-geometric functions. Our results showed that the peak of the electric field inside the cylindrical shell can be confined in a desired position by varying the frequency of the optical field and the parameters of the graded profiles. Thus, by fabricating graded metamaterials, it is possible to control electric field distribution spatially. We offer an intuitive explanation for the gradation-controlled electric field distribution.

Wei, En-Bo; 10.1103/PhysRevE.80.046607

2009-01-01T23:59:59.000Z

52

Kinetic model of electric potentials in localized collisionless plasma structures under steady quasi-gyrotropic conditions  

SciTech Connect

Localized plasma structures, such as thin current sheets, generally are associated with localized magnetic and electric fields. In space plasmas localized electric fields not only play an important role for particle dynamics and acceleration but may also have significant consequences on larger scales, e.g., through magnetic reconnection. Also, it has been suggested that localized electric fields generated in the magnetosphere are directly connected with quasi-steady auroral arcs. In this context, we present a two-dimensional model based on Vlasov theory that provides the electric potential for a large class of given magnetic field profiles. The model uses an expansion for small deviation from gyrotropy and besides quasineutrality it assumes that electrons and ions have the same number of particles with their generalized gyrocenter on any given magnetic field line. Specializing to one dimension, a detailed discussion concentrates on the electric potential shapes (such as 'U' or 'S' shapes) associated with magnetic dips, bumps, and steps. Then, it is investigated how the model responds to quasi-steady evolution of the plasma. Finally, the model proves useful in the interpretation of the electric potentials taken from two existing particle simulations.

Schindler, K. [Ruhr University Bochum, 44780 Bochum (Germany); Birn, J. [Space Science Institute, Boulder, Colorado 80301 (United States); Hesse, M. [Nasa Goddard Space Flight Center, Greenbelt, Maryland 20771 (United States)

2012-08-15T23:59:59.000Z

53

Harmonizing Above Code Codes  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Harmonizing "Above Code" Harmonizing "Above Code" Codes Doug Lewin Executive Director, SPEER 6 Regional Energy Efficiency Organizations SPEER Members Texas grid facing an energy crisis * No new generation coming online * Old, inefficient coal-fired plants going offline * ERCOT CEO Trip Doggett said "We are very concerned about the significant drop in the reserve margin...we will be very tight on capacity next summer and have a repeat of this year's emergency procedures and conservation appeals." Higher codes needed to relieve pressure Building Codes are forcing change * 2012 IECC 30% higher than 2006 IECC * IRC, the "weaker code," will mirror IECC in 2012 * City governments advancing local codes with

54

Level: National Data; Row: End Uses within NAICS Codes; Column: Energy Sources, including Net Demand for Electricity;  

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

4 End Uses of Fuel Consumption, 2006; 4 End Uses of Fuel Consumption, 2006; Level: National Data; Row: End Uses within NAICS Codes; Column: Energy Sources, including Net Demand for Electricity; Unit: Trillion Btu. Distillate Fuel Oil Coal NAICS Net Demand Residual and LPG and (excluding Coal Code(a) End Use for Electricity(b) Fuel Oil Diesel Fuel(c) Natural Gas(d) NGL(e) Coke and Breeze) Total United States 311 - 339 ALL MANUFACTURING INDUSTRIES TOTAL FUEL CONSUMPTION 3,335 251 129 5,512 79 1,016 Indirect Uses-Boiler Fuel 84 133 23 2,119 8 547 Conventional Boiler Use 84 71 17 1,281 8 129 CHP and/or Cogeneration Process 0 62 6 838 1 417 Direct Uses-Total Process 2,639 62 52 2,788 39 412 Process Heating 379 59 19 2,487 32 345 Process Cooling and Refrigeration

55

Level: National Data; Row: End Uses within NAICS Codes; Column: Energy Sources, including Net Demand for Electricity;  

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

Next MECS will be conducted in 2010 Next MECS will be conducted in 2010 Table 5.3 End Uses of Fuel Consumption, 2006; Level: National Data; Row: End Uses within NAICS Codes; Column: Energy Sources, including Net Demand for Electricity; Unit: Physical Units or Btu. Distillate Coal Fuel Oil (excluding Coal Net Demand Residual and Natural Gas(d) LPG and Coke and Breeze) NAICS for Electricity(b) Fuel Oil Diesel Fuel(c) (billion NGL(e) (million Code(a) End Use (million kWh) (million bbl) (million bbl) cu ft) (million bbl) short tons) Total United States 311 - 339 ALL MANUFACTURING INDUSTRIES TOTAL FUEL CONSUMPTION 977,338 40 22 5,357 21 46 Indirect Uses-Boiler Fuel 24,584 21 4 2,059 2 25 Conventional Boiler Use 24,584 11 3

56

106 Home Power #94 April / May 2003 his Code Corner presents the  

E-Print Network (OSTI)

, powered by the sun and a little propane. The PV system will provide electricity for her 1,800 square foot on the requirements of the National Electrical Code (NEC). Local electrical codes may impose other requirements have cost significantly more due to the rocky terrain. Southern New Mexico has an annual daily average

Johnson, Eric E.

57

Puget Sound Area Electric Reliability Plan. Appendix B : Local Generation Evaluation : Draft Environmental Impact Statement.  

SciTech Connect

The information and data contained in this Appendix was extracted from numerous sources. The principle sources used for technical data were Bonneville Power Administration's 1990 Resource Program along with its technical appendix, and Chapter 8 of the Draft 1991 Northwest Conservation and Electric Power Plan. All cost data is reported 1988 dollars unless otherwise noted. This information was supplemented by other data developed by Puget Sound utilities who participated on the Local Generation Team. Identifying generating resources available to the Puget Sound area involved a five step process: (1) listing all possible resources that might contribute power to the Puget Sound area, (2) characterizing the technology/resource status, cost and operating characteristics of these resources, (3) identifying exclusion criteria based on the needs of the overall Puget Sound Electric Reliability Plan study, (4) applying these criteria to the list of resources, and (5) summarizing of the costs and characteristics of the final list of resources. 15 refs., 20 tabs.

United States. Bonneville Power Administration.

1991-09-01T23:59:59.000Z

58

Puget Sound Area Electric Reliability Plan. Appendix B : Local Generation Evaluation : Draft Environmental Impact Statement.  

DOE Green Energy (OSTI)

The information and data contained in this Appendix was extracted from numerous sources. The principle sources used for technical data were Bonneville Power Administration's 1990 Resource Program along with its technical appendix, and Chapter 8 of the Draft 1991 Northwest Conservation and Electric Power Plan. All cost data is reported 1988 dollars unless otherwise noted. This information was supplemented by other data developed by Puget Sound utilities who participated on the Local Generation Team. Identifying generating resources available to the Puget Sound area involved a five step process: (1) listing all possible resources that might contribute power to the Puget Sound area, (2) characterizing the technology/resource status, cost and operating characteristics of these resources, (3) identifying exclusion criteria based on the needs of the overall Puget Sound Electric Reliability Plan study, (4) applying these criteria to the list of resources, and (5) summarizing of the costs and characteristics of the final list of resources. 15 refs., 20 tabs.

United States. Bonneville Power Administration.

1991-09-01T23:59:59.000Z

59

A model library of solar thermal electric components for the computer code TRNSYS  

Science Conference Proceedings (OSTI)

A new approach to modeling solar thermal electric plants using the TRNSYS simulation environment is discussed. The TRNSYS environment offers many advantages over currently used tools, including the option to more easily study the hybrid solar/fossil plant configurations that have been proposed to facilitate market penetration of solar thermal technologies. A component library developed for Rankine cycle, Brayton cycle, and solar system modeling is presented. A comparison between KPRO and TRNSYS results for a simple Rankine cycle show excellent correlation.

Pitz-Paal, R. [Deutsches Zentrum fuer Luft- und Raumfahrt e.V., Koeln (Germany). Solare Energietechnik; Jones, S. [Sandia National Labs., Albuquerque, NM (United States)

1998-07-01T23:59:59.000Z

60

Charged lepton electric dipole moments with the localized leptons and the new Higgs doublet in the two Higgs doublet model  

E-Print Network (OSTI)

We study the lepton electric dipole moments in the split fermion scenario, in the two Higgs doublet model, where the new Higgs scalars are localized around the origin in the extra dimension, with the help of the localizer field. We observe that the numerical value of the electron (muon, tau) electric dipole moment is at the order of the magnitude of 10^{-31} (10^{-24}, 10^{-22}) (e-cm) and this quantity is sensitive the new Higgs localization in the extra dimension.

Erhan Onur Iltan

2005-11-20T23:59:59.000Z

Note: This page contains sample records for the topic "local electrical codes" 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

Electric transportation and the impact on local electricity management: a case study of electric public and private transport in Christchurch, New Zealand.  

E-Print Network (OSTI)

??Electric transport such as a light rail transit (LRT) system and private electric vehicles (EV) are power intensive systems and are likely to add significant… (more)

Grenier, Agathe

62

Codes, standards, and PV power systems. A 1996 status report  

SciTech Connect

As photovoltaic (PV) electrical power systems gain increasing acceptance for both off-grid and utility-interactive applications, the safety, durability, and performance of these systems gains in importance. Local and state jurisdictions in many areas of the country require that all electrical power systems be installed in compliance with the requirements of the National Electrical Code{reg_sign} (NEC{reg_sign}). Utilities and governmental agencies are now requiring that PV installations and components also meet a number of Institute of Electrical and Electronic Engineers (IEEE) standards. PV installers are working more closely with licensed electricians and electrical contractors who are familiar with existing local codes and installation practices. PV manufacturers, utilities, balance of systems manufacturers, and standards representatives have come together to address safety and code related issues for future PV installations. This paper addresses why compliance with the accepted codes and standards is needed and how it is being achieved.

Wiles, J

1996-06-01T23:59:59.000Z

63

A strategy for the management of energy losses in a local electricity distribution network.  

E-Print Network (OSTI)

??This dissertation contains a strategy to minimize the non-technical electrical energy losses in an electrical distribution network. In order to develop the strategy, a model… (more)

Fourie, Johannes Wilhelmus

2006-01-01T23:59:59.000Z

64

Comparison of the PLTEMP code flow instability predictions with measurements made with electrically heated channels for the advanced test reactor.  

SciTech Connect

When the University of Missouri Research Reactor (MURR) was designed in the 1960s the potential for fuel element burnout by a phenomenon referred to at that time as 'autocatalytic vapor binding' was of serious concern. This type of burnout was observed to occur at power levels considerably lower than those that were known to cause critical heat flux. The conversion of the MURR from HEU fuel to LEU fuel will probably require significant design changes, such as changes in coolant channel thicknesses, that could affect the thermal-hydraulic behavior of the reactor core. Therefore, the redesign of the MURR to accommodate an LEU core must address the same issues of fuel element burnout that were of concern in the 1960s. The Advanced Test Reactor (ATR) was designed at about the same time as the MURR and had similar concerns with regard to fuel element burnout. These concerns were addressed in the ATR by two groups of thermal-hydraulic tests that employed electrically heated simulated fuel channels. The Croft (1964), Reference 1, tests were performed at ANL. The Waters (1966), Reference 2, tests were performed at Hanford Laboratories in Richland Washington. Since fuel element surface temperatures rise rapidly as burnout conditions are approached, channel surface temperatures were carefully monitored in these experiments. For self-protection, the experimental facilities were designed to cut off the electric power when rapidly increasing surface temperatures were detected. In both the ATR reactor and in the tests with electrically heated channels, the heated length of the fuel plate was 48 inches, which is about twice that of the MURR. Whittle and Forgan (1967) independently conducted tests with electrically heated rectangular channels that were similar to the tests by Croft and by Walters. In the Whittle and Forgan tests the heated length of the channel varied among the tests and was between 16 and 24 inches. Both Waters and Whittle and Forgan show that the cause of the fuel element burnout is due to a form of flow instability. Whittle and Forgan provide a formula that predicts when this flow instability will occur. This formula is included in the PLTEMP/ANL code.Error! Reference source not found. Olson has shown that the PLTEMP/ANL code accurately predicts the powers at which flow instability occurs in the Whittle and Forgan experiments. He also considered the electrically heated tests performed in the ANS Thermal-Hydraulic Test Loop at ORNL and report by M. Siman-Tov et al. The purpose of this memorandum is to demonstrate that the PLTEMP/ANL code accurately predicts the Croft and the Waters tests. This demonstration should provide sufficient confidence that the PLTEMP/ANL code can adequately predict the onset of flow instability for the converted MURR. The MURR core uses light water as a coolant, has a 24-inch active fuel length, downward flow in the core, and an average core velocity of about 7 m/s. The inlet temperature is about 50 C and the peak outlet is about 20 C higher than the inlet for reactor operation at 10 MW. The core pressures range from about 4 to about 5 bar. The peak heat flux is about 110 W/cm{sup 2}. Section 2 describes the mechanism that causes flow instability. Section 3 describes the Whittle and Forgan formula for flow instability. Section 4 briefly describes both the Croft and the Waters experiments. Section 5 describes the PLTEMP/ANL models. Section 6 compares the PLTEMP/ANL predictions based on the Whittle and Forgan formula with the Croft measurements. Section 7 does the same for the Waters measurements. Section 8 provides the range of parameters for the Whittle and Forgan tests. Section 9 discusses the results and provides conclusions. In conclusion, although there is no single test that by itself closely matches the limiting conditions in the MURR, the preponderance of measured data and the ability of the Whittle and Forgan correlation, as implemented in PLTEMP/ANL, to predict the onset of flow instability for these tests leads one to the conclusion that the same method should be able to predict the

Feldman, E. (Nuclear Engineering Division)

2011-06-09T23:59:59.000Z

65

The New 1999 National Electrical Code Coupled with New Standards Clarify Requirements for Installations of Photovoltaic Systems in the U.S.  

SciTech Connect

The National Electrical Code@ (NEC@) focuses primarily on electrical system installation requirements in the U.S. The NEC addresses both fire and personnel safety. This paper will describe recent efforts of the PV industry in the U.S. and the resulting requirements in the 1999 National Electrical Code-- Article 690 --Solar Photovoltaic Systems. The Article 690 requirements spell out the PV-unique requirements for safe installations of PV systems in the U.S.A. This paper provides an overview of the most significant changes that appear in Article 690 of the 1999 edition of the NEC. The related and coordinated efforts of the other standards- making groups will also be briefly reviewed.

Bower, W.

1999-01-08T23:59:59.000Z

66

Discrete, 3D distributed, linear imaging methods of electric neuronal activity. Part 1: exact, zero error localization  

E-Print Network (OSTI)

This paper deals with the EEG/MEG neuroimaging problem: given measurements of scalp electric potential differences (EEG: electroencephalogram) and extracranial magnetic fields (MEG: magnetoencephalogram), find the 3D distribution of the generating electric neuronal activity. This problem has no unique solution. Only particular solutions with "good" localization properties are of interest, since neuroimaging is concerned with the localization of brain function. In this paper, a general family of linear imaging methods with exact, zero error localization to point-test sources is presented. One particular member of this family is sLORETA (standardized low resolution brain electromagnetic tomography; Pascual-Marqui, Methods Find. Exp. Clin. Pharmacol. 2002, 24D:5-12; http://www.unizh.ch/keyinst/NewLORETA/sLORETA/sLORETA-Math01.pdf). It is shown here that sLORETA has no localization bias in the presence of measurement and biological noise. Another member of this family, denoted as eLORETA (exact low resolution brain electromagnetic tomography; Pascual-Marqui 2005: http://www.research-projects.unizh.ch/p6990.htm), is a genuine inverse solution (not merely a linear imaging method) with exact, zero error localization in the presence of measurement and structured biological noise. The general family of imaging methods is further extended to include data-dependent (adaptive) quasi-linear imaging methods, also with the exact, zero error localization property.

Roberto D. Pascual-Marqui

2007-10-17T23:59:59.000Z

67

National electrical code changes for 1996 and USA participation in International Energy Agency activities related to photovoltaics safety and grid interconnection  

DOE Green Energy (OSTI)

As photovoltaic (PV) systems gain more acceptance in utility-interactive applications throughout the world, many organizations are placing increasingly higher priorities on writing guidelines, codes and standards. These guidelines and codes are being written to improve safety, installation, acceptance, listing or certification of the PV components or systems. Sandia National Laboratories` PV System Applications Department is working closely with the PV industry to address issues that are associated with fire and personnel safety and with National Electrical Code (NEC) requirements. Additionally, the United States has agreed to participate in two of the International Energy Agency (IEA) Annexes (topical tasks) of the Implementing Agreement for a Cooperative Programme on Photovoltaic Power Systems. This paper describes events and activities associated with the NEC and the IEA that are being led by Sandia National Laboratories with broad participation by the US PV industry.

Bower, W.

1995-01-01T23:59:59.000Z

68

Boston.com / News / Local / New fuel cell uses germs to generate electricity Page 1 THIS STORY HAS BEEN FORMATTED FOR EASY PRINTING  

E-Print Network (OSTI)

Boston.com / News / Local / New fuel cell uses germs to generate electricity Page 1 THIS STORY HAS BEEN FORMATTED FOR EASY PRINTING New fuel cell uses germs to generate electricity By Gareth Cook, Globe://www.boston.com/news/local/articles/2003/09/08/new_fuel_cell_uses_germs_to_generate_electricity?mode=9:15:28 AM 9/8/2003 #12;Boston

Lovley, Derek

69

Smart buildings with electric vehicle interconnection as buffer for local renewables?  

E-Print Network (OSTI)

Energy Technologies Division Building / tariffs electricityOptions, Tariffs, and Building Analyzed Environmental Energyenergy management more effective stationary storage will be charged by PV, mobile only marginally results will depend on the considered region and tariff

Stadler, Michael

2012-01-01T23:59:59.000Z

70

The Energy Box : comparing locally automated control strategies of residential electricity consumption under uncertainty  

E-Print Network (OSTI)

The Energy Box is an always-on background processor automating the temporal management of one's home or small business electrical energy usage. Cost savings are achieved in a variety of environments, ranging from at pricing ...

Livengood, Daniel James

2011-01-01T23:59:59.000Z

71

Electric  

U.S. Energy Information Administration (EIA)

Average Retail Price of Electricity to ... Period Residential Commercial Industrial ... or usage falling within specified limits by rate ...

72

Fast Localization Using Robust UWB Coding in Wireless Sensor Networks Di Wu, Lichun Bao, Renfa Li and Fanzi Zeng  

E-Print Network (OSTI)

in coal mine environments. The localization algorithm first derives the corresponding UWB path loss model in coal mine environments. Keywords-Coal mine channel modeling; orthogonal variable spreading factor (OVSF at monitoring and tracking human and vehicle locations in coal mine environments. This research is especially

Bao, Lichun

73

Electricity  

Energy.gov (U.S. Department of Energy (DOE))

Electricity is an essential part of modern life. The Energy Department is working to create technology solutions that will reduce our energy use and save Americans money.

74

Table 7.3 Average Prices of Purchased Electricity, Natural Gas, and Steam, 2010;  

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

3 Average Prices of Purchased Electricity, Natural Gas, and Steam, 2010; 3 Average Prices of Purchased Electricity, Natural Gas, and Steam, 2010; Level: National and Regional Data; Row: NAICS Codes; Column: Supplier Sources of Purchased Electricity, Natural Gas, and Steam; Unit: U.S. Dollars per Physical Units. Electricity Components Natural Gas Components Steam Components Electricity Natural Gas Steam Electricity from Sources Natural Gas from Sources Steam from Sources Electricity from Local Other than Natural Gas from Local Other than Steam from Local Other than NAICS Total Utility(b) Local Utility(c) Total Utility(b) Local Utility(c) Total Utility(b) Local Utility(c) Code(a) Subsector and Industry (kWh) (kWh) (kWh) (1000 cu ft) (1000 cu ft) (1000 cu ft) (million Btu)

75

Table 7.7 Quantity of Purchased Electricity, Natural Gas, and Steam, 2010;  

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

7 Quantity of Purchased Electricity, Natural Gas, and Steam, 2010; 7 Quantity of Purchased Electricity, Natural Gas, and Steam, 2010; Level: National and Regional Data; Row: NAICS Codes; Column: Supplier Sources of Purchased Electricity, Natural Gas, and Steam; Unit: Physical Units or Btu. Electricity Components Natural Gas Components Steam Components Electricity Natural Gas Steam Electricity from Sources Natural Gas from Sources Steam from Sources Electricity from Local Other than Natural Gas from Local Other than Steam from Local Other than NAICS Total Utility(b) Local Utility(c) Total Utility(b) Local Utility(c) Total Utility(b) Local Utility(c) Code(a) Subsector and Industry (million kWh) (million kWh) (million kWh) (billion cu ft) (billion cu ft)

76

Methods and Protocols for Estimating the Localized Rate of Adoption Electric Vehicles and Associated Impacts  

Science Conference Proceedings (OSTI)

More than 60,000 plug-in electric vehicles (PEVs) are currently on the road, and the United States is reaching the end of a several-hundred-million dollar PEV infrastructure investment. As this round of federal funding ends and these vehicles are being sold to the mass market, planning on the national scale will begin. As a result, it is important for key stakeholders to understand the number and relative location of PEV infrastructure.The results described in this report are meant to ...

2012-12-31T23:59:59.000Z

77

Energy Management Workbook for Local Governments : Workbook 1, Electrical Energy, 1981.  

SciTech Connect

Descriptions are presented for 20 major categories of energy actions providing background information needed for communities to implement energy management programs and explaining where financial and technical help may be available. Chapter 1 provides background on the energy problem, discusses Federal, state and local roles, and outlines the planning process. Chapter 2 is a list of 20 questions to help identify a range of potential actions that could become part of the energy management plan. Chapter 3 will help evaluate each of the twenty potential activities, and chapters 4 and 5 discuss implementing and monitoring the energy management plan. (MCW)

None

1981-02-01T23:59:59.000Z

78

Electrical Equipment Inspection Program Electrical Safety  

E-Print Network (OSTI)

for Electrical Safety" (DOE )-HDBK-1092-2004 Title 29, Code of Federal Regulations, "Labor" , Chapter 17

Wechsler, Risa H.

79

ELECTRIC  

Office of Legacy Management (LM)

ELECTRIC cdrtrokArJclaeT 3 I+ &i, y I &OF I*- j< t j,fci..- ir )(yiT E-li, ( -,v? Cl -p4.4 RESEARCH LABORATORIES EAST PITTSBURGH, PA. 8ay 22, 1947 Mr. J. Carrel Vrilson...

80

Quantifying the Effects of Interfacial Electric Fields and Local Crystallinity on Polymer-Fullerene Bulk Heterojunction Solar Cell Performance  

Science Conference Proceedings (OSTI)

The challenges of experimentally probing the physical and electronic structures of the highly intermixed organic semiconductor blends that comprise active layers in high-performance organic photovoltaic (OPV) cells ultimately limit the fundamental understanding of the device performance. We use Fourier-transform IR (FTIR)-absorption spectroscopy to quantitatively determine the interfacial electric field in blended poly(3-hexylthiophene) (P3HT):phenyl- C61-butyric acid methyl ester (PCBM) thin films. The interfacial electric field is {approx}0.2 V nm{sup -1} in the as-spun film and blends annealing at temperatures as high as 150 C, which is the optimal annealing temperature in terms of OPV performance. The field decreases to a negligible value upon further annealing to 170 C, at which temperature PCBM changes from amorphous to crystalline and the open-circuit voltage of the solar cell decreases from 0.62 to 0.4 V. In addition, our measurements also allow determination of the absolute degree of crystallinity within the acceptor material. The roles of interfacial field and local crystallinity in OPV device performance are discussed.

Gearba, R.I.; Black, C.; Mills, T.; Morris, J.; Pindak, R.; Zhu, X.-Y.

2011-05-17T23:59:59.000Z

Note: This page contains sample records for the topic "local electrical codes" 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

ELECTRIC  

Office of Legacy Management (LM)

ELECTRIC ELECTRIC cdrtrokArJclaeT 3 I+ &i, y$ \I &OF I*- j< t j,fci..- ir )(yiT !E-li, ( \-,v? Cl -p/4.4 RESEARCH LABORATORIES EAST PITTSBURGH, PA. 8ay 22, 1947 Mr. J. Carrel Vrilson General ?!!mager Atomic Qxzgy Commission 1901 Constitution Avenue Kashington, D. C. Dear Sir: In the course of OUT nuclenr research we are planning to study the enc:ri;y threshold anti cross section for fission. For thib program we require a s<>piAroted sample of metallic Uranium 258 of high purity. A quantity of at lezst 5 grams would probably be sufficient for our purpose, and this was included in our 3@icntion for license to the Atonic Energy Coskqission.. This license has been approved, 2nd rre would Llp!Jreciate informztion as to how to ?r*oceed to obtain thit: m2teria.l.

82

National standards and code compliance for electrical equipment and instruments installed in hazardous locations for the cone penetrometer  

SciTech Connect

The cone penetrometer is designed to measure the material properties of waste tank contents at the Hanford Site. The penetrometer system consists of a skid-mounted assembly, a penetrometer assembly (composed of a guide tube and a push rod), an active neutron moisture measurement probe, decontamination unit, and a support trailer containing a diesel-engine-driven hydraulic pump and a generator. The skid-mounted assembly is about 8 feet wide by 23 feet long and 15 feet high. Its nominal weight is about 40,000 pounds with the provisions to add up to 54,500 pounds of additional ballast. This document describes the cone penetrometer electrical instruments and how it complies with national standards.

Bussell, J.H.

1996-03-01T23:59:59.000Z

83

City of Austin - Zoning Code | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

City of Austin - Zoning Code City of Austin - Zoning Code City of Austin - Zoning Code < Back Eligibility Commercial Construction Fed. Government Industrial Installer/Contractor Institutional Local Government Multi-Family Residential Nonprofit Residential Schools State Government Savings Category Other Solar Buying & Making Electricity Program Info State Texas Program Type Solar/Wind Access Policy The Zoning Code (Chapter 25-2) of the Austin City Code provides a height limitation exemption for solar installations. Solar installations may exceed the zoning district height limit by 15% or the amount necessary to comply with a federal or state regulation, whichever is greater. The Zoning Code also allows for preservation plan in historic districts to incorporate sustainability measures such as solar technologies and other energy

84

About Building Energy Codes | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

buildings account for approximately 41% of all energy consumption and 72% of electricity usage. Building energy codes increase energy efficiency in buildings, resulting in...

85

General Dynamics, Electric Boat  

Science Conference Proceedings (OSTI)

General Dynamics, Electric Boat. NVLAP Lab Code: 100560-0. Address and Contact Information: 75 Eastern Point Road ...

2013-08-16T23:59:59.000Z

86

Step 2. Identify a Code Support Infrastructure | Building Energy...  

NLE Websites -- All DOE Office Websites (Extended Search)

2. Identify a Code Support Infrastructure Utilities can play several roles in support of building energy codes. Examples include partnering with states and localities during code...

87

Basement Insulation Techniques | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Basement Insulation Techniques Residential basement insulation levels should be selected in accordance with the International Energy Conservation Code, or the local energy code. Be...

88

Electricity Market Module of the National Energy Modeling System (Load And Demand Side Management Submodule Vol 2, Model Code, Model Documentation)  

Reports and Publications (EIA)

Volume II of the documentation contains the actual source code of the LDSM submodule, and the cross reference table of its variables. The code is divided into two parts. The first part contains the main part of thesource code. The second part lists the INCLUDE files referenced inside the main part of the code.

Joe Ayoub

89

Quantum codes on Hurwitz surfaces  

E-Print Network (OSTI)

Ever since the birth of the first quantum error correcting code, many error correcting techniques and formalism has been constructed so far. Among those, generating a quantum code on a locally planar geometry have lead to ...

Kim, Isaac H. (Isaac Hyun)

2007-01-01T23:59:59.000Z

90

Relationships between the Irrigation-Pumping Electrical Loads and the Local Climate in Climate Division 9, Idaho  

Science Conference Proceedings (OSTI)

The electrical load from irrigation pumps is an important part of the overall electricity demand in many agricultural areas of the U.S. west. The date the pumps turn on and the total electrical load they present over the summer varies from year ...

Eric J. Alfaro; David W. Pierce; Anne C. Steinemann; Alexander Gershunov

2005-12-01T23:59:59.000Z

91

Table 7.10 Expenditures for Purchased Electricity, Natural Gas, and Steam, 2010;  

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

0 Expenditures for Purchased Electricity, Natural Gas, and Steam, 2010; 0 Expenditures for Purchased Electricity, Natural Gas, and Steam, 2010; Level: National and Regional Data; Row: NAICS Codes; Column: Supplier Sources of Purchased Electricity, Natural Gas, and Steam; Unit: Million U.S. Dollars. Electricity Components Natural Gas Electricity Electricity from Sources Natural Gas NAICS Electricity from Local Other than Natural Gas from Local Code(a) Subsector and Industry Total Utility(b) Local Utility(c) Total Utility(b) Total United States 311 Food 5,328 4,635 692 3,391 1,675 3112 Grain and Oilseed Milling 932 850 82 673 261 311221 Wet Corn Milling 352 331 21 296 103 31131 Sugar Manufacturing 105 87 18 87 39 3114 Fruit and Vegetable Preserving and Specialty Foods 698

92

Building Energy Code | Open Energy Information  

Open Energy Info (EERE)

Code Code Jump to: navigation, search Building energy codes adopted by states (and some local governments) require commercial and/or residential construction to adhere to certain energy standards. While some governmental bodies have developed their own building energy codes, many use existing codes, such as the International Energy Conservation Code (IECC), developed and published by the International Code Council (ICC); or ASHRAE 90.1, developed by the American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE). A few local building energy codes require certain commercial facilities to meet green building standards. [1] Building Energy Code Incentives CSV (rows 1 - 85) Incentive Incentive Type Place Applicable Sector Eligible Technologies Active

93

"Code(a)","End Use","Electricity(b)","Fuel Oil","Diesel Fuel(c)"," Gas(d)","NGL(e)","Coke and Breeze)"  

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

3 Relative Standard Errors for Table 5.3;" 3 Relative Standard Errors for Table 5.3;" " Unit: Percents." " "," " " "," ",," ","Distillate"," "," " " "," ","Net Demand",,"Fuel Oil",,,"Coal" "NAICS"," ","for ","Residual","and","Natural","LPG and","(excluding Coal" "Code(a)","End Use","Electricity(b)","Fuel Oil","Diesel Fuel(c)"," Gas(d)","NGL(e)","Coke and Breeze)" ,,"Total United States" " 311 - 339","ALL MANUFACTURING INDUSTRIES" ,"TOTAL FUEL CONSUMPTION",2,3,6,2,4,9

94

TECO Electric & Machinery Co., Ltd.  

Science Conference Proceedings (OSTI)

TECO Electric & Machinery Co., Ltd. NVLAP Lab Code: 200378-0. ... Send E-Mail to NVLAP at: NVLAP@nist.gov. Efficiency of Electric Motors. ...

2013-08-16T23:59:59.000Z

95

PARMTEQ (Phase And Radial Motion in Transverse Electric Quadrupole linacs): A beam dynamics code for the RFQ (radio-frequency quadrupole)  

SciTech Connect

The PARMTEQ code is used for generating the complete cell design of a radio-frequency quadrupole linear accelerator and for multiparticle simulation of the beam dynamics. We present a review of the code, with an emphasis on the physics used to describe the particle motion and the cell generation. 9 refs., 1 fig.

Crandall, K.R.; Wangler, T.P.

1987-01-01T23:59:59.000Z

96

Gas Code of Conduct (Connecticut) | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Gas Code of Conduct (Connecticut) Gas Code of Conduct (Connecticut) Gas Code of Conduct (Connecticut) < Back Eligibility Agricultural Commercial Construction Fed. Government Fuel Distributor General Public/Consumer Industrial Installer/Contractor Institutional Investor-Owned Utility Local Government Low-Income Residential Multi-Family Residential Municipal/Public Utility Nonprofit Residential Retail Supplier Rural Electric Cooperative Schools State/Provincial Govt Systems Integrator Transportation Tribal Government Utility Program Info State Connecticut Program Type Safety and Operational Guidelines Provider Public Utilities Regulatory Authority The Gas Code of Conduct sets forth the standard of conduct for transactions, direct or indirect, between gas companies and their affiliates. The purpose of these regulations is to promote competitive

97

Permit for Charging Equipment Installation: Electric Vehicle Supply Equipment (EVSE)  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Compliance with the following permit will allow the installation and operation of electric vehicle charging equipment at a Compliance with the following permit will allow the installation and operation of electric vehicle charging equipment at a residence in the City, State jurisdiction. This permit addresses one of the following situations: Only an additional branch circuit would be added at the residence A hard-wired charging station would be installed at the residence. The attached requirements for wiring the charging station are taken directly out of the 2011 edition of the National Electrical Code (NEC) NFPA 70, Article 625 Electric Vehicle Charging System. This article does not provide all of the information necessary for the installation of electric vehicle charging equipment. Please refer to the current edition of the electrical code adopted by the local jurisdiction for additional installation requirements. Reference to the 2011 NEC may be

98

Level: National and Regional Data; Row: NAICS Codes; Column: All Energy Sources Collected;  

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

Table 7.1 Average Prices of Purchased Energy Sources, 2006; Level: National and Regional Data; Row: NAICS Codes; Column: All Energy Sources Collected; Unit: U.S. Dollars per Physical Units. Selected Wood and Other Biomass Components Coal Components Coke Electricity Components Natural Gas Components Steam Components Total Wood Residues Bituminous Electricity Diesel Fuel Motor Natural Gas Steam and Wood-Related and Electricity from Sources and Gasoline Pulping Liquor Natural Gas from Sources Steam from Sources Waste Gases Waste Oils Industrial Wood Byproducts and Coal Subbituminous Coal Petroleum Electricity from Local Other than Distillate Diesel Distillate Residual Blast Furnace Coke Oven (excluding or LPG and Natural Gas

99

Level: National and Regional Data; Row: NAICS Codes; Column: All Energy Sources Collected;  

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

Next MECS will be conducted in 2010 Table 7.2 Average Prices of Purchased Energy Sources, 2006; Level: National and Regional Data; Row: NAICS Codes; Column: All Energy Sources Collected; Unit: U.S. Dollars per Million Btu. Selected Wood and Other Biomass Components Coal Components Coke Electricity Components Natural Gas Components Steam Components Total Wood Residues Bituminous Electricity Diesel Fuel Motor Natural Gas Steam and Wood-Related and Electricity from Sources and Gasoline Pulping Liquor Natural Gas from Sources Steam from Sources Waste Gases Waste Oils Industrial Wood Byproducts and Coal Subbituminous Coal Petroleum Electricity from Local Other than Distillate Diesel Distillate Residual Blast Furnace

100

State and Local Clean Energy Policy Primer: Getting from Here to Clean Electricity with Policy (Fact Sheet)  

Science Conference Proceedings (OSTI)

This fact sheet proposes a framework for how states and localities can build policy portfolios by first setting the stage for clean energy in the market with low cost policies, and then growing the market with successive policies until the need for financial incentives can be reduced and eventually eliminated.

Not Available

2011-04-01T23:59:59.000Z

Note: This page contains sample records for the topic "local electrical codes" 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

Building Energy Code | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

a future site for electrical equipment. http:www.dsireusa.orgincentivesincentive.cfm?IncentiveCodeNM10R New Mexico Provider New Mexico Regulation and Licensing Department...

102

Going Beyond Code | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Going Beyond Code Beyond the energy codes are stretch, green, or sustainable codes and associated labeling programs. Codes are written to lend themselves to mandatory enforcement...

103

News | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

News News A variety of resources and news from BECP, states, and other news sources are available for anyone interested in learning more about building energy codes. This includes newsletters, articles, links and more. To receive BECP News and other updates from the Building Energy Codes Program via email, join our mailing list. Featured Codes News DOE Activities and Methodology for Assessing Compliance With Building Energy Codes RFI Mayors Urge Cities to Strengthen Energy Code AZ Legislature Preserves Local Control of Building Energy Efficiency Codes Washington State Home Builders Lead the Nation in Energy Code Compliance Mississippi Invests in Future Growth With Adoption of Best-in-Class Energy Efficiency Legislation Energy 2030 Report Calls for Stricter Energy Building Codes

104

EWEB - Solar Electric Program (Performance-Based Incentive) | Department of  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

EWEB - Solar Electric Program (Performance-Based Incentive) EWEB - Solar Electric Program (Performance-Based Incentive) EWEB - Solar Electric Program (Performance-Based Incentive) < Back Eligibility Agricultural Commercial Industrial Institutional Local Government Nonprofit Residential Schools State Government Savings Category Solar Buying & Making Electricity Program Info Start Date 1/25/2008 State Oregon Program Type Performance-Based Incentive Rebate Amount $0.0856/kWh for 10 years (subject to annual review) Provider Eugene Water and Electric Board The Eugene Water and Electric Board's (EWEB) Solar Electric Program offers financial incentives for residential and commercial customers who generate electricity using solar photovoltaic (PV) systems. [dsireusa.org/incentives/incentive.cfm?Incentive_Code=OR101F&re=0&ee=0

105

Project Fever - Fostering Electric Vehicle Expansion in the Rockies  

DOE Green Energy (OSTI)

Project FEVER (Fostering Electric Vehicle Expansion in the Rockies) is a part of the Clean Cities Community Readiness and Planning for Plug-in Electric Vehicles and Charging Infrastructure Funding Opportunity funded by the U.S. Department of Energy (DOE) for the state of Colorado. Tasks undertaken in this project include: Electric Vehicle Grid Impact Assessment; Assessment of Electrical Permitting and Inspection for EV/EVSE (electric vehicle/electric vehicle supply equipment); Assessment of Local Ordinances Pertaining to Installation of Publicly Available EVSE;Assessment of Building Codes for EVSE; EV Demand and Energy/Air Quality Impacts Assessment; State and Local Policy Assessment; EV Grid Impact Minimization Efforts; Unification and Streamlining of Electrical Permitting and Inspection for EV/EVSE; Development of BMP for Local EVSE Ordinances; Development of BMP for Building Codes Pertaining to EVSE; Development of Colorado-Specific Assessment for EV/EVSE Energy/Air Quality Impacts; Development of State and Local Policy Best Practices; Create Final EV/EVSE Readiness Plan; Develop Project Marketing and Communications Elements; Plan and Schedule In-person Education and Outreach Opportunities.

Swalnick, Natalia

2013-06-30T23:59:59.000Z

106

Building Energy Codes | Open Energy Information  

Open Energy Info (EERE)

Codes Codes Jump to: navigation, search Building energy codes adopted by states (and some local governments) require commercial and/or residential construction to adhere to certain energy standards. While some governmental bodies have developed their own building energy codes, many use existing codes, such as the International Energy Conservation Code (IECC), developed and published by the International Code Council (ICC); or ASHRAE 90.1, developed by the American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE). A few local building energy codes require certain commercial facilities to meet green building standards. [1] Contents 1 Building Energy Code Incentives 2 References Building Energy Code Incentives CSV (rows 1 - 85) Incentive Incentive Type Place Applicable Sector Eligible Technologies Active

107

Building Energy Code | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Building Energy Code Building Energy Code Building Energy Code < Back Eligibility Commercial Residential Savings Category Heating & Cooling Home Weatherization Construction Commercial Weatherization Commercial Heating & Cooling Design & Remodeling Bioenergy Solar Lighting Windows, Doors, & Skylights Alternative Fuel Vehicles Hydrogen & Fuel Cells Heating Buying & Making Electricity Water Water Heating Wind Program Info State Connecticut Program Type Building Energy Code Provider Connecticut Office of Policy and Management ''Much of the information presented in this summary is drawn from the U.S. Department of Energy's (DOE) Building Energy Codes Program and the Building Codes Assistance Project (BCAP). For more detailed information about building energy codes, visit the [http://www.energycodes.gov/states/

108

Wyoming | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Wyoming Wyoming Last updated on 2013-06-03 Commercial Residential Code Change Current Code None Statewide Amendments / Additional State Code Information The International Conference of Building Officials (ICBO) Uniform Building Code, which is based on the 1989 Model Energy Code (MEC), may be adopted and enforced by local jurisdictions. Approved Compliance Tools Can use COMcheck State Specific Research Impacts of ASHRAE Standard 90.1-2007 for Commercial Buildings in the State of Wyoming (BECP Report, Sept. 2009) Approximate Energy Efficiency Less energy efficient than 2003 IECC Effective Date 08/13/2008 Code Enforcement Voluntary DOE Determination ASHRAE Standard 90.1-2007: No ASHRAE Standard 90.1-2010: No Wyoming DOE Determination Letter, May 31, 2013 Current Code None Statewide

109

Department Codes  

NLE Websites -- All DOE Office Websites (Extended Search)

Department Codes Department Codes Code Organization BO Bioscience Department BU Business Development & Analysis Office DI Business Operations NC Center for Functional Nanomaterials CO Chemistry Department AD Collider Accelerator Department PA Community, Education, Government and Public Affairs CC Computational Science Center PM Condensed Matter Physics and Materials Science Department CI Counterintelligence AE Department of Energy DC Directorate - Basic Energy Sciences DK Directorate - CEGPA DE Directorate - Deputy Director for Operations DO Directorate - Director's Office DH Directorate - Environment, Safety and Health DF Directorate - Facilities and Operations DA Directorate - Global and Regional Solutions DB Directorate - Nuclear and Particle Physics DL Directorate - Photon Sciences

110

CQST/CNEX Efficiency of Electric Motors  

Science Conference Proceedings (OSTI)

CQST/CNEX Efficiency of Electric Motors. NVLAP Lab Code: 200609-0. ... Send E-Mail to NVLAP at: NVLAP@nist.gov. Efficiency of Electric Motors. ...

2013-08-16T23:59:59.000Z

111

EIA - Electricity Data - Energy Information Administration  

U.S. Energy Information Administration (EIA)

Electricity. Sales, revenue and ... codes or demands or usage falling within specified limits by rate ... Monthly Electric Sales and Revenue Report with State ...

112

Commercial Building Codes and Standards | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Codes and Standards Codes and Standards Commercial Building Codes and Standards Local code officials enforce building energy codes. Credit: iStockphoto Once an energy-efficient technology or practice is widely available in the market, it can become the baseline of performance through building energy codes and equipment standards. The Building Technologies Office (BTO) provides support to states and local governments as they adopt and monitor commercial building code as well as builders working to meet and exceed code. BTO also develops test procedures and minimum efficiency standards for commercial equipment. Building Energy Codes DOE encourages using new technologies and better building practices to improve energy efficiency. Mandating building energy efficiency by

113

Pacific Gas & Electric Company, Diablo Canyon Nuclear ...  

Science Conference Proceedings (OSTI)

Pacific Gas & Electric Company, Diablo Canyon Nuclear Power Plant. NVLAP Lab Code: 100537-0. Address and Contact Information: ...

2013-11-08T23:59:59.000Z

114

Pacific Gas & Electric Company, Diablo Canyon Nuclear ...  

Science Conference Proceedings (OSTI)

Pacific Gas & Electric Company, Diablo Canyon Nuclear Power Plant. NVLAP Lab Code: 100537-0. Address and Contact Information: ...

2013-08-23T23:59:59.000Z

115

About Building Energy Codes | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Compliance Compliance Regulations Resource Center About Building Energy Codes U.S. Energy Consumption by Sector (2011) Source: U.S. Energy Information Administration, Annual Energy Review According to the U.S. Energy Information Administration's Electric Power Annual, U.S. residential and commercial buildings account for approximately 41% of all energy consumption and 72% of electricity usage. Building energy codes increase energy efficiency in buildings, resulting in significant cost savings in both the private and public sectors of the U.S. economy. Efficient buildings reduce power demand and have less of an environmental impact. The Purpose of Building Energy Codes Energy codes and standards set minimum efficiency requirements for new and renovated buildings, assuring reductions in energy use and emissions over

116

Electricity Grid: Impacts of Plug-In Electric Vehicle Charging  

E-Print Network (OSTI)

with electricity generation and distribution is importantand distribution facilities that produces and delivers electricitydistribution lines that face congestion if local patterns of electricity

Yang, Christopher; McCarthy, Ryan

2009-01-01T23:59:59.000Z

117

Independence of vectors in codes over rings  

Science Conference Proceedings (OSTI)

We study codes over Frobenius rings. We describe Frobenius rings via an isomorphism to the product of local Frobenius rings and use this decomposition to describe an analog of linear independence. Special attention is given to codes over principal ideal ... Keywords: Chinese Remainder Theorem, Codes over rings, Frobenius rings, Primary 94B05, Principal ideal rings, Secondary 13A99

Steven T. Dougherty; Hongwei Liu

2009-04-01T23:59:59.000Z

118

Building Technologies Office: Advancing Building Energy Codes  

NLE Websites -- All DOE Office Websites (Extended Search)

Advancing Building Energy Codes Advancing Building Energy Codes The Building Technologies Office (BTO) supports greater adoption of residential and commercial building energy codes through collaborative efforts with local governments and industry groups, and by providing key tools and assistance for code development, adoption, and implementation. Through advancing building codes, we aim to improve building energy efficiency by 50%, and to help states achieve 90% compliance with their energy codes. 75% of U.S. Buildings will be New or Renovated by 2035, Building Codes will Ensure They Use Energy Wisely. Learn More 75% of U.S. Buildings will be New or Renovated by 2035; Building Codes will Ensure They Use Energy Wisely Learn More Energy Codes Ensure Efficiency in Buildings We offer guidance and technical resources to policy makers, compliance verification professionals, architects, engineers, contractors, and other stakeholders who depend on building energy codes.

119

Texas' Senate Bill 5 Legislation for Reducing Pollution in Non-Attainment and Affected Areas: Procedures for Measuring Electricity Savings from the Adoption of the International Energy Conservation Code (IRC/IECC 2001) in New Residences  

E-Print Network (OSTI)

Four areas in Texas have been designated by the EPA as non-attainment areas because ozone levels exceed the NAAQS maximum allowable limits, Beaumont-Port Arthur, El Paso, Dallas-Ft. Worth, and Houston-Galveston-Brazoria. These areas face severe sanctions if attainment is not reached by 2007. Four additional areas in the state are also approaching national ozone limits (i.e., affected areas), including: Austin, Corpus Christi, San Antonio, and the Longview-Tyler-Marshall area. In 2001, the Texas State Legislature formulated and passed Senate Bill 5 to further reduce ozone levels by encouraging the reduction of emissions of NOx by sources that are currently not regulated by the TNRCC, including area sources (e.g., residential emissions), on-road mobile sources (e.g., all types of motor vehicles), and non-road mobile sources (e.g., aircraft, locomotives, etc.). An important part of this legislation is the evaluation of the State's energy efficiency programs, which includes reductions in energy use and demand that are associated with specific energy conservation measures. This paper outlines the procedures that are being developed to report the electricity savings associated with the adoption of the International Energy Conservation Code (IECC 2001) in residential construction in non-attainment and affected counties. These electricity savings will then be converted to NOx reductions using the appropriate

Haberl, J. S.; Culp, C.; Yazdani, B.; Fitzpatrick, T.; Turner, W. D.

2002-01-01T23:59:59.000Z

120

Building Energy Code | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Building Energy Code Building Energy Code Building Energy Code < Back Eligibility Commercial Residential Savings Category Heating & Cooling Home Weatherization Construction Commercial Weatherization Commercial Heating & Cooling Design & Remodeling Solar Buying & Making Electricity Water Heating Program Info State Oregon Program Type Building Energy Code Provider Oregon Building Codes Division ''Much of the information presented in this summary is drawn from the U.S. Department of Energy's (DOE) Building Energy Codes Program and the Building Codes Assistance Project (BCAP). For more detailed information about building energy codes, visit the [http://www.energycodes.gov/states/ DOE] and [http://bcap-ocean.org/ BCAP] websites.'' [http://www.oregon.gov/ENERGY/CONS/Codes/cdpub.shtml The Oregon Energy

Note: This page contains sample records for the topic "local electrical codes" 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

Step 4. Select the Appropriate Code for Adoption | Building Energy Codes  

NLE Websites -- All DOE Office Websites (Extended Search)

4. Select the Appropriate Code for Adoption 4. Select the Appropriate Code for Adoption Description To achieve the economic, environmental, and social benefits offered by energy codes, a state or jurisdiction must select the energy code that is most appropriate for their locale. States and municipalities generally choose to either adopt a model energy code or standard or create a state-specific or local energy code. States or municipalities may also select to adopt "stretch codes"-those that go beyond the minimum requirements of an adopted energy code to achieve greater energy efficiency. In addition, states and local jurisdictions may choose to adopt policies that implement a green building rating system or policies that apply to specific structures, such as state-owned or -funded buildings.

122

Electrical engineering Electricity  

E-Print Network (OSTI)

generation Transmission Distribution · Electrical generators · Electric motors · High voltage engineering associated with the systems Electrical engineering · Electric power generation Transmission Distribution The electricity transported to load locations from a power station transmission subsystem The transmission system

Ã?nay, Devrim

123

LDPC coded OFDM over the atmospheric turbulence channel  

E-Print Network (OSTI)

system collects the light, and focuses it onto a detector, which delivers an electrical signal-5 , the coding gain improvement of the LDPC coded single-side band unclipped-OFDM system with 64 sub-carriers is larger than the coding gain of the LDPC coded OOK system by 20.2dB for quadrature-phase-shift keying

Djordjevic, Ivan B.

124

Business Models for Code Compliance | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Compliance Compliance Site Map Printable Version Development Adoption Compliance Basics Compliance Evaluation Software & Web Tools Regulations Resource Center Business Models for Code Compliance The U.S. Department of Energy is coordinating strategies and activities with companies, individuals, and government entities to demonstrate, quantify, and monetize energy code compliance and coordinate deployment at the local, state, and regional levels. Consumer Assurance through Code Compliance Energy efficiency measures in the buildings sector, if properly realized and captured, provide a tremendous opportunity to reduce energy consumption and expenditures. Yet currently there is a lack of assurance that buildings as designed realize the levels of energy efficiency established in the

125

Advancing Building Energy Codes | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

You are here You are here Home » Advancing Building Energy Codes Advancing Building Energy Codes 75% of U.S. buildings will be new or renovated by 2035. Building codes will ensure they use energy wisely. 75% of U.S. buildings will be new or renovated by 2035. Building codes will ensure they use energy wisely. The Building Technologies Office (BTO) supports greater adoption of residential and commercial building energy codes through collaborative efforts with local governments and industry groups, and by providing key tools and assistance for code development, adoption, and implementation. Through advancing building codes, we aim to improve building energy efficiency by 50%, and to help states achieve 90% compliance with their energy codes. Energy Codes Ensure Efficiency in Buildings

126

Secure Source Coding with a Helper Ravi Tandon Sennur Ulukus  

E-Print Network (OSTI)

Secure Source Coding with a Helper Ravi Tandon Sennur Ulukus Department of Electrical and Computer Symposium on Information Theory, 2007. [14] R. Tandon, S. Ulukus, and K. Ramchandran. Secure source coding

Ulukus, Sennur

127

BUILDING TECHNOLOGIES PROGRAM CODE NOTES  

NLE Websites -- All DOE Office Websites (Extended Search)

Residential Fan Efficiency Residential Fan Efficiency 2012 IECC Over the past several code cycles, mechanical ventilation requirements have been added to ensure adequate outside air is provided for ventilation whenever residences are occupied. These ventilation requirements can be found in the International Residential Code for homes and the International Mechanical Code for dwelling units in multifamily buildings. As a result of the new ventilation requirements, fans designated for whole-house ventilation will have many more operating hours than bathroom or kitchen exhaust fans that are temporarily operated to remove local humidity or odors. Earlier ventilation practices relied on infiltration or operable windows as the primary source of ventilation air. Homes and

128

Federal, State, and Local Coordination | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Local Coordination Electricity Advisory Committee Technology Development Electricity Policy Coordination and Implementation DOE Grid Tech Team Energy Assurance Coordination and...

129

Local Information  

NLE Websites -- All DOE Office Websites (Extended Search)

Local Information Local Information Local Information Welcome to Golden, Colorado, the location of the 2014 Electrical Safety Workshop. Visiting NREL The National Renewable Energy Laboratory (NREL) has research facilities and offices at several locations in Golden, Colorado (near Boulder), and in Washington, D.C. In Golden, you'll find the NREL Education Center, along with many of our research laboratories and administrative offices. The National Wind Technology Center is a separate facility located about 5 miles south of Boulder. Read more » Transportation NREL is accessible via bus on the Regional Transportation District (RTD) Route 20 from Aurora and Denver. Route 20 travels along 20th Avenue and ends at the NREL Education Center. Visit the RTD Web site or call 303-299-6000 to plan your trip or for more

130

Building Energy Code | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Building Energy Code Building Energy Code Building Energy Code < Back Eligibility Commercial Residential Savings Category Heating & Cooling Home Weatherization Construction Commercial Weatherization Commercial Heating & Cooling Design & Remodeling Solar Buying & Making Electricity Water Heating Program Info State Colorado Program Type Building Energy Code Provider Colorado Energy Office ''Much of the information presented in this summary is drawn from the U.S. Department of Energy's (DOE) Building Energy Codes Program and the Building Codes Assistance Project (BCAP). For more detailed information about building energy codes, visit the [http://www.energycodes.gov/states/ DOE] and [http://bcap-ocean.org/ BCAP] websites.'' Colorado is a home rule state so no statewide energy code exists. Voluntary

131

BGP: Code Saturne | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Documentation Feedback Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] BGP: Code Saturne What is Code_Saturne? Code Saturne is the EDF's general purpose Computational Fluid Dynamics (CFD) software. EDF stands for Électricité de France, one of the world's largest producers of electricity. Obtaining Code_Saturne Code_Saturne is an open source code, freely available for the CFD practitioners and other scientists too. You can download the latest version from the Code_Saturne Official Forum Web Page and you can also follow the Forum with interesting questions about installation problems, general usage, examples, etc. Building Code_Saturne for Blue Gene/P The version currently available on Intrepid is the last official stable

132

Green Building Codes | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Green Building Codes Green Building Codes Green building codes go beyond minimum code requirements, raising the bar for energy efficiency. They can serve as a proving ground for future standards, and incorporate elements beyond the scope of the model energy codes, such as water and resource efficiency. As regional and national green building codes and programs become more available, they provide jurisdictions with another tool for guiding construction and development in an overall less impactful, more sustainable manner. ICC ASHRAE Beyond Codes International Green Construction Code (IgCC) The International Code Council's (ICC's) International Green Construction code (IgCC) is an overlay code, meaning it is written in a manner to be used with all the other ICC codes. The IgCC contains provisions for site

133

" Row: NAICS Codes; Column: Energy Sources...  

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

and",,"Coke and"," ","of Energy Sources","Row" "Code(a)","Subsector and Industry","Source(b)","Electricity(c)","Fuel Oil","Fuel Oil(d)","Gas(e)","NGL(f)","Coal","...

134

" Row: NAICS Codes; Column: Energy Sources...  

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

sidual","Distillate",,"LPG and",,"Coke and",,"of Energy Sources" "Code(a)","Subsector and Industry","Source(b)","Electricity(c)","Fuel Oil","Fuel Oil(d)","Natural...

135

Residential Code Development | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Residential Code Development Subscribe to updates To receive news and updates about code development activities subscribe to the BECP Mailing List. The model residential building...

136

Residential Code Methodology | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

& Offices Consumer Information Building Energy Codes Search Search Search Help Building Energy Codes Program Home News Events About DOE EERE BTO BECP Site Map...

137

Local entropy generation analysis  

SciTech Connect

Second law analysis techniques have been widely used to evaluate the sources of irreversibility in components and systems of components but the evaluation of local sources of irreversibility in thermal processes has received little attention. While analytical procedures for evaluating local entropy generation have been developed, applications have been limited to fluid flows with analytical solutions for the velocity and temperature fields. The analysis of local entropy generation can be used to evaluate more complicated flows by including entropy generation calculations in a computational fluid dynamics (CFD) code. The research documented in this report consists of incorporating local entropy generation calculations in an existing CFD code and then using the code to evaluate the distribution of thermodynamic losses in two applications: an impinging jet and a magnetic heat pump. 22 refs., 13 figs., 9 tabs.

Drost, M.K.; White, M.D.

1991-02-01T23:59:59.000Z

138

Building Energy Code | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Building Energy Code Building Energy Code Building Energy Code < Back Eligibility Commercial Residential Savings Category Heating & Cooling Home Weatherization Construction Commercial Weatherization Commercial Heating & Cooling Design & Remodeling Program Info State West Virginia Program Type Building Energy Code Provider West Virginia Division of Energy ''Much of the information presented in this summary is drawn from the U.S. Department of Energy's (DOE) Building Energy Codes Program and the Building Codes Assistance Project (BCAP). For more detailed information about building energy codes, visit the [http://www.energycodes.gov/states/ DOE] and [http://bcap-ocean.org/ BCAP] websites.'' The West Virginia State Fire Commission is responsible for adopting and promulgating statewide construction codes. Local jurisdictions must adopt

139

DOE Code:  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

we1rbox installatiOn we1rbox installatiOn ____:....;...=.~;;....:..;=-+- DOE Code: - - !- Project Lead: Wes R1esland NEPA COMPLIANCE SURVEY J 3-24-10 1 Date: Project Information 1. Project Overview What are tne enwonmental mpacts? Contractor~~ _ _ _ _ ] 11 The purpose of this project is to prepare a pad for a 90 ton crane to get 1nto positiOn and ng up so we can 1 set our new weir box into position We will widen the existing road around 20 feet at the north end and taper our fill to about5 feet at the south end for a total of about 200 feeL and budd a near level pad for them tong up the crane on We will use the d1rt from the hill irnrnedJateiy north of the work to oe done 2. 3 4 What*s the legal location? What IS the durabon of the prOJed?

140

70 Home Power #64 April / May 1998 Code Corner  

E-Print Network (OSTI)

Electrical Code Handbook and the International Association of Electrical Inspectors (IAEI) Soares Book such as metal water pipes, metal building frames, and concrete-encased cables (known as UFERs after

Johnson, Eric E.

Note: This page contains sample records for the topic "local electrical codes" 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.


141

Nondestructive Evaluation: ASME Code Participation and Cost Savings in 2011  

Science Conference Proceedings (OSTI)

Because some utilities are unable to participate in code activities, this project provides a way for them to be represented at ASME code meetings by Electric Power Research Institute (EPRI) Nondestructive Evaluation (NDE) Program staff members, particularly for Section XI (Nuclear In-Service Inspection). Staff members prepare code revisions, inquiries, technical basis documents, and code cases for submittal to the codes consensus process. Directives to the U.S. Nuclear Regulatory Commission require the s...

2011-07-29T23:59:59.000Z

142

HST.723 Neural Coding and Perception of Sound, Spring 2003  

E-Print Network (OSTI)

Neural structures and mechanisms mediating the detection, localization, and recognition of sounds. Discussion of how acoustic signals are coded by auditory neurons, the impact of these codes on behavorial performance, and ...

Delgutte, Bertrand

143

Improvements in the computation of balances and localization of commercial losses of electric energy in 0.38-kV networks  

SciTech Connect

An example of four 0.38-kV overhead distribution lines fed from a 10/0.4-kV transformer substation of the Grodno Electrical Networks (Belarus') and supplying electricity to a cottage area is used for analyzing energy balances and commercial losses in the networks. It is shown that the reliability of such analysis can be ensured by the use of modern software and electronic energy meters recording a retrospective of half-hourly intervals of active and reactive electric energy.

Vorotnitskii, V. Z.; Zaslonov, S. V.; Lysyuk, S. S. [Electric Power Research Institute (VNIIE) (Russian Federation)

2006-11-15T23:59:59.000Z

144

Smart buildings with electric vehicle interconnection as buffer...  

NLE Websites -- All DOE Office Websites (Extended Search)

buildings with electric vehicle interconnection as buffer for local renewables? Title Smart buildings with electric vehicle interconnection as buffer for local renewables?...

145

Building Energy Code | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Building Energy Code Building Energy Code Building Energy Code < Back Eligibility Commercial Residential Schools Savings Category Heating & Cooling Home Weatherization Construction Commercial Weatherization Commercial Heating & Cooling Design & Remodeling Solar Heating Buying & Making Electricity Water Heating Program Info State California Program Type Building Energy Code Provider California Energy Commission '''''Note: The California Energy Commission adopted the 2013 Building Energy Efficiency Standards for new residential and commercial construction on May 31, 2012. The new standards are expected to take effect on January 1, 2014, and represent significant energy and water savings compared to the current standards. Among many notable provisions, the new standards will

146

Building Energy Code | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Indiana Indiana Program Type Building Energy Code Provider TSREI ''Much of the information presented in this summary is drawn from the U.S. Department of Energy's (DOE) Building Energy Codes Program and the Building Codes Assistance Project (BCAP). For more detailed information about building energy codes, visit the [http://www.energycodes.gov/states/ DOE] and [http://bcap-ocean.org/ BCAP] websites.'' The Indiana Residential Building Code is based on the 2003 IRC with state amendments (eff. 9/11/05). This code applies to 1 and 2 family dwellings and townhouses. During the adoption process, certain seismic provisions were weakened, primarily affecting nine southwestern counties. Local jurisdictions may amend to make the code more stringent with state approval only.

147

Local Option - Property Tax Exemption for Renewable Energy Systems |  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Local Option - Property Tax Exemption for Renewable Energy Systems Local Option - Property Tax Exemption for Renewable Energy Systems Local Option - Property Tax Exemption for Renewable Energy Systems < Back Eligibility Agricultural Commercial Industrial Residential Savings Category Bioenergy Solar Buying & Making Electricity Home Weatherization Water Heating & Cooling Commercial Heating & Cooling Heating Water Heating Wind Program Info State Rhode Island Program Type Property Tax Incentive Rebate Amount Varies (local option) Provider Rhode Island Office of Energy Resources Rhode Island allows cities and towns to exempt, by ordinance, renewable energy systems from property taxation. The term "renewable energy system" is not defined in the applicable statute (R.I. Gen. Laws § 44-3-21). Note that [http://dsireusa.org/incentives/incentive.cfm?Incentive_Code=RI02F&re=1&ee=1

148

Local Option - Property Tax Credit for Renewables and Energy Conservation  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Local Option - Property Tax Credit for Renewables and Energy Local Option - Property Tax Credit for Renewables and Energy Conservation Devices Local Option - Property Tax Credit for Renewables and Energy Conservation Devices < Back Eligibility Agricultural Commercial Industrial Low-Income Residential Multi-Family Residential Residential Savings Category Other Solar Buying & Making Electricity Heating & Cooling Commercial Heating & Cooling Heating Water Heating Maximum Rebate Varies by jurisdiction. Program Info State Maryland Program Type Property Tax Incentive Rebate Amount Varies by jurisdiction; credit may be available for up to 3 years. Title 9 of Maryland's property tax code provides local governments the option to allow a property tax credit for buildings equipped with a solar, geothermal or qualifying energy conservation device. These devices may be

149

"Code(a)","Subsector and Industry","Source(b)","Electricity(c)","Fuel Oil","Fuel Oil(d)","Natural Gas(e)","NGL(f)","Coal","and Breeze","Other(g)"  

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

3.4 Relative Standard Errors for Table 3.4;" 3.4 Relative Standard Errors for Table 3.4;" " Unit: Percents." " "," "," ",," "," "," "," "," "," "," ",," " " "," ","Any" "NAICS"," ","Energy","Net","Residual","Distillate",,"LPG and",,"Coke"," " "Code(a)","Subsector and Industry","Source(b)","Electricity(c)","Fuel Oil","Fuel Oil(d)","Natural Gas(e)","NGL(f)","Coal","and Breeze","Other(g)" ,,"Total United States"

150

Codes 101 | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Codes 101 Codes 101 This course covers basic knowledge of energy codes and standards, the development processes of each, historical timelines, adoption, implementation, and enforcement of energy codes and standards, and voluntary energy efficiency programs. Most sections have links that provide additional details on that section's topic as well as additional resources for more information. Begin Learning! Estimated Length: 1-2 hours CEUs Offered: 1.0 AIA/CES LU (HSW); .10 CEUs towards ICC renewal certification. Course Type: Self-paced, online Building Type: Commercial Residential Focus: Adoption Code Development Compliance Code Version: ASHRAE Standard 90.1 International Energy Conservation Code (IECC) Model Energy Code (MEC) Target Audience: Advocate Architect/Designer Builder

151

ASME Code Efforts Supporting HTGRs  

SciTech Connect

In 1999, an international collaborative initiative for the development of advanced (Generation IV) reactors was started. The idea behind this effort was to bring nuclear energy closer to the needs of sustainability, to increase proliferation resistance, and to support concepts able to produce energy (both electricity and process heat) at competitive costs. The U.S. Department of Energy has supported this effort by pursuing the development of the Next Generation Nuclear Plant, a high temperature gas-cooled reactor. This support has included research and development of pertinent data, initial regulatory discussions, and engineering support of various codes and standards development. This report discusses the various applicable American Society of Mechanical Engineers (ASME) codes and standards that are being developed to support these high temperature gascooled reactors during construction and operation. ASME is aggressively pursuing these codes and standards to support an international effort to build the next generation of advanced reactors so that all can benefit.

D.K. Morton

2012-09-01T23:59:59.000Z

152

ASME Code Efforts Supporting HTGRs  

SciTech Connect

In 1999, an international collaborative initiative for the development of advanced (Generation IV) reactors was started. The idea behind this effort was to bring nuclear energy closer to the needs of sustainability, to increase proliferation resistance, and to support concepts able to produce energy (both electricity and process heat) at competitive costs. The U.S. Department of Energy has supported this effort by pursuing the development of the Next Generation Nuclear Plant, a high temperature gas-cooled reactor. This support has included research and development of pertinent data, initial regulatory discussions, and engineering support of various codes and standards development. This report discusses the various applicable American Society of Mechanical Engineers (ASME) codes and standards that are being developed to support these high temperature gascooled reactors during construction and operation. ASME is aggressively pursuing these codes and standards to support an international effort to build the next generation of advanced reactors so that all can benefit.

D.K. Morton

2011-09-01T23:59:59.000Z

153

Administrative Code Title 83, Public Utilities (Illinois) | Department of  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Administrative Code Title 83, Public Utilities (Illinois) Administrative Code Title 83, Public Utilities (Illinois) Administrative Code Title 83, Public Utilities (Illinois) < Back Eligibility Commercial Municipal/Public Utility Rural Electric Cooperative Transportation Utility Savings Category Alternative Fuel Vehicles Hydrogen & Fuel Cells Buying & Making Electricity Water Home Weatherization Solar Wind Program Info State Illinois Program Type Environmental Regulations Generating Facility Rate-Making Renewables Portfolio Standards and Goals Safety and Operational Guidelines Training/Technical Assistance Provider Illinois Commerce Commission In addition to general rules for utilities, this article states regulations for the protection of underground utilities, promotional practices of electric and gas public utilities construction of electric power and

154

Building Technologies Office: Commercial Building Codes and Standards  

NLE Websites -- All DOE Office Websites (Extended Search)

Codes and Standards Codes and Standards Photo of two inspectors looking at a clipboard on a commercial building site with the steel frame of a commercial building in the background. Local code officials enforce building energy codes. Credit: iStockphoto Once an energy-efficient technology or practice is widely available in the market, it can become the baseline of performance through building energy codes and equipment standards. The Building Technologies Office (BTO) provides support to states and local governments as they adopt and monitor commercial building code as well as builders working to meet and exceed code. BTO also develops test procedures and minimum efficiency standards for commercial equipment. Building Energy Codes DOE encourages using new technologies and better building practices to improve energy efficiency. Mandating building energy efficiency by including it in state and local codes is an effective strategy for achieving that goal. The Building Energy Codes Program works with the International Code Council (ICC), American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), Illuminating Engineering Society of North America (IESNA), American Institute of Architects (AIA), the building industry, and state and local officials to develop and promote more stringent and easy-to-understand building energy codes and to assess potential code barriers to new energy-efficient technologies.

155

Quantum error control codes  

E-Print Network (OSTI)

It is conjectured that quantum computers are able to solve certain problems more quickly than any deterministic or probabilistic computer. For instance, Shor's algorithm is able to factor large integers in polynomial time on a quantum computer. A quantum computer exploits the rules of quantum mechanics to speed up computations. However, it is a formidable task to build a quantum computer, since the quantum mechanical systems storing the information unavoidably interact with their environment. Therefore, one has to mitigate the resulting noise and decoherence effects to avoid computational errors. In this dissertation, I study various aspects of quantum error control codes - the key component of fault-tolerant quantum information processing. I present the fundamental theory and necessary background of quantum codes and construct many families of quantum block and convolutional codes over finite fields, in addition to families of subsystem codes. This dissertation is organized into three parts: Quantum Block Codes. After introducing the theory of quantum block codes, I establish conditions when BCH codes are self-orthogonal (or dual-containing) with respect to Euclidean and Hermitian inner products. In particular, I derive two families of nonbinary quantum BCH codes using the stabilizer formalism. I study duadic codes and establish the existence of families of degenerate quantum codes, as well as families of quantum codes derived from projective geometries. Subsystem Codes. Subsystem codes form a new class of quantum codes in which the underlying classical codes do not need to be self-orthogonal. I give an introduction to subsystem codes and present several methods for subsystem code constructions. I derive families of subsystem codes from classical BCH and RS codes and establish a family of optimal MDS subsystem codes. I establish propagation rules of subsystem codes and construct tables of upper and lower bounds on subsystem code parameters. Quantum Convolutional Codes. Quantum convolutional codes are particularly well-suited for communication applications. I develop the theory of quantum convolutional codes and give families of quantum convolutional codes based on RS codes. Furthermore, I establish a bound on the code parameters of quantum convolutional codes - the generalized Singleton bound. I develop a general framework for deriving convolutional codes from block codes and use it to derive families of non-catastrophic quantum convolutional codes from BCH codes. The dissertation concludes with a discussion of some open problems.

Abdelhamid Awad Aly Ahmed, Sala

2008-05-01T23:59:59.000Z

156

Synthesis Report on the Implementation of Building Energy Codes in China  

SciTech Connect

China building energy code and details to help improve building energy efficiency at global, national and local levels

Shui, Bin; Haiyan, Lin; Congu, Yu; Halverson, Mark A.; Bo, Song; Jingru, Liu; Evans, Meredydd; Xiajiao, Zhu; Siwei, Lang

2011-03-31T23:59:59.000Z

157

State and Local Clean Energy Policy Primer: Getting from Here to Clean Electricity with Policy (Fact Sheet), NREL (National Renewable Energy Laboratory)  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Single policies do not create market transformation for a Single policies do not create market transformation for a clean energy economy in states and localities. To reap the economic, environmental, and security benefits of clean energy development, suites of policies applied in succession are often the most cost-effective way to move toward transformation. This also allows for states and localities to target the lowest cost strategies first, increasing consumer comfort with innovative clean energy technologies later on. This factsheet proposes a framework for how states and localities can build policy portfolios by first setting the stage for clean energy in the market with low cost policies, and then growing the market with successive policies until the need for financial incentives can be reduced and eventually eliminated.

158

State and Local Clean Energy Policy Primer: Getting from Here to Clean Electricity with Policy (Fact Sheet), NREL (National Renewable Energy Laboratory)  

NLE Websites -- All DOE Office Websites (Extended Search)

Single policies do not create market transformation for a Single policies do not create market transformation for a clean energy economy in states and localities. To reap the economic, environmental, and security benefits of clean energy development, suites of policies applied in succession are often the most cost-effective way to move toward transformation. This also allows for states and localities to target the lowest cost strategies first, increasing consumer comfort with innovative clean energy technologies later on. This factsheet proposes a framework for how states and localities can build policy portfolios by first setting the stage for clean energy in the market with low cost policies, and then growing the market with successive policies until the need for financial incentives can be reduced and eventually eliminated.

159

State Building Code  

NLE Websites -- All DOE Office Websites (Extended Search)

Adoption Updated: 121708 - 1 - Code Adoption Process Checklist Para-Technical Adoption of Code Effective Date Responsible Chief Policy Analyst Support Staff: Boards Coordinator...

160

Contacts | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Contacts Contacts Provide feedback, ask questions, or formally request assistance: Website Contact Report broken links and suggest content and/or updates to information on this website. Please use the Online Help Desk for questions or issues with the compliance software tools. Online Help Desk Submit questions regarding energy codes, compliance, REScheck(tm), COMcheck(tm), or other BECP tools to a building energy codes expert. Technical Assistance Request Submit a formal, state or local jurisdiction-level request for technical assistance. Program Contacts U.S. Department of Energy (DOE) contacts for the Building Energy Codes Program (BECP). Federal (DOE) Contact Program Area Jeremy Williams, Project Manager Adoption Compliance Compliance Tools- REScheck& COMcheck Technical Assistance

Note: This page contains sample records for the topic "local electrical codes" 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

Code manual for passive solar design single family residential construction  

DOE Green Energy (OSTI)

General information is presented on types of passive solar techniques and a method for estimating passive solar performance. Important codes and standards are described, each description listing the items in the code which could have a potential impact on a passive solar design and analyzing the effect of the code on the use of such techniques. State and local codes and code agencies are summarized. The local summary contains the name of a contact in the enforcement agency to whom specific questions may be addressed. The requirements to file for a building permit are given briefly. (LEW)

None

1979-08-01T23:59:59.000Z

162

Development of a Novel Efficient Solid-Oxide Hybrid for Co-generation of Hydrogen and Electricity Using Nearby Resources for Local Application  

DOE Green Energy (OSTI)

Developing safe, reliable, cost-effective, and efficient hydrogen-electricity co-generation systems is an important step in the quest for national energy security and minimized reliance on foreign oil. This project aimed to, through materials research, develop a cost-effective advanced technology cogenerating hydrogen and electricity directly from distributed natural gas and/or coal-derived fuels. This advanced technology was built upon a novel hybrid module composed of solid-oxide fuel-assisted electrolysis cells (SOFECs) and solid-oxide fuel cells (SOFCs), both of which were in planar, anode-supported designs. A SOFEC is an electrochemical device, in which an oxidizable fuel and steam are fed to the anode and cathode, respectively. Steam on the cathode is split into oxygen ions that are transported through an oxygen ion-conducting electrolyte (i.e. YSZ) to oxidize the anode fuel. The dissociated hydrogen and residual steam are exhausted from the SOFEC cathode and then separated by condensation of the steam to produce pure hydrogen. The rationale was that in such an approach fuel provides a chemical potential replacing the external power conventionally used to drive electrolysis cells (i.e. solid oxide electrolysis cells). A SOFC is similar to the SOFEC by replacing cathode steam with air for power generation. To fulfill the cogeneration objective, a hybrid module comprising reversible SOFEC stacks and SOFC stacks was designed that planar SOFECs and SOFCs were manifolded in such a way that the anodes of both the SOFCs and the SOFECs were fed the same fuel, (i.e. natural gas or coal-derived fuel). Hydrogen was produced by SOFECs and electricity was generated by SOFCs within the same hybrid system. A stand-alone 5 kW system comprising three SOFEC-SOFC hybrid modules and three dedicated SOFC stacks, balance-of-plant components (including a tailgas-fired steam generator and tailgas-fired process heaters), and electronic controls was designed, though an overall integrated system assembly was not completed because of limited resources. An inexpensive metallic interconnects fabrication process was developed in-house. BOP components were fabricated and evaluated under the forecasted operating conditions. Proof-of-concept demonstration of cogenerating hydrogen and electricity was performed, and demonstrated SOFEC operational stability over 360 hours with no significant degradation. Cost analysis was performed for providing an economic assessment of the cost of hydrogen production using the targeted hybrid technology, and for guiding future research and development.

Tao, Greg, G.; Virkar, Anil, V.; Bandopadhyay, Sukumar; Thangamani, Nithyanantham; Anderson, Harlan, U.; Brow, Richard, K.

2009-06-30T23:59:59.000Z

163

Lakeland Electric - Commercial Conservation Rebate Program |...  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Commercial Conservation Rebate Program Lakeland Electric - Commercial Conservation Rebate Program Eligibility Commercial Fed. Government Industrial Local Government Nonprofit State...

164

New codes and standards for utility - interconnection of AC PV modules  

DOE Green Energy (OSTI)

Photovoltaic (PV) modules that provide only ac power give new dimensions to the use of, and utility interface of, PV systems because all of the dc issues are virtually eliminated. These AC PV modules offer the important advantage that customers may now purchase a PV system without hiring a design engineer. A qualified electrician will be able to install a complete PV system that performs as expected and meets local electrical codes. Simple installations of additional AC PV modules will be possible once the proper branch circuit wiring and protection have been installed. Codes and standards are currently being written to address the utility-interconnect issues for AC PV modules and other interactive inverters. An industry-supported Task Group has recently written and submitted proposals for changes to bring Article 690 of the 1999 National Electrical Code{reg_sign} (NEC{reg_sign}) up to the state-of-the-art for PV devices such as AC PV modules. This paper summarizes the proposed code changes and standards related to the evolving AC PV module technology in the United States. Topics such as the need for dedicated branch circuits for AC PV modules in residential applications are discussed and analyzed. Requirements for limiting the number of AC modules on a branch circuit and the listing requirements that make safe installations are discussed. Coordination of all standards activities for AC module installations, the building-integrated perspectives, and utility-interface issues is discussed.

Bower, W.

1997-10-01T23:59:59.000Z

165

Essays on the Impact of Climate Change and Building Codes on Energy Consumption and the Impact of Ozone on Crop Yield  

E-Print Network (OSTI)

electricity consumption for 2006 by five-digit zipelectricity consumption by zip code for the periods 2020 toSummary statistics for zip codes in and out of

Aroonruengsawat, Anin

2010-01-01T23:59:59.000Z

166

DRC2: A code with specialized applications for coupling localized Monte Carlo adjoint calculations with fluences from two-dimensional R-Z discrete ordinates air-over-ground calculations  

Science Conference Proceedings (OSTI)

The DRC2 code, which couples MASH or MASHX adjoint leakages with DORT 2-D discrete ordinates forward directional fluences, is described. The forward fluences are allowed to vary both axially and radially over the coupling surface, as opposed to the strictly axial variation allowed by the predecessor DRC code. Input instructions are presented along with descriptions and results from several sample problems. Results from the sample problems are used to compare DRC2 with DRC, DRC2 with DORT, and DRC2 with itself for the case of x-y dependence versus no x-y dependence of the forward fluence. The test problems demonstrate that for small systems DRC and DRC2 give essentially the same results. Some significant differences are noted for larger systems. Additionally, DRC2 results with no x-y dependence of the forward directional fluences are practically the same as those calculated by DRC.

Slater, C.O.

1992-01-01T23:59:59.000Z

167

A Retrospective Analysis of Commercial Building Energy Codes: 1990 – 2008  

Science Conference Proceedings (OSTI)

Building Energy Codes Program's efforts are designed to result in increased stringency in national model energy codes, more rapid and broader adoption by states and localities of updated codes, and increased compliance and enforcement. Report estimates the historical impact of Building Energy Codes Program in terms of energy savings achieved that are based upon various editions of ANSI/ASHRAE/IESNA Standard 90.1 (ASHRAE Standard 90.1).

Belzer, David B.; McDonald, Sean C.; Halverson, Mark A.

2010-10-01T23:59:59.000Z

168

Step 1. Understand the Benefits of Code Adoption | Building Energy Codes  

NLE Websites -- All DOE Office Websites (Extended Search)

1. Understand the Benefits of Code Adoption 1. Understand the Benefits of Code Adoption Before beginning the code adoption process, states and jurisdictions should understand the benefits realized through energy code adoption. Description The primary goal of an energy code or standard is to conserve energy. Commercial buildings and residential households in the United States consume nearly 50% of the nation's total primary energy, 70% of the nation's electricity, and account for one-third of the nation's greenhouse emissions.1 A report by the McKinsey Global Institute found that America could reduce energy use in new and existing buildings by more than one quarter by 2020 with measures that pay for themselves within 10 years.2 Energy code adoption enables new and renovated residential and commercial

169

"NAICS Code(a)","Energy-Management Activity","No Participation","Participation(b)","In-house","Utlity/Energy Suppler","Product/Service Provider","Federal Program","State/Local Program","Don't Know"  

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

1 Relative Standard Errors for Table 8.1;" 1 Relative Standard Errors for Table 8.1;" " Unit: Percents." ,,,," Source of Assistance" "NAICS Code(a)","Energy-Management Activity","No Participation","Participation(b)","In-house","Utlity/Energy Suppler","Product/Service Provider","Federal Program","State/Local Program","Don't Know" ,,"Total United States" " 311 - 339","ALL MANUFACTURING INDUSTRIES" ,"Participation in One or More of the Following Types of Activities",1.3,1.7,"--","--","--","--","--","--" ," Energy Audit or Assessment",0.7,2.6,3.9,4.9,6.3,16.5,12.3,6.8

170

MidAmerican Energy (Gas and Electric) - Commercial New Construction  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

MidAmerican Energy (Gas and Electric) - Commercial New Construction MidAmerican Energy (Gas and Electric) - Commercial New Construction Energy-Efficiency Program MidAmerican Energy (Gas and Electric) - Commercial New Construction Energy-Efficiency Program < Back Eligibility Commercial Fed. Government Industrial Local Government Nonprofit State Government Savings Category Home Weatherization Commercial Weatherization Heating & Cooling Commercial Heating & Cooling Cooling Construction Design & Remodeling Other Sealing Your Home Ventilation Heat Pumps Heating Appliances & Electronics Commercial Lighting Lighting Manufacturing Windows, Doors, & Skylights Solar Program Info State Iowa Program Type Utility Rebate Program Rebate Amount Construction rebates: $0.06-$0.19/kWh saved; $0.60-$1.90/therm saved based on % savings from Iowa Energy Code

171

"Code(a)","Subsector and Industry","Source(b)","Electricity(c)","Fuel Oil","Fuel Oil(d)","Natural Gas(e)","NGL(f)","Coal","and Breeze","Other(g)"  

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

4.4 Relative Standard Errors for Table 4.4;" 4.4 Relative Standard Errors for Table 4.4;" " Unit: Percents." " "," "," ",," "," "," "," "," "," "," ",," " " "," ","Any" "NAICS"," ","Energy",,"Residual","Distillate",,"LPG and",,"Coke"," " "Code(a)","Subsector and Industry","Source(b)","Electricity(c)","Fuel Oil","Fuel Oil(d)","Natural Gas(e)","NGL(f)","Coal","and Breeze","Other(g)" ,,"Total United States" , 311,"Food",0.4,0.4,19.4,9,2,6.9,5.4,0,10.3

172

Building Energy Codes ENFORCEMENT TOOLKIT BUILDING TECHNOLOGIES PROGRAM  

NLE Websites -- All DOE Office Websites (Extended Search)

ENFORCEMENT TOOLKIT ENFORCEMENT TOOLKIT BUILDING TECHNOLOGIES PROGRAM Building Energy Codes ACE LEARNING SERIES i Building Energy Codes ENFORCEMENT TOOLKIT Prepared by: Building Energy Codes Program The U.S. Department of Energy's Building Energy Codes Program is an information resource on energy codes and standards for buildings. They work with other government agencies, state and local jurisdictions, organizations that develop model codes and standards, and building industry to promote codes that will provide for energy and environmental benefits and help foster adoption of, compliance with, and enforcement of those codes. September 2012 Prepared for the U.S. Department of Energy under Contract DE-AC05-76RL01830 PNNL-SA-90467 LEARNING SERIES OVERVIEW Building Energy Codes ACE

173

Building Energy Codes COMPLIANCE TOOLKIT BUILDING TECHNOLOGIES PROGRAM  

NLE Websites -- All DOE Office Websites (Extended Search)

COMPLIANCE TOOLKIT COMPLIANCE TOOLKIT BUILDING TECHNOLOGIES PROGRAM Building Energy Codes ACE LEARNING SERIES III Building Energy Codes COMPLIANCE TOOLKIT Prepared by: Building Energy Codes Program (BECP) The U.S. Department of Energy's (DOE) Building Energy Codes Program (BECP) is an information resource on energy codes and standards for buildings. They work with other government agencies, state and local jurisdictions, organizations that develop model codes and standards, and building industry to promote codes that will provide for energy and environmental benefits and help foster adoption of, compliance with, and enforcement of those codes. September 2012 Prepared for the U.S. Department of Energy under Contract DE-AC05-76RL01830 PNNL-SA-90466 LEARNING SERIES OVERVIEW Building Energy Codes

174

Building Energy Codes ADOPTION TOOLKIT BUILDING TECHNOLOGIES PROGRAM  

NLE Websites -- All DOE Office Websites (Extended Search)

ADOPTION TOOLKIT ADOPTION TOOLKIT BUILDING TECHNOLOGIES PROGRAM Building Energy Codes ACE LEARNING SERIES I Building Energy Codes ADOPTION TOOLKIT Prepared by: Building Energy Codes Program (BECP) The U.S. Department of Energy's (DOE) Building Energy Codes Program (BECP) is an information resource on energy codes and standards for buildings. They work with other government agencies, state and local jurisdictions, organizations that develop model codes and standards, and building industry to promote codes that will provide for energy and environmental benefits and help foster adoption of, compliance with, and enforcement of those codes. September 2012 Prepared for the U.S. Department of Energy under Contract DE-AC05-76RL01830 PNNL-SA-89963 LEARNING SERIES OVERVIEW Building Energy Codes

175

Model documentation: Electricity Market Module, Electricity Fuel Dispatch Submodule  

SciTech Connect

This report documents the objectives, analytical approach and development of the National Energy Modeling System Electricity Fuel Dispatch Submodule (EFD), a submodule of the Electricity Market Module (EMM). The report catalogues and describes the model assumptions, computational methodology, parameter estimation techniques, model source code, and forecast results generated through the synthesis and scenario development based on these components.

Not Available

1994-04-08T23:59:59.000Z

176

Toolkit Definitions | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Site Map Printable Version Development Adoption Compliance Regulations Resource Center Toolkit Definitions The following are definitions for common terms used within the adoption, compliance, and enforcement toolkits. Building code refers to a law or regulation used by state or local governments that establishes specifications for the design and construction of residential or commercial buildings. Building codes help ensure that new and existing residential and commercial structures meet minimum health, safety, and performance standards. In addition, building codes offer a baseline to which structures can be compared. Code adoption refers to the vehicle that establishes code requirements and their administration. Adoption can be mandatory, voluntary, or a combination of the two. The means of adoption vary with respect to the

177

Building Energy Code  

Energy.gov (U.S. Department of Energy (DOE))

''Much of the information presented in this summary is drawn from the U.S. Department of Energy’s (DOE) Building Energy Codes Program and the Building Codes Assistance Project (BCAP). For more...

178

Active code completion  

Science Conference Proceedings (OSTI)

Code completion menus have replaced standalone API browsers for most developers because they are more tightly integrated into the development workflow. Refinements to the code completion menu that incorporate additional sources of information have similarly ...

Cyrus Omar; YoungSeok Yoon; Thomas D. LaToza; Brad A. Myers

2012-06-01T23:59:59.000Z

179

Model Building Energy Code  

Energy.gov (U.S. Department of Energy (DOE))

''Much of the information presented in this summary is drawn from the U.S. Department of Energy’s (DOE) Building Energy Codes Program and the Building Codes Assistance Project (BCAP). For more...

180

INTERNATIONAL CODE COUNCIL  

Science Conference Proceedings (OSTI)

... EE concepts / practices Page 8. IGCC Code Development Timeline ... Board modification) Page 9. IGCC Subject Areas 1. Energy use efficiency- ...

2012-10-14T23:59:59.000Z

Note: This page contains sample records for the topic "local electrical codes" 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

Model Policies | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Center Center Site Map Printable Version Development Adoption Compliance Regulations Resource Center FAQs Publications Resource Guides eLearning Model Policies Glossary Related Links ACE Learning Series Utility Savings Estimators Model Policies States and local jurisdictions across the nation have demonstrated leadership in developing programs and policies that both encourage and require compliance with energy codes, stretch codes (e.g., above-minimum codes) and green building techniques, energy-efficiency practices, and environmentally-friendly procedures. The laws and regulations behind these programs and policies can help states and jurisdictions establish unique policies to address their particular needs. Model policies for residential and commercial building construction have

182

Informal Control code logic  

E-Print Network (OSTI)

General definitions as well as rules of reasoning regarding control code production, distribution, deployment, and usage are described. The role of testing, trust, confidence and risk analysis is considered. A rationale for control code testing is sought and found for the case of safety critical embedded control code.

Bergstra, Jan A

2010-01-01T23:59:59.000Z

183

OEET 141.Electrical Lineworker II 5 cr. (10P) Practice in the installation of electrical power lines including transform-  

E-Print Network (OSTI)

Electric Code Fuel Cell Systems (Published) NFPA 110 Standby Power Systems (Published) NFPA Codes Fuel) NFPA 70 Article 692 National Electric Code Fuel Cell Systems (Published) NFPA 110 Standby Power Systems by 2007. Support and facilitate the effort, led by the National Fire Protection Association (NFPA

Castillo, Steven P.

184

Measurement and analysis of the standby power of twenty-seven portable electric spas.  

E-Print Network (OSTI)

?? Portable electric spas are typically the largest electrical load in homes that have one. In recent years, the California Energy Commission’s California code of… (more)

Hamill, Andrew Ian

2012-01-01T23:59:59.000Z

185

Electric Vehicles  

Energy.gov (U.S. Department of Energy (DOE))

Electricity can be used as a transportation fuel to power battery electric vehicles (EVs). EVs store electricity in an energy storage device, such as a battery.

186

Vehicle Codes and Standards: Overview and Gap Analysis  

DOE Green Energy (OSTI)

This report identifies gaps in vehicle codes and standards and recommends ways to fill the gaps, focusing on six alternative fuels: biodiesel, natural gas, electricity, ethanol, hydrogen, and propane.

Blake, C.; Buttner, W.; Rivkin, C.

2010-02-01T23:59:59.000Z

187

XSOR codes users manual  

SciTech Connect

This report describes the source term estimation codes, XSORs. The codes are written for three pressurized water reactors (Surry, Sequoyah, and Zion) and two boiling water reactors (Peach Bottom and Grand Gulf). The ensemble of codes has been named ``XSOR``. The purpose of XSOR codes is to estimate the source terms which would be released to the atmosphere in severe accidents. A source term includes the release fractions of several radionuclide groups, the timing and duration of releases, the rates of energy release, and the elevation of releases. The codes have been developed by Sandia National Laboratories for the US Nuclear Regulatory Commission (NRC) in support of the NUREG-1150 program. The XSOR codes are fast running parametric codes and are used as surrogates for detailed mechanistic codes. The XSOR codes also provide the capability to explore the phenomena and their uncertainty which are not currently modeled by the mechanistic codes. The uncertainty distributions of input parameters may be used by an. XSOR code to estimate the uncertainty of source terms.

Jow, Hong-Nian [Sandia National Labs., Albuquerque, NM (United States); Murfin, W.B. [Technadyne Engineering Consultants, Inc., Albuquerque, NM (United States); Johnson, J.D. [Science Applications International Corp., Albuquerque, NM (United States)

1993-11-01T23:59:59.000Z

188

Arizona | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

None Statewide Amendments Additional State Code Information Arizona has no statewide energy code. However, many counties have adopted the IECC 2006 as an energy efficiency code....

189

Code of Conduct  

NLE Websites -- All DOE Office Websites (Extended Search)

Governance » Governance » Ethics, Accountability » Code of Conduct Code of Conduct Helping employees recognize and resolve the ethics and compliance issues that may arise in their daily work. Contact Code of Conduct (505) 667-7506 Code of Conduct LANL is committed to operating in accordance with the highest standards of ethics and compliance and with its core values of service to our nation, ethical conduct and personal accountability, excellence in our work, and mutual respect and teamwork. LANL must demonstrate to customers and the public that the Laboratory is accountable for its actions and that it conducts business in a trustworthy manner. What is LANL's Code of Conduct? Charlie McMillan 1:46 Laboratory Director Charlie McMillan introduces the code LANL's Code of Conduct is designed to help employees recognize and

190

State and Local Clean Energy Policy Primer: Getting from Here...  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

State and Local Clean Energy Policy Primer: Getting from Here to Clean Electricity with Policy (Fact Sheet), NREL (National Renewable Energy Laboratory) State and Local Clean...

191

" Row: End Uses within NAICS Codes;"  

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

4 End Uses of Fuel Consumption, 2006;" 4 End Uses of Fuel Consumption, 2006;" " Level: National Data; " " Row: End Uses within NAICS Codes;" " Column: Energy Sources, including Net Demand for Electricity;" " Unit: Trillion Btu." " "," ",," ","Distillate"," "," " " "," ",,,"Fuel Oil",,,"Coal" "NAICS"," ","Net Demand","Residual","and",,"LPG and","(excluding Coal" "Code(a)","End Use","for Electricity(b)","Fuel Oil","Diesel Fuel(c)","Natural Gas(d)","NGL(e)","Coke and Breeze)"

192

" Row: End Uses within NAICS Codes;"  

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

2 End Uses of Fuel Consumption, 2006;" 2 End Uses of Fuel Consumption, 2006;" " Level: National Data; " " Row: End Uses within NAICS Codes;" " Column: Energy Sources, including Net Electricity;" " Unit: Trillion Btu." ,,,,,"Distillate" ,,,,,"Fuel Oil",,,"Coal" "NAICS",,,"Net","Residual","and",,"LPG and","(excluding Coal" "Code(a)","End Use","Total","Electricity(b)","Fuel Oil","Diesel Fuel(c)","Natural Gas(d)","NGL(e)","Coke and Breeze)","Other(f)" ,,"Total United States"

193

" Row: End Uses within NAICS Codes;"  

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

2 End Uses of Fuel Consumption, 2002;" 2 End Uses of Fuel Consumption, 2002;" " Level: National Data; " " Row: End Uses within NAICS Codes;" " Column: Energy Sources, including Net Electricity;" " Unit: Trillion Btu." " "," "," ",," ","Distillate"," "," ",," "," " " "," ",,,,"Fuel Oil",,,"Coal",,"RSE" "NAICS"," "," ","Net","Residual","and","Natural ","LPG and","(excluding Coal"," ","Row" "Code(a)","End Use","Total","Electricity(b)","Fuel Oil","Diesel Fuel(c)","Gas(d)","NGL(e)","Coke and Breeze)","Other(f)","Factors"

194

" Row: End Uses within NAICS Codes;"  

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

4 End Uses of Fuel Consumption, 2010;" 4 End Uses of Fuel Consumption, 2010;" " Level: National Data; " " Row: End Uses within NAICS Codes;" " Column: Energy Sources, including Net Demand for Electricity;" " Unit: Trillion Btu." " "," ",," ","Distillate"," "," " " "," ",,,"Fuel Oil",,,"Coal" "NAICS"," ","Net Demand","Residual","and",,"LPG and","(excluding Coal" "Code(a)","End Use","for Electricity(b)","Fuel Oil","Diesel Fuel(c)","Natural Gas(d)","NGL(e)","Coke and Breeze)"

195

" Row: End Uses within NAICS Codes;"  

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

2. End Uses of Fuel Consumption, 1998;" 2. End Uses of Fuel Consumption, 1998;" " Level: National Data; " " Row: End Uses within NAICS Codes;" " Column: Energy Sources, including Net Electricity;" " Unit: Trillion Btu." " "," "," ",," ","Distillate"," "," ",," "," " " "," ",,,,"Fuel Oil",,,"Coal",,"RSE" "NAICS"," "," ","Net","Residual","and",,"LPG and","(excluding Coal"," ","Row" "Code(a)","End Use","Total","Electricity(b)","Fuel Oil","Diesel Fuel(c)","Natural Gas(d)","NGL(e)","Coke and Breeze)","Other(f)","Factors"

196

" Row: End Uses within NAICS Codes;"  

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

4 End Uses of Fuel Consumption, 2002;" 4 End Uses of Fuel Consumption, 2002;" " Level: National Data; " " Row: End Uses within NAICS Codes;" " Column: Energy Sources, including Net Demand for Electricity;" " Unit: Trillion Btu." " "," ",," ","Distillate"," "," ",," " " "," ","Net Demand",,"Fuel Oil",,,"Coal","RSE" "NAICS"," ","for ","Residual","and","Natural ","LPG and","(excluding Coal","Row" "Code(a)","End Use","Electricity(b)","Fuel Oil","Diesel Fuel(c)","Gas(d)","NGL(e)","Coke and Breeze)","Factors"

197

" Row: End Uses within NAICS Codes;"  

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

2 End Uses of Fuel Consumption, 2010;" 2 End Uses of Fuel Consumption, 2010;" " Level: National Data; " " Row: End Uses within NAICS Codes;" " Column: Energy Sources, including Net Electricity;" " Unit: Trillion Btu." ,,,,,"Distillate" ,,,,,"Fuel Oil",,,"Coal" "NAICS",,,"Net","Residual","and",,"LPG and","(excluding Coal" "Code(a)","End Use","Total","Electricity(b)","Fuel Oil","Diesel Fuel(c)","Natural Gas(d)","NGL(e)","Coke and Breeze)","Other(f)" ,,"Total United States"

198

Sustainable Acquisition Coding System | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Acquisition Coding System Sustainable Acquisition Coding System Sustainable Acquisition Coding System Sustainable Acquisition Coding System More Documents & Publications Policy...

199

" Row: NAICS Codes; Column: Energy Sources;"  

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

2. Fuel Consumption, 1998;" 2. Fuel Consumption, 1998;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Trillion Btu." " "," "," ",," "," "," "," "," "," "," "," ",," " " "," ",,,,,,,,,,"RSE" "NAICS"," "," ","Net","Residual","Distillate",,"LPG and",,"Coke"," ","Row" "Code(a)","Subsector and Industry","Total","Electricity(b)","Fuel Oil","Fuel Oil(c)","Natural Gas(d)","NGL(e)","Coal","and Breeze","Other(f)","Factors"

200

" Row: NAICS Codes; Column: Energy Sources;"  

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

2 Fuel Consumption, 2010;" 2 Fuel Consumption, 2010;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Trillion Btu." " "," "," ",," "," "," "," "," "," "," " " "," " "NAICS"," "," ","Net","Residual","Distillate",,"LPG and",,"Coke"," " "Code(a)","Subsector and Industry","Total","Electricity(b)","Fuel Oil","Fuel Oil(c)","Natural Gas(d)","NGL(e)","Coal","and Breeze","Other(f)"

Note: This page contains sample records for the topic "local electrical codes" 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

" Row: Selected SIC Codes; Column: Energy Sources;"  

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

2. Fuel Consumption, 1998;" 2. Fuel Consumption, 1998;" " Level: National Data; " " Row: Selected SIC Codes; Column: Energy Sources;" " Unit: Trillion Btu." " "," "," ",," "," "," "," "," "," "," "," ",," " " "," ",,,,,,,,,,"RSE" "SIC"," "," ","Net","Residual","Distillate",,"LPG and",,"Coke"," ","Row" "Code(a)","Major Group and Industry","Total","Electricity(b)","Fuel Oil","Fuel Oil(c)","Natural Gas(d)","NGL(e)","Coal","and Breeze","Other(f)","Factors"

202

" Row: NAICS Codes; Column: Energy Sources;"  

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

2 Fuel Consumption, 2002;" 2 Fuel Consumption, 2002;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Trillion Btu." " "," "," ",," "," "," "," "," "," "," "," ",," " " "," ",,,,,,,,,,"RSE" "NAICS"," "," ","Net","Residual","Distillate","Natural","LPG and",,"Coke"," ","Row" "Code(a)","Subsector and Industry","Total","Electricity(b)","Fuel Oil","Fuel Oil(c)","Gas(d)","NGL(e)","Coal","and Breeze","Other(f)","Factors"

203

Local Option- Property Tax Credit for High Performance Buildings  

Energy.gov (U.S. Department of Energy (DOE))

Similar to Maryland's [http://www.dsireusa.org/library/includes/incentive2.cfm?Incentive_Code=M... Local Option Property Tax Credit for Renewable Energy], Title 9 of Maryland's property tax code...

204

Property:Incentive/ResCode | Open Energy Information  

Open Energy Info (EERE)

ResCode ResCode Jump to: navigation, search Property Name Incentive/ResCode Property Type Text Description Residential Code. Pages using the property "Incentive/ResCode" Showing 25 pages using this property. (previous 25) (next 25) A Aspen & Pitkin County - Renewable Energy Mitigation Program (Colorado) + 2009 IECC with local amendments. Special offset requirements for snowmelt systems, outdoor spas and pools, and houses larger than 4,999 square feet Aspen and Pitkin County - Efficient Building Program (Colorado) + Requirements vary depending on whether the building is residential, large residential, or publicly funded low-income housing B Building Energy Code (Alabama) + 2009 IRC with Alabama amendments Building Energy Code (Alaska) + The 2011 Building Energy Efficiency Standards (BEES) is a state-developed code based on the 2009 IECC with Alaska-specific amendments.

205

Establishment, Implementation and Enforcement of Building Codes and Standards  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Establishment, Implementation and Enforcement Establishment, Implementation and Enforcement of Building Codes and Standards Nanette Lockwood Global Director Government Affairs Solutia Inc. 2 Crystex ® Solutia Inc. Advanced Interlayers Performance Films Technical Specialties 2010 Revenue $1.9 billion USD Facilities 50+ Employees 3,300 U.S. Building Codes and Standards * Developed, updated and published on regular intervals at the national level for use locally * Adopted by federal agencies, state and local governments * Typically enforced by local building departments * Applies to new construction, additions and major renovations for nearly all buildings Model Building Codes * National development committees - Architects, engineers, builders, scientists, insurers, government researchers, agencies and building officials

206

Chippewa Valley Electric Coop | Open Energy Information  

Open Energy Info (EERE)

Chippewa Valley Electric Coop Chippewa Valley Electric Coop Place Wisconsin Utility Id 3498 Utility Location Yes Ownership C NERC Location MRO ISO MISO Yes Activity Distribution Yes References EIA Form EIA-861 Final Data File for 2010 - File1_a[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Utility Rate Schedules Grid-background.png CONTROLLED CENTRAL AC CREDIT - RATE CODE AC Commercial DISTRIBUTED GENERATION RATE DG Commercial DUSK/DAWN LIGHTING RATE CODE L Lighting INDUSTRIAL TIME OF DAY RATE CODE I Industrial LARGE SINGLE PHASE/MEDIUM-LARGE THREE PHASE RATE CODE X Industrial MEDIUM SINGLE PHASE/SMALL THREE PHASE - RATE CODE W Commercial OFF-PEAK ELECTRIC SPACE HEATING RATE CODE H Commercial

207

Understanding the cost of power interruptions to U.S. electricity consumers  

E-Print Network (OSTI)

At the local/electricity distribution level, storage canthat the U.S. electricity distribution system is designed toto the design of electricity distribution systems, larger

LaCommare, Kristina Hamachi; Eto, Joseph H.

2004-01-01T23:59:59.000Z

208

Mechanical code comparator  

DOE Patents (OSTI)

A new class of mechanical code comparators is described which have broad potential for application in safety, surety, and security applications. These devices can be implemented as micro-scale electromechanical systems that isolate a secure or otherwise controlled device until an access code is entered. This access code is converted into a series of mechanical inputs to the mechanical code comparator, which compares the access code to a pre-input combination, entered previously into the mechanical code comparator by an operator at the system security control point. These devices provide extremely high levels of robust security. Being totally mechanical in operation, an access control system properly based on such devices cannot be circumvented by software attack alone.

Peter, Frank J. (Albuquerque, NM); Dalton, Larry J. (Bernalillo, NM); Plummer, David W. (Albuquerque, NM)

2002-01-01T23:59:59.000Z

209

Local Option - Property Tax Exemption for Solar | Department...  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Industrial Residential Savings Category Heating & Cooling Commercial Heating & Cooling Solar Heating Buying & Making Electricity Water Heating Maximum Rebate Varies (local...

210

Method for localizing heating in tumor tissue  

SciTech Connect

A method for a localized tissue heating of tumors is disclosed. Localized radio frequency current fields are produced with specific electrode configurations. Several electrode configurations are disclosed, enabling variations in electrical and thermal properties of tissues to be exploited.

Doss, James D. (Los Alamos, NM); McCabe, Charles W. (Los Alamos, NM)

1977-04-12T23:59:59.000Z

211

Magma benchmark code - CECM  

E-Print Network (OSTI)

Below is the Magma code used to run the benchmarks in Section 5 of the paper " In-place Arithmetic for Univariate Polynomials over an Algebraic Number Field" ...

212

11. CONTRACT ID CODE  

National Nuclear Security Administration (NNSA)

30030 Amarillo, TX 79120 8. NAME AND ADDRESS OF CONTRACTOR (No., street, county, state, ZIP Code) Babcock & Wilcox Technical Services Pantex, LLC PO Box 30020 Amarillo, TX 79120...

213

" Row: NAICS Codes;"  

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

3 Number of Establishments by Usage of Cogeneration Technologies, 2002; " " Level: National Data; " " Row: NAICS Codes;" " Column: Usage within Cogeneration Technologies;" " Unit:...

214

Quantum convolutional stabilizer codes  

E-Print Network (OSTI)

Quantum error correction codes were introduced as a means to protect quantum information from decoherance and operational errors. Based on their approach to error control, error correcting codes can be divided into two different classes: block codes and convolutional codes. There has been significant development towards finding quantum block codes, since they were first discovered in 1995. In contrast, quantum convolutional codes remained mainly uninvestigated. In this thesis, we develop the stabilizer formalism for quantum convolutional codes. We define distance properties of these codes and give a general method for constructing encoding circuits, given a set of generators of the stabilizer of a quantum convolutional stabilizer code, is shown. The resulting encoding circuit enables online encoding of the qubits, i.e., the encoder does not have to wait for the input transmission to end before starting the encoding process. We develop the quantum analogue of the Viterbi algorithm. The quantum Viterbi algorithm (QVA) is a maximum likehood error estimation algorithm, the complexity of which grows linearly with the number of encoded qubits. A variation of the quantum Viterbi algorithm, the Windowed QVA, is also discussed. Using Windowed QVA, we can estimate the most likely error without waiting for the entire received sequence.

Chinthamani, Neelima

2005-05-01T23:59:59.000Z

215

" Row: NAICS Codes;"  

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

9.1 Enclosed Floorspace and Number of Establishment Buildings, 2006;" " Level: National Data; " " Row: NAICS Codes;" " Column: Floorspace and Buildings;" " Unit: Floorspace Square...

216

BECP News | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

BECP News BECP News BECP News December 2012 Introduction The U.S. Department of Energy (DOE) Building Energy Codes Program newsletter (BECP News) encourages the exchange of information among stakeholders in the buildings arena. BECP News targets building professionals, state and local code officials, researchers, contractors, and utilities, as well as national associations and others involved in the design, construction, and commissioning of buildings. The goal of the newsletter is to facilitate the timely development and early adoption of, and compliance with, building energy codes and standards. Subscribe to updates Subscribe to BECP News to receive the latest on building energy code activities, software, and resources, or update your subscription to receive updates on specific topics of interest, including Compliance Tools,

217

High Penetration, Grid Connected Photovoltaic Technology Codes and Standards: Preprint  

DOE Green Energy (OSTI)

This paper reports the interim status in identifying and reviewing photovoltaic (PV) codes and standards (C&S) and related electrical activities for grid-connected, high-penetration PV systems with a focus on U.S. electric utility distribution grid interconnection.

Basso, T. S.

2008-05-01T23:59:59.000Z

218

Micromachined electrical cauterizer  

DOE Patents (OSTI)

A micromachined electrical cauterizer. Microstructures are combined with microelectrodes for highly localized electro cauterization. Using boron etch stops and surface micromachining, microneedles with very smooth surfaces are made. Micromachining also allows for precision placement of electrodes by photolithography with micron sized gaps to allow for concentrated electric fields. A microcauterizer is fabricated by bulk etching silicon to form knife edges, then parallelly placed microelectrodes with gaps as small as 5 .mu.m are patterned and aligned adjacent the knife edges to provide homeostasis while cutting tissue. While most of the microelectrode lines are electrically insulated from the atmosphere by depositing and patterning silicon dioxide on the electric feedthrough portions, a window is opened in the silicon dioxide to expose the parallel microelectrode portion. This helps reduce power loss and assist in focusing the power locally for more efficient and safer procedures.

Lee, Abraham P. (Walnut Creek, CA); Krulevitch, Peter A. (Pleasanton, CA); Northrup, M. Allen (Berkeley, CA)

1999-01-01T23:59:59.000Z

219

11. CONTRACT ID CODE  

NLE Websites -- All DOE Office Websites (Extended Search)

1 PAGE 1 OF2 AMENDMENT OF SOLICITATION/MODIFICATION OF CONTRACT PAGES 2. AMENDMENT/MODIFICATION NO. I 3. EFFECTIVE DATE M191 See Block 16C 4. REQUISITION/PURCHASE I 5. PROJECT NO. (If applicable) REQ. NO. 6.ISSUED BY CODE U.S. Department of Energy National Nuclear Security Administration Service Center Property and M&O Contract Support Department P.O. Box 5400 Albuquerque, NM 87185-5400 7. ADMINISTERED BY (If other than Item 6) CODE U.S. Department of Energy National Nuclear Security Administration Manager, Pantex Site Office P.O. Box 30030 Amarillo, TX 79120 8. NAME AND ADDRESS OF CONTRACTOR (No., street, county, state, ZIP Code) Babcock & Wilcox Technical Services Pantex, LLC PO Box 30020 Amarillo, TX 79120 CODE I FACILITY CODE SA. AMENDMENT OF SOLICITATION NO.

220

PETSc: Docs: Code Management  

NLE Websites -- All DOE Office Websites (Extended Search)

Code Management Code Management Home Download Features Documentation Manual pages and Users Manual Citing PETSc Tutorials Installation SAWs Changes Bug Reporting Code Management FAQ License Linear Solver Table Applications/Publications Miscellaneous External Software Developers Site In this file we list some of the techniques that may be used to increase one's efficiency when developing PETSc application codes. We have learned to use these techniques ourselves, and they have improved our efficiency tremendously. Editing and Compiling The biggest time sink in code development is generally the cycle of EDIT-COMPILE-LINK-RUN. We often see users working in a single window with a cycle such as: Edit a file with emacs. Exit emacs. Run make and see some error messages. Start emacs and try to fix the errors; often starting emacs hides

Note: This page contains sample records for the topic "local electrical codes" 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

Hydrogen Codes and Standards  

NLE Websites -- All DOE Office Websites (Extended Search)

Codes and Standards Codes and Standards James Ohi National Renewable Energy Laboratory 1617 Cole Blvd. Golden, CO 80401 Background The development and promulgation of codes and standards are essential if hydrogen is to become a significant energy carrier and fuel because codes and standards are critical to establishing a market-receptive environment for commercializing hydrogen-based products and systems. The Hydrogen, Fuel Cells, and Infrastructure Technologies Program of the U.S. Department of Energy (DOE) and the National Renewable Energy Laboratory (NREL), with the help of the National Hydrogen Association (NHA) and other key stakeholders, are coordinating a collaborative national effort by government and industry to prepare, review, and promulgate hydrogen codes and standards needed to expedite hydrogen infrastructure development. The

222

Residential Building Code Compliance  

NLE Websites -- All DOE Office Websites (Extended Search)

6 6 Residential Building Code Compliance: Recent Findings and Implications Energy use in residential buildings in the U.S. is significant-about 20% of primary energy use. While several approaches reduce energy use such as appliance standards and utility programs, enforcing state building energy codes is one of the most promising. However, one of the challenges is to understand the rate of compliance within the building community. Utility companies typically use these codes as the baseline for providing incentives to builders participating in utility-sponsored residential new construction (RNC) programs. However, because builders may construct homes that fail to meet energy codes, energy use in the actual baseline is higher than would be expected if all buildings complied with the code. Also,

223

City of San Francisco - Green Building Code | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

You are here You are here Home » City of San Francisco - Green Building Code City of San Francisco - Green Building Code < Back Eligibility Commercial Residential Savings Category Heating & Cooling Home Weatherization Construction Commercial Weatherization Commercial Heating & Cooling Design & Remodeling Bioenergy Solar Lighting Windows, Doors, & Skylights Alternative Fuel Vehicles Hydrogen & Fuel Cells Heating Buying & Making Electricity Water Water Heating Wind Program Info State California Program Type Building Energy Code Provider San Francisco San Francisco adopted a mandatory green building code for new construction projects in September 2008, establishing strict guidelines for residential and commercial buildings according to the following schedule:

224

BUILDING TECHNOLOGIES PROGRAM | Green Building Codes A Guide to Creating Effective  

NLE Websites -- All DOE Office Websites (Extended Search)

i i BUILDING TECHNOLOGIES PROGRAM | Green Building Codes A Guide to Creating Effective Green Building Programs for Energy Efficient and Sustainable Communities Going Beyond Code Preface The Going Beyond Code Guide is designed to help state and local governments design and implement successful "beyond code" programs for new commercial and residential buildings. The goal is to help states and localities establish voluntary or mandatory programs that go well beyond traditional minimum code requirements for new buildings. The guide addresses keys to successful adoption and implementation and discusses the primary areas that are typically included in beyond code or green building programs, including energy efficiency materials and resource conservation, water efficiency,

225

Localization privacy  

Science Conference Proceedings (OSTI)

Location-aware technology and its applications are fundamental to ubiquitous computing. Essential to this technology is object localization and identification. RFID (radio frequency identification) technology has been shown to be very effective for identification ... Keywords: RFID, localization privacy, location privacy, location-aware applications, object localization

Mike Burmester

2012-01-01T23:59:59.000Z

226

"Code(a)","Subsector and Industry","Source(b)","Electricity(c)","Fuel Oil","Fuel Oil(d)","Natural Gas(e)","NGL(f)","Coal","Breeze","Other(g)","Produced Onsite(h)"  

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

1.4 Relative Standard Errors for Table 1.4;" 1.4 Relative Standard Errors for Table 1.4;" " Unit: Percents." ,,"Any",,,,,,,,,"Shipments" "NAICS",,"Energy","Net","Residual","Distillate",,"LPG and",,"Coke and",,"of Energy Sources" "Code(a)","Subsector and Industry","Source(b)","Electricity(c)","Fuel Oil","Fuel Oil(d)","Natural Gas(e)","NGL(f)","Coal","Breeze","Other(g)","Produced Onsite(h)" ,,"Total United States" 311,"Food",0.4,0.4,19.4,8.9,2,6.9,5.4,0,10.1,9.1 3112," Grain and Oilseed Milling",0,0,21.1,14.7,8.4,13.3,7.9,"X",17.9,9.1

227

Quantum stabilizer codes and beyond  

E-Print Network (OSTI)

The importance of quantum error correction in paving the way to build a practical quantum computer is no longer in doubt. Despite the large body of literature in quantum coding theory, many important questions, especially those centering on the issue of "good codes" are unresolved. In this dissertation the dominant underlying theme is that of constructing good quantum codes. It approaches this problem from three rather different but not exclusive strategies. Broadly, its contribution to the theory of quantum error correction is threefold. Firstly, it extends the framework of an important class of quantum codes - nonbinary stabilizer codes. It clarifies the connections of stabilizer codes to classical codes over quadratic extension fields, provides many new constructions of quantum codes, and develops further the theory of optimal quantum codes and punctured quantum codes. In particular it provides many explicit constructions of stabilizer codes, most notably it simplifies the criteria by which quantum BCH codes can be constructed from classical codes. Secondly, it contributes to the theory of operator quantum error correcting codes also called as subsystem codes. These codes are expected to have efficient error recovery schemes than stabilizer codes. Prior to our work however, systematic methods to construct these codes were few and it was not clear how to fairly compare them with other classes of quantum codes. This dissertation develops a framework for study and analysis of subsystem codes using character theoretic methods. In particular, this work established a close link between subsystem codes and classical codes and it became clear that the subsystem codes can be constructed from arbitrary classical codes. Thirdly, it seeks to exploit the knowledge of noise to design efficient quantum codes and considers more realistic channels than the commonly studied depolarizing channel. It gives systematic constructions of asymmetric quantum stabilizer codes that exploit the asymmetry of errors in certain quantum channels. This approach is based on a Calderbank- Shor-Steane construction that combines BCH and finite geometry LDPC codes.

Sarvepalli, Pradeep Kiran

2008-08-01T23:59:59.000Z

228

Report number codes  

SciTech Connect

This publication lists all report number codes processed by the Office of Scientific and Technical Information. The report codes are substantially based on the American National Standards Institute, Standard Technical Report Number (STRN)-Format and Creation Z39.23-1983. The Standard Technical Report Number (STRN) provides one of the primary methods of identifying a specific technical report. The STRN consists of two parts: The report code and the sequential number. The report code identifies the issuing organization, a specific program, or a type of document. The sequential number, which is assigned in sequence by each report issuing entity, is not included in this publication. Part I of this compilation is alphabetized by report codes followed by issuing installations. Part II lists the issuing organization followed by the assigned report code(s). In both Parts I and II, the names of issuing organizations appear for the most part in the form used at the time the reports were issued. However, for some of the more prolific installations which have had name changes, all entries have been merged under the current name.

Nelson, R.N. (ed.)

1985-05-01T23:59:59.000Z

229

A PIC-MCC code for simulation of streamer propagation in air  

Science Conference Proceedings (OSTI)

A particle code has been developed to study the distribution and acceleration of electrons in electric discharges in air. The code can follow the evolution of a discharge from the initial stage of a single free electron in a background electric field ... Keywords: 97.10.Gz, 97.30.Qt, 97.80.Gm, Discharge, PIC-MCC, Sprite, Streamer

O. Chanrion; T. Neubert

2008-07-01T23:59:59.000Z

230

Electricity Reliability  

NLE Websites -- All DOE Office Websites (Extended Search)

lines and bar graph Electricity Reliability The Consortium for Electric Reliability Technology Solutions (CERTS) conducts research, develops, and disseminates new methods, tools,...

231

Electric Vehicles  

NLE Websites -- All DOE Office Websites (Extended Search)

government incentives or subsidies in the near future. Companies active in the electric automobile area There are no companies directly active in the electric automobile...

232

Codes base on unambiguous products  

Science Conference Proceedings (OSTI)

In this paper, we propose the notion of +-unambiguous product which is expanded from unambiguous product and the definitions of alternative product, alternative code, even alternative code on a pair (X, Y) of languages. Some basic properties of ... Keywords: +-unambiguous product, alt-code, ealt-code, generations of code, independency of conditions

Ho Ngoc Vinh; Vu Thanh Nam; Phan Trung Huy

2010-11-01T23:59:59.000Z

233

Error correcting codes for adiabatic quantum computation  

E-Print Network (OSTI)

Recently, there has been growing interest in using adiabatic quantum computation as an architecture for experimentally realizable quantum computers. One of the reasons for this is the idea that the energy gap should provide some inherent resistance to noise. It is now known that universal quantum computation can be achieved adiabatically using 2-local Hamiltonians. The energy gap in these Hamiltonians scales as an inverse polynomial in the problem size. Here we present stabilizer codes which can be used to produce a constant energy gap against 1-local and 2-local noise. The corresponding fault-tolerant universal Hamiltonians are 4-local and 6-local respectively, which is the optimal result achievable within this framework.

Stephen P. Jordan; Edward Farhi; Peter W. Shor

2005-12-20T23:59:59.000Z

234

FCT Safety, Codes and Standards: DOE Safety, Codes, and Standards...  

NLE Websites -- All DOE Office Websites (Extended Search)

Safety, Codes, and Standards Activities to someone by E-mail Share FCT Safety, Codes and Standards: DOE Safety, Codes, and Standards Activities on Facebook Tweet about FCT Safety,...

235

A High-Fidelity Energy Monitoring and Feedback Architecture for Reducing Electrical Consumption in Buildings  

E-Print Network (OSTI)

Architecture for Localized Electrical Energy Reduction, Generation, and Sharing) [46] is the smart-grid

Jiang, Xiaofan

2010-01-01T23:59:59.000Z

236

The Washington State Experience Energy Code Compliance  

NLE Websites -- All DOE Office Websites (Extended Search)

Washington State Experience Washington State Experience Residential Energy Code Compliance Gary Nordeen Senior Building Science Specialist April 4, 2013 WSU Energy Program Provides energy services, products, education and information for: * Businesses * Utilities ̶ public and private * Governments ̶ state and local * Tribes * Federal agencies * Manufacturing plants * Educational facilities * National laboratories WSU Energy Program Building Science Team * Residential energy code technical assistance * Voluntary programs, Northwest ENERGYSTAR Homes * Research and development, Building America * Community-based upgrade programs * Industry training and certifications ̶ HERS, BPI, ENERGY STAR, PTCS Staff provides building science expertise for: WSU Energy Program

237

Compiling Codes on Hopper  

NLE Websites -- All DOE Office Websites (Extended Search)

Compiling Codes Compiling Codes Compiling Codes on Hopper Overview Cray provides a convenient set of wrapper commands that should be used in almost all cases for compiling and linking parallel programs. Invoking the wrappers will automatically link codes with MPI libraries and other Cray system software. All MPI and Cray system include directories are also transparently imported. In addition the wrappers append the compiler's target processor arguments for the hopper compute node processors. NOTE: The intention is that programs are compiled on the login nodes and executed on the compute nodes. Because the compute nodes and login nodes have different operating systems, binaries created for compute nodes may not run on the login node. The wrappers mentioned above guarantee that

238

T ID CODE I  

National Nuclear Security Administration (NNSA)

I 9B. DATED (SEE ITEM 11) 8. NAME AND ADDRESS OF CONTRACTOR (No., street, county, state, ZIP Code) 10A. MODIFICATION OF CONTRACTIORDER NO. DE-AC52-06NA25396 3. EFFECTIVE DATE See...

239

Household Markets for Neighborhood Electric Vehicles in California  

E-Print Network (OSTI)

electric vehicles designed for local, neighborhood travel How we are funded — Calstart: a consortium of private industry,

Kurani, Kenneth S; Sperling, Daniel; Lipman, Timothy; Stanger, Deborah; Turrentine, Thomas; Stein, Aram

1995-01-01T23:59:59.000Z

240

Residential Codes and Standards | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

houses, which are built in a factory and transported to the home site. ICC ASHRAE International Energy Conservation Code The International Energy Conservation Code...

Note: This page contains sample records for the topic "local electrical codes" 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

Building Energy Codes in Arizona: Best Practices in Code Support...  

NLE Websites -- All DOE Office Websites (Extended Search)

in Code Support, Compliance, and Enforcement A study funded by the North American Insulation Manufacturers Association to identify "the best practices in energy code support,...

242

APPENDIX A CRUDE STREAM CODES COUNTRY Stream Code Stream Name ...  

U.S. Energy Information Administration (EIA)

Page ?? 6 * A Former Soviet Republic APPENDIX A CRUDE STREAM CODES COUNTRY Stream Code Stream Name Gravity Sulfur Columbia - Continued CO043 Orito ...

243

electric rates | OpenEI  

Open Energy Info (EERE)

electric rates electric rates Dataset Summary Description This dataset, compiled by NREL and Ventyx, provides average residential, commercial and industrial electricity rates by zip code for both investor owned utilities (IOU) and non-investor owned utilities. Note: the file includes average rates for each utility, but not the detailed rate structure data found in the database available via the zip-code look-up feature on the OpenEI Utilities page (http://en.openei.org/wiki/Gateway:Utilities). The data was released by NREL/Ventyx in February 2011. Source NREL and Ventyx Date Released February 24th, 2012 (2 years ago) Date Updated Unknown Keywords electric rates rates US utilities Data text/csv icon IOU rates by zipcode (csv, 1.7 MiB) text/csv icon Non-IOU rates by zipcode (csv, 2.1 MiB)

244

Network coding: an instant primer  

Science Conference Proceedings (OSTI)

Network coding is a new research area that may have interesting applications in practical networking systems. With network coding, intermediate nodes may send out packets that are linear combinations of previously received information. There are two ... Keywords: network coding

Christina Fragouli; Jean-Yves Le Boudec; Jörg Widmer

2006-01-01T23:59:59.000Z

245

Wireless Charging System for Electric Vehicles  

OEM Electric Vehicles OEM EV Manufacturers Plug-in; internal technology development Street / highway in-motion charging systems Federal / State / Local

246

Electric Companies and Electric Transmission Lines (North Dakota) |  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Electric Companies and Electric Transmission Lines (North Dakota) Electric Companies and Electric Transmission Lines (North Dakota) Electric Companies and Electric Transmission Lines (North Dakota) < Back Eligibility Utility Fed. Government Commercial Agricultural Investor-Owned Utility State/Provincial Govt Industrial Construction Municipal/Public Utility Local Government Residential Installer/Contractor Rural Electric Cooperative Tribal Government Low-Income Residential Schools Retail Supplier Institutional Multi-Family Residential Systems Integrator Fuel Distributor Nonprofit General Public/Consumer Transportation Savings Category Alternative Fuel Vehicles Hydrogen & Fuel Cells Buying & Making Electricity Water Home Weatherization Solar Wind Program Info State North Dakota Program Type Line Extension Analysis The Public Service Commission has the authority to regulate the

247

Step 5. Determine Crucial Components of the Energy Code: Scope and  

NLE Websites -- All DOE Office Websites (Extended Search)

5. Determine Crucial Components of the Energy Code: Scope and 5. Determine Crucial Components of the Energy Code: Scope and Applicability, Format, Adoption Date, and Effective Date Description There are four crucial components that must be considered during the adoption process: scope and applicability, format, adoption date and effective date. The scope of a code dictates which requirements will be covered by the code while the format relates to the manner in which code requirements are presented. Based on the energy goals of a state or jurisdiction, the scope and format of a code will greatly influence which code is selected for adoption and the adoption process used. For example, if a jurisdiction wishes to include only the HVAC system in its local code, a national model code may be amended to reflect these changes or a locally

248

Connecticut | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

& Offices Consumer Information Building Energy Codes Search Search Search Help Building Energy Codes Program Home News Events About DOE EERE BTO BECP Adoption ...

249

Maryland | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

& Offices Consumer Information Building Energy Codes Search Search Search Help Building Energy Codes Program Home News Events About DOE EERE BTO BECP Adoption ...

250

Oregon | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

& Offices Consumer Information Building Energy Codes Search Search Search Help Building Energy Codes Program Home News Events About DOE EERE BTO BECP Adoption ...

251

Indiana | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

& Offices Consumer Information Building Energy Codes Search Search Search Help Building Energy Codes Program Home News Events About DOE EERE BTO BECP Adoption ...

252

California | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

& Offices Consumer Information Building Energy Codes Search Search Search Help Building Energy Codes Program Home News Events About DOE EERE BTO BECP Adoption ...

253

Iowa | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

utility company must obtain a written statementcertification from the builder or homeowner attesting to their compliance with the state energy code. Code enforcement is...

254

BECP News | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

BECP News BECP News BECP News January 2012 Introduction The BECP News newsletter encourages the exchange of information among building professionals and organizations, state and local code officials, and researchers. Its goal is to facilitate timely development and early adoption of the building energy conservation standards. What can be done to curb the significant and ever-growing impact of building energy use? Adoption and implementation of building energy codes in communities across the United States are critical components in overall efforts to promote energy savings in buildings. Building energy codes lead to long-term energy savings by promoting construction of new energy-efficient buildings and introducing energy-efficient construction methods and technologies during

255

Maine | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Maine Maine Last updated on 2013-11-04 Commercial Residential Code Change Current Code ASHRAE Standard 90.1-2007 Amendments / Additional State Code Information As of September 28, 2011, municipalities over 4,000 in population were required to enforce the new code if they had a building code in place by August 2008. Municipalities under 4,000 are not required to enforce it unless they wish to do so and have the following options: 1. Adopt and enforce the Maine Uniform Building and Energy Code 2. Adopt and enforce the Maine Uniform Building Code (the building code without energy) 3. Adopt and enforce the Maine Uniform Energy Code (energy code only) 4. Have no code Approved Compliance Tools Can use COMcheck State Specific Research Impacts of ASHRAE 90.1-2007 for Commercial Buildings in the State of Maine (BECP Report, Sept. 2009)

256

Rateless Codes for AVC Models  

E-Print Network (OSTI)

degrees in electrical en- gineering and computer science andof Electrical Engineering and Computer Sciences, Universityof Electrical Engineering and Com- puter Sciences,

Sarwate, A D; Gastpar, M

2010-01-01T23:59:59.000Z

257

" Level: National Data;" " Row: NAICS Codes;"  

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

7 Number of Establishments with Capability to Switch Electricity to Alternative Energy Sources, 2006; " 7 Number of Establishments with Capability to Switch Electricity to Alternative Energy Sources, 2006; " " Level: National Data;" " Row: NAICS Codes;" " Column: Energy Sources;" " Unit: Establishment Counts." ,,"Electricity Receipts(b)",,,"Alternative Energy Sources(c)" ,,,,,,,,,,"Coal Coke" "NAICS"," ","Total"," ","Not","Natural","Distillate","Residual",,,"and" "Code(a)","Subsector and Industry","Receipts(d)","Switchable","Switchable","Gas","Fuel Oil","Fuel Oil","Coal","LPG","Breeze","Other(e)"," "

258

Product Service Codes @ Headquarters | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Product Service Codes @ Headquarters Product Service Codes @ Headquarters A listing of Product Service Codes used at Headquarters Procurement Services Produce Service Codes @...

259

Additive semisimple multivariable codes over F4  

Science Conference Proceedings (OSTI)

The structure of additive multivariable codes over Keywords: 11T61, 13M10, 81P70, 94B99, Abelian codes, Additive multivariable codes, Duality, Quantum codes

E. Martínez-Moro; A. Piñera-Nicolás; I. F. Rúa

2013-11-01T23:59:59.000Z

260

Code Tables | National Nuclear Security Administration  

National Nuclear Security Administration (NNSA)

The Obligation Code table shows the valid country of obligation codes. Type of Inventory ChangeUse Code The type of inventory changeuse code (UC) identifies the category...

Note: This page contains sample records for the topic "local electrical codes" 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

DOE Hydrogen and Fuel Cells Program: Codes and Standards  

NLE Websites -- All DOE Office Websites (Extended Search)

Standards Standards Printable Version Codes and Standards Codes and standards have repeatedly been identified as a major institutional barrier to deploying hydrogen technologies. To enable the commercialization of hydrogen in consumer products, new model building codes and equipment and other technical standards will need to be developed and recognized by federal, state, and local governments. DOE is working to identify those codes and standards, to facilitate the development of such standards, and to support publicly available research and certification investigations that are necessary to develop a basis for such codes and standards. Photo of hydrogen fueling pump in Las Vegas, Nevada Led by the Office of Energy Efficiency and Renewable Energy, DOE is working with code

262

Bayesian Radiation Source Localization  

Science Conference Proceedings (OSTI)

Locating illicit radiological sources using gamma ray or neutron detection is a key challenge for both homeland security and nuclear nonproliferation. Localization methods using an array of detectors or a sequence of observations in time and space must provide rapid results while accounting for a dynamic attenuating environment. In the presence of significant attenuation and scatter, more extensive numerical transport calculations in place of the standard analytical approximations may be required to achieve accurate results. Numerical adjoints based on deterministic transport codes provide relatively efficient detector response calculations needed to determine the most likely location of a true source. Probabilistic representations account for uncertainty in the source location resulting from uncertainties in detector responses, the approximations that are used, and the potential for nonunique solutions. A Bayesian approach improves on previous likelihood methods for source localization by allowing the incorporation of all available information to help constrain solutions.

Jarman, Kenneth D.; Miller, Erin A.; Wittman, Richard S.; Gesh, Christopher J.

2011-07-01T23:59:59.000Z

263

Renewable Energy and Energy Efficiency Technologies in Residential Building Codes: June 15, 1998 to September 15, 1998  

SciTech Connect

This report is an attempt to describe the building code requirements and impediments to the application of EE and RE technologies in residential buildings. Several modern model building codes were reviewed. These are representative of the codes that will be adopted by most locations in the coming years. The codes reviewed for this report include: International Residential Code, First Draft, April 1998; International Energy Conservation Code, 1998; International Mechanical Code, 1998; International Plumbing Code, 1997; International Fuel Gas Code, 1997; National Electrical Code, 1996. These codes were reviewed as to their application to (1) PV systems in buildings and building-integrated PV systems and (2) active solar domestic hot water and space-heating systems. A discussion of general code issues that impact these technologies is also included. Examples of this are solar access and sustainability.

Wortman, D.; Echo-Hawk, L.

2005-02-01T23:59:59.000Z

264

Electricity Markets  

NLE Websites -- All DOE Office Websites (Extended Search)

Electricity Markets Electricity Markets Researchers in the electricity markets area conduct technical, economic, and policy analysis of energy topics centered on the U.S. electricity sector. Current research seeks to inform public and private decision-making on public-interest issues related to energy efficiency and demand response, renewable energy, electricity resource and transmission planning, electricity reliability and distributed generation resources. Research is conducted in the following areas: Energy efficiency research focused on portfolio planning and market assessment, design and implementation of a portfolio of energy efficiency programs that achieve various policy objectives, utility sector energy efficiency business models, options for administering energy efficiency

265

NAICS Codes Description:  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Codes Codes Description: Filters: Date Signed only show values between '10/01/2006' and '09/30/2007', Contracting Agency ID show only ('8900'), Contracting Office ID show only ('00001') Contracting Agency ID: 8900, Contracting Office ID: 00001 NAICS Code NAICS Description Actions Action Obligation 541519 OTHER COMPUTER RELATED SERVICES 251 $164,546,671 541611 ADMINISTRATIVE MANAGEMENT AND GENERAL MANAGEMENT CONSULTING SERVICES 236 $52,396,806 514210 DATA PROCESSING SERVICES 195 $28,941,727 531210 OFFICES OF REAL ESTATE AGENTS AND BROKERS 190 $6,460,652 541330 ENGINEERING SERVICES 165 $33,006,079 163 $11,515,387 541690 OTHER SCIENTIFIC AND TECHNICAL CONSULTING SERVICES 92 $40,527,088 531390 OTHER ACTIVITIES RELATED TO REAL ESTATE 79 -$659,654 337214 OFFICE FURNITURE (EXCEPT WOOD) MANUFACTURING 78 $1,651,732

266

Analog system for computing sparse codes  

DOE Patents (OSTI)

A parallel dynamical system for computing sparse representations of data, i.e., where the data can be fully represented in terms of a small number of non-zero code elements, and for reconstructing compressively sensed images. The system is based on the principles of thresholding and local competition that solves a family of sparse approximation problems corresponding to various sparsity metrics. The system utilizes Locally Competitive Algorithms (LCAs), nodes in a population continually compete with neighboring units using (usually one-way) lateral inhibition to calculate coefficients representing an input in an over complete dictionary.

Rozell, Christopher John (El Cerrito, CA); Johnson, Don Herrick (Houston, TX); Baraniuk, Richard Gordon (Houston, TX); Olshausen, Bruno A. (San Francisco, CA); Ortman, Robert Lowell (Houston, TX)

2010-08-24T23:59:59.000Z

267

New Computer Codes Unlock the Secrets of Cleaner Burning Coal  

NLE Websites -- All DOE Office Websites (Extended Search)

Codes Codes Unlock the Secrets of Cleaner Burning Coal New Computer Codes Unlock the Secrets of Cleaner Burning Coal March 29, 2012 | Tags: Advanced Scientific Computing Research (ASCR), Combustion, Franklin, Hopper Linda Vu, lvu@lbl.gov, +1 510 495 2402 The Polk Power Station near Mulberry, Florida, is an Integrated Gasification Combined Cycle gasification plant. It is capable of generating 313 megawatts of electricity - 250 megawatts of which are supplied to the electric grid. The plant's gas cleaning technology removes more than 98 percent of the sulfur in coal, converting it to a commercial product. Nitrogen oxide emissions are reduced by more than 90 percent. (Photo courtesy of DOE-NETL) Approximately half of all electricity used in the United States comes from

268

LDPC codes from Singer cycles  

Science Conference Proceedings (OSTI)

The main goal of coding theory is to devise efficient systems to exploit the full capacity of a communication channel, thus achieving an arbitrarily small error probability. Low Density Parity Check (LDPC) codes are a family of block codes-characterised ... Keywords: LDPC Codes, Projective spaces, Singer cycles

Luca Giuzzi; Angelo Sonnino

2009-04-01T23:59:59.000Z

269

Thermodynamics Software/Codes - TMS  

Science Conference Proceedings (OSTI)

FORUMS > THERMODYNAMICS SOFTWARE/CODES, Replies, Views, Originator ... Thermodynamic calculations in multicomponent systems, 0, 1887, Cathy ...

270

" Row: NAICS Codes; Column: Energy Sources;"  

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

2 Offsite-Produced Fuel Consumption, 2002;" 2 Offsite-Produced Fuel Consumption, 2002;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Trillion Btu." " "," "," ",," "," "," "," "," "," "," "," ",," " " "," ",,,,,,,,,,"RSE" "NAICS"," "," ",,"Residual","Distillate","Natural","LPG and",,"Coke"," ","Row" "Code(a)","Subsector and Industry","Total","Electricity(b)","Fuel Oil","Fuel Oil(c)","Gas(d)","NGL(e)","Coal","and Breeze","Other(f)","Factors"

271

" Row: NAICS Codes; Column: Energy Sources;"  

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

4 Number of Establishments by Offsite-Produced Fuel Consumption, 2002;" 4 Number of Establishments by Offsite-Produced Fuel Consumption, 2002;" " Level: National Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Establishment Counts." " "," "," ",," "," "," "," "," "," "," "," ",," " " "," ","Any",,,,,,,,,"RSE" "NAICS"," ","Energy",,"Residual","Distillate","Natural","LPG and",,"Coke"," ","Row" "Code(a)","Subsector and Industry","Source(b)","Electricity(c)","Fuel Oil","Fuel Oil(d)","Gas(e)","NGL(f)","Coal","and Breeze","Other(g)","Factors"

272

" Row: NAICS Codes; Column: Energy Sources;"  

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

4 Number of Establishments by Fuel Consumption, 2002;" 4 Number of Establishments by Fuel Consumption, 2002;" " Level: National Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Establishment Counts." " "," "," ",," "," "," "," "," "," "," "," ",," " " "," ","Any",,,,,,,,,"RSE" "NAICS"," ","Energy","Net","Residual","Distillate","Natural","LPG and",,"Coke"," ","Row" "Code(a)","Subsector and Industry","Source(b)","Electricity(c)","Fuel Oil","Fuel Oil(d)","Gas(e)","NGL(f)","Coal","and Breeze","Other(g)","Factors"

273

" Row: NAICS Codes; Column: Energy Sources;"  

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

3.4 Number of Establishments by Fuel Consumption, 2006;" 3.4 Number of Establishments by Fuel Consumption, 2006;" " Level: National Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Establishment Counts." " "," "," ",," "," "," "," "," "," "," ",," " " "," ","Any" "NAICS"," ","Energy","Net","Residual","Distillate",,"LPG and",,"Coke"," " "Code(a)","Subsector and Industry","Source(b)","Electricity(c)","Fuel Oil","Fuel Oil(d)","Natural Gas(e)","NGL(f)","Coal","and Breeze","Other(g)"

274

Washington | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Washington Washington Last updated on 2013-11-05 Current News The Washington State Building Code Council recently completed deliberations on adoption and amendment of the 2012 codes. This includes adoption of the 2012 IECC with state amendments. The new codes became effective July 1, 2013. Commercial Residential Code Change Current Code State Specific Amendments / Additional State Code Information WA 2012 Nonresidential Codes Approved Compliance Tools Nonresidential Energy Code Compliance Tools Approximate Energy Efficiency Equivalent to ASHRAE 90.1-2010 Effective Date 07/01/2013 Adoption Date 02/01/2013 Code Enforcement Mandatory DOE Determination ASHRAE 90.1-2007: Yes ASHRAE 90.1-2010: Yes Washington DOE Determination Letter, May 31, 2013 Washington State Certification of Commercial and Residential Building Energy Codes

275

Alabama | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Adoption » Status of State Energy Code Adoption Adoption » Status of State Energy Code Adoption Site Map Printable Version Development Adoption Adoption Process State Technical Assistance Status of State Energy Code Adoption Compliance Regulations Resource Center Alabama Last updated on 2013-05-31 Current News The Alabama Energy and Residential Codes Board adopted the 2009 International Energy Conservation Code (IECC) for Commercial Buildings and the 2009 International Residential Code (IRC) for Residential Construction. The new codes will become effective on October 1, 2012. Commercial Residential Code Change Current Code 2009 IECC Amendments / Additional State Code Information N/A Approved Compliance Tools State Specific Research Impacts of ASHRAE 90.1-2007 for Commercial Buildings in Alabama (BECP Report, Sept. 2009)

276

The Woodland Carbon Code  

E-Print Network (OSTI)

The Woodland Carbon Code While society must continue to make every effort to reduce greenhouse gas a role by removing carbon dioxide from the atmosphere. The potential of woodlands to soak up carbon to help compensate for their carbon emissions. But before investing in such projects, people want to know

277

" Row: End Uses within NAICS Codes;"  

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

1 End Uses of Fuel Consumption, 2010;" 1 End Uses of Fuel Consumption, 2010;" " Level: National Data; " " Row: End Uses within NAICS Codes;" " Column: Energy Sources, including Net Electricity;" " Unit: Physical Units or Btu." ,,,,,"Distillate",,,"Coal" ,,,,,"Fuel Oil",,,"(excluding Coal" ,,,"Net","Residual","and","Natural Gas(d)","LPG and","Coke and Breeze)" "NAICS",,"Total","Electricity(b)","Fuel Oil","Diesel Fuel(c)","(billion","NGL(e)","(million","Other(f)" "Code(a)","End Use","(trillion Btu)","(million kWh)","(million bbl)","(million bbl)","cu ft)","(million bbl)","short tons)","(trillion Btu)"

278

" Row: End Uses within NAICS Codes;"  

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

1 End Uses of Fuel Consumption, 2006;" 1 End Uses of Fuel Consumption, 2006;" " Level: National Data; " " Row: End Uses within NAICS Codes;" " Column: Energy Sources, including Net Electricity;" " Unit: Physical Units or Btu." ,,,,,"Distillate",,,"Coal" ,,,,,"Fuel Oil",,,"(excluding Coal" ,,,"Net","Residual","and","Natural Gas(d)","LPG and","Coke and Breeze)" "NAICS",,"Total","Electricity(b)","Fuel Oil","Diesel Fuel(c)","(billion","NGL(e)","(million","Other(f)" "Code(a)","End Use","(trillion Btu)","(million kWh)","(million bbl)","(million bbl)","cu ft)","(million bbl)","short tons)","(trillion Btu)"

279

Adams-Columbia Electric Coop | Open Energy Information  

Open Energy Info (EERE)

Adams-Columbia Electric Coop Adams-Columbia Electric Coop Jump to: navigation, search Name Adams-Columbia Electric Coop Place Wisconsin Utility Id 108 Utility Location Yes Ownership C NERC Location MRO NERC MRO Yes ISO MISO Yes Activity Buying Transmission Yes Activity Distribution Yes Activity Buying Distribution Yes References EIA Form EIA-861 Final Data File for 2010 - File1_a[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Utility Rate Schedules Grid-background.png Schedule EH (Rate Code: E) Electric Space Heating Commercial Schedule EH-I (Rate Codes: J, I) Electric Space Heating, Interruptible Dual Fuel Commercial Schedule EH-TOD (Rate Code: H) Electric Heat, Time-of-Day Commercial Schedule GS (Rate Codes: 21, 23, DF) General Single-Phase, Farm and

280

OpenEI - electric rates  

Open Energy Info (EERE)

U.S. Electric Utility U.S. Electric Utility Companies and Rates: Look-up by Zipcode (Feb 2011) http://en.openei.org/datasets/node/899 This dataset, compiled by NREL and Ventyx, provides average residential, commercial and industrial electricity rates by zip code for both investor owned utilities (IOU) and non-investor owned utilities. Note: the file includes average rates for each utility, but not the detailed rate structure data found in the database available via the zip-code look-up feature on the OpenEI Utilities page (http://en.openei.org/wiki/Gateway:Utilities). The data was released by NREL/Ventyx in February 2011.

Note: This page contains sample records for the topic "local electrical codes" 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

Arkansas Air Pollution Control Code (Arkansas) | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Arkansas Air Pollution Control Code (Arkansas) Arkansas Air Pollution Control Code (Arkansas) Arkansas Air Pollution Control Code (Arkansas) < Back Eligibility Fuel Distributor Investor-Owned Utility Municipal/Public Utility Retail Supplier Rural Electric Cooperative Systems Integrator Utility Program Info State Arkansas Program Type Environmental Regulations Siting and Permitting Provider Department of Environmental Quality The Arkansas Air Pollution Control code is adopted pursuant to Subchapter 2 of the Arkansas Water and Air Pollution Control Act (Arkansas Code Annotated 8-4-101). ) By authority of the same State law, the Commission has also adopted Regulation 19, Regulations of the Arkansas Plan of Implementation for Air Pollution Control (Regulation 19) and Regulation 26, Regulations of the Arkansas Operating Air Permit Program (Regulation 26)

282

California Electric Energy Crisis - Electricity Information  

U.S. Energy Information Administration (EIA)

Electricity Information Available Formats; Status of Electric Industry Restructuring Activity in California: html: California State Electricity Profil ...

283

Quantum Electrical Measurements Portal  

Science Conference Proceedings (OSTI)

NIST Home > Quantum Electrical Measurements Portal. Quantum Electrical Measurements Portal. Subject Areas. Electrical ...

2013-03-21T23:59:59.000Z

284

High Speed and Highly Testable Parallel Two-Rail Code Checker  

E-Print Network (OSTI)

In this article we propose a high speed and highly testable parallel two-rail code checker, which features a compact structure and is Totally-Self-Checking or Strongly Code-Disjoint with respect to a wide set of realistic faults. The proposed checker is also particularly suitable to implement embedded two-rail code checkers, as it requires only two input codewords for fault detection. Our checker can be employed to check the correct operation of a connected functional block using the two-rail code, to implement the output two-rail code checker of "normal" checkers for unordered codes, or to join together the error messages produced by various checkers (possibly using different codes) present within the same self-checking system. The behavior of our checker has been verified by means of electrical level simulations (performed using HSPICE), considering both nominal values and statistical variations of electrical parameters.

Martin Omana Daniele; Daniele Rossi; Cecilia Metra

2003-01-01T23:59:59.000Z

285

Theoretical Atomic Physics code development IV: LINES, A code for computing atomic line spectra  

SciTech Connect

A new computer program, LINES, has been developed for simulating atomic line emission and absorption spectra using the accurate fine structure energy levels and transition strengths calculated by the (CATS) Cowan Atomic Structure code. Population distributions for the ion stages are obtained in LINES by using the Local Thermodynamic Equilibrium (LTE) model. LINES is also useful for displaying the pertinent atomic data generated by CATS. This report describes the use of LINES. Both CATS and LINES are part of the Theoretical Atomic PhysicS (TAPS) code development effort at Los Alamos. 11 refs., 9 figs., 1 tab.

Abdallah, J. Jr.; Clark, R.E.H.

1988-12-01T23:59:59.000Z

286

Coded modulation in the block-fading channel: coding theorems and code construction  

Science Conference Proceedings (OSTI)

We consider coded modulation schemes for the block-fading channel. In the setting where a codeword spans a finite number N of fading degrees of freedom, we show that coded modulations of rate R bit per complex dimension, over a finite signal set ??C ... Keywords: Block-fading channels, bit-interleaved coded modulation, concatenated codes, distance spectrum, diversity, iterative decoding, maximum distance-separable (MDS) codes, maximum-likelihood (ML) decoding, outage probability

A. Guillen i Fabregas; G. Caire

2006-01-01T23:59:59.000Z

287

Electric vehicles  

SciTech Connect

Quiet, clean, and efficient, electric vehicles (EVs) may someday become a practical mode of transportation for the general public. Electric vehicles can provide many advantages for the nation's environment and energy supply because they run on electricity, which can be produced from many sources of energy such as coal, natural gas, uranium, and hydropower. These vehicles offer fuel versatility to the transportation sector, which depends almost solely on oil for its energy needs. Electric vehicles are any mode of transportation operated by a motor that receives electricity from a battery or fuel cell. EVs come in all shapes and sizes and may be used for different tasks. Some EVs are small and simple, such as golf carts and electric wheel chairs. Others are larger and more complex, such as automobile and vans. Some EVs, such as fork lifts, are used in industries. In this fact sheet, we will discuss mostly automobiles and vans. There are also variations on electric vehicles, such as hybrid vehicles and solar-powered vehicles. Hybrid vehicles use electricity as their primary source of energy, however, they also use a backup source of energy, such as gasoline, methanol or ethanol. Solar-powered vehicles are electric vehicles that use photovoltaic cells (cells that convert solar energy to electricity) rather than utility-supplied electricity to recharge the batteries. This paper discusses these concepts.

Not Available

1990-03-01T23:59:59.000Z

288

Building codes as barriers to solar heating and cooling of buildings  

SciTech Connect

The application of building codes to solar energy systems for heating and cooling of buildings is discussed, using as typical codes the three model building codes most widely adopted by states and localities. Some potential barriers to solar energy systems are found, federal and state programs to deal with these barriers are discussed, and alternatives are suggested. To remedy this, a federal program is needed to encourage state adoption of standards and acceptance of certification of solar systems for code approval, and to encourage revisions to codes based on model legislation prepared for the federal government by the model codes groups.

Meeker, F.O. III

1978-04-01T23:59:59.000Z

289

Nebraska | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Nebraska Nebraska Last updated on 2013-11-04 Current News Nebraska Legislature adopted the 2009 IECC/ASHRAE 90.1-2007. The code became effective August 27, 2011. Commercial Residential Code Change Current Code 2009 IECC Amendments / Additional State Code Information Cities and counties may adopt codes that differ from the Nebraska Energy Code; however, state law requires the adopted code to be equivalent to the Nebraska Energy Code. For existing buildings, only those renovations that will cost more than 50 percent of the replacement cost of the building must comply with the code. Approved Compliance Tools Can use COMcheck State Specific Research Impacts of ASHRAE 90.1-2007 for Commercial Buildings in the State of Nebraska (BECP Report, Sept. 2009) Approximate Energy Efficiency Equivalent to 2009 IECC

290

Summary | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Summary Summary The impact of energy codes on our future is apparent. From environmental and resource conservation to national security, energy concerns, and our economic challenges, energy codes will continue to be a key component of a sound public policy. For further information on building energy code adoption, compliance, and enforcement, review the ACE toolkits Adoption Compliance Enforcement Popular Links ACE Learning Series ACE Overview Top 10 Reasons for Energy Codes Development of Energy Codes Adoption of Energy Codes Compliance with Energy Codes Enforcement of Energy Codes Going Beyond Code Summary Acronyms and Abbreviations Toolkit Definitions Adoption Toolkit Compliance Toolkit Enforcement Toolkit Contacts Web Site Policies U.S. Department of Energy USA.gov Last Updated: Thursday, January 31, 2013 - 15:19

291

Florida | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Florida Florida Last updated on 2013-11-18 Current News The triennial code change process is currently underway. Florida expects to be equivalent to ASHRAE 90.1-10 and IECC 2012 by early 2014. Commercial Residential Code Change Current Code State Specific Amendments / Additional State Code Information N/A Approved Compliance Tools Can use State specific EnergyGauge Summit FlaCom State Specific Research Approximate Energy Efficiency Equivalent to ASHRAE 90.1-2007 Effective Date 03/15/2012 Code Enforcement Mandatory DOE Determination ASHRAE 90.1-2007: Yes ASHRAE 90.1-2010: No Florida DOE Determination Letter, May 31, 2013 Florida State Certification of Commercial Building Codes Current Code State Specific Amendments / Additional State Code Information Florida Building Code

292

Central Hudson Gas & Electric (Electric) - Commercial Lighting...  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

You are here Home Savings Central Hudson Gas & Electric (Electric) - Commercial Lighting Rebate Program Central Hudson Gas & Electric (Electric) - Commercial Lighting Rebate...

293

Energy standards and model codes development, adoption, implementation, and enforcement  

Science Conference Proceedings (OSTI)

This report provides an overview of the energy standards and model codes process for the voluntary sector within the United States. The report was prepared by Pacific Northwest Laboratory (PNL) for the Building Energy Standards Program and is intended to be used as a primer or reference on this process. Building standards and model codes that address energy have been developed by organizations in the voluntary sector since the early 1970s. These standards and model codes provide minimum energy-efficient design and construction requirements for new buildings and, in some instances, existing buildings. The first step in the process is developing new or revising existing standards or codes. There are two overall differences between standards and codes. Energy standards are developed by a consensus process and are revised as needed. Model codes are revised on a regular annual cycle through a public hearing process. In addition to these overall differences, the specific steps in developing/revising energy standards differ from model codes. These energy standards or model codes are then available for adoption by states and local governments. Typically, energy standards are adopted by or adopted into model codes. Model codes are in turn adopted by states through either legislation or regulation. Enforcement is essential to the implementation of energy standards and model codes. Low-rise residential construction is generally evaluated for compliance at the local level, whereas state agencies tend to be more involved with other types of buildings. Low-rise residential buildings also may be more easily evaluated for compliance because the governing requirements tend to be less complex than for commercial buildings.

Conover, D.R.

1994-08-01T23:59:59.000Z

294

Coded modulation with Low Density Parity Check codes  

E-Print Network (OSTI)

This thesis proposes the design of Low Density Parity Check (LDPC) codes for cases where coded modulation is used. We design these codes by extending the idea of Density Evolution (DE) that has been introduced as a powerful tool to analyze LDPC codes. We first discuss methods by which we can design these codes for higher order constellations like 8 Phase Shift Keying (PSK) and 16 Quadrature Amplitude Modulation (QAM). We present simulation results that are within 0.22 dB and 0.4 dB within the constrained capacity of 8 PSK and 16 QAM constellations respectively in an Additive White Gaussian Noise (AWGN) channel. In the second part, we investigate serial concatenation of LDPC codes and minimum shift keying (MSK) with iterative decoding. We show that the design of LDPC codes is crucially dependent on the realization of the MSK modulator. For MSK modulators with non-recursive continuous phase encoders (CPEs), optimal codes for BPSK are optimal whereas for MSK modulators with recursive CPEs the BPSK codes are not optimal. We show that for non-recursive CPEs, iterative demodulation and decoding is not required even though the CPE has memory. However, iterative demodulation is essential for recursive CPEs. For recursive CPEs, we design LDPC codes using density evolution and differential evolution by looking at the graph structure of the CPE and considering message passing between both these codes. The resulting codes provide significantly improved performance over the existing codes.

Narayanaswami, Ravi

2001-01-01T23:59:59.000Z

295

Online mechanism design for electric vehicle charging  

Science Conference Proceedings (OSTI)

Plug-in hybrid electric vehicles are expected to place a considerable strain on local electricity distribution networks, requiring charging to be coordinated in order to accommodate capacity constraints. We design a novel online auction protocol for ... Keywords: electric vehicle, mechanism design, pricing

Enrico H. Gerding; Valentin Robu; Sebastian Stein; David C. Parkes; Alex Rogers; Nicholas R. Jennings

2011-05-01T23:59:59.000Z

296

" Row: End Uses within NAICS Codes;"  

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

3 End Uses of Fuel Consumption, 2010;" 3 End Uses of Fuel Consumption, 2010;" " Level: National Data; " " Row: End Uses within NAICS Codes;" " Column: Energy Sources, including Net Demand for Electricity;" " Unit: Physical Units or Btu." " "," ",," ","Distillate"," "," ","Coal" " "," ",,,"Fuel Oil",,,"(excluding Coal" " "," ","Net Demand","Residual","and","Natural Gas(d)","LPG and","Coke and Breeze)" "NAICS"," ","for Electricity(b)","Fuel Oil","Diesel Fuel(c)","(billion","NGL(e)","(million"

297

" Row: End Uses within NAICS Codes;"  

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

1 End Uses of Fuel Consumption, 2002;" 1 End Uses of Fuel Consumption, 2002;" " Level: National Data; " " Row: End Uses within NAICS Codes;" " Column: Energy Sources, including Net Electricity;" " Unit: Physical Units or Btu." " "," "," ",," ","Distillate"," "," ",," "," " " "," ",,,,"Fuel Oil",,,"Coal" " "," "," ","Net","Residual","and","Natural ","LPG and","(excluding Coal"," ","RSE" "NAICS"," ","Total","Electricity(b)","Fuel Oil","Diesel Fuel(c)","Gas(d)","NGL(e)","Coke and Breeze)","Other(f)","Row"

298

" Row: End Uses within NAICS Codes;"  

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

3. End Uses of Fuel Consumption, 1998;" 3. End Uses of Fuel Consumption, 1998;" " Level: National Data; " " Row: End Uses within NAICS Codes;" " Column: Energy Sources, including Net Demand for Electricity;" " Unit: Physical Units or Btu." " "," ",," ","Distillate"," "," ","Coal"," " " "," ",,,"Fuel Oil",,,"(excluding Coal" " "," ","Net Demand","Residual","and","Natural Gas(d)","LPG and","Coke and Breeze)","RSE" "NAICS"," ","for Electricity(b)","Fuel Oil","Diesel Fuel(c)","(billion","NGL(e)","(million","Row"

299

" Row: End Uses within NAICS Codes;"  

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

3 End Uses of Fuel Consumption, 2006;" 3 End Uses of Fuel Consumption, 2006;" " Level: National Data; " " Row: End Uses within NAICS Codes;" " Column: Energy Sources, including Net Demand for Electricity;" " Unit: Physical Units or Btu." " "," ",," ","Distillate"," "," ","Coal" " "," ",,,"Fuel Oil",,,"(excluding Coal" " "," ","Net Demand","Residual","and","Natural Gas(d)","LPG and","Coke and Breeze)" "NAICS"," ","for Electricity(b)","Fuel Oil","Diesel Fuel(c)","(billion","NGL(e)","(million"

300

" Row: End Uses within NAICS Codes;"  

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

3 End Uses of Fuel Consumption, 2002;" 3 End Uses of Fuel Consumption, 2002;" " Level: National Data; " " Row: End Uses within NAICS Codes;" " Column: Energy Sources, including Net Demand for Electricity;" " Unit: Physical Units or Btu." " "," ",," ","Distillate"," "," ",," " " "," ","Net Demand",,"Fuel Oil",,,"Coal" " "," ","for ","Residual","and","Natural ","LPG and","(excluding Coal","RSE" "NAICS"," ","Electricity(b)","Fuel Oil","Diesel Fuel(c)","Gas(d)","NGL(e)","Coke and Breeze)","Row"

Note: This page contains sample records for the topic "local electrical codes" 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

Erasure Techniques in MRD codes  

E-Print Network (OSTI)

This book is organized into six chapters. The first chapter introduces the basic algebraic structures essential to make this book a self contained one. Algebraic linear codes and their basic properties are discussed in chapter two. In chapter three the authors study the basic properties of erasure decoding in maximum rank distance codes. Some decoding techniques about MRD codes are described and discussed in chapter four of this book. Rank distance codes with complementary duals and MRD codes with complementary duals are introduced and their applications are discussed. Chapter five introduces the notion of integer rank distance codes. The final chapter introduces some concatenation techniques.

W. B. Vasantha Kandasamy; Florentin Smarandache; R. Sujatha; R. S. Raja Durai

2012-05-03T23:59:59.000Z

302

Compliance with Energy Codes | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Compliance with Energy Codes Compliance with Energy Codes Energy code compliance must be achieved to realize the considerable benefits inherent in energy codes. BECP supports successful compliance by making no-cost compliance tools, REScheck(tm) and COMcheck(tm), and other resources widely available to everyone. BECP has also developed several resources to help states uniformly assess the rate of compliance with their energy codes for residential and commercial buildings. It is important to note that regardless of the level of enforcement, as a law the building owner/developer is ultimately responsible to comply with the energy code. Compliance will be increased if the adopting agency prepares the building construction community to comply with the energy code and provides resources to code officials to enforce it.

303

Building Energy Codes 101: An Introduction | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Codes 101: An Introduction Codes 101: An Introduction In order to provide a basic introduction to the varied and complex issues associated with building energy codes, the U.S. Department of Energy's Building Energy Codes Program, with valued assistance from the International Codes Council and ASHRAE, has prepared Building Energy Codes 101: An Introduction. This guide is designed to speak to a broad audience with an interest in building energy efficiency, including state energy officials, architects, engineers, designers, and members of the public. Publication Date: Wednesday, February 17, 2010 BECP_Building Energy Codes 101_February2010_v00.pdf Document Details Last Name: Britt Initials: M Affiliation: PNNL Document Number: PNNL-70586 Focus: Adoption Code Development Compliance Building Type:

304

Building Energy Codes Resource Guide: Code Officials Edition  

NLE Websites -- All DOE Office Websites (Extended Search)

in it FOR ME? DOE's Building Energy Codes Program (www.energycodes.gov) and ICC (www.iccsafe.org) offer many resources for commercial code of cials. Examples in this section...

305

Methane Hydrates Code Comparison  

NLE Websites -- All DOE Office Websites (Extended Search)

Code Comparison Code Comparison Set-up for Problem 7 (Long-term simulations for Mt Elbert and PBU L- Pad "Like" Deposits) As discussed in the phone conference held on 11/9/2007, it is proposed that Problem 7 be made up of three separate cases: Problem 7a will look at a deposit similar to the Mt Elbert site. Problem 7b will be based on the PBU L-Pad site, and Problem 7c will be a down-dip version of the L-Pad site. In all three cases, a standard set of parameters will be used based on those found in Problem 6 (the history matches to the MDT data). The parameters chosen were consensus values based on the experiences of the various groups in attempting to match the MDT data for the C2 formation at Mount Elbert. Given below are the detailed descriptions of the three problems and the proposed

306

Status of MARS Code  

SciTech Connect

Status and recent developments of the MARS 14 Monte Carlo code system for simulation of hadronic and electromagnetic cascades in shielding, accelerator and detector components in the energy range from a fraction of an electronvolt up to 100 TeV are described. these include physics models both in strong and electromagnetic interaction sectors, variance reduction techniques, residual dose, geometry, tracking, histograming. MAD-MARS Beam Line Build and Graphical-User Interface.

N.V. Mokhov

2003-04-09T23:59:59.000Z

307

MELCOR computer code manuals  

Science Conference Proceedings (OSTI)

MELCOR is a fully integrated, engineering-level computer code that models the progression of severe accidents in light water reactor nuclear power plants. MELCOR is being developed at Sandia National Laboratories for the U.S. Nuclear Regulatory Commission as a second-generation plant risk assessment tool and the successor to the Source Term Code Package. A broad spectrum of severe accident phenomena in both boiling and pressurized water reactors is treated in MELCOR in a unified framework. These include: thermal-hydraulic response in the reactor coolant system, reactor cavity, containment, and confinement buildings; core heatup, degradation, and relocation; core-concrete attack; hydrogen production, transport, and combustion; fission product release and transport; and the impact of engineered safety features on thermal-hydraulic and radionuclide behavior. Current uses of MELCOR include estimation of severe accident source terms and their sensitivities and uncertainties in a variety of applications. This publication of the MELCOR computer code manuals corresponds to MELCOR 1.8.3, released to users in August, 1994. Volume 1 contains a primer that describes MELCOR`s phenomenological scope, organization (by package), and documentation. The remainder of Volume 1 contains the MELCOR Users Guides, which provide the input instructions and guidelines for each package. Volume 2 contains the MELCOR Reference Manuals, which describe the phenomenological models that have been implemented in each package.

Summers, R.M.; Cole, R.K. Jr.; Smith, R.C.; Stuart, D.S.; Thompson, S.L. [Sandia National Labs., Albuquerque, NM (United States); Hodge, S.A.; Hyman, C.R.; Sanders, R.L. [Oak Ridge National Lab., TN (United States)

1995-03-01T23:59:59.000Z

308

residential environment. Electrical connections that are easily pulled apart and single, exposed conductors that are readily  

E-Print Network (OSTI)

of Energy, which sponsored code-writing activities, believed that rooftop, building-integrated, utility that additions to the code specifically addressed this technology. Making Solar Electricity Safer In the mid-1970

Johnson, Eric E.

309

Baltimore Gas and Electric Company (Electric) - Commercial Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Baltimore Gas and Electric Company (Electric) - Commercial Energy Baltimore Gas and Electric Company (Electric) - Commercial Energy Efficiency Program Baltimore Gas and Electric Company (Electric) - Commercial Energy Efficiency Program < Back Eligibility Commercial Fed. Government Industrial Local Government Nonprofit State Government Savings Category Heating & Cooling Commercial Heating & Cooling Cooling Other Heat Pumps Appliances & Electronics Commercial Lighting Lighting Manufacturing Maximum Rebate $1,000,000/corporate tax ID/year Commercial Rebates: Contact BGE Retro-Commissioning, Operations, and Maintenance: $15,000 Program Info State Maryland Program Type Utility Rebate Program Rebate Amount New Construction Performance Lighting: $0.40 - $0.80/watt reduced New Construction Green Building Incentive: $0.25 - $0.40/kWh saved first

310

Michigan | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Michigan Michigan Last updated on 2013-06-03 Commercial Residential Code Change Current Code ASHRAE Standard 90.1-2007 with Amendments Amendments / Additional State Code Information 2009 Commercial MI Uniform Energy Code Rules Approved Compliance Tools Can use COMcheck State Specific Research Impacts of ASHRAE 90.1-2007 for Commercial Buildings in the State of Michigan (BECP Report, Sept. 2009) Approximate Energy Efficiency Equivalent to ASHRAE 90.1-2007 Effective Date 03/09/2011 Adoption Date 11/08/2010 Code Enforcement Mandatory DOE Determination ASHRAE 90.1-2007: No ASHRAE 90.1-2010: No Michigan DOE Determination Letter, May 31, 2013 Current Code 2009 IECC with Amendments Amendments / Additional State Code Information 2009 Residential MI Uniform Energy Code Rules Approved Compliance Tools Can use REScheck

311

Minnesota | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Minnesota Minnesota Last updated on 2013-06-03 Current News The 2009 editions of the International Residential Code (IRC), International Building Code (IBC), and International Fire Code (IFC) will be published soon and the Construction Codes and Licensing Division and the State Fire Marshal Division have been discussing this adoption. Commercial Residential Code Change Current Code ASHRAE Standard 90.1-2004 with Amendments Amendments / Additional State Code Information Commercial Energy Code Approved Compliance Tools Compliance forms can be downloaded from ASHRAE State Specific Research Impacts of ASHRAE 90.1-2007 for Commercial Buildings in the State of Minnesota (BECP Report, Sept. 2009) Approximate Energy Efficiency Less energy efficient than ASHRAE 90.1-2004 Effective Date 06/01/2009

312

Nevada Energy Code for Buildings  

Energy.gov (U.S. Department of Energy (DOE))

''Much of the information presented in this summary is drawn from the U.S. Department of Energy’s (DOE) Building Energy Codes Program and the Building Codes Assistance Project (BCAP). For more...

313

Matlab-Kinect Interface Code  

E-Print Network (OSTI)

This .zip file contains code and installation instructions for acquiring 3d arm movements in Matlab using the Microsoft Kinect 3d camera. The provided code has been validated in 32-bit and 64-bit Matlab with 32-bit and ...

Kowalski, Kevin

2012-06-01T23:59:59.000Z

314

Code Completion From Abbreviated Input  

E-Print Network (OSTI)

Abbreviation Completion is a novel technique to improve the efficiency of code-writing by supporting code completion of multiple keywords based on non-predefined abbreviated input - a different approach from conventional ...

Miller, Robert C.

315

Georgia | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Georgia Georgia Last updated on 2013-07-18 Commercial Residential Code Change Current Code 2009 IECC with Amendments Amendments / Additional State Code Information GA Amendments Approved Compliance Tools Can use COMcheck Must choose ASHRAE 90.1-2007 as code option. State Specific Research Impacts of ASHRAE 90.1-2007 for Commercial Buildings in the State of Georgia (BECP Report, Sept. 2009) Approximate Energy Efficiency Equivalent to 2009 IECC Effective Date 01/01/2011 Adoption Date 11/03/2010 Code Enforcement Mandatory DOE Determination ASHRAE 90.1-2007: Yes ASHRAE 90.1-2010: No Georgia State Certification of Commercial and Residential Building Codes Extension Request Current Code 2009 IECC with Amendments Amendments / Additional State Code Information GA Amendments Approved Compliance Tools Can use REScheck

316

Electricity Costs  

NLE Websites -- All DOE Office Websites (Extended Search)

Carbon Emissions Caps and the Impact of a Radical Change in Nuclear Electricity Costs journal International Journal of Energy Economics and Policy volume year month chapter...

317

2009 Solar Decathlon Building Code  

NLE Websites -- All DOE Office Websites (Extended Search)

BUILDING CODE Last Updated: September 29, 2008 2009 Solar Decathlon Building Code i September 29, 2008 Contents Section 1. Introduction ............................................................................................................................................................. 1 Section 2. Adopted Codes ........................................................................................................................................................ 1 Section 3. Building Planning and Construction .............................................................................................................. 1 3-1. Fire Protection and Prevention ................................................................................................................................. 1

318

Coded output support vector machine  

Science Conference Proceedings (OSTI)

The authors propose a coded output support vector machine (COSVM) by introducing the idea of information coding to solve multi-class classification problems for large-scale datasets. The COSVM is built based on the support vector regression (SVR) machine ... Keywords: coded output, multi-class classification, number system, parallel implementation, support vector machine (SVM)

Tao Ye; Xuefeng Zhu

2012-07-01T23:59:59.000Z

319

Code for Hydrogen Hydrogen Pipeline  

E-Print Network (OSTI)

#12;2 Code for Hydrogen Pipelines Hydrogen Pipeline Working Group Workshop Augusta, Georgia August development · Charge from BPTCS to B31 Standards Committee for Hydrogen Piping/Pipeline code development · B31.12 Status & Structure · Hydrogen Pipeline issues · Research Needs · Where Do We Go From Here? #12;4 Code

320

Repeatability of measurements of residential magnetic fields and wire codes  

SciTech Connect

Several epidemiological studies have been based on wire codes (i.e., categories of electrical wiring configurations near residences) or on in-home spot measurements of magnetic flux density (MFD) as surrogates for short- and long-term exposure of children and adults to residential magnetic fields. We used wire code and MFD measurements that were made in 81 Colorado homes in 1985 and again in 1990 to assess their repeatability over periods of 0-24 h and 5 years. These homes, a subset of those lived in by subjects from the case-control study of Savitz et al. [Am J Epidemiol 128:21-38, 1988], were divided into four approximately equally sized groups that were differentiated by wire code and by case-control status. Eight homes were assigned wire codes in 1990 that differed from the 1985 coding of Savitz and colleagues [1988]; of these, seven were coded as high-current configuration (HCC) and one as low-current configuration (LCC) in 1985. Overall, 37 homes were coded as HCC in 1990 compared with 38 homes in 1985. Coding differences were due to differing distance measurements (four homes), differing thick vs. thin categorization of primary-distribution line-conductor sizes (two homes), differing first-span vs. second-span categorization of secondary wires (one home), and physical changes in proximate electrical wiring (one home). Coefficients of correlation between MFD spot measurements that were separated in time by 0-24 h range between 0.70 and 0.90. The coefficient between spot measurements made in 1985 and then again in 1990 is 0.70. These coefficients are similar for HCC and LCC homes and do not depend on whether residential appliances were turned on or off. The data show (at least for the portion of Colorado studied) that residential wire code and, more surprisingly, spot MFD measurements, are fairly reliable over 0-24-h and 5-year periods.

Dovan, T.; Kaune, W.T.; Savitz, D.A. (ENERTECH Consultants, Campbell, CA (United States))

1993-01-01T23:59:59.000Z

Note: This page contains sample records for the topic "local electrical codes" 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

Literature review of United States utilities computer codes for calculating actinide isotope content in irradiated fuel  

SciTech Connect

This paper reviews the accuracy and precision of methods used by United States electric utilities to determine the actinide isotopic and element content of irradiated fuel. After an extensive literature search, three key code suites were selected for review. Two suites of computer codes, CASMO and ARMP, are used for reactor physics calculations; the ORIGEN code is used for spent fuel calculations. They are also the most widely used codes in the nuclear industry throughout the world. Although none of these codes calculate actinide isotopics as their primary variables intended for safeguards applications, accurate calculation of actinide isotopic content is necessary to fulfill their function.

Horak, W.C.; Lu, Ming-Shih

1991-12-01T23:59:59.000Z

322

" Row: Selected SIC Codes; Column: Energy Sources;"  

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

1. Fuel Consumption, 1998;" 1. Fuel Consumption, 1998;" " Level: National Data; " " Row: Selected SIC Codes; Column: Energy Sources;" " Unit: Physical Units or Btu." " "," "," ",," "," "," "," "," "," "," "," ",," " " "," ",,,,,,,,"Coke" " "," "," ","Net","Residual","Distillate","Natural Gas(d)","LPG and","Coal","and Breeze"," ","RSE" "SIC"," ","Total","Electricity(b)","Fuel Oil","Fuel Oil(c)","(billion","NGL(e)","(million","(million","Other(f)","Row"

323

" Row: NAICS Codes; Column: Energy Sources;"  

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

1 Offsite-Produced Fuel Consumption, 2002;" 1 Offsite-Produced Fuel Consumption, 2002;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Physical Units or Btu." " "," "," ",," "," "," "," "," "," "," "," ",," " " "," ",,,,,,,,"Coke" " "," "," ",,"Residual","Distillate","Natural","LPG and","Coal","and Breeze"," ","RSE" "NAICS"," ","Total","Electricity(b)","Fuel Oil","Fuel Oil(c)","Gas(d)","NGL(e)","(million","(million","Other(f)","Row"

324

" Row: NAICS Codes; Column: Energy Sources;"  

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

1 Fuel Consumption, 2002;" 1 Fuel Consumption, 2002;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Physical Units or Btu." " "," "," ",," "," "," "," "," "," "," "," ",," " " "," ",,,,,,,,"Coke" " "," "," ","Net","Residual","Distillate","Natural","LPG and","Coal","and Breeze"," ","RSE" "NAICS"," ","Total","Electricity(b)","Fuel Oil","Fuel Oil(c)","Gas(d)","NGL(e)","(million","(million","Other(f)","Row"

325

" Row: NAICS Codes; Column: Energy Sources;"  

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

1 Offsite-Produced Fuel Consumption, 2006;" 1 Offsite-Produced Fuel Consumption, 2006;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Physical Units or Btu." " "," "," ",,,," "," "," ",," "," "," "," "," " " "," ",,,,,,,,,,,"Coke" " "," "," ",,,,"Residual","Distillate","Natural Gas(d)",,"LPG and","Coal","and Breeze"," " "NAICS"," ","Total",,"Electricity(b)",,"Fuel Oil","Fuel Oil(c)","(billion",,"NGL(e)","(million","(million","Other(f)"

326

130 Home Power #71 June / July 1999 Code Corner  

E-Print Network (OSTI)

, guidelines and specifications. B. The following codes, as required by law: 1. ANSI/NFPA-70, National Electric.2 COPPER A. Wall-mounted 110-blocks (for voice applications) 1. Performance shall meet the performance 5e 110 Block Kits b) Panduit Pan-Punch 110 category 5e System Kits B. Angled patch panels 1. Size

Johnson, Eric E.

327

Securing Energy Metering Software with Automatic Source Code Correction  

E-Print Network (OSTI)

Securing Energy Metering Software with Automatic Source Code Correction Ib´eria Medeiros University of energy and achieving cost savings. This monitoring often involves energy metering software with a web of energy production have been fostering the monitoring and analy- sis of electricity consumption

Neves, Nuno

328

" Row: NAICS Codes; Column: Energy Sources;"  

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

1 Fuel Consumption, 2010;" 1 Fuel Consumption, 2010;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Physical Units or Btu." " "," "," ",," "," "," "," "," "," "," " " "," ",,,,,,,,"Coke" " "," "," ","Net","Residual","Distillate","Natural Gas(d)","LPG and","Coal","and Breeze"," " "NAICS"," ","Total","Electricity(b)","Fuel Oil","Fuel Oil(c)","(billion","NGL(e)","(million","(million","Other(f)"

329

" Row: End Uses within NAICS Codes;"  

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

1. End Uses of Fuel Consumption, 1998;" 1. End Uses of Fuel Consumption, 1998;" " Level: National Data; " " Row: End Uses within NAICS Codes;" " Column: Energy Sources, including Net Electricity;" " Unit: Physical Units or Btu." " "," "," ",," ","Distillate"," "," ","Coal"," "," " " "," ",,,,"Fuel Oil",,,"(excluding Coal" " "," "," ","Net","Residual","and","Natural Gas(d)","LPG and","Coke and Breeze)"," ","RSE"

330

" Row: NAICS Codes; Column: Energy Sources;"  

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

6 Quantity of Purchased Energy Sources, 2010;" 6 Quantity of Purchased Energy Sources, 2010;" " Level: National and Regional Data;" " Row: NAICS Codes; Column: Energy Sources;" " Unit: Physical Units or Btu." " "," "," ",," "," "," "," "," "," "," " " "," ",,,,,,,,"Coke" " "," "," ",,"Residual","Distillate","Natural Gas(c)","LPG and","Coal","and Breeze"," " "NAICS"," ","Total","Electricity","Fuel Oil","Fuel Oil(b)","(billion","NGL(d)","(million","(million","Other(e)"

331

" Row: NAICS Codes; Column: Energy Sources;"  

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

1. Fuel Consumption, 1998;" 1. Fuel Consumption, 1998;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Physical Units or Btu." " "," "," ",," "," "," "," "," "," "," "," ",," " " "," ",,,,,,,,"Coke" " "," "," ","Net","Residual","Distillate","Natural Gas(d)","LPG and","Coal","and Breeze"," ","RSE" "NAICS"," ","Total","Electricity(b)","Fuel Oil","Fuel Oil(c)","(billion","NGL(e)","(million","(million","Other(f)","Row"

332

Biodiesel Vehicle and Infrastructure Codes and Standards Citations (Brochure), NREL (National Renewable Energy Laboratory)  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Biodiesel Vehicle and Infrastructure Codes and Standards Citations Biodiesel Vehicle and Infrastructure Codes and Standards Citations This document lists codes and standards typically used for U.S. biodiesel vehicle and infrastructure projects. To determine which codes and standards apply to a specific project, identify the codes and standards currently in effect within the jurisdiction where the project will be located. Some jurisdictions also have unique ordinances or regulations that could apply. Learn about codes and standards basics at www.afdc.energy.gov/afdc/codes_standards_basics.html. Find biodiesel vehicle and infrastructure codes and standards in these categories: * Definition and Classification of Liquids * Fire Prevention and Fire Risk Control * Building Construction Requirements * Electrical Systems

333

Ethanol Vehicle and Infrastructure Codes and Standards Citations (Brochure), NREL (National Renewable Energy Laboratory)  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Ethanol Vehicle and Infrastructure Codes and Standards Citations Ethanol Vehicle and Infrastructure Codes and Standards Citations This document lists codes and standards typically used for U.S. ethanol vehicle and infrastructure projects. To determine which codes and standards apply to a specific project, identify the codes and standards currently in effect within the jurisdiction where the project will be located. Some jurisdictions also have unique ordinances or regulations that could apply. Learn about codes and standards basics at www.afdc.energy.gov/afdc/codes_standards_basics.html. Find ethanol vehicle and infrastructure codes and standards in these categories: * Definition and Classification of Liquids * Fire Prevention and Fire Risk Control * Building Construction Requirements * Electrical Systems

334

Briefings on Physical Security of Electricity Substations  

Energy.gov (U.S. Department of Energy (DOE))

The Department of Energy (DOE) and Department of Homeland Security (DHS), in coordination with the Federal Bureau of Investigation, the Federal Energy Regulatory Commission's Office of Energy Infrastructure Security, the Electricity Sector Information Sharing and Analysis Center (ES-ISAC), North American Electricity Reliability Corporation (NERC), and industry experts, will conduct a series of briefings across the country with electricity sector owners and operators, and local law enforcement on the physical security of electricity substations.

335

"Code(a)","Subsector and Industry","Total","Electricity","Fuel...  

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

me",0,0,0,0,0,0,0,0,0 327420," Gypsum",0.3,1.6,0,0,0.1,2.9,"X","X",0.1 327993," Mineral Wool",0.3,0.5,"X",2.7,0.2,2.2,"X",3,0.1 331,"Primary Metals",0.5,0.7,0.1,1.7,0.7,4,0,0.2,0.4...

336

Electric machine  

SciTech Connect

An interior permanent magnet electric machine is disclosed. The interior permanent magnet electric machine comprises a rotor comprising a plurality of radially placed magnets each having a proximal end and a distal end, wherein each magnet comprises a plurality of magnetic segments and at least one magnetic segment towards the distal end comprises a high resistivity magnetic material.

El-Refaie, Ayman Mohamed Fawzi (Niskayuna, NY); Reddy, Patel Bhageerath (Madison, WI)

2012-07-17T23:59:59.000Z

337

Project Title: DOE Code: Project Lead: NEPA COMPLIANCE SURVEY  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DOE Code: DOE Code: Project Lead: NEPA COMPLIANCE SURVEY # 258 Project lnfonnation Rewire electrical to pole at 77SHX10 Mike Preston Date: 11-19-09 Contractor Code: Project Overview No~ rea has been previously disturbed. The trenching will be th,ugh pre-existing right of way for the 1. What are the environmental ~ ~=~d ~ impacts? 2. What is the legal location? Repair a~ replacement of electrical lines to the Pole next to well at 77S~1 0. This will require trenching 3. What is the duration of the project? across the road a~ to the pole. Removing old lines and replacement of lines. 4. What major equipment will be used if any (wor1< over rig, drilling rig, 1 day etc.)? Back hole The table below is to be completed by the Project Lead and reviewed by the Environmental Specialist and the DOE NEPA

338

Program Impact Analysis | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Program Impact Analysis Program Impact Analysis BECP periodically assesses the impacts of its activities by estimating historical and projected energy savings, consumer savings, and avoided emissions. Since the inception of the Program 20 years ago, cumulative full-fuel-cycle (FFC) energy savings from 1992- 2012 are estimated to be approximately 4.8 quads and cost savings to consumers have been more than $44 billion. These savings have resulted primarily from the Program's activities which upgrade the model energy codes, accelerate their adoption by states and localities, and improve code compliance by means of various software tools and other types of training and technical support. The federal budgetary cost of the Program over this same period (1992-2012) was estimated to be around $110 million, resulting in a ratio of more than $400

339

Development | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Printable Version Printable Version Development Commercial Residential Adoption Compliance Regulations Resource Center Development The U.S. Department of Energy (DOE) supports and participates in the model building energy code development processes administered by the ASHRAE and the International Code Council (ICC). DOE activities include developing and submitting code change proposals, conducting analysis of building energy efficiency and cost savings, and formulating underlying evaluation methodologies. Through participation in model energy code development for both commercial and residential buildings, DOE strives to make cost-effective, energy efficient upgrades to current model codes. DOE also establishes energy efficiency standards for federal buildings and manufactured housing. Further information on this process is defined under

340

Joint Electrical Utilities (Iowa) | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Joint Electrical Utilities (Iowa) Joint Electrical Utilities (Iowa) Joint Electrical Utilities (Iowa) < Back Eligibility Investor-Owned Utility Local Government Municipal/Public Utility Rural Electric Cooperative Tribal Government Utility Savings Category Alternative Fuel Vehicles Hydrogen & Fuel Cells Buying & Making Electricity Water Home Weatherization Solar Wind Program Info State Iowa Program Type Environmental Regulations Provider Iowa Utilities Board Cities may establish utilities to acquire existing electric generating facilities or distribution systems. Acquisition, in this statute, is defined as city involvement, and includes purchase, lease, construction, reconstruction, extension, remodeling, improvement, repair, and equipping of the facility. This chapter does not limit the powers or authority of

Note: This page contains sample records for the topic "local electrical codes" 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

Competitive Bidding Process for Electric Distribution Companies'  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Competitive Bidding Process for Electric Distribution Companies' Competitive Bidding Process for Electric Distribution Companies' Procurement of Default and Back-up Electric Generation Services (Connecticut) Competitive Bidding Process for Electric Distribution Companies' Procurement of Default and Back-up Electric Generation Services (Connecticut) < Back Eligibility Agricultural Commercial Construction Fed. Government Fuel Distributor General Public/Consumer Industrial Installer/Contractor Institutional Investor-Owned Utility Local Government Low-Income Residential Multi-Family Residential Municipal/Public Utility Nonprofit Residential Retail Supplier Rural Electric Cooperative Schools State/Provincial Govt Systems Integrator Transportation Tribal Government Utility Savings Category Alternative Fuel Vehicles Hydrogen & Fuel Cells

342

U.S. Electric Utility Companies and Rates: Look-up by Zipcode...  

Open Energy Info (EERE)

by NREL and Ventyx, provides average residential, commercial and industrial electricity rates by zip code for both investor owned utilities (IOU) and non-investor owned utilities....

343

Ohio | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Ohio Ohio Last updated on 2013-10-21 Commercial Residential Code Change Current Code 2009 IECC Amendments / Additional State Code Information Ohio's commercial code is the 2009 IECC with a direct reference to ASHRAE 90.1-07. Approved Compliance Tools Can use COMcheck State Specific Research Impacts of ASHRAE 90.1-2007 for Commercial Buildings in the State of Ohio (BECP Report, Sept. 2009) Approximate Energy Efficiency Equivalent to 2009 IECC Effective Date 11/01/2011 Adoption Date 03/07/2011 Code Enforcement Mandatory DOE Determination ASHRAE 90.1-2007: Yes ASHRAE 90.1-2010: No Ohio DOE Determination Letter, May 31, 2013 Ohio State Certification of Commercila and Residential Building Energy Codes Current Code 2009 IECC with Amendments Amendments / Additional State Code Information Effective January 1, 2013 the residential code in Ohio is based on Chapter 11 of the 2009 IRC. It includes the 2009 IECC and state-specific alternative compliance paths. The 2013 Residential Code of Ohio (RCO) contains amendments to allow compliance to be demonstrated in three ways: (1) 2009 IECC; or (2) RCO Sections 1101 through 1104; or RCO Section 1105 ("The Ohio Homebuilder's Association Alternative Energy Code Option").

344

Pennsylvania | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Pennsylvania Pennsylvania Last updated on 2013-11-05 Commercial Residential Code Change Current Code 2009 IECC Amendments / Additional State Code Information Pennsylvania's current code is the 2009 IECC with reference to ASHRAE 90.1-2007. Approved Compliance Tools Can use COMcheck State Specific Research Impacts of ASHRAE 90.1-2007 for Commercial Buildings in the State of Pennsylvania (BECP Report, Sept. 2009) Approximate Energy Efficiency Equivalent to 2009 IECC Effective Date 12/31/2009 Adoption Date 12/10/2009 Code Enforcement Mandatory DOE Determination ASHRAE 90.1-2007: Yes ASHRAE 90.1-2010: No Pennsylvania DOE Determination Letter, May 31, 2013 Pennsylvania State Certification of Commercial and Residential Building Energy Codes Current Code 2009 IECC Amendments / Additional State Code Information Pennsylvania's current residential code is the 2009 IECC, 2009 IRC, Chapter 11, and/or PA-Alt. Adherence to Pennsylvania's Alternative Residential Energy Provisions 2009 is an acceptable means of demonstrating compliance with the energy conservation code requirements of the Uniform Construction Code.

345

Northern Mariana Islands | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

No Code Change Process Legislative Code Change Cycle None Timeline of Cycle None Adoption Process The Building Safety Code was developed through legislative action. The rules and...

346

Kentucky | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Kentucky Kentucky Last updated on 2013-08-02 Current News Kentucky moves forward with the 2009 IECC by reference in their updated 2007 Kentucky Building Code. 2009 IECC is effective 3/6/2011 with mandatory compliance beginning 6/1/2011. Kentucky residential code was also updated to the 2009 IECC. The code is effective 7/1/2012 with an enforcement date of 10/1/2012. Commercial Residential Code Change Current Code 2009 IECC with Amendments Amendments / Additional State Code Information Amendments are contained in the latest update to the 2007 Kentucky Building Code. Approved Compliance Tools Can use COMcheck State Specific Research Impacts of ASHRAE 90.1-2007 for Commercial Buildings in the State of Kentucky (BECP Report, Sept. 2009) Approximate Energy Efficiency Equivalent to 2009 IECC

347

City of Los Angeles - Zoning Code | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Zoning Code Zoning Code City of Los Angeles - Zoning Code < Back Eligibility Commercial Industrial Residential Savings Category Solar Buying & Making Electricity Heating & Cooling Commercial Heating & Cooling Heating Water Heating Program Info State California Program Type Solar/Wind Access Policy Provider Los Angeles Department of Water and Power Chapter I of Los Angeles' Municipal Code, Height of Building or Structures, provides an exemption for solar energy devices, or similar structures. They may be erected above the height limit specified in the district in which the property is located. In all zones, solar devices may exceed the roof surface by 3 feet even if the roof surface is at or above the allowable building height limit. In all zones except R1 and more restrictive zones,

348

Progressive Source Coding for a Power Constrained Gaussian Channel  

E-Print Network (OSTI)

For a power constrained Gaussian channel we determine the energy per bit for a BPSK transmitter and the channel code rate to minimize the end-to-end average quantizer distortion for certain progressive source coders. This provides an additional degree of freedom with respect to previously proposed schemes, and therefore can achieve higher overall performance for sources such as images. Keywords: Source and Channel Coding, Image Compression Supported in part by the National Science Foundation. M. Fossorier is with the Department of Electrical Engineering, University of Hawaii, Honolulu, HI 96822. Email: marc@spectra.eng.hawaii.edu Z. Xiong is with the Department of Electrical Engineering, Texas A&M University, College Station, TX 77843. Email: zx@ee.tamu.edu K. Zeger is with the Department of Electrical and Computer Engineering, University of California, San Diego, La Jolla, CA 92093-0407. Email: zeger@ucsd.edu 1 Introduction For a source with distortion-rate function D(\\Delt...

Marc P. C. Fossorier; Zixiang Xiong; Kenneth Zeger

2001-01-01T23:59:59.000Z

349

Electric moped  

DOE Green Energy (OSTI)

Two electrically powered mopeds were designed and built. These vehicles offer single-person transportation which is convenient, quiet, low-cost, smooth, and pollution-free. The first moped has a 12 volt electrical system. The second has a 24 volt electrical system. They both have top speeds of about 20 miles per hour. They both use transistorized speed controls and deep-discharge, lead-acid batteries. These mopeds were put through a 750 mile test program. In this program, the 12 volt bike had an average range of nine miles. The 24 volt bike, with a smaller battery capacity, had an average range of six miles.

Ferschl, M.S.

1981-02-26T23:59:59.000Z

350

Nondestructive Evaluation: ASME Code Participation and Section XI Development in 2013  

Science Conference Proceedings (OSTI)

This work documents the participation of the Electric Power Research Institute (EPRI) Nondestructive Evaluation (NDE) Program staff at the ASME Sections XI and V Code committees for the benefit of those utilities that are unable to participate in the Code process. This report will now be published every other year instead of annually.BackgroundBecause some utilities are unable to participate in Code activities, this project provides a way for them to stay ...

2013-07-25T23:59:59.000Z

351

Building Energy Codes News | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Building Energy Codes News Building Energy Codes News News Category: National Policy DOE Activities and Methodology for Assessing Compliance With Building Energy Codes RFI Posted: Tuesday, August 6, 2013 On August 6, DOE published an RFI on its methodology for assessing code compliance into the Federal Register. Based on feedback received from the individual state compliance pilot studies in 2011-2012, the RFI seeks input on DOE's methodology and fundamental assumptions from the general public. Read the full article... Source: U.S. Department of Energy Building Energy Codes Program Energy 2030 Report Calls for Stricter Energy Building Codes Posted: Tuesday, February 12, 2013 The Alliance Commission on National Energy Efficiency Policy aims to double US energy productivity by 2030, and one of its many ways to achieve that

352

Top 10 Reasons for Energy Codes | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Top 10 Reasons for Energy Codes Top 10 Reasons for Energy Codes The projected energy savings attributable to energy codes translates into an estimated cumulative savings of 800 million metric tons of carbon dioxide by 2030-that's equivalent to removing 145 million vehicles from our nation's roadways. Here are the top 10 reasons for adopting and implementing energy codes. Today's global energy, economic, and environmental challenges necessitate a U.S. strategy identifying a suite of energy-efficiency-related initiatives that is implemented by the building industry and relevant stakeholders. Energy codes are a core component of that strategy and, in addition, have an impact on other strategies to improve our built environment. Energy Codes... SAVE money and help reduce needless consumption of energy to heat,

353

CAT: a computer code for the automated construction of fault trees. [In FORTRAN  

SciTech Connect

A computer code, CAT (Computer Automated Tree, is presented which applies decision table methods to model the behavior of components for systematic construction of fault trees. The decision tables for some commonly encountered mechanical and electrical components are developed; two nuclear subsystems, a Containment Spray Recirculation System and a Consequence Limiting Control System, are analyzed to demonstrate the applications of CAT code.

Apostolakis, G.E.; Salem, S.L.; Wu, J.S.

1978-03-01T23:59:59.000Z

354

Biomass for energy and materials Local technologies -  

E-Print Network (OSTI)

Biomass for energy and materials Local technologies - in a global perspective Erik Steen Jensen Bioenergy and biomass Biosystems Department Risø National Laboratory Denmark #12;Biomass - a local resource, slaughterhouse waste. #12;Biomass characteristics · Biomass is a storable energy carrier, unlike electricity

355

Commercial Codes and Standards | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

(or non-residential) buildings, in the context of building energy codes and standards, are all buildings other than low-rise residential buildings, including multi-family...

356

Network Coded Transmission of Fountain Codes over Cooperative Relay Networks  

E-Print Network (OSTI)

In this paper, a transmission strategy of fountain codes over cooperative relay networks is proposed. When more than one relay nodes are available, we apply network coding to fountain-coded packets. By doing this, partial information is made available to the destination node about the upcoming message block. It is therefore able to reduce the required number of transmissions over erasure channels, hence increasing the effective throughput. Its application to wireless channels with Rayleigh fading and AWGN noise is also analysed, whereby the role of analogue network coding and optimal weight selection is demonstrated.

Kurniawan, E; Yen, K; Chong, K F E

2010-01-01T23:59:59.000Z

357

Building Energy Code Resource Guide: Code Officials Edition ...  

NLE Websites -- All DOE Office Websites (Extended Search)

includes practical plan review and inspection resources, including the U.S. Department of Energy Building Energy Codes Program's REScheck(tm) and COMcheck(tm) quick reference...

358

Jacobian code generated by source transformation and vertex elimination is as efficient as hand coding  

E-Print Network (OSTI)

Jacobian code generated by source transformation and vertex elimination is as efficient as hand coding

Forth, S A; Pryce, J D; Reid, J K

2002-01-01T23:59:59.000Z

359

EIA - State Electricity Profiles  

U.S. Energy Information Administration (EIA)

Trade and Reliability; All Reports ‹ See all Electricity Reports State Electricity Profiles. ... Electric Power Industry Emissions Estimates, 1990 Through 2010:

360

Building Energy Code | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Building Energy Code Building Energy Code Eligibility Commercial Residential Savings For Heating & Cooling Home Weatherization Construction Commercial Weatherization Commercial...

Note: This page contains sample records for the topic "local electrical codes" 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

Building Energy Code | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Code Building Energy Code Eligibility Commercial Residential Savings For Heating & Cooling Home Weatherization Construction Commercial Weatherization Commercial Heating & Cooling...

362

Delaware | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Site Map Printable Version Development Adoption Adoption Process State Technical Assistance Status of State Energy Code Adoption Compliance Regulations Resource Center Delaware Last updated on 2013-08-02 Commercial Residential Code Change Current Code 2009 IECC with Amendments Amendments / Additional State Code Information Agriculture structures are excluded. Approved Compliance Tools Can use COMcheck State Specific Research Impacts of ASHRAE 90.1-2007 for Commercial Buildings in the State of Delaware (BECP Report, Sept. 2009) Approximate Energy Efficiency Equivalent to 2009 IECC Effective Date 07/01/2010 Adoption Date 07/29/2009 Code Enforcement Mandatory DOE Determination ASHRAE 90.1-2007: Yes ASHRAE 90.1-2010: No Delaware DOE Determination Letter, May 31, 2013 Delaware State Certification of Commercial and Residential Building Energy Codes

363

Arkansas | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Arkansas Arkansas Last updated on 2013-12-10 Current News ASHRAE 90.1-2007 became the effective commercial code in Arkansas on January 1, 2013. Commercial Residential Code Change Current Code ASHRAE Standard 90.1-2007 with Amendments Amendments / Additional State Code Information Arkansas Supplements and Amendments Approved Compliance Tools Can use COMcheck State Specific Research Impacts of ASHRAE 90.1-2007 for Commercial Buildings in the State of Arkansas Approximate Energy Efficiency Equivalent to ASHRAE 90.1-2007 Effective Date 01/01/2013 Adoption Date 01/13/2012 Code Enforcement Mandatory DOE Determination ASHRAE Standard 90.1-2007: Yes ASHRAE Standard 90.1-2010: No Energy cost savings for Arkansas resulting from the state updating its commercial and residential building energy codes in accordance with federal law are significant, estimated to be on the order of nearly $100 million annually by 2030.

364

Stability of Iterative Decoding of Multi-Edge Type Doubly-Generalized LDPC Codes Over the BEC  

E-Print Network (OSTI)

Using the EXIT chart approach, a necessary and sufficient condition is developed for the local stability of iterative decoding of multi-edge type (MET) doubly-generalized low-density parity-check (D-GLDPC) code ensembles. In such code ensembles, the use of arbitrary linear block codes as component codes is combined with the further design of local Tanner graph connectivity through the use of multiple edge types. The stability condition for these code ensembles is shown to be succinctly described in terms of the value of the spectral radius of an appropriately defined polynomial matrix.

Paolini, Enrico; Chiani, Marco; Fossorier, Marc P C

2011-01-01T23:59:59.000Z

365

INDEPENDENT ELECTRICITY SYSTEM OPERATOR  

E-Print Network (OSTI)

The Board of Directors of the Independent Electricity System Operator (IESO) has adopted this Charter as part of its commitment to high standards of corporate governance in pursuing the objects of the IESO set out in the Electricity Act, 1998. This Charter describes the Board’s mandate, accountability and composition, and sets out a specific Code of Conduct for the Board. More detailed information about the IESO’s corporate governance is set out in the Governance and Structure By?law and in corporate policies, notably the Terms of Reference for a Director. The activities of the Board and its Committees are formally recorded in minutes of meetings. MANDATE The Board shall manage and supervise the management of the IESO’s business and affairs and shall provide insight, input into and oversight of the development of the IESO’s strategic direction. More specifically, the Board’s mandate includes: periodically reviewing with Management: the strategic environment; the emergence of new risks and opportunities and the implications of such risks and opportunities for the IESO’s strategic direction; and the establishment and operation of the IESO?administered markets to promote the purposes of the Electricity Act, 1998 including, without limitation, making market rules and amendments thereto; approving strategic plans that take into account the IESO’s major risks and opportunities and overseeing the management of those risks; 2 appointing, monitoring and assessing the performance of the Chief Executive

unknown authors

2009-01-01T23:59:59.000Z

366

SEAMOPT - Stirling engine optimization code  

SciTech Connect

Experience is described with use of a fast-running Stirling engine optimization code developed at Argonne intended for public release. Stirling engine modeling is provided by the SEAM1 thermodynamic code. An interface was written to combine SEAM1 with a general optimization code and assess maximum component stress levels. Thus full engine thermodynamic and structural simulation is done during the optimization process. Several examples of the use of this code to optimize the GPU-3 engine are described. In one case efficiency was improved by over 25%.

Heames, T.J.; Daley, J.G.

1984-01-01T23:59:59.000Z

367

Utah | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

compliance with the energy code requirements. The Division of Facilities Construction Management is responsible for enforcement for all state-owned or -funded buildings....

368

CQ - Code selection through query.  

E-Print Network (OSTI)

??This thesis proposes a query language for code selection. It is designed to work on virtual machine based languages and is intended to be used… (more)

ZENZARO, SIMONE

2010-01-01T23:59:59.000Z

369

Local Water Quality Districts (Montana) | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Local Water Quality Districts (Montana) Local Water Quality Districts (Montana) Local Water Quality Districts (Montana) < Back Eligibility Utility Fed. Government Commercial Agricultural Investor-Owned Utility State/Provincial Govt Industrial Construction Municipal/Public Utility Local Government Residential Installer/Contractor Rural Electric Cooperative Tribal Government Low-Income Residential Schools Institutional Multi-Family Residential Fuel Distributor Nonprofit General Public/Consumer Transportation Savings Category Water Buying & Making Electricity Home Weatherization Program Info State Montana Program Type Siting and Permitting Provider Montana Department of Environmental Quality This statute provides for the creation of local water quality districts to prevent and mitigate ground and surface water contamination. Each local

370

Lakeshore Management by Local Governments (Montana) | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Lakeshore Management by Local Governments (Montana) Lakeshore Management by Local Governments (Montana) Lakeshore Management by Local Governments (Montana) < Back Eligibility Utility Fed. Government Commercial Agricultural Investor-Owned Utility State/Provincial Govt Industrial Construction Municipal/Public Utility Local Government Residential Installer/Contractor Rural Electric Cooperative Tribal Government Low-Income Residential Schools Institutional Multi-Family Residential Nonprofit General Public/Consumer Savings Category Buying & Making Electricity Water Home Weatherization Wind Solar Program Info State Montana Program Type Siting and Permitting Provider Local Governments This statute grants primary authority to local governments to establish laws and regulations to conserve and protect lakes in their jurisdiction,

371

FLCT: A Fast, Efficient Method for Performing Local Correlation Tracking  

E-Print Network (OSTI)

We describe the computational techniques employed in the recently updated Fourier local correlation tracking (FLCT) method. The FLCT code is then evaluated using a series of simple, 2D, known flow patterns that test its accuracy and characterize its errors.

G. H. Fisher; B. T. Welsch

2007-12-28T23:59:59.000Z

372

World Energy Projection System Plus Model Documentation: World Electricity Model  

Reports and Publications (EIA)

This report documents the objectives, analytical approach and development of the World Energy Projection System Plus (WEPS+) World Electricity Model. It also catalogues and describes critical assumptions, computational methodology, parameter estimation techniques, and model source code.

2011-09-29T23:59:59.000Z

373

Building Codes and Regulations for Solar Water Heating Systems | Department  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Building Codes and Regulations for Solar Water Heating Systems Building Codes and Regulations for Solar Water Heating Systems Building Codes and Regulations for Solar Water Heating Systems June 24, 2012 - 1:50pm Addthis Photo Credit: iStockphoto Photo Credit: iStockphoto Before installing a solar water heating system, you should investigate local building codes, zoning ordinances, and subdivision covenants, as well as any special regulations pertaining to the site. You will probably need a building permit to install a solar energy system onto an existing building. Not every community or municipality initially welcomes residential renewable energy installations. Although this is often due to ignorance or the comparative novelty of renewable energy systems, you must comply with existing building and permit procedures to install your system.

374

The Building Codes Assistance Project (BCAP) | Open Energy Information  

Open Energy Info (EERE)

The Building Codes Assistance Project (BCAP) The Building Codes Assistance Project (BCAP) Jump to: navigation, search BCAP was established in 1994 as a joint initiative of the Alliance to Save Energy, the American Council for an Energy-Efficient Economy, and the Natural Resources Defense Council. BCAP provides custom-tailored assistance on building energy code adoption and implementation. We assist state and local regulatory and legislative bodies and help coordinate others representing environmental interests, consumers, labor, and industry. BCAP provides states with code advocacy assistance on behalf of the U.S. Department of Energy and coordinates with DOE on technical assistance (see www.energycodes.gov for more information). In addition, BCAP receives funding from multiple foundations, the U.S. EPA,

375

Oil and Gas Field Code Master List - Energy Information Administration  

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

Oil and Gas Field Code Master List Oil and Gas Field Code Master List With Data for 2012 | Release Date: May 8, 2013 | Next Release Date: April 2014 Previous Issues Year: 2011 2010 2009 2008 2007 2006 2005 2004 2003 2002 2001 2000 1998 1997 1996 1995 Go Comprehensive listing of U.S. oil and gas field names. Oil and Gas Field Code Master List 2012 Definition of a Field Afield is defined as "an area consisting of a single reservoir ormultiple reservoirs all grouped on, or related to, the same individual geological structural feature and/or stratigraphic condition. There may be two or more reservoirs in a field which are separated vertically by intervening impervious strata, or laterally by local geologic barriers, or by both." More › About the Field Code Master List Related Links

376

Building Codes and Regulations for Solar Water Heating Systems | Department  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Building Codes and Regulations for Solar Water Heating Systems Building Codes and Regulations for Solar Water Heating Systems Building Codes and Regulations for Solar Water Heating Systems June 24, 2012 - 1:50pm Addthis Photo Credit: iStockphoto Photo Credit: iStockphoto Before installing a solar water heating system, you should investigate local building codes, zoning ordinances, and subdivision covenants, as well as any special regulations pertaining to the site. You will probably need a building permit to install a solar energy system onto an existing building. Not every community or municipality initially welcomes residential renewable energy installations. Although this is often due to ignorance or the comparative novelty of renewable energy systems, you must comply with existing building and permit procedures to install your system.

377

Standards & Codes in Emerging Technologies | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Emerging Technologies » Standards & Codes in Emerging Technologies Emerging Technologies » Standards & Codes in Emerging Technologies Standards & Codes in Emerging Technologies Developing innovative technologies that increase building energy efficiency is one of the primary goals of research being conducted between the U.S. Department of Energy, laboratories, and industry partners. Once new technologies or practices are introduced into the broader market and become widely-adopted, the U.S. Department of Energy (DOE) may seek to set a new baseline standard for energy efficiency, and may work with state and local governments to update building energy codes. Appliance and Equipment Standards New and innovative technologies developed by researchers and partners help improve building energy efficiency, and if these technologies become

378

Bureau of Construction Codes - 2009 Michigan Uniform Energy Code - Commercial  

NLE Websites -- All DOE Office Websites (Extended Search)

These rules take effect March 9, 2011 (By authority conferred on the director of the department of energy, labor, and economic growth by section 4 of 1972 PA 230, MCL 125.1504, and Executive Reorganization Order Nos. 2003-1 and 2008-20, MCL 445.2011 and MCL 445.2025) R 408.31087, R 408.31088, R 408.31089, and R 408.31090 of the Michigan Administrative Code are amended and R 408.31087a is added to the code as follows: PART 10a MICHIGAN UNIFORM ENERGY CODE R 408.31087 Applicable code. Rule 1087. Rules governing the energy efficiency for the design and construction of buildings and structures, not including residential buildings, shall be those contained in the international energy conservation code, 2009 edition, section 501.1 and the ASHRAE

379

Electricity 2011  

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

Electricity > Soliciting comments on EIA-111 Electricity > Soliciting comments on EIA-111 EIA announces the proposal of Form EIA-111, Quarterly Electricity Imports and Exports Report Released: August 15, 2011 Background On August 11, 2011, a Federal Register Notice was published soliciting comments for the new EIA-111 survey form. The EIA-111, Quarterly Electricity Imports and Exports Report will replace the OE-781R, Monthly Electricity Imports and Exports Report. The OE-781R has been suspended and will be terminated upon the approval of the EIA-111. The OE-781R administered from July 2010 through May 2011, proved complex and confusing for the repondents. As a result, the EIA-111 was developed to more effectively and efficiently collect more accurate and meaningful data. The Paperwork Reduction Act (PRA) of 1995 requires that each Federal agency obtains approval from the Office of Management and Budget (OMB) before undertaking to collect information from ten or more persons, or continuing a collection for which the OMB approval and the OMB control number are about to expire. The approval process, which is popularly known as the "OMB clearance process," is extensive. It requires two Federal Register notices and a detailed application ("supporting statement") to OMB. The first Federal Register Notice was published on August 11, 2011. EIA is prepared to address the comments submitted by each individual.

380

Illinois Municipal Electric Agency - Electric Efficiency Program...  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Electric Agency - Electric Efficiency Program < Back Eligibility Agricultural Commercial Industrial Institutional Municipal Utility Nonprofit Schools Savings Category Home...

Note: This page contains sample records for the topic "local electrical codes" 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

Plug-in Hybrid Electric Vehicles (PHEVs) Overview  

NLE Websites -- All DOE Office Websites (Extended Search)

Program, Advanced Vehicle Testing Activity (AVTA) Plug-in Hybrid Electric Vehicles (PHEVs) Overview Jim Francfort AVTA Principle Investigator Local Climate Leadership Summit May...

382

(SPS) and High Voltage Electric Discharge Consolidation (HVEDC)  

Science Conference Proceedings (OSTI)

Presentation Title, Local Heat Balance in Spark-plasma Sintering (SPS) and High Voltage Electric Discharge Consolidation (HVEDC). Author(s), Eugene ...

383

A Parallel Processing Technique for Electrical Tree Growth in Solid Insulating Materials Using Cellular Automata  

Science Conference Proceedings (OSTI)

One of the major problems in electrical insulation structure is its failure while operating at normal voltage stress, which is due to electrical treeing. It is well known that this electrical tree grows progressively and damaging locally. To analyze ...

D. Antony Louis Piriyakumar; Paul Levi; R. Jayaganthan; R. Sarathi

2000-08-01T23:59:59.000Z

384

Table N11.4. Expenditures for Purchased Electricity, Natural Gas, and Steam, 19  

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

4. Expenditures for Purchased Electricity, Natural Gas, and Steam, 1998;" 4. Expenditures for Purchased Electricity, Natural Gas, and Steam, 1998;" " Level: National Data and Regional Totals; " " Row: NAICS Codes;" " Column: Supplier Sources of Purchased Electricity, Natural Gas, and Steam;" " Unit: Million U.S. Dollars." ,,,"Electricity","Components",,"Natural Gas","Components",,"Steam","Components" " "," ",,,"Electricity",,,"Natural Gas",,,"Steam"," ",," " " "," ",,"Electricity","from Sources",,"Natural Gas","from Sources",,"Steam","from Sources","RSE"

385

Table 7.7 Quantity of Purchased Electricity, Natural Gas, and Steam, 2002  

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

7 Quantity of Purchased Electricity, Natural Gas, and Steam, 2002;" 7 Quantity of Purchased Electricity, Natural Gas, and Steam, 2002;" " Level: National and Regional Data;" " Row: NAICS Codes;" " Column: Supplier Sources of Purchased Electricity, Natural Gas, and Steam;" " Unit: Physical Units or Btu." ,,,"Electricity","Components",,"Natural Gas","Components",,"Steam","Components" " "," ",,,"Electricity",,,"Natural Gas",,,"Steam"," ",," " " "," ",,"Electricity","from Sources",,"Natural Gas","from Sources",,"Steam","from Sources"

386

Table 7.10 Expenditures for Purchased Electricity, Natural Gas, and Steam, 2002  

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

0 Expenditures for Purchased Electricity, Natural Gas, and Steam, 2002;" 0 Expenditures for Purchased Electricity, Natural Gas, and Steam, 2002;" " Level: National and Regional Data; " " Row: NAICS Codes;" " Column: Supplier Sources of Purchased Electricity, Natural Gas, and Steam;" " Unit: Million U.S. Dollars." ,,,"Electricity","Components",,"Natural Gas","Components",,"Steam","Components" " "," ",,,"Electricity",,,"Natural Gas",,,"Steam"," ",," " " "," ",,"Electricity","from Sources",,"Natural Gas","from Sources",,"Steam","from Sources","RSE"

387

Table 7.3 Average Prices of Purchased Electricity, Natural Gas, and Steam, 20  

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

3 Average Prices of Purchased Electricity, Natural Gas, and Steam, 2002;" 3 Average Prices of Purchased Electricity, Natural Gas, and Steam, 2002;" " Level: National and Regional Data; " " Row: NAICS Codes;" " Column: Supplier Sources of Purchased Electricity, Natural Gas, and Steam;" " Unit: U.S. Dollars per Physical Units." ,,,"Electricity","Components",,"Natural Gas","Components",,"Steam","Components" " "," ",,,"Electricity",,,"Natural Gas",,,"Steam"," ",," " " "," ",,"Electricity","from Sources",,"Natural Gas","from Sources",,"Steam","from Sources"

388

Table 11.3 Electricity: Components of Onsite Generation, 2002  

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

3 Electricity: Components of Onsite Generation, 2002;" 3 Electricity: Components of Onsite Generation, 2002;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Onsite-Generation Components;" " Unit: Million Kilowatthours." " "," ",,,"Renewable Energy",," " " "," ",,,"(excluding Wood",,"RSE" "NAICS"," ","Total Onsite",,"and",,"Row" "Code(a)","Subsector and Industry","Generation","Cogeneration(b)","Other Biomass)(c)","Other(d)","Factors" ,,"Total United States" ,"RSE Column Factors:",0.9,0.8,1.1,1.3

389

" Row: NAICS Codes; Column: Energy Sources;"  

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

1 Offsite-Produced Fuel Consumption, 2010;" 1 Offsite-Produced Fuel Consumption, 2010;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Physical Units or Btu." ,,,,,,,,,"Coke" ,,,,"Residual","Distillate","Natural Gas(d)","LPG and","Coal","and Breeze" "NAICS",,"Total","Electricity(b)","Fuel Oil","Fuel Oil(c)","(billion","NGL(e)","(million","(million","Other(f)" "Code(a)","Subsector and Industry","(trillion Btu)","(million kWh)","(million bbl)","(million bbl)","cu ft)","(million bbl)","short tons)","short tons)","(trillion Btu)"

390

" Row: NAICS Codes; Column: Energy Sources;"  

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

2 Offsite-Produced Fuel Consumption, 2010;" 2 Offsite-Produced Fuel Consumption, 2010;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Trillion Btu." "NAICS",,,,"Residual","Distillate",,"LPG and",,"Coke" "Code(a)","Subsector and Industry","Total","Electricity(b)","Fuel Oil","Fuel Oil(c)","Natural Gas(d)","NGL(e)","Coal","and Breeze","Other(f)" ,,"Total United States" 311,"Food",1113,258,12,22,579,5,182,2,54 3112," Grain and Oilseed Milling",346,57,"*",1,121,"*",126,0,41

391

" Row: NAICS Codes; Column: Energy Sources;"  

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

1 Fuel Consumption, 2006;" 1 Fuel Consumption, 2006;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Physical Units or Btu." ,,,,,,,,,,,,"Coke" ,,,,"Net",,"Residual","Distillate","Natural Gas(d)",,"LPG and","Coal","and Breeze" "NAICS",,"Total",,"Electricity(b)",,"Fuel Oil","Fuel Oil(c)","(billion",,"NGL(e)","(million","(million","Other(f)" "Code(a)","Subsector and Industry","(trillion Btu)",,"(million kWh)",,"(million bbl)","(million bbl)","cu ft)",,"(million bbl)","short tons)","short tons)","(trillion Btu)"

392

" Row: NAICS Codes; Column: Energy Sources;"  

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

2 Fuel Consumption, 2006;" 2 Fuel Consumption, 2006;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Trillion Btu." "NAICS",,,,"Net",,"Residual","Distillate",,,"LPG and",,,"Coke" "Code(a)","Subsector and Industry","Total",,"Electricity(b)",,"Fuel Oil","Fuel Oil(c)","Natural Gas(d)",,"NGL(e)",,"Coal","and Breeze","Other(f)" ,,"Total United States" 311,"Food",1186,,251,,26,16,635,,3,,147,1,107 3112," Grain and Oilseed Milling",317,,53,,2,1,118,,"*",,114,0,30

393

" Row: NAICS Codes; Column: Energy Sources;"  

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

2 Offsite-Produced Fuel Consumption, 2006;" 2 Offsite-Produced Fuel Consumption, 2006;" " Level: National and Regional Data; " " Row: NAICS Codes; Column: Energy Sources;" " Unit: Trillion Btu." "NAICS",,,,,,"Residual","Distillate",,,"LPG and",,,"Coke" "Code(a)","Subsector and Industry","Total",,"Electricity(b)",,"Fuel Oil","Fuel Oil(c)","Natural Gas(d)",,"NGL(e)",,"Coal","and Breeze","Other(f)" ,,"Total United States" 311,"Food",1124,,251,,26,16,635,,3,,147,1,45 3112," Grain and Oilseed Milling",316,,53,,2,1,118,,"*",,114,0,28

394

Electric Vehicle Handbook: Electrical Contractors (Brochure), NREL (National Renewable Energy Laboratory)  

Alternative Fuels and Advanced Vehicles Data Center (EERE)

Electrical Electrical Contractors Plug-In Electric Vehicle Handbook for Electrical Contractors 2 Table of Contents Introduction . . . . . . . . . . . . . . . . . . . . . . . . 3 PEV Basics . . . . . . . . . . . . . . . . . . . . . . . . . 4 Charging Basics . . . . . . . . . . . . . . . . . . . . . 6 Installing and Maintaining EVSE . . . . . . . 9 EVSE Training for Electrical Contractors . . . . . . . . . . . . . . . . 18 Electrifying the Future . . . . . . . . . . . . . . . 19 Clean Cities Helps Deploy PEV Charging Infrastructure Installing plug-in electric vehicle (PEV) charg- ing infrastructure requires unique knowledge and skills . If you need help, contact your local Clean Cities coordinator . Clean Cities is the U .S . Depart- ment of Energy's flagship alternative-transportation deployment initiative . It is supported by a diverse and capable team of stakeholders from private companies, utilities, government agencies, vehicle

395

Salem Electric- Low-Interest Loan Program  

Energy.gov (U.S. Department of Energy (DOE))

Salem Electric residential customers participating in the Bright Way Solar or Photovoltaic programs are eligible for a loan with a 5% interest rate from a local bank. Customers must choose between...

396

Louisiana | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Louisiana Louisiana Last updated on 2013-08-02 Commercial Residential Code Change Current Code ASHRAE Standard 90.1-2007 Amendments / Additional State Code Information N/A Approved Compliance Tools Can use COMcheck State Specific Research Impacts of ASHRAE 90.1-2007 for Commercial Buildings in the State of Louisiana (BECP Report, Sept. 2009) Approximate Energy Efficiency Equivalent to ASHRAE 90.1-2007 Effective Date 07/20/2011 Adoption Date 07/20/2011 Code Enforcement Mandatory DOE Determination ASHRAE 90.1-2007: Yes ASHRAE 90.1-2010: No Louisiana DOE Determination Letter, May 31, 2013 Louisiana State Certification of Commercial and Residential Building Energy Codes Current Code 2006 IRC Amendments / Additional State Code Information Louisiana's current residential code is the 2006 IRC with direct reference to the 2006 IECC. All AC duct insulation is R6 instead of R8 and to include Section R301.2.1.1 of the 2003 edition of the IRC in lieu of Section R301.2.1.1 of the 2006 edition.

397

Signal compression by subband coding  

Science Conference Proceedings (OSTI)

This is a survey/tutorial paper on data compression using the technique of subband coding. This is widely used in practice, for example, in the MPEG audio coder. A subband coder has two main components: a filter bank that decomposes the source into components, ... Keywords: Compression, Filter banks, Subband coding

Bruce Francis; Soura Dasgupta

1999-12-01T23:59:59.000Z

398

Massachusetts | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Massachusetts Massachusetts Last updated on 2013-11-04 Current News The BBRS voted to adopt the 2012 IECC and ASHRAE 90.1-2010 on July 9, 2013. They will be phased in over an extended concurrency period, and is expected to become the sole effective baseline energy code on July 1, 2014. Commercial Residential Code Change Current Code 2009 IECC with Amendments Amendments / Additional State Code Information 13.0 Energy Conservation- 2009 IECC Approved Compliance Tools State Specific Research Impacts of ASHRAE 90.1-2007 for Commercial Buildings in the State of Massachusetts (BECP Report, Sept. 2009) Approximate Energy Efficiency Equivalent to 2009 IECC Effective Date 07/01/2010 Adoption Date 01/01/2010 Code Enforcement Mandatory DOE Determination ASHRAE 90.1-2007: Yes ASHRAE 90.1-2010: Yes

399

Tennessee | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Tennessee Tennessee Last updated on 2013-08-02 Commercial Residential Code Change Current Code 2006 IECC Approved Compliance Tools Can use COMcheck State Specific Research Impacts of ASHRAE 90.1-2007 for Commercial Buildings in the State of Tennessee (BECP Report, Sept. 2009) Approximate Energy Efficiency Equivalent to 2006 IECC Effective Date 07/01/2011 Adoption Date 06/02/2011 Code Enforcement Mandatory DOE Determination ASHRAE 90.1-2007: No ASHRAE 90.1-2010: No Tennessee DOE Determination Letter, May 31, 2013 Tennessee State Certification of Commercial and Residential Building Energy Codes Current Code 2006 IECC Approved Compliance Tools Can use REScheck State Specific Research Impacts of the 2009 IECC for Residential Buildings in the State of Tennessee (BECP Report, Sept. 2009)

400

ALOHA Code | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

ALOHA Code ALOHA Code ALOHA Code Central Registry Toolbox Code Version(s): V5.2.3 Code Owner: National Oceanic and Atmospheric Administration (NOAA) Description: The Arial Locations of Hazardous Atmospheres (ALOHA) is atmospheric dispersion model maintained by the Hazardous Materials Division of National Oceanic and Atmospheric Administration (NOAA). ALOHA is one of three separate, integrated software applications in the Computer-Aided Management of Emergency Operations (CAMEO) suite. While the other two software applications: Cameo is primarily a database application and Marplot is the mapping application. ALOHA is used primarily for the evaluations of the consequences of atmospheric releases of chemical species. In addition to safety analysis applications in the Department of Energy (DOE) Complex, ALOHA is applied

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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

Alaska | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Site Map Printable Version Development Adoption Compliance Regulations Resource Center Alaska Last updated on 2013-12-10 Commercial Residential Code Change Current Code None Statewide Amendments / Additional State Code Information N/A Approved Compliance Tools State Specific Research Impacts of ASHRAE 90.1-2007 for Commercial Buildings in the State of Alaska (BECP Report, Sept. 2009) Approximate Energy Efficiency Effective Date Code Enforcement DOE Determination ASHRAE Standard 90.1-2007: No ASHRAE Standard 90.1-2010: No Energy cost savings for Alaska resulting from the state updating its commercial and residential building energy codes in accordance with federal law are significant, estimated to be on the order of nearly $50 million annually by 2030. Alaska DOE Determination Letter, May 31, 2013

402

GENII Code | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

GENII Code GENII Code GENII Code GENII is a second generation of environmental dosimetry computer code compiled in the Hanford Environmental Dosimetry System (Generation II). GENII provides a state-of-the-art, technically peer-reviewed, documented set of programs for calculating radiation dose and risk from radio nuclides released into the environment. The GENII System includes capabilities for calculating radiation doses following postulated chronic and acute releases. Version 2.10 is currently being evaluated for inclusion in the Central Registry. For more information on GENII to: http://radiologicalsciences.pnl.gov/resources/hardware.asp The GENII code-specific guidance report has been issued identifying applicable regimes in accident analysis, default inputs, and special

403

Viewpoint: the energy code tempest  

SciTech Connect

In 1973, the organization of state building code officials asked the National Bureau of Standards for guidelines on energy conservation to be incorporated into state building codes. Prescriptive codes on the proper approach became quite controversial. One group advocated a prescriptive type of code under which all building components influencing energy consumption would be individually specified. A second group favored an overall energy consumption budget for buildings expressed in Btu/sq ft of floor area/yr. Then it was conceded that different buildings required different specifications. This article illustrates some specific examples of why building codes to conserve energy must permit a trade-off between the various components of a building. (MCW)

Ashley, J.M.

1975-02-01T23:59:59.000Z

404

Virginia | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Virginia Virginia Last updated on 2013-11-05 Current News BHCD/DHCD workgroups are currently meeting over the next 12+ months for the 2012 USBC/IECC regulatory process, with an anticipated effective date in early 2014. Commercial Residential Code Change Current Code 2009 IECC Amendments / Additional State Code Information Virginia's current code is the 2009 IECC with reference to ASHRAE 90.1-2007. Approved Compliance Tools Can use COMcheck State Specific Research Impacts of ASHRAE 90.1-2007 for Commercial Buildings in the State of Virginia (BECP Report, Sept. 2009) Approximate Energy Efficiency Equivalent to 2009 IECC Effective Date 03/01/2011 Adoption Date 07/26/2010 Code Enforcement Mandatory DOE Determination ASHRAE 90.1-2007: Yes ASHRAE 90.1-2010: No Virginia DOE Determination Letter, May 31, 2013

405

Surveillance Guide - OSS 19.2 Electrical Safety  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

ELECTRICAL SAFETY ELECTRICAL SAFETY 1.0 Objective The objective of this surveillance is to verify that contractor personnel are using safe work practices in completing electrical maintenance and modification work. Separate surveillances focus on the use of personal protective equipment and lockout/tagouts. Therefore, the activities included in this surveillance are directed toward other aspects of the electrical safety program. 2.0 References 2.1 DOE Electrical Safety Guidelines, May 1993 2.2 29 CFR 1910 2.3 National Electric Code NFPA-70 2.4 National Electric Safety Code ANSI C2 3.0 Requirements Implemented This surveillance is conducted to implement requirements OS-0025 and OS-0027 from the RL S/RID. These requirements derive from DOE

406

A note on the fragility of the "Michael" message integrity code  

Science Conference Proceedings (OSTI)

The IEEE 802.11 wireless local area network standard did not incorporate a cryptographic message integrity code into its wired equivalent privacy (WEP) protocol, and relied upon CRC-32 for message integrity. This was shown to be completely insecure since ... Keywords: Message authentication code, wireless security

A. Wool

2004-09-01T23:59:59.000Z

407

Photovoltaic and solar-thermal technologies in residential building codes, tackling building code requirements to overcome the impediments to applying new technologies  

SciTech Connect

This report describes the building code requirements and impediments to applying photovoltaic (PV) and solar-thermal technologies in residential buildings (one- or two-family dwellings). It reviews six modern model building codes that represent the codes to be adopted by most locations in the coming years: International Residential Code, First Draft (IRC), International Energy Conservation Code (IECC), International Mechanical Code (IMC), International Plumbing Code (IPC), International Fuel Gas Code (IFGC), and National Electrical Code (NEC). The IRC may become the basis for many of the building codes in the United States after it is released in 2000, and it references the other codes that will also likely become applicable at that time. These codes are reviewed as they apply to photovoltaic systems in buildings and building-integrated photovoltaic systems and to active-solar domestic hot-water and space-heating systems. The first discussion is on general code issues that impact the s e technologies-for example, solar access and sustainability. Then, secondly, the discussion investigates the relationship of the technologies to the codes, providing examples, while keeping two major issues in mind: How do the codes treat these technologies as building components? and Do the IECC and other codes allow reasonable credit for the energy impacts of the technologies? The codes can impact the implementation of the above technologies in several ways: (1) The technology is not mentioned in the codes. It may be an obstacle to implementing the technology, and the solution is to develop appropriate explicit sections or language in the codes. (2) The technology is discussed by the codes, but the language is confusing or ambiguous. The solution is to clarify the language. (3) The technology is discussed in the codes, but the discussion is spread over several sections or different codes. Practitioners may not easily find all of the relevant material that should be considered. The so lution is to put all relevant information in one section or to more clearly reference relevant sections. (4) The technology is prohibited by the code. Examples of this situation were not found. However, energy credit for some technologies cannot be achieved with the requirements of these codes. Finally, four types of future action are recommended to make the codes reviewed in this report more accommodating to renewable energy technologies: (1) Include suggested language additions and changes in the codes; (2) Create new code sections that place all of the requirements for a technology in one section of an appropriate code; (3) Apply existing standards, as appropriate, to innovative renewable energy and energy conservation technologies; and (4) Develop new standards, as necessary, to ease code compliance. A synergy may be possible in developing suitable code language changes for both photovoltaic and solar hot-water systems. The installation of rooftop photovoltaic panels and solar hot- water collectors involves many overlapping issues. Roof loading, weather tightness, mounting systems, roof penetrations, and similar concerns are identical for both technologies. If such work can be coordinated, organizations supporting both technologies could work together to implement the appropriate revisions and additions to the codes.

Wortman, D.; Echo-Hawk, L. [authors] and Wiechman, J.; Hayter, S.; Gwinner, D. [eds.

1999-10-04T23:59:59.000Z

408

Electric Power Annual 2011  

Gasoline and Diesel Fuel Update (EIA)

Capacity Capacity Conductor Characteristics Data Year Country NERC Region NERC Sub- region Type Operating (kV) Design (kV) Rating (MVa) Month Year From Terminal To Terminal Length (Miles) Type Pole Type Pole Material Size (MCM) Material Bundling Arrange- ment Present Ultimate Company Code Company Name Organizational Type Ownership (Percent) Project Name Level of Certainty Primary Driver 1 Primary Driver 2 2011 US TRE ERCOT AC 300-399 5 2018 DeCordova Benbrook 27 OH 44372 Delivery 100 00TPIT0004 Conceptual Reliability 2011 US TRE ERCOT AC 300-399 5 2018 Loma Alta Substation Rio Hondo Substation 35 OH 2409 BPUB 100 00TPITno07 Conceptual Reliability 2011 US TRE ERCOT AC 121-150 6 2014 Highway 32 Wimberley 4 OH 14626 PEC 100 05TPIT0065 Planned Reliability 2011 US TRE ERCOT AC 121-150 5 2018 Ennis Switch Ennis 6.32 OH 44372 Oncor Electric Delivery 100

409

Model document for code officials on solar heating and cooling of buildings. First draft  

DOE Green Energy (OSTI)

The primary purpose of this document is to promote the use and further development of solar energy through a systematic categorizing of all the attributes in a solar energy system that may impact on those requirements in the nationally recognized model codes relating to the safeguard of life or limb, health, property, and public welfare. Administrative provisions have been included to integrate this document with presently adopted codes, so as to allow incorporation into traditional building, plumbing, mechanical, and electrical codes. In those areas where model codes are not used it is recommended that the requirements, references, and standards herein be adopted to regulate all solar energy systems. (MOW)

Not Available

1979-03-01T23:59:59.000Z

410

Quantum Locality?  

Science Conference Proceedings (OSTI)

Robert Griffiths has recently addressed, within the framework of a ‘consistent quantum theory’ (CQT) that he has developed, the issue of whether, as is often claimed, quantum mechanics entails a need for faster-than-light transfers of information over long distances. He argues, on the basis of his examination of certain arguments that claim to demonstrate the existence of such nonlocal influences, that such influences do not exist. However, his examination was restricted mainly to hidden-variable-based arguments that include in their premises some essentially classical-physics-type assumptions that are fundamentally incompatible with the precepts of quantum physics. One cannot logically prove properties of a system by attributing to the system properties alien to that system. Hence Griffiths’ rejection of hidden-variable-based proofs is logically warranted. Griffiths mentions the existence of a certain alternative proof that does not involve hidden variables, and that uses only macroscopically described observable properties. He notes that he had examined in his book proofs of this general kind, and concluded that they provide no evidence for nonlocal influences. But he did not examine the particular proof that he cites. An examination of that particular proof by the method specified by his ‘consistent quantum theory’ shows that the cited proof is valid within that restrictive framework. This necessary existence, within the ‘consistent’ framework, of long range essentially instantaneous influences refutes the claim made by Griffiths that his ‘consistent’ framework is superior to the orthodox quantum theory of von Neumann because it does not entail instantaneous influences. An added section responds to Griffiths’ reply, which cites a litany of ambiguities that seem to restrict, devastatingly, the scope of his CQT formalism, apparently to buttress his claim that my use of that formalism to validate the nonlocality theorem is flawed. But the vagaries that he cites do not upset the proof in question. It is show here in detail why the precise statement of this theorem justifies the specified application of CQT. It is also shown, in response to his challenge, why a putative proof of locality that he has proposed is not valid.

Stapp, Henry

2011-11-10T23:59:59.000Z

411

Renewable Energy Requirements for Future Building Codes: Options for Compliance  

Science Conference Proceedings (OSTI)

As the model energy codes are improved to reach efficiency levels 50 percent greater than current codes, use of on-site renewable energy generation is likely to become a code requirement. This requirement will be needed because traditional mechanisms for code improvement, including envelope, mechanical and lighting, have been pressed to the end of reasonable limits. Research has been conducted to determine the mechanism for implementing this requirement (Kaufman 2011). Kaufmann et al. determined that the most appropriate way to structure an on-site renewable requirement for commercial buildings is to define the requirement in terms of an installed power density per unit of roof area. This provides a mechanism that is suitable for the installation of photovoltaic (PV) systems on future buildings to offset electricity and reduce the total building energy load. Kaufmann et al. suggested that an appropriate maximum for the requirement in the commercial sector would be 4 W/ft{sup 2} of roof area or 0.5 W/ft{sup 2} of conditioned floor area. As with all code requirements, there must be an alternative compliance path for buildings that may not reasonably meet the renewables requirement. This might include conditions like shading (which makes rooftop PV arrays less effective), unusual architecture, undesirable roof pitch, unsuitable building orientation, or other issues. In the short term, alternative compliance paths including high performance mechanical equipment, dramatic envelope changes, or controls changes may be feasible. These options may be less expensive than many renewable systems, which will require careful balance of energy measures when setting the code requirement levels. As the stringency of the code continues to increase however, efficiency trade-offs will be maximized, requiring alternative compliance options to be focused solely on renewable electricity trade-offs or equivalent programs. One alternate compliance path includes purchase of Renewable Energy Credits (RECs). Each REC represents a specified amount of renewable electricity production and provides an offset of environmental externalities associated with non-renewable electricity production. The purpose of this paper is to explore the possible issues with RECs and comparable alternative compliance options. Existing codes have been examined to determine energy equivalence between the energy generation requirement and the RECs alternative over the life of the building. The price equivalence of the requirement and the alternative are determined to consider the economic drivers for a market decision. This research includes case studies that review how the few existing codes have incorporated RECs and some of the issues inherent with REC markets. Section 1 of the report reviews compliance options including RECs, green energy purchase programs, shared solar agreements and leases, and other options. Section 2 provides detailed case studies on codes that include RECs and community based alternative compliance methods. The methods the existing code requirements structure alternative compliance options like RECs are the focus of the case studies. Section 3 explores the possible structure of the renewable energy generation requirement in the context of energy and price equivalence. The price of RECs have shown high variation by market and over time which makes it critical to for code language to be updated frequently for a renewable energy generation requirement or the requirement will not remain price-equivalent over time. Section 4 of the report provides a maximum case estimate for impact to the PV market and the REC market based on the Kaufmann et al. proposed requirement levels. If all new buildings in the commercial sector complied with the requirement to install rooftop PV arrays, nearly 4,700 MW of solar would be installed in 2012, a major increase from EIA estimates of 640 MW of solar generation capacity installed in 2009. The residential sector could contribute roughly an additional 2,300 MW based on the same code requirement levels of 4 W/ft{sup 2} of r

Dillon, Heather E.; Antonopoulos, Chrissi A.; Solana, Amy E.; Russo, Bryan J.

2011-09-30T23:59:59.000Z

412

Electricity Reliability  

E-Print Network (OSTI)

and reliability of the energy infrastructure, and facilitating recovery from disruptions to energy supply. MajorElectricity Delivery and Energy Reliability High Temperature Superconductivity (HTS) Visualization on the nation's energy delivery system Superconductors are important to meeting the nation's energy needs

413

Table N13.3. Electricity: Sales to Utility and Nonutility Purchasers, 1998  

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

3. Electricity: Sales to Utility and Nonutility Purchasers, 1998;" 3. Electricity: Sales to Utility and Nonutility Purchasers, 1998;" " Level: National and Regional Data; " " Row: NAICS Codes;" " Column: Utility and Nonutility Purchasers;" " Unit: Million Kilowatthours." " "," ",,,," " " "," ","Total of",,,"RSE" "NAICS"," ","Sales and","Utility","Nonutility","Row" "Code(a)","Subsector and Industry","Transfers Offsite","Purchaser(b)","Purchaser(c)","Factors" ,,"Total United States"

414

Adaptive rate coding using convolutional codes for asynchronous code division multiple access communications over slowly fading channels  

Science Conference Proceedings (OSTI)

This paper presents a method of code rate adaptation using punctured convolutional codes for direct sequence spread spectrum communication systems over slowly fading channels. A blind channel estimation technique is used to estimate the nature of the ... Keywords: Adaptive rate coding, Asynchronous code division multiple access communication systems, Punctured convolutional codes, Rayleigh/Rician fading channels

Vidhyacharan Bhaskar; Laurie L. Joiner

2005-05-01T23:59:59.000Z

415

6. Performing Organization Code  

E-Print Network (OSTI)

15. Supplementary Notes In response to petitions by the golf cart industry the National Highway Traffic Safety Administration reviewed its position on low speed vehicles and has taken steps to define a new class of low speed vehicle (LSV) which is exempt from the federal motor vehicle safety standards (FMVSS) that apply to motor vehicles. A new safety standard, FMVSS 100, has been proposed to regulate this new class of vehicle. The Vehicle Research and Test Center conducted a survey and a series of tests to evaluate the safety and stability of LSVs. Two neighborhood electric vehicles, the Bombardier and the GEM, and one golf car, the Yamaha gasoline powered golf cart, were selected for this study. Testing included 1) measurement of the CG height of the vehicle to determine the Static Stability Factor (SSF) for both unloaded and two passenger configurations 2) measurement of lateral stability in a constant 50 foot radius turn, and 3) straight line braking on both a high coefficient surface and low coefficient surface. LSV manufacturers raised concerns on the unsuitability of traditional windshield glazings on vehicles that would be used on golf courses as well as highways. Therefore, a short series of tests were conducted to evaluate and compare golf ball impacts on AS-1 and AS-6 glazing (specified in the proposed FMVSS 100). Results of these tests indicate that AS-4 or AS-5 glazing may be a better alternative than AS-6.

Jeff Elias; Low Speed Vehicle

1998-01-01T23:59:59.000Z

416

Central Hudson Gas and Electric (Electric) - Commercial Lighting Rebate  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Commercial Lighting Commercial Lighting Rebate Program Central Hudson Gas and Electric (Electric) - Commercial Lighting Rebate Program < Back Eligibility Commercial Installer/Contractor Institutional Local Government Nonprofit Schools Savings Category Appliances & Electronics Commercial Lighting Lighting Program Info State New York Program Type Utility Rebate Program Rebate Amount Up to 70% of the equipment cost of a qualified efficiency upgrade Provider Central Hudson Gas and Electric Central Hudson Gas and Electric's (Central Hudson) Commercial Lighting Rebate Program is for businesses, retailers, institutional customers and non-profit customers of Central Hudson. The progam utilizes the services of Lime Energy to install new lighting fixtures with Central Hudson covering up to 70% of the cost. The 30 percent of cost remaining can be financed at

417

Code Booster: Award-winning research on code optimization explores...  

NLE Websites -- All DOE Office Websites (Extended Search)

make a popular scientific analysis code run smoothly on different types of multicore computers. >> Read the full article (off-site link) About NERSC and Berkeley Lab The National...

418

Development of Energy Codes | Building Energy Codes Program  

NLE Websites -- All DOE Office Websites (Extended Search)

Development of Energy Codes Both the IECC and ASHRAE Standard 90.1 are maintained and updated in open public forums. The openness and transparency of these processes is critical to...

419

Surface code implementation of block code state distillation  

E-Print Network (OSTI)

State distillation is the process of taking a number of imperfect copies of a particular quantum state and producing fewer better copies. Until recently, the lowest overhead method of distilling states |A>=(|0>+e^{i\\pi/4}|1>)/\\sqrt{2} produced a single improved |A> state given 15 input copies. New block code state distillation methods can produce k improved |A> states given 3k+8 input copies, potentially significantly reducing the overhead associated with state distillation. We construct an explicit surface code implementation of block code state distillation and quantitatively compare the overhead of this approach to the old. We find that, using the best available techniques, for parameters of practical interest, block code state distillation does not always lead to lower overhead, and, when it does, the overhead reduction is typically less than a factor of three.

Austin G. Fowler; Simon J. Devitt; Cody Jones

2013-01-29T23:59:59.000Z

420

Building Technologies Office: Advancing Building Energy Codes  

NLE Websites -- All DOE Office Websites (Extended Search)

Building Energy Codes Building Energy Codes Printable Version Share this resource Send a link to Building Technologies Office: Advancing Building Energy Codes to someone by E-mail Share Building Technologies Office: Advancing Building Energy Codes on Facebook Tweet about Building Technologies Office: Advancing Building Energy Codes on Twitter Bookmark Building Technologies Office: Advancing Building Energy Codes on Google Bookmark Building Technologies Office: Advancing Building Energy Codes on Delicious Rank Building Technologies Office: Advancing Building Energy Codes on Digg Find More places to share Building Technologies Office: Advancing Building Energy Codes on AddThis.com... Popular Links Success Stories Previous Next Lighten Energy Loads with System Design. Warming Up to Pump Heat.

Note: This page contains sample records for the topic "local electrical codes" 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

Experience with advanced nodal codes at YAEC  

SciTech Connect

Yankee Atomic Electric Company (YAEC) has been performing reload licensing analysis since 1969. The basic pressurized water reactor (PWR) methodology involves the use of LEOPARD for cross-section generation, PDQ for radial power distributions and integral control rod worth, and SIMULATE for axial power distributions and differential control rod worth. In 1980, YAEC began performing reload licensing analysis for the Vermont Yankee boiling water reactor (BWR). The basic BWR methodology involves the use of CASMO for cross-section generation and SIMULATE for three-dimensional power distributions. In 1986, YAEC began investigating the use of CASMO-3 for cross-section generation and the advanced nodal code SIMULATE-3 for power distribution analysis. Based on the evaluation, the CASMO-3/SIMULATE-3 methodology satisfied all requirements. After careful consideration, the cost of implementing the new methodology is expected to be offset by reduced computing costs, improved engineering productivity, and fuel-cycle performance gains.

Cacciapouti, R.J.

1990-01-01T23:59:59.000Z

422

Building Energy Codes Survey Tool  

NLE Websites -- All DOE Office Websites (Extended Search)

Codes Program Codes Program Building Energy Codes Survey Tool The following surveys are available: No available surveys Please contact ( webmaster@energycode.pnl.gov ) for further assistance. English Albanian Arabic Basque Belarusian Bosnian Bulgarian Catalan Chinese (Simplified) Chinese (Traditional; Hong Kong) Chinese (Traditional; Taiwan) Croatian Czech Danish Dutch Dutch Informal English Estonian Finnish French Galician German German informal Greek Hebrew Hindi Hungarian Icelandic Indonesian Irish Italian Italian (formal) Japanese Korean Latvian Lithuanian Macedonian Malay Maltese Norwegian (Bokmal) Norwegian (Nynorsk) Persian Polish Portuguese Portuguese (Brazilian) Punjabi Romanian Russian Serbian Sinhala Slovak Slovenian Spanish Spanish (Mexico) Swedish Thai Turkish Urdu Vietnamese Welsh

423

DOE Patents Database - Widget Code  

Office of Scientific and Technical Information (OSTI)

Widget Inclusion Code Widget Inclusion Code Download and install the DOepatents widget by copying and pasting its HTML inclusion code.