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Sample records for window rock arizona

  1. Arizona

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

    Arizona

  2. Apache County, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Houck, Arizona Lukachukai, Arizona Many Farms, Arizona McNary, Arizona Nazlini, Arizona Red Mesa, Arizona Rock Point, Arizona Rough Rock, Arizona Round Rock, Arizona Sawmill,...

  3. Pima County, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Arizona Flowing Wells, Arizona Green Valley, Arizona Littletown, Arizona Marana, Arizona Oro Valley, Arizona Picture Rocks, Arizona Pisinemo, Arizona Sahuarita, Arizona Santa Rosa,...

  4. EA-1987: Parker-Headgate Rock and Parker-Bouse Rebuild Project, Arizona and California

    Broader source: Energy.gov [DOE]

    DOE’s Western Area Power Administration is preparing an EA that will assess the potential environmental impacts of a proposal to rebuild the existing Parker Dam-Headgate Rock and Parker Dam-Bouse 161-kilovolt transmission lines along the Colorado River in western Arizona and eastern California.

  5. Arizona - Compare - U.S. Energy Information Administration (EIA)

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

    Arizona Arizona

  6. Arizona - Rankings - U.S. Energy Information Administration (EIA)

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

    Arizona Arizona

  7. Arizona - Search - U.S. Energy Information Administration (EIA)

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

    Arizona Arizona

  8. Rocks

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

    Rocks Rocks Rocks have been used by mankind throughout history. In geology, rock is a naturally occurring composite of one or more minerals or mineraloids. One of our most popular...

  9. Spring Home Maintenance: Windows, Windows, Windows! | Department...

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

    Spring Home Maintenance: Windows, Windows, Windows Spring Home Maintenance: Windows, Windows, Windows April 26, 2013 - 11:42am Addthis Caulking is an easy way to reduce air ...

  10. Gila County, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Day, Arizona Central Heights-Midland City, Arizona Claypool, Arizona Gisela, Arizona Globe, Arizona Hayden, Arizona Miami, Arizona Payson, Arizona Peridot, Arizona Pine, Arizona...

  11. Pinal County, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Chuichu, Arizona Coolidge, Arizona Dudleyville, Arizona Eloy, Arizona Florence, Arizona Gold Camp, Arizona Hayden, Arizona Kearny, Arizona Mammoth, Arizona Maricopa, Arizona...

  12. Navajo County, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Mesa, Arizona Shongopovi, Arizona Shonto, Arizona Show Low, Arizona Snowflake, Arizona Taylor, Arizona Whiteriver, Arizona Winslow West, Arizona Winslow, Arizona Retrieved from...

  13. Yuma County, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Solar Project Places in Yuma County, Arizona Fortuna Foothills, Arizona Gadsden, Arizona San Luis, Arizona Somerton, Arizona Tacna, Arizona Wellton, Arizona Yuma, Arizona...

  14. Cochise County, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Douglas, Arizona Huachuca City, Arizona Naco, Arizona Pirtleville, Arizona Sierra Vista Southeast, Arizona Sierra Vista, Arizona St. David, Arizona Tombstone, Arizona...

  15. Coconino County, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Sedona, Arizona Supai, Arizona Tonalea, Arizona Tuba City, Arizona Tusayan, Arizona Williams, Arizona Winslow West, Arizona Retrieved from "http:en.openei.orgw...

  16. Environmentally Benign Electrolytes With Wide Electrochemical Windows -

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

    Energy Innovation Portal Environmentally Benign Electrolytes With Wide Electrochemical Windows DOE Grant Recipients Arizona Technology Enterprises Contact Arizona Technology Enterprises About This Technology Technology Marketing SummaryAs mobile electronics continue to evolve, the need for safe, long-lasting rechargeable batteries has grown tremendously. In the search for suitable materials from which to construct high energy density solid state batteries, one of the principal obstacles has

  17. 2015 Arizona Housing Forum

    Broader source: Energy.gov [DOE]

    The 12th annual Arizona Housing Forum provides a platform for affordable housing professionals to network and share ideas to improve and create housing choices for Arizona. Registration is $350.

  18. Graham County, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    B. Places in Graham County, Arizona Peridot, Arizona Pima, Arizona Safford, Arizona Swift Trail Junction, Arizona Thatcher, Arizona Retrieved from "http:en.openei.orgw...

  19. Mohave County, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Creek, Arizona Mohave Valley, Arizona Mojave Ranch Estates, Arizona New Kingman-Butler, Arizona Peach Springs, Arizona Willow Valley, Arizona Retrieved from "http:...

  20. CAVE WINDOW

    DOE Patents [OSTI]

    Levenson, M.

    1960-10-25

    A cave window is described. It is constructed of thick glass panes arranged so that interior panes have smaller windowpane areas and exterior panes have larger areas. Exterior panes on the radiation exposure side are remotely replaceable when darkened excessively. Metal shutters minimize exposure time to extend window life.

  1. DOE - Office of Legacy Management -- Arizona

    Office of Legacy Management (LM)

    Arizona Arizona az_map Monument Valley Processing Site Tuba City Disposal

  2. Window shopping

    SciTech Connect (OSTI)

    Best, D.

    1990-03-01

    The author addresses the energy efficiency of windows and describes changes and new products available in this consumer information article. Experiments currently being done by Lawrence Berkeley Laboratory (LBL), Bonneville Power Authority and the Washington State Energy Office show that some of these superwindows collect more energy from the sun than they let escape from inside the home. One type of window in current production is the low-E (low-emissivity) and the IGUs (insulated glass units). Low-E techniques include glazing of the glass with various materials including polyester and metallic coatings. Other measures include filling the airspace in double pane windows with argon, aerogel or by creating a vacuum in the airspace. Another factor the author considers is ultraviolet light protection.

  3. Window Attachments

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

    DCCurcija@lbl.gov Lawrence Berkeley National Laboratory Window Attachments 2015 Building Technologies Office Peer Review 2 Project Summary Timeline: Start date: 10/1/2013 Planned end date: 9/30/2018 Key Milestones: 1. CGDB Releases (2); 3/31; 9/30/2015 2. Validated simulation methods for priority window attachments; 9/30/2015 Budget: Total DOE $ to date: $1,100k Total future DOE $: $2,100k [estimated] Key Partners: Project Goal: Develop validated simulation models and procedures for

  4. Benson, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Act Smart Grid Projects in Benson, Arizona Southwest Transmission Cooperative, Inc. Smart Grid Project Registered Energy Companies in Benson, Arizona Arizona Electric Power...

  5. Arizona Electric Power Cooperative | Open Energy Information

    Open Energy Info (EERE)

    Arizona Electric Power Cooperative Jump to: navigation, search Name: Arizona Electric Power Cooperative Place: Benson, Arizona Zip: 85602 Product: AEPCO was originally founded in...

  6. Arizona Solar Center | Open Energy Information

    Open Energy Info (EERE)

    Center Jump to: navigation, search Logo: Arizona Solar Center Name: Arizona Solar Center Place: Mesa, Arizona Number of Employees: 1-10 Year Founded: 1999 Website:...

  7. Oil and gas exploration and development in Arizona

    SciTech Connect (OSTI)

    Nations, D.; Doss, A.K.; Ubarra, R.

    1984-07-01

    Recent oil and gas exploration activity has been widespread throughout Arizona. Development drilling has continued in the Dineh-bi-keyah and Teec-nos-Pos fields in the northeastern corner, and exploratory drilling continues to test potential Paleozoic reservoirs elsewhere on the plateau. Several shallow wells north of the Grand Canyon encountered shows and limited recoveries of oil from Permian and Triassic rocks. The greatest activity has occurred along the Overthrust trend from northwestern to southeastern Arizona. Several million acres were leased and eight exploratory wells drilled along this trend. None were discoveries, but the presence of a Laramide thrust fault in the vicinity of Tombstone was established. The other tests have neither proved nor disproved the concept of the Overthrust belt in southern Arizona. Recent discoveries in the nonmarine Tertiary and marine Paleozoic of southern Nevada have stimulated interest in the oil potential of similar rocks and structures in the Basin and Range province of Arizona, which are coincident with the Overthrust trend. Reported gas discoveries by Pemex in Miocene marine sediments of the Gulf of California have stimulated leasing in the Yuma area, where one uncompleted well is reported to be a potential producer. The Pedregosa basin of extreme southeastern Arizona remains an area of great interest to explorationists because of the presence of a 25,000-ft (7600-m) sequence of Paleozoic marine sediments similar to those of the Permian basin, and Cretaceous marine rocks, including coral-rudist reefs, similar to those that produce in Texas and Mexico.

  8. Arizona/Transmission/Agency Links | Open Energy Information

    Open Energy Info (EERE)

    and Fish Department Arizona State Historic Preservation Office Arizona Department of Transportation Arizona Department of Agriculture Arizona Department of Water Resources Central...

  9. Arizona City, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    City, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.7558935, -111.6709584 Show Map Loading map... "minzoom":false,"mappingservice...

  10. Residential Windows and Window Coverings: A Detailed View of...

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

    Residential Windows and Window Coverings: A Detailed View of the Installed Base and User Behavior Residential Windows and Window Coverings: A Detailed View of the Installed Base ...

  11. Window Industry Technology Roadmap

    SciTech Connect (OSTI)

    None, None

    2000-04-01

    The Window Industry Technology Roadmap looks at the trends in window design and installation in 2000 and projects trends for the future.

  12. Energy Exchange 2015: Phoenix, Arizona

    Broader source: Energy.gov [DOE]

    Presentations from Energy Exchange, a two-and-a-half day training scheduled for August 11-13, 2015, at the Phoenix Convention Center in Phoenix, Arizona.

  13. Grecycle Arizona LLC | Open Energy Information

    Open Energy Info (EERE)

    to: navigation, search Name: Grecycle Arizona LLC Place: Tucson, Arizona Product: Biodiesel producer out of cooking oil that operates a 1.2m liter plant in Tucson, Arizona....

  14. Phoenix, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    is a stub. You can help OpenEI by expanding it. Phoenix is a city in Maricopa County, Arizona. It falls under Arizona's 2nd congressional district and Arizona's 3rd congressional...

  15. Storm Windows | Department of Energy

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

    Storm Windows Storm Windows An energy upgrade on this daycare center included interior storm windows because most of the windows are on the north elevation. | Photo courtesy of ...

  16. Geothermal energy in Arizona. Final report

    SciTech Connect (OSTI)

    Stone, C.; Witcher, J.C.

    1982-09-01

    Current knowledge and basic data on geothermal resources in Arizona are compiled. The following are covered: specific area investigations, thermal aspects of Arizona, and exploration methods. (MHR)

  17. Arizona State Land Department | Open Energy Information

    Open Energy Info (EERE)

    Department Jump to: navigation, search Logo: Arizona State Land Department Name: Arizona State Land Department Abbreviation: ASLD Address: 1616 W. Adams St. Place: Phoenix, AZ Zip:...

  18. Arizona State University | Open Energy Information

    Open Energy Info (EERE)

    University Jump to: navigation, search Name: Arizona State University Place: Tempe, Arizona Zip: 85287 Website: asu.edu Coordinates: 33.4183159, -111.9311939 Show Map Loading...

  19. Arizona/Incentives | Open Energy Information

    Open Energy Info (EERE)

    Incentive Incentive Type Active APS - Energy Efficiency Solutions for Business (Arizona) Utility Rebate Program Yes APS - GEOSmart Financing Program (Arizona) Utility Loan Program...

  20. Arizona Corporation Commission | Open Energy Information

    Open Energy Info (EERE)

    Commission Jump to: navigation, search Name: Arizona Corporation Commission Abbreviation: ACC Service Territory: Arizona Website: www.azcc.gov EIA Form 861 Data This article is a...

  1. Arizona Solar Tech | Open Energy Information

    Open Energy Info (EERE)

    Tech Jump to: navigation, search Name: Arizona Solar Tech Place: Phoenix, Arizona Zip: 85040 Sector: Solar, Vehicles Product: Designs and installs solar PV systems for vehicles,...

  2. Arizona Administrative Code | Open Energy Information

    Open Energy Info (EERE)

    Arizona Administrative Code Jump to: navigation, search OpenEI Reference LibraryAdd to library Legal Document- RegulationRegulation: Arizona Administrative CodeLegal Abstract This...

  3. SOURCE PHENOMENOLOGY EXPERIMENTS IN ARIZONA

    SciTech Connect (OSTI)

    Jessie L. Bonner; Brian Stump; Mark Leidig; Heather Hooper; Xiaoning Yang; Rongmao Zhou; Tae Sung Kim; William R. Walter; Aaron Velasco; Chris Hayward; Diane Baker; C. L. Edwards; Steven Harder; Travis Glenn; Cleat Zeiler; James Britton; James F. Lewkowicz

    2005-09-30

    The Arizona Source Phenomenology Experiments (SPE) have resulted in an important dataset for the nuclear monitoring community. The 19 dedicated single-fired explosions and multiple delay-fired mining explosions were recorded by one of the most densely instrumented accelerometer and seismometer arrays ever fielded, and the data have already proven useful in quantifying confinement and excitation effects for the sources. It is very interesting to note that we have observed differences in the phenomenology of these two series of explosions resulting from the differences between the relatively slow (limestone) and fast (granodiorite) media. We observed differences at the two SPE sites in the way the rock failed during the explosions, how the S-waves were generated, and the amplitude behavior as a function of confinement. Our consortium's goal is to use the synergy of the multiple datasets collected during this experiment to unravel the phenomenological differences between the two emplacement media. The data suggest that the main difference between single-fired chemical and delay-fired mining explosion seismograms at regional distances is the increased surface wave energy for the latter source type. The effect of the delay-firing is to decrease the high-frequency P-wave amplitudes while increasing the surface wave energy because of the longer source duration and spall components. The results suggest that the single-fired explosions are surrogates for nuclear explosions in higher frequency bands (e.g., 6-8 Hz Pg/Lg discriminants). We have shown that the SPE shots, together with the mining explosions, are efficient sources of S-wave energy, and our next research stage is to postulate the possible sources contributing to the shear-wave energy.

  4. High Performance Window Attachments

    Energy Savers [EERE]

    High Performance Window Attachments D. Charlie Curcija Lawrence Berkeley National Laboratory dccurcija@lbl.gov 510-495-2602 April 4, 2013 2 | Building Technologies Office eere.energy.gov Purpose & Objectives Impact of Project: * Motivate manufacturers to make improvements in Window systems U-Factors, SHGC and daylighting utilization * Increase awareness of benefits from energy efficient window attachments Problem Statement: * A wide range of residential window attachments are available, but

  5. Arizona Oil and Gas Commission | Open Energy Information

    Open Energy Info (EERE)

    Commission Jump to: navigation, search Logo: Arizona Oil and Gas Commission Name: Arizona Oil and Gas Commission Address: 416 W. Congress Street, Suite 100 Place: Arizona Zip:...

  6. Arizona Department of Environmental Quality | Open Energy Information

    Open Energy Info (EERE)

    Arizona Department of Environmental Quality Name: Arizona Department of Environmental Quality Abbreviation: ADEQ Address: 1110 West Washington Street Phoenix, Arizona 85007 Place:...

  7. Arizona's 7th congressional district: Energy Resources | Open...

    Open Energy Info (EERE)

    in Arizona's 7th congressional district Agenera, LLC Amereco Biofuels Corp Arizona Public Service Company APS Arizona Solar Tech EDGE Energy LLC EGreenIdeas Ecotality North...

  8. Arizona's 4th congressional district: Energy Resources | Open...

    Open Energy Info (EERE)

    in Arizona's 4th congressional district Agenera, LLC Amereco Biofuels Corp Arizona Public Service Company APS Arizona Solar Tech EDGE Energy LLC EGreenIdeas Ecotality North...

  9. Arizona's 2nd congressional district: Energy Resources | Open...

    Open Energy Info (EERE)

    in Arizona's 2nd congressional district Agenera, LLC Amereco Biofuels Corp Arizona Public Service Company APS Arizona Solar Tech EDGE Energy LLC EGreenIdeas Ecotality North...

  10. Arizona Solar Energy Industries Association | Open Energy Information

    Open Energy Info (EERE)

    Arizona Solar Energy Industries Association Name: Arizona Solar Energy Industries Association Place: Arizona Website: www.arizonasolarindustry.org Coordinates: 34.0489281,...

  11. Sunshine Arizona Wind Energy LLC | Open Energy Information

    Open Energy Info (EERE)

    Sunshine Arizona Wind Energy LLC Jump to: navigation, search Name: Sunshine Arizona Wind Energy LLC Place: Flagstaff, Arizona Zip: 86001 Sector: Wind energy Product: Formed to...

  12. Arizona Regions | U.S. DOE Office of Science (SC)

    Office of Science (SC) Website

    is designated for your school's state, county, city, or district. For more information, please visit the High School Coach page. Arizona Region High School Regional Arizona Arizona...

  13. Arizona Regions | U.S. DOE Office of Science (SC)

    Office of Science (SC) Website

    for your school's state, county, city, or district. For more information, please visit the Middle School Coach page. Arizona Region Middle School Regional Arizona Arizona...

  14. Yavapai County, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    EV Solar Products Energy Generation Facilities in Yavapai County, Arizona Prescott Airport Solar Plant Solar Power Plant Places in Yavapai County, Arizona Ash Fork, Arizona...

  15. EA-134-APS Arizona Public Service Company | Department of Energy

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

    EA-134-APS Arizona Public Service Company Order authorizing Arizona Public Service Company to export electric energy to Mexico. PDF icon EA-134-APS Arizona Public Service Company ...

  16. EA-108 Arizona Public Service Company | Department of Energy

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

    EA-108 Arizona Public Service Company Order authorizing Arizona Public Service to export electric energy to Mexico. PDF icon EA-108 Arizona Public Service.pdf More Documents & ...

  17. Northern Arizona University Wind Projects | Open Energy Information

    Open Energy Info (EERE)

    Northern Arizona University Wind Projects (Redirected from Northern Arizona University Wind Project) Jump to: navigation, search Northern Arizona University ARD Wind Project...

  18. Tips: Windows | Department of Energy

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

    Windows Windows can be one of your home's most attractive features. Windows provide views, daylighting, ventilation, and heat from the sun in the winter. Unfortunately, they can...

  19. PP-108 Arizona Public Service Company | Department of Energy

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

    8 Arizona Public Service Company PP-108 Arizona Public Service Company Presidential Permit authorizing APSC to construct, operate and maintain electric transmission facitilites at the U.S. - Mexico Border. PDF icon PP-108 Arizona Public Service Company More Documents & Publications PP-107-1 Arizona Public Service Company PP-106 Arizona Public Service Company PP-107 Arizona Public Service

  20. Active mines in Arizona and Arizona exploration offices

    SciTech Connect (OSTI)

    Not Available

    1988-01-01

    This book is a directory that lists 91 mining operations and 107 sand and gravel operations. It lists the company name, address, key personnel, mine, mill, or smelter location, and a description of the operation. A map plotting the locations of all the active mines is also available ($2). Arizona Exploration Offices is a directory that lists 68 exploration companies in Arizona, 80% of whom list gold or silver as their principal exploration target. Other exploration companies are searching for industrial minerals, uranium, beryllium, rare earths, ferroalloys, and sulfur.

  1. Window Daylighting Demo

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

    ... Scenario comparisons - Rapid analysis of faade options ... WINDOW 6) Strong positive response from early adopters ... and Collaborators Website team: Univ of Minnesota Building ...

  2. Flagstaff, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    a stub. You can help OpenEI by expanding it. Flagstaff is a city in Coconino County, Arizona. It falls under Arizona's 1st congressional district.12 Contents 1 Registered...

  3. Arizona Power Authority | Open Energy Information

    Open Energy Info (EERE)

    Arizona Power Authority Place: Arizona Phone Number: 602-368-4265 Website: www.powerauthority.org Outage Hotline: 602-368-4265 References: EIA Form EIA-861 Final Data File for...

  4. Arizona: Building Smart from the Start

    SciTech Connect (OSTI)

    2003-06-01

    A fact sheet that describes Arizona's Housing Tax Credit Program, to make sure houses were built more efficiently.

  5. Energy Incentive Programs, Arizona | Department of Energy

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

    Arizona Energy Incentive Programs, Arizona Updated February 2015 What public-purpose-funded energy efficiency programs are available in my state? Arizona's restructuring law provides for a systems benefits charge (SBC) to fund energy efficiency programs. The SBC is collected through a non-bypassable surcharge on electricity bills. Although some of these funds have been devoted to renewable energy programs, in 2013 Arizona utilities budgeted over $160 million to promote energy efficiency and load

  6. EA-1987: Parker-Headgate Rock and Parker-Bouse Rebuild Project...

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

    a proposal to rebuild the existing Parker Dam-Headgate Rock and Parker Dam-Bouse 161-kilovolt transmission lines along the Colorado River in western Arizona and eastern California. ...

  7. Energy Department, Arizona Utilities Announce Transmission Infrastructure

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

    Project Energization | Department of Energy Arizona Utilities Announce Transmission Infrastructure Project Energization Energy Department, Arizona Utilities Announce Transmission Infrastructure Project Energization February 12, 2015 - 2:30pm Addthis News Media Contact 202 586 4940 DOENews@hq.doe.gov Energy Department, Arizona Utilities Announce Transmission Infrastructure Project Energization Transmission Line Increases Reliability, Access to Affordable Energy in Southwest States WASHINGTON

  8. Air transparent soundproof window

    SciTech Connect (OSTI)

    Kim, Sang-Hoon; Lee, Seong-Hyun

    2014-11-15

    A soundproof window or wall which is transparent to airflow is presented. The design is based on two wave theories: the theory of diffraction and the theory of acoustic metamaterials. It consists of a three-dimensional array of strong diffraction-type resonators with many holes centered on each individual resonator. The negative effective bulk modulus of the resonators produces evanescent wave, and at the same time the air holes with subwavelength diameter existed on the surfaces of the window for macroscopic air ventilation. The acoustic performance levels of two soundproof windows with air holes of 20mm and 50mm diameters were measured. The sound level was reduced by about 30 - 35dB in the frequency range of 400 - 5,000Hz with the 20mm window, and by about 20 - 35dB in the frequency range of 700 - 2,200Hz with the 50mm window. Multi stop-band was created by the multi-layers of the window. The attenuation length or the thickness of the window was limited by background noise. The effectiveness of the soundproof window with airflow was demonstrated by a real installation.

  9. Efficient Windows Collaborative

    SciTech Connect (OSTI)

    Nils Petermann

    2010-02-28

    The project goals covered both the residential and commercial windows markets and involved a range of audiences such as window manufacturers, builders, homeowners, design professionals, utilities, and public agencies. Essential goals included: (1) Creation of 'Master Toolkits' of information that integrate diverse tools, rating systems, and incentive programs, customized for key audiences such as window manufacturers, design professionals, and utility programs. (2) Delivery of education and outreach programs to multiple audiences through conference presentations, publication of articles for builders and other industry professionals, and targeted dissemination of efficient window curricula to professionals and students. (3) Design and implementation of mechanisms to encourage and track sales of more efficient products through the existing Window Products Database as an incentive for manufacturers to improve products and participate in programs such as NFRC and ENERGY STAR. (4) Development of utility incentive programs to promote more efficient residential and commercial windows. Partnership with regional and local entities on the development of programs and customized information to move the market toward the highest performing products. An overarching project goal was to ensure that different audiences adopt and use the developed information, design and promotion tools and thus increase the market penetration of energy efficient fenestration products. In particular, a crucial success criterion was to move gas and electric utilities to increase the promotion of energy efficient windows through demand side management programs as an important step toward increasing the market share of energy efficient windows.

  10. Plasma window characterization

    SciTech Connect (OSTI)

    Krasik, Ya. E.; Gleizer, S.; Gurovich, V.; Kronhaus, I.; Hershcovitch, A.; Nozar, P.; Taliani, C.

    2007-03-01

    Parameters of an arc Ar plasma discharge used as a plasma window with a discharge current of {approx}50 A and a voltage of {approx}58 V are presented. It is shown that this arc discharge allows one to decrease the pressure at the low pressure end of the plasma window almost 380 times using relatively low pumping at the low pressure end of the plasma window. Calculations of the plasma parameters and their spatial distribution using a simple wall-stabilized arc model showed a satisfactory agreement with the experimentally obtained data. It is shown that a significant decrease in gas flow through the plasma window occurs due to the increase in plasma viscosity. An improvement of the plasma window ignition and some of its design aspects are described as well.

  11. Windows technology assessment

    SciTech Connect (OSTI)

    Baron, J.J.

    1995-10-01

    This assessment estimates that energy loss through windows is approximately 15 percent of all the energy used for space heating and cooling in residential and commercial buildings in New York State. The rule of thumb for the nation as a whole is about 25 percent. The difference may reflect a traditional assumption of single-pane windows while this assessment analyzed installed window types in the region. Based on the often-quoted assumption, in the United States some 3.5 quadrillion British thermal units (Btu) of primary energy, costing some $20 billion, is annually consumed as a result of energy lost through windows. According to this assessment, in New York State, the energy lost due to heat loss through windows is approximately 80 trillion Btu at an annual cost of approximately $1 billion.

  12. Tribal Water in Arizona Conference

    Broader source: Energy.gov [DOE]

    The Law Seminars International is hosting the Tribal Water in Arizona: New Development for Indian Water Rights, Regulations, and Settlement Processes. The two-day conference will present an overview of the law governing tribal water rights and impacting the development of tribal water projects.

  13. Window Types | Department of Energy

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

    Window Types Window Types A wood-frame window with insulated window glazing. | Photo courtesy of ©iStockphoto/chandlerphoto A wood-frame window with insulated window glazing. | Photo courtesy of ©iStockphoto/chandlerphoto Windows come in a number of different frame and glazing types. By combining an energy-efficient frame choice with a glazing type tailored to your climate and application, you can customize each of your home's windows. Types of Window Frames Improving the thermal resistance

  14. The Efficient Windows Collaborative

    SciTech Connect (OSTI)

    Petermann, Nils

    2006-03-31

    The Efficient Windows Collaborative (EWC) is a coalition of manufacturers, component suppliers, government agencies, research institutions, and others who partner to expand the market for energy efficient window products. Funded through a cooperative agreement with the U.S. Department of Energy, the EWC provides education, communication and outreach in order to transform the residential window market to 70% energy efficient products by 2005. Implementation of the EWC is managed by the Alliance to Save Energy, with support from the University of Minnesota and Lawrence Berkeley National Laboratory.

  15. Superconducting radiofrequency window assembly

    DOE Patents [OSTI]

    Phillips, H.L.; Elliott, T.S.

    1997-03-11

    The present invention is a superconducting radiofrequency window assembly for use in an electron beam accelerator. The srf window assembly has a superconducting metal-ceramic design. The srf window assembly comprises a superconducting frame, a ceramic plate having a superconducting metallized area, and a superconducting eyelet for sealing plate into frame. The plate is brazed to eyelet which is then electron beam welded to frame. A method for providing a ceramic object mounted in a metal member to withstand cryogenic temperatures is also provided. The method involves a new metallization process for coating a selected area of a ceramic object with a thin film of a superconducting material. Finally, a method for assembling an electron beam accelerator cavity utilizing the srf window assembly is provided. The procedure is carried out within an ultra clean room to minimize exposure to particulates which adversely affect the performance of the cavity within the electron beam accelerator. 11 figs.

  16. Air Sealing Windows

    SciTech Connect (OSTI)

    2009-05-14

    This information sheet addresses windows and may also be applied to doors and other pre-assembled elements installed in building enclosures that also perform an air barrier function.

  17. Superconductive radiofrequency window assembly

    DOE Patents [OSTI]

    Phillips, H.L.; Elliott, T.S.

    1998-05-19

    The present invention is a superconducting radiofrequency window assembly for use in an electron beam accelerator. The SRF window assembly has a superconducting metal-ceramic design. The SRF window assembly comprises a superconducting frame, a ceramic plate having a superconducting metallized area, and a superconducting eyelet for sealing plate into frame. The plate is brazed to eyelet which is then electron beam welded to frame. A method for providing a ceramic object mounted in a metal member to withstand cryogenic temperatures is also provided. The method involves a new metallization process for coating a selected area of a ceramic object with a thin film of a superconducting material. Finally, a method for assembling an electron beam accelerator cavity utilizing the SRF window assembly is provided. The procedure is carried out within an ultra clean room to minimize exposure to particulates which adversely affect the performance of the cavity within the electron beam accelerator. 11 figs.

  18. High Performance Window Retrofit

    SciTech Connect (OSTI)

    Shrestha, Som S; Hun, Diana E; Desjarlais, Andre Omer

    2013-12-01

    The US Department of Energy (DOE) Office of Energy Efficiency and Renewable Energy (EERE) and Traco partnered to develop high-performance windows for commercial building that are cost-effective. The main performance requirement for these windows was that they needed to have an R-value of at least 5 ft2 F h/Btu. This project seeks to quantify the potential energy savings from installing these windows in commercial buildings that are at least 20 years old. To this end, we are conducting evaluations at a two-story test facility that is representative of a commercial building from the 1980s, and are gathering measurements on the performance of its windows before and after double-pane, clear-glazed units are upgraded with R5 windows. Additionally, we will use these data to calibrate EnergyPlus models that we will allow us to extrapolate results to other climates. Findings from this project will provide empirical data on the benefits from high-performance windows, which will help promote their adoption in new and existing commercial buildings. This report describes the experimental setup, and includes some of the field and simulation results.

  19. Storm Windows | Department of Energy

    Office of Environmental Management (EM)

    interior storm windows because most of the windows are on the north elevation. | Photo courtesy of Larry Kinney, Synergistic Building Technologies. An energy upgrade on this...

  20. PP-106 Arizona Public Service Company | Department of Energy

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

    6 Arizona Public Service Company PP-106 Arizona Public Service Company Presidential permit authorizing Arizona Public Service Company to construct, operate, and maintain electric transmission facilities at the U.S-Mexico border. PDF icon PP-106 Arizona Public Service Company More Documents & Publications PP-107-1 Arizona Public Service Company PP-107

  1. ARIZONA RECOVERY ACT SNAPSHOT | Department of Energy

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

    Arizona has substantial natural resources, including coal, solar, and hydroelectric resources. The American Recovery & Reinvestment Act (ARRA) is making a meaningful down payment on the nation's energy and environmental future. The Recovery Act investments in Arizona reflect a broad range of clean energy projects, from energy efficiency and the smart grid to transportation, carbon capture and storage, and geothermal energy. Through these investments, Arizona's businesses, universities,

  2. Arizona Department of Environmental Quality's Individual Permits...

    Open Energy Info (EERE)

    search OpenEI Reference LibraryAdd to library Web Site: Arizona Department of Environmental Quality's Individual Permits Website Abstract This website contains information...

  3. Arizona Department of Environmental Quality's General Permits...

    Open Energy Info (EERE)

    search OpenEI Reference LibraryAdd to library Web Site: Arizona Department of Environmental Quality's General Permits Website Abstract This website provides information...

  4. Arizona Department of Environmental Quality's Application Forms...

    Open Energy Info (EERE)

    search OpenEI Reference LibraryAdd to library Web Site: Arizona Department of Environmental Quality's Application Forms and Guidance Website Abstract This site contains forms...

  5. Williams, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Williams, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.2494566, -112.1910031 Show Map Loading map... "minzoom":false,"mappingser...

  6. Havasupai Indian Reservation, Supai Village, Arizona | Department...

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

    Havasupai Indian Reservation, Supai Village, Arizona Photo of Photovoltaic Energy System ... Three photovoltaic (PV) energy systems will supply up to 2 kilowatts of electrical power ...

  7. Energy Department, Arizona Utilities Announce Transmission Infrastruct...

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

    expand opportunity, and improve the competitiveness of the American economy. "This newly ... while improving opportunities for new renewable energy generation in Arizona," said ...

  8. Flagstaff, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Arizona Wind Energy LLC References US Census Bureau Incorporated place and minor civil division population dataset (All States, all geography) US Census Bureau...

  9. Tucson, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    in Tucson, Arizona Environmentally Protective Power Generation EPPG Ethanol Capital Management Expert Solar Systems General Plasma Inc Genesis Solar LLC GeoInnovation Global...

  10. Arizona/Wind Resources | Open Energy Information

    Open Energy Info (EERE)

    source History View New Pages Recent Changes All Special Pages Semantic SearchQuerying Get Involved Help Apps Datasets Community Login | Sign Up Search Page Edit History Arizona...

  11. Arizona Department of Environmental Quality's AZPDES Website...

    Open Energy Info (EERE)

    AZPDES Website Jump to: navigation, search OpenEI Reference LibraryAdd to library Web Site: Arizona Department of Environmental Quality's AZPDES Website Abstract This website...

  12. Phoenix, Arizona Data Dashboard | Department of Energy

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

    The data dashboard for Phoenix, Arizona, a partner in the Better Buildings Neighborhood Program. File Phoenix Data Dashboard More Documents & Publications Austin Energy Data ...

  13. Prescott, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    district.12 Energy Generation Facilities in Prescott, Arizona Prescott Airport Solar Plant Solar Power Plant References US Census Bureau Incorporated place and...

  14. Arizona Teachers Prepare Students for Green Economy

    Broader source: Energy.gov [DOE]

    Students led by their building trades teacher , are wiring parts of the Raymond S. Kellis High School in Glendale, Arizona for solar power.

  15. Arizona Indian Gaming Association (AIGA) Expo

    Broader source: Energy.gov [DOE]

    This year’s EXPO will take place November 5-7, 2014 at the Radisson Fort McDowell Resort & Casino located in Scottsdale, Arizona.

  16. Burnside, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Burnside, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.7511228, -109.6245514 Show Map Loading map... "minzoom":false,"mappingser...

  17. Summit, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Summit, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.0670238, -110.9514796 Show Map Loading map... "minzoom":false,"mappingservi...

  18. Cameron, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.8758285, -111.4129207 Show Map Loading map... "minzoom":false,"mappingservice":"goo...

  19. Ganado, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Ganado, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.7114022, -109.5420492 Show Map Loading map... "minzoom":false,"mappingservi...

  20. Avondale, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Avondale, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.4355977, -112.3496021 Show Map Loading map... "minzoom":false,"mappingser...

  1. Jerome, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.7489107, -112.1137716 Show Map Loading map... "minzoom":false,"mappingservice":"goo...

  2. Northern Arizona University | Open Energy Information

    Open Energy Info (EERE)

    University Jump to: navigation, search Name: Northern Arizona University Place: Flagstaff, AZ Zip: 86011 Phone Number: 928-523-0715 Website: nau.edu Coordinates: 35.1905403,...

  3. Littletown, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Littletown, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.1303561, -110.8728658 Show Map Loading map... "minzoom":false,"mappings...

  4. Peoria, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Peoria, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.5805955, -112.2373779 Show Map Loading map... "minzoom":false,"mappingservi...

  5. Springerville, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Springerville, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.1333799, -109.2859196 Show Map Loading map... "minzoom":false,"mappi...

  6. Surprise, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Surprise, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.6305938, -112.333216 Show Map Loading map... "minzoom":false,"mappingserv...

  7. Cottonwood, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.7391876, -112.0098791 Show Map Loading map... "minzoom":false,"mappingservice":"goo...

  8. Maricopa, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.0581063, -112.0476423 Show Map Loading map... "minzoom":false,"mappingservice":"goo...

  9. Kaibab, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Kaibab, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 36.896652, -112.7407596 Show Map Loading map... "minzoom":false,"mappingservic...

  10. Coolidge, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Coolidge, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.977839, -111.517624 Show Map Loading map... "minzoom":false,"mappingservi...

  11. Gadsden, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Gadsden, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.5544974, -114.7849577 Show Map Loading map... "minzoom":false,"mappingserv...

  12. Whetstone, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Whetstone, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 31.701705, -110.340746 Show Map Loading map... "minzoom":false,"mappingserv...

  13. Chinle, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Chinle, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 36.1544483, -109.5526072 Show Map Loading map... "minzoom":false,"mappingservi...

  14. Blackwater, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Blackwater, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.0311702, -111.582627 Show Map Loading map... "minzoom":false,"mappingse...

  15. Vail, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.0478583, -110.7120272 Show Map Loading map... "minzoom":false,"mappingservice":"goo...

  16. Cornville, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Cornville, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.7177989, -111.9215438 Show Map Loading map... "minzoom":false,"mappingse...

  17. Tsaile, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Tsaile, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 36.303712, -109.214705 Show Map Loading map... "minzoom":false,"mappingservice...

  18. Wilhoit, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Wilhoit, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.4258586, -112.5868398 Show Map Loading map... "minzoom":false,"mappingserv...

  19. Mountainaire, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Mountainaire, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.0852924, -111.6659925 Show Map Loading map... "minzoom":false,"mappin...

  20. Kingman, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.189443, -114.0530065 Show Map Loading map... "minzoom":false,"mappingservice":"goog...

  1. Oracle, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Oracle, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.6109054, -110.7709348 Show Map Loading map... "minzoom":false,"mappingservi...

  2. Fredonia, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 36.945542, -112.5265889 Show Map Loading map... "minzoom":false,"mappingservice":"goog...

  3. Chuichu, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Chuichu, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.752002, -111.7831837 Show Map Loading map... "minzoom":false,"mappingservi...

  4. Sahuarita, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Sahuarita, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 31.9575818, -110.955646 Show Map Loading map... "minzoom":false,"mappingser...

  5. Tortolita, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Tortolita, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.4005302, -111.0400795 Show Map Loading map... "minzoom":false,"mappingse...

  6. Sacaton, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Sacaton, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.0767225, -111.7392993 Show Map Loading map... "minzoom":false,"mappingserv...

  7. Moenkopi, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Moenkopi, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 36.1111043, -111.2223624 Show Map Loading map... "minzoom":false,"mappingser...

  8. Paulden, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Paulden, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.8855756, -112.4682271 Show Map Loading map... "minzoom":false,"mappingserv...

  9. Parks, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Parks, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.2605664, -111.9487743 Show Map Loading map... "minzoom":false,"mappingservic...

  10. Arizona Natural Gas Repressuring (Million Cubic Feet)

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

    12312015 Next Release Date: 01292016 Referring Pages: Natural Gas Used for Repressuring Arizona Natural Gas Gross Withdrawals and Production Natural Gas Used for Repressuring...

  11. Tacna, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Tacna, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.6975472, -113.9535427 Show Map Loading map... "minzoom":false,"mappingservic...

  12. Houck, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Houck, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.2830803, -109.2070391 Show Map Loading map... "minzoom":false,"mappingservic...

  13. Tucson, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Tucson, Arizona: Energy Resources (Redirected from Tucson, AZ) Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.2217429, -110.926479 Show Map Loading map......

  14. Congress, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Congress, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.162526, -112.8507374 Show Map Loading map... "minzoom":false,"mappingserv...

  15. Supai, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Supai, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 36.2369265, -112.6890791 Show Map Loading map... "minzoom":false,"mappingservic...

  16. Superior, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Superior, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.293945, -111.0962305 Show Map Loading map... "minzoom":false,"mappingserv...

  17. Wellton, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Wellton, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.6728256, -114.1468821 Show Map Loading map... "minzoom":false,"mappingserv...

  18. Carefree, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Carefree, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.8222611, -111.918203 Show Map Loading map... "minzoom":false,"mappingserv...

  19. Willcox, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Willcox, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.2528519, -109.8320124 Show Map Loading map... "minzoom":false,"mappingserv...

  20. Chandler, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Chandler, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.3061605, -111.8412502 Show Map Loading map... "minzoom":false,"mappingser...

  1. Pirtleville, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Pirtleville, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 31.3570467, -109.561734 Show Map Loading map... "minzoom":false,"mappings...

  2. Dudleyville, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Dudleyville, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.914267, -110.733779 Show Map Loading map... "minzoom":false,"mappingse...

  3. Tonalea, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Tonalea, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 36.3224923, -110.9634781 Show Map Loading map... "minzoom":false,"mappingserv...

  4. Mayer, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Mayer, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.3978054, -112.2362734 Show Map Loading map... "minzoom":false,"mappingservic...

  5. Ajo, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Ajo, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.3717248, -112.8607099 Show Map Loading map... "minzoom":false,"mappingservice"...

  6. Wickenburg, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Wickenburg, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.9686412, -112.729622 Show Map Loading map... "minzoom":false,"mappingse...

  7. Glendale, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.5386523, -112.1859866 Show Map Loading map... "minzoom":false,"mappingservice":"goo...

  8. Bisbee, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Bisbee, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 31.4481547, -109.9284084 Show Map Loading map... "minzoom":false,"mappingservi...

  9. Eloy, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Eloy, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.7558962, -111.554844 Show Map Loading map... "minzoom":false,"mappingservice"...

  10. Tolleson, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Tolleson, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.4500425, -112.259321 Show Map Loading map... "minzoom":false,"mappingserv...

  11. Nazlini, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Nazlini, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.8963986, -109.4487147 Show Map Loading map... "minzoom":false,"mappingserv...

  12. Tombstone, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Tombstone, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 31.7128683, -110.0675764 Show Map Loading map... "minzoom":false,"mappingse...

  13. Sedona, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Sedona, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.8697395, -111.7609896 Show Map Loading map... "minzoom":false,"mappingservi...

  14. Sawmill, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Sawmill, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.6181083, -110.3964911 Show Map Loading map... "minzoom":false,"mappingserv...

  15. Pisinemo, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Pisinemo, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.0378487, -112.3209689 Show Map Loading map... "minzoom":false,"mappingser...

  16. Sells, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Sells, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 31.9120215, -111.881234 Show Map Loading map... "minzoom":false,"mappingservice...

  17. Hayden, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Hayden, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.0047878, -110.7853836 Show Map Loading map... "minzoom":false,"mappingservi...

  18. Kearny, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.0570085, -110.9106656 Show Map Loading map... "minzoom":false,"mappingservice":"goo...

  19. Eagar, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Eagar, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.1111581, -109.291475 Show Map Loading map... "minzoom":false,"mappingservice...

  20. Stanfield, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Stanfield, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.8825531, -111.9620805 Show Map Loading map... "minzoom":false,"mappingse...

  1. Mammoth, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Mammoth, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.722568, -110.6406547 Show Map Loading map... "minzoom":false,"mappingservi...

  2. Lukachukai, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Lukachukai, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 36.416946, -109.2287125 Show Map Loading map... "minzoom":false,"mappingse...

  3. Florence, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.0314508, -111.3873431 Show Map Loading map... "minzoom":false,"mappingservice":"goo...

  4. Lechee, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Lechee, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.0322421, -110.7529145 Show Map Loading map... "minzoom":false,"mappingservi...

  5. Guadalupe, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Guadalupe, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.3708798, -111.9629216 Show Map Loading map... "minzoom":false,"mappingse...

  6. Dennehotso, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Dennehotso, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.479167, -111.2375 Show Map Loading map... "minzoom":false,"mappingservi...

  7. Naco, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Naco, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 31.3353801, -109.9481297 Show Map Loading map... "minzoom":false,"mappingservice...

  8. Marana, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Marana, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.414432, -111.172754 Show Map Loading map... "minzoom":false,"mappingservice...

  9. Winkelman, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Winkelman, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.9875659, -110.7709387 Show Map Loading map... "minzoom":false,"mappingse...

  10. Somerton, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Somerton, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.5964404, -114.709677 Show Map Loading map... "minzoom":false,"mappingserv...

  11. Williamson, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Williamson, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.6900229, -112.5410052 Show Map Loading map... "minzoom":false,"mappings...

  12. Buckeye, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Buckeye, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.3703197, -112.5837766 Show Map Loading map... "minzoom":false,"mappingserv...

  13. Santan, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Santan, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.145476, -111.801546 Show Map Loading map... "minzoom":false,"mappingservice...

  14. Gilbert, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.3528264, -111.789027 Show Map Loading map... "minzoom":false,"mappingservice":"goog...

  15. Kaibito, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Kaibito, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 36.5972186, -111.0743114 Show Map Loading map... "minzoom":false,"mappingserv...

  16. Page, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Page, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 36.9147222, -111.4558333 Show Map Loading map... "minzoom":false,"mappingservice...

  17. Douglas, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Douglas, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 31.3445471, -109.5453447 Show Map Loading map... "minzoom":false,"mappingserv...

  18. Steamboat, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Steamboat, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.7513983, -109.8478915 Show Map Loading map... "minzoom":false,"mappingse...

  19. Phoenix, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Phoenix, Arizona: Energy Resources (Redirected from Phoenix, AZ) Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.4483771, -112.0740373 Show Map Loading map......

  20. Leupp, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Leupp, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.2980659, -111.0062528 Show Map Loading map... "minzoom":false,"mappingservic...

  1. Seligman, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Seligman, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.3255608, -112.8774057 Show Map Loading map... "minzoom":false,"mappingser...

  2. Tusayan, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Tusayan, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.9735954, -112.1265569 Show Map Loading map... "minzoom":false,"mappingserv...

  3. Goodyear, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Goodyear, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.4353199, -112.3582135 Show Map Loading map... "minzoom":false,"mappingser...

  4. Catalina, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Catalina, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.5000731, -110.9212146 Show Map Loading map... "minzoom":false,"mappingser...

  5. Yarnell, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Yarnell, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.2216927, -112.7474007 Show Map Loading map... "minzoom":false,"mappingserv...

  6. Yuma, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Yuma, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.7253248, -114.624397 Show Map Loading map... "minzoom":false,"mappingservice"...

  7. Mesa, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Inc. ETA Engineering Renegy Holdings Inc The Arizona Center for Algae Technology and Innovation References US Census Bureau Incorporated place and minor civil division...

  8. Arizona Center for Innovation | Open Energy Information

    Open Energy Info (EERE)

    Innovation Jump to: navigation, search Name: Arizona Center for Innovation Place: United States Sector: Services Product: General Financial & Legal Services ( Academic Research...

  9. BLM Arizona State Office | Open Energy Information

    Open Energy Info (EERE)

    Arizona Address: One North Central Avenue, Suite 800 Place: Phoenix, AZ Zip: 85004 Phone Number: 602-417-9200 ParentHolding Organization: Bureau of Land Management...

  10. EA-106 Arizona Public Service Company | Department of Energy

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

    EA-106 Arizona Public Service Company Order authorizing Arizona Public Service Company to export electric energy to Mexico. PDF icon EA-106 Arizona Public Service (MX).pdf More ...

  11. Adaptive Liquid Crystal Windows

    SciTech Connect (OSTI)

    Taheri, Bahman; Bodnar, Volodymyr

    2011-12-31

    Energy consumption by private and commercial sectors in the U.S. has steadily grown over the last decade. The uncertainty in future availability of imported oil, on which the energy consumption relies strongly, resulted in a dramatic increase in the cost of energy. About 20% of this consumption are used to heat and cool houses and commercial buildings. To reduce dependence on the foreign oil and cut down emission of greenhouse gases, it is necessary to eliminate losses and reduce total energy consumption by buildings. To achieve this goal it is necessary to redefine the role of the conventional windows. At a minimum, windows should stop being a source for energy loss. Ideally, windows should become a source of energy, providing net gain to reduce energy used to heat and cool homes. It is possible to have a net energy gain from a window if its light transmission can be dynamically altered, ideally electronically without the need of operator assistance, providing optimal control of the solar gain that varies with season and climate in the U.S. In addition, the window must not require power from the building for operation. Resolution of this problem is a societal challenge and of national interest and will have a broad global impact. For this purpose, the year-round, allclimate window solution to provide an electronically variable solar heat gain coefficient (SHGC) with a wide dynamic range is needed. AlphaMicron, Inc. (AMI) developed and manufactured 1ft 1ft prototype panels for the worlds first auto-adjusting Adaptive Liquid Crystal Windows (ALCWs) that can operate from sunlight without the need for external power source and demonstrate an electronically adjustable SHGC. This novel windows are based on AlphaMicrons patented e-Tint technology, a guesthost liquid crystal system implemented on flexible, optically clear plastic films. This technology is suitable both for OEM and aftermarket (retro-fitting) lamination to new and existing windows. Low level of power consumption by ALCWs allows for on-board power electronics for automatic matching of transmission through windows to varying climate conditions without drawing the power from the power grid. ALCWs are capable of transmitting more sunlight in winters to assist in heating and less sunlight in summers to minimize overheating. As such, they can change the window from being a source of energy loss to a source of energy gain. In addition, the scalable AMIs roll-to-roll process, proved by making 1ft 1ftALCW prototype panels, allows for cost-effective production of large-scale window panels along with capability to change easily their color and shape. In addition to architectural glazing in houses and commercial buildings, ALCWs can be used in other applications where control of sunlight is needed, such as green houses, used by commercial produce growers and botanical gardens, cars, aircrafts, etc.

  12. BERKELEY LAB WINDOW

    Energy Science and Technology Software Center (OSTI)

    2015-03-06

    WINDOW features include: - Microsoft Windows TM interface - algorithms for the calculation of total fenestration product U-values and Solar Heat Gain Coefficient consistent with ASHRAE SPC 142, ISO 15099, and the National Fenestration Rating Council - a Condensation Resistance Index in accordance with the NFRC 500 Standard - and integrated database of properties - imports data from other LBNL window analysis software: - Import THERM file into the Frame Library - Import records frommore » IGDB and OPtics5 into the Glass Library for the optical properties of coated and uncoated glazings, laminates, and applied films. Program Capabilities WINDOW 7.2 offers the following features: The ability to analyze products made from any combination of glazing layers, gas layers, frames, spacers, and dividers under any environmental conditions and at any tilt; The ability to model complex glazing systems such as venetian blinds and roller shades. Directly accessible libraries of window system components, (glazing systems, glazing layers, gas fills, frame and divider elements), and environmental conditions; The choice of working in English (IP), or Systeme International (SI) units; The ability to specify the dimensions and thermal properties of each frame element (header, sills, jamb, mullion) in a window; A multi-band (wavelength-by-wavelength) spectral model; A Glass Library which can access spectral data files for many common glazing materials from the Optics5database; A night-sky radiative model; A link with the DOE-2.1E and Energy Plus building energy analysis program. Performance Indices and Other Results For a user-defined fenestration system and user-defined environmental conditions, WINDOW calculates: The U-value, solar heat gain coefficient, shading coefficient, and visible transmittance for the complete window system; The U-value, solar heat gain coefficient, shading coefficient, and visible transmittance for the glazing system (center-of-glass values); The U-values of the frame and divider elements and corresponding edge-of-glass areas (based on generic correlations); The total solar and visible transmittance and reflectances of the glazing system. Color properties, i.e. L*, a*, and b* color coordinates, dominant wavelength, and purity for transmitted and reflected (outdoor) solar radiation; The damage-weighted transmittance of the glazing system between 0.3 an 0.38 microns; The angular dependence of the solar and visible transmittances, solar and visible reflectances, solar absorptance, and solar heat gain coefficient of the glazing system; The percent relative humidity of the inside and outside air for which condensation will occur on the interior and exterior glazing surfaces respectively; The center-of-glass temperature distribution.« less

  13. BERKELEY LAB WINDOW

    SciTech Connect (OSTI)

    Curcija, Dragan Charlie; Zhu, Ling; Czarnecki, Stephen; Mitchell, Robin D.; Kohler, Christian; Vidanovic, Simon V.; Huizenga, Charlie

    2015-03-06

    WINDOW features include: - Microsoft Windows TM interface - algorithms for the calculation of total fenestration product U-values and Solar Heat Gain Coefficient consistent with ASHRAE SPC 142, ISO 15099, and the National Fenestration Rating Council - a Condensation Resistance Index in accordance with the NFRC 500 Standard - and integrated database of properties - imports data from other LBNL window analysis software: - Import THERM file into the Frame Library - Import records from IGDB and OPtics5 into the Glass Library for the optical properties of coated and uncoated glazings, laminates, and applied films. Program Capabilities WINDOW 7.2 offers the following features: The ability to analyze products made from any combination of glazing layers, gas layers, frames, spacers, and dividers under any environmental conditions and at any tilt; The ability to model complex glazing systems such as venetian blinds and roller shades. Directly accessible libraries of window system components, (glazing systems, glazing layers, gas fills, frame and divider elements), and environmental conditions; The choice of working in English (IP), or Systeme International (SI) units; The ability to specify the dimensions and thermal properties of each frame element (header, sills, jamb, mullion) in a window; A multi-band (wavelength-by-wavelength) spectral model; A Glass Library which can access spectral data files for many common glazing materials from the Optics5database; A night-sky radiative model; A link with the DOE-2.1E and Energy Plus building energy analysis program. Performance Indices and Other Results For a user-defined fenestration system and user-defined environmental conditions, WINDOW calculates: The U-value, solar heat gain coefficient, shading coefficient, and visible transmittance for the complete window system; The U-value, solar heat gain coefficient, shading coefficient, and visible transmittance for the glazing system (center-of-glass values); The U-values of the frame and divider elements and corresponding edge-of-glass areas (based on generic correlations); The total solar and visible transmittance and reflectances of the glazing system. Color properties, i.e. L*, a*, and b* color coordinates, dominant wavelength, and purity for transmitted and reflected (outdoor) solar radiation; The damage-weighted transmittance of the glazing system between 0.3 an 0.38 microns; The angular dependence of the solar and visible transmittances, solar and visible reflectances, solar absorptance, and solar heat gain coefficient of the glazing system; The percent relative humidity of the inside and outside air for which condensation will occur on the interior and exterior glazing surfaces respectively; The center-of-glass temperature distribution.

  14. The Future of Electric Vehicles and Arizona State University's MAIL

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

    Battery | Department of Energy The Future of Electric Vehicles and Arizona State University's MAIL Battery The Future of Electric Vehicles and Arizona State University's MAIL Battery August 11, 2010 - 4:26pm Addthis Cody Friesen and his team at Arizona State University | Photo Credit Arizona State University Cody Friesen and his team at Arizona State University | Photo Credit Arizona State University Andy Oare Andy Oare Former New Media Strategist, Office of Public Affairs What does this

  15. A Solar Win for Arizona | Department of Energy

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

    A Solar Win for Arizona A Solar Win for Arizona January 9, 2013 - 5:11pm Addthis The 150 megawatt Mesquite Solar 1 installation in Maricopa County, Arizona. | Photo courtesy of Sempra Energy. The 150 megawatt Mesquite Solar 1 installation in Maricopa County, Arizona. | Photo courtesy of Sempra Energy. The 150 megawatt Mesquite Solar 1 installation in Maricopa County, Arizona. | Photo courtesy of Sempra Energy. The 150 megawatt Mesquite Solar 1 installation in Maricopa County, Arizona. | Photo

  16. Arizona's 3rd congressional district: Energy Resources | Open...

    Open Energy Info (EERE)

    congressional district Agenera, LLC Alchemix Corporation Amereco Biofuels Corp Arizona Public Service Company APS Arizona Solar Tech EDGE Energy LLC EGreenIdeas Ecotality North...

  17. Arizona Public Service Company APS | Open Energy Information

    Open Energy Info (EERE)

    Public Service Company APS Jump to: navigation, search Name: Arizona Public Service Company (APS) Place: Phoenix, Arizona Zip: 85004 Product: Generates, transmits and distributes...

  18. Arizona Const. Art.15 - The Corporation Commission | Open Energy...

    Open Energy Info (EERE)

    Arizona Const. Art.15 - The Corporation CommissionLegal Abstract This article sets forth the Constitutional provisions governing the Arizona Corporations Commission. Published...

  19. City of Williams - AZ, Arizona (Utility Company) | Open Energy...

    Open Energy Info (EERE)

    Williams - AZ, Arizona (Utility Company) Jump to: navigation, search Name: City of Williams - AZ Place: Arizona Phone Number: 928-635-2667 or 928-635-4451 Website:...

  20. Phoenix, Arizona Summary of Reported Data | Department of Energy

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

    Summary of Reported Data Phoenix, Arizona Summary of Reported Data Summary of data reported by Better Buildings Neighborhood Program partner Phoenix, Arizona. PDF icon Phoenix, ...

  1. EERE Success Story-Arizona: Solar Panels Replace Inefficient...

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

    These projects typically have payback periods under five ... consumption of gasoline, diesel, propane, and electricity. Location Arizona Partners State of Arizona EERE Investment ...

  2. Northern Arizona University Wind Projects | Open Energy Information

    Open Energy Info (EERE)

    Wind Projects Jump to: navigation, search Northern Arizona University ARD Wind Project Northern Arizona University SHRM Wind Project Retrieved from "http:en.openei.orgw...

  3. Arizona Transmission Line Siting Committee | Open Energy Information

    Open Energy Info (EERE)

    Line Siting Committee Jump to: navigation, search Name: Arizona Transmission Line Siting Committee Abbreviation: TLSC Address: 1200 West Washington Street Place: Phoenix, Arizona...

  4. The Arizona Center for Algae Technology and Innovation | Open...

    Open Energy Info (EERE)

    Arizona Center for Algae Technology and Innovation Jump to: navigation, search Name: The Arizona Center for Algae Technology and Innovation Abbreviation: AzCATI Address: 7418 East...

  5. Superconducting radiofrequency window assembly

    DOE Patents [OSTI]

    Phillips, Harry L.; Elliott, Thomas S.

    1997-01-01

    The present invention is a superconducting radiofrequency window assembly for use in an electron beam accelerator. The srf window assembly (20) has a superconducting metal-ceramic design. The srf window assembly (20) comprises a superconducting frame (30), a ceramic plate (40) having a superconducting metallized area, and a superconducting eyelet (50) for sealing plate (40) into frame (30). The plate (40) is brazed to eyelet (50) which is then electron beam welded to frame (30). A method for providing a ceramic object mounted in a metal member to withstand cryogenic temperatures is also provided. The method involves a new metallization process for coating a selected area of a ceramic object with a thin film of a superconducting material. Finally, a method for assembling an electron beam accelerator cavity utilizing the srf window assembly is provided. The procedure is carried out within an ultra clean room to minimize exposure to particulates which adversely affect the performance of the cavity within the electron beam accelerator.

  6. Superconductive radiofrequency window assembly

    DOE Patents [OSTI]

    Phillips, Harry Lawrence; Elliott, Thomas S.

    1998-01-01

    The present invention is a superconducting radiofrequency window assembly for use in an electron beam accelerator. The srf window assembly (20) has a superconducting metal-ceramic design. The srf window assembly (20) comprises a superconducting frame (30), a ceramic plate (40) having a superconducting metallized area, and a superconducting eyelet (50) for sealing plate (40) into frame (30). The plate (40) is brazed to eyelet (50) which is then electron beam welded to frame (30). A method for providing a ceramic object mounted in a metal member to withstand cryogenic temperatures is also provided. The method involves a new metallization process for coating a selected area of a ceramic object with a thin film of a superconducting material. Finally, a method for assembling an electron beam accelerator cavity utilizing the srf window assembly is provided. The procedure is carried out within an ultra clean room to minimize exposure to particulates which adversely affect the performance of the cavity within the electron beam accelerator.

  7. Arizona Nuclear Profile - Power Plants

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

    nuclear power plants, summer capacity and net generation, 2010" "Plant name/total reactors","Summer capacity (mw)","Net generation (thousand mwh)","Share of State nuclear net generation (percent)","Owner" "Palo Verde Unit 1, Unit 2, Unit 3","3,937","31,200",100.0,"Arizona Public Service Co" "1 Plant 3 Reactors","3,937","31,200",100.0 "Note: Totals may not equal sum of

  8. Bisfuel links - Arizona State University

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

    Arizona State University http://chemistry.asu.edu/" target="_blank">ASU Department of Chemistry and Biochemistry http://sustainability.asu.edu/index.php" target="_blank">ASU Global Institute of Sustainability http://asulightworks.com/" target="_blank">ASU Lightworks http://sols.asu.edu/" target="_blank">ASU School of Life Sciences http://www.biodesign.asu.edu/" target="_blank">Biodesign Institute

  9. Northern Arizona University | Department of Energy

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

    Northern Arizona University Northern Arizona University Team Roster: Anas Alkandari, Mechanical Engineering; Randon Allen, Electrical Engineering; Hashim Alramadhan, Mechanical Engineering; Jessica Bauer, Mechanical Engineering; Luke Baxter, Business Administration; Thomas Begay, Business Administration; Connor Campbell, Business Administration; Nathan Ceniceros, Mechanical Engineering; Norman Clark, Mechanical Engineering; Michael Coil, Business Administration; Jeremy Cook, Mechanical

  10. Phoenix, Arizona Data Dashboard | Department of Energy

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

    Data Dashboard Phoenix, Arizona Data Dashboard The data dashboard for Phoenix, Arizona, a partner in the Better Buildings Neighborhood Program. File Phoenix Data Dashboard More Documents & Publications Austin Energy Data Dashboard Massachusetts -- SEP Data Dashboard Camden, New Jersey Data Dashboard

  11. Residential Windows and Window Coverings: A Detailed View of the Installed Base and User Behavior

    Broader source: Energy.gov [DOE]

    Includes information about the installed base of residential windows and window coverings, and the operation of window coverings by households.

  12. Tips: Windows | Department of Energy

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

    Apply sun-control or other reflective films on south-facing windows to reduce solar heat gain. Long-Term Savings Tip Installing high-performance windows will improve your home's ...

  13. Capture sunlight with your window

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

    Capture sunlight with your window Capture sunlight with your window A luminescent solar concentrator is an emerging sunlight harvesting technology that has the potential to disrupt the way we think about energy. August 24, 2015 The luminescent solar concentrator could turn any window into a daytime power source. The luminescent solar concentrator could turn any window into a daytime power source. Contact Los Alamos National Laboratory Nancy Ambrosiano Communications Office (505) 667-0471 Email

  14. Dynamic Windows | Department of Energy

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

    Dynamic Windows Dynamic Windows NREL senior scientist, Robert Tenent, Ph.D., with equipment for low cost processing (deposition) of window coatings materials. NREL senior scientist, Robert Tenent, Ph.D., with equipment for low cost processing (deposition) of window coatings materials. Lead Performer: National Renewable Energy Laboratory - Golden, CO Partners: -- Sage Electrochromics - Faribault, MN -- e-Chromic Technologies, Inc. - Boulder, CO -- Colorado School of Mines - Golden, CO -- Stanford

  15. PP-107 Arizona Public Service Company | Department of Energy

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

    Arizona Public Service Company PP-107 Arizona Public Service Company Presidential permit authorizing Arizona Public Service Company to construct, operate, and maintain electric transmission facilities at the U.S-Mexico border. PDF icon PP-107 Arizona Public Service Company More Documents & Publications PP-107-1

  16. Energy-Efficient Windows | Department of Energy

    Energy Savers [EERE]

    storm windows, caulking and weatherstripping, and using window treatments or coverings. ... Window treatments or coverings can reduce heat loss in the winter and heat gain in the ...

  17. Alternative Fuels Data Center: Arizona Transportation Data for Alternative

    Alternative Fuels and Advanced Vehicles Data Center [Office of Energy Efficiency and Renewable Energy (EERE)]

    Fuels and Vehicles Arizona Transportation Data for Alternative Fuels and Vehicles to someone by E-mail Share Alternative Fuels Data Center: Arizona Transportation Data for Alternative Fuels and Vehicles on Facebook Tweet about Alternative Fuels Data Center: Arizona Transportation Data for Alternative Fuels and Vehicles on Twitter Bookmark Alternative Fuels Data Center: Arizona Transportation Data for Alternative Fuels and Vehicles on Google Bookmark Alternative Fuels Data Center: Arizona

  18. Predicting window condensation potential

    SciTech Connect (OSTI)

    McGowan, A.

    1995-07-01

    Although a substantial amount of effort has been expended to develop numerical methods for determining window U-factors, there has been little work to date on using numerical methods to predict condensation potential. It is, perhaps, of direct interest to most ASHRAE members to determine heat loss and solar gains through windows as a preliminary step to sizing heating and cooling equipment, but condensation has long been recognized as an extremely important issue for consumers (and, consequently, for window manufacturers). Moreover, building scientists recognize the link between condensation and increased energy consumption (due to latent loads), reduced occupant comfort and inferior indoor air quality (from the presence of bacteria and mold), and structural damage (where accumulated condensation is absorbed by the building materials, thus reducing their structural stability). The National Fenestration Rating Council (NFRC) is developing a rating method for condensation potential in fenestration products, as part of its mandate from the Department of Energy. A rating method would benefit from the use of simulation as a supplement to physical condensation resistance testing, to reduce the cost and time required for implementation and increase the flexibility of the rating method. This article outlines the necessary components in the application of numerical methods for evaluating condensation in fenestration products, and describes the status of the development of these methods. The theoretical approach and its practical application are discussed, as well as some comparisons between numerical prediction and physical test results for a sample of products. Much of the technical discussion in this article can be found in ASHRAE Transactions.

  19. ,"Arizona Natural Gas Gross Withdrawals and Production"

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

    ,,"(202) 586-8800",,,"4292016 6:48:23 AM" "Back to Contents","Data 1: Arizona Natural Gas Gross Withdrawals and Production" "Sourcekey","N9010AZ2","N9011AZ2","N9012AZ2","NGME...

  20. ,"Arizona Natural Gas Gross Withdrawals and Production"

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

    ,,"(202) 586-8800",,,"4292016 6:48:22 AM" "Back to Contents","Data 1: Arizona Natural Gas Gross Withdrawals and Production" "Sourcekey","N9010AZ2","N9011AZ2","N9012AZ2","NGME...

  1. ,"Arizona Natural Gas Consumption by End Use"

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

    Consumption by End Use" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description"," Of Series","Frequency","Latest Data for" ,"Data 1","Arizona Natural Gas ...

  2. EIS-0322: Sundance Energy Project, Arizona

    Broader source: Energy.gov [DOE]

    This EIS analyzes Western Area Power Administration (Western) decision to approve Sundance Energy LLC (Sundance) to interconnect a planned generator facility to Westerns transmission system in the vicinity of Coolidge, Arizona.

  3. Arizona Natural Gas Repressuring (Million Cubic Feet)

    Annual Energy Outlook [U.S. Energy Information Administration (EIA)]

    Repressuring (Million Cubic Feet) Arizona Natural Gas Repressuring (Million Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 1970's 103...

  4. Windows on the axion

    SciTech Connect (OSTI)

    Turner, M.S.

    1989-04-01

    Peccei-Quinn symmetry with attendant axion is a most compelling, and perhaps the most minimal, extension of the standard model, as it provides a very elegant solution to the nagging strong CP-problem associated with the THETA vacuum structure of QCD. However, particle physics gives little guidance as to the axion mass; a priori, the plausible values span the range: 10/sup /minus/12/ eV /approx lt/ m/sub a/ /approx lt/ 10/sup 6/ eV, some 18 orders-of-magnitude. Axions have a host of interesting astrophysical and cosmological effects, including, modifying the evolution of stars of all types (our sun, red giants, white dwarfs, and neutron stars), contributing significantly to the mass density of the Universe today, and producing detectable line radiation through the decays of relic axions. Consideration of these effects has probed 14 orders-of-magnitude in axion mass, and has left open only two windows for further exploration: 10/sup /minus/6/ eV /approx lt/ m/sub a/ /approx lt/ 10/sup /minus/3/ eV and 1 eV /approx lt/ m/sub a/ /approx lt/ 5 eV (hadronic axions only). Both these windows are accessible to experiment, and a variety of very interesting experiments, all of which involve ''heavenly axions,'' are being planned or are underway. 58 refs., 6 figs., 1 tab.

  5. Window Types | Department of Energy

    Office of Environmental Management (EM)

    Tints Heat-absorbing window glazing contains special tints that change the color of the glass. Tinted glass absorbs a large fraction of the incoming solar radiation...

  6. Tips: Windows | Department of Energy

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

    attractive features. Windows provide views, daylighting, ventilation, and heat from the sun in the winter. Unfortunately, they can also account for 10% to 25% of your heating bill...

  7. San Luis, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Hide Map This article is a stub. You can help OpenEI by expanding it. San Luis is a city in Yuma County, Arizona. It falls under Arizona's 7th congressional...

  8. 1,"Palo Verde","Nuclear","Arizona Public Service Co",3937

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

    Arizona" ,"Plant","Primary energy source","Operating company","Net summer capacity (MW)" 1,"Palo Verde","Nuclear","Arizona Public Service Co",3937 2,"Navajo","Coal","Salt River ...

  9. ,"Arizona Natural Gas Industrial Price (Dollars per Thousand...

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

    586-8800",,,"1292016 12:15:22 AM" "Back to Contents","Data 1: Arizona Natural Gas Industrial Price (Dollars per Thousand Cubic Feet)" "Sourcekey","N3035AZ3" "Date","Arizona...

  10. Arizona Natural Gas Gross Withdrawals (Million Cubic Feet per...

    Annual Energy Outlook [U.S. Energy Information Administration (EIA)]

    Arizona Natural Gas Gross Withdrawals (Million Cubic Feet per Day) Arizona Natural Gas Gross Withdrawals (Million Cubic Feet per Day) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct...

  11. Alternative Fuels Data Center: Rolling Down the Arizona EV Highway

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

    Rolling Down the Arizona EV Highway to someone by E-mail Share Alternative Fuels Data Center: Rolling Down the Arizona EV Highway on Facebook Tweet about Alternative Fuels Data...

  12. Fort Defiance, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    OpenEI by expanding it. Fort Defiance is a census-designated place in Apache County, Arizona.1 US Recovery Act Smart Grid Projects in Fort Defiance, Arizona Navajo Tribal...

  13. Casa Grande, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Hide Map This article is a stub. You can help OpenEI by expanding it. Casa Grande is a city in Pinal County, Arizona. It falls under Arizona's 1st congressional...

  14. Federal Correctional Institution - Phoenix, Arizona | Department of Energy

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

    Federal Correctional Institution - Phoenix, Arizona Federal Correctional Institution - Phoenix, Arizona Photo of a Parabolic-Trough Solar Water-Heating System Installed at the Federal Correctional Institution Facility north of Phoenix, Arizona A parabolic-trough solar water-heating system was installed at the Federal Correctional Institution (FCI) facility north of Phoenix, Arizona. This medium security prison for males has a current population of about 1,200 inmates and uses an average of

  15. Final Report - Arizona Rooftop Solar Challenge | Department of Energy

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

    Arizona Rooftop Solar Challenge Final Report - Arizona Rooftop Solar Challenge Awardee: Arizona Governor's Office of Energy Policy Location: Phoenix, AZ Subprogram: Soft Costs Funding Program: Rooftop Solar Challenge 1 The Arizona Rooftop Solar Challenge (ARC) is a regional partnership of the Rooftop Solar Challenge. Funded through the U.S. Department of Energy's SunShot Initiative, this program is focused on streamlining processes and reducing costs to make solar more affordable for the

  16. Arizona Recovery Act State Memo | Department of Energy

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

    Arizona Recovery Act State Memo Arizona Recovery Act State Memo Arizona has substantial natural resources, including coal, solar, and hydroelectric resources. The American Recovery & Reinvestment Act (ARRA) is making a meaningful down payment on the nation's energy and environmental future. The Recovery Act investments in Arizona reflect a broad range of clean energy projects, from energy efficiency and the smart grid to transportation, carbon capture and storage, and geothermal energy.

  17. Phoenix, Arizona Summary of Reported Data | Department of Energy

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

    Summary of Reported Data Phoenix, Arizona Summary of Reported Data Summary of data reported by Better Buildings Neighborhood Program partner Phoenix, Arizona. PDF icon Phoenix, Arizona Summary of Reported Data More Documents & Publications Virginia -- SEP Summary of Reported Data University Park Summary of Reported Data Alabama -- SEP Summary of Reported Data

  18. X-Windows Acceleration via NX

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

    X-Windows Acceleration via NX X-Windows Acceleration via NX May 12, 2011 by Francesca Verdier NX is a computer program that handles remote X-Windows connections. It can greatly...

  19. Tips: Windows | Department of Energy

    Office of Environmental Management (EM)

    Choose high-performance windows that have at least two panes of glass and a low-e coating. Choose a low U-factor for better insulation in colder climates; the U-factor is the...

  20. Window-closing safety system

    DOE Patents [OSTI]

    McEwan, Thomas E.

    1997-01-01

    A safety device includes a wire loop embedded in the glass of a passenger car window and routed near the closing leading-edge of the window. The wire loop carries microwave pulses around the loop to and from a transceiver with separate output and input ports. An evanescent field only and inch or two in radius is created along the wire loop by the pulses. Just about any object coming within the evanescent field will dramatically reduce the energy of the microwave pulses received back by the transceiver. Such a loss in energy is interpreted as a closing area blockage, and electrical interlocks are provided to halt or reverse a power window motor that is actively trying to close the window.

  1. Window-closing safety system

    DOE Patents [OSTI]

    McEwan, T.E.

    1997-08-26

    A safety device includes a wire loop embedded in the glass of a passenger car window and routed near the closing leading-edge of the window. The wire loop carries microwave pulses around the loop to and from a transceiver with separate output and input ports. An evanescent field only an inch or two in radius is created along the wire loop by the pulses. Just about any object coming within the evanescent field will dramatically reduce the energy of the microwave pulses received back by the transceiver. Such a loss in energy is interpreted as a closing area blockage, and electrical interlocks are provided to halt or reverse a power window motor that is actively trying to close the window. 5 figs.

  2. Energy Efficient Window Treatments | Department of Energy

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

    Energy Efficient Window Treatments Energy Efficient Window Treatments The awnings on this home shade the windows and generate electricity. | Photo courtesy of ©iStockphoto/jhorrocks The awnings on this home shade the windows and generate electricity. | Photo courtesy of ©iStockphoto/jhorrocks You can choose window treatments or coverings not only for decoration but also for saving energy. Some carefully selected window treatments can reduce heat loss in the winter and heat gain in the

  3. A window on urban sustainability

    SciTech Connect (OSTI)

    Stigt, Rien van; Driessen, Peter P.J.; Spit, Tejo J.M.

    2013-09-15

    Sustainable urban development requires the integration of environmental interests in urban planning. Although various methods of environmental assessment have been developed, plan outcomes are often disappointing due to the complex nature of decision-making in urban planning, which takes place in multiple arenas within multiple policy networks involving diverse stakeholders. We argue that the concept of ‘decision windows’ can structure this seemingly chaotic chain of interrelated decisions. First, explicitly considering the dynamics of the decision-making process, we further conceptualized decision windows as moments in an intricate web of substantively connected deliberative processes where issues are reframed within a decision-making arena, and interests may be linked within and across arenas. Adopting this perspective in two case studies, we then explored how decision windows arise, which factors determine their effectiveness and how their occurrence can be influenced so as to arrive at more sustainable solutions. We conclude that the integration of environmental interests in urban planning is highly dependent on the ability of the professionals involved to recognize and manipulate decision windows. Finally, we explore how decision windows may be opened. -- Highlights: • Decision-making about sustainable urban development occurs in networks. • The concept of ‘decision windows’ was further elaborated. • Decision windows help understand how environmental interests enter decision-making. • Decision windows can, to some extent, be influenced.

  4. Energy-Efficient Windows | Department of Energy

    Office of Environmental Management (EM)

    in your home involves design, selection, and installation. Design Before selecting new windows for your home, determine what types of windows will work best and where to...

  5. Building Technologies Office: Emerging Technologies Windows and...

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

    including the cost of sensor and lighting Reduce ... * Smart shadings * Highly insulated windows * Windows attachment 8 Building Envelope R&D Priorities Technology 2025 ...

  6. Do You Have Windows That Need Replacing?

    Broader source: Energy.gov [DOE]

    Do you have windows that need replacing, too? Do you have any plans to replace them with newer, more efficient windows?

  7. Window taper functions for subaperture processing. (Technical...

    Office of Scientific and Technical Information (OSTI)

    Window taper functions for subaperture processing. Citation Details In-Document Search Title: Window taper functions for subaperture processing. You are accessing a document ...

  8. Window taper functions for subaperture processing. (Technical...

    Office of Scientific and Technical Information (OSTI)

    Window taper functions for subaperture processing. Citation Details In-Document Search Title: Window taper functions for subaperture processing. It is well known that the spectrum ...

  9. DOE Awards Native American, Tribally-Owned Small Business Contract...

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

    The company, NOVA Corp. of Window Rock, Arizona, is owned by the Navajo Nation. NOVA will provide administrative support services and information technology support to the Savannah ...

  10. Promising Technology: R-5 Window Replacements

    Broader source: Energy.gov [DOE]

    A significant amount of the energy used to heat and cool commercial buildings is lost through inefficient windows. Incorporating windows into a building that are resistant to heat transfer can significantly reduce the amount of energy that is lost through windows. R-values are an indication of how resistant a window is to heat transfer, and a larger R-value indicates a more insulating window. An R-5 window represents an efficient window, and has a larger R-value than what is required to qualify for ENERGY STAR.

  11. Windows, Doors, and Skylights | Department of Energy

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

    Windows, Doors, and Skylights Windows, Doors, and Skylights Choose energy efficient windows to reduce energy bills and improve the comfort of your home. | Photo courtesy of FSEC/IBACOS. Choose energy efficient windows to reduce energy bills and improve the comfort of your home. | Photo courtesy of FSEC/IBACOS. Windows, doors, and skylights-also known as fenestration-are significant components in a home's envelope. Ensuring they are as energy efficient as possible can save energy; reduce heating,

  12. Energy-Efficient Windows | Department of Energy

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

    Energy-Efficient Windows Energy-Efficient Windows Energy-efficient windows provide space heating and lighting to this sunny kitchen. | Photo courtesy of Emily Minton-Redfield for Jim Logan Architects. Energy-efficient windows provide space heating and lighting to this sunny kitchen. | Photo courtesy of Emily Minton-Redfield for Jim Logan Architects. Windows provide our homes with light, warmth, and ventilation, but they can also negatively impact a home's energy efficiency. You can reduce energy

  13. University of Arizona Compressed Air Energy Storage

    SciTech Connect (OSTI)

    Simmons, Joseph; Muralidharan, Krishna

    2012-12-31

    Boiled down to its essentials, the grant’s purpose was to develop and demonstrate the viability of compressed air energy storage (CAES) for use in renewable energy development. While everyone agrees that energy storage is the key component to enable widespread adoption of renewable energy sources, the development of a viable scalable technology has been missing. The Department of Energy has focused on expanded battery research and improved forecasting, and the utilities have deployed renewable energy resources only to the extent of satisfying Renewable Portfolio Standards. The lack of dispatchability of solar and wind-based electricity generation has drastically increased the cost of operation with these components. It is now clear that energy storage coupled with accurate solar and wind forecasting make up the only combination that can succeed in dispatchable renewable energy resources. Conventional batteries scale linearly in size, so the price becomes a barrier for large systems. Flow batteries scale sub-linearly and promise to be useful if their performance can be shown to provide sufficient support for solar and wind-base electricity generation resources. Compressed air energy storage provides the most desirable answer in terms of scalability and performance in all areas except efficiency. With the support of the DOE, Tucson Electric Power and Science Foundation Arizona, the Arizona Research Institute for Solar Energy (AzRISE) at the University of Arizona has had the opportunity to investigate CAES as a potential energy storage resource.

  14. DOE - Office of Legacy Management -- University of Arizona Southwest

    Office of Legacy Management (LM)

    Experiment Station Buildings - AZ 01 Arizona Southwest Experiment Station Buildings - AZ 01 FUSRAP Considered Sites Site: UNIVERSITY OF ARIZONA (SOUTHWEST EXPERIMENT STATION BUILDINGS) (AZ.01) Eliminated from consideration under FUSRAP Designated Name: Not Designated Alternate Name: U.S. Bureau of Mines AZ.01-1 Location: Tucson , Arizona AZ.01-1 Evaluation Year: 1987 AZ.01-2 AZ.01-3 Site Operations: Conducted research and development work on the processing of uranium ores. AZ.01-1 Site

  15. Sun City, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Sun City, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.5975393, -112.2718239 Show Map Loading map... "minzoom":false,"mappingser...

  16. Big Park, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Park, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.780297, -111.7626535 Show Map Loading map... "minzoom":false,"mappingservice"...

  17. Munds Park, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Munds Park, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.945574, -111.6401551 Show Map Loading map... "minzoom":false,"mappingse...

  18. Litchfield Park, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Park, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.4933743, -112.3579364 Show Map Loading map... "minzoom":false,"mappingservice...

  19. Arizona Electric Pwr Coop Inc | Open Energy Information

    Open Energy Info (EERE)

    Facebook: https:www.facebook.compagesArizonas-GT-Cooperatives347352335037?refts Outage Hotline: (520) 586-3631 References: EIA Form EIA-861 Final Data File for 2010...

  20. Prescott Valley, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Page Edit with form History Prescott Valley, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.6100243, -112.315721 Show Map Loading...

  1. St. David, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    David, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 31.9042517, -110.2142399 Show Map Loading map... "minzoom":false,"mappingservic...

  2. Flowing Wells, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Wells, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.2939638, -111.0098178 Show Map Loading map... "minzoom":false,"mappingservic...

  3. La Paz County, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Paz County, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.0061091, -113.9536466 Show Map Loading map... "minzoom":false,"mappings...

  4. Ash Fork, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Ash Fork, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.2250114, -112.4840675 Show Map Loading map... "minzoom":false,"mappingser...

  5. UNIVERSITY OF ARIZONA HIGH ENERGY PHYSICS PROGRAM (Technical...

    Office of Scientific and Technical Information (OSTI)

    The High Energy Physics Group at the University of Arizona has conducted forefront research in elementary particle physics. Our theorists have developed new ideas in lattice QCD, ...

  6. Fort Defiance, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Act Smart Grid Projects in Fort Defiance, Arizona Navajo Tribal Utility Association Smart Grid Project References US Census Bureau 2005 Place to 2006 CBSA Retrieved from...

  7. Oro Valley, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Oro Valley, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.3909071, -110.966488 Show Map Loading map... "minzoom":false,"mappingse...

  8. Geothermal-Exploration In Arizona | Open Energy Information

    Open Energy Info (EERE)

    In Arizona Authors C. Stone and W. R. Hahman Published Journal Transactions-American Geophysical Union, 1978 DOI Not Provided Check for DOI availability: http:...

  9. ,"Arizona Natural Gas Vehicle Fuel Price (Dollars per Thousand...

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

    Of Series","Frequency","Latest Data for" ,"Data 1","Arizona Natural Gas Vehicle Fuel Price (Dollars per Thousand Cubic Feet)",1,"Annual",2012 ,"Release...

  10. Peach Springs, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Springs, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.5291589, -113.425491 Show Map Loading map... "minzoom":false,"mappingservi...

  11. Arizona State Historic Preservation Office | Open Energy Information

    Open Energy Info (EERE)

    Historic Preservation Office Jump to: navigation, search Name: Arizona State Historic Preservation Office Abbreviation: SHPO Address: 1300 West Washington Street Place: Phoenix,...

  12. Arizona State University TUV Rheinland JV | Open Energy Information

    Open Energy Info (EERE)

    University TUV Rheinland JV Jump to: navigation, search Name: Arizona State University & TUV Rheinland JV Sector: Solar Product: Solar JV formed for technology testing and...

  13. EIS-0441: Mohave County Wind Farm Project, Mohave County, Arizona...

    Office of Environmental Management (EM)

    as a cooperating agency, evaluated the environmental impacts of a proposed wind energy project on public lands in Mohave County, Arizona. Power generated by this project...

  14. Arizona State Land Department Applications and Permits Website...

    Open Energy Info (EERE)

    to: navigation, search OpenEI Reference LibraryAdd to library Web Site: Arizona State Land Department Applications and Permits Website Abstract This website contains supplemental...

  15. Sierra Vista, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Vista, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 31.5545394, -110.3036912 Show Map Loading map... "minzoom":false,"mappingservic...

  16. Sierra Vista Southeast, Arizona: Energy Resources | Open Energy...

    Open Energy Info (EERE)

    Vista Southeast, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 31.460592, -110.217428 Show Map Loading map... "minzoom":false,"mappi...

  17. RAPID/BulkTransmission/Arizona | Open Energy Information

    Open Energy Info (EERE)

    the Regional Entity responsible for coordinating and promoting Bulk Electric System reliability in the Western Interconnection, including Arizona. WECC also provides an...

  18. Arizona's 1st congressional district: Energy Resources | Open...

    Open Energy Info (EERE)

    System Solar Power Plant Retrieved from "http:en.openei.orgwindex.php?titleArizona%27s1stcongressionaldistrict&oldid175300" Feedback Contact needs updating Image needs...

  19. EIS-0474: Southline Transmission Line Project; Arizona and New...

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

    consist of a new 225-mile transmission line between existing substations at Afton, New Mexico, and Apache, Arizona, and improvements to approximately 130 miles of existing...

  20. Green Valley, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 31.8542511, -110.9937019 Show Map Loading map... "minzoom":false,"mappingservice":"goo...

  1. Camp Verde, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Verde, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.5636358, -111.8543178 Show Map Loading map... "minzoom":false,"mappingservic...

  2. Rio Verde, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Verde, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.7225429, -111.6756942 Show Map Loading map... "minzoom":false,"mappingservic...

  3. Tanque Verde, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Tanque Verde, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.2517422, -110.7373056 Show Map Loading map... "minzoom":false,"mappin...

  4. Cottonwood-Verde Village, Arizona: Energy Resources | Open Energy...

    Open Energy Info (EERE)

    Cottonwood-Verde Village, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.6949847, -111.9820582 Show Map Loading map......

  5. Ajo Improvement Co (Arizona) EIA Revenue and Sales - April 2008...

    Open Energy Info (EERE)

    Ajo Improvement Co (Arizona) EIA Revenue and Sales - April 2008 Jump to: navigation, search EIA Monthly Electric Utility Sales and Revenue Data for Ajo Improvement Co for April...

  6. Ajo Improvement Co (Arizona) EIA Revenue and Sales - October...

    Open Energy Info (EERE)

    Ajo Improvement Co (Arizona) EIA Revenue and Sales - October 2008 Jump to: navigation, search EIA Monthly Electric Utility Sales and Revenue Data for Ajo Improvement Co for October...

  7. Arizona Online Environmental Review Tool | Open Energy Information

    Open Energy Info (EERE)

    Online Environmental Review ToolInfo GraphicMapChart Abstract The Arizona Game and Fish Department's Heritage Data Management System (HDMS) and Project Evaluation Program...

  8. New Kingman-Butler, Arizona: Energy Resources | Open Energy Informatio...

    Open Energy Info (EERE)

    Kingman-Butler, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.2593696, -114.0190671 Show Map Loading map... "minzoom":false,"mapp...

  9. Dewey-Humboldt, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Dewey-Humboldt, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.53, -112.2422222 Show Map Loading map... "minzoom":false,"mappingse...

  10. Phoenix Convention Center * Phoenix, Arizona Playing the Entire...

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

    Phoenix, Arizona Playing the Entire Value Chain for Energy Storage Session 6: Innovation ... Critical infrastructure project - Davis-Monthan AFB, AZ AxionPower - one MW battery ...

  11. James Knox with the Arizona Department of Public Service performs...

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

    Arizona, where more than 200 participants attended a three-hour panel discussion titled "Lessons Learned and Return to Operations Following 2014 Operational Incidents." The panel...

  12. Desert Hills, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Desert Hills, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.5538996, -114.3724569 Show Map Loading map... "minzoom":false,"mappin...

  13. St. Johns, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Johns, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.5058698, -109.3609327 Show Map Loading map... "minzoom":false,"mappingservic...

  14. Greenlee County, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Greenlee County, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.2405598, -109.2831531 Show Map Loading map... "minzoom":false,"map...

  15. South Tucson, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Tucson, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.199521, -110.968425 Show Map Loading map... "minzoom":false,"mappingservice...

  16. Winslow West, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    West, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.0322421, -110.7529145 Show Map Loading map... "minzoom":false,"mappingservice...

  17. Chino Valley, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Valley, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.7575227, -112.4537809 Show Map Loading map... "minzoom":false,"mappingservi...

  18. Arizona Natural Gas Vented and Flared (Million Cubic Feet)

    Gasoline and Diesel Fuel Update (EIA)

    Date: 12312015 Next Release Date: 01292016 Referring Pages: Natural Gas Vented and Flared Arizona Natural Gas Gross Withdrawals and Production Natural Gas Vented and Flared...

  19. Apache Junction, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Junction, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.4150485, -111.5495777 Show Map Loading map... "minzoom":false,"mappingser...

  20. Queen Creek, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Creek, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.2486638, -111.6342993 Show Map Loading map... "minzoom":false,"mappingservic...

  1. McNary, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    McNary, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.0736564, -109.8570472 Show Map Loading map... "minzoom":false,"mappingservi...

  2. Bitter Springs, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Bitter Springs, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 36.6285991, -111.6543255 Show Map Loading map... "minzoom":false,"mapp...

  3. Bullhead City, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Bullhead City, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 35.1477774, -114.5682983 Show Map Loading map... "minzoom":false,"mappi...

  4. Mohave Valley, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Valley, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.9330585, -114.5888533 Show Map Loading map... "minzoom":false,"mappingservi...

  5. Paradise Valley, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Valley, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.5311541, -111.9426452 Show Map Loading map... "minzoom":false,"mappingservi...

  6. Drexel Heights, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Drexel Heights, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.1411888, -111.028427 Show Map Loading map... "minzoom":false,"mappi...

  7. Colorado City, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    City, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 36.9902621, -112.9757702 Show Map Loading map... "minzoom":false,"mappingservice...

  8. Huachuca City, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Huachuca City, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 31.6278703, -110.3339678 Show Map Loading map... "minzoom":false,"mappi...

  9. Cordes Lakes, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Lakes, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 34.3078074, -112.1034912 Show Map Loading map... "minzoom":false,"mappingservic...

  10. Gila Bend, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Gila Bend, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 32.9478236, -112.7168305 Show Map Loading map... "minzoom":false,"mappingse...

  11. Arizona's 5th congressional district: Energy Resources | Open...

    Open Energy Info (EERE)

    Registered Energy Companies in Arizona's 5th congressional district AFV Solutions Inc AZ Biodiesel Advanced Energy Systems Inc AESI also Advanced Energy Inc AeroElektra...

  12. Arizona's 6th congressional district: Energy Resources | Open...

    Open Energy Info (EERE)

    ETA Engineering Renegy Holdings Inc The Arizona Center for Algae Technology and Innovation WindPower Innovations Inc Retrieved from "http:en.openei.orgw...

  13. Determining inert content in coal dust/rock dust mixture

    DOE Patents [OSTI]

    Sapko, Michael J.; Ward, Jr., Jack A.

    1989-01-01

    A method and apparatus for determining the inert content of a coal dust and rock dust mixture uses a transparent window pressed against the mixture. An infrared light beam is directed through the window such that a portion of the infrared light beam is reflected from the mixture. The concentration of the reflected light is detected and a signal indicative of the reflected light is generated. A normalized value for the generated signal is determined according to the relationship .phi.=(log i.sub.c `log i.sub.co) / (log i.sub.c100 -log i.sub.co) where i.sub.co =measured signal at 0% rock dust i.sub.c100 =measured signal at 100% rock dust i.sub.c =measured signal of the mixture. This normalized value is then correlated to a predetermined relationship of .phi. to rock dust percentage to determine the rock dust content of the mixture. The rock dust content is displayed where the percentage is between 30 and 100%, and an indication of out-of-range is displayed where the rock dust percent is less than 30%. Preferably, the rock dust percentage (RD%) is calculated from the predetermined relationship RD%=100+30 log .phi.. where the dust mixture initially includes moisture, the dust mixture is dried before measuring by use of 8 to 12 mesh molecular-sieves which are shaken with the dust mixture and subsequently screened from the dust mixture.

  14. Analysis of MSE Cores Tuba City, Arizona, Site | Department of Energy

    Energy Savers [EERE]

    MSE Cores Tuba City, Arizona, Site Analysis of MSE Cores Tuba City, Arizona, Site Analysis of MSE Cores Tuba City, Arizona, Site PDF icon Analysis of MSE Cores Tuba City, Arizona, Site More Documents & Publications Analysis of Contaminant Rebound in Ground Water in Extraction Wells at the Tuba City, Arizona, Site Diffusion Multilayer Sampling of Ground Water in Five Wells at the Tuba City, Arizona, Site Third (March 2006) Coring and Analysis of Zero-Valent Iron Permeable Reactive Barrier,

  15. Microsoft Word - DOE-ID-13-056 Arizona State EC B3-6.doc

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

    Testing and Multiscale Simulation for Creep Fatigue Damage Analysis of Alloy 617 - Arizona State University SECTION B. Project Description Arizona State University proposes to...

  16. R-5 Highly-Insulating Windows and Low-e Storm Windows Volume Purchase Program

    SciTech Connect (OSTI)

    2009-09-30

    Introduces DOE's Building Technologies fenestration RD&D program, and describes the highly insulated R-5 Windows and Low-e Storm Windows Volume Purchase solicitation.

  17. Electrochromic Windows: Advanced Processing Technology

    SciTech Connect (OSTI)

    SAGE Electrochromics, Inc

    2006-12-13

    This project addresses the development of advanced fabrication capabilities for energy saving electrochromic (EC) windows. SAGE EC windows consist of an inorganic stack of thin films deposited onto a glass substrate. The window tint can be reversibly changed by the application of a low power dc voltage. This property can be used to modulate the amount of light and heat entering buildings (or vehicles) through the glazings. By judicious management of this so-called solar heat gain, it is possible to derive significant energy savings due to reductions in heating lighting, and air conditioning (HVAC). Several areas of SAGEs production were targeted during this project to allow significant improvements to processing throughput, yield and overall quality of the processing, in an effort to reduce the cost and thereby improve the market penetration. First, the overall thin film process was optimized to allow a more robust set of operating points to be used, thereby maximizing the yield due to the thin film deposition themselves. Other significant efforts aimed at improving yield were relating to implementing new procedures and processes for the manufacturing process, to improve the quality of the substrate preparation, and the quality of the IGU fabrication. Furthermore, methods for reworking defective devices were developed, to enable devices which would otherwise be scrapped to be made into useful product. This involved the in-house development of some customized equipment. Finally, the improvements made during this project were validated to ensure that they did not impact the exceptional durability of the SageGlass products. Given conservative estimates for cost and market penetration, energy savings due to EC windows in residences in the US are calculated to be of the order 0.026 quad (0.0261015BTU/yr) by the year 2017.

  18. Windows come to the workstation

    SciTech Connect (OSTI)

    Upton, M.

    1984-04-11

    Those making major buying decisions about software packages face a difficult process. The author looks at specific features, including windows and integrated packages. Everyone aspiring to be anyone in the packaged software business is touting an integrated system. Integrated software means a lot of things to a lot of people, but three hierarchical levels seem to stand out: the data integration level, the command structure level, and the modeless (or seamless) level.

  19. Energy Savings from Window Attachments

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

    from Window Attachments October 2013 Prepared for: Building Technologies Office Office of Energy Efficiency and Renewable Energy U.S. Department of Energy Prepared by: Lawrence Berkeley National Laboratory October 2013 Prepared for: Building Technologies Office Office of Energy Efficiency and Renewable Energy U.S. Department of Energy Prepared By: Lawrence Berkeley National Laboratory One Cyclotron Road, MS 90R3111 Berkeley, CA 94720 Authors: D. Charlie Curcija Mehry Yazdanian Christian Kohler

  20. Arizona Renewable Electric Power Industry Statistics

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

    Arizona Primary Renewable Energy Capacity Source Hydro Conventional Primary Renewable Energy Generation Source Hydro Conventional Capacity (megawatts) Value Percent of State Total Total Net Summer Electricity Capacity 26,392 100.0 Total Net Summer Renewable Capacity 2,901 11.0 Geothermal - - Hydro Conventional 2,720 10.3 Solar 20 0.1 Wind 128 0.5 Wood/Wood Waste 29 0.1 MSW/Landfill Gas 4 * Other Biomass - - Generation (thousand megawatthours) Total Electricity Net Generation 111,751 100.0 Total

  1. Arizona Renewable Electric Power Industry Statistics

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

    Arizona" "Primary Renewable Energy Capacity Source","Hydro Conventional" "Primary Renewable Energy Generation Source","Hydro Conventional" "Capacity (megawatts)","Value","Percent of State Total" "Total Net Summer Electricity Capacity",26392,100 "Total Net Summer Renewable Capacity",2901,11 " Geothermal","-","-" " Hydro Conventional",2720,10.3 "

  2. Storage opportunities in Arizona bedded evaporites

    SciTech Connect (OSTI)

    Neal, J.T.; Rauzi, S.L.

    1996-10-01

    Arizona is endowed with incredibly diverse natural beauty, and has also been blessed with at least seven discrete deposits of bedded salt. These deposits are dispersed around the state and cover some 2, 500 square miles; they currently contain 14 LPG storage caverns, with preliminary plans for more in the future. The areal extent and thickness of the deposits creates the opportunity for greatly expanded storage of LPG, natural gas, and compressed air energy storage (CAES). The location of salt deposits near Tucson and Phoenix may make CAES an attractive prospect in the future. The diversity of both locations and evaporate characteristics allows for much tailoring of individual operations to meet specific requirements.

  3. Tuba City, Arizona, Disposal Site Community Information

    Office of Legacy Management (LM)

    C O M M U N I T Y I N F O R M A T I O N Tuba City, Arizona, Disposal Site Tuba City Site Background 1954-1955 Tuba City mill is built. 1956-1966 Rare Metals Corporation and El Paso Natural Gas Company operate the uranium- and vanadium-ore processing mill. Chemicals from tailings piles and ponds leak into the soil and groundwater during milling operations. 1988 U.S. Department of Energy (DOE) cleans up materials from former milling operations. 1990 Mill tailings are placed in a disposal cell. A

  4. Vacuum Insulation for Windows | Department of Energy

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

    The target is to achieve an R-20 film that can be applied to existing windows. With the life expectancy of installed windows being greater than 30 years, decades and tens of ...

  5. RUGGED CERAMIC WINDOW FOR RF APPLICATIONS

    SciTech Connect (OSTI)

    MIKE NEUBAUER

    2012-11-01

    High-current RF cavities that are needed for many accelerator applications are often limited by the power transmission capability of the pressure barriers (windows) that separate the cavity from the power source. Most efforts to improve RF window design have focused on alumina ceramic, the most popular historical choice, and have not taken advantage of new materials. Alternative window materials have been investigated using a novel Merit Factor comparison and likely candidates have been tested for the material properties which will enable construction in the self-matched window configuration. Window assemblies have also been modeled and fabricated using compressed window techniques which have proven to increase the power handling capability of waveguide windows. Candidate materials have been chosen to be used in fabricating a window for high power testing at Thomas Jefferson National Accelerator Facility.

  6. Rolling, Rolling, Rolling: Roller Window Shades

    Broader source: Energy.gov [DOE]

    There's a lot of talk these days about installing new energy-efficient windows. Thanks to a Federal tax credit of up to $1,500, window advertisements, both print and radio and TV broadcasting, are aplenty.

  7. Making Smart Windows Smarter | Department of Energy

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

    Smart Windows Smarter Making Smart Windows Smarter April 5, 2011 - 2:00pm Addthis "Smart Windows" seen at light and dark settings. | Photo Courtesy of SAGE Electrochromics, Inc., by Susan Fleck Photography "Smart Windows" seen at light and dark settings. | Photo Courtesy of SAGE Electrochromics, Inc., by Susan Fleck Photography Roland Risser Roland Risser Deputy Assistant Secretary for Renewable Power (Acting) What does this project do? Pleotint, LLC has developed a

  8. Windows and Building Envelope | Department of Energy

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

    Windows and Building Envelope Windows and Building Envelope About the Portfolio Next-generation windows and building envelope technologies have substantial technical potential to reduce energy consumption in buildings. However, to make significant progress toward the program goal, any next-generation technologies must be developed with a specific emphasis on achieving a market-acceptable installed cost to facilitate mass-market adoption. Activities in windows and building envelope will focus on

  9. Window, Door, and Skylight Products and Services | Department...

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

    Doors, and Skylights ENERGY STAR Learn how to save energy by sealing your home and choosing ENERGY STAR windows, doors, and skylights. Window Selection Tool Efficient Windows...

  10. High-Efficiency Window Air Conditioners - Building America Top...

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

    High-Efficiency Window Air Conditioners - Building America Top Innovation High-Efficiency Window Air Conditioners - Building America Top Innovation This photo shows a window air ...

  11. Research and Development Roadmap: Windows and Building Envelope...

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

    and Development Roadmap: Windows and Building Envelope Research and Development Roadmap: Windows and Building Envelope Cover of windows and envelope report, depicting a house, ...

  12. Low-Cost Solutions for Dynamic Window Material | Department of...

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

    Solutions for Dynamic Window Material Low-Cost Solutions for Dynamic Window Material ... More Documents & Publications Atmospheric Pressure Deposition for Electrochromic Windows ...

  13. Highly Insulating Residential Windows Using Smart Automated Shading...

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

    Highly Insulating Residential Windows Using Smart Automated Shading Highly Insulating Residential Windows Using Smart Automated Shading Addthis 1 of 3 Residential Smart Window with ...

  14. Energy Performance Ratings for Windows, Doors, and Skylights...

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

    Energy Performance Ratings for Windows, Doors, and Skylights Energy Performance Ratings for Windows, Doors, and Skylights Before you shop for energy-efficient windows, doors, and ...

  15. Purged window apparatus utilizing heated purge gas

    DOE Patents [OSTI]

    Ballard, Evan O.

    1984-01-01

    A purged window apparatus utilizing tangentially injected heated purge gases in the vicinity of electromagnetic radiation transmitting windows, and a tapered external mounting tube to accelerate these gases to provide a vortex flow on the window surface and a turbulent flow throughout the mounting tube. Use of this apparatus prevents backstreaming of gases under investigation which are flowing past the mouth of the mounting tube which would otherwise deposit on the windows. Lengthy spectroscopic investigations and analyses can thereby be performed without the necessity of interrupting the procedures in order to clean or replace contaminated windows.

  16. Rigid thin windows for vacuum applications

    DOE Patents [OSTI]

    Meyer, Glenn Allyn; Ciarlo, Dino R.; Myers, Booth Richard; Chen, Hao-Lin; Wakalopulos, George

    1999-01-01

    A thin window that stands off atmospheric pressure is fabricated using photolithographic and wet chemical etching techniques and comprises at least two layers: an etch stop layer and a protective barrier layer. The window structure also comprises a series of support ribs running the width of the window. The windows are typically made of boron-doped silicon and silicon nitride and are useful in instruments such as electron beam guns and x-ray detectors. In an electron beam gun, the window does not impede the electrons and has demonstrated outstanding gun performance and survivability during the gun tube manufacturing process.

  17. PP-107-1 Arizona Public Service Company | Department of Energy

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

    -1 Arizona Public Service Company PP-107-1 Arizona Public Service Company Presidential permit authorizing Arizona Public Service Company to construct, operate, and maintain electric transmission facilities at the U.S-Mexico border. PDF icon PP-107-1 Arizona Public Service Company More Documents & Publications PP-107

  18. Plant-Wide Energy Efficiency Assessment at the Arizona Portland Cement Plant in Rillito, Arizona

    SciTech Connect (OSTI)

    Stephen J. Coppinger, P.E.; Bruce Colburn, Ph.D., P.E., CEM

    2007-05-17

    A Department of Energy Plant-wide Assessment was undertaken by Arizona Portland Cement (APC) beginning in May 2005. The assessment was performed at APC’s cement production facility in Rillito, Arizona. The assessment included a compressed air evaluation along with a detailed process audit of plant operations and equipment. The purpose of this Energy Survey was to identify a series of energy cost savings opportunities at the Plant, and provide preliminary cost and savings estimates for the work. The assessment was successful in identifying projects that could provide annual savings of over $2.7 million at an estimated capital cost of $4.3 million. If implemented, these projects could amount to a savings of over 4.9 million kWh/yr and 384,420 MMBtu/year.

  19. Heteromorphism and crystallization paths of katungites, Navajo volcanic field, Arizona, USA

    SciTech Connect (OSTI)

    Laughlin, A.W.; Charles, R.W.; Aldrich, M.J. Jr.

    1986-01-01

    A swarm of thin, isochemical but heteromorphic dikes crops out in the valley of Hasbidito Creek in NE Arizona. The swarm is part of the dominantly potassic, mid-Tertiary Navajo volcanic field of the Colorado Plateau. Whole-rock chemical analyses of five samples from four of the dikes indicate that they are chemically identical to the katungites of Uganda. These dikes show the characteristic seriate-porphyritic texture of lamprophyres. Samples of an olivine-melilitite dike from the same swarm lack this texture and the chemical analysis, while similar to those of the other dikes, shows effects from the incorporation of xenocrystic olivine. Over 20 mineral phases have been identified in the Arizona samples and as many as 18 phases may occur in a single sample. The major phases are phlogopite, olivine, perovskite, opaque oxides, +- melilite and +- clinopyroxene. Based upon the modal mineralogies and textures of ten dike samples, we recognize five general non-equilibrium assemblages. Comparison of these assemblages with recent experimental results shows that they represent various combinations of complete and incomplete reactions. Reaction relations were determined by entering melt and phase compositions into the computer program GENMIX to obtain balanced reactions. By combining petrographic observations with mineral chemical data, balanced reactions from GENMIX, and the recently determined phase diagrams we are able to trace crystallization paths for the katungite magma.

  20. Hybrid window layer for photovoltaic cells

    DOE Patents [OSTI]

    Deng, Xunming

    2010-02-23

    A novel photovoltaic solar cell and method of making the same are disclosed. The solar cell includes: at least one absorber layer which could either be a lightly doped layer or an undoped layer, and at least a doped window-layers which comprise at least two sub-window-layers. The first sub-window-layer, which is next to the absorber-layer, is deposited to form desirable junction with the absorber-layer. The second sub-window-layer, which is next to the first sub-window-layer, but not in direct contact with the absorber-layer, is deposited in order to have transmission higher than the first-sub-window-layer.

  1. Hybrid window layer for photovoltaic cells

    DOE Patents [OSTI]

    Deng, Xunming; Liao, Xianbo; Du, Wenhui

    2011-10-04

    A novel photovoltaic solar cell and method of making the same are disclosed. The solar cell includes: at least one absorber layer which could either be a lightly doped layer or an undoped layer, and at least a doped window-layers which comprise at least two sub-window-layers. The first sub-window-layer, which is next to the absorber-layer, is deposited to form desirable junction with the absorber-layer. The second sub-window-layer, which is next to the first sub-window-layer, but not in direct contact with the absorber-layer, is deposited in order to have transmission higher than the first-sub-window-layer.

  2. Hybrid window layer for photovoltaic cells

    DOE Patents [OSTI]

    Deng, Xunming; Liao, Xianbo; Du, Wenhui

    2011-02-01

    A novel photovoltaic solar cell and method of making the same are disclosed. The solar cell includes: at least one absorber layer which could either be a lightly doped layer or an undoped layer, and at least a doped window-layers which comprise at least two sub-window-layers. The first sub-window-layer, which is next to the absorber-layer, is deposited to form desirable junction with the absorber-layer. The second sub-window-layer, which is next to the first sub-window-layer, but not in direct contact with the absorber-layer, is deposited in order to have transmission higher than the first-sub-window-layer.

  3. Laser sealed vacuum insulating window

    DOE Patents [OSTI]

    Benson, D.K.; Tracy, C.E.

    1985-08-19

    A laser sealed evacuated window panel is comprised of two glass panes held spaced apart in relation to each other by a plurality of spherical glass beads and glass welded around the edges to provide an evacuated space between the glass panes that is completely glass sealed from the exterior. The glass welded edge seal is obtained by welding the edges of the glass panes together with a laser beam while the glass panes and bead spacers are positioned in a vacuum furnace and heated to the annealing point of the glass to avoid stress fracture in the area of the glass weld. The laser welding in the furnace can be directed around the perimeter of the galss panel by a combination of rotating the glass panel and linearly translating or aiming the laser with a relay mirror.

  4. Laser sealed vacuum insulation window

    DOE Patents [OSTI]

    Benson, David K.; Tracy, C. Edwin

    1987-01-01

    A laser sealed evacuated window panel is comprised of two glass panes held spaced apart in relation to each other by a plurality of spherical glass beads and glass welded around the edges to provide an evacuated space between the glass panes that is completely glass sealed from the exterior. The glass welded edge seal is obtained by welding the edges of the glass panes together with a laser beam while the glass panes and bead spacers are positioned in a vacuum furnace and heated to the annealing point of the glass to avoid stress fracture in the area of the glass weld. The laser welding in the furnace can be directed around the perimeter of the glass panel by a combination of rotating the glass panel and linearly translating or aiming the laser with a relay mirror.

  5. Town of Wickenburg, Arizona (Utility Company) | Open Energy Informatio...

    Open Energy Info (EERE)

    Name: Town of Wickenburg Place: Arizona Phone Number: (928) 684-5451 x1520 Website: www.ci.wickenburg.az.us694Ut Outage Hotline: 928-684-5411 References: EIA Form EIA-861 Final...

  6. Garkane Energy Coop, Inc (Arizona) | Open Energy Information

    Open Energy Info (EERE)

    Garkane Energy Coop, Inc Place: Arizona Phone Number: Kanab Office: (888)644-5026 -- Loa Office (800) 747-5403 -- Hatch Office(888)735-4288 -- Hildale Office(435) 874-2810 Website:...

  7. Valencia West, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Hide Map This article is a stub. You can help OpenEI by expanding it. Valencia West is a census-designated place in Pima County, Arizona.1 References US...

  8. Santa Cruz County, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Hide Map This article is a stub. You can help OpenEI by expanding it. Santa Cruz County is a county in Arizona. Its FIPS County Code is 023. It is classified as...

  9. Santa Rosa, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Hide Map This article is a stub. You can help OpenEI by expanding it. Santa Rosa is a census-designated place in Pima County, Arizona.1 References US Census...

  10. DOI Approves Three Renewable Energy Projects in Arizona and Nevada

    Broader source: Energy.gov [DOE]

    The U.S. Department of the Interior (DOI) on June 3 announced the approval of three major renewable energy projects in Arizona and Nevada that are expected to deliver up to 520 megawatts to the electricity grid.

  11. DOI Approves Three Renewable Energy Projects in Arizona and Nevada...

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

    The 100-megawatt Quartzsite Solar Energy Project, located on 1,600 acres of BLM-managed lands in La Paz County, Arizona, will use concentrating solar power (CSP) "power tower" ...

  12. Corona de Tucson, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Hide Map This article is a stub. You can help OpenEI by expanding it. Corona de Tucson is a census-designated place in Pima County, Arizona.1 References US...

  13. ,"Arizona Natural Gas Price Sold to Electric Power Consumers...

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

    ,,"(202) 586-8800",,,"1292016 12:16:41 AM" "Back to Contents","Data 1: Arizona Natural Gas Price Sold to Electric Power Consumers (Dollars per Thousand Cubic Feet)"...

  14. Spring Valley, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Hide Map This article is a stub. You can help OpenEI by expanding it. Spring Valley is a census-designated place in Yavapai County, Arizona.1 References US...

  15. Red Mesa, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Hide Map This article is a stub. You can help OpenEI by expanding it. Red Mesa is a census-designated place in Apache County, Arizona.1 References US...

  16. DOE - Office of Legacy Management -- University of Arizona Southwest...

    Office of Legacy Management (LM)

    of the University of Arizona under FUSRAP; October 13, 1987 AZ.01-4 - DOE Letter; Bauer to Liverman; Past Operations and a Survey by Messrs, Jascewsky, and Smith; February 7, 1978

  17. Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and...

    Open Energy Info (EERE)

    Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and Sales - April 2008 Jump to: navigation, search EIA Monthly Electric Utility Sales and Revenue Data for Ak-Chin Electric...

  18. Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and...

    Open Energy Info (EERE)

    Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and Sales - November 2008 Jump to: navigation, search EIA Monthly Electric Utility Sales and Revenue Data for Ak-Chin...

  19. Ajo Improvement Co (Arizona) EIA Revenue and Sales - June 2008...

    Open Energy Info (EERE)

    Ajo Improvement Co (Arizona) EIA Revenue and Sales - June 2008 Jump to: navigation, search EIA Monthly Electric Utility Sales and Revenue Data for Ajo Improvement Co for June 2008....

  20. Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and...

    Open Energy Info (EERE)

    Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and Sales - May 2008 Jump to: navigation, search EIA Monthly Electric Utility Sales and Revenue Data for Ak-Chin Electric...

  1. Ajo Improvement Co (Arizona) EIA Revenue and Sales - July 2008...

    Open Energy Info (EERE)

    Ajo Improvement Co (Arizona) EIA Revenue and Sales - July 2008 Jump to: navigation, search EIA Monthly Electric Utility Sales and Revenue Data for Ajo Improvement Co for July 2008....

  2. Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and...

    Open Energy Info (EERE)

    Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and Sales - February 2008 Jump to: navigation, search EIA Monthly Electric Utility Sales and Revenue Data for Ak-Chin...

  3. Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and...

    Open Energy Info (EERE)

    Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and Sales - June 2008 Jump to: navigation, search EIA Monthly Electric Utility Sales and Revenue Data for Ak-Chin Electric...

  4. Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and...

    Open Energy Info (EERE)

    Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and Sales - February 2009 Jump to: navigation, search EIA Monthly Electric Utility Sales and Revenue Data for Ak-Chin...

  5. Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and...

    Open Energy Info (EERE)

    Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and Sales - January 2009 Jump to: navigation, search EIA Monthly Electric Utility Sales and Revenue Data for Ak-Chin...

  6. Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and...

    Open Energy Info (EERE)

    Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and Sales - March 2008 Jump to: navigation, search EIA Monthly Electric Utility Sales and Revenue Data for Ak-Chin Electric...

  7. Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and...

    Open Energy Info (EERE)

    Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and Sales - October 2008 Jump to: navigation, search EIA Monthly Electric Utility Sales and Revenue Data for Ak-Chin...

  8. Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and...

    Open Energy Info (EERE)

    Ak-Chin Electric Utility Authority (Arizona) EIA Revenue and Sales - January 2008 Jump to: navigation, search EIA Monthly Electric Utility Sales and Revenue Data for Ak-Chin...

  9. Arizona Right-of-Way Instruction Sheet | Open Energy Information

    Open Energy Info (EERE)

    Right-of-Way Instruction Sheet Jump to: navigation, search OpenEI Reference LibraryAdd to library PermittingRegulatory Guidance - Instructions: Arizona Right-of-Way Instruction...

  10. Arizona Natural Gas Lease and Plant Fuel Consumption (Million...

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

    and Plant Fuel Consumption (Million Cubic Feet) Arizona Natural Gas Lease and Plant Fuel Consumption (Million Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6...

  11. Arizona Natural Gas Lease Fuel Consumption (Million Cubic Feet...

    Annual Energy Outlook [U.S. Energy Information Administration (EIA)]

    Fuel Consumption (Million Cubic Feet) Arizona Natural Gas Lease Fuel Consumption (Million Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9...

  12. Arizona Natural Gas Total Consumption (Million Cubic Feet)

    Annual Energy Outlook [U.S. Energy Information Administration (EIA)]

    Total Consumption (Million Cubic Feet) Arizona Natural Gas Total Consumption (Million Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9...

  13. Arizona Natural Gas Vented and Flared (Million Cubic Feet)

    Gasoline and Diesel Fuel Update (EIA)

    Vented and Flared (Million Cubic Feet) Arizona Natural Gas Vented and Flared (Million Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9...

  14. Arizona Natural Gas Number of Residential Consumers (Number of...

    Annual Energy Outlook [U.S. Energy Information Administration (EIA)]

    Residential Consumers (Number of Elements) Arizona Natural Gas Number of Residential Consumers (Number of Elements) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7...

  15. Arizona Natural Gas Input Supplemental Fuels (Million Cubic Feet...

    Gasoline and Diesel Fuel Update (EIA)

    Input Supplemental Fuels (Million Cubic Feet) Arizona Natural Gas Input Supplemental Fuels (Million Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7...

  16. Arizona Natural Gas Exports (No Intransit Deliveries) (Million...

    Annual Energy Outlook [U.S. Energy Information Administration (EIA)]

    Exports (No Intransit Deliveries) (Million Cubic Feet) Arizona Natural Gas Exports (No Intransit Deliveries) (Million Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5...

  17. Arizona Natural Gas % of Total Residential Deliveries (Percent...

    Annual Energy Outlook [U.S. Energy Information Administration (EIA)]

    % of Total Residential Deliveries (Percent) Arizona Natural Gas % of Total Residential Deliveries (Percent) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8...

  18. Arizona Natural Gas Number of Commercial Consumers (Number of...

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

    Commercial Consumers (Number of Elements) Arizona Natural Gas Number of Commercial Consumers (Number of Elements) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7...

  19. Arizona Price of Natural Gas Sold to Commercial Consumers (Dollars...

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

    Sold to Commercial Consumers (Dollars per Thousand Cubic Feet) Arizona Price of Natural Gas Sold to Commercial Consumers (Dollars per Thousand Cubic Feet) Year Jan Feb Mar Apr May...

  20. ,"Arizona Dry Natural Gas Production (Million Cubic Feet)"

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

    ,,"(202) 586-8800",,,"01042016 7:36:54 AM" "Back to Contents","Data 1: Arizona Dry Natural Gas Production (Million Cubic Feet)" "Sourcekey","NA1160SAZ2"...

  1. EECBG Success Story: Energy Upgrades to Save Small Arizona Town...

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

    of Oro Valley Energy Upgrades to Save Small Arizona Town Big Money Workers demonstrate the nitrogen tank used to inflate tires in St. Peters, MO. | Courtesy of the City of St. ...

  2. Gold Camp, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Hide Map This article is a stub. You can help OpenEI by expanding it. Gold Camp is a census-designated place in Pinal County, Arizona.1 References US Census...

  3. Windows, Doors, & Skylights | Department of Energy

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

    Windows, Doors, & Skylights Windows, Doors, & Skylights Installing storm windows keep your home warm in the winter and cool in the summer while also lowering your energy bills by up to $350 a year. <a href="/node/797126" target="_blank">Start saving today by following a step-by-step guide in our new DIY Savings Project</a>. Installing storm windows keep your home warm in the winter and cool in the summer while also lowering your energy bills by up to $350

  4. Energy-Efficient Windows | Department of Energy

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

    and lighting to this sunny kitchen. | Photo courtesy of Emily Minton-Redfield for Jim Logan Architects. Energy-efficient windows provide space heating and lighting to this...

  5. Transparency: it's not just for windows

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

    Transparency: it's not just for windows Los Alamos National Laboratory's database of environmental monitoring data is now directly viewable by the public. March 20, 2012...

  6. Building Technologies Office Window and Envelope Technologies...

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

    * Collaborate with industry partners to improve ... value of energy efficiency Codes and Standards * Establish ... cost premium compared to standard IGU: Windows: <8ft 2 ...

  7. Advances in window technology: 1973-1993

    SciTech Connect (OSTI)

    Arasteh, D.

    1994-12-31

    Until the 1970s, the thermal performance of windows and other fenestration technologies was rarely of interest to manufacturers, designers, and scientists. Since then, however, a significant research and industry effort has focused on better understanding window thermal and optical behavior, how windows influence building energy patterns, and on the development of advanced products. This chapter explains how fenestration technologies can make a positive impact on building energy flows, what physical phenomena govern window heat and light transfer, what new products have been developed, and what new products are currently the subject of international research efforts. 44 refs., 30 figs., 3 tabs.

  8. Dynamically Responsive Infrared Window Coatings | Department...

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

    Dynamically Responsive Infrared Window Coatings Addthis 1 of 5 An oxygen plasma etcher is ... Kyle Alvine checks on the progress of the plasma etch. Image: Pacific Northwest National ...

  9. Energy-Efficient Windows | Department of Energy

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

    fraction of incoming solar radiation through a window, reflective coatings reduce the transmission of solar radiation, and spectrally selective coatings filter out 40% to 70%...

  10. EIS-0474: Southline Transmission Line Project; Arizona and New Mexico |

    Energy Savers [EERE]

    Department of Energy 474: Southline Transmission Line Project; Arizona and New Mexico EIS-0474: Southline Transmission Line Project; Arizona and New Mexico Summary The Bureau of Land Management and Western Area Power Administration are preparing an EIS as joint lead agencies to evaluate the potential environmental impacts of the proposed Southline Transmission Project and address associated potential land use plan amendments. The project would consist of a new 225-mile transmission line

  11. EIS-0427: Grapevine Canyon Wind Project, Coconino County, Arizona

    Broader source: Energy.gov [DOE]

    This EIS evaluates the environmental impacts of a proposed wind energy generation project in Coconino County, Arizona, on privately owned ranch lands and trust lands administered by the Arizona State Land Department. The proposed project includes a new transmission tie-line that would cross lands administered by Coconino National Forest and interconnect with DOE’s Western Area Power Administration’s existing Glen Canyon-Pinnacle Peak transmission lines.

  12. DOE-University of Arizona Faculty Development Project. Final report

    SciTech Connect (OSTI)

    Fillerup, Joseph M.

    1980-09-08

    The DOE-University of Arizona Faculty Development Project on Energy successfully completed a faculty development program. There were three phases of the program consisting of: a three week energy workshop for teachers, participation and cooperation with Students for Safe Energy in presentation of an Alternative Energy Festival at the University of Arizona, and workshops for teachers conducted at Flowing Wells School District. Each of these is described. Attendees are listed and a director's evaluation of the workshop is given.

  13. Arizona - Natural Gas 2014 Million Cu. Feet Percent of

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

    4 Arizona - Natural Gas 2014 Million Cu. Feet Percent of National Total Million Cu. Feet Percent of National Total Total Net Movements: - Industrial: Dry Production: Vehicle Fuel: Deliveries to Consumers: Residential: Electric Power: Commercial: Total Delivered: Table S3. Summary statistics for natural gas - Arizona, 2010-2014 2010 2011 2012 2013 2014 Number of Producing Gas Wells at End of Year 5 5 5 5 5 Production (million cubic feet) Gross Withdrawals From Gas Wells 183 168 117 72 106 From

  14. Gravity and magnetic anomalies associated with Tertiary volcanism and a Proterozoic crustal boundary, Hopi Buttes volcanic field, Navajo Nation (Arizona)

    SciTech Connect (OSTI)

    Donovan-Ealy, P.F. . Geology Dept.); Hendricks, J.D. )

    1992-01-01

    The Hopi Buttes volcanic field is located in the Navajo Nation of northeastern Arizona, near the southern margin of the Colorado Plateau. Explosive phreatomagmatic eruptions from late Miocene to mid-Pliocene time produced more than 300 maar-diatremes and deposited limburgite tuffs and tuff breccia and monchiquite dikes, necks and flows within a roughly circular 2,500 km[sup 2] area. The volcanic and volcaniclastic rocks make up the middle member of the Bidahochi Formation, whose lower and upper members are lacustrine and fluvial, respectively. The Bidahochi Formation overlies gently dipping Mesozoic sedimentary rocks exposed in the southwestern portion of the volcanic field. Two significant gravity and magnetic anomalies appear within the Hopi Buttes volcanic field that are unlike the signatures of other Tertiary volcanic fields on the Colorado Plateau. A circular 20 mGal negative gravity anomaly is centered over exposed sedimentary rocks in the southwestern portion of the field. The anomaly may be due to the large volume of low density pyroclastic rocks in the volcanic field and/or extensive brecciation of the underlying strata from the violent maar eruptions. The second significant anomaly is the northeast-trending Holbrook lineament, a 5 km-wide gravity and magnetic lineament that crosses the southeastern part of the volcanic field. The lineament reflects substantial gravity and magnetic decreases of 1.67 mGals/km and 100 gammas/km respectively, to the southeast. Preliminary two-dimensional gravity and magnetic modeling suggests the lineament represents a major Proterozoic crustal boundary and may correlate with one of several Proterozoic faults exposed in the transition zone of central Arizona. Gravity modeling shows a 3--5 km step'' in the Moho near the crustal boundary. The decrease in depth of the Moho to the northwest indicates either movement along the fault or magmatic upwelling beneath the volcanic field.

  15. Measure Guideline: Window Repair, Rehabilitation, and Replacement

    SciTech Connect (OSTI)

    Baker, P.

    2012-12-01

    This measure guideline provides information and guidance on rehabilitating, retrofitting, and replacing existing window assemblies in residential construction. The intent is to provide information regarding means and methods to improve the energy and comfort performance of existing wood window assemblies in a way that takes into consideration component durability, in-service operation, and long term performance of the strategies.

  16. High Performance Window Attachments | Department of Energy

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

    High Performance Window Attachments High Performance Window Attachments Emerging Technologies Project for the 2013 Building Technologies Office's Program Peer Review PDF icon emrgtech20_curcija_040413.pdf More Documents & Publications Fenestration Software Tools Advanced Facades, Daylighting, and Complex Fenestration Systems OpenStudio - 2013 Peer Review

  17. Active mines in Arizona - 1993. Directory 40

    SciTech Connect (OSTI)

    Phillips, K.A.; Niemuth, N.J.; Bain, D.R.

    1992-01-01

    A directory of the active mines in Arizona is presented. The directory was compiled in November, 1992 from field visits and information received by the Department's technical staff. For the purpose of this directory, an active mine is defined as a mine in continuous operation, either in production or under full-time development for production. Custom milling operations that are active or available on a full-time basis are also included in the directory. It is acknowledged that there are additional mines not listed that are in an exploration, evaluation, or part-time development phase. There are others where production is on an intermittent basis that are not listed. The report is dependent on the cooperation of government agencies, private industry, and individuals who voluntarily provide information on their projects and activities. The directory is arranged alphabetically by company name. Each listing includes corporate addresses, mine name and location, operation description, and key personnel. The listing for the sand and gravel operations include name, address, and phone number.

  18. DOE - Office of Legacy Management -- Slick Rock

    Office of Legacy Management (LM)

    Slick Rock Slick Rock Sites slick_map Slick Rock Disposal Site Slick Rock Processing Site Last Updated: 12/14

  19. Detached rock evaluation device

    DOE Patents [OSTI]

    Hanson, David R.

    1986-01-01

    A rock detachment evaluation device (10) having an energy transducer unit 1) for sensing vibrations imparted to a subject rock (172) for converting the sensed vibrations into electrical signals, a low band pass filter unit (12) for receiving the electrical signal and transmitting only a low frequency segment thereof, a high band pass filter unit (13) for receiving the electrical signals and for transmitting only a high frequency segment thereof, a comparison unit (14) for receiving the low frequency and high frequency signals and for determining the difference in power between the signals, and a display unit (16) for displaying indicia of the difference, which provides a quantitative measure of rock detachment.

  20. Integrated solid waste management of Scottsdale, Arizona

    SciTech Connect (OSTI)

    1995-11-01

    The subject document reports the results of an in-depth investigation of the fiscal year 1992 cost of the city of Scottsdale, Arizona, integrated municipal solid waste management (IMSWM) system, the energy consumed to operate the system, and the environmental performance requirements for each of the system`s waste-processing and disposal facilities. The document reports actual data from records kept by participants. Every effort was made to minimize the use of assumptions, and no attempt is made to interpret the data reported. Analytical approaches are documented so that interested analysts may per-form manipulation or further analysis of the data. As such, the report is a reference document for municipal solid waste (MSW) management professionals who are interested in the actual costs and energy consumption, for a 1-year period, of an operating IMSWM system. The report is organized into two main parts. The first part is the executive summary and case study portion of the report. The executive summary provides a basic description of the study area and selected economic and energy information. Within the case study are detailed descriptions of each component operating during the study period; the quantities of solid waste collected, processed, and marketed within the study boundaries; the cost of MSW in Scottsdale; an energy usage analysis; a review of federal, state, and local environmental requirement compliance; a reference section; and a glossary of terms. The second part of the report focuses on a more detailed discourse on the above topics. In addition, the methodology used to determine the economic costs and energy consumption of the system components is found in the second portion of this report. The methodology created for this project will be helpful for those professionals who wish to break out the costs of their own integrated systems.

  1. Apache County, Arizona ASHRAE 169-2006 Climate Zone | Open Energy...

    Open Energy Info (EERE)

    Apache County, Arizona ASHRAE 169-2006 Climate Zone Jump to: navigation, search County Climate Zone Place Apache County, Arizona ASHRAE Standard ASHRAE 169-2006 Climate Zone Number...

  2. SWTC v. Arizona Corp. Comn, 142 P3d 1240 (2006) | Open Energy...

    Open Energy Info (EERE)

    SWTC v. Arizona Corp. Comn, 142 P3d 1240 (2006) Jump to: navigation, search OpenEI Reference LibraryAdd to library Legal CaseHearing: SWTC v. Arizona Corp. Comn, 142 P3d 1240...

  3. Purchasing Energy-Efficient Windows | Department of Energy

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

    Purchasing Energy-Efficient Windows Purchasing Energy-Efficient Windows October 13, 2008 - 11:29am Addthis John Lippert Windows connect us with the "great outdoors." They let in ...

  4. Supersymmetric Dualities beyond the Conformal Window

    SciTech Connect (OSTI)

    Spiridonov, V. P.; Vartanov, G. S.

    2010-08-06

    Using the superconformal (SC) indices techniques, we construct Seiberg type dualities for N=1 supersymmetric field theories outside the conformal windows. These theories are physically distinguished by the presence of chiral superfields with small or negative R charges.

  5. NREL Electrochromic Window Research Wins Award

    SciTech Connect (OSTI)

    2011-01-01

    Winners of the CO-LABS Governor's Award for High-Impact Research in Energy Efficiency, Dr. Satyen Deb at the U.S. Department of Energy's National Renewable Energy Laboratory (NREL) discovered that a small electrical charge can change the opacity of tungsten oxide from clear to tinted. He, Dr. Dane Gillaspie, and their fellow scientists at NREL then applied this knowledge to develop and transfer the technologies required to construct an electrochromic window, which can switch between clear and heavily tinted states. Electrochromic windows allow natural light in while adding tint to reduce summer heat and glare, and going clear to allow sunlight through in the winter. Broad adaptation of these windows could reduce US total energy use by four percent and reduce building cooling loads by 20%, much of this during expensive peak hours. Windows based on these discoveries are now being installed worldwide.

  6. Window Replacement, Rehabilitation, & Repair Guides - Building...

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

    Effec guid-window repair.jpg This Top Innovation describes research by Building Science Corporation to determine that whole-house energy savings of up to 10% can be achieved ...

  7. NREL Electrochromic Window Research Wins Award

    ScienceCinema (OSTI)

    None

    2013-05-29

    Winners of the CO-LABS Governor's Award for High-Impact Research in Energy Efficiency, Dr. Satyen Deb at the U.S. Department of Energy's National Renewable Energy Laboratory (NREL) discovered that a small electrical charge can change the opacity of tungsten oxide from clear to tinted. He, Dr. Dane Gillaspie, and their fellow scientists at NREL then applied this knowledge to develop and transfer the technologies required to construct an electrochromic window, which can switch between clear and heavily tinted states. Electrochromic windows allow natural light in while adding tint to reduce summer heat and glare, and going clear to allow sunlight through in the winter. Broad adaptation of these windows could reduce US total energy use by four percent and reduce building cooling loads by 20%, much of this during expensive peak hours. Windows based on these discoveries are now being installed worldwide.

  8. Rock slope stability

    SciTech Connect (OSTI)

    Kliche, C.A.

    1999-07-01

    Whether you're involved in surface mine design, surface mine production, construction, education, or regulation, this is an important new book for your library. It describes the basic rock slope failure modes and methods of analysis--both kinematic and kinetic techniques. Chapters include geotechnical and geomechanical analysis techniques, hydrology, rock slope stabilization techniques, and geotechnical instrumentation and monitoring. Numerous examples, drawings and photos enhance the text.

  9. T-596: 0-Day Windows Network Interception Configuration Vulnerability |

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

    Department of Energy 96: 0-Day Windows Network Interception Configuration Vulnerability T-596: 0-Day Windows Network Interception Configuration Vulnerability April 6, 2011 - 5:48am Addthis PROBLEM: 0-Day exploit of IPv4 and IPv6 mechanics and how it applies to Microsoft Windows Operating systems. PLATFORM: Microsoft Operating Systems (OS) Windows Vista, Windows 7, and Windows 2008 Server ABSTRACT: The links below describe a parasitic IPv6 layered over a native IPv4 network. This attack can

  10. Windows and Building Envelope Facilities | Department of Energy

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

    Windows and Building Envelope Facilities Windows and Building Envelope Facilities Addthis LBNL&#039;s Advanced Windows Testbed 1 of 2 LBNL's Advanced Windows Testbed This outdoor test facility contains three, thermally-isolated chambers that have been instrumented to measure thermal, daylighting, and occupant impacts of advanced window technologies. In this setup, LBNL staff are evaluating a heat recovery/ ventilation unit (left), a switchable electrochromic window (middle), and a

  11. High-Efficiency Window Air Conditioners - Building America Top Innovation |

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

    Department of Energy High-Efficiency Window Air Conditioners - Building America Top Innovation High-Efficiency Window Air Conditioners - Building America Top Innovation This photo shows a window air conditioning unit in place in a window frame. Window air conditioners are inexpensive, portable, and can be installed by home occupants, making them a good solution for spot cooling and for installing air conditioning into homes that lack ductwork. However, window air conditioners have low

  12. Windows and Building Envelope Facilities | Department of Energy

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

    Emerging Technologies » Windows and Building Envelope » Windows and Building Envelope Facilities Windows and Building Envelope Facilities LBNL&#039;s Advanced Windows Testbed 1 of 2 LBNL's Advanced Windows Testbed This outdoor test facility contains three, thermally-isolated chambers that have been instrumented to measure thermal, daylighting, and occupant impacts of advanced window technologies. In this setup, LBNL staff are evaluating a heat recovery/ ventilation unit (left), a

  13. Science on the Hill: Turning windows into solar panels

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

    Turning windows into solar panels Science on the Hill: Turning windows into solar panels Working with quantum dots, researchers achieve a breakthrough in solar-concentrating technology that can turn windows into electric generators. February 7, 2016 solar panel windows The luminescent solar concentrator could turn any window into a daytime power source. Science on the Hill: Turning windows into solar panels Sunlight is abundant, free and for all practical purposes, eternal. Harvesting that light

  14. Transparency: it's not just for windows

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

    Transparency: it's not just for windows Transparency: it's not just for windows Los Alamos National Laboratory's database of environmental monitoring data is now directly viewable by the public. March 20, 2012 Intellus environmental data The same environmental data used by LANL scientists can be viewed by anyone, anytime. Contact Environmental Communications & Public Involvement P.O. Box 1663 MS M996 Los Alamos, NM 87545 (505) 667-0216 Email "The new system contains more than 9 million

  15. Window Daylighting Demo | Department of Energy

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

    Daylighting Demo Window Daylighting Demo Commercial Buildings Integration Project for the 2013 Building Technologies Office's Program Peer Review PDF icon commlbldgs20_selkowitz_040413.pdf More Documents & Publications Advanced Facades, Daylighting, and Complex Fenestration Systems High Performance Window Attachments Figure 1: Measurement of performance of ceiling tiles made of new phase change materials in test bed, in naturally ventilated and forced ventilation modes. Source: LBNL. CBERD:

  16. Independent Confirmatory Survey Report for the University of Arizona Nuclear Reactor Laboratory, Tucson, Arizona

    SciTech Connect (OSTI)

    Nick A. Altic

    2011-11-11

    The University of Arizona (University) research reactor is a TRIGA swimming pool type reactor designed by General Atomics and constructed at the University in 1958. The reactor first went into operation in December of 1958 under U.S. Nuclear Regulatory Commission (NRC) license R-52 until final shut down on May 18, 2010. Initial site characterization activities were conducted in February 2009 during ongoing reactor operations to assess the radiological status of the Nuclear Reactor Laboratory (NRL) excluding the reactor tank, associated components, and operating systems. Additional post-shutdown characterization activities were performed to complete characterization activities as well as verify assumptions made in the Decommissioning Plan (DP) that were based on a separate activation analysis (ESI 2009 and WMG 2009). Final status survey (FSS) activities began shortly after the issuance of the FSS plan in May 2011. The contractor completed measurement and sampling activities during the week of August 29, 2011.

  17. August 2015 Groundwater and Surface Water Sampling at the Tuba City, Arizona, Disposal Site

    Office of Legacy Management (LM)

    and Surface Water Sampling at the Tuba City, Arizona, Disposal Site November 2015 LMS/TUB/S00815 This page intentionally left blank U.S. Department of Energy DVP-August 2015, Tuba City, Arizona, Disposal Site November 2015 RIN 15087262 Page i Contents Sampling Event Summary ...............................................................................................................1 Tuba City, Arizona, Disposal Site, Sample Location Map

  18. New High-Efficiency Window Prototype Result of DOE Partnership...

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

    ... Quicker with New Tool "Smart Windows" seen at light and dark settings. | Photo Courtesy of SAGE Electrochromics, Inc., by Susan Fleck Photography Making Smart Windows Smarter

  19. V-217: Microsoft Windows NAT Driver ICMP Packet Handling Denial...

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

    7: Microsoft Windows NAT Driver ICMP Packet Handling Denial of Service Vulnerability V-217: Microsoft Windows NAT Driver ICMP Packet Handling Denial of Service Vulnerability August...

  20. New Window on Primordial Non-Gaussianity (Journal Article) |...

    Office of Scientific and Technical Information (OSTI)

    New Window on Primordial Non-Gaussianity Citation Details In-Document Search Title: New Window on Primordial Non-Gaussianity Authors: Pajer, Enrico ; Zaldarriaga, Matias ...

  1. Diffraction scattering computed tomography: a window into the...

    Office of Scientific and Technical Information (OSTI)

    tomography: a window into the structures of complex nanomaterials Citation Details In-Document Search Title: Diffraction scattering computed tomography: a window into the ...

  2. Pennsylvania: New Series of Windows Has Potential to Save Energy...

    Office of Environmental Management (EM)

    New Series of Windows Has Potential to Save Energy for Commercial Buildings Pennsylvania: New Series of Windows Has Potential to Save Energy for Commercial Buildings March 6, 2014...

  3. Energy Savings from Window Attachments | Department of Energy

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

    PDF icon energysavingsfromwindowsattachments.pdf More Documents & Publications Fenestration Software Tools Residential Windows and Window Coverings: A Detailed View of the ...

  4. Windows and Building Envelope Overview - 2015 BTO Peer Review...

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

    Windows and Building Envelope Overview - 2015 BTO Peer Review Windows and Building Envelope Overview - 2015 BTO Peer Review Presenter: Bahman Habibzadeh, U.S. Department of Energy ...

  5. Energy-Efficient Window Treatments | Department of Energy

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

    Window Treatments September 25, 2012 - 9:04am Addthis The awnings on this home shade the windows and generate electricity. | Photo courtesy of iStockphoto...

  6. EIS-0417: South Mountain Freeway (Loop 202); Phoenix, Arizona

    Broader source: Energy.gov [DOE]

    Federal Highway Administration and Arizona Department of Transportation, with Western Area Power Administration as a cooperating agency, prepared an EIS that analyzes the potential environmental impacts of the proposed South Mountain Freeway (Loop 202) project in the Greater Metropolitan Phoenix Area.

  7. EA-1989: Cliffrose Solar Energy Interconnection Project, Mohave County, Arizona

    Broader source: Energy.gov [DOE]

    DOE’s Western Area Power Administration (Western) is preparing an EA that will assess the potential environmental impacts of interconnecting the proposed Cliffrose Solar Energy Project in Mohave County, Arizona, to Western’s transmission system at the existing Griffith Substation. Additional information is available at http://www.wapa.gov/dsw/environment/CliffroseSolarEnergyProject.html.

  8. EIS-0441: Mohave County Wind Farm Project, Mohave County, Arizona

    Broader source: Energy.gov [DOE]

    This EIS, prepared by the Bureau of Land Management with DOE’s Western Area Power Administration as a cooperating agency, evaluated the environmental impacts of a proposed wind energy project on public lands in Mohave County, Arizona. Power generated by this project would tie to the electrical power grid through an interconnection to one of Western’s transmission lines.

  9. EIS-0297: Griffith Energy Project, Mohave County, Arizona

    Broader source: Energy.gov [DOE]

    Western Area Power Administration (Western) intends to prepare an environmental impact statement (EIS) regarding the proposal by Griffith Energy (GE), LLC, to construct an electric generating facility on private property and to interconnect this facility with Western’s system in the vicinity of Kingman, Arizona.

  10. Hot Cell Window Shielding Analysis Using MCNP

    SciTech Connect (OSTI)

    Chad L. Pope; Wade W. Scates; J. Todd Taylor

    2009-05-01

    The Idaho National Laboratory Materials and Fuels Complex nuclear facilities are undergoing a documented safety analysis upgrade. In conjunction with the upgrade effort, shielding analysis of the Fuel Conditioning Facility (FCF) hot cell windows has been conducted. This paper describes the shielding analysis methodology. Each 4-ft thick window uses nine glass slabs, an oil film between the slabs, numerous steel plates, and packed lead wool. Operations in the hot cell center on used nuclear fuel (UNF) processing. Prior to the shielding analysis, shield testing with a gamma ray source was conducted, and the windows were found to be very effective gamma shields. Despite these results, because the glass contained significant amounts of lead and little neutron absorbing material, some doubt lingered regarding the effectiveness of the windows in neutron shielding situations, such as during an accidental criticality. MCNP was selected as an analysis tool because it could model complicated geometry, and it could track gamma and neutron radiation. A bounding criticality source was developed based on the composition of the UNF. Additionally, a bounding gamma source was developed based on the fission product content of the UNF. Modeling the windows required field inspections and detailed examination of drawings and material specifications. Consistent with the shield testing results, MCNP results demonstrated that the shielding was very effective with respect to gamma radiation, and in addition, the analysis demonstrated that the shielding was also very effective during an accidental criticality.

  11. Microelectronic device package with an integral window

    DOE Patents [OSTI]

    Peterson, Kenneth A.; Watson, Robert D.

    2002-01-01

    An apparatus for packaging of microelectronic devices, including an integral window. The microelectronic device can be a semiconductor chip, a CCD chip, a CMOS chip, a VCSEL chip, a laser diode, a MEMS device, or a IMEMS device. The package can include a cofired ceramic frame or body. The package can have an internal stepped structure made of one or more plates, with apertures, which are patterned with metallized conductive circuit traces. The microelectronic device can be flip-chip bonded on the plate to these traces, and oriented so that the light-sensitive side is optically accessible through the window. A cover lid can be attached to the opposite side of the package. The result is a compact, low-profile package, having an integral window that can be hermetically-sealed. The package body can be formed by low-temperature cofired ceramic (LTCC) or high-temperature cofired ceramic (HTCC) multilayer processes with the window being simultaneously joined (e.g. cofired) to the package body during LTCC or HTCC processing. Multiple chips can be located within a single package. The cover lid can include a window. The apparatus is particularly suited for packaging of MEMS devices, since the number of handling steps is greatly reduced, thereby reducing the potential for contamination.

  12. Hunting space rocks

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

    Hunting space rocks Hunting space rocks Nina Lanza is studying the solar system by spending six weeks on an ice sheet in Antarctica. The 36-year-old staff scientist at the Los Alamos National Laboratory in New Mexico is on a treasure hunt of sorts. January 15, 2016 Nina Lanza Nina Lanza is part of a team driving across the Trans-Antarctica Mountains on snowmobiles in search of meteorites. (Courtesy of Nina Lanza) "One of the most interesting things from meteorites is every rocky body has a

  13. Highly Insulating Residential Windows Using Smart Automated Shading

    Broader source: Energy.gov [DOE]

    Lead Performer: Lawrence Berkeley National Laboratory - Berkeley, CA Partner: Pella Windows - Pella, IA

  14. Nanolens Window Coatings for Daylighting | Department of Energy

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

    Nanolens Window Coatings for Daylighting Nanolens Window Coatings for Daylighting Emerging Technologies Project for the 2013 Building Technologies Office's Program Peer Review PDF icon emrgtech18_alvine_040413.pdf More Documents & Publications Dynamically Responsive Infrared Window Coatings Advanced Facades, Daylighting, and Complex Fenestration Systems Window Daylighting Demo

  15. Integral window hermetic fiber optic components

    SciTech Connect (OSTI)

    Dalton, R.D.; Kramer, D.P.; Massey, R.T.; Waker, D.A.

    1994-12-31

    In the fabrication of igniters, actuators, detonators, and other pyrotechnic devices to be activated by a laser beam, an integral optical glass window is formed by placing a preform in the structural member of the device and then melting the glass and sealing it in place by heating at a temperature between the ceramming temperature of the glass and the melting point of the metal, followed by rapid furnace cooling to avoid devitrification. No other sealing material is needed to achieve hermeticity. A preferred embodiment of this type of device is fabricated by allowing the molten glass to flow further and form a plano-convex lens integral with and at the bottom of the window. The lens functions to decrease the beam divergence caused by refraction of the laser light passing through the window when the device is fired by means of a laser beam.

  16. Apparatus for insulating windows and the like

    DOE Patents [OSTI]

    Mitchell, Robert A.

    1984-01-01

    Apparatus for insulating window openings through walls and the like includes a thermal shutter, a rail for mounting the shutter adjacent to the window opening and a coupling for connecting the shutter to the rail. The thermal shutter includes an insulated panel adhered to frame members which surround the periphery of the panel. The frame members include a hard portion for providing the frame and a soft portion for providing a seal with that portion of the wall adjacent to the periphery of the opening. The coupling means is preferably integral with the attachment rail. According to a preferred embodiment, the coupling means includes a continuous hinge of reduced thickness. The thermal shutter can be permanently attached, hinged, bi-folded, or sliding with respect to the window and wall. A distribution method is to market the apparatus in "kit" form.

  17. Apparatus for insulating windows and the like

    DOE Patents [OSTI]

    Mitchell, R.A.

    1984-06-19

    Apparatus for insulating window openings through walls and the like includes a thermal shutter, a rail for mounting the shutter adjacent to the window opening and a coupling for connecting the shutter to the rail. The thermal shutter includes an insulated panel adhered to frame members which surround the periphery of the panel. The frame members include a hard portion for providing the frame and a soft portion for providing a seal with that portion of the wall adjacent to the periphery of the opening. The coupling means is preferably integral with the attachment rail. According to a preferred embodiment, the coupling means includes a continuous hinge of reduced thickness. The thermal shutter can be permanently attached, hinged, bi-folded, or sliding with respect to the window and wall. A distribution method is to market the apparatus in kit'' form. 11 figs.

  18. Solar optical materials for innovative window design

    SciTech Connect (OSTI)

    Lampert, C.M.

    1982-08-01

    New and innovative optical materials and coatings can greatly improve the efficiency of window energy systems. These potential materials and coatings increase energy efficiency by reducing radiative losses in the infrared, or reducing visible reflection losses or controlling overheating due to solar gain. Current progress in heat mirror coatings for glass and polymeric substrates is presented. Highly doped semiconducting oxides and metal/dielectric interference coatings are reviewed. Physical and optical properties are outlined for antireflection films and transparent aerogel insulation media. The potential for optical switching films as window elements includes discussions of electrochromic, photochromic and other physical switching processes.

  19. Window for radiation detectors and the like

    DOE Patents [OSTI]

    Sparks, C.J. Jr.; Ogle, J.C.

    1975-10-28

    An improved x- and gamma-radiation and particle transparent window for the environment-controlling enclosure of various types of radiation and particle detectors is provided by a special graphite foil of a thickness of from about 0.1 to 1 mil. The graphite must have very parallel hexagonal planes with a mosaic spread no greater than 5$sup 0$ to have the necessary strength in thin sections to support one atmosphere or more of pressure. Such graphite is formed by hot- pressing and annealing pyrolytically deposited graphite and thereafter stripping off layers of sufficient thickness to form the window.

  20. Windows and Building Envelope Overview - 2015 BTO Peer Review | Department

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

    of Energy Windows and Building Envelope Overview - 2015 BTO Peer Review Windows and Building Envelope Overview - 2015 BTO Peer Review Presenter: Bahman Habibzadeh, U.S. Department of Energy View the Presentation PDF icon Windows and Building Envelope Overview - 2015 BTO Peer Review More Documents & Publications Window and Envelope Technologies Overview - 2014 BTO Peer Review Windows and Envelope Subprogram Overview - 2016 BTO Peer Review 2014 Building Technologies Office Program Peer

  1. Atmospheric Pressure Deposition for Electrochromic Windows | Department of

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

    Energy Atmospheric Pressure Deposition for Electrochromic Windows Atmospheric Pressure Deposition for Electrochromic Windows Emerging Technologies Project for the 2013 Building Technologies Office's Program Peer Review PDF icon emrgtech22_tenent_040413.pdf More Documents & Publications NREL senior scientist, Robert Tenent, Ph.D., with equipment for low cost processing (deposition) of window coatings materials. Dynamic Windows Low-Cost Solutions for Dynamic Window Material CX-003799:

  2. Interior and Exterior Low-E Storm Window Installation

    SciTech Connect (OSTI)

    Witters, Sarah

    2014-09-03

    Until recently, energy-efficient window retrofit options have largely been limited to repair or replacement; leaving the homeowner to decide between affordability and deeper energy savings. A new and improved low-e storm window boasts a combination of curb appeal and energy efficiency, all for a fraction of the cost of window replacement. A recent whole-home experiment performed by PNNL suggests that attaching low-e storm windows can result in as much energy savings replacing the windows.

  3. Research and Development Roadmap: Windows and Building Envelope |

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

    Department of Energy and Development Roadmap: Windows and Building Envelope Research and Development Roadmap: Windows and Building Envelope Cover of windows and envelope report, depicting a house, storefront, and multiple office windows. This Building Technologies Office (BTO) Research and Development (R&D) Roadmap identifies priority windows and building envelope R&D areas of interest. Cost and performance targets are identified for each key R&D area. The roadmap describes the

  4. Engineering rock mass classifications

    SciTech Connect (OSTI)

    Bieniawski, Z.T.

    1989-01-01

    This book is a reference on rock mass classification, consolidating into one handy source information widely scattered through the literature. Includes new, unpublished material and case histories. Presents the fundamental concepts of classification schemes and critically appraises their practical application in industrial projects such as tunneling and mining.

  5. Determining window solar heat gain coefficient

    SciTech Connect (OSTI)

    Harrison, S.J.; Wonderen, S.J. van . Solar Calorimetry Lab.)

    1994-08-01

    The solar heat gain characteristics of fenestration systems impact daytime building energy performance, occupant comfort and utility load demands. A measure of the fraction of available solar energy entering a building interior per unit window area is defined as the solar heat gain coefficient (SHGC). Together with a window's thermal transmittance (U-value), the SHGC is used to compare fenestration products, and it allows for the calculation of energy rating number and annual energy performance. The need to measure and compared advances in window technology has led to the development of experimental and analytical methods for the determination of SHGC performance. Several test facilities currently or previously capable of performing SHGC measurements exist worldwide. Results experimentally determined using these facilities have provided design data for handbook tables, and have been instrumental in the development and validation of predictive analytical methods and computer simulation tools. However, these facilities have operated without a standard test procedure for SHGC performance. Consequently, recent efforts have been focused on developing consensus test procedures for the evaluation of window energy performance.

  6. Predicting Electrochemical Windows of Nitrogen Containing Aromatic

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

    Molecules - Joint Center for Energy Storage Research October 20, 2014, Research Highlights Predicting Electrochemical Windows of Nitrogen Containing Aromatic Molecules Various nitrogen containing aromatic base molecules and a descriptive relationship derived to predict their reduction potentials is shown. Scientific Achievement A descriptive relationship is derived for computing reduction potentials of quinoxaline derivatives from the orbital energies of the neutral molecules without

  7. Category:Rock Density | Open Energy Information

    Open Energy Info (EERE)

    Rock Density Jump to: navigation, search GEOTHERMAL ENERGYGeothermal Home Geothermalpower.jpg Looking for the Rock Density page? For detailed information on Rock Density as...

  8. Microwave assisted hard rock cutting

    DOE Patents [OSTI]

    Lindroth, David P.; Morrell, Roger J.; Blair, James R.

    1991-01-01

    An apparatus for the sequential fracturing and cutting of subsurface volume of hard rock (102) in the strata (101) of a mining environment (100) by subjecting the volume of rock to a beam (25) of microwave energy to fracture the subsurface volume of rock by differential expansion; and , then bringing the cutting edge (52) of a piece of conventional mining machinery (50) into contact with the fractured rock (102).

  9. The effects of indoor pollution on Arizona children

    SciTech Connect (OSTI)

    Dodge, R.

    1982-05-01

    The respiratory health of a large group of Arizona school children who have been exposed to indoor pollutants-tobacco smoke and home cooking fumes-is reported. A significant relationship was found between parental smoking and symptoms of cough, wheeze, and sputum production. Also, children in homes where gas cooking fuel was used had higher rates of cough than children in homes where electricity was used. No differences in pulmonary function or yearly lung growth rates occurred among subjects grouped by exposure to tobacco smoke or cooking fuel. Thus, parental smoking and home cooking fuel affected cross-sectional respiratory symptom rates in a large group of Arizona school children. Study of pulmonary function, however, revealed no lung function or lung growth effects during 4 yr of study.

  10. EA-2023: Crossman Peak Communications Facility; Mohave County, Arizona

    Broader source: Energy.gov [DOE]

    Western Area Power Administration is preparing an EA that assesses the potential environmental impacts of a proposed new microwave communication facility to be located adjacent to a privately-owned one near Crossman Peak, east of Lake Havasu City in Mohave County, Arizona. The proposal would consist of a microwave communication facility, an access road, and an approximately 8-mile electrical service distribution line across private land and land administered by the Bureau of Land Management.

  11. Session: Hot Dry Rock

    SciTech Connect (OSTI)

    Tennyson, George P. Jr.; Duchane, David V.; Ponden, Raymond F.; Brown, Donald W.

    1992-01-01

    This session at the Geothermal Energy Program Review X: Geothermal Energy and the Utility Market consisted of four presentations: ''Hot Dry Rock - Summary'' by George P. Tennyson, Jr.; ''HDR Opportunities and Challenges Beyond the Long Term Flow Test'' by David V. Duchane; ''Start-Up Operations at the Fenton Hill HDR Pilot Plant'' by Raymond F. Ponden; and ''Update on the Long-Term Flow Testing Program'' by Donald W. Brown.

  12. Residential Windows and Window Coverings: A Detailed View of the Installed Base and User Behavior

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

    Residential Windows and Window Coverings: A Detailed View of the Installed Base and User Behavior SEPTEMBER 2013 Prepared for: Building Technologies Office Office of Energy Efficiency and Renewable Energy U.S. Department of Energy Prepared by: D&R International, Ltd. September 2013 Prepared for: Building Technologies Office Office of Energy Efficiency and Renewable Energy U.S. Department of Energy Prepared By: D&R International, Ltd. 1300 Spring Street, Suite 500 Silver Spring, MD 20910

  13. Could Gila Bend, Arizona, Become the Solar Capital of the World?

    Broader source: Energy.gov [DOE]

    Serving approximately 9,000 homes with clean renewable energy, the Paloma and Cotton Center solar plants highlight the rapidly rising solar corridor in Gila Bend, Arizona.

  14. Top-of-the-World, Arizona: Energy Resources | Open Energy Information

    Open Energy Info (EERE)

    Top-of-the-World, Arizona: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 33.3494997, -110.9926154 Show Map Loading map......

  15. Energy performance analysis of prototype electrochromic windows

    SciTech Connect (OSTI)

    Sullivan, R.; Rubin, M.; Selkowitz, S.

    1996-12-01

    This paper presents the results of a study investigating the energy performance of three newly developed prototype electrochromic devices. The DOE-2.1 E energy simulation program was used to analyze the annual cooling, lighting, and total electric energy use and peak demand as a function of window type and size. The authors simulated a prototypical commercial office building module located in the cooling-dominated locations of Phoenix, AZ and Miami, FL. Heating energy use was also studied in the heating-dominated location of Madison, WI. Daylight illuminance was used to control electrochromic state-switching. Two types of window systems were analyzed; i.e., the outer pane electrochromic glazing was combined with either a conventional low-E or a spectrally selective inner pane. The properties of the electrochromic glazings are based on measured data of new prototypes developed as part of a cooperative DOE-industry program. The results show the largest difference in annual electric energy performance between the different window types occurs in Phoenix and is about 6.5 kWh/m{sup 2} floor area (0.60 kWh/ft{sup 2}) which can represent a cost of about $.52/m{sup 2} ($.05/ft{sup 2}) using electricity costing $.08/kWh. In heating-dominated locations, the electrochromic should be maintained in its bleached state during the heating season to take advantage of beneficial solar heat gain which would reduce the amount of required heating. This also means that the electrochromic window with the largest solar heat gain coefficient is best.

  16. Energy and Power Evaluation Program for Windows

    Energy Science and Technology Software Center (OSTI)

    2000-06-27

    ENPEP for windows has its origins in the DOS version of the software, however, the Windows release is significantly modified and rather different in structure and capabilities from the older DOS version of ENPEP. ENPEP for Windows provides the user with a graphical interface for designing a comprehensive model of the energy system of a country or region. The BALANCE submodel processes a representative network of all energy production, conversion, transport, distribution, and utilization activitiesmore » in a country (or region) as well as the flows of energy and fuels among these activities. The objective of the model is to simulate energy market and determine energy supply and demand balance over a long-term period of up to 75 years. The environmental aspect is also taken into account by calculating the emissions of various pollutants. In addition to the energy costs, the environmental costs are also calculated by the model. These costs can be used to affect the solution found by the market equilibrium algorithm. The main purpose of the software is to provide analytical capability and tools for the various analyses of energy and environmental systems, as well as for development of long-term energy strategy of a country or region.« less

  17. Numerical prediction of window condensation potential

    SciTech Connect (OSTI)

    McGowan, A.G.

    1995-08-01

    Although a substantial amount of effort has been expended to develop numerical methods for determining windows U-factors (EE 1983; Goss and Curcija 1994; Standaert 1985; CSA 1993a; NFRC 1991), there has been little work to data on using numerical methods to predict condensation potential. It is perhaps of direct interest to most ASHRAE members to determine heat loss and solar gains through windows as a precursor to sizing heating and cooling equipment, but condensation has long been recognized as an extremely important issue for consumers (and, consequently, for window manufacturers). Moreover, building scientists recognize the link between condensation and increased energy consumption (due to latent loads), reduced occupant comfort and indoor air quality (from the presence of bacteria and mold), and structural damage (where accumulated condensation is absorbed by the building material, thus reducing their structural stability). The National Fenestration Rating Council (NFRC) is developing a rating method for condensation potential in fenestration products as part of its mandate from the US Department of Energy (DOE). A rating method would benefit from the use of simulation as a supplement to physical condensation resistance testing to reduce the cost and time required for implementation and increase the flexibility of the rating method. This paper outlines one of the necessary components in the application of numerical methods for evaluating condensation in fenestration products. The theoretical approach and its practical application are discussed, as well as some comparisons between numerical prediction and physical test results for a sample of products.

  18. Updating the Doors and Windows | Department of Energy

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

    and Windows Updating the Doors and Windows August 23, 2012 - 2:46pm Addthis Stephanie Price Communicator, National Renewable Energy Laboratory Since I can't afford to replace...

  19. New Window Technology Saves Energy and the View | Department...

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

    New Window Technology Saves Energy and the View New Window Technology Saves Energy and the View November 5, 2013 - 3:55pm Addthis Researchers at the Energy Department's National...

  20. Pennsylvania: Window Technology First of Its Kind for Commercial Buildings

    Broader source: Energy.gov [DOE]

    The Opti Ultra Thermal Window series introduces new high-performing windows to the commercial building industry and unlocks the potential to save energy in more of America's commercial building space.

  1. Energy Performance Ratings for Windows, Doors, and Skylights...

    Energy Savers [EERE]

    The NFRC label can be found on all ENERGY STAR qualified window, door, and skylight ... U-factor is the rate at which a window, door, or skylight conducts non-solar heat flow. ...

  2. EERE Success Story-Pennsylvania: Window Technology First of Its...

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

    Windows play a significant role in a building's energy use; in 2010, 2.55 quads of energy were lost through windows-the equivalent of more than 20 billion gallons of gasoline. In ...

  3. My Energy Audit, Part 2: Windows | Department of Energy

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

    My Energy Audit, Part 2: Windows My Energy Audit, Part 2: Windows July 9, 2012 - 1:48pm Addthis Stephanie Price Communicator, National Renewable Energy Laboratory Last time I wrote ...

  4. EERE Success Story-Energy-Efficient Smart Windows are Lowering...

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

    Energy-Efficient Smart Windows are Lowering Energy Costs EERE Success Story-Energy-Efficient Smart Windows are Lowering Energy Costs September 9, 2015 - 12:11pm Addthis Low-E ...

  5. DOE Awards Native American, Tribally-Owned Small Business Contract...

    Office of Environmental Management (EM)

    Aiken, SC - The U.S. Department of Energy (DOE) today awarded a set- aside contract to the NOVA Corp. of Window Rock, Arizona. NOVA will provide administrative support services and ...

  6. Windows and Envelope Subprogram Overview - 2016 BTO Peer Review |

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

    Department of Energy Windows and Envelope Subprogram Overview - 2016 BTO Peer Review Windows and Envelope Subprogram Overview - 2016 BTO Peer Review Presenter: Karma Sawyer, U.S. Department of Energy This presentation at the 2016 Peer Review provided an overview of the Building Technologies Office's Windows and Envelope Subprogram. Through robust feedback, the BTO Program Peer Review enhances existing efforts and improves future designs. PDF icon 2016 BTO Peer Review Presentation-Windows and

  7. Highly Insulating Residential Windows Using Smart Automated Shading |

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

    Department of Energy Highly Insulating Residential Windows Using Smart Automated Shading Highly Insulating Residential Windows Using Smart Automated Shading Addthis 1 of 3 Residential Smart Window with integrated sensors, control logic and a motorized shade between glass panes. Image: Lawrence Berkeley National Laboratory 2 of 3 Residential Smart Window with integrated sensors, control logic and a motorized shade between glass panes. Image: Lawrence Berkeley National Laboratory 3 of 3

  8. Window, Door, and Skylight Products and Services | Department of Energy

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

    Window, Door, and Skylight Products and Services Window, Door, and Skylight Products and Services Window, Door, and Skylight Products and Services Use the following links to get product information and locate professional services for windows, doors, and skylights. Product Information Awnings in Residential Buildings: The Impact on Energy Use and Peak Demand University of Minnesota Center for Sustainable Building Research Independently Tested and Certified Energy Performance ENERGY STAR®

  9. Measure Guideline. Energy-Efficient Window Performance and Selection

    SciTech Connect (OSTI)

    Carmody, John; Haglund, Kerry

    2012-11-01

    This document provides guidelines for the selection of energy-efficient windows in new and existing residential construction in all U.S. climate zones. It includes information on window products, their attributes and performance. It provides cost/benefit information on window energy savings as well as information on non-energy benefits such as thermal comfort and reduced HVAC demands. The report also provides information on energy impacts of design decisions such as window orientation, total glazing area and shading devices and conditions. Information on resources for proper window installation is included as well.

  10. Rock Density | Open Energy Information

    Open Energy Info (EERE)

    Density Jump to: navigation, search GEOTHERMAL ENERGYGeothermal Home Exploration Technique: Rock Density Details Activities (2) Areas (2) Regions (0) NEPA(0) Exploration Technique...

  11. Rock Sampling | Open Energy Information

    Open Energy Info (EERE)

    resource at depth. These hand samples can be collected using a rock hammer or sledge. Data Access and Acquisition Under a detailed investigation, a systematic sampling procedure...

  12. Developing Low-Conductance Window Frames: Capabilities and Limitations of Current Window Heat Transfer Design Tools

    SciTech Connect (OSTI)

    Gustavsen, Arild; Arasteh, Dariush; Jelle, Bjorn Petter; Curcija, Charlie; Kohler, Christian

    2008-09-11

    While window frames typically represent 20-30% of the overall window area, their impact on the total window heat transfer rates may be much larger. This effect is even greater in low-conductance (highly insulating) windows that incorporate very low-conductance glazing. Developing low-conductance window frames requires accurate simulation tools for product research and development. Based on a literature review and an evaluation of current methods of modeling heat transfer through window frames, we conclude that current procedures specified in ISO standards are not sufficiently adequate for accurately evaluating heat transfer through the low-conductance frames. We conclude that the near-term priorities for improving the modeling of heat transfer through low-conductance frames are: (1) Add 2D view-factor radiation to standard modeling and examine the current practice of averaging surface emissivity based on area weighting and the process of making an equivalent rectangular frame cavity. (2) Asses 3D radiation effects in frame cavities and develop recommendation for inclusion into the design fenestration tools. (3) Assess existing correlations for convection in vertical cavities using CFD. (4) Study 2D and 3D natural convection heat transfer in frame cavities for cavities that are proven to be deficient from item 3 above. Recommend improved correlations or full CFD modeling into ISO standards and design fenestration tools, if appropriate. (5) Study 3D hardware short-circuits and propose methods to ensure that these effects are incorporated into ratings. (6) Study the heat transfer effects of ventilated frame cavities and propose updated correlations.

  13. Unsaturated flow and transport through fractured rock related to high-level waste repositories; Final report, Phase 3

    SciTech Connect (OSTI)

    Evans, D.D.; Rasmussen, T.C. [Arizona Univ., Tucson, AZ (USA). Dept. of Hydrology and Water Resources

    1991-01-01

    Research results are summarized for a US Nuclear Regulatory Commission contract with the University of Arizona focusing on field and laboratory methods for characterizing unsaturated fluid flow and solute transport related to high-level radioactive waste repositories. Characterization activities are presented for the Apache Leap Tuff field site. The field site is located in unsaturated, fractured tuff in central Arizona. Hydraulic, pneumatic, and thermal characteristics of the tuff are summarized, along with methodologies employed to monitor and sample hydrologic and geochemical processes at the field site. Thermohydrologic experiments are reported which provide laboratory and field data related to the effects conditions and flow and transport in unsaturated, fractured rock. 29 refs., 17 figs., 21 tabs.

  14. Arizona Natural Gas Number of Industrial Consumers (Number of Elements)

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

    Industrial Consumers (Number of Elements) Arizona Natural Gas Number of Industrial Consumers (Number of Elements) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 1980's 358 344 354 1990's 526 532 532 526 519 530 534 480 514 555 2000's 526 504 488 450 414 425 439 395 383 390 2010's 368 371 379 383 386 - = No Data Reported; -- = Not Applicable; NA = Not Available; W = Withheld to avoid disclosure of individual company data. Release Date: 4/29/2016 Next Release Date:

  15. Arizona Quantity of Production Associated with Reported Wellhead Value

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

    (Million Cubic Feet) Quantity of Production Associated with Reported Wellhead Value (Million Cubic Feet) Arizona Quantity of Production Associated with Reported Wellhead Value (Million Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 1980's 26 10 0 0 0 0 1,360 1990's 2,125 1,225 730 548 691 500 405 401 411 439 2000's 332 266 243 426 306 211 588 634 503 695 2010's 165 - = No Data Reported; -- = Not Applicable; NA = Not Available; W = Withheld to avoid

  16. Arizona Total Electric Power Industry Net Generation, by Energy Source

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

    Arizona" "Energy Source",2006,2007,2008,2009,2010 "Fossil",73385,79794,82715,74509,73386 " Coal",40443,41275,43840,39707,43644 " Petroleum",73,49,52,63,66 " Natural Gas",32869,38469,38822,34739,29676 " Other Gases","-","-","-","-","-" "Nuclear",24012,26782,29250,30662,31200 "Renewables",6846,6639,7400,6630,6941 "Pumped Storage",149,125,95,169,209

  17. GATEWAY Demonstrations: Trial Demonstration of Area Lighting Retrofit, Yuma Border Patrol, Yuma, Arizona

    SciTech Connect (OSTI)

    Wilkerson, A. M.; McCullough, J. J.

    2014-12-31

    Along the Yuma Sector Border Patrol Area in Yuma, Arizona, the GATEWAY program conducted a trial demonstration in which the incumbent quartz metal halide area lighting was replaced with LED at three pole locations at the Yuma Sector Border Patrol Area in Yuma, Arizona. The retrofit was documented to better understand LED technology performance in high-temperature environments.

  18. Workshop on hydrology of crystalline basement rocks

    SciTech Connect (OSTI)

    Davis, S.N.

    1981-08-01

    This workshop covered the following subjects: measurements in relatively shallow boreholes; measurement and interpretation of data from deep boreholes; hydrologic properties of crystalline rocks as interpreted by geophysics and field geology; rock mechanics related to hydrology of crystalline rocks; the possible contributions of modeling to the understanding of the hydrology of crystalline rocks; and geochemical interpretations of the hydrology of crystalline rocks. (MHR)

  19. Design of the beryllium window for Brookhaven Linac Isotope Producer

    SciTech Connect (OSTI)

    Nayak, S.; Mapes, M.; Raparia, D.

    2015-11-01

    In the Brookhaven Linac Isotope Producer (BLIP) beam line, there were two Beryllium (Be) windows with an air gap to separate the high vacuum upstream side from low vacuum downstream side. There had been frequent window failures in the past which affected the machine productivity and increased the radiation dose received by workers due to unplanned maintenance. To improve the window life, design of Be window is reexamined. Detailed structural and thermal simulations are carried out on Be window for different design parameters and loading conditions to come up with better design to improve the window life. The new design removed the air gap and connect the both beam lines with a Be window in-between. The new design has multiple advantages such as 1) reduces the beam energy loss (because of one window with no air gap), 2) reduces air activation due to nuclear radiation and 3) increased the machine reliability as there is no direct pressure load during operation. For quick replacement of this window, an aluminum bellow coupled with load binder was designed. There hasn’t been a single window failure since the new design was implemented in 2012.

  20. How Have You Improved the Efficiency of Your Windows? | Department of

    Energy Savers [EERE]

    Energy Have You Improved the Efficiency of Your Windows? How Have You Improved the Efficiency of Your Windows? March 18, 2010 - 7:57pm Addthis This week, John told you about his experience with window shades that improve the energy efficiency of his windows. There are several things you can do to improve the efficiency of existing windows, including adding storm windows, caulking or weatherstripping, or using window treatments. How have you improved the efficiency of your windows? Each

  1. Shotgun cartridge rock breaker

    DOE Patents [OSTI]

    Ruzzi, Peter L.; Morrell, Roger J.

    1995-01-01

    A rock breaker uses shotgun cartridges or other firearm ammunition as the explosive charge at the bottom of a drilled borehole. The breaker includes a heavy steel rod or bar, a gun with a firing chamber for the ammunition which screws onto the rod, a long firing pin running through a central passage in the rod, and a firing trigger mechanism at the external end of the bar which strikes the firing pin to fire the cartridge within the borehole. A tubular sleeve surround the main body of the rod and includes slits the end to allow it to expand. The rod has a conical taper at the internal end against which the end of the sleeve expands when the sleeve is forced along the rod toward the taper by a nut threaded onto the external end of the rod. As the sleeve end expands, it pushes against the borehole and holds the explosive gasses within, and also prevents the breaker from flying out of the borehole. The trigger mechanism includes a hammer with a slot and a hole for accepting a drawbar or drawpin which, when pulled by a long cord, allows the cartridge to be fired from a remote location.

  2. Measure Guideline: Energy-Efficient Window Performance and Selection

    SciTech Connect (OSTI)

    Carmody, J.; Haglund, K.

    2012-11-01

    This document provides guidelines for the selection of energy-efficient windows in new and existing residential construction in all US climate zones. It includes information on window products, their attributes and performance. It provides cost/benefit information on window energy savings as well as information on non-energy benefits such as thermal comfort and reduced HVAC demands. The document also provides information on energy impacts of design decisions such as window orientation, total glazing area and shading devices and conditions. Information on resources for proper window installation is included as well. This document is for builders, homeowners, designers and anyone making decisions about selecting energy efficient window. It is intended to complement other Building America information and efforts.

  3. Single level microelectronic device package with an integral window

    DOE Patents [OSTI]

    Peterson, Kenneth A.; Watson, Robert D.

    2003-12-09

    A package with an integral window for housing a microelectronic device. The integral window is bonded directly to the package without having a separate layer of adhesive material disposed in-between the window and the package. The device can be a semiconductor chip, CCD chip, CMOS chip, VCSEL chip, laser diode, MEMS device, or IMEMS device. The package can be formed of a multilayered LTCC or HTCC cofired ceramic material, with the integral window being simultaneously joined to the package during cofiring. The microelectronic device can be flip-chip interconnected so that the light-sensitive side is optically accessible through the window. A glob-top encapsulant or protective cover can be used to protect the microelectronic device and electrical interconnections. The result is a compact, low profile package having an integral window that is hermetically sealed to the package prior to mounting and interconnecting the microelectronic device.

  4. Bi-level microelectronic device package with an integral window

    DOE Patents [OSTI]

    Peterson, Kenneth A.; Watson, Robert D.

    2004-01-06

    A package with an integral window for housing a microelectronic device. The integral window is bonded directly to the package without having a separate layer of adhesive material disposed in-between the window and the package. The device can be a semiconductor chip, CCD chip, CMOS chip, VCSEL chip, laser diode, MEMS device, or IMEMS device. The multilayered package can be formed of a LTCC or HTCC cofired ceramic material, with the integral window being simultaneously joined to the package during LTCC or HTCC processing. The microelectronic device can be flip-chip bonded so that the light-sensitive side is optically accessible through the window. The package has at least two levels of circuits for making electrical interconnections to a pair of microelectronic devices. The result is a compact, low-profile package having an integral window that is hermetically sealed to the package prior to mounting and interconnecting the microelectronic device(s).

  5. High efficiency novel window air conditioner

    SciTech Connect (OSTI)

    Bansal, Pradeep

    2015-07-24

    This paper presents the technical development of a high efficiency window air conditioner. In order to achieve higher energy efficiency ratio (EER), the original capacity of the R410A unit was downgraded by replacing the original compressor with a lower capacity but higher EER compressor, while all heat exchangers and the chassis from the original unit were retained. The other subsequent major modifications included – the AC fan motor being replaced with a brushless high efficiency electronically commuted motor (ECM) motor, the capillary tube being replaced with a needle valve to better control the refrigerant flow and refrigerant set points, and R410A being replaced with drop-in environmentally friendly binary mixture of R32 (85% molar concentration)/R125 (15% molar concentration). All these modifications resulted in significant EER enhancement of the modified unit.

  6. INTEGRATED ENERGY EFFICIENT WINDOW-WALL SYSTEMS

    SciTech Connect (OSTI)

    Michael Arney, Ph.D.

    2002-12-31

    The building industry faces the challenge of reducing energy use while simultaneously improving construction methods and marketability. This paper describes the first phase of a project to address these concerns by designing an Integrated Window Wall System (IWWS) that can be commercialized. This work builds on previous research conducted during the 1990's by Lawrence Berkeley national Laboratories (LBNL). During this phase, the objective was to identify appropriate technologies, problems and issues and develop a number of design concepts. Four design concepts were developed into prototypes and preliminary energy analyses were conducted Three of these concepts (the foam wall, steel wall, and stiffened plate designs) showed particular potential for meeting the project objectives and will be continued into a second phase where one or two of the systems will be brought closer to commercialization.

  7. High efficiency novel window air conditioner

    DOE Public Access Gateway for Energy & Science Beta (PAGES Beta)

    Bansal, Pradeep

    2015-01-01

    This paper presents the technical development of a high efficiency window air conditioner. In order to achieve higher energy efficiency ratio (EER), the original capacity of the R410A unit was downgraded by replacing the original compressor with a lower capacity but higher EER compressor, while all heat exchangers and the chassis from the original unit were retained. The other subsequent major modifications included – the AC fan motor being replaced with a brushless high efficiency electronically commuted motor (ECM) motor, the capillary tube being replaced with a needle valve to better control the refrigerant flow and refrigerant set points, andmore » R410A being replaced with drop-in environmentally friendly binary mixture of R32 (85% molar concentration)/R125 (15% molar concentration). All these modifications resulted in significant EER enhancement of the modified unit.« less

  8. High efficiency novel window air conditioner

    SciTech Connect (OSTI)

    Bansal, Pradeep

    2015-01-01

    This paper presents the technical development of a high efficiency window air conditioner. In order to achieve higher energy efficiency ratio (EER), the original capacity of the R410A unit was downgraded by replacing the original compressor with a lower capacity but higher EER compressor, while all heat exchangers and the chassis from the original unit were retained. The other subsequent major modifications included – the AC fan motor being replaced with a brushless high efficiency electronically commuted motor (ECM) motor, the capillary tube being replaced with a needle valve to better control the refrigerant flow and refrigerant set points, and R410A being replaced with drop-in environmentally friendly binary mixture of R32 (85% molar concentration)/R125 (15% molar concentration). All these modifications resulted in significant EER enhancement of the modified unit.

  9. Low heat transfer, high strength window materials

    DOE Patents [OSTI]

    Berlad, Abraham L.; Salzano, Francis J.; Batey, John E.

    1978-01-01

    A multi-pane window with improved insulating qualities; comprising a plurality of transparent or translucent panes held in an essentially parallel, spaced-apart relationship by a frame. Between at least one pair of panes is a convection defeating means comprising an array of parallel slats or cells so designed as to prevent convection currents from developing in the space between the two panes. The convection defeating structures may have reflective surfaces so as to improve the collection and transmittance of the incident radiant energy. These same means may be used to control (increase or decrease) the transmittance of solar energy as well as to decouple the radiative transfer between the interior surfaces of the transparent panes.

  10. Simulating Complex Window Systems using BSDF Data

    SciTech Connect (OSTI)

    Konstantoglou, Maria; Jonsson, Jacob; Lee, Eleanor

    2009-06-22

    Nowadays, virtual models are commonly used to evaluate the performance of conventional window systems. Complex fenestration systems can be difficult to simulate accurately not only because of their geometry but also because of their optical properties that scatter light in an unpredictable manner. Bi-directional Scattering Distribution Functions (BSDF) have recently been developed based on a mixture of measurements and modelling to characterize the optics of such systems. This paper describes the workflow needed to create then use these BSDF datasets in the Radiance lighting simulation software. Limited comparisons are made between visualizations produced using the standard ray-tracing method, the BSDF method, and that taken in a full-scale outdoor mockup.

  11. Managing coherence via put/get windows

    DOE Patents [OSTI]

    Blumrich, Matthias A.; Chen, Dong; Coteus, Paul W.; Gara, Alan G.; Giampapa, Mark E.; Heidelberger, Philip; Hoenicke, Dirk; Ohmacht, Martin

    2012-02-21

    A method and apparatus for managing coherence between two processors of a two processor node of a multi-processor computer system. Generally the present invention relates to a software algorithm that simplifies and significantly speeds the management of cache coherence in a message passing parallel computer, and to hardware apparatus that assists this cache coherence algorithm. The software algorithm uses the opening and closing of put/get windows to coordinate the activated required to achieve cache coherence. The hardware apparatus may be an extension to the hardware address decode, that creates, in the physical memory address space of the node, an area of virtual memory that (a) does not actually exist, and (b) is therefore able to respond instantly to read and write requests from the processing elements.

  12. Managing coherence via put/get windows

    DOE Patents [OSTI]

    Blumrich, Matthias A.; Chen, Dong; Coteus, Paul W.; Gara, Alan G.; Giampapa, Mark E.; Heidelberger, Philip; Hoenicke, Dirk; Ohmacht, Martin

    2011-01-11

    A method and apparatus for managing coherence between two processors of a two processor node of a multi-processor computer system. Generally the present invention relates to a software algorithm that simplifies and significantly speeds the management of cache coherence in a message passing parallel computer, and to hardware apparatus that assists this cache coherence algorithm. The software algorithm uses the opening and closing of put/get windows to coordinate the activated required to achieve cache coherence. The hardware apparatus may be an extension to the hardware address decode, that creates, in the physical memory address space of the node, an area of virtual memory that (a) does not actually exist, and (b) is therefore able to respond instantly to read and write requests from the processing elements.

  13. Rock of Ages | Open Energy Information

    Open Energy Info (EERE)

    of Ages Jump to: navigation, search Name Rock of Ages Facility Rock of Ages Sector Wind energy Facility Type Small Scale Wind Facility Status In Service Owner Rock of Ages Energy...

  14. Rim Rock Wind Farm | Open Energy Information

    Open Energy Info (EERE)

    Rim Rock Wind Farm Jump to: navigation, search Name Rim Rock Wind Farm Facility Rim Rock Wind Farm Sector Wind energy Facility Type Commercial Scale Wind Facility Status In Service...

  15. Black Rock Point Geothermal Area | Open Energy Information

    Open Energy Info (EERE)

    Features: Relict Geothermal Features: Volcanic Age: Host Rock Age: Host Rock Lithology: Cap Rock Age: Cap Rock Lithology: Click "Edit With Form" above to add content Geofluid...

  16. Laboratory Performance Testing of Residential Window Mounted Air

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

    Conditioners | Department of Energy Laboratory Performance Testing of Residential Window Mounted Air Conditioners Laboratory Performance Testing of Residential Window Mounted Air Conditioners This presentation was delivered at the U.S. Department of Energy Building America Technical Update meeting on April 29-30, 2013, in Denver, Colorado. PDF icon testing_residential_ariconditioners_booten_winkler.pdf More Documents & Publications Key Issues High-Efficiency Window Air Conditioners -

  17. Window and Envelope Technologies Overview - 2014 BTO Peer Review |

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

    Department of Energy and Envelope Technologies Overview - 2014 BTO Peer Review Window and Envelope Technologies Overview - 2014 BTO Peer Review Presenter: Karma Sawyer, U.S. Department of Energy This presentation at the 2014 Peer Review provided an overview of the Building Technologies Office's Window and Envelope Technologies activities. Through robust feedback, the BTO Program Peer Review enhances existing efforts and improves future designs. View the Presentation PDF icon Window and

  18. Windows and Building Envelope Sub-Program Logic Model

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

    market entry & acceptance of window & building envelope product installation Improve testing & modeling capabilities, including window design tools to enable market adoption Technology pathways & research reports Improve performance & cost of near-term technologies & reduce manufacturing costs Documented low cost infiltration measurement methods Competitively funded projects to model attachments in window software tools Government, standards & industry orgs. & EE

  19. 13-Energy Efficiency Ratio Window Air Conditioner | Department of Energy

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

    -Energy Efficiency Ratio Window Air Conditioner 13-Energy Efficiency Ratio Window Air Conditioner Credit: Oak Ridge National Lab Credit: Oak Ridge National Lab Lead Performer: Oak Ridge National Laboratory - Oak Ridge, TN Partners: General Electric - Fairfield, CT DOE Funding: $1,540,000 Cost Share: Provided by CRADA partners Project Term: October 1, 2011 - September 30, 2015 Project Objective This project is designing and developing a high-efficiency 13 energy-efficiecy-ratio (EER) window air

  20. Stand-alone photovoltaic (PV) powered electrochromic window

    DOE Patents [OSTI]

    Benson, D.K.; Crandall, R.S.; Deb, S.K.; Stone, J.L.

    1995-01-24

    A variable transmittance double pane window includes an electrochromic material that has been deposited on one pane of the window in conjunction with an array of photovoltaic cells deposited along an edge of the pane to produce the required electric power necessary to vary the effective transmittance of the window. A battery is placed in a parallel fashion to the array of photovoltaic cells to allow the user the ability to manually override the system when a desired transmittance is desired. 11 figures.