National Library of Energy BETA

Sample records for heilongjiang shandong gansu

  1. Gansu Xinhui Wind Power | Open Energy Information

    Open Energy Info (EERE)

    Xinhui Wind Power Jump to: navigation, search Name: Gansu Xinhui Wind Power Place: China Sector: Wind energy Product: China-based joint venture engaged in developing wind projects....

  2. Weihai Blue Star Glass Holding Co Ltd aka Shandong Lanxing Glass...

    Open Energy Info (EERE)

    Blue Star Glass Holding Co Ltd aka Shandong Lanxing Glass Group Co Ltd Jump to: navigation, search Name: Weihai Blue Star Glass Holding Co Ltd (aka Shandong Lanxing Glass Group Co...

  3. Shandong Heter Battery Technology Co Ltd | Open Energy Information

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  4. Policy Options for Encouraging Energy Efficiency Best Practices in Shandong Province's Cement Industry

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    Azure. Alternative Fuel Use in the Cement Sector in ShandongSector Analysis Report: Cement Testing Sectoral ProposalTemplates In China’s Cement Sector. 2009. Bao , Xianfa.

  5. Policy Options for Encouraging Energy Efficiency Best Practices in Shandong Province's Cement Industry

    SciTech Connect (OSTI)

    Price, Lynn; Zhou, Nan; Lu, Hongyou; Sambeek, Emiel van; Yowargana, Ping; Shuang, Liu; Kejun, Jiang

    2012-07-12

    This research intends to explore possible design options for a sectoral approach in the cement sector in Shandong Province and to consider its respective advantages and disadvantages for future application. An effort has been made in this research to gather and analyze data that will provide a transparent and robust basis for development of a Business-As-Usual (BAU) scenario, maximum technology potential scenario, and ultimately a sector crediting baseline. Surveys among cement companies and discussions with stakeholders were also conducted in order to better understand the industry and local needs related to the sectoral approach.

  6. Heilongjiang Fengrui Chemical Group | Open Energy Information

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  7. Heilongjiang Province Linhai Hydropower Development | Open Energy

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  8. Heilongjiang Province Water Transportation Construction | Open Energy

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  9. Heilongjiang Xinyuan Power | Open Energy Information

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  10. Heilongjiang Lishu Wind Power | Open Energy Information

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  11. XEMC Spark Gansu JV | Open Energy Information

    Open Energy Info (EERE)

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  12. Gansu Huanzhou Info Tech | Open Energy Information

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  13. Gansu PV Co Ltd | Open Energy Information

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  14. Heilongjiang Hanker New Energy Company Ltd | Open Energy Information

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  15. Heilongjiang Jiansanjiang Nongkensanjiang Cogeneration Co Ltd | Open Energy

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  16. Heilongjiang Mudanjiang Nongken Xinneng Thermoelectric Co Ltd | Open Energy

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  17. Heilongjiang Shuaiyi Group Co Ltd | Open Energy Information

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  18. Heilongjiang Zhongyu Investment Co Ltd | Open Energy Information

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  19. Heilongjiang Fulong Wind Power Co Ltd | Open Energy Information

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  20. Heilongjiang Huafu Electric Power Investment Co Ltd | Open Energy

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  1. Datang Gansu Power Generation Co Ltd | Open Energy Information

    Open Energy Info (EERE)

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  2. Gansu Ansheng Hydropower Development Co Ltd | Open Energy Information

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  3. Gansu Baishuijinag Electricity Development Co Ltd | Open Energy Information

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  4. Gansu Diantou Darong Shimenping Power Generation Co Ltd | Open Energy

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  5. Gansu Gongjiaotou Kanfeng Hydropowr Development Co Ltd | Open Energy

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  6. Gansu Gongjiaotou Lijie Hydropower Development Co Ltd | Open Energy

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  7. Gansu Hezuo Anguo Hydropower Generation Co Ltd | Open Energy Information

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  8. Gansu Hongyuan Hydropower Co Ltd | Open Energy Information

    Open Energy Info (EERE)

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  9. Gansu Huatang Hydropower Development Co Ltd | Open Energy Information

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  10. Gansu Jiangsu Lintao Rundi Industry Co Ltd | Open Energy Information

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  11. Gansu Jinshui Power Development Co Ltd | Open Energy Information

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  12. Gansu Mingzhu Hydropower Development Co Ltd | Open Energy Information

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  13. Gansu Pingxing Power Equipment Co Ltd | Open Energy Information

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  14. Gansu Tiangong Hydropower Development Co Ltd | Open Energy Information

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  15. Gansu Yinlong Water Resources and Hydropower Development Co Ltd | Open

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  16. Gansu Zhangye Erlongshan Hydropower Co Ltd | Open Energy Information

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  17. Gansu Zhouqu County Linghekou Hydropower development Co Ltd | Open Energy

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  18. Gansu Datang Yumen Wind Power Co Ltd | Open Energy Information

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  19. Gansu Huadian Jiayuguan Solar Power | Open Energy Information

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  20. Gansu Huineng New Energy Technology Development Co Ltd | Open Energy

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  1. Gansu Jieyuan Wind Power Co Ltd | Open Energy Information

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  2. Gansu Natural Energy Research Institute GNERI | Open Energy Information

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  3. Gansu Xin an Wind Power Co Ltd | Open Energy Information

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  4. Shandong Jinjing Science Technology Stock Co Ltd | Open Energy Information

    Open Energy Info (EERE)

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  5. Shandong Linuo New Material Corp | Open Energy Information

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  6. Shandong Linuo Paradigma Co Ltd | Open Energy Information

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  7. China Shandong Penglai Electric Power Equipment Manufacturing | Open Energy

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  8. Guanquan Shandong Photoelectric Technology aka United LED Corporation |

    Open Energy Info (EERE)

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  9. Shandong Energy Conservation Engineering Company Ltd | Open Energy

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  10. Shandong Energy Savings and Technical Service Center | Open Energy

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  11. Shandong Linuo Photovoltaic Hi tech Co Ltd | Open Energy Information

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  12. Shandong Lusa New Energy Co Ltd | Open Energy Information

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  13. Shandong Sunvim Solar Technology Co Ltd | Open Energy Information

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    AFDC Printable Version Share this resource Send a link to EERE: Alternative Fuels Data Center Home Page to someone by E-mail Share EERE: Alternative Fuels Data Center Home Page on Facebook Tweet about EERE: Alternative Fuels Data Center Home Page on Twitter Bookmark EERE: Alternative Fuels Data Center Home Page on Google Bookmark EERE: Alternative Fuels Data Center Home Page on QA:QA J-E-1 SECTION J APPENDIX ECoop Inc JumpHeter Battery Technology Co Ltd Jump to: navigation, search Name:Lusa

  14. Shandong Yucheng Xinyuan Heat Power Co Ltd | Open Energy Information

    Open Energy Info (EERE)

    AFDC Printable Version Share this resource Send a link to EERE: Alternative Fuels Data Center Home Page to someone by E-mail Share EERE: Alternative Fuels Data Center Home Page on Facebook Tweet about EERE: Alternative Fuels Data Center Home Page on Twitter Bookmark EERE: Alternative Fuels Data Center Home Page on Google Bookmark EERE: Alternative Fuels Data Center Home Page on QA:QA J-E-1 SECTION J APPENDIX ECoop Inc JumpHeter Battery Technology Co Ltd Jump to: navigation, search

  15. Gansu Diantou Tao River Hydro Power Development Co Ltd | Open Energy

    Open Energy Info (EERE)

    AFDC Printable Version Share this resource Send a link to EERE: Alternative Fuels Data Center Home Page to someone by E-mail Share EERE: Alternative Fuels Data Center Home Page on Facebook Tweet about EERE: Alternative Fuels Data Center Home Page on Twitter Bookmark EERE: Alternative Fuels Data Center Home Page on Google Bookmark EERE: Alternative Fuels Data Center Home Page on QA:QA J-E-1 SECTION J APPENDIX E LISTStar2-0057-EA Jump to:ofEnia SpAFlexStock CoGTOMarket JumpInformation River

  16. Gansu Linhai Water Resource and Hydropower Investment Co Ltd | Open Energy

    Open Energy Info (EERE)

    AFDC Printable Version Share this resource Send a link to EERE: Alternative Fuels Data Center Home Page to someone by E-mail Share EERE: Alternative Fuels Data Center Home Page on Facebook Tweet about EERE: Alternative Fuels Data Center Home Page on Twitter Bookmark EERE: Alternative Fuels Data Center Home Page on Google Bookmark EERE: Alternative Fuels Data Center Home Page on QA:QA J-E-1 SECTION J APPENDIX E LISTStar2-0057-EA Jump to:ofEnia SpAFlexStock CoGTOMarketHezuo

  17. Gansu Zhongyuan Water Conservancy and Hydro Power Plant Development Co Ltd

    Open Energy Info (EERE)

    AFDC Printable Version Share this resource Send a link to EERE: Alternative Fuels Data Center Home Page to someone by E-mail Share EERE: Alternative Fuels Data Center Home Page on Facebook Tweet about EERE: Alternative Fuels Data Center Home Page on Twitter Bookmark EERE: Alternative Fuels Data Center Home Page on Google Bookmark EERE: Alternative Fuels Data Center Home Page on QA:QA J-E-1 SECTION J APPENDIX E LISTStar2-0057-EA Jump to:ofEnia SpAFlexStock| Open Energy Information Water

  18. Gansu China Power Jiuquan Wind Power Co Ltd | Open Energy Information

    Open Energy Info (EERE)

    AFDC Printable Version Share this resource Send a link to EERE: Alternative Fuels Data Center Home Page to someone by E-mail Share EERE: Alternative Fuels Data Center Home Page on Facebook Tweet about EERE: Alternative Fuels Data Center Home Page on Twitter Bookmark EERE: Alternative Fuels Data Center Home Page on Google Bookmark EERE: Alternative Fuels Data Center Home Page on QA:QA J-E-1 SECTION J APPENDIX E LIST OFAMERICA'SHeavy ElectricalsFTL Solar JumpNetworkingGAOHGWTianjin Co Ltd

  19. Policy Options for Encouraging Energy Efficiency Best Practices in Shandong Province's Cement Industry

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    report their coal production and consumption to city-leveldata on both production and energy consumption. The coveredinto clinker production energy consumption and the others (

  20. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    In an Energy CSC, an energy price line is determined thatthat fall below the energy price line are so-called “cost-depending on the energy price. A sensitivity analysis for

  1. Policy Options for Encouraging Energy Efficiency Best Practices in Shandong Province's Cement Industry

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    as emissions or energy savings trading under a cap. Whiletrading systems or energy saving trading systems. As aenergy and carbon reductions in China, this research can also contribute to the on- going discussion and piloting of domestic flexible trading

  2. Policy Options for Encouraging Energy Efficiency Best Practices in Shandong Province's Cement Industry

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    PDF International Emissions Trading Association . “Thinkingwebsite. International Emissions Trading Association, 05 MarVerification in the EU Emission Trading Scheme. Beijing:,

  3. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    Coal grinding roller mills can be found in many countries around the world, for example, Brazil, Canada,

  4. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    the Tool BEST Cement: Benchmarking and Energy Savings Toolbut that used best practice energy-efficiency technologiesof the plant compared to best practice energy use, which is

  5. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    the Tool BEST Cement: Benchmarking and Energy Savings Toolfor product i = best practice energy intensity for product ibut that used best practice energy-efficiency technologies

  6. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    effective energy saving potential Fuel saving potential (TJ)GWh) Annual Fuel Saving Potential (TJ) Annual Primary Energyand fuel saving potential also increase by the increase in energy

  7. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    technical potential primary energy savings of 12% would betechnical potential primary energy savings of 23% would betechnical potential primary energy savings of 12% would be

  8. Policy Options for Encouraging Energy Efficiency Best Practices in Shandong Province's Cement Industry

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    and transport Finish grinding Electricity consumption DryingOther electricity consumption Fuel consumption Clinkerstorage and transport Electricity consumption Electricity

  9. Policy Options for Encouraging Energy Efficiency Best Practices in Shandong Province's Cement Industry

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    established energy data monitoring and management system, orenergy-related measurements, reporting and analysis. Monitoring and Evaluation After the internal management and reporting systemsenergy-conservation evaluation of the central enterprises, and to supervise the establishment of energy-saving management, monitoring & evaluation systems

  10. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    Technology Support Unit (ETSU). 1988. High Level Control ofCircle Industries and SIRA (ETSU, 1988). Other developersvary between 2.5% and 10% (ETSU, 1988), and the typical

  11. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    Cost-Effective Electricity and Fuel Saving Potentials and CO2Cost-Effective Electricity and Fuel Saving Potentials and CO2Cost-Effective Electricity and Fuel Saving Potentials and CO2

  12. Policy Options for Encouraging Energy Efficiency Best Practices in Shandong Province's Cement Industry

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    and AQC boiler), steam turbine generators, controllingAQC boiler is fed to the steam turbine generator to produce

  13. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    and AQC boiler), steam turbine generators, controllingAQC boiler is fed to the steam turbine generator to produceand AQC boiler), steam turbine generators, controlling

  14. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    Berkeley National Laboratory (LBNL) and Energy ResearchBerkeley National Laboratory (LBNL) and Energy ResearchNational Laboratory in collaboration with the Energy Research

  15. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    Banerjee, R. , 2005. Energy Efficiency and Demand SideKiln Systems,” Energy Efficiency in the Cement Industry (Ed.for Improving Energy Efficiency, Reducing Pollution and

  16. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    Banerjee, R. , 2005. Energy Efficiency and Demand SideKiln Systems,” Energy Efficiency in the Cement Industry (Ed.of Industrial Energy Efficiency Measures,” Proceedings of

  17. Policy Options for Encouraging Energy Efficiency Best Practices in Shandong Province's Cement Industry

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    kg N 2 O / MMBtu Coal consumption by coal type tons Emissionfactor by coal type SCF CH 4 / tonne CH4 emissions from coal

  18. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    pre-crushing needed) and coal types with a higher humidityfor more abrasive coal types. Electricity consumption for aas dust-laden air. This type of coal separator improves the

  19. Policy Options for Encouraging Energy Efficiency Best Practices in Shandong Province's Cement Industry

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    SP326 SP327 Coal production and sales Crude oil, natural gasproduction and sales Crude oil and petroleum products

  20. Policy Options for Encouraging Energy Efficiency Best Practices in Shandong Province's Cement Industry

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    experience reviewing energy consumption data reported bybe noted that energy consumption data are not directlythe cement sector energy consumption data published by the

  1. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    Statistics National Development and Reform Commission new suspension pre-heater and pre-calciner operations & maintenance

  2. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    and energy savings amount of energy-efficiency measures willenergy saving of any energy efficiency measure will changeor energy savings of the energy-efficiency measures on the

  3. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    What is the ratio of fly ash and slag? g. Energy EfficiencyBlended cement (Additives: fly ash, pozzolans, and blastcan include such materials as fly ash from electric power

  4. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    Blended cement (Additives: fly ash, pozzolans, and blastcan include such materials as fly ash from electric poweradditives (GGBS, pozzolana, fly ash, or limestone), made up

  5. Policy Options for Encouraging Energy Efficiency Best Practices in Shandong Province's Cement Industry

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    CEM II), up to 35% can be fly ash and 65% clinker; for blastvalue of 70 kgce/tonne (fly ash cement with clinker-to=Blended cement (additives: fly ash, pozzolans, and blast

  6. Redesigning rural life : relocation and In Situ urbanization in a Shandong village by Saul Kriger Wilson.

    E-Print Network [OSTI]

    Wilson, Saul Kriger

    2014-01-01

    The Chinese government's attempts to improve village public service provision, limit the loss of arable land, and coordinate urbanization have converged in land readjustment schemes to rebuild some villages as more densely ...

  7. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    Development waste heat recovery World Wide Fund for NatureTaishan Cement Works Waste Heat Recovery and Utilisation forCement Plant 9100KW Waste Heat Recovery and Utilisation for

  8. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    Thus, the average unit price of coal consumed in studiedunder the average unit price of coal in studied plants inthan the average unit price of coal. In other words, the

  9. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    Banerjee, R. , 2005. Energy Efficiency and Demand SideE. , Price, L. , 1999. Energy Efficiency and Carbon DioxideZ. , 2006. Efficiency Improvement and Energy Conservation in

  10. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    Z. , 2006. Efficiency Improvement and Energy Conservation inBanerjee, R. , 2005. Energy Efficiency and Demand SideE. , Price, L. , 1999. Energy Efficiency and Carbon Dioxide

  11. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    design code for energy saving, energy consumption auditingEnergy Consumption and Energy Saving Potential,” ProceedingsCement: Benchmarking and Energy Savings Tool for the Cement

  12. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    Energy Consumption and Energy Saving Potential,” ProceedingsGomes, A. S. 1990. “Energy Saving and Environmental Impactdesign code for energy saving, energy consumption auditing

  13. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    the Energy and Transport Sector Unit of the East Asia andthe Energy and Transport Sector Unit of the East Asia and

  14. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    2008), and China’s electricity transmission and distributionenergy (electricity includes transmission and generationenergy (electricity includes transmission and generation

  15. Analysis of Energy-Efficiency Opportunities for the Cement Industry in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2010-01-01

    residue and (dewatered) sewage sludge (Hendriks et al,.and (dewatered) sewage sludge, and hazardous wastes (

  16. Policy Options for Encouraging Energy Efficiency Best Practices in Shandong Province's Cement Industry

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    results. The amount of sewage sludge and municipal solidSubstitution potential Sewage sludge Municipal solid waste

  17. Weihai Blue Star Glass Holding Co Ltd aka Shandong Lanxing Glass Group Co

    Open Energy Info (EERE)

    AFDC Printable Version Share this resource Send a link to EERE: Alternative Fuels Data Center Home Page to someone by E-mail Share EERE: Alternative Fuels Data Center Home Page on Facebook Tweet about EERE: Alternative Fuels Data Center Home Page on Twitter Bookmark EERE: Alternative Fuels Data Center Home Page on Google Bookmark EERE: Alternative Fuels Data Center Home Page on QA:QA J-E-1 SECTION J APPENDIX ECoop IncIowa (Utility Company)Idaho)Vossloh KiepeWebel Micro Power JV JumpWeeklyLtd |

  18. Increasing Energy Efficiency and Reducing Emissions from China's Cement Kilns: Audit Report of Two Cement Plants in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    http://www.wbcsd.ch/web/projects/cement/pop-report.pdfShui Ni 1 and Shui Ni 2 cement plants in Shangdong ProvinceReferences Ash Grove Cement, n.d. , “Cement Manufacturing

  19. Increasing Energy Efficiency and Reducing Emissions from China's Cement Kilns: Audit Report of Two Cement Plants in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    also used for drying coal in heat recovery boilers to raiseheat recovery components (boilers, raw meal dryer, coal feedheat recovery, exhaust gases include flue products from coal

  20. Increasing Energy Efficiency and Reducing Emissions from China's Cement Kilns: Audit Report of Two Cement Plants in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    coal ash analysis The chemical composition analysis of raw meal, clinker, and the physical properties

  1. Increasing Energy Efficiency and Reducing Emissions from China's Cement Kilns: Audit Report of Two Cement Plants in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    combustion products such as carbon dioxide (CO 2 ), carbon monoxide (combustion decreased. The concentration of carbon monoxidecombustion products that now include primarily carbon dioxide (CO 2 ) and nitrogen (N 2 ) with small amounts of carbon monoxide (

  2. Increasing Energy Efficiency and Reducing Emissions from China's Cement Kilns: Audit Report of Two Cement Plants in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    system that uses steam and turbine generators to produce upwater to cooling towers Steam Turbine Generator Waste Heatcombustion (CO gas) ? Steam turbine condenser cooling water

  3. Increasing Energy Efficiency and Reducing Emissions from China's Cement Kilns: Audit Report of Two Cement Plants in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    recovery systems such as a cogeneration plant and the heatedplant has installed a cogeneration system that uses steamequipment as well as the cogeneration system. The data were

  4. Increasing Energy Efficiency and Reducing Emissions from China's Cement Kilns: Audit Report of Two Cement Plants in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    dryer that uses heat from boiler exhaust gases to reduce thedrying coal in heat recovery boilers to raise steam, and forup to 6 MW power. The boilers use the heat of exhaust gases

  5. Increasing Energy Efficiency and Reducing Emissions from China's Cement Kilns: Audit Report of Two Cement Plants in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    heat, based on 60% heat recovery, is approximately 12.5 GJ/Illustration of Reburn and Heat Recovery System Arrangementto this, it also uses heat recovery systems such as a

  6. Increasing Energy Efficiency and Reducing Emissions from China's Cement Kilns: Audit Report of Two Cement Plants in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    to this, it also uses heat recovery systems such as afor drying coal in heat recovery boilers to raise steam, andWith this degree of heat recovery, exhaust gases include

  7. Increasing Energy Efficiency and Reducing Emissions from China's Cement Kilns: Audit Report of Two Cement Plants in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    values are represented in pie chart (Figure 3) format toin the system. The pie chart indicates that major users ofof coal. The following pie-chart (Figure 13) and Sankey

  8. Increasing Energy Efficiency and Reducing Emissions from China's Cement Kilns: Audit Report of Two Cement Plants in Shandong Province, China

    E-Print Network [OSTI]

    Price, Lynn

    2013-01-01

    systems such as a cogeneration plant and the heated air togenerated from the cogeneration plant and take credit forequivalent heat. The cogeneration plant produces 6 MW

  9. Euclid's Algorithm, Guass' Elimination and Buchberger's Algorithm

    E-Print Network [OSTI]

    International Association for Cryptologic Research (IACR)

    Euclid's Algorithm, Guass' Elimination and Buchberger's Algorithm Shaohua Zhang School of Mathematics, Shandong University, Jinan, Shandong, 250100, PRC Abstract: It is known that Euclid's algorithm, Guass' elimination and Buchberger's algorithm play important roles in algorithmic number the- ory

  10. Atmos. Chem. Phys., 11, 1173311744, 2011 www.atmos-chem-phys.net/11/11733/2011/

    E-Print Network [OSTI]

    Meskhidze, Nicholas

    Research Institute, Shandong University, Jinan, Shandong 250100, China 2State Key Laboratory of Coal properties of particles, including mass concentration, composition, and size distribution. In particular- scopicity, ability of activation, and optical properties (An- dreae and Rosenfeld, 2008; Hudson, 2007

  11. Development of an Energy Conservation Voluntary Agreement, Pilot Project in the Steel Sector in Shandong Province. Project Report to the State Economic and Trade Commission, People's Republic of China

    E-Print Network [OSTI]

    Price, Lynn; Yun, Jiang; Worrell, Ernst; Wenwei, Du; Sinton, Jonathan E.

    2003-01-01

    sintering, pelleting), ironmaking, steelmaking (basic oxygenfor steelmaking covers ironmaking (including coking andEE_..) The six spreadsheets (ironmaking, BOF, EAF, Casting,

  12. Development of an Energy Conservation Voluntary Agreement, Pilot Project in the Steel Sector in Shandong Province. Project Report to the State Economic and Trade Commission, People's Republic of China

    E-Print Network [OSTI]

    Price, Lynn; Yun, Jiang; Worrell, Ernst; Wenwei, Du; Sinton, Jonathan E.

    2003-01-01

    company and the Danish Energy Agency. The agreements, whichagreements with the Danish Energy Agency, representing 45%Danish CO 2 -Tax Scheme,” in International Energy Agency,

  13. Episodes, Vol. 32, no. 3 by Zhijun Jina

    E-Print Network [OSTI]

    Wang, Yang

    , Tallahassee, FL 32306-4100, USA d Daqing oilfield Branch Company, PetroChina, Heilongjiang 163712, China e, characterized by a typical `two-layer' structural pattern. The lower layer consists of a late Jurassic

  14. China Energy Databook - Rev. 4

    E-Print Network [OSTI]

    Sinton Editor, J.E.

    2010-01-01

    energy use is concentrated in China's north and east,and Energy Source, 1990 Planning Region North Northeast EastEnergy f (Mtce) Planning Region Province North Beijing Tianjin Hebei Shared Inner Mongolia Northeast Liaoning jilin Heilongjiang East

  15. Development and characterization of BAC-end sequence derived SSRs, and their incorporation into a new higher density genetic map for cultivated peanut (Arachis hypogaea L.)

    E-Print Network [OSTI]

    2012-01-01

    Author details Shandong Peanut Research Institute, Qingdao,CE: RFLP variability in peanut (Arachis hypogaea L. )resources of cultivated peanut and related wild species.

  16. Emergence of grouping in multi-resource minority game dynamics

    E-Print Network [OSTI]

    Zhang, Junshan

    Systems, Lanzhou University, Lanzhou, Gansu 730000, China, 2 School of Electrical, Computer, and Energy mathematical framework to address this kind of phenomena in social, economical and political systems. T he

  17. Structural Geology of a Central Segment of the Qilian Shan-Nan Shan Thrust Belt: Implications for the Magnitude of Cenozoic Shortening in the Northeastern Tibetan Plateau

    E-Print Network [OSTI]

    Reith, Robin

    2013-01-01

    continental deformation: Geology, Burchfiel, B.C. , Zhang,by lower crustal flow: Geology, 28: 703-706. Cowgill, E. ,in north Qilian: Gansu Geology, 20: 40-44 (in Chinese with

  18. Electricity demand-side management for an energy efficient future in China : technology options and policy priorities

    E-Print Network [OSTI]

    Cheng, Chia-Chin

    2005-01-01

    The main objective of this research is to identify robust technology and policy options which achieve substantial reductions in electricity demand in China's Shandong Province. This research utilizes a scenario-based ...

  19. BULGARIAN ACADEMY OF SCIENCES CYBERNETICS AND INFORMATION TECHNOLOGIES Volume 15, No 1

    E-Print Network [OSTI]

    Borissova, Daniela

    14 BULGARIAN ACADEMY OF SCIENCES CYBERNETICS AND INFORMATION TECHNOLOGIES · Volume 15, No 1 Sofia Tree Matching Algorithm Based on a Faceted Classification Scheme Yao Wang1 , Bo Wang2 , Minghan Liu1 1 School of Software, Harbin University of Science and Technology, Harbin150040, Heilongjiang, China 2

  20. Landscape and Urban Planning 87 (2008) 269278 Contents lists available at ScienceDirect

    E-Print Network [OSTI]

    Wang, Le

    2008-01-01

    States and Daqing, Heilongjiang province in China. Both cities expanded rapidly on the basis of the petroleum indus- tries during the last 50 years; however, under different socio-political contexts diversity (Grove and Burch, 1997), energy flows (Breuste et al., 1998), and climatic conditions (Orville et

  1. CURRICULUM VITAE Zhi "Luke" WANG

    E-Print Network [OSTI]

    Dundas, Robert G.

    Physics, Katholieke Universiteit Leuven, Belgium 1985 M. Sc., Irrigation and Drainage Engineering Segment Irrigation Systems". Fully published in Irrigation and Drainage, 5(4): 15-26 1986. B. Eng. Project and Thesis: Design of the Multi-Stage Pumping Stations in Jingtai County, Gansu Province; Thesis on Computer

  2. A data-based approach for multivariate model predictive control performance monitoring$

    E-Print Network [OSTI]

    Chen, Sheng

    A data-based approach for multivariate model predictive control performance monitoring$ Xuemin Tian of Petroleum (Hua Dong), Donying, Shandong 257061, China b School of Electronics and Computer Science by J. Zhang Available online 20 October 2010 Keywords: Model predictive control Performance monitoring

  3. Table of Contents BETSRG goes to China ................................................................................................................................. 2

    E-Print Network [OSTI]

    , and Tsinghua University. We toured a number of ground source heat pump installations. In addition, we had to the Central Oklahoma ASHRAE Chapter on April 16, 2003. The topic was " Hybrid Ground Source Heat Pump System Development Co. Ltd. #12;Beijing University of Technology Open-Loop Heat Pump System Audience at Shandong

  4. Global WarmingInduced Changes in El Nio Teleconnections over the North Pacific and North America

    E-Print Network [OSTI]

    Xie, Shang-Ping

    Science and Technology, Key Laboratory of Ocean­Atmosphere Interaction and Climate in Universities and Technology, Key Laboratory of Ocean­Atmosphere Interaction and Climate in Universities of Shandong, Ocean/Qingdao Collaborative Innovation Center of Marine Science and Technology, Key Laboratory of Ocean­Atmosphere Interaction

  5. The US inertial confinement fusion (ICF) ignition programme and the inertial fusion energy (IFE) programme

    SciTech Connect (OSTI)

    Lindl, J.D.; Hammel, B.A.; Logan, B. Grant; Meyerhofer, David D.; Payne, S.A.; Sethisn, John D.

    2003-11-13

    This paper describes international experience with the use of Voluntary Agreements for increasing industrial sector energy-efficiency, drawing lessons learned regarding the essential elements of the more successful programs. The paper focuses on a pilot project for implementation of a Voluntary Agreement with two steel mills in Shandong Province that was developed through international collaboration with experts in China, the Netherlands, and the U.S. Designing the pilot project involved development of approaches for energy-efficiency potential assessments for the steel mills, target-setting to establish the Voluntary Agreement energy-efficiency goals, preparing energy-efficiency plans for implementation of energy-saving technologies and measures, and monitoring and evaluating the project's energy savings.

  6. Status of the Local Enforcement of Energy Efficiency Standards and Labeling Program in China

    SciTech Connect (OSTI)

    Zhou, Nan; Zheng, Nina; Fino-Chen, Cecilia; Fridley, David; Ning, Cao

    2011-09-26

    As part of its commitment to promoting and improving the local enforcement of appliance energy efficiency standards and labeling, the China National Institute of Standardization (CNIS) launched the National and Local Enforcement of Energy Efficiency Standards and Labeling project on August 14, 2009. The project’s short-term goal is to expand the effort to improve enforcement of standards and labeling requirements to the entire country within three years, with a long-term goal of perfecting overall enforcement. For this project, Jiangsu, Shandong, Sichuan and Shanghai were selected as pilot locations. This report provides information on the local enforcement project’s recent background, activities and results as well as comparison to previous rounds of check-testing in 2006 and 2007. In addition, the report also offers evaluation on the achievement and weaknesses in the local enforcement scheme and recommendations. The results demonstrate both improvement and some backsliding. Enforcement schemes are in place in all target cities and applicable national standards and regulations were followed as the basis for local check testing. Check testing results show in general high labeling compliance across regions with 100% compliance for five products, including full compliance for all three products tested in Jiangsu province and two out of three products tested in Shandong province. Program results also identified key weaknesses in labeling compliance in Sichuan as well as in the efficiency standards compliance levels for small and medium three-phase asynchronous motors and self-ballasted fluorescent lamps. For example, compliance for the same product ranged from as low as 40% to 100% with mixed results for products that had been tested in previous rounds. For refrigerators, in particular, the efficiency standards compliance rate exhibited a wider range of 50% to 100%, and the average rate across all tested models also dropped from 96% in 2007 to 63%, possibly due to the implementation of newly strengthened efficiency standards in 2009. Areas for improvement include: Greater awareness at the local level to ensure that all manufacturers register their products with the label certification project and to minimize their resistance to inspections; improvement of the product sampling methodology to include representative testing of both large and small manufacturers and greater standardization of testing tools and procedures; and continued improvement in local enforcement efforts.

  7. Current Work in Energy Analysis (Energy Analysis Program -1996 Annual Report)

    SciTech Connect (OSTI)

    Energy Analysis Program

    1998-03-01

    This report describes the work that Environmental Energy Technologies Division of Lawrence Berkeley National Laboratory has been doing most recently. One of our proudest accomplishments is the publication of Scenarios of U.S. Carbon Reductions, an analysis of the potential of energy technologies to reduce carbon emissions in the U.S. This analysis played a key role in shaping the U.S. position on climate change in the Kyoto Protocol negotiations. Our participation in the fundamental characterization of the climate change issue by the IPCC is described. We are also especially proud of our study of ''leaking electricity,'' which is stimulating an international campaign for a one-watt ceiling for standby electricity losses from appliances. This ceiling has the potential to save two-thirds of the 5% of U.S. residential electricity currently expended on standby losses. The 54 vignettes contained in the following pages summarize results of research. activities ranging in scale from calculating the efficacy of individual lamp ballasts to estimating the cost-effectiveness of the national ENERGY STAR{reg_sign} labeling program, and ranging in location from a scoping study of energy-efficiency market transformation in California to development of an energy-efficiency project in the auto parts industry in Shandong Province, China. These are the intellectual endeavors of a talented team of researchers dedicated to public service.

  8. Current work in energy analysis

    SciTech Connect (OSTI)

    1998-03-01

    This report describes the work performed at Berkeley Lab most recently. One of the Labs accomplishments is the publication of Scenarios of US Carbon Reductions, an analysis of the potential of energy technologies to reduce carbon emissions in the US. This analysis is described and played a key role in shaping the US position on climate change in the Kyoto Protocol negotiations. The Labs participation in the fundamental characterization of the climate change issue by the IPCC is described. Described also is a study of leaking electricity, which is stimulating an international campaign for a one-watt ceiling for standby electricity losses from appliances. This ceiling has the potential to save two-thirds of the 5% of US residential electricity currently expended on standby losses. The 54 vignettes contained in the report summarize results of research activities ranging in scale from calculating the efficacy of individual lamp ballasts to estimating the cost-effectiveness of the national Energy Star{reg_sign} labeling program, and ranging in location from a scoping study of energy-efficiency market transformation in California to development of an energy-efficiency project in the auto parts industry in Shandong Province, China.

  9. Impacts of urban transportation mode split on CO{sub 2} emissions in Jinan, China.

    SciTech Connect (OSTI)

    He, D.; Meng, F.; Wang, M.; He, K.

    2011-04-01

    As the world's largest developing country, China currently is undergoing rapid urbanization and motorization, which will result in far-reaching impacts on energy and the environment. According to estimates, energy use and carbon emissions in the transportation sector will comprise roughly 30% of total emissions by 2030. Since the late 1990s, transportation-related issues such as energy, consumption, and carbon emissions have become a policy focus in China. To date, most research and policies have centered on vehicle technologies that promote vehicle efficiency and reduced emissions. Limited research exists on the control of greenhouse gases through mode shifts in urban transportation - in particular, through the promotion of public transit. The purpose of this study is to establish a methodology to analyze carbon emissions from the urban transportation sector at the Chinese city level. By using Jinan, the capital of China's Shandong Province, as an example, we have developed an analytical model to simulate energy consumption and carbon emissions based on the number of trips, the transportation mode split, and the trip distance. This model has enabled us to assess the impacts of the transportation mode split on energy consumption and carbon emissions. Furthermore, this paper reviews a set of methods for data collection, estimation, and processing for situations where statistical data are scarce in China. This paper also describes the simulation of three transportation system development scenarios. The results of this study illustrate that if no policy intervention is implemented for the transportation mode split (the business-as-usual (BAU) case), then emissions from Chinese urban transportation systems will quadruple by 2030. However, a dense, mixed land-use pattern, as well as transportation policies that encourage public transportation, would result in the elimination of 1.93 million tons of carbon emissions - approximately 50% of the BAU scenario emissions.

  10. The AP1000{sup R} China projects move forward to construction completion and equipment installation

    SciTech Connect (OSTI)

    Harrop, G. [Westinghouse Electric Company LLC, 1000 Westinghouse Drive, Cranberry Township, PA 16066 (United States)

    2012-07-01

    The AP1000 design is the only Generation III+ technology to receive design certification from the U.S. Nuclear Regulatory Commission. This evolutionary design provides the highest safety and performance standards and has several distinct advantages over other designs, including improved operations and reduced construction schedule risks through the use of modern, modular, engineering principles that allow construction and fabrication tasks traditionally performed in sequence to be undertaken in parallel. Since the first granting of Design Certification in 2005 by the NRC, the AP1000 design has been modified to meet emergent NRC requirements such as those requiring the design to withstand the impact of an aircraft crash. Both domestic and foreign utilities have turned to the Westinghouse AP1000 plant design to meet their near - and long-term sustainable energy needs. The first ever deployment of this advanced U.S. nuclear power technology began in China in 2007 with the award of a contract to build four AP1000 units, constructed in pairs at the coastal sites of Sanmen (Zhejiang Province) and Haiyang (Shandong Province). Currently, all four units are at an advanced stage of construction. The commercial operation date for Sanmen Unit 1 is November 2013 followed by Haiyang Unit 1 being operational in May 2014. Construction and equipment manufacture is at an advanced stage. Sanmen Unit 1 equipment that has been delivered includes the reactor vessel, the reactor vessel closure head, the passive residual heat removal heat exchanger, the integrated head package, the polar crane, and the refueling machine. The steam generators are also completed. The RV was installed within the containment vessel building in September 2011. The installation of this major equipment will allow the setting of the containment vessel top head. Haiyang Unit 1 is also achieving significant progress. Significant benefits continue to be realized as a result of lessons learned and experience gained from the first-of-a-kind activities for Sanmen Unit 1 and AP1000 equipment design and manufacturing. For example, the nuclear island basemat at Haiyang Units 1 and 2 and Sanmen Unit 2 was laid in less time than that of Sanmen Unit 1, the ultra-large steam generator and RV forging lead times were reduced for the follow on units, and the fabrication of the auxiliary building module for Haiyang Unit 1 took less time than for the Sanmen first unit. These benefits are also being realized by the United States AP1000 project construction and fabrication modules, and equipment. Some difficulties arise from building this first-of-a-kind (advanced passive) type of plant; however, these difficulties are being overcome and the overall schedule remains achievable. (authors)

  11. Urban Form Energy Use and Emissions in China: Preliminary Findings and Model Proof of Concept

    SciTech Connect (OSTI)

    Aden, Nathaniel; Qin, Yining; Fridley, David

    2010-12-15

    Urbanization is reshaping China's economy, society, and energy system. Between 1990 and 2008 China added more than 300 million new urban residents, bringing the total urbanization rate to 46%. The ongoing population shift is spurring energy demand for new construction, as well as additional residential use with the replacement of rural biomass by urban commercial energy services. This project developed a modeling tool to quantify the full energy consequences of a particular form of urban residential development in order to identify energy- and carbon-efficient modes of neighborhood-level development and help mitigate resource and environmental implications of swelling cities. LBNL developed an integrated modeling tool that combines process-based lifecycle assessment with agent-based building operational energy use, personal transport, and consumption modeling. The lifecycle assessment approach was used to quantify energy and carbon emissions embodied in building materials production, construction, maintenance, and demolition. To provide more comprehensive analysis, LBNL developed an agent-based model as described below. The model was applied to LuJing, a residential development in Jinan, Shandong Province, to provide a case study and model proof of concept. This study produced results data that are unique by virtue of their scale, scope and type. Whereas most existing literature focuses on building-, city-, or national-level analysis, this study covers multi-building neighborhood-scale development. Likewise, while most existing studies focus exclusively on building operational energy use, this study also includes embodied energy related to personal consumption and buildings. Within the boundaries of this analysis, food is the single largest category of the building energy footprint, accounting for 23% of the total. On a policy level, the LCA approach can be useful for quantifying the energy and environmental benefits of longer average building lifespans. In addition to prospective analysis for standards and certification, urban form modeling can also be useful in calculating or verifying ex post facto, bottom-up carbon emissions inventories. Emissions inventories provide a benchmark for evaluating future outcomes and scenarios as well as an empirical basis for valuing low-carbon technologies. By highlighting the embodied energy and emissions of building materials, the LCA approach can also be used to identify the most intensive aspects of industrial production and the supply chain. The agent based modeling aspect of the model can be useful for understanding how policy incentives can impact individual behavior and the aggregate effects thereof. The most useful elaboration of the urban form assessment model would be to further generalize it for comparative analysis. Scenario analysis could be used for benchmarking and identification of policy priorities. If the model is to be used for inventories, it is important to disaggregate the energy use data for more accurate emissions modeling. Depending on the policy integration of the model, it may be useful to incorporate occupancy data for per-capita results. On the question of density and efficiency, it may also be useful to integrate a more explicit spatial scaling mechanism for modeling neighborhood and city-level energy use and emissions, i.e. to account for scaling effects in public infrastructure and transportation.