Análisis a la eficiencia de las fuentes de energía renovable
A pesar de tener el apoyo del público y numerosas ventajas sobre otras fuentes de energía, a las tecnologías renovables se les ha caracterizado repetidamente de no poder satisfacer nuestras necesidades energéticas, y se han presentado sólo como una opción entre los combustibles fósiles convencionales y la energía nuclear. En este trabajo se muestra que esto es una falsa opción, ya que la energía renovable puede generar de forma segura la misma energía que los combustibles convencionales, y puede hacerlo sin producir las emisiones de carbono o los residuos radiactivos que contaminan el medio ambiente.
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Revista Ingenierias USBmed - 2015
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Análisis a la eficiencia de las fuentes de energía renovable IEA. “Key world energy statistics”. France: Soregraph. 82 p. 2010. California Climate Change Center at UC Berkeley. “Managing Greenhouse Gas Emissions in California”. 2006. Disponible en: http://www.fypower.org/pdf/CA_GHG_UCBerkeley.pdf, Dec. 2009. DOE. “Budget Request to Congress”. 2006. Disponible en: http://www.mbe.doe.gov/budget/06budget/Start.pdf, Dec. 2009. C. Komanoff & C. Roelofs. “Fiscal Fission: The Economic Failure of Nuclear Power”. USA: Komanoff Energy Associates. 98 p. 1992. OECD. “Measuring Support to Energy. Version 1.0”. 47 p. 2010. Disponible en: http://www.oecd.org/dataoecd/62/63/45339216.pdf, Jun. 2010. M. Goldberg. “Federal Energy Subsidies: Not All Technologies Are Created Equally”. Research Report No. 11, Renewable Energy Policy Project. 20 p. 2000. Disponible en: http://www.earthtrack.net/files/repp-subsidies.pdf, Dec. 2009. U.S. Department of Energy . “Combined Heat and Power: A Decade of Progress, A Vision for the Future”. 32 p. 2010. Disponible en: http://www1.eere.energy.gov/industry/distributedenergy/pdfs/chp_accomplishments_booklet.pdf, Fab.2010. Electric Storage Association. “Technologies: Pumped Hydro Storage”. 2009. Disponible en: http://www.electricitystorage.org/site/technologies/p umped_hydro/, Ap. 2010. G. Timur & T. Stenzel. “Variability of Wind Power and Other Renewables: Management Options and Strategies”. International Energy Agency IEA. 51 p. 2005. Instituto de la ingeniería de España. “Tendencias de la ingeniería: Crean material fotovoltaico para células solares más efectivo y económico”. Disponible en: http://www.tendencias21.net/Creanmaterial-fotovoltaico-para-celulas-solares-masefectivo-y-economico_a4156.html, Feb. 2010. S. Brown. “Estimating biomass and biomass change of tropical forests. A primer”. FAO Forestry Paper 134. A Forest Resources Assesment publication. Rome, 55 p. 1997. National Renewable EnergyLaboratory. “Power Technology Energy Databook”. USA: Progressive Management. 220 p. 2009. U.S. Department of Energy. “Advanced Hydropower Technology”. Energy Efficiencyand Renewable Energy Office – Wind and Hydropower Technologies Program. 2008. Disponible en: www1.eere.energy.gov/windandhydro/printable_versions/hydro_advtech.html, May 2010. A. Imhof & G. L. Lanza. “Greenwashing Hydropower. World Watch”. 2010. Disponible en: http://www.bicusa.org/en/Document.101877.aspx, Feb. 2010. Energy Information Administration. “Existing Capacity by EnergySource”. 2010. Disponible en: http://www.eia.doe.gov/cneaf/electricity/epa/epaxlfile1_2.pdf, Ap. 2010. EUREC. “Research Priorities for Renewable Energy Technology by 2020 and Beyond Concentrating”. 44p. 2009. Disponible en: http://www.eurec.be/component/option,com_docman/task,doc_download/gid,540/, Ap. 2010. M. Chaudhari, L. Frantzis & T. E. Hoff. “PV Grid Connected Market Potential Under a Cost Breakthrough Scenario”. The EnergyFoundation and Navigant Consulting. 94 p. 2004. National Renewable Energy Laboratory. “Advances in Photovoltaic (PV) Technology”. 2006. Disponible en: http://www.nrel.gov/analysis/seminar/docs/ea_seminar_apr_10.ppt, Jun. 2010. A. Farrell, D. Kammen & F. Ling, F. “Managing Greenhouse Gas Emissions in California”. The California Climate Change Center at UC Berkeley. Chapter 4. 2006. Disponible en: http://ethree.com/downloads/Climate%20Change%20Readings/California%20GHG%20Economics/Farrell%20-%2010- Synthesis%20Managing%20GHGs%20CA.pdf, Nov. 2009. V. Alberts, K. T. Hillie & C. M. Demanet. “Atomic force microscopy imaging of polycrystalline CuInSe2 thin films”. Journal of Microscopy, Vol. 197, No. 2 pp. 206-215. 2000. P. H. Templet. “Energy price disparity and public welfare”. Ecological Economics, Vol. 36, No. 3, pp. 443-460. 2001. Text http://purl.org/coar/access_right/c_abf2 info:eu-repo/semantics/openAccess http://purl.org/coar/version/c_970fb48d4fbd8a85 info:eu-repo/semantics/publishedVersion http://purl.org/coar/resource_type/c_6501 info:eu-repo/semantics/article P. L. Lemar. “The potential impact of policies to promote combined heat and power in US industry”. Energy Policy, Vol. 29, pp.1243-1254. 2001. United Nations. “Achieving sustainable development and promoting development cooperation: dialogues at the Economic and Social Council”. New York: UN Publications. 295 p. 2008. W. W. Hogan. “Electricity market restructuring: reforms of reforms”. Journal of Regulatory Economics, Vol. 21, pp. 103-132. 2002. P. J. Hughes & J. A. Shonder. “The Evaluation of a 4000 Home Geothermal Heat Pump Retrofit at Fort Polk, Louisiana”. Final Report, Oak Ridge National Laboratory ORNL-CON 460. 152 p. 1998. Department of Energy EERE. “Selecting and Installing a Geothermal Heat Pump System”. 2010. Disponible en: http://www.eere.energy.gov/consumer/your_home/s pace_heating_cooling/index.cfm/mytopic=12670, Feb. 2010. M. Bolinger, R. Wiser & W. Golove. “Quantifying the value that wind power provides as a edge against volatile natural gas prices”. Techical Report LBNL-50484. Environment Energy Technology Divition. Ernest Orlando Lawrence Berkeley National Lab.,Berkeley, CA. 2002. U.S. Congress, Office of Technology Assessment. “Energy Eflciency in Federal Facilities: Update on Funding and Potential Savings”. Report OTA-BPETI- 125. 22 p. 1994. D. Kammen & S. Pacca. “Assessing the Costs of Electricity”. Annual Review Environmental Resource, Vol. 29, pp. 301-344. 2004. M. T. Klare. “¿Viene el fascismo energético? La carrera energética global y sus consecuencias”. Online: http://www.estudiosecologistas.org/docs/reflexion/Ecosocialismo/fascismoenergetico.pdf, May2010. Community Science Action Guide. “The secret lives of energy”. Disponible en: http://www.fi.edu/guide/hughes/energypolution.html, May 2010. W. Steenkamp. “SA solar research eclipses rest of the world”. Saturday Argus, February 11. 2006. The Green power group. “Guide to Purchasing Green Power: Renewable Electricity, Renewable Energy Certificates and On-Site Renewable”. 50 p. 2004. Disponible en: http://www.thegreenpowergroup.org/pdf/Purchasing_Guide.pdf, Feb. 2010. Publication Revista Ingenierias USBmed - 2015 A pesar de tener el apoyo del público y numerosas ventajas sobre otras fuentes de energía, a las tecnologías renovables se les ha caracterizado repetidamente de no poder satisfacer nuestras necesidades energéticas, y se han presentado sólo como una opción entre los combustibles fósiles convencionales y la energía nuclear. En este trabajo se muestra que esto es una falsa opción, ya que la energía renovable puede generar de forma segura la misma energía que los combustibles convencionales, y puede hacerlo sin producir las emisiones de carbono o los residuos radiactivos que contaminan el medio ambiente. Wangong, Jennifer Daniel, Penelope 1 1 Núm. 1 , Año 2010 : Ingenierías USBMed Artículo de revista application/pdf Universidad San Buenaventura - USB (Colombia) Ingenierías USBMed https://revistas.usb.edu.co/index.php/IngUSBmed/article/view/233 A. Aulisi & G. Hanson. “Developing “next generation” green power products for corporate markets in North America”. World Resources Institute. 24 p. 2004. Disponible en http://www.thegreenpowergroup.org/pdf/Installment 6.pdf, Jan. 2010. https://creativecommons.org/licenses/by-nc-sa/4.0/ Español Academy of sciences for the developing world TWAS. Sustainable energy for Developing Countries. Trieste: TWAS Press. 48 p. 2008. C. L. Archer & M. Z. Jacobson. “Evaluation of global wind power”. Journal of Geophysical Research, Vol. 110. 2005. Disponible en: http://www.stanford.edu/group/efmh/winds/2004jd00 5462.pdf, Jan. 2010. Energy Efficiency and Renewable Energy. “Solar FAQs – Photovoltaics – The Basics, Other Resources”. Solar Energy Technologies Program. 2008. Disponible en: http://apps1.eere.energy.gov/solar/cfm/faqs/third_level.cfm/name=Photovoltaics/cat=The%20Basics, Ap. 2010. A. Grubler. Technology and Global Change. Cambridge: Cambridge University Press. 464 p. 2003. European Renewable Energy Council EREC. “Renewable Energy Scenario to 2040”. 16 p. 2004. Disponible en: http://www.erec.org/fileadmin/erec_docs/Documents/Publications/EREC_Scenario_2040.pdf, Nov. 2009. Shell International “Energy Needs, Choices, and Possibilities: Scenarios to 2050”. Global Business Environment. 32 p. 2001. Disponible en: http://www.cleanenergystates.org/CaseStudies/Shell_2050.pdf, Nov. 2009. European Commission. “Photovoltaic Solar Energy. Development and current research”. Luxembourg: Office for Official Publications of the European Union. 80 p. 2009 European Commission. “Effective policies for improving energy efficiency in buildings”. Paolo Bertoldi and Bogdan Atanasiu (Eds.) Luxembourg: Office for Official Publications of the European Communities. 443 p. 2005. The Japan Times. “Reactor increase not needed to cut CO2 drastically”. November 15. 2005. The Low Carbon Society Scenarios toward 2050, Program authored the study. Disponible en: http://search.japantimes.co.jp/member/member.html?nn20051115f2.htm, Jan. 2010. D. Yen-Nakafuji. “California Wind Resources”. Draft Staff Paper CEC-500-2005-071-D, California Energy Commission. 2005. Disponible en: http://www.energy.ca.gov/2005publications/CEC-500-2005-071/CEC-500-2005-071-D.PDF, Feb.2010. Energy Information Agency. “Annual Energy Review AER”. Report No. DOE/EIA-0384(2009). 2010. Disponible en: http://www.eia.doe.gov/emeu/aer/elect.html. S. Horowitz, C. Christensen & R. Anderson. “Searching for the Optimal Mix of Solar and Efficiency in Zero Net Energy Buildings”. National Renewable Energy Laboratory. Conference Paper NREL/CP-550-42956. 2008. E. Brown. “Near-Term Practical and Ultimate Technical Potential for Renewable Resources”. National Renewable Energy Laboratory. Draft. January 16. 7 p. 2006. Department of Energy DOE. “A Framework for Offshore Wind Energy Development in the United States”. Offshore Wind Collaborative Organizing Group. 2005. Disponible en: http://www.masstech.org/offshore/final_09_20.pdf, Nov. 2009. D. L. Elliot & M. N. Schwartz. “Wind Energy Potential in the United States”. Pacific Northwest Laboratory. NTIS no. DE94001667. 1993. Disponible en: http://www.windaction.org/?module=uploads&func=download&fileId=901, Dec. 2009. Análisis a la eficiencia de las fuentes de energía renovable Journal article https://revistas.usb.edu.co/index.php/IngUSBmed/article/download/233/111 2010-12-20T00:00:00Z 2010-12-20T00:00:00Z 31 2027-5846 10.21500/20275846.233 https://doi.org/10.21500/20275846.233 25 2010-12-20 |
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| title |
Análisis a la eficiencia de las fuentes de energía renovable |
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Análisis a la eficiencia de las fuentes de energía renovable Wangong, Jennifer Daniel, Penelope |
| title_short |
Análisis a la eficiencia de las fuentes de energía renovable |
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Análisis a la eficiencia de las fuentes de energía renovable |
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Análisis a la eficiencia de las fuentes de energía renovable |
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Análisis a la eficiencia de las fuentes de energía renovable |
| title_sort |
análisis a la eficiencia de las fuentes de energía renovable |
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Análisis a la eficiencia de las fuentes de energía renovable |
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A pesar de tener el apoyo del público y numerosas ventajas sobre otras fuentes de energía, a las tecnologías renovables se les ha caracterizado repetidamente de no poder satisfacer nuestras necesidades energéticas, y se han presentado sólo como una opción entre los combustibles fósiles convencionales y la energía nuclear. En este trabajo se muestra que esto es una falsa opción, ya que la energía renovable puede generar de forma segura la misma energía que los combustibles convencionales, y puede hacerlo sin producir las emisiones de carbono o los residuos radiactivos que contaminan el medio ambiente.
|
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Wangong, Jennifer Daniel, Penelope |
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Wangong, Jennifer Daniel, Penelope |
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1 |
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Núm. 1 , Año 2010 : Ingenierías USBMed |
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Universidad San Buenaventura - USB (Colombia) |
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Ingenierías USBMed |
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https://revistas.usb.edu.co/index.php/IngUSBmed/article/view/233 |
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Español |
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http://purl.org/coar/access_right/c_abf2 info:eu-repo/semantics/openAccess Revista Ingenierias USBmed - 2015 https://creativecommons.org/licenses/by-nc-sa/4.0/ |
| references |
IEA. “Key world energy statistics”. France: Soregraph. 82 p. 2010. California Climate Change Center at UC Berkeley. “Managing Greenhouse Gas Emissions in California”. 2006. Disponible en: http://www.fypower.org/pdf/CA_GHG_UCBerkeley.pdf, Dec. 2009. DOE. “Budget Request to Congress”. 2006. Disponible en: http://www.mbe.doe.gov/budget/06budget/Start.pdf, Dec. 2009. C. Komanoff & C. Roelofs. “Fiscal Fission: The Economic Failure of Nuclear Power”. USA: Komanoff Energy Associates. 98 p. 1992. OECD. “Measuring Support to Energy. Version 1.0”. 47 p. 2010. Disponible en: http://www.oecd.org/dataoecd/62/63/45339216.pdf, Jun. 2010. M. Goldberg. “Federal Energy Subsidies: Not All Technologies Are Created Equally”. Research Report No. 11, Renewable Energy Policy Project. 20 p. 2000. Disponible en: http://www.earthtrack.net/files/repp-subsidies.pdf, Dec. 2009. U.S. Department of Energy . “Combined Heat and Power: A Decade of Progress, A Vision for the Future”. 32 p. 2010. Disponible en: http://www1.eere.energy.gov/industry/distributedenergy/pdfs/chp_accomplishments_booklet.pdf, Fab.2010. Electric Storage Association. “Technologies: Pumped Hydro Storage”. 2009. Disponible en: http://www.electricitystorage.org/site/technologies/p umped_hydro/, Ap. 2010. G. Timur & T. Stenzel. “Variability of Wind Power and Other Renewables: Management Options and Strategies”. International Energy Agency IEA. 51 p. 2005. Instituto de la ingeniería de España. “Tendencias de la ingeniería: Crean material fotovoltaico para células solares más efectivo y económico”. Disponible en: http://www.tendencias21.net/Creanmaterial-fotovoltaico-para-celulas-solares-masefectivo-y-economico_a4156.html, Feb. 2010. S. Brown. “Estimating biomass and biomass change of tropical forests. A primer”. FAO Forestry Paper 134. A Forest Resources Assesment publication. Rome, 55 p. 1997. National Renewable EnergyLaboratory. “Power Technology Energy Databook”. USA: Progressive Management. 220 p. 2009. U.S. Department of Energy. “Advanced Hydropower Technology”. Energy Efficiencyand Renewable Energy Office – Wind and Hydropower Technologies Program. 2008. Disponible en: www1.eere.energy.gov/windandhydro/printable_versions/hydro_advtech.html, May 2010. A. Imhof & G. L. Lanza. “Greenwashing Hydropower. World Watch”. 2010. Disponible en: http://www.bicusa.org/en/Document.101877.aspx, Feb. 2010. Energy Information Administration. “Existing Capacity by EnergySource”. 2010. Disponible en: http://www.eia.doe.gov/cneaf/electricity/epa/epaxlfile1_2.pdf, Ap. 2010. EUREC. “Research Priorities for Renewable Energy Technology by 2020 and Beyond Concentrating”. 44p. 2009. Disponible en: http://www.eurec.be/component/option,com_docman/task,doc_download/gid,540/, Ap. 2010. M. Chaudhari, L. Frantzis & T. E. Hoff. “PV Grid Connected Market Potential Under a Cost Breakthrough Scenario”. The EnergyFoundation and Navigant Consulting. 94 p. 2004. National Renewable Energy Laboratory. “Advances in Photovoltaic (PV) Technology”. 2006. Disponible en: http://www.nrel.gov/analysis/seminar/docs/ea_seminar_apr_10.ppt, Jun. 2010. A. Farrell, D. Kammen & F. Ling, F. “Managing Greenhouse Gas Emissions in California”. The California Climate Change Center at UC Berkeley. Chapter 4. 2006. Disponible en: http://ethree.com/downloads/Climate%20Change%20Readings/California%20GHG%20Economics/Farrell%20-%2010- Synthesis%20Managing%20GHGs%20CA.pdf, Nov. 2009. V. Alberts, K. T. Hillie & C. M. Demanet. “Atomic force microscopy imaging of polycrystalline CuInSe2 thin films”. Journal of Microscopy, Vol. 197, No. 2 pp. 206-215. 2000. P. H. Templet. “Energy price disparity and public welfare”. Ecological Economics, Vol. 36, No. 3, pp. 443-460. 2001. P. L. Lemar. “The potential impact of policies to promote combined heat and power in US industry”. Energy Policy, Vol. 29, pp.1243-1254. 2001. United Nations. “Achieving sustainable development and promoting development cooperation: dialogues at the Economic and Social Council”. New York: UN Publications. 295 p. 2008. W. W. Hogan. “Electricity market restructuring: reforms of reforms”. Journal of Regulatory Economics, Vol. 21, pp. 103-132. 2002. P. J. Hughes & J. A. Shonder. “The Evaluation of a 4000 Home Geothermal Heat Pump Retrofit at Fort Polk, Louisiana”. Final Report, Oak Ridge National Laboratory ORNL-CON 460. 152 p. 1998. Department of Energy EERE. “Selecting and Installing a Geothermal Heat Pump System”. 2010. Disponible en: http://www.eere.energy.gov/consumer/your_home/s pace_heating_cooling/index.cfm/mytopic=12670, Feb. 2010. M. Bolinger, R. Wiser & W. Golove. “Quantifying the value that wind power provides as a edge against volatile natural gas prices”. Techical Report LBNL-50484. Environment Energy Technology Divition. Ernest Orlando Lawrence Berkeley National Lab.,Berkeley, CA. 2002. U.S. Congress, Office of Technology Assessment. “Energy Eflciency in Federal Facilities: Update on Funding and Potential Savings”. Report OTA-BPETI- 125. 22 p. 1994. D. Kammen & S. Pacca. “Assessing the Costs of Electricity”. Annual Review Environmental Resource, Vol. 29, pp. 301-344. 2004. M. T. Klare. “¿Viene el fascismo energético? La carrera energética global y sus consecuencias”. Online: http://www.estudiosecologistas.org/docs/reflexion/Ecosocialismo/fascismoenergetico.pdf, May2010. Community Science Action Guide. “The secret lives of energy”. Disponible en: http://www.fi.edu/guide/hughes/energypolution.html, May 2010. W. Steenkamp. “SA solar research eclipses rest of the world”. Saturday Argus, February 11. 2006. The Green power group. “Guide to Purchasing Green Power: Renewable Electricity, Renewable Energy Certificates and On-Site Renewable”. 50 p. 2004. Disponible en: http://www.thegreenpowergroup.org/pdf/Purchasing_Guide.pdf, Feb. 2010. A. Aulisi & G. Hanson. “Developing “next generation” green power products for corporate markets in North America”. World Resources Institute. 24 p. 2004. Disponible en http://www.thegreenpowergroup.org/pdf/Installment 6.pdf, Jan. 2010. Academy of sciences for the developing world TWAS. Sustainable energy for Developing Countries. Trieste: TWAS Press. 48 p. 2008. C. L. Archer & M. Z. Jacobson. “Evaluation of global wind power”. Journal of Geophysical Research, Vol. 110. 2005. Disponible en: http://www.stanford.edu/group/efmh/winds/2004jd00 5462.pdf, Jan. 2010. Energy Efficiency and Renewable Energy. “Solar FAQs – Photovoltaics – The Basics, Other Resources”. Solar Energy Technologies Program. 2008. Disponible en: http://apps1.eere.energy.gov/solar/cfm/faqs/third_level.cfm/name=Photovoltaics/cat=The%20Basics, Ap. 2010. A. Grubler. Technology and Global Change. Cambridge: Cambridge University Press. 464 p. 2003. European Renewable Energy Council EREC. “Renewable Energy Scenario to 2040”. 16 p. 2004. Disponible en: http://www.erec.org/fileadmin/erec_docs/Documents/Publications/EREC_Scenario_2040.pdf, Nov. 2009. Shell International “Energy Needs, Choices, and Possibilities: Scenarios to 2050”. Global Business Environment. 32 p. 2001. Disponible en: http://www.cleanenergystates.org/CaseStudies/Shell_2050.pdf, Nov. 2009. European Commission. “Photovoltaic Solar Energy. Development and current research”. Luxembourg: Office for Official Publications of the European Union. 80 p. 2009 European Commission. “Effective policies for improving energy efficiency in buildings”. Paolo Bertoldi and Bogdan Atanasiu (Eds.) Luxembourg: Office for Official Publications of the European Communities. 443 p. 2005. The Japan Times. “Reactor increase not needed to cut CO2 drastically”. November 15. 2005. The Low Carbon Society Scenarios toward 2050, Program authored the study. Disponible en: http://search.japantimes.co.jp/member/member.html?nn20051115f2.htm, Jan. 2010. D. Yen-Nakafuji. “California Wind Resources”. Draft Staff Paper CEC-500-2005-071-D, California Energy Commission. 2005. Disponible en: http://www.energy.ca.gov/2005publications/CEC-500-2005-071/CEC-500-2005-071-D.PDF, Feb.2010. Energy Information Agency. “Annual Energy Review AER”. Report No. DOE/EIA-0384(2009). 2010. Disponible en: http://www.eia.doe.gov/emeu/aer/elect.html. S. Horowitz, C. Christensen & R. Anderson. “Searching for the Optimal Mix of Solar and Efficiency in Zero Net Energy Buildings”. National Renewable Energy Laboratory. Conference Paper NREL/CP-550-42956. 2008. E. Brown. “Near-Term Practical and Ultimate Technical Potential for Renewable Resources”. National Renewable Energy Laboratory. Draft. January 16. 7 p. 2006. Department of Energy DOE. “A Framework for Offshore Wind Energy Development in the United States”. Offshore Wind Collaborative Organizing Group. 2005. Disponible en: http://www.masstech.org/offshore/final_09_20.pdf, Nov. 2009. D. L. Elliot & M. N. Schwartz. “Wind Energy Potential in the United States”. Pacific Northwest Laboratory. NTIS no. DE94001667. 1993. Disponible en: http://www.windaction.org/?module=uploads&func=download&fileId=901, Dec. 2009. |
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