An analysis of electricity generation with renewable resources in Germany

Germany has an experience of renewable energy policies that encourages their usage, achieving technological migration and the redesign of its power generation matrix, achieving 112 GW of renewable resources at 2017. The research presents an analysis between the energy policies and the electricity st...

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Autores:: Mendoza Merchán, Eduardo Vicente
Gutiérrez, Moisés David Velásquez
Montenegro, Diego Armando Medina
Nuñez Alvarez, José R.
Grimaldo Guerrero, John William

Tipo de recurso:: Article of journal

Fecha de publicación:: 2020

Institución:: Corporación Universidad de la Costa

Repositorio:: REDICUC - Repositorio CUC

Idioma:: eng

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network_acronym_str	RCUC2
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repository_id_str
dc.title.spa.fl_str_mv	An analysis of electricity generation with renewable resources in Germany
title	An analysis of electricity generation with renewable resources in Germany
spellingShingle	An analysis of electricity generation with renewable resources in Germany Energy policy Renewable energy Forecasting Energiewende
title_short	An analysis of electricity generation with renewable resources in Germany
title_full	An analysis of electricity generation with renewable resources in Germany
title_fullStr	An analysis of electricity generation with renewable resources in Germany
title_full_unstemmed	An analysis of electricity generation with renewable resources in Germany
title_sort	An analysis of electricity generation with renewable resources in Germany
dc.creator.fl_str_mv	Mendoza Merchán, Eduardo Vicente Gutiérrez, Moisés David Velásquez Montenegro, Diego Armando Medina Nuñez Alvarez, José R. Grimaldo Guerrero, John William
dc.contributor.author.spa.fl_str_mv	Mendoza Merchán, Eduardo Vicente Gutiérrez, Moisés David Velásquez Montenegro, Diego Armando Medina Nuñez Alvarez, José R. Grimaldo Guerrero, John William
dc.subject.spa.fl_str_mv	Energy policy Renewable energy Forecasting Energiewende
topic	Energy policy Renewable energy Forecasting Energiewende
description	Germany has an experience of renewable energy policies that encourages their usage, achieving technological migration and the redesign of its power generation matrix, achieving 112 GW of renewable resources at 2017. The research presents an analysis between the energy policies and the electricity statistics, the results forecast a date in which they will reach the goal of 50% of annual generation of total electric power by renewable sources, a goal set in 2012.
publishDate	2020
dc.date.accessioned.none.fl_str_mv	2020-11-13T19:53:22Z
dc.date.available.none.fl_str_mv	2020-11-13T19:53:22Z
dc.date.issued.none.fl_str_mv	2020
dc.type.spa.fl_str_mv	Artículo de revista
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dc.identifier.issn.spa.fl_str_mv	2146-4553
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dc.identifier.doi.spa.fl_str_mv	https://doi.org/10.32479/ijeep.9369
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identifier_str_mv	2146-4553 Corporación Universidad de la Costa REDICUC - Repositorio CUC
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dc.language.iso.none.fl_str_mv	eng
language	eng
dc.relation.references.spa.fl_str_mv	Afonso, T.L., Marques, A.C., Fuinhas, J.A. (2017), Strategies to make renewable energy sources compatible with economic growth. Energy Strategy Reviews, 18, 121-126. Anatolitis, V., Welisch, M. (2017), Putting renewable energy auctions into action-an agent-based model of onshore wind power auctions in Germany. Energy Policy, 110, 394-402. Andor, M., Frondel, M., Vance, C. (2017), Germany’s Energiewende: A Tale of Increasing Costs and Decreasing Willingness-to-pay. USAEE Working Paper No. United States: U.S. Association for Energy Economics. p17-293. Appunn, K. (2014), Clean Energy Wire. Defining features of the Renewable Energy Act (EEG). Available from: https://www. cleanenergywire.org/factsheets/defining-features-renewable-energyact-eeg. Appunn, K. (2016), Clean Energy Wire. EEG reform 2016-switching to Auctions for Renewables. Available from: https://www. cleanenergywire.org/factsheets/eeg-reform-2016-switchingauctions-renewables. Balat, M. (2006), Hydropower Systems and Hydropower Potential in the European Union Countries. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 28(10), 965-978. BMWi. (2017), Federal Ministry for Economic Affairs and Energy. Erneuerbare-energien. Available from: https://www.bit.ly/2g8TWpU. BMWi. (2018), Federal Ministry for Economic Affairs and Energy. Zeitreihen zur Entwicklung der Erneuerbaren Energien in Deutschland. Available from: https://www.bit.ly/2L9IuW1. Bohringer, C., Cuntz, A., Harhoff, D., Asane-Otoo, E. (2017), The impact of the german feed-in tariff scheme on innovation: Evidence based on patent filings in renewable energy technologies. Energy Economics, 67, 545-553. BP. (2018), Statistical Review of World Energy. Obtenido de. Available from: https://www.bp.com/en/global/corporate/energy-economics/ statistical-review-of-world-energy.html. Brick, S., Thernstrom, S. (2016), Renewables and decarbonization: Studies of California, Wisconsin and Germany. Electricity Journal, 29(3), 6-12. Bruns, E., Ohlhorst, D., Wenzel, B., Köppel, J. (2011), Renewable Energies in Germany’s Electricity Market. Berlin, Germany: Springer. Bundesnetzagentur. (2018), Federal Network Agency. Energy Monitoring Report. The Bundesnetzagentur and the Bundeskartellamt. Available from: https://www.bundesnetzagentur.de/SharedDocs/ Pressemitteilungen/EN/2018/20181128_Monitoringbericht.html. Christoforidis, G.C., Chrysochos, A., Papagiannis, G., Hatzipanayi, M., Georghiou, G.E. (2013), Promoting PV energy through net metering optimization: The PV-NET project. In: Proceedings of 2013 International Conference on Renewable Energy Research and Applications, ICRERA 2013. United States: Conferences and Proceedings. p1117-1122. de Melo, C.A., de Martino Jannuzzi, G., Bajay, S.V. (2016), Nonconventional renewable energy governance in Brazil: Lessons to learn from the German experience. Renewable and Sustainable Energy Reviews, 61, 222-234. De Vos, K. (2015), Negative wholesale electricity prices in the German, French and Belgian day-ahead, intra-day and real-time markets. Electricity Journal, 28(4), 36-50. Dinkloh, P. (2014), Clean Energy Wire. EEG 2.0-a New Legal Framework for the German Energy Transition. Available from: https://www. cleanenergywire.org/dossiers/eeg-20-new-legal-framework-germanenergy-transition-0. Electricity Feed-In Law. (1991), Available from: https://www.bit. ly/2PPpRbT. [Last accessed on 2018 Nov 14]. European Comission. (2008), Climate Action. Retrieved from 2020 Climate and Energy Package. Available from: https://www.ec.europa. eu/clima/policies/strategies/2020_en. Federal Building Codes for Renewable Energy Production. (1997), Available from: https://www.bit.ly/2Si2Hg8. [Last accessed on 2018 Nov 14]. Fischer, W., Hake, J.F., Kuckshinrichs, W., Schröder, T., Venghaus, S. (2016), German energy policy and the way to sustainability: Five controversial issues in the debate on the “Energiewende”. Energy, 115(3), 1580-1591. Fraunhofer ISE. (2018a), Net Installed Electricity Generation Capacity in Germany. Available from: https://www.bit.ly/1W7B8FJ. Fraunhofer ISE. (2018b), Annual Electricity Generation in Germany. Available from: https://www.bit.ly/2GArTx6. Grimaldo, G.J.W., Becerra, M.A.M., Calle, W.P.R. (2017), Modelo para pronosticar la demanda de energía eléctrica utilizando los producto interno brutos sectoriales: Caso de Colombia. Espacios, 38(22), 3. IEA. (2017), International Energy Agency. Available from: https://www. bit.ly/2QEVg69. Kreuz, S., Müsgens, F. (2018), Measuring the cost of renewable energy in Germany. Electricity Journal, 31(4), 29-33. Leiren, M.D., Reimer, I. (2018), Historical institutionalist perspective on the shift from feed-in tariffs towards auctioning in German renewable energy policy. Energy Research and Social Science, 43, 33-40. Loans-100,000 Roofs Programme. (1999), Available from: https://www. bit.ly/2Si2w4s. [Last accessed on 2018 Nov 14]. Milanés, B.C., Planas, J., Pelot, R., Núñez, J.R. (2020), A new methodology incorporating public participation within Cuba’s ICZM program. Ocean and Coastal Management, 186, 105101. Morris, C., Pehnt, M. (2012), Energy Transition-the German Energiewende Book. Berlin, Germany: Heinrich Böll Foundation. Morton, T.E., Peabody, J.M. (2010), Feed-in tariffs: Misfits in the federal and state regulatory regime? Electricity Journal, 23(8), 17-26. Ochoa, G., Alvarez, J.N., Acevedo, C. (2019), Research evolution on renewable energies resources from 2007 to 2017: A comparative study on solar, geothermal, wind and biomass energy. International Journal of Energy Economics and Policy, 9(6), 242-253. Paish, O. (2002), Small hydro power: Technology and current status. Renewable and Sustainable Energy Reviews, 6(6), 537-556. Pescia, D., Graichen, P. (2015), Understanding the Energiewende. Agora energiewende. Berlin, Germany: Data analysis and Graphs: Philipp Litz. Available from: https://www.agora-energiewende.de/ en/publications/understanding-the-energiewende-1. [Last accessed on 2018 Nov 14]. Purkus, A., Barth, V. (2011), Geothermal power production in future electricity markets-a scenario analysis for Germany. Energy Policy, 29(1), 349-357. Quitzow, L., Canzler, W., Grundmann, P., Leibenath, M., Moss, T., Rave, T. (2016), The German energiewende e what’s happening? Introducing the special issue. Utilities Policy, 41, 163-171. R Foundation for Statistical Computing. (2016), R: A Language and Environment for Statistical Computing. Vienna, Austria: R Foundation for Statistical Computing. Regnier, E. (2007), Oil and energy price volatility. Energy Economics, 29(3), 405-427. RES Act. (2000), Renewable Energy Sources Act 2000. Available from: https://www.bit.ly/2EzmnZd. [Last accessed on 2018 Nov 14]. RES Act. (2004), Renewable Energy Sources Act 2004. Available from: https://www.bit.ly/2rjrg1E. [Last accessed on 2018 Nov 14]. RES Act. (2009), Amendment of the Renewable Energy Sources Act 2009. Available from: https://www.bit.ly/2PTTfh4. [Last accessed on 2018 Nov 14]. RES Act. (2012), Renewable Energy Sources Act 2012. Available from: https://www.bit.ly/2S9jnXl. [Last accessed on 2018 Nov 14]. RES Act. (2014), Renewable Energy Sources Act 2014. Available from: https://www.bit.ly/2UZonQi. [Last accessed on 2018 Nov 14]. RES Act. (2017), Amendment of the Renewable Energy Sources Act 2017. Available from: https://www.bit.ly/2EEPHym. [Last accessed on 2018 Nov 14]. Thalman, E., Wehrmann, B. (2018), Clean Energy Wire. What German Households Pay for Power. Available from: https://www. cleanenergywire.org/factsheets/what-german-households-paypower. Wirth, H. (2018), Recent Facts About Photovoltaics in Germany. Freiburg: Fraunhofer ISE. Available from: https://www.ise.fraunhofer.de/ content/dam/ise/en/documents/publications/studies/recent-factsabout-photovoltaics-in-germany.pdf.
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spelling	Mendoza Merchán, Eduardo Vicente82a314d47eefa500caa9f32236626f39Gutiérrez, Moisés David Velásquezc817ceb79eaabbac70dc70b3e9b226e8Montenegro, Diego Armando Medina068c6d8560589b4e604ebcb641cb2cf0Nuñez Alvarez, José R.af2cf6d21f39746bdf17bdb32f960011Grimaldo Guerrero, John William4554b13a3632a3d9cb61becc3dd94e2d2020-11-13T19:53:22Z2020-11-13T19:53:22Z20202146-4553https://hdl.handle.net/11323/7309https://doi.org/10.32479/ijeep.9369Corporación Universidad de la CostaREDICUC - Repositorio CUChttps://repositorio.cuc.edu.co/Germany has an experience of renewable energy policies that encourages their usage, achieving technological migration and the redesign of its power generation matrix, achieving 112 GW of renewable resources at 2017. The research presents an analysis between the energy policies and the electricity statistics, the results forecast a date in which they will reach the goal of 50% of annual generation of total electric power by renewable sources, a goal set in 2012.application/pdfengCorporación Universidad de la CostaCC0 1.0 Universalhttp://creativecommons.org/publicdomain/zero/1.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2International Journal of Energy Economics and Policyhttps://www.researchgate.net/publication/343558810_An_Analysis_of_Electricity_Generation_with_Renewable_Resources_in_GermanyEnergy policyRenewable energyForecastingEnergiewendeAn analysis of electricity generation with renewable resources in GermanyArtículo de revistahttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1Textinfo:eu-repo/semantics/articlehttp://purl.org/redcol/resource_type/ARTinfo:eu-repo/semantics/acceptedVersionAfonso, T.L., Marques, A.C., Fuinhas, J.A. (2017), Strategies to make renewable energy sources compatible with economic growth. Energy Strategy Reviews, 18, 121-126.Anatolitis, V., Welisch, M. (2017), Putting renewable energy auctions into action-an agent-based model of onshore wind power auctions in Germany. Energy Policy, 110, 394-402.Andor, M., Frondel, M., Vance, C. (2017), Germany’s Energiewende: A Tale of Increasing Costs and Decreasing Willingness-to-pay. USAEE Working Paper No. United States: U.S. Association for Energy Economics. p17-293.Appunn, K. (2014), Clean Energy Wire. Defining features of the Renewable Energy Act (EEG). Available from: https://www. cleanenergywire.org/factsheets/defining-features-renewable-energyact-eeg.Appunn, K. (2016), Clean Energy Wire. EEG reform 2016-switching to Auctions for Renewables. Available from: https://www. cleanenergywire.org/factsheets/eeg-reform-2016-switchingauctions-renewables.Balat, M. (2006), Hydropower Systems and Hydropower Potential in the European Union Countries. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 28(10), 965-978.BMWi. (2017), Federal Ministry for Economic Affairs and Energy. Erneuerbare-energien. Available from: https://www.bit.ly/2g8TWpU.BMWi. (2018), Federal Ministry for Economic Affairs and Energy. Zeitreihen zur Entwicklung der Erneuerbaren Energien in Deutschland. Available from: https://www.bit.ly/2L9IuW1.Bohringer, C., Cuntz, A., Harhoff, D., Asane-Otoo, E. (2017), The impact of the german feed-in tariff scheme on innovation: Evidence based on patent filings in renewable energy technologies. Energy Economics, 67, 545-553.BP. (2018), Statistical Review of World Energy. Obtenido de. Available from: https://www.bp.com/en/global/corporate/energy-economics/ statistical-review-of-world-energy.html.Brick, S., Thernstrom, S. (2016), Renewables and decarbonization: Studies of California, Wisconsin and Germany. Electricity Journal, 29(3), 6-12.Bruns, E., Ohlhorst, D., Wenzel, B., Köppel, J. (2011), Renewable Energies in Germany’s Electricity Market. Berlin, Germany: Springer.Bundesnetzagentur. (2018), Federal Network Agency. Energy Monitoring Report. The Bundesnetzagentur and the Bundeskartellamt. Available from: https://www.bundesnetzagentur.de/SharedDocs/ Pressemitteilungen/EN/2018/20181128_Monitoringbericht.html.Christoforidis, G.C., Chrysochos, A., Papagiannis, G., Hatzipanayi, M., Georghiou, G.E. (2013), Promoting PV energy through net metering optimization: The PV-NET project. In: Proceedings of 2013 International Conference on Renewable Energy Research and Applications, ICRERA 2013. United States: Conferences and Proceedings. p1117-1122.de Melo, C.A., de Martino Jannuzzi, G., Bajay, S.V. (2016), Nonconventional renewable energy governance in Brazil: Lessons to learn from the German experience. Renewable and Sustainable Energy Reviews, 61, 222-234.De Vos, K. (2015), Negative wholesale electricity prices in the German, French and Belgian day-ahead, intra-day and real-time markets. Electricity Journal, 28(4), 36-50.Dinkloh, P. (2014), Clean Energy Wire. EEG 2.0-a New Legal Framework for the German Energy Transition. Available from: https://www. cleanenergywire.org/dossiers/eeg-20-new-legal-framework-germanenergy-transition-0.Electricity Feed-In Law. (1991), Available from: https://www.bit. ly/2PPpRbT. [Last accessed on 2018 Nov 14].European Comission. (2008), Climate Action. Retrieved from 2020 Climate and Energy Package. Available from: https://www.ec.europa. eu/clima/policies/strategies/2020_en.Federal Building Codes for Renewable Energy Production. (1997), Available from: https://www.bit.ly/2Si2Hg8. [Last accessed on 2018 Nov 14].Fischer, W., Hake, J.F., Kuckshinrichs, W., Schröder, T., Venghaus, S. (2016), German energy policy and the way to sustainability: Five controversial issues in the debate on the “Energiewende”. Energy, 115(3), 1580-1591.Fraunhofer ISE. (2018a), Net Installed Electricity Generation Capacity in Germany. Available from: https://www.bit.ly/1W7B8FJ.Fraunhofer ISE. (2018b), Annual Electricity Generation in Germany. Available from: https://www.bit.ly/2GArTx6.Grimaldo, G.J.W., Becerra, M.A.M., Calle, W.P.R. (2017), Modelo para pronosticar la demanda de energía eléctrica utilizando los producto interno brutos sectoriales: Caso de Colombia. Espacios, 38(22), 3.IEA. (2017), International Energy Agency. Available from: https://www. bit.ly/2QEVg69.Kreuz, S., Müsgens, F. (2018), Measuring the cost of renewable energy in Germany. Electricity Journal, 31(4), 29-33.Leiren, M.D., Reimer, I. (2018), Historical institutionalist perspective on the shift from feed-in tariffs towards auctioning in German renewable energy policy. Energy Research and Social Science, 43, 33-40.Loans-100,000 Roofs Programme. (1999), Available from: https://www. bit.ly/2Si2w4s. [Last accessed on 2018 Nov 14].Milanés, B.C., Planas, J., Pelot, R., Núñez, J.R. (2020), A new methodology incorporating public participation within Cuba’s ICZM program. Ocean and Coastal Management, 186, 105101.Morris, C., Pehnt, M. (2012), Energy Transition-the German Energiewende Book. Berlin, Germany: Heinrich Böll Foundation.Morton, T.E., Peabody, J.M. (2010), Feed-in tariffs: Misfits in the federal and state regulatory regime? Electricity Journal, 23(8), 17-26.Ochoa, G., Alvarez, J.N., Acevedo, C. (2019), Research evolution on renewable energies resources from 2007 to 2017: A comparative study on solar, geothermal, wind and biomass energy. International Journal of Energy Economics and Policy, 9(6), 242-253. Paish, O. (2002), Small hydro power: Technology and current status. Renewable and Sustainable Energy Reviews, 6(6), 537-556. Pescia, D., Graichen, P. (2015), Understanding the Energiewende. Agora energiewende. Berlin, Germany: Data analysis and Graphs: Philipp Litz. Available from: https://www.agora-energiewende.de/ en/publications/understanding-the-energiewende-1. [Last accessed on 2018 Nov 14].Purkus, A., Barth, V. (2011), Geothermal power production in future electricity markets-a scenario analysis for Germany. Energy Policy, 29(1), 349-357.Quitzow, L., Canzler, W., Grundmann, P., Leibenath, M., Moss, T., Rave, T. (2016), The German energiewende e what’s happening? Introducing the special issue. Utilities Policy, 41, 163-171.R Foundation for Statistical Computing. (2016), R: A Language and Environment for Statistical Computing. Vienna, Austria: R Foundation for Statistical Computing.Regnier, E. (2007), Oil and energy price volatility. Energy Economics, 29(3), 405-427. RES Act. (2000), Renewable Energy Sources Act 2000. Available from: https://www.bit.ly/2EzmnZd. [Last accessed on 2018 Nov 14].RES Act. (2004), Renewable Energy Sources Act 2004. Available from: https://www.bit.ly/2rjrg1E. [Last accessed on 2018 Nov 14].RES Act. (2009), Amendment of the Renewable Energy Sources Act 2009. Available from: https://www.bit.ly/2PTTfh4. [Last accessed on 2018 Nov 14].RES Act. (2012), Renewable Energy Sources Act 2012. Available from: https://www.bit.ly/2S9jnXl. [Last accessed on 2018 Nov 14].RES Act. (2014), Renewable Energy Sources Act 2014. Available from: https://www.bit.ly/2UZonQi. [Last accessed on 2018 Nov 14].RES Act. (2017), Amendment of the Renewable Energy Sources Act 2017. Available from: https://www.bit.ly/2EEPHym. [Last accessed on 2018 Nov 14].Thalman, E., Wehrmann, B. (2018), Clean Energy Wire. What German Households Pay for Power. Available from: https://www. cleanenergywire.org/factsheets/what-german-households-paypower.Wirth, H. (2018), Recent Facts About Photovoltaics in Germany. Freiburg: Fraunhofer ISE. 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An analysis of electricity generation with renewable resources in Germany

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