Archer, C.L.; Jacobson, M.Z. (2005): Evaluation of global wind power. In: Journal of Geophysical Research D: Atmospheres, 110 (12), pp. 1-20.
Barreto, L.; Kemp, R. (2008): Inclusion of technology diffusion in energy-systems models: some gaps and needs. In: Journal of Cleaner Production, 16 (Issue 1, Supplement 1), pp. 95-101.
Bundesverband Solarwirtschaft e.V. [BSW-Solar] (2009): Statistische Zahlen der deutschen Solarstrombranche (Photovoltaik). Online: http://www.solarwirtschaft.de/fileadmin/content_files/Faktenblatt_PV_Okt09.pdf (accessed: 12.11.2009).
EurObserv'ER (2008): Wind energy barometer, Système solaires, n°183. Online: http://www.energies-renouvelables.org/observ-er/stat_baro/observ/baro183.asp (accessed: 05.06.2009).
European Photovoltaic Industry Association [EPIA] (2009): Global market outlook for Photovoltaics until 2013. Online: http://www.epia.org/ (accessed: 03.04.2009).
Eurostat (2008): Population projections. EUROPOP2008 convergence scenario., European Commission (ed.), Luxembourg.
Eurostat (2009): Total agricultural land. Eurostat statistics., European Commission (ed.), Luxembourg.
Eurostat (2010): Energy statistics. Online: http://epp.eurostat.ec.europa.eu/portal/page/portal/energy/data/database (accessed: 01.04.2010).
Focken, U.; Heinemann, D. (2003): Influence of Thermal Stratification on Wind Profiles for Heights up to 140m. Proceedings of EWEC 2003, Madrid.
Grubb, M.; Meyer, N. (1993): Wind energy: resources, systems and regional strategies. In: Johansson, T.B.; Kelly, H.; Reddy, A.K.N.; Wiliams, R. (eds.): Renewable energy: sources for fuels and electricity. Washington, D.C.: Island Press, pp. 157-212.
Hau, E. (2003): Windkraftanlagen : Grundlagen, Technik, Einsatz, Wirtschaftlichkeit, Berlin; Heidelberg; New York; Hongkong; London; Mailand; Paris; Tokio: Springer.
Held, A. (2011): Modelling the future development of renewable energy technologies in the European electricity sector using agent-based simulation, Stuttgart: Fraunhofer-IRB-Verl.
Holttinen, H.; Meibom, P.; Orths, A.; van Hulle, F.; Lange, B.; O'Malley, M.; Pierik, J.; Ummels, B.; Tande, J.; Estanquiero, A.; Gomez, E.; Söder, L.; Strbac, G.; Shakoor, A.; Ricardo, J.; Smith, C.; Milligan, M.R.; Ela, E. (2009): Design and operation of power systems with large amounts of wind power : Final report, IEA Wind Task 25, Phase One, 2006-2008: VTT Technical Research Centre of Finland.
Hoogwijk, M.; de Vries, B.; Turkenburg, W. (2004): Assessment of the global and regional geographical, technical and economic potential of onshore wind energy. In: Energy Economics, 26 (5), pp. 889-919.
Hoogwijk, M.M. (2004): On the global and regional potential of renewable energy sources, Utrecht: Dissertation. Universiteit Utrecht, Faculteit Scheikunde.
IEA Photovoltaic Power Systems Program (2009): Trends in photovoltaic applications : survey report of selected IEA countries between 1992 and 2008. Report IEA-PVPS T1-18:2009, [Switzerland]: International Energy Agency.
International Energy Agency [IEA] (2002): Potential for Building Integrated Photovoltaics. Online: http://www.iea-pvps.org/index.php?id=9&eID=dam_frontend_push&docID=394 (accessed: 25.03.2008).
International Energy Agency [IEA] (2007): World energy outlook 2007, International Energy Agency (ed.), Paris; New Milford, Conn.: International Energy Agency; Turpin Distribution.
Johansson, T.B.; Kelly, H.; Reddy, A.K.N.; Wiliams, R. (1993): A renewables-intensive global energy scenario (Appendix to Chapter 1). In: Johansson, T.B.; Kelly, H.; Reddy, A.K.N.; Wiliams, R. (eds.): Renewable energy : sources for fuels and electricity. Washington, D.C.: Island Press, pp. 1071-1142.
Kaltschmitt, M.; Wiese, A.; Streicher, W. (2003): Erneuerbare Energien - Systemtechnik, Wirtschaftlichkeit, Umweltaspekte, 3. Auflage, Streicher, W. (ed.), Berlin: Springer.
Kreutzmann, A. (2009): Prima Preise - Der Kund wird allmählich wieder König. Preisentwicklung Solarstromanlagen. In: Photon, 4, pp. 100-112.
New, M.; Lister, D.; Hulme, M.; Makin, I. (2002): A high-resolution data set of surface climate over global land areas. In: Climate Research, 21 (1), pp. 1-25.
Nunes de Lima, M.V. (2005): IMAGE2000 and CLC2000: Products and methods, Ispra [etc.]: European Commission, Joint Research Centre [etc.].
Prideaux, E.; Harrison, L. (2009): Drivers for growth stronger than ever. In: Wind Power Monthly, 25 (5), pp. 74-76.
Quaschning, V. (2000): Systemtechnik einer klimaverträglichen Elektrizitätsversorgung in Deutschland für das 21. Jahrhundert, Düsseldorf: VDI-Verlag.
Ragwitz, M.; Schleich, J.; Huber, C.; Resch, G.; Faber, T.; Voogt, M.; Coenraads, R.; Cleijne, H.; Bodo, P. (2005): FORRES 2020: Analysis of the Renewable Energy Sources' Evolution up to 2020: Fraunhofer IRB Verlag, Stuttgart.
Rutschmann, I.; Siemer, J. (2009): Wer zu spät kommt - baut eben nächstes Jahr. Preisentwicklung Solarstromanlagen. In: Photon, 9, pp. 130-136.
Soerensen, B.; Kuemmel, B.; Meibom, P. (1999): Long-term scenarios for global energy demand and supply. Four global greenhouse mitigation scenarios, Roskilde University, Denmark.
SRTM (2004): Void-filled seamless SRTM data V1. International Centre for Tropical Agriculture (CIAT), available from the CGIAR-CSI SRTM 90m. Online: http://srtm.csi.cgiar.org/ (accessed: 05.05.2009).
Suri, M.; Hofierka, J. (2004): A new GIS-based solar radiation model and its application to photovoltaic assessments. In: Transactions in GIS, 8 (2), pp. 175-190.
Suri, M.; Huld, T.A.; Dunlop, E.D.; Ossenbrink, H.A. (2007): Potential of solar electricity generation in the European Union member states and candidate countries. In: Solar Energy, 81 (10), pp. 1295-1305.
Troen, I.; Petersen, E.L.; Commission of the European Communities.Directorate-General for Science, R.a.D. (1989): European wind atlas, Roskilde, Denmark: Published for the Commission of the European Communities, Directorate-General for Science, Research, and Development, Brussels, Belgium by Risoe National Laboratory.
World Energy Council (1994): New renewable energy resources: a guide to the future, London: Kogan Page Ltd.
WPDA Consortium (2006): WDPA Consortium World Database on Protected Areas. (Copyright: UNEP-World Conservation Monitoring Centre – UNEP-WCMC).
Alakangas, E., A. Heikkinen, et al. (2007). Biomass fuel trade in Europe. Summary Report VTT-R-03508-07. Jyväskylä, Finland, VTT.
COWI (2009). Technical Assistance for an Evaluation of International Schemes to Promote Biomass Sustainability, COWI Consortium.
de Wit, M. and A. Faaij (2009). "European biomass resource potential and costs." Biomass and Bioenergy 34(2): 188-202.
de Wit, M., M. Junginger, et al. (2009). "Competition between biofuels: Modeling technological learning and cost reductions over time." Biomass and Bioenergy 34(2): 203-217.
EEA (2006). How much bioenergy can Europe produce without harming the environment? Copenhagen, Denmark, European Environment Agency (EEA).
EEA (2007a). Environmentally compatible bio-energy potential from European forests. Copenhagen, Denmark, European Environment Agency (EEA).
EEA (2007b). Estimating the environmentally compatible bioenergy potential from agriculture. Copenhagen, Denmark, European Environment Agency (EEA).
Ericsson, K. and L. J. Nilsson (2006). "Assessment of the potential biomass supply in Europe using a resource-focused approach." Biomass and Bioenergy 30(1): 1-15.
Faaij, A. and M. Junginger (2010). Bioenergy Technological Learning in the Energy Sector: Lessons for Policy, Industry and Science. M. Junginger, W. Sark and A. Faaij. Cheltenham, Edward Elgar: 145-163.
Fischer, G., E. Hizsnyik, et al. (2007). Assessment of biomass potentials for biofuel feedstock production in Europe: Methodology and results. Laxenbourg, Austria, Institute for Applied Systems Analysis (IIASA).
Fischer, G., S. Prieler, et al. (2009b). "Biofuel production potentials in Europe: Sustainable use of cultivated land and pastures, Part II: Land use scenarios." Biomass and Bioenergy 34(2): 173-187.
Fischer, G., S. Prieler, et al. (2009a). "Biofuel production potentials in Europe: Sustainable use of cultivated land and pastures. Part I: Land productivity potentials." Biomass and Bioenergy 34(2): 159-172.
Gańko, E., G. Kunikowski, et al. (2008). Renewable fuels for advanced powertrains - Final report WP5.1, EC BREC, Institute for Fuels and Renewable Energy, Poland.
Held, A., M. Ragwitz, et al. (2010). D5 & D6 Report: Indicators assessing the performance of renewable energy support policies in 27 Member States RE-Shaping: Shaping an effective and efficient European renewable energy market Kalrsuhe, Fraunhofer ISI and Ecofys.
IEA (2000). Experience Curves for Energy Technology Policy. Paris, International Energy Agency (IEA).
IEA (2008). Energy Technology Perspectives 2008 - Scenarios and Strategies to 2050 - In Support of the G8 Plan of Action. Paris, International Energy Agency (IEA).
Isles, L. (2006). Offshore wind farm development: Cost reduction potential. Lund, Sweden, Lund University.
Junginger, M., E. de Visser, et al. (2006). "Technological learning in bioenergy systems." Energy Policy 34(18): 4024-4041.
Junginger, M., A. Faaij, et al. (2005). "Technological learning and cost reductions in wood fuel supply chains in Sweden." Biomass and Bioenergy 29(6): 399-418.
Junginger, M., A. Faaij, et al. (2004). "Cost Reduction Prospects for Offshore Wind Farms." W IND E NGINEERING VOLUME 28,(N O . 1, 2004): 97–118 PP.
Junginger, M., P. Lako, et al. (2010). Onshore wind energy Technological Learning in the Energy Sector: Lessons for Policy, Industry and Science. M. Junginger, W. Sark and A. Faaij. Cheltenham, Edward Elgar: 90-104.
Junginger, M., W. v. Sark, et al. (2010). Technological Learning In The Energy Sector - Lessons for Policy, Industry and Science. Cheltenham, UK, Edward Elgar Publishing Ltd.
Junginger, M., W. v. Sark, et al. (2010). The experience curve approach: history, methodological aspects and applications. Technological Learning in the Energy Sector: Lessons for Policy, Industry and Science. M. Junginger, W. Sark and A. Faaij. Cheltenham, Edward Elgar: 90-104.
Lako, P. (2002). LEARNING AND DIFFUSION FOR WIND AND SOLAR POWER TECHNOLOGIES - Monograph in the framework of the VLEEM project. Petten, the Netherlands, ECN.
Lako, P., M. Junginger, et al. (2010). Offshore wind energy. Technological Learning in the Energy Sector: Lessons for Policy, Industry and Science. M. Junginger, W. Sark and A. Faaij. Cheltenham, Edward Elgar: 105-117.
Mantau, U., U. Saal, et al. (2010). EUwood Real potential for changes in growth and use of EU forests.
Nemet, G. F. (2006). "Beyond the learning curve: factors influencing cost reductions in photovoltaics." Energy Policy 34(17): 3218-3232.
Nemet, G. F. (2009). "Interim monitoring of cost dynamics for publicly supported energy technologies." Energy Policy 37(3): 825-835.
Nielsen, J. B. H., P. Oleskowicz-Popiel, et al. (2007). ENERGY CROP POTENTIALS FOR BIOENERGY IN EU-27 15th European Biomass Conference & Exhibition - From Research to Market Deploymen, Berlin, Germany
Rettenmaier, N., A. Schorb, et al. (2010). Status of Biomass Resource Assessments - Version 3. Heidelberg, Germany, Biomass Energy Europe (BEE).
Sark, W. v. and P. Lako (2010). Concentrating Solar Thermal Electricity Technology. Technological Learning in the Energy Sector: Lessons for Policy, Industry and Science. M. Junginger, W. Sark and A. Faaij. Cheltenham, Edward Elgar: 141-144.
Sark, W. v., G. Nemet, et al. (2010). Photovoltaic Solar Energy. Technological Learning in the Energy Sector: Lessons for Policy, Industry and Science. M. Junginger, W. Sark and A. Faaij. Cheltenham, Edward Elgar: 118-140.
Siemons, R., M. Vis, et al. (2004). BIO-ENERGY'S ROLE IN THE EU ENERGY MARKET - A view of developments until 2020, Report to the European Commission.
Thrän, D., M. Weber, et al. (2006). Sustainable Strategies for Biomass Use in the European Context Leipzig, Germany, Institut für Energetik und Umwelt GmbH.
Wit, M. A. d., A. Faaij, et al. (2008). Biomass Resources Potential and Related Costs - the cost supply potential of biomass resources in the EU-27, Switzerland, Norway and the Ukraine. Report on Work Package 3 of the EU REFUEL project, Copernicus Institute - Utrecht University and International Insitute of Applied System Analysis (IIASA).
Yu, C. F., W. G. J. H. M. van Sark, et al. (2010). "Unraveling the photovoltaic technology learning curve by incorporation of input price changes and scale effects." Renewable and Sustainable Energy Reviews 15(1): 324-337.
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