References
- Aslani A, Helo P, Feng B, et al. Renewable energy supply chain in Ostrobothnia region and Vaasa city: Innovative framework. Renewable and Sustainable Energy Reviews. 2013;23:405–411. doi:10.1016/j.rser.2013.03.012
- Aslani A, Mohammadi M, Gonzalez MI, et al. Evaluation of the potentials and feasibility of microalgae production in Iran. Bioresour Technol Rep. 2018;1:24–30. 2018
- IEA. World Energy Balances 2017. https://www.iea.org/statistics/balances/
- Aslani A, Helo P, Naaranoja M. Role of renewable energy policies in energy dependency in Finland: System dynamics approach. Appl Energy. 2014;113:758–765. doi:10.1016/j.apenergy.2013.08.015
- Aslani A, Mazzuca-Sobczuk T, Eivazi S, et al. Analysis of bioenergy technologies development based on life cycle and adaptation trends. Renewable Energy. 2018;127:1–11. doi:10.1016/j.renene.2018.05.035
- Kumar A, Kumar N, Baredar P, et al. A review on biomass energy resources, potential, conversion and policy in India. Renewable and Sustainable Energy Reviews. 2015;45:530–539.
- Alam M, Rahman A, Eusuf M. Diffusion potential of renewable energy technology for sustainable development: Bangladeshi experience. Energy for Sustainable Development. 2003;7:88–96.
- Aslani A. Strategic variables of commercialization of renewable energy technologies. Journal of Renewable and Sustainable Energy. 2015;7:023105.
- Aslani A, Naaranoja M, Wong K-FV. Strategic analysis of diffusion of renewable energy in the Nordic countries. Renewable and Sustainable Energy Reviews. 2013;22:497–505. doi:10.1016/j.rser.2013.01.060
- Freitas IMB, Dantas E, Iizuka M. The Kyoto mechanisms and the diffusion of renewable energy technologies in the BRICS. Energy Policy. 2012;42:118–128.
- Walsh PR. Innovation nirvana or innovation wasteland? Identifying commercialization strategies for small and medium renewable energy enterprises. Technovation. 2012;32:32–42.
- Cortez LAB, Souza GM, de Brito Cruz CH, et al. An assessment of Brazilian Government Initiatives and Policies for the promotion of biofuels through research, commercialization, and private investment support. Biofuels in Brazil: Springer; 2014. p. 31–60.
- Tigabu AD, Berkhout F, van Beukering P. The diffusion of a renewable energy technology and innovation system functioning: Comparing bio-digestion in Kenya and Rwanda. Technological Forecasting and Social Change. 2015;90:331–345.
- Eleftheriadis IM, Anagnostopoulou EG. Identifying barriers in the diffusion of renewable energy sources. Energy Policy. 2015;80:153–164.
- Adams R, Pless J, Arent DJ, et al. Accelerating Clean Energy Commercialization. A Strategic Partnership Approach. National Renewable Energy Lab. (NREL), Golden, CO (United States), 2016.
- Baxter P, Jack S. Qualitative case study methodology: Study design and implementation for novice researchers. The Qualitative Report. 2008;13:544–559.
- British Petroleum. British Petroleum Statistical Review of World Energy. British Petroleum Corporate Communications Services, London. 2018.
- Netherlands S. Renewable energy in the Netherlands 2010. Statistic Netherlands, The Hague. 2012.
- Bacovsky D, Ludwiczek N, Pointner C, et al. IEA Bioenergy Countries' Report: Bioenergy policies and status of implementation. Bioenergy 2020+ GmbH, Graz (Austria), 2016.
- Suurs RA, Hekkert MP. Competition between first and second generation technologies: Lessons from the formation of a biofuels innovation system in the Netherlands. Energy. 2009;34:669–679.
- Emiel van Sambeek JW, Zheng Y, Hove A. Bio-Energy Co-operation between China and the Netherlands. china: Azure International, 2013.
- Agency Ie. Energy Policies of IEA Countries: Netherland 2014 Review. International Energy Agency; 2014.
- Fagernäs L, Johansson A, Wilén C, et al. Bioenergy in Europe. Opportunities and Barriers VTT Tierdotteita Research Notes. 2006;2352.
- Dong N. Support mechanisms for cofiring secondary fuels. IEA Clean Coal Centre, London, UK. 2012.
- Buijks J. Future of algae based biodiesel production in the Netherlands. Netherland; 2013.
- Agency IE. Energy Policies of IEA Countries: Portugal 2016 Review. Paris; 2016.
- Ferreira S, Monteiro E, Brito P, et al. Biomass resources in Portugal: Current status and prospects. Renewable and Sustainable Energy Reviews. 2017;78:1221–1235.
- Pereira S, Costa M, da Graça Carvalho M, et al. Potential of poplar short rotation coppice cultivation for bioenergy in Southern Portugal. Energy Conversion and Management. 2016;125:242–253.
- Lourinho G, Brito P. Assessment of biomass energy potential in a region of Portugal (Alto Alentejo). Energy. 2015;81:189–201.
- Nunes L, Matias J, Catalão J. Biomass in the generation of electricity in Portugal: A review. Renewable and Sustainable Energy Reviews. 2017;71:373–378.
- Reboredo F. Forest Context and Policies in Portugal: Present and Future Challenges. Germany: Springer; 2014.
- Katsarova I. Common Agricultural Policy after 2013. What will change, Library of the European Parliament-Library Briefing [Retrieved 11 August 2013] http://www.europarleuropa.eu/RegData/bibliotheque/briefing/2012/120236/LDM_BRI(2012)120236_REV1_EN.pdf [last update 01-04-2014]. 2013.
- Teixeira S, Monteiro E, Silva V, et al. Prospective application of municipal solid wastes for energy production in Portugal. Energy Policy. 2014;71:159–168.
- Wahlroos M, Cross S, Syri S. editors. Prospects for biomass use in large power plants in the EU-27 and the role of Combined Heat and Power production. European Energy Market (EEM), 2014 11th International Conference on the. USA: IEEE; 2014.
- Fernandes L, Ferreira P. Renewable energy scenarios in the Portuguese electricity system. Energy. 2014;69:51–57.
- Faaij AP. Bio-energy in Europe: changing technology choices. Energy Policy. 2006;34:322–342.
- Tumuluru JS, Hess JR, Boardman RD, et al. Formulation, pretreatment, and densification options to improve biomass specifications for co-firing high percentages with coal. Industrial Biotechnology. 2012;8:113–132.
- Kaygusuz K. Energy for sustainable development: A case of developing countries. Renewable and Sustainable Energy Reviews. 2012;16:1116–1126.
- Roberts JJ, Cassula AM, Prado PO, et al. Assessment of dry residual biomass potential for use as alternative energy source in the party of General Pueyrredón, Argentina. Renewable and Sustainable Energy Reviews. 2015;41:568–583.
- Guzowski C, Recalde M. Renewable energy in Argentina: Energy policy analysis and perspectives. International Journal of Hydrogen Energy. 2008;33:3592–3595.
- Navia T, Sewell A, Avila J. Argentina launches innovative renewables program. Renewable Energy World. June. 2016;30. https://www.renewableenergyworld.com/articles/2016/06/argentina-launches-innovative-renewables-program.html
- Argentina: Biodiesel content requirement. International Energy Agency, February 9, 2016. Available from: http://www.iea.org/policiesandmeasures/pams/argentina International Energy Agency; 2018.
- Sandoval L, Joseph K. (2017). Biofuels Annual Argentina - USDA GAIN reports.
- Lopez BD. “Argentina establishes new landmark renewable energy policy”, PV magazine global, April 7, 2016. Available from: http://www.pv-magazine.com/news/details/beitrag/argentina-establishes-new-landmark-renewable-energy-policy_100024052/#axzz4SgxjxPuE [Accessed on: March 13, 2017].
- IEA, World Energy Balances. statistics for 2015. https://www.iea.org/statistics/balance
- Biofuel obligations for netherland, 2018. http://www.transportenvironment.org/sites/te/files/publications/CE_Delft_4786_Biofuels_on_the_Dutch_market_FINAL.pdf
- Sustainable biomass and bioenergy in the Netherlands-2015 Report, Netherland Enterprise Agency. website: https://english.rvo.nl/sites/default/files/2016/05/Sustainable-biomass-bioenergy-netherlands.pdf
- World Energy Balance. (2015). International Energy Agency. Paris