TRANSIÇÕES SUSTENTÁVEIS DA FONTE SOLAR FOTOVOLTAICA: UMA REVISÃO DE LITERATURA ESTRUTURADA
DOI:
https://doi.org/10.59627/rbens.2022v13i1.275Palavras-chave:
Transições Sócio-Técnicas, Transições Sustentáveis, Energia Solar Fotovoltaica, Energias Renováveis, Método SYSMAPResumo
O desenvolvimento, o uso e a difusão das energias renováveis estão no centro da linha de pesquisa conhecida como Transições Sustentáveis. Considerando a expansão das fontes renováveis nos países desenvolvidos, em especial o crescimento recente da fonte na matriz elétrica brasileira, o presente trabalho busca avaliar as principais linhas de pesquisas globais considerando a teoria das Transições Sustentáveis associadas a Fonte Solar Fotovoltaica por meio de uma revisão bibliográfica estruturada através da metodologia SYSMAP (Scientometric and sYStematic yielding MApping Process), composto por 5 fases, sendo elas: i) construção da coleção de artigos; ii) processo de filtragens; iii) análise bibliométrica, iv) análise de conteúdo e, v) construção de oportunidades/lacunas de pesquisa. Se buscará entender o estado da arte das pesquisas globais envolvendo as transições sócio-técnicas e a Energia Solar Fotovoltaica, apresentando oportunidades/lacunas de pesquisa nesta área.
Referências
Bergek, A., Hekkert, M., Jacobsson, S., Markard, J., Sandén, B., & Truffer, B. 2015. Technological innovation systems in contexts: Conceptualizing contextual structures and interaction dynamics. Environmental Inno-vation and Societal Transitions, 16, 51–64.
Bergek, A., Jacobsson, S. & Sanden, B. A. 2008. 'Legitimation' and 'development of positive externalities': two key processes in the formation phase of technological innovation systems. Technology Analysis & Strate-gic Management, 20, 575-592.
Bergek, A., Jacobsson, S., Carlsson, B., Lindmark, S., & Rickne, A. 2008. Analyzing the functional dynamics of technological innovation systems: A scheme of analysis. Research Policy, 37(3), 407-429.
BNEF – Bloomberg New Energy Finance. 2018. Emerging Markets Outlook 2018.
Carlsson, B., & Stankiewicz, R. 1991. On the nature, function and composition of technological systems. Journal of Evolutionary Economics, 1(2), 93-118.
Dewald, U. & Truffer, B. 2011. Market Formation in Technological Innovation SystemsDiffusion of Photovol-taic Applications in Germany. Industry and Innovation, 18, 285-300.
Dewald, U. & Truffer, B. 2012. The Local Sources of Market Formation: Explaining Regional Growth Differen-tials in German Photovoltaic Markets. European Planning Studies, 20, 397-420.
Eleftheriadis, I. M. & Anagnostopoulou, E. G. 2015. Identifying barriers in the diffusion of renewable energy sources. Energy Policy, 80, 153-164.
Geels, F.W., 2002. Technological transitions as evolutionary reconfiguration processes: a multi-level perspective and a case-study. Res. Policy 31 (8), 1257–1274.
Hekkert, M. P., Suurs, R. A. A., Negro, S. O., Kuhlmann, S., & Smits, R. E. H. M. 2007. Functions of innovation systems: A new approach for analysing technological change. Technological forecasting and social change, 74(4), 413-432.
Hess, D. J. 2013. Industrial fields and countervailing power: The transformation of distributed solar energy in the United States. Global Environmental Change-Human and Policy Dimensions, 23, 847-855.
Hess, D. J. 2016. The politics of niche-regime conflicts: Distributed solar energy in the United States. Environ-mental Innovation and Societal Transitions, 19, 42-50.
Hoppmann, J., Huenteler, J. & Girod, B. 2014. Compulsive policy-making-The evolution of the German feed-in tariff system for solar photovoltaic power. Research Policy, 43, 1422-1441.
IEA, International Energy Agency. 2017. Key World Energy Statistics 2016.
JACOBSSON, S., & BERGEK, A. 2004. Transforming the energy sector: the evolution of technological systems in renewable energy technology. Industrial and Corporate Change, 13(5), 815-849.
Jacobsson, S., & Johnson, A. 2000. The diffusion of renewable energy technology: an analytical framework and key issues for research. Energy Policy, 28(9), 625-640.
Kemp, R., Schot, J., Hoogma, R., 1998. Regime shifts to sustainability through processes of niche formation: the approach of strategic niche management. Technology Analysis & Strategic Management 10, 175–195
Kern, F., Smith, A., 2008. Restructuring energy systems for sustainability? Energy transition policy in the Neth-erlands. Energy Policy 36, 4093–4103.
Loorbach, D., (2007). Transition management. New mode of governance for sustainable development. Ph.D. Thesis, Dutch Research Institute for Transitions, Erasmus University Rotterdam, Rotterdam, 324pp.
Liu, Z., Yin, Y., Liu, W., & Dunford, M. 2015. Visualizing the intellectual structure and evolution of innovation systems research: a bibliometric analysis. Scientometrics, 103(1), 135-158.
Maassen, A. 2012. Heterogeneity of Lock-In and the Role of Strategic Technological Interventions in Urban Infrastructural Transformations. European Planning Studies, 20, 441-460.
Markard, J., & Truffer, B. 2008. Technological innovation systems and the multi-level perspective: Towards an integrated framework. Research Policy, 37(4), 596-615.
Markard, J., Raven, R., & Truffer, B. 2012. Sustainability transitions: An emerging field of research and its pro-spects. Research Policy, 41(6), 955–967. 2012.
Mingers, J., & Leydesdorff, L. 2015. A review of theory and practice in scientometrics. European Journal of Operational Research, 246(1), 1-19.
Nascimento, R. L. 2017. Energia Solar no Brasil: Situação e Perspectivas. Estudo Técnico. Consultoria Legisla-tiva.
Quitzow, R. 2015. Dynamics of a policy-driven market: The co-evolution of technological innovation systems for solar photovoltaics in China and Germany. Environmental Innovation and Societal Transitions, 17, 126-148.
Rosenbloom, D., Berton, H. & Meadowcroft, J. 2016. Framing the sun: A discursive approach to understanding multi-dimensional interactions within socio-technical transitions through the case of solar electricity in On-tario, Canada. Research Policy, 45, 1275-1290.
Rotmans, J., Kemp, R., Asselt, M.V., Geels, F.W., Verbong, G., Molendijk, K., Notten, P.V., 2001. Transitions and transition management. The case for a low emission energy supply. ICIS Working Paper: I01-E001, Maastricht.
Smith, A.; Voss, J.-P.; Grin, J. 2010. Innovation studies and sustainability transitions: The allure of the mul-ti-level perspective and its challenges. Research Policy, 39(4), 435-448.
Suurs, R. A. A., & Hekkert, M. P. 2009. Cumulative causation in the formation of a technological innovation system: The case of biofuels in the Netherlands. Technological Forecasting and Social Change, 76(8), 1003-1020.
Vaz, C. R., Uriona Maldonado, M. 2017. Revisão de literatura estruturada: proposta do modelo SYSMAP (Sci-entometric and Systematic Yielding Mapping Process). Aplicações de Bibliometria e Análise de Conteúdo em casos da Engenharia de Produção (UFSC ed., Vol.1, pp. 21-42 p).
Vaz, C. R., Uriona Maldonado, M. 2018. The Evolution of Sustainability Transitions: A Content Analysis Ap-proach. XX Engema – Encontro Internacional sobre Gestão Ambiental e Meio Ambiente.
Walrave, B.; Raven, R. P. J. M. 2016. Modelling the dynamics of technological innovation systems. Research Policy, n. 45, p. 1833–144.
Wood Mackenzie Power & Renewables, 2019. Global solar PV market outlook update: Q2 2019.
