Business model and feasibility analysis for energy production as a self-producer by lease

Authors

DOI:

https://doi.org/10.33448/rsd-v11i6.28673

Keywords:

Self-Producer; Free energy market; Photovoltaic plant; Feasibility analysis; Retail trader.

Abstract

The Electric Sector in Brazil is currently based on the presence of two markets for contracting energy. One available for access to all consumers only in the concession format, with contractual freedom and exclusive access by the government contracted for media consumption. These are respectively the Regulated Contracting Environment (ACR) and the Free Contracting Environment (ACL). In this last agent, among the other energy generators, the self-producer agent is defined, which has the right to generate energy for its own consumption. This configuration opens possibilities for media consumers, if the project is not regulated by a project that is not compatible with the market. Being a promising model, but recent in the market, it is necessary to define its general aspects, such as the aptitudes and costs of the enterprise, as well as to validate the economic viability of the model and its potential to reduce electricity costs. For this, applied research and a study of the Fluminense case will be presented, based on the values of the Federal University from a base and comparing them with market values for the new model. This article briefly presents aspects of the structuring of the Brazilian electricity sector, as well as the characteristics and differences of each contractual environment, such as the instruments of each market and its commercialization rules, in addition to the business model of self-production of energy of photovoltaic origin by asset leasing developed for Universidade Federal Fluminense to reduce electricity costs.

Author Biographies

Fernanda de Souza Vianna, Universidade Federal Fluminense

Graduated in electrical engineering at Universidade Federal Fluminense at the engineering school, post-graduated in project management at Instituto Universitário Celso Lisboa.

 

Kátia Silene de Oliveira Maia, Universidade Federal Fluminense

Postdoctoral fellow at University Federal Fluminense at the engineering school, PhD in environmental sciences and technologies, master in environmental management and planning, specialist in sustainable development and environmental law and lawyer. He has been working for more than 20 years in the areas of sustainability, ESG, environmental management, energy efficiency, climate change, waste management and environmental indicators

Paulo Roberto Monteiro Duailibe, Universidade Federal Fluminense

I am  degree in Electrical Engineering from the Catholic University of Petrópolis (1977), a Master's in Production Engineering from the Fluminense Federal University (1996) and a PhD in Civil Engineering from the Fluminense Federal University (2016). He is currently an Associate Professor at the Fluminense Federal University – UFF, located at the Department of Electrical Engineering and advisor to the Euclides da Cunha Foundation for Institutional Support to UFF. Researcher at the Laboratory of Wind Energy (LEV) at UFF until 2005, winning the National Prize for Conservation and Rational Use of Electric Energy in the Public Administration Organ and Companies category - PROCEL, ELETROBRAS and MINISTERIO DAS MINAS e ENERGIA in 2003 and 2004. Professor of the Electrical Engineering Course and the Graduate Program of the Professional Master's Degree in Industrial Assembly at UFF. Has experience in Electrical Engineering, with emphasis on Energy Efficiency and Power and Industrial Electrical Systems, working mainly on the following topics: high and extra high voltage substations projects, energy diagnosis, energy efficiency. His research interests focus on modern substations, distributed generation and renewable energy.

Dick Farney Pimentel Rocha, Dick Idiomas

Professor de Língua Estrangeira Moderna - Inglês, Tradutor, Designer Web e Graphic, Tecnólogo

References

Associação Brasileira dos Comercializadores de Energia (ABRACEEL). (2021). Consulta à Cartilha do Consumidor Livre. https://abraceel.com.br/wp-content/uploads/post/2020/10/Cartilha-do-Consumidor-Livre-vers%C3%A3o-mobile-2.pdf.

Almeida, A. (2018). Abordagem sobre o Comercializador Varejista no Mercado Brasileiro de Energia Elétrica. Course conclusion work (TCC) in Technology in Power Systems. Instituto Federal de Santa Catarina.

ANEEL. Resolução Normativa n° 77 (2004). http://www2.aneel.gov.br/cedoc/bren2004077.pdf.

ANEEL. Resolução Normativa n° 745 (2016). http://www2.aneel.gov.br/cedoc/ren2016745.pdf.

ANEEL. Resolução Normativa nº 482 (2012). http://www2.aneel.gov.br/cedoc/ren2012482.pdf.

ANEEL. Resolução Normativa nº 414 (2010). 2010 p131 https://www2.aneel.gov.br/cedoc/ren2010414.pdf.

Brasil. Lei n° 12.744 (2012). http://www.planalto.gov.br/ccivil_03/_ato2011-2014/2012/lei/l12744.htm.

CCEE. (2021a). Consulta a dados de consumo de energia ao final de 2020. https://www.ccee.org.br/portal/faces/pages_publico/noticias-opiniao/noticias/noticialeitura?contentid=CCEE_661134&.

CCEE. (2021b). Consulta a queda no consumo em consequência da pandemia. https://www.ccee.org.br/portal/faces/pages_publico/noticias-opiniao/noticias/noticialeitura?contentid=CCEE_654867&.

CCEE. (2021c). Consulta a informações sobre o ACL e o ACR. https://www.ccee.org.br/portal/faces/pages_publico/como-participar/ambiente-livre-ambiente-regulado.

CCEE. (2021d). Consulta aos procedimentos de comercialização. https://www.ccee.org.br/portal/faces/oquefazemos_menu_lateral/procedimentos.

CCEE. (2021e). Consulta a definição dos agentes geradores. https://www.ccee.org.br/portal/faces/pages_publico/quem-participa/como_se_dividem.

CCEE. (2021f). Consulta a definição dos agentes associados a CCEE. https://www.ccee.org.br/portal/faces/pages_publico/como-participar/participe/conheca_modalidades.

CCEE. (2021g). Consulta ao Boletim InfoMercado Mensal. https://www.ccee.org.br/portal/faces/pages_publico/noticias-opiniao/noticias/noticialeitura?contentid=CCEE_661841&.

CCEE. (2021h). Consulta a informações sobre agentes associados em 2020. https://www.ccee.org.br/portal/faces/pages_publico/noticias-opiniao/noticias/noticialeitura?contentid=CCEE_656483&.

CCEE. (2021i). Consulta a base de agentes autoprodutores. https://www.ccee.org.br/portal/faces/pages_publico/quem-participa/conheca_os_agentes.

Clemente Jr, S dos S. (2012). Estudo de Caso x Casos para Estudo: esclarecimentos a cerca de suas características. Anais do VII Seminário de Pesquisa em Turismo do Mercosul, Caxias do Sul – RS.

Governo. (2019). Portaria nº 465 (2019). https://www.in.gov.br/web/dou/-/portaria-n-465-de-12-de-dezembro-de-2019.-233554889.

Governo. (2021). Consulta aos Modos de Disputa de Licitação. https://www.gov.br/compras/pt-br/images/ultimas_noticias/Modos-de-Disputa---passo-a-passo--05112019.pdf.

Grid Energia. (2021). Consulta a autoprodução. https://gridenergia.com.br/blog/fique-por-dentro-da-autoproducao-de-energia/.

Instituto Acende Brasil (2020). Evolução das Tarifas de Energia Elétrica e a Formulação de Políticas Públicas. White Paper 22, São Paulo, 8-10.

International. (2021). Consulta aos dados da UFF. http://international.uff.br/language/pt/sobre-a-uff/.

MME. (2021). Informativo Gestão Setor Elétrico. https://www.gov.br/mme/pt-br/assuntos/secretarias/energia-eletrica/.

Monteiro, P. R. D., & Vianna, F. S., & Silva, C. C., & Ceotto, B. N., & Nogueira, C. F., & Equipe Cice (2021). Relatório de Acompanhamento de Energia Elétrica 2019 da UFF. Niterói, 2021, 233 fls. Universidade Federal Fluminense, Niterói.

Pereira, E. A. S. (2019). Análise de Viabilidade da Adesão ao Ambiente de Contratação Livre e Autoconsumo em Geração Fotovoltaica. Course conclusion work (TCC) in Technology in Electrical Engineering. Universidade Federal do Rio de Janeiro.

UFF. (2021a). Termo de Referência em Elaboração pela Equipe XXX e pelo programa de pós-doutorado da Escola de Engenharia. Niterói.

UFF. (2021b). Relatório de informações de acesso de minigeração distribuída. Niterói.

Web of Science. (2021). Consulta a pesquisa sobre Free Energy Market Photovoltaic. https://www-webofscience.ez24.periodicos.capes.gov.br/wos/woscc/summary/4b4a8d70-19c8-4332-a673-eaa7c7e77f97-0492d4c5/relevance/1.

Downloads

Published

18/04/2022

How to Cite

VIANNA, F. de S.; MAIA, K. S. de O.; DUAILIBE, P. R. M.; ROCHA, D. F. P. Business model and feasibility analysis for energy production as a self-producer by lease. Research, Society and Development, [S. l.], v. 11, n. 6, p. e2211628673, 2022. DOI: 10.33448/rsd-v11i6.28673. Disponível em: https://rsdjournal.org/index.php/rsd/article/view/28673. Acesso em: 21 dec. 2024.

Issue

Section

Exact and Earth Sciences