Análise comparativa da redução da área de geração de energia fotovoltaica proporcionada por módulos bifaciais

Guilherme Aguiar Coelho; José Luiz  Miotto

doi:10.4025/revtecnol.v29i1.51280

Guilherme Aguiar Coelho Universidade Estadual de Maringá
José Luiz Miotto Universidade Estadual de Marin´gá - UEM

DOI: https://doi.org/10.4025/revtecnol.v29i1.51280

Abstract

The wide use of polluting energy sources to supply a growing demand ends up directly impacting the environment.. The sector now has renewable alternatives, such as solar energy. This paper presents a possible solution for power generation in restricted spaces, such as buildings with more than eight floors, where the energy demand is high in relation to the area available for production. A comparative study is presented between used photovoltaic systems and systems with bifacial modules.. The results of this study allow for a real increase in generation efficiency, since the bifacial module uses incident solar radiation as well as solar radiation reflected in the atmosphere to generate a greater amount of energy. Despite their high cost, bifacial modules are used as a viable alternative because they generate up to 30% more energy per square meter compared to the conventional system. In the test case in this work, an option to use bifacial modules represents a 31.9% reduction in the generation area when compared to the area required for the modules used.

Downloads

Download data is not yet available.

References

AGÊNCIA NACIONAL DE ENERGIA ELÉTRICA. Resolução Normativa No 482, de 17 de abril de 2012. p.1-4.

ANUÁRIO ESTATÍSTICO DE ENERGIA ELÉTRICA 2018. Brasília: Empresa de Pesquisa Energética, 2018. Disponível em: <http://epe.gov.br/sites-pt/publicacoes-dados-abertos/publicacoes/PublicacoesArquivos/publicacao-160/topico-168/Anuario2018vf.pdf>. Acesso em: 28 out. 2019.

ASSIS, E. S. D. Critérios de Acessibilidade ao Sol e à Luz natural Planejamento Urbano. In: Ambiente Construído, 9. 2002, Foz do Iguaçu. Anais [...] 2002. Foz do Iguaçu: ANTAC, 2002.

ASSOCIAÇÃO BRASILEIRA DE NORMAS TÉCNICAS – ABNT. NBR 10899: Energia Solar Fotovoltaica - Terminologia. Rio de Janeiro, 2013.

BRAGA, R. Fundamentos e técnicas de administração financeira. 1ed. São Paulo: Atlas, 1989.

CANADIAN SOLAR. BiKu MODULE, new generation bifacial module. Disponível em: <https://www.canadiansolar.com/solarPanels/detail/27>. Acesso em: 08 ago. 2019.

COMPAROTTO, C. et al. Bifacial n-type solar modules: indoor andoutdoorevaluation, In: Proc. 29th EU PVSEC, Amsterdam, The Netherlands, 2014.

CRESESB – CENTRO DE REFERÊNCIA PARA ENERGIA SOLAR E EÓLICA. Potencial energético solar. SunData -. Base de dados sobre radiação solar no Brasil, 2016. Disponível em:< http://www.cresesb.cepel.br>. Acesso em: 11 ago. 2019.

CRONEMBERGER, J.; CAAMAÑO-MARTÍN, E.; SÁNCHEZ, S. V. Assessing the solar irradiation potential for solar photovoltaic applications in buildings at low latitudes: making the case for Brazil. Energy and Buildings, v.55, p.264-272, 2012.

DI VINCENZO, M. C.; KESTEN, D.; INFIELD, D. Assessment of performance of building shading device with integrated photovoltaic in different urban scenarios. In: International Conference on Sustainable Energy Technologies, Sri Lanka, 2010. Anais […] Sri Lanka, Kandy, 2010.

ENERGYTEC. Sistema GRID-TIE conectado à rede: Composição do Sistema solar fotovoltaico conectado à rede. Disponível em: <http://www.energytecsolar.com.br/Sistema-GRID-TIE/.>. Acesso em 14 ago. 2019.

FRONIUS ECO. Compacto inversor de projeto para maior rendimento. 19]. Disponível em: <https://www.fronius.com/pt-br/brasil/energia-solar/produtos/todos-os-produtos/inversor/fronius-eco/fronius-eco-25-0-3-s> . Acesso 08 ago. 2019.

GITMAN, L. J. Princípios da administração financeira – essencial. 2.ed. Porto Alegre: Bookman, 2001.

GUERRERO-LEMUS, R. et al. Bifacial solar photovoltaics - A technology review. Renewable and Sustainable Energy Reviews, v.60, p.1533-1549, 2016.

HOFIERKA, J.; KAŇUK, J. Assessment of photovoltaic potential in urban areas using open-source solar radiation tools. Renewable Energy, v.34, n.10, p.2206-2214, 2009.

HWANG, T.; KANG, S.; KIM, J. T. Optimization of the building integrated photovoltaic system in office buildings: focus on the orientation, inclined angle and install dearer. Energy andBuildings, v.46, p.92-104, 2012.

KASSAI, J.C. et. al. Retorno de Investimento – Abordagem Matemática e Contábil do Lucro Empresarial. 2 ed. São Paulo: Atlas, 2000.

LEDER, S. M.; PEREIRA, F. O. R. Padrões de ocupação urbana e disponibilidade da luz. In: Ambiente Construído, 10. 2009, Natal, Anais [...] Natal: ANTAC, 2009.

LI, D. H. W. et al. A study of the day lighting performance and energy use in heavily obstructed residential buildings via computer simulation techniques. Energy and Buildings, v.38, n.11, p.1343-1348, 2006.

LITTLEFAIR, P. Passive solar urban design: ensuring the penetration of solar energy into the city. Renewable and Sustainable Energy Reviews, v.2, n.3, p.303-326, 1998.

LOULAS, N. M. et al. Photovoltaics in urban environment: a case study for typical apartment buildings in Greece. Renewable Energy, v.48, p.453-463, 2012.

LUZ, France. O fenômeno urbano numa zona pioneira: Maringá. 1. ed. Maringá: A Prefeitura, 1997. 217p.

LUZ SOL ENERGIA SOLAR. O que é modulo fotovoltaico bifacial. Disponível em: <:http://www.luzdosolengenharia.com.br/?fbclid=IwAR3ycr8O_2im__5DzWwDDJPEwkP4CYeV9MSTlYZBnWgB27mpc-xQz-T21eQ> . Acesso em : 15 out. 2019.

MIOTTO, J. L. Princípios para o projeto e produção das construções sustentáveis. Ponta Grossa: UEPG/NUTEAD, 2013.

NG, E. Day lighting simulation of heavily obstructed residential buildings in Hong Kong. In: International building performance simulation association conference. Rio de Janeiro, 2001, Anais […] Rio de Janeiro, 2001.

NG, E.; WONG, N. H. Better day light and natural ventilation by design. In: Conference on passive and low energy architecture, 21, Eindhoven, 2004. Anais [...] Eindhoven, 2004.

ORDENES, M. et al. The impact of building-integrated photovoltaics on the energy demand of Multi-Family dwellings in Brazil. Energy and Buildings, v.39, n.6, p.629-642, 2007.

SÁNCHEZ, F. J. et al. Solar radiation calculation methodology for building exterior surfaces. Solar Energy, v.79, n.5, p.513-522, 2005.

SINGH, J.P.; WALSH, T.M.; ABERLE, A.G. Performance investigation of bifacial PV modules in the tropics. In: European Photovoltaic Solar Energy Conference, 21, 2006. Anais […] Dresden, Germany, 2006.

TREGENZA, P. The design of lighting. Londres: E&FN Spon., 1998.

VARTIAINEN, E. Electricity benefits of day lighting and photovoltaics for various solar facade layouts in office buildings. Energy and Buildings, v.33, n.2, p. 113-120, 2001.

WESTON, J. F.; BRIGHAM, E. F. Fundamentos da Administração Financeira. 10ed. São Paulo: Makron Books, 2000.

WÜRFEL, Peter. Physics of Solar Cells. New York : Wiley, 2009.