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Use este identificador para citar ou linkar para este item: https://repositorio.ufba.br/handle/ri/37475
Tipo: Dissertação
Título: Optimizing microgrid design and operation in Brazil: a decision-making framework for residential distributed energy systems
Autor(es): Amorim, Ana Paula Alves
Primeiro Orientador: Pontes, Karen Valverde
metadata.dc.contributor.advisor-co1: Dorneanu, Bogdan
metadata.dc.contributor.referee1: Arellano-Garcia, Harvey
metadata.dc.contributor.referee2: Dorneanu, Bogdan
metadata.dc.contributor.referee3: Martins, Márcio André Fernandes
metadata.dc.contributor.referee4: Pontes, Karen Valverde
Resumo: Distributed Energy Systems (DES) with renewable energy sources were conceived as a way to reduce the emission of polluting gases into the atmosphere and have become a major incentive for self-producers of energy. Although Brazil has a large availability of natural resources, which creates a strong potential for the application of microgrids based on renewable energy sources such as solar, wind, and biomass, it is still little explored in relation to other countries. This study aims to bridge the gaps in the current literature regarding microgrid design by addressing the impact of energy demands in the sizing of a microgrid and the impact of climate on renewable resource efficiency. The study pioneers the application of biogas to all residential energy demands in a microgrid and offers a new approach to analyzing the effects of varying input variables over time in an on-grid microgrid. Therefore the study proposes a decision-making framework for designing and operating residential DES in Brazil, based on mixed-integer nonlinear programming (MINLP) problems that take into account the particularities of the country, such as the availability of various renewable resources and the impact of COVID-19 on energy demand. The models optimize the cost of designing and operating a microgrid with integrated pipelines and consider the varying efficiency of different technologies over time, as well as different options for renewable incentive policies. Additionally, it proposes a systematic, cluster-based method to split the time horizon of the model, allowing for a more accurate representation of the dynamics of the input variables of the optimization problem such as energy demand, wind speed, and solar irradiation over time. The framework is tested on a case study of a residential DES of 5 and 10 houses in Salvador, Brazil, comparing pre- and post-COVID-19 scenarios. The results show that the use of distributed energy resources has turned out to be economically and environmentally advantageous compared to using only non-renewable resources. The study also demonstrates the economic viability of using biogas and the new energy trends emerging during the pandemic, and how this impacts the sizing of microgrids. By not considering time-dependent efficiency in the analysis, there may have been a positive impact on the economic gain of around 90% in relation to the baseline scenario, but it may also have contributed to the underestimation of power generation. Also, although the empirical method showed a greater reduction in environmental costs (60%), the clustering method had a greater reduction (80%) in total costs. This highlights the relevance of the innovative approaches utilized in the optimization problem for designing a microgrid.
Abstract: Distributed Energy Systems (DES) with renewable energy sources were conceived as a way to reduce the emission of polluting gases into the atmosphere and have become a major incentive for self-producers of energy. Although Brazil has a large availability of natural resources, which creates a strong potential for the application of microgrids based on renewable energy sources such as solar, wind, and biomass, it is still little explored in relation to other countries. This study aims to bridge the gaps in the current literature regarding microgrid design by addressing the impact of energy demands in the sizing of a microgrid and the impact of climate on renewable resource efficiency. The study pioneers the application of biogas to all residential energy demands in a microgrid and offers a new approach to analyzing the effects of varying input variables over time in an on-grid microgrid. Therefore the study proposes a decision-making framework for designing and operating residential DES in Brazil, based on mixed-integer nonlinear programming (MINLP) problems that take into account the particularities of the country, such as the availability of various renewable resources and the impact of COVID-19 on energy demand. The models optimize the cost of designing and operating a microgrid with integrated pipelines and consider the varying efficiency of different technologies over time, as well as different options for renewable incentive policies. Additionally, it proposes a systematic, cluster-based method to split the time horizon of the model, allowing for a more accurate representation of the dynamics of the input variables of the optimization problem such as energy demand, wind speed, and solar irradiation over time. The framework is tested on a case study of a residential DES of 5 and 10 houses in Salvador, Brazil, comparing pre- and post-COVID-19 scenarios. The results show that the use of distributed energy resources has turned out to be economically and environmentally advantageous compared to using only non-renewable resources. The study also demonstrates the economic viability of using biogas and the new energy trends emerging during the pandemic, and how this impacts the sizing of microgrids. By not considering time-dependent efficiency in the analysis, there may have been a positive impact on the economic gain of around 90% in relation to the baseline scenario, but it may also have contributed to the underestimation of power generation. Also, although the empirical method showed a greater reduction in environmental costs (60%), the clustering method had a greater reduction (80%) in total costs. This highlights the relevance of the innovative approaches utilized in the optimization problem for designing a microgrid.
Palavras-chave: Sistemas de energia distribuída (DES)
Microrrede
MINLP
Agrupamento
CNPq: CNPQ::ENGENHARIAS::ENGENHARIA QUIMICA
Idioma: eng
País: Brasil
Editora / Evento / Instituição: Universidade Federal da Bahia
Sigla da Instituição: UFBA
metadata.dc.publisher.department: Escola Politécnica
metadata.dc.publisher.program: Programa de Pós-Graduação em Engenharia Industrial (PEI) 
Citação: AMORIM, Ana Paula Alves. Optimizing Microgrid Design and Operation in Brazil:: A decision-making framework for residential distributed energy systems. 2023. 227 f. Dissertação (Mestrado) - Programa de Pós-Graduação em Engenharia Industrial, Universidade Federal da Bahia, Salvador, 2023.
URI: https://repositorio.ufba.br/handle/ri/37475
Data do documento: 19-Abr-2023
Aparece nas coleções:Dissertação (PEI)

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