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Abstract(s)
À medida que o mundo enfrenta desafios urgentes relacionados com as mudanças
climáticas e com a transição energética para fontes de energia renováveis, as
Comunidades de Energia emergem como uma abordagem inovadora e promissora para
promover a produção e o consumo local de energia limpa de forma descentralizada.
Este trabalho foca-se no estudo e implementação de uma Comunidade de Energia,
utilizando fontes renováveis como solar e eólica, para promover a sustentabilidade
energética. A pesquisa inclui uma revisão abrangente da literatura sobre políticas
energéticas globais e o papel das Comunidades de Energia na redução das emissões de
carbono.
Através de uma simulação em MATLAB, foi modelada a gestão e transferência de energia
entre várias instalações, considerando a geração de energia solar e eólica, o consumo, o
armazenamento em baterias, e a transferência de energia excedente.
Os resultados destacam a eficácia das Comunidades de Energia em otimizar o uso de
recursos renováveis e em promover a autossuficiência energética, demonstrando o
potencial de tais sistemas em um contexto de transição energética global. Este trabalho
contribui para o entendimento do papel vital das Comunidades de Energia na construção
de um futuro energético mais sustentável e menos dependente de fontes de energia
fósseis.
As the world faces urgent challenges related to climate change and the energy transition to renewable sources, Energy Communities emerge as an innovative and promising approach to promote local production and consumption of clean energy in a decentralized manner. This work focuses on the study and implementation of an Energy Community, using renewable sources such as solar and wind, to promote energy sustainability. The research includes a comprehensive review of global energy policies and the role of Energy Communities in reducing carbon emissions. Through a MATLAB simulation, the management and transfer of energy between various facilities were modeled, considering the generation of solar and wind energy, consumption, battery storage, and the transfer of surplus energy. The results highlight the effectiveness of Energy Communities in optimizing the use of renewable resources and in promoting energy self-sufficiency, demonstrating the potential of such systems in a context of global energy transition. This work contributes to the understanding of the vital role of Energy Communities in building a more sustainable energy future and less dependent on fossil energy sources.
As the world faces urgent challenges related to climate change and the energy transition to renewable sources, Energy Communities emerge as an innovative and promising approach to promote local production and consumption of clean energy in a decentralized manner. This work focuses on the study and implementation of an Energy Community, using renewable sources such as solar and wind, to promote energy sustainability. The research includes a comprehensive review of global energy policies and the role of Energy Communities in reducing carbon emissions. Through a MATLAB simulation, the management and transfer of energy between various facilities were modeled, considering the generation of solar and wind energy, consumption, battery storage, and the transfer of surplus energy. The results highlight the effectiveness of Energy Communities in optimizing the use of renewable resources and in promoting energy self-sufficiency, demonstrating the potential of such systems in a context of global energy transition. This work contributes to the understanding of the vital role of Energy Communities in building a more sustainable energy future and less dependent on fossil energy sources.
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Keywords
Comunidades de Energia Comunidades de Energia Renovável Energias Renováveis Gestão de Energia Sustentabilidade Energética Transferência de Energia