Estudo de um coletor solar, tipo tubo evacuado modificado, utilizando um concentrador cilíndrico parabólico (CPC)
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Data
2017-10-30
Autores
Avallone, Elson [UNESP]
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Editor
Universidade Estadual Paulista (Unesp)
Resumo
As alterações climáticas tem fomentado a busca por fontes renováveis de energia. Assim, novos coletores solares têm sido o foco de pesquisadores em todo o mundo para novos concentradores, novas configurações de instalação e o estudo da estratificação térmica para melhorar o desempenho do sistema de armazenamento térmico. O sistema proposto, ou seja, utilizando concentrador solar com tubo evacuado, proporciona linearidade e constância na sua eficiência em relação aos coletores de placas planas. A alteração proposta, ou seja, tubo com duas aberturas, uma para entrada do líquido frio e outra para saída do líquido aquecido, elimina a interface física entre a água quente na região voltada para o fluxo de calor solar e a água fria na região inferior do tubo. Essa alteração provoca redução na eficiência térmica, porém aumenta o volume de água aquecida por dia. O concentrador CPC mostrou-se um importante equipamento do sistema, uma vez que a os raios solares incidem em uma região longitudinal definida no tubo coletor solar, direcionado pela geometria do CPC. Com a utilização desse equipamento elimina-se a necessidade de espelhos com seguidores solares, tornando o sistema vulnerável a oscilações elétricas, encarecendo o projeto e consumindo energia elétrica. O desempenho do coletor é avaliado a partir de testes experimentais utilizando a Primeira Lei da Termodinâmica como análise da eficiência. Esses resultados são comparados aos conceitos teóricos descritos na literatura científica. O espaço anular evacuado do tubo também se mostrou um importante aliado na linearidade do coletor, reduzindo a resistência térmica do ar. A estratificação térmica é avaliada tanto pelo número de MIX (Primeira Lei da Termodinâmica) como pela proposta de um novo coeficiente de estratificação utilizando a exergia (Segunda Lei da Termodinâmica). Das seis configurações propostas para o sistema estudado, a mais viável foi obtida na configuração 3, ou seja, tubo evacuado com CPC.
Climate change has encouraged the search for renewable energy sources. Thus, new solar collectors have been the focus of researchers around the world with new hubs, new installation settings and the study of thermal stratification to improve the performance of the thermal storage system. The proposed system, ie using evacuated tube solar concentrator provides linearity and stability of efficiency compared to flat plate collectors. The proposed change, i.e. a tube with two openings, one for cold liquid inlet and the other for hot liquid outlet, eliminates the physical interface between the hot water in the region facing the solar heat flow and the cold water in the lower region of the tube. This change causes a reduction in thermal efficiency, however increases the volume of water heated per day. Two radiometers were also developed, one thermal and the other optical, and the thermal radiometer was chosen because it had a similar behavior to the solar collectors, thus reducing the cost of the experimental bench. The CPC concentrator proved to be important equipment, once the concentration of sunlight focus on a longitudinal region defined in the solar collector tube, directed by the CPC geometry. Using this equipment eliminates the need for mirrors with solar trackers, making the system vulnerable to electrical oscillations, making the project more expensive and consuming electricity. The collector performance is evaluated from experimental tests using the First Law of Thermodynamics as an efficiency analysis. These results are compared to the theoretical concepts described in the scientific literature. The annular evacuated space in the tube also proved to be an important ally in the linearity of the collector, reducing the thermal resistance of the air. Thermal stratification is evaluated both by the MIX number (First Law of Thermodynamics) and by the proposal of a new stratification coefficient using exergy (Second Law of Thermodynamics). Of the six configurations proposed the most efficient was obtained in the complete configuration, i.e. evacuated tube with CPC.
Climate change has encouraged the search for renewable energy sources. Thus, new solar collectors have been the focus of researchers around the world with new hubs, new installation settings and the study of thermal stratification to improve the performance of the thermal storage system. The proposed system, ie using evacuated tube solar concentrator provides linearity and stability of efficiency compared to flat plate collectors. The proposed change, i.e. a tube with two openings, one for cold liquid inlet and the other for hot liquid outlet, eliminates the physical interface between the hot water in the region facing the solar heat flow and the cold water in the lower region of the tube. This change causes a reduction in thermal efficiency, however increases the volume of water heated per day. Two radiometers were also developed, one thermal and the other optical, and the thermal radiometer was chosen because it had a similar behavior to the solar collectors, thus reducing the cost of the experimental bench. The CPC concentrator proved to be important equipment, once the concentration of sunlight focus on a longitudinal region defined in the solar collector tube, directed by the CPC geometry. Using this equipment eliminates the need for mirrors with solar trackers, making the system vulnerable to electrical oscillations, making the project more expensive and consuming electricity. The collector performance is evaluated from experimental tests using the First Law of Thermodynamics as an efficiency analysis. These results are compared to the theoretical concepts described in the scientific literature. The annular evacuated space in the tube also proved to be an important ally in the linearity of the collector, reducing the thermal resistance of the air. Thermal stratification is evaluated both by the MIX number (First Law of Thermodynamics) and by the proposal of a new stratification coefficient using exergy (Second Law of Thermodynamics). Of the six configurations proposed the most efficient was obtained in the complete configuration, i.e. evacuated tube with CPC.
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Palavras-chave
Energia solar, Coletores solares, Tubo evacuado, Análise exergética, Eficiência térmica, Concentrador CPC, Estratificação térmica, Sistema Arduino, Solar Energy, Evacuated Tube, Thermal Performance, CPC concentrator, Thermal stratification, Exergetic analisys, Arduino System