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11	Transferência de calor e massa de um condensador evaporativo em escala reduzida Acunha Júnior, Ivoni Carlos January 2010 (has links) Este trabalho trata de um estudo experimental da transferência de calor e de massa de um condensador evaporativo, bem como, da relação existente entre as grandezas envolvidas durante a sua operação. Para o desenvolvimento da pesquisa foi construído um condensador evaporativo de pequeno porte com dimensões proporcionais a condensadores comercialmente fabricados no Brasil para operar com R-22 como fluido refrigerante. Este condensador tem 35 colunas e 12 fileiras de tubos de cobre de 6,35 mm de externo e opera junto a uma instalação que proporciona o escoamento de R-22 por termossifao. O distribuidor de água também foi construído em cobre e o eliminador de gotas em alumínio, assim como a estrutura do condensador. As laterais e a bandeja de recolhimento de água foram construídas em vidro para permitir a visualização do escoamento da água que e aspergida sobre os tubos. A fim de variar as condições operacionais, este condensador foi acoplado a um ventilador centrifugo acionado por um conversor de freqüência e a um circuito que permitiu a variação da vazão de água aspergida sobre os tubos. Dos ensaios resultaram 79 amostras de medição, que serviram para verificar a relação existente entre grandezas, bem como avaliar os coeficientes de transferência de calor e massa. Foram determinados os coeficientes de transferência de calor médio e local para o R-22. Alem disso, foram verificadas as regiões onde ocorrem o dessuperaquecimento, a mudança de fase e o subresfriamento do fluido refrigerante, e foram confrontados os coeficientes globais de transferência de calor obtidos a partir dos dados experimentais com aqueles obtidos por correlações para as regiões de condensação e subresfriamento. Destas investigações, resultou uma correlação para o coeficiente global de transferência de calor que visa determinar esta grandeza através das condições operacionais e das características geométricas do condensador. O Maximo desvio encontrado entre os valores provenientes dos dados experimentais e aqueles calculados pela correlação foi inferior a 10%. / This work presents an experimental heat and mass transfer study of an evaporative condenser, as well as, the relationship between measured quantities obtained during its operation. A small scale evaporative condenser was built in agreement to the real size equipment geometric similarity. The small scale condenser has a bundle of 210 copper tubes, with the outer diameter equal to ¼ inch, which were arranged in 35 columns and 6 rows and operating connected to the thermosifon facility that promote R-22 flow. The spray water distributor is also built on copper and the drift eliminator on aluminum, as well as the evaporative condenser structure. This condenser bounds were constructed as a glass enclosure to allow for the spray water flow visualization. To evaluate the operational conditions, the equipment was attached to a centrifugal fan controlled by a frequency inverter and a spray water circuit which allows for water quantity changing. From the carried out tests, 79 measuring samples were obtained and used to verify the quantities relationship, as well as, to evaluate the heat and mass transfer coefficients For the R-22 were determined the local and average heat transfer coefficients. Furthermore, the dessuperheating, condensation and subcooling regions were verified and compared both, the experimental overall heat transfer coefficient and those calculated by correlations at condensation and subcooling zones. From these investigations a correlation for the overall heat transfer coefficient is proposed. Its application allows determining the coefficient using the operational conditions and the geometric condenser features. The higher deviation found between the experimental data and the presented correlation is lower to 10%. Transferencia de calor Transferência de massa Refrigeração Escoamento Evaporative condenser Heat transfer Mass transfer coefficient Refrigeration Thermal systems Experimental methods
12	Vliv malých domácích spotřebičů na ekonomiku kombinovaných systémů / Influence of small household appliances on economy of combined solar systems Hosová, Žaneta January 2013 (has links) This Master’s thesis deals with the problems of small domestic appliances in solar systems. The theoretical part provides a description of solar thermal systems and solar photovoltaic systems, including the possibility of their combination. It adds options connecting the small household appliances in system of solar technology and economics of the washing process. The practical part evaluates the economy of operation small household appliances connected to the solar system.
13	Analýza reologických vlastností teplonosných kapalin / Rheological properties analysis of heat transfer fluids Neradil, Petr January 2016 (has links) This master thesis deals with the issue of heat transfer fluids for solar thermal system. It discusses the different types of solar systems and their use. It also describes the different types of heat-transfer fluids for solar thermal systems and analyzes the basic chemical composition of commercially available heat-transfer fluids. There are described the properties of these fluids and methods for measuring certain properties. The practical part deals with measuring the temperature dependence of density and dynamic viscosity of alternative and commercially available heat-transfer fluids, determining the freezing point and compares the results.
14	Design, build and test a passive thermal system for a loft : a roof solar chimney application for South African weather conditions Beviss-Challinor, Lauren Margaret January 2007 (has links) Thesis (MEng (Mechanical and Mechatronic Engineering))--Stellenbosch University, 2007. / ENGLISH: The design, construction and testing of a passive thermal system, a roof solar chimney, for a loft is considered. Unlike conventional solar chimneys the solar collector is constructed from corrugated iron roof sheets with the aim that it can be integrated into existing buildings at a lower cost or used in low cost housing developments. The main objective of the study was to determine the feasibility of such low-cost design to regulate thermal conditions in a loft, that is heating the loft during winter and enhancing natural ventilation during summer, by carrying out an experimental and analytical study. The results obtained from the experimental study showed that for winter the solar chimney, having a channel width, depth and length of 0.7 m, 0.1 m and 1.8 m respectively and with a peal solar radiation of 850 W/m², heated the room air 5°C higher than the ambient temperature during the hottest periods of the day, which is only marginally better than a loft with conventional roof insulation. At night, it was found that reverse airflow occurred through the chimney, cooling the loft down to ambient temperature, due to radiation heat loss from the roof collector to the night sky. For summer operation, the experimental data showed that the chimney was able to maintain the loft at ambient temperature and the analytical study found that the chimney was able to enhance natural ventilation effectively, reaching air exchange rate of 6.6 per hour for the 4.6 m³ volume space. It was also found that the chimney’s performance dropped rapidly and significantly during periods of low solar radiation and at night. A sensitivity analysis illustrated that for both summer and winter operation, the size, tilt angle and absorptivity of the roof collector greatly effected the efficiency and mass flow rates of the system, agreeing well with other literature. These results prove that this low cost solar chimney cooling design was feasible to enhance natural ventilation mainly during hot summer conditions with high solar radiation. Compared to a loft with only conventional roof insulation, the chimney did not perform effectively during the winter to heat the loft up, meaning that winter operation for this specific design is not feasible. Possible improvements to the design include using construction materials with higher thermal capacities to retain heat energy and ensure continued operation during periods of low solar radiation, as well as using selective absorber coatings on the collector surface. It is recommended that further work on the project include the integration of these improvements into the present design and to use the findings obtained from the sensitivity analysis to improve system efficiencies. CFD analysis of the test-rig will be insightful as an additional means to validate and compare with the analytical and experimental data obtained in this report. With the continuation of these studies, this low-cost solar chimney design can be optimised, validated on a commercial scale and built into existing and new housing developments. Incorporating such a passive thermal device will aid homeowners in air regulation and thermal comfort of their living space as well as saving on energy requirements. / Sponsored by the Centre for Renewable and Sustainable Energy Studies, Stellenbosch University Thermal comfort Passive thermal systems Solar chimneys Thermal effectiveness Natural ventilation Inclined solar chimneys Solar radiation Solar power plants Energy conversion
15	Estudo da problemática da aplicação de coletores solares para aquecimento de água, no segmento residencial de alto padrão, com base em escalas de projeto arquitetônico e dimensões de planejamento. / Study of the problematic of solar thermal collectors for hot water in high standards houses based on architectonic and planning dimensions. Mendonça, Bernadette Vechia de 20 March 2009 (has links) A presente Dissertação é um estudo a respeito da problemática da utilização dos Sistemas de Aquecimento Solar Térmico para Aquecimento de Água com Coletores Planos em Circuito Direto, no crítico contexto da construção civil paulista para o ponto de vista da Arquitetura e do Urbanismo. Apesar do potencial solar do país e do padrão construtivo dos condomínios horizontais fechados da Região Metropolitana de São Paulo (RMSP), ainda não há regulamentação do uso do aquecimento solar térmico em alguns de seus municípios-sede. Atualmente tem havido a adesão espontânea ao sistema por parte de moradores das residências desses condomínios, decorrente da busca da redução dos gastos e da crescente conscientização ambiental e divulgação da tecnologia. Porém, ainda há necessidade de uma relação mais sistêmica dos coletores solares com a totalidade dos requisitos da edificação e do meio urbano, mesmo em se tratando da legislação específica. Buscando uma constribuição, aqui se propõe um modelo de estudo dos coletores baseado em escalas construtivas que, juntamente com a compreensão multidimensional do assunto, desafiam a atual dicotomia entre as ferramentas de qualidade e a sustentabilidade do ambiente construído. / The present work studies the problematic of using Solar Hot Water Systems by Direct Circuit, among the critics characteristics of civil construction in the State of São Paulo, Brazil. The point of view is of Architecture and Urban Planning. In spite of the high Brazilian levels of solar irradiation and the constructive pattern of horizontal closed condominiums of the metropolitan region of São Paulo (Brazil), which possess a large concentration of high incoming households, use of solar water heating is still not regulated in some of its comprising municipalities. Nowadays, the search for savings, diffusion of related technologies and raising environmental awareness have led to voluntary uptaking of such systems. Yet, regulation of solar collectors still lacks relating to certification of sustainable building practices, which does not relate to architectonic factors, in particular to main urbanistic features present in each given installation site. This work proposes an architectonic scale based model of studying it in order to pursuit the end of dichotomy between quality and sustainability. Architectonic and urban integration Arquitetura sustentável Condomínios fechados Energia solar Horizontal closed condominiums Meio ambiente urbano Plain solar collector Solar energy Solar thermal systems by direct circuits
16	Optical Efficiency of Low-Concentrating Solar Energy Systems with Parabolic Reflectors Brogren, Maria January 2004 (has links) <p>Solar electricity is a promising energy technology for the future, and by using reflectors for concentrating solar radiation onto photovoltaic cells, the cost per produced kWh can be significantly reduced. The optical efficiency of a concentrating system determines the fraction of the incident energy that is transferred to the cells and depends on the optical properties of the system components. In this thesis, low-concentrating photovoltaic and photovoltaic-thermal systems with two-dimensional parabolic reflectors were studied and optimised, and a new biaxial model for the incidence angle dependence of the optical efficiency was proposed.</p><p>Concentration of light generally results in high cell temperatures, and the uneven irradiance distribution on cells with parabolic reflectors leads to high local currents and temperatures, which reduce fill-factor and voltage. Cooling the cells by means of water increases the voltage and makes it possible to utilize the thermal energy. The performance of a 4X concentrating photovoltaic-thermal system was evaluated. If operated at 50°C, this system would produce 250 kWh<sub>electrical</sub> and 800 kWh<sub>thermal</sub> per m<sup>2</sup> cell area and year. Optical performance can be increased by 20% by using better reflectors and anti-reflectance glazing.</p><p>Low-concentrating photovoltaic systems for façade-integration were studied and optimised for maximum annual electricity production. The optimisation was based on measured short-circuit currents versus solar altitude. Measurements were performed outdoors and in a solar simulator. It was found that the use of 3X parabolic reflectors increases the annual electricity production by more than 40%. High solar reflectance is crucial to system performance but by using a low-angle scattering reflector, the fill-factor and power are increased due to a more even irradiance on the modules.</p><p>Long-term system performance depends on the durability of the components. The optical properties and degradation of reflector materials were assessed using spectrophotometry, angular resolved scatterometry, Fresnel modelling, optical microscopy, and surface profilometry before and after ageing. The degradation of reflectors was found to be strongly dependent on material composition and environmental conditions. Back surface mirrors, all-metal reflectors, and polymer-metal laminates degraded in different ways, and therefore accelerated ageing must be tailored for testing of different types of reflector materials. However, new types of reflector laminates showed a potential for increasing the cost-effectiveness of low-concentrating solar energy systems.</p> Engineering physics Photovoltaic cells Photovoltaic-thermal systems Parabolic reflectors Optical properties Reflector materials Optical efficiency Accelerated ageing Outdoor ageing Building-integrated photovoltaics Teknisk fysik Engineering physics Teknisk fysik
17	Optical Efficiency of Low-Concentrating Solar Energy Systems with Parabolic Reflectors Brogren, Maria January 2004 (has links) Solar electricity is a promising energy technology for the future, and by using reflectors for concentrating solar radiation onto photovoltaic cells, the cost per produced kWh can be significantly reduced. The optical efficiency of a concentrating system determines the fraction of the incident energy that is transferred to the cells and depends on the optical properties of the system components. In this thesis, low-concentrating photovoltaic and photovoltaic-thermal systems with two-dimensional parabolic reflectors were studied and optimised, and a new biaxial model for the incidence angle dependence of the optical efficiency was proposed. Concentration of light generally results in high cell temperatures, and the uneven irradiance distribution on cells with parabolic reflectors leads to high local currents and temperatures, which reduce fill-factor and voltage. Cooling the cells by means of water increases the voltage and makes it possible to utilize the thermal energy. The performance of a 4X concentrating photovoltaic-thermal system was evaluated. If operated at 50°C, this system would produce 250 kWhelectrical and 800 kWhthermal per m2 cell area and year. Optical performance can be increased by 20% by using better reflectors and anti-reflectance glazing. Low-concentrating photovoltaic systems for façade-integration were studied and optimised for maximum annual electricity production. The optimisation was based on measured short-circuit currents versus solar altitude. Measurements were performed outdoors and in a solar simulator. It was found that the use of 3X parabolic reflectors increases the annual electricity production by more than 40%. High solar reflectance is crucial to system performance but by using a low-angle scattering reflector, the fill-factor and power are increased due to a more even irradiance on the modules. Long-term system performance depends on the durability of the components. The optical properties and degradation of reflector materials were assessed using spectrophotometry, angular resolved scatterometry, Fresnel modelling, optical microscopy, and surface profilometry before and after ageing. The degradation of reflectors was found to be strongly dependent on material composition and environmental conditions. Back surface mirrors, all-metal reflectors, and polymer-metal laminates degraded in different ways, and therefore accelerated ageing must be tailored for testing of different types of reflector materials. However, new types of reflector laminates showed a potential for increasing the cost-effectiveness of low-concentrating solar energy systems. Engineering physics Photovoltaic cells Photovoltaic-thermal systems Parabolic reflectors Optical properties Reflector materials Optical efficiency Accelerated ageing Outdoor ageing Building-integrated photovoltaics Teknisk fysik Engineering physics Teknisk fysik
18	Σχεδιασμός θερμικού ηλιακού συστήματος για τα μετεωρολογικά δεδομένα της Πάτρας Ζάρρας, Γεώργιος 18 June 2009 (has links) Σκοπός της παρούσης διπλωματικής εργασίας είναι η διερεύνηση, μέσω παραμετρικών αναλύσεων, της συμπεριφοράς και απόδοσης ενός δεδομένου Θερμικού Ηλιακού Συστήματος (Θ.Η.Σ.) για την περιοχή της Πάτρας. Στα πλαίσια αυτά, στο πρώτο μέρος της εργασίας περιλαμβάνεται μία βιβλιογραφική έρευνα, η οποία καλύπτει εκτενώς θέματα όπως η ηλιακή ακτινοβολία, κατηγορίες – εφαρμογές και ανάλυση των κύριων συνιστωσών ολοκληρωμένων Θ.Η.Σ., καθώς επίσης και μεθόδους εξομοίωσης τους. Στο δεύτερο μέρος αναπτύσσεται πρόγραμμα υπολογιστή, το οποίο αφ’ ενός υπολογίζει την ηλιακή ακτινοβολία που προσπίπτει σε μία επιφάνεια στην περιοχή της Πάτρας, αφ’ ετέρου προσδιορίζει, μέσω δύο μεθόδων (αναλυτική και f-chart), τα μηνιαία και ετήσια ποσοστά κάλυψης του φορτίου ενός δεδομένου Θ.Η.Σ.. Τα αποτελέσματα των αναλύσεων αυτών εμφανίζονται στη συνέχεια σε σχετικά γραφήματα παρέχοντας διάφορα χρήσιμα συμπεράσματα. / This project includes bibliographic research related to solar thermal systems and a study of performance, via parametrical analysis, for a solar water heating system installed in a hotel unit located in the region of Patras. Ηλιακή ακτινοβολία Ηλιακοί θερμοσίφωνες Μέθοδος f-chart 621.472 Solar thermal systems Solar radiation Solar thermosyphon systems F-chart method
19	Estudo da problemática da aplicação de coletores solares para aquecimento de água, no segmento residencial de alto padrão, com base em escalas de projeto arquitetônico e dimensões de planejamento. / Study of the problematic of solar thermal collectors for hot water in high standards houses based on architectonic and planning dimensions. Bernadette Vechia de Mendonça 20 March 2009 (has links) A presente Dissertação é um estudo a respeito da problemática da utilização dos Sistemas de Aquecimento Solar Térmico para Aquecimento de Água com Coletores Planos em Circuito Direto, no crítico contexto da construção civil paulista para o ponto de vista da Arquitetura e do Urbanismo. Apesar do potencial solar do país e do padrão construtivo dos condomínios horizontais fechados da Região Metropolitana de São Paulo (RMSP), ainda não há regulamentação do uso do aquecimento solar térmico em alguns de seus municípios-sede. Atualmente tem havido a adesão espontânea ao sistema por parte de moradores das residências desses condomínios, decorrente da busca da redução dos gastos e da crescente conscientização ambiental e divulgação da tecnologia. Porém, ainda há necessidade de uma relação mais sistêmica dos coletores solares com a totalidade dos requisitos da edificação e do meio urbano, mesmo em se tratando da legislação específica. Buscando uma constribuição, aqui se propõe um modelo de estudo dos coletores baseado em escalas construtivas que, juntamente com a compreensão multidimensional do assunto, desafiam a atual dicotomia entre as ferramentas de qualidade e a sustentabilidade do ambiente construído. / The present work studies the problematic of using Solar Hot Water Systems by Direct Circuit, among the critics characteristics of civil construction in the State of São Paulo, Brazil. The point of view is of Architecture and Urban Planning. In spite of the high Brazilian levels of solar irradiation and the constructive pattern of horizontal closed condominiums of the metropolitan region of São Paulo (Brazil), which possess a large concentration of high incoming households, use of solar water heating is still not regulated in some of its comprising municipalities. Nowadays, the search for savings, diffusion of related technologies and raising environmental awareness have led to voluntary uptaking of such systems. Yet, regulation of solar collectors still lacks relating to certification of sustainable building practices, which does not relate to architectonic factors, in particular to main urbanistic features present in each given installation site. This work proposes an architectonic scale based model of studying it in order to pursuit the end of dichotomy between quality and sustainability. Arquitetura sustentável Condomínios fechados Energia solar Meio ambiente urbano Architectonic and urban integration Horizontal closed condominiums Plain solar collector Solar energy Solar thermal systems by direct circuits
20	Desenvolvimento de sistema especialista para a geração automática de superestruturas para síntese e otimização de sistemas térmicos / Vieira, Felipe Seabra. January 2019 (has links) Orientador: José Alexandre Matelli / Resumo: Por estar relacionado com questões econômicas e ambientais, o uso eficiente de energia é atualmente alvo de diversos estudos e pesquisas. A demanda energética, tanto elétrica quanto térmica, está presente nos mais diversos setores, tais como, indústrias, condomínios residenciais, cidades, comércios e hospitais. Para que tais demandas sejam supridas, com o melhor aproveitamento energético possível, surge o conceito de cogeração. Cogeração pode ser entendida como a geração de dois ou mais tipos de energia (trabalho mecânico, energia elétrica, calor ou energia de resfriamento) a partir de uma única fonte energética. O projeto, porém, de um sistema térmico de cogeração pode apresentar uma complexidade muito elevada. Isso se deve, dentre outras razões, aos diversos tipos e tamanhos de tecnologias existentes, além das inter-relações complexas dos parâmetros de um sistema (tais como pressões, temperaturas, vazões e eficiências em carga parcial). Surgem, então, diversas possibilidades de configurações de sistemas para se atender aos requisitos de um projeto, fazendo com que a busca pela solução ótima seja complexa. A solução ótima depende fortemente da superestrutura, no sentido que diferentes superestruturas resultam em diferentes soluções ótimas. No entanto, a criação de superestruturas não é feita, em geral, de modo sistemático, dependendo em grande medida das preferências, da experiência e criatividade de quem a propõe. Neste trabalho foi desenvolvido um método de projeto que usa... (Resumo completo, clicar acesso eletrônico abaixo) / Mestre Cogeração Sistemas baseado em conhecimento Otimização Projeto de sistemas térmicos Energia. Cogeneration Knowledge based system Optimization Design of thermal systems Energy Energia elétrica e calor - Cogeração Otimização estrutural.

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