Manufacturing process and study of a selective surface for flat plate solar collectors by using granite residue
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2014 |
| Tipo de documento: | Dissertação |
| Idioma: | por |
| Título da fonte: | Biblioteca Digital de Teses e Dissertações da UFC |
| Texto Completo: | http://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=12587 |
Resumo: | The using of alternatives materials to replace selective surfaces is a natural trend, because it usually looks for improvements on efficiency of surfaces at the same time that it tries to reduce costs. Composites are already used on obtainment of some selective surfaces, however, if the possibility to use residue that would be discarded was associated to these characteristics, providing an added-value, it would brings some benefits like a possible reduction of manufacturing costs. Thus, this thesis proposes the obtainment and study of selective surfaces for flat plate solar collectors for low cost by using residue from granite industry. Three different surfaces was studied, two of them of obtained on the laboratory, one is granite powder made and the other is a surface composed by a mixture of granite powder and CRFO (Cr0,75Fe1,25O3); the third surface is a commercial one, known as TiNOX. To perform the tests of the surfaces it was built an experimental stand, it allows simulating a solar collector conditions. The tests was performed in a stagnation condition, in other words, there wasnât any water flow inside tubes. Through this experimental apparatus it was possible to test the three surfaces simultaneously. The field tests showed that the highest temperatures were reached by granite powder surface, which reached an average temperature of 119 ÂC, while the granite powder and CRFO mixture surface reached an average of 96 ÂC. The TiNOX achieve an average temperature of 101 ÂC. The three surfaces was compared each other through an equation that gives a global heat loss coefficient. The granite powder surface was the one which achieved the lowest global heat loss coefficient. |
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info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisManufacturing process and study of a selective surface for flat plate solar collectors by using granite residueObtenÃÃo e estudo de uma superfÃcie seletiva para coletores solares tÃrmicos a partir de resÃduos de granito2014-07-31Francisco Nivaldo Aguiar Freire39106705391http://lattes.cnpq.br/1550246266734380Ana FabÃola Leite Almeida46141715320http://lattes.cnpq.br/9559388539403580 AntÃnio SÃrgio Bezerra Sombra11420618334http://lattes.cnpq.br/6034251420222926 01575255030http://lattes.cnpq.br/9345424245186658Felipe Pereira RodriguesUniversidade Federal do CearÃPrograma de PÃs-GraduaÃÃo em Engenharia MecÃnicaUFCBR Coletor solar de placa plana Pà de granitoselective surface flat plate solar collector solar energy granite powderENGENHARIA MECANICAThe using of alternatives materials to replace selective surfaces is a natural trend, because it usually looks for improvements on efficiency of surfaces at the same time that it tries to reduce costs. Composites are already used on obtainment of some selective surfaces, however, if the possibility to use residue that would be discarded was associated to these characteristics, providing an added-value, it would brings some benefits like a possible reduction of manufacturing costs. Thus, this thesis proposes the obtainment and study of selective surfaces for flat plate solar collectors for low cost by using residue from granite industry. Three different surfaces was studied, two of them of obtained on the laboratory, one is granite powder made and the other is a surface composed by a mixture of granite powder and CRFO (Cr0,75Fe1,25O3); the third surface is a commercial one, known as TiNOX. To perform the tests of the surfaces it was built an experimental stand, it allows simulating a solar collector conditions. The tests was performed in a stagnation condition, in other words, there wasnât any water flow inside tubes. Through this experimental apparatus it was possible to test the three surfaces simultaneously. The field tests showed that the highest temperatures were reached by granite powder surface, which reached an average temperature of 119 ÂC, while the granite powder and CRFO mixture surface reached an average of 96 ÂC. The TiNOX achieve an average temperature of 101 ÂC. The three surfaces was compared each other through an equation that gives a global heat loss coefficient. The granite powder surface was the one which achieved the lowest global heat loss coefficient.O uso de materiais alternativos com objetivo de substituir superfÃcies seletivas à uma tendÃncia natural, pois geralmente se busca melhorias na eficiÃncia das superfÃcies ao mesmo tempo em que se tenta diminuir os custos. SubstÃncias compÃsitas jà sÃo utilizadas na obtenÃÃo de algumas superfÃcies seletivas, no entanto, se for associado a estas caracterÃsticas a possibilidade de utilizar resÃduos que iriam ser descartados, conferindo aos mesmos um valor agregado, isso traria alguns benefÃcios, como uma possÃvel reduÃÃo de custos de fabricaÃÃo. Desta forma, o presente trabalho propÃe a obtenÃÃo e o estudo de superfÃcies seletivas para aplicaÃÃes em coletores solares de placa plana de baixo custo originÃrio do resÃduo da indÃstria de granito. Foram estudadas trÃs diferentes superfÃcies, duas delas foram obtidas no laboratÃrio, a superfÃcie a base de pà de granito e a superfÃcie composta pela mistura de pà de granito e CRFO (Cr0,75Fe1,25O3); e a terceira superfÃcie foi uma superfÃcie comercial, conhecida como TiNOX. Para a realizaÃÃo dos testes foi construÃda uma bancada experimental de madeira, de forma que fosse possÃvel simular as condiÃÃes de um coletor solar de placa plana. Os testes foram feitos em condiÃÃo de estagnaÃÃo, ou seja, nÃo havia fluxo de Ãgua atravÃs de tubos no coletor. AtravÃs desse aparato experimental foi possÃvel testar as trÃs superfÃcies seletivas simultaneamente. Os testes de campo mostraram que a superfÃcie composta por pà de granito foi a que atingiu as maiores temperaturas, com uma mÃdia de atà 119 ÂC, enquanto a superfÃcie obtida com uma mistura de pà de granito e CRFO chegou a temperatura mÃdia de 96 ÂC, jà a superfÃcie comercial atingiu uma mÃdia de 101 ÂC. As superfÃcies foram comparadas atravÃs de uma equaÃÃo que fornece o coeficiente global de perda de energia tÃrmica. Os menores coeficientes foram obtidos pela superfÃcie de pà de granitoCoordenaÃÃo de AperfeiÃoamento de Pessoal de NÃvel Superiorhttp://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=12587application/pdfinfo:eu-repo/semantics/openAccessporreponame:Biblioteca Digital de Teses e Dissertações da UFCinstname:Universidade Federal do Cearáinstacron:UFC2019-01-21T11:25:45Zmail@mail.com - |
| dc.title.en.fl_str_mv |
Manufacturing process and study of a selective surface for flat plate solar collectors by using granite residue |
| dc.title.alternative.pt.fl_str_mv |
ObtenÃÃo e estudo de uma superfÃcie seletiva para coletores solares tÃrmicos a partir de resÃduos de granito |
| title |
Manufacturing process and study of a selective surface for flat plate solar collectors by using granite residue |
| spellingShingle |
Manufacturing process and study of a selective surface for flat plate solar collectors by using granite residue Felipe Pereira Rodrigues Coletor solar de placa plana PÃ de granito selective surface flat plate solar collector solar energy granite powder ENGENHARIA MECANICA |
| title_short |
Manufacturing process and study of a selective surface for flat plate solar collectors by using granite residue |
| title_full |
Manufacturing process and study of a selective surface for flat plate solar collectors by using granite residue |
| title_fullStr |
Manufacturing process and study of a selective surface for flat plate solar collectors by using granite residue |
| title_full_unstemmed |
Manufacturing process and study of a selective surface for flat plate solar collectors by using granite residue |
| title_sort |
Manufacturing process and study of a selective surface for flat plate solar collectors by using granite residue |
| author |
Felipe Pereira Rodrigues |
| author_facet |
Felipe Pereira Rodrigues |
| author_role |
author |
| dc.contributor.advisor1.fl_str_mv |
Francisco Nivaldo Aguiar Freire |
| dc.contributor.advisor1ID.fl_str_mv |
39106705391 |
| dc.contributor.advisor1Lattes.fl_str_mv |
http://lattes.cnpq.br/1550246266734380 |
| dc.contributor.advisor-co1.fl_str_mv |
Ana FabÃola Leite Almeida |
| dc.contributor.advisor-co1ID.fl_str_mv |
46141715320 |
| dc.contributor.advisor-co1Lattes.fl_str_mv |
http://lattes.cnpq.br/9559388539403580 |
| dc.contributor.referee1.fl_str_mv |
AntÃnio SÃrgio Bezerra Sombra |
| dc.contributor.referee1ID.fl_str_mv |
11420618334 |
| dc.contributor.referee1Lattes.fl_str_mv |
http://lattes.cnpq.br/6034251420222926 |
| dc.contributor.authorID.fl_str_mv |
01575255030 |
| dc.contributor.authorLattes.fl_str_mv |
http://lattes.cnpq.br/9345424245186658 |
| dc.contributor.author.fl_str_mv |
Felipe Pereira Rodrigues |
| contributor_str_mv |
Francisco Nivaldo Aguiar Freire Ana FabÃola Leite Almeida AntÃnio SÃrgio Bezerra Sombra |
| dc.subject.por.fl_str_mv |
Coletor solar de placa plana PÃ de granito |
| topic |
Coletor solar de placa plana PÃ de granito selective surface flat plate solar collector solar energy granite powder ENGENHARIA MECANICA |
| dc.subject.eng.fl_str_mv |
selective surface flat plate solar collector solar energy granite powder |
| dc.subject.cnpq.fl_str_mv |
ENGENHARIA MECANICA |
| dc.description.sponsorship.fl_txt_mv |
CoordenaÃÃo de AperfeiÃoamento de Pessoal de NÃvel Superior |
| dc.description.abstract.por.fl_txt_mv |
The using of alternatives materials to replace selective surfaces is a natural trend, because it usually looks for improvements on efficiency of surfaces at the same time that it tries to reduce costs. Composites are already used on obtainment of some selective surfaces, however, if the possibility to use residue that would be discarded was associated to these characteristics, providing an added-value, it would brings some benefits like a possible reduction of manufacturing costs. Thus, this thesis proposes the obtainment and study of selective surfaces for flat plate solar collectors for low cost by using residue from granite industry. Three different surfaces was studied, two of them of obtained on the laboratory, one is granite powder made and the other is a surface composed by a mixture of granite powder and CRFO (Cr0,75Fe1,25O3); the third surface is a commercial one, known as TiNOX. To perform the tests of the surfaces it was built an experimental stand, it allows simulating a solar collector conditions. The tests was performed in a stagnation condition, in other words, there wasnât any water flow inside tubes. Through this experimental apparatus it was possible to test the three surfaces simultaneously. The field tests showed that the highest temperatures were reached by granite powder surface, which reached an average temperature of 119 ÂC, while the granite powder and CRFO mixture surface reached an average of 96 ÂC. The TiNOX achieve an average temperature of 101 ÂC. The three surfaces was compared each other through an equation that gives a global heat loss coefficient. The granite powder surface was the one which achieved the lowest global heat loss coefficient. O uso de materiais alternativos com objetivo de substituir superfÃcies seletivas à uma tendÃncia natural, pois geralmente se busca melhorias na eficiÃncia das superfÃcies ao mesmo tempo em que se tenta diminuir os custos. SubstÃncias compÃsitas jà sÃo utilizadas na obtenÃÃo de algumas superfÃcies seletivas, no entanto, se for associado a estas caracterÃsticas a possibilidade de utilizar resÃduos que iriam ser descartados, conferindo aos mesmos um valor agregado, isso traria alguns benefÃcios, como uma possÃvel reduÃÃo de custos de fabricaÃÃo. Desta forma, o presente trabalho propÃe a obtenÃÃo e o estudo de superfÃcies seletivas para aplicaÃÃes em coletores solares de placa plana de baixo custo originÃrio do resÃduo da indÃstria de granito. Foram estudadas trÃs diferentes superfÃcies, duas delas foram obtidas no laboratÃrio, a superfÃcie a base de pà de granito e a superfÃcie composta pela mistura de pà de granito e CRFO (Cr0,75Fe1,25O3); e a terceira superfÃcie foi uma superfÃcie comercial, conhecida como TiNOX. Para a realizaÃÃo dos testes foi construÃda uma bancada experimental de madeira, de forma que fosse possÃvel simular as condiÃÃes de um coletor solar de placa plana. Os testes foram feitos em condiÃÃo de estagnaÃÃo, ou seja, nÃo havia fluxo de Ãgua atravÃs de tubos no coletor. AtravÃs desse aparato experimental foi possÃvel testar as trÃs superfÃcies seletivas simultaneamente. Os testes de campo mostraram que a superfÃcie composta por pà de granito foi a que atingiu as maiores temperaturas, com uma mÃdia de atà 119 ÂC, enquanto a superfÃcie obtida com uma mistura de pà de granito e CRFO chegou a temperatura mÃdia de 96 ÂC, jà a superfÃcie comercial atingiu uma mÃdia de 101 ÂC. As superfÃcies foram comparadas atravÃs de uma equaÃÃo que fornece o coeficiente global de perda de energia tÃrmica. Os menores coeficientes foram obtidos pela superfÃcie de pà de granito |
| description |
The using of alternatives materials to replace selective surfaces is a natural trend, because it usually looks for improvements on efficiency of surfaces at the same time that it tries to reduce costs. Composites are already used on obtainment of some selective surfaces, however, if the possibility to use residue that would be discarded was associated to these characteristics, providing an added-value, it would brings some benefits like a possible reduction of manufacturing costs. Thus, this thesis proposes the obtainment and study of selective surfaces for flat plate solar collectors for low cost by using residue from granite industry. Three different surfaces was studied, two of them of obtained on the laboratory, one is granite powder made and the other is a surface composed by a mixture of granite powder and CRFO (Cr0,75Fe1,25O3); the third surface is a commercial one, known as TiNOX. To perform the tests of the surfaces it was built an experimental stand, it allows simulating a solar collector conditions. The tests was performed in a stagnation condition, in other words, there wasnât any water flow inside tubes. Through this experimental apparatus it was possible to test the three surfaces simultaneously. The field tests showed that the highest temperatures were reached by granite powder surface, which reached an average temperature of 119 ÂC, while the granite powder and CRFO mixture surface reached an average of 96 ÂC. The TiNOX achieve an average temperature of 101 ÂC. The three surfaces was compared each other through an equation that gives a global heat loss coefficient. The granite powder surface was the one which achieved the lowest global heat loss coefficient. |
| publishDate |
2014 |
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2014-07-31 |
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info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/masterThesis |
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publishedVersion |
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http://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=12587 |
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http://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=12587 |
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por |
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por |
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application/pdf |
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Universidade Federal do Cearà |
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Programa de PÃs-GraduaÃÃo em Engenharia MecÃnica |
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UFC |
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BR |
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Universidade Federal do Cearà |
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