Estudo da fluidodinâmica em leito fixo utilizando-se métodos numéricos de solução: escoamento monofásico de ar
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2006 |
| Tipo de documento: | Dissertação |
| Idioma: | por |
| Título da fonte: | Repositório Institucional da UFSCAR |
| Texto Completo: | https://repositorio.ufscar.br/handle/ufscar/4177 |
Resumo: | Studies accomplished in the structure of tubular fixed beds proved that the porosity in these systems presents an oscillatory behavior along the radial direction. The non-uniformity of the porosity generates a behavior of the velocity profile, inside the bed, characterized by oscillations in the central region and a peak of larger width in the region close to the wall. This velocity profile determines the residence time of the reactants, for example, and presents a strong influence in the heat and mass transfer coefficients of these systems. In spite of the progress obtained in that subject, it is still difficult to obtain the measure of flow velocity inside the bed without causing disturbances in its structure. Due to this restriction, indirect forms of experimental measure of the velocity distribution in these systems have been proposed to evaluate the fluid dynamics inside the bed. The most common way to obtain, experimentally, the velocity distribution inside the bed is to measure it outside the bed, at a certain distance from its exit, and then infer it inside the bed by considering that the flow measured at this point maintains the fluid dynamics characteristics at the interface. Looking for an alternative way to infer the velocity profile inside the fixed bed, this work proposes a measure of the change in flow characteristics from the exit of the fixed bed to the point of experimental measurement. The measure proposed before takes into account the change in the radial mean velocity evaluated over an area close to the central part of the flow. This measure is based on simulated results accomplished between these two points, located outside the fixed bed, from an appropriated boundary condition at the interface. This boundary condition at interface is the result of other simulations performed inside the fixed bed, from a convenient model proposed for this region. Both simulations were accomplished by using a simulator developed in FORTRAN language, based on a CFD numeric technique for outside and a standard finite difference method for inside the fixed bed. The validity of the proposed procedure was verified by comparing the velocity distribution simulated at a position pointed out in an experimental measurement of the velocity distribution obtained in the literature, and with similar operational conditions. By doing this validation, it was established a relationship between the change in flow characteristics and the axial position of measurement. As a result, it was possible to infer how much of the flow characteristics in the interface are observed from the position chose for measurement along the axial direction of the flow. Better results were observed in systems with a high dimensionless D/Dp relation and low values of Reynolds number for the flow simulations accomplished in the exit area of the bed. Deviations from experimental data, varying between 2,97% and 30,23%, were verified for different operational conditions of the system. Through the central velocity simulation along in the empty tube axial position, were possible to map the empty tube influences on the flow in the fixed bed exit area, evaluating the difference of that central medium velocity with the calculated for the bed exit. |
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Béttega, RodrigoCorrêa, Ronaldo Guimarãeshttp://genos.cnpq.br:12010/dwlattes/owa/prc_imp_cv_int?f_cod=K4781741H4http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4777874P8a8b181e8-2587-4ff2-986f-7c9d09fddee32016-06-02T19:57:00Z2007-10-182016-06-02T19:57:00Z2006-03-09BÉTTEGA, Rodrigo. Estudo da fluidodinâmica em leito fixo utilizando-se métodos numéricos de solução: escoamento monofásico de ar.. 2006. 133 f. Dissertação (Mestrado em Ciências Exatas e da Terra) - Universidade Federal de São Carlos, São Carlos, 2006.https://repositorio.ufscar.br/handle/ufscar/4177Studies accomplished in the structure of tubular fixed beds proved that the porosity in these systems presents an oscillatory behavior along the radial direction. The non-uniformity of the porosity generates a behavior of the velocity profile, inside the bed, characterized by oscillations in the central region and a peak of larger width in the region close to the wall. This velocity profile determines the residence time of the reactants, for example, and presents a strong influence in the heat and mass transfer coefficients of these systems. In spite of the progress obtained in that subject, it is still difficult to obtain the measure of flow velocity inside the bed without causing disturbances in its structure. Due to this restriction, indirect forms of experimental measure of the velocity distribution in these systems have been proposed to evaluate the fluid dynamics inside the bed. The most common way to obtain, experimentally, the velocity distribution inside the bed is to measure it outside the bed, at a certain distance from its exit, and then infer it inside the bed by considering that the flow measured at this point maintains the fluid dynamics characteristics at the interface. Looking for an alternative way to infer the velocity profile inside the fixed bed, this work proposes a measure of the change in flow characteristics from the exit of the fixed bed to the point of experimental measurement. The measure proposed before takes into account the change in the radial mean velocity evaluated over an area close to the central part of the flow. This measure is based on simulated results accomplished between these two points, located outside the fixed bed, from an appropriated boundary condition at the interface. This boundary condition at interface is the result of other simulations performed inside the fixed bed, from a convenient model proposed for this region. Both simulations were accomplished by using a simulator developed in FORTRAN language, based on a CFD numeric technique for outside and a standard finite difference method for inside the fixed bed. The validity of the proposed procedure was verified by comparing the velocity distribution simulated at a position pointed out in an experimental measurement of the velocity distribution obtained in the literature, and with similar operational conditions. By doing this validation, it was established a relationship between the change in flow characteristics and the axial position of measurement. As a result, it was possible to infer how much of the flow characteristics in the interface are observed from the position chose for measurement along the axial direction of the flow. Better results were observed in systems with a high dimensionless D/Dp relation and low values of Reynolds number for the flow simulations accomplished in the exit area of the bed. Deviations from experimental data, varying between 2,97% and 30,23%, were verified for different operational conditions of the system. Through the central velocity simulation along in the empty tube axial position, were possible to map the empty tube influences on the flow in the fixed bed exit area, evaluating the difference of that central medium velocity with the calculated for the bed exit.Estudos realizados na estrutura de leitos fixos tubulares já comprovaram que a porosidade neste sistema apresenta um comportamento oscilatório na direção radial. A não-uniformidade da porosidade gera um comportamento do perfil de velocidades, no interior do leito, caracterizado por oscilações na região central e um pico de maior amplitude na região próxima à parede. Este perfil de velocidades determina o tempo de residência de reagentes, por exemplo, e apresenta uma forte influência na transferência de calor e massa no sistema. Apesar dos avanços nesse tema, ainda é muito difícil obter uma medida de velocidade de escoamento no interior do leito sem causar-lhe perturbações ou alterações de sua estrutura. Devido a esta restrição, formas indiretas de medida experimental da velocidade neste sistema têm sido propostas para avaliar a fluidodinâmica no interior do leito. Uma das formas mais comuns para obter experimentalmente essa velocidade é medi-la em regiões do escoamento fora do leito, a uma determinada distância da saída do mesmo, considerando-se que o escoamento nesse ponto de medida mantenha as características fluidodinâmicas da interface. Frente aos questionamentos sobre a validade de inferir a velocidade de escoamento no interior do leito fixo a partir de medidas experimentais realizadas fora do mesmo, o presente trabalho aborda um estudo sobre a perda das características do escoamento a partir da saída do leito fixo até o ponto de medida experimental. Para a avaliação do problema, são realizadas simulações na região compreendida entre a interface leito-tubo e a posição de medida do perfil de velocidades, utilizando como condição de contorno na interface a resposta de um modelo proposto para o interior do leito fixo. As simulações foram realizadas utilizando-se um simulador desenvolvido em linguagem FORTRAN, baseado em uma técnica numérica de Fluidodinâmica Computacional. Utilizando-se condições semelhantes à literatura verificou-se a confiabilidade do modelo proposto para a fluidodinâmica no interior do leito, através da comparação de resultados experimentais medidos fora do leito com resultados simulados, para a posição de medida. Avaliou-se também a extensão do efeito do tubo vazio sobre o comportamento do escoamento na região de saída do leito, discriminando-se quanto do comportamento do escoamento no interior do leito é observado pela medida realizada fora do mesmo. Observou-se melhores resultados em sistemas com um elevado adimensional D/Dp e baixos valores do número de Reynolds para as simulações do escoamento realizadas na região de saída do leito. Nestes resultados verificaram-se desvios variando entre 2,97% e 30,23% em relação a dados experimentais, para diferentes condições operacionais do sistema. Através da simulação da velocidade central ao longo da posição axial no tubo vazio, foi possível mapear a influencia do tubo vazio sobre o escoamento na região de saída do leito fixo, avaliando a diferença dessa velocidade média central com relação a mesma calculada à saída do leito.Universidade Federal de Sao Carlosapplication/pdfporUniversidade Federal de São CarlosPrograma de Pós-Graduação em Engenharia Química - PPGEQUFSCarBRSistemas particuladosLeito fixoEscoamento monofásicoSimulaçõaMétodos numéricosENGENHARIAS::ENGENHARIA QUIMICAEstudo da fluidodinâmica em leito fixo utilizando-se métodos numéricos de solução: escoamento monofásico de arinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesis-1-17107c8d8-f099-43c2-a770-1cd02b0a3f85info:eu-repo/semantics/openAccessreponame:Repositório Institucional da UFSCARinstname:Universidade Federal de São Carlos (UFSCAR)instacron:UFSCARORIGINALDissRB.pdfapplication/pdf3410137https://repositorio.ufscar.br/bitstream/ufscar/4177/1/DissRB.pdf75aa0317bec922b4072abef227bf9acdMD51THUMBNAILDissRB.pdf.jpgDissRB.pdf.jpgIM Thumbnailimage/jpeg6494https://repositorio.ufscar.br/bitstream/ufscar/4177/2/DissRB.pdf.jpge959ac3eab1f65701e6da43efa4b1d3cMD52ufscar/41772023-09-18 18:31:46.062oai:repositorio.ufscar.br:ufscar/4177Repositório InstitucionalPUBhttps://repositorio.ufscar.br/oai/requestopendoar:43222023-09-18T18:31:46Repositório Institucional da UFSCAR - Universidade Federal de São Carlos (UFSCAR)false |
| dc.title.por.fl_str_mv |
Estudo da fluidodinâmica em leito fixo utilizando-se métodos numéricos de solução: escoamento monofásico de ar |
| title |
Estudo da fluidodinâmica em leito fixo utilizando-se métodos numéricos de solução: escoamento monofásico de ar |
| spellingShingle |
Estudo da fluidodinâmica em leito fixo utilizando-se métodos numéricos de solução: escoamento monofásico de ar Béttega, Rodrigo Sistemas particulados Leito fixo Escoamento monofásico Simulaçõa Métodos numéricos ENGENHARIAS::ENGENHARIA QUIMICA |
| title_short |
Estudo da fluidodinâmica em leito fixo utilizando-se métodos numéricos de solução: escoamento monofásico de ar |
| title_full |
Estudo da fluidodinâmica em leito fixo utilizando-se métodos numéricos de solução: escoamento monofásico de ar |
| title_fullStr |
Estudo da fluidodinâmica em leito fixo utilizando-se métodos numéricos de solução: escoamento monofásico de ar |
| title_full_unstemmed |
Estudo da fluidodinâmica em leito fixo utilizando-se métodos numéricos de solução: escoamento monofásico de ar |
| title_sort |
Estudo da fluidodinâmica em leito fixo utilizando-se métodos numéricos de solução: escoamento monofásico de ar |
| author |
Béttega, Rodrigo |
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Béttega, Rodrigo |
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author |
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http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4777874P8 |
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Béttega, Rodrigo |
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Corrêa, Ronaldo Guimarães |
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http://genos.cnpq.br:12010/dwlattes/owa/prc_imp_cv_int?f_cod=K4781741H4 |
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a8b181e8-2587-4ff2-986f-7c9d09fddee3 |
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Corrêa, Ronaldo Guimarães |
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Sistemas particulados Leito fixo Escoamento monofásico Simulaçõa Métodos numéricos |
| topic |
Sistemas particulados Leito fixo Escoamento monofásico Simulaçõa Métodos numéricos ENGENHARIAS::ENGENHARIA QUIMICA |
| dc.subject.cnpq.fl_str_mv |
ENGENHARIAS::ENGENHARIA QUIMICA |
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Studies accomplished in the structure of tubular fixed beds proved that the porosity in these systems presents an oscillatory behavior along the radial direction. The non-uniformity of the porosity generates a behavior of the velocity profile, inside the bed, characterized by oscillations in the central region and a peak of larger width in the region close to the wall. This velocity profile determines the residence time of the reactants, for example, and presents a strong influence in the heat and mass transfer coefficients of these systems. In spite of the progress obtained in that subject, it is still difficult to obtain the measure of flow velocity inside the bed without causing disturbances in its structure. Due to this restriction, indirect forms of experimental measure of the velocity distribution in these systems have been proposed to evaluate the fluid dynamics inside the bed. The most common way to obtain, experimentally, the velocity distribution inside the bed is to measure it outside the bed, at a certain distance from its exit, and then infer it inside the bed by considering that the flow measured at this point maintains the fluid dynamics characteristics at the interface. Looking for an alternative way to infer the velocity profile inside the fixed bed, this work proposes a measure of the change in flow characteristics from the exit of the fixed bed to the point of experimental measurement. The measure proposed before takes into account the change in the radial mean velocity evaluated over an area close to the central part of the flow. This measure is based on simulated results accomplished between these two points, located outside the fixed bed, from an appropriated boundary condition at the interface. This boundary condition at interface is the result of other simulations performed inside the fixed bed, from a convenient model proposed for this region. Both simulations were accomplished by using a simulator developed in FORTRAN language, based on a CFD numeric technique for outside and a standard finite difference method for inside the fixed bed. The validity of the proposed procedure was verified by comparing the velocity distribution simulated at a position pointed out in an experimental measurement of the velocity distribution obtained in the literature, and with similar operational conditions. By doing this validation, it was established a relationship between the change in flow characteristics and the axial position of measurement. As a result, it was possible to infer how much of the flow characteristics in the interface are observed from the position chose for measurement along the axial direction of the flow. Better results were observed in systems with a high dimensionless D/Dp relation and low values of Reynolds number for the flow simulations accomplished in the exit area of the bed. Deviations from experimental data, varying between 2,97% and 30,23%, were verified for different operational conditions of the system. Through the central velocity simulation along in the empty tube axial position, were possible to map the empty tube influences on the flow in the fixed bed exit area, evaluating the difference of that central medium velocity with the calculated for the bed exit. |
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2006 |
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2007-10-18 2016-06-02T19:57:00Z |
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BÉTTEGA, Rodrigo. Estudo da fluidodinâmica em leito fixo utilizando-se métodos numéricos de solução: escoamento monofásico de ar.. 2006. 133 f. Dissertação (Mestrado em Ciências Exatas e da Terra) - Universidade Federal de São Carlos, São Carlos, 2006. |
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BÉTTEGA, Rodrigo. Estudo da fluidodinâmica em leito fixo utilizando-se métodos numéricos de solução: escoamento monofásico de ar.. 2006. 133 f. Dissertação (Mestrado em Ciências Exatas e da Terra) - Universidade Federal de São Carlos, São Carlos, 2006. |
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