Filtração de gases: estudo da deposição de diferentes tortas de filtração em diferentes meios filtrantes

Detalhes bibliográficos
Autor(a) principal: Rodrigues, Karina Bassan
Data de Publicação: 2006
Tipo de documento: Tese
Idioma: por
Título da fonte: Repositório Institucional da UFSCAR
Texto Completo: https://repositorio.ufscar.br/handle/ufscar/3843
Resumo: The particle retention inside a filter medium, after cleaning, significantly improves the initial pressure drop during the subsequent cycle, that is, the residual pressure drop. However, the way as these particles accommodate inside the filter isn t still very clear, as well as, its impact on filtering performance. This work aims to verify the spatial disposal of different particles inside filtration media with different properties, in order to study the penetration depth, after cleaning, as well as the particle size variations from the cake-filter interface to the filtration bulk. Moreover, the objective of this research was to verify the relation between particle penetration behavior and other filtration characteristics for each fabric tested, like the development of residual pressure drop, retained and removed mass after cleaning, and removal efficiency. Three different kinds of powder materials were used for the experiments, varying particle size, granulometric distribution and particle shape: fine phosphoric rock dust, with an average Stokes diameter of 3.71 µm, irregular shape and wide granulometric distribution, coarse phosphoric rock dust, with an average Stokes diameter of 14.67 µm, irregular shape and wide granulometric distribution and tapioca flour, with average Stokes diameter of 8.67 µm, almost spherical shaped, and narrow granulometric distribution. It was observed, despite of the filter media heterogeneity, a particle accumulation in the upward layers of the fabric, decreasing as a function of depth. However, the penetration depth, amount of particles and particle diameter didn t vary according to the number of cycles. It was verified that, the polypropylene fabric, which has low values of permeability and porosity, presented lower particle retention values after cleaning, higher residual pressure drop and shorter filtration cycles, what could be associated with a superficial penetration, according to the microscopy tests carried out. The comparison made between treated and untreated polyester needle felts showed a greater retained mass in the untreated fabric, what resulted in a longer filtration cycle during the beginning of the process, making no difference when fine rock or tapioca flour were used. However, the filtration performance was significantly prejudiced during the following cycles, with higher residual pressure drop and lower particle efficiency removal, what turned the fabric less suitable than the other ones. The results showed that the material presenting narrower granulometric distribution and almost spherical shaped had more xiv homogeneous and long filtration cycles, despite of the greater values of retained mass and depth of penetration, what suggests the better accommodation of particles in the filter cake. The increase in the coarse rock particle diameter resulted in a deeper penetration and a greater retained mass, but similar residual pressure drop, with longer filtration cycles, what meant that the cake formed by greater particles offered better filtration conditions and less specific cake resistance. However, the penetration was deeper for the coarse rock, being the penetration intensity similar for the two rock diameters tested. The increase of maximum pressure drop resulted in a greater retained mass and a greater residual pressure drop. However, nothing could be assured about the total amount of particles collected from each analyzed layer, because the average values in each layer were comparable in magnitude. For a higher maximum pressure drop, the penetration was deeper, as well as the specific resistance of the filter cake, resulted from a greater filtration pressure.
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spelling Rodrigues, Karina BassanAguiar, Mônica Lopeshttp://lattes.cnpq.br/0431688649128529http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=P8049545c481c43-003e-4fd1-9a67-9d41b94b4dfe2016-06-02T19:55:20Z2007-08-092016-06-02T19:55:20Z2006-06-19RODRIGUES, Karina Bassan. Filtração de gases: estudo da deposição de diferentes tortas de filtração em diferentes meios filtrantes.. 2006. 253 f. Tese (Doutorado em Ciências Exatas e da Terra) - Universidade Federal de São Carlos, São Carlos, 2006.https://repositorio.ufscar.br/handle/ufscar/3843The particle retention inside a filter medium, after cleaning, significantly improves the initial pressure drop during the subsequent cycle, that is, the residual pressure drop. However, the way as these particles accommodate inside the filter isn t still very clear, as well as, its impact on filtering performance. This work aims to verify the spatial disposal of different particles inside filtration media with different properties, in order to study the penetration depth, after cleaning, as well as the particle size variations from the cake-filter interface to the filtration bulk. Moreover, the objective of this research was to verify the relation between particle penetration behavior and other filtration characteristics for each fabric tested, like the development of residual pressure drop, retained and removed mass after cleaning, and removal efficiency. Three different kinds of powder materials were used for the experiments, varying particle size, granulometric distribution and particle shape: fine phosphoric rock dust, with an average Stokes diameter of 3.71 µm, irregular shape and wide granulometric distribution, coarse phosphoric rock dust, with an average Stokes diameter of 14.67 µm, irregular shape and wide granulometric distribution and tapioca flour, with average Stokes diameter of 8.67 µm, almost spherical shaped, and narrow granulometric distribution. It was observed, despite of the filter media heterogeneity, a particle accumulation in the upward layers of the fabric, decreasing as a function of depth. However, the penetration depth, amount of particles and particle diameter didn t vary according to the number of cycles. It was verified that, the polypropylene fabric, which has low values of permeability and porosity, presented lower particle retention values after cleaning, higher residual pressure drop and shorter filtration cycles, what could be associated with a superficial penetration, according to the microscopy tests carried out. The comparison made between treated and untreated polyester needle felts showed a greater retained mass in the untreated fabric, what resulted in a longer filtration cycle during the beginning of the process, making no difference when fine rock or tapioca flour were used. However, the filtration performance was significantly prejudiced during the following cycles, with higher residual pressure drop and lower particle efficiency removal, what turned the fabric less suitable than the other ones. The results showed that the material presenting narrower granulometric distribution and almost spherical shaped had more xiv homogeneous and long filtration cycles, despite of the greater values of retained mass and depth of penetration, what suggests the better accommodation of particles in the filter cake. The increase in the coarse rock particle diameter resulted in a deeper penetration and a greater retained mass, but similar residual pressure drop, with longer filtration cycles, what meant that the cake formed by greater particles offered better filtration conditions and less specific cake resistance. However, the penetration was deeper for the coarse rock, being the penetration intensity similar for the two rock diameters tested. The increase of maximum pressure drop resulted in a greater retained mass and a greater residual pressure drop. However, nothing could be assured about the total amount of particles collected from each analyzed layer, because the average values in each layer were comparable in magnitude. For a higher maximum pressure drop, the penetration was deeper, as well as the specific resistance of the filter cake, resulted from a greater filtration pressure.A presença de partículas no interior do meio filtrante, após a limpeza, colabora significativamente para o aumento da perda de carga do ciclo subseqüente. A forma como estas partículas se acomodam, no entanto, não é ainda claramente conhecida, assim como seu impacto no desempenho dos meios filtrantes. Desta forma, este trabalho se propõe a verificar a disposição de diferentes partículas em meios filtrantes com diferentes propriedades, a fim de estudar a profundidade de penetração no interior dos filtros, após a limpeza, bem como a variação granulométrica ao longo do interior dos mesmos. Além disso, faz parte do escopo deste trabalho verificar a relação deste comportamento com as demais características da filtração de cada tecido, como o desenvolvimento da perda de carga residual, massa removida e retida no filtro após a limpeza, e eficiência de remoção. Para os experimentos empregou-se três diferentes materiais pulverulentos, com diferentes tamanhos e diferentes distribuições granulométricas e formas diferentes: a rocha fosfática fina, com diâmetro médio de Stokes de 3,71 µm e ampla distribuição, a rocha fosfática grossa, com diâmetro médio de Stokes de 14,67 µm e ampla distribuição e o polvilho doce, com diâmetro médio de Stokes de 8,67 µm, forma quase esférica e distribuição estreita. Observou-se, apesar da heterogeneidade do meio filtrante, que houve um acúmulo de partículas nas camadas superiores do tecido, que diminuía com a profundidade. No entanto, não houve tendência da profundidade de penetração nem do número e diâmetro das partículas variarem com o número de ciclos. Verificou-se que, para o tecido de polipropileno, com menor permeabilidade e porosidade, houve menor retenção de partículas após a limpeza, mas perda de carga residual superior e ciclos de filtração mais curtos, o que pôde ser associado a uma menor profundidade de penetração, através das microscopias realizadas. A comparação dos tecidos de poliéster tratado e não tratado evidenciaram a maior massa retida no tecido sem tratamento, resultando em um maior ciclo de filtração nos ciclos iniciais, tanto para a rocha fina quanto para o polvilho. No entanto, o desempenho foi significativamente prejudicado nos ciclos seguintes, de modo a tornar o tecido menos indicado que os demais, com perdas de carga residuais superiores e menores eficiências de remoção de partículas. Notou-se que o material com distribuição granulométrica mais estreita e com formato quase esférico apresentou ciclos de filtração mais homogêneos e longos, apesar dos maiores valores de massa retida, e maior profundidade de penetração, o que sugere que a torta formada possuída melhor acomodação de partículas. O aumento do diâmetro de partículas da rocha grossa resultou em maior profundidade de penetração e maior massa retida, mas em perda de carga residual semelhante, sendo que o período de filtração foi mais longo, o que significou que a torta constituída por partículas maiores ofereceu melhores condições de filtração e menor resistência específica. No entanto, a profundidade de penetração foi maior para a rocha grossa, sendo a intensidade desta penetração semelhando para os dois diâmetros. O aumento da perda de carga máxima admitida resultou em uma maior massa retida e maior perda de carga residual. No entanto, nada se pode afirmar a respeito do número total de partículas coletado por camada analisada, sendo que o valor médio em cada camada foi bastante próximo. Para a maior perda de carga máxima a profundidade de penetração também foi maior, assim como a resistência específica da torta, resultado da maior pressão de filtração.Universidade Federal de Sao Carlosapplication/pdfporUniversidade Federal de São CarlosPrograma de Pós-Graduação em Engenharia Química - PPGEQUFSCarBRFiltração de gasesProfundidade da penetraçãoFiltros de tecidoENGENHARIAS::ENGENHARIA QUIMICAFiltração de gases: estudo da deposição de diferentes tortas de filtração em diferentes meios filtrantesinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/doctoralThesis-1-1cfe199c5-37b6-4d5a-a38c-e0503b6b1995info:eu-repo/semantics/openAccessreponame:Repositório Institucional da UFSCARinstname:Universidade Federal de São Carlos (UFSCAR)instacron:UFSCARORIGINALTeseKBR.pdfapplication/pdf7513836https://repositorio.ufscar.br/bitstream/ufscar/3843/1/TeseKBR.pdf50d8fdf3167d96c8e61b387ff0b23cc7MD51THUMBNAILTeseKBR.pdf.jpgTeseKBR.pdf.jpgIM Thumbnailimage/jpeg7964https://repositorio.ufscar.br/bitstream/ufscar/3843/2/TeseKBR.pdf.jpg11ebd42e08ff707f03b80509f8079252MD52ufscar/38432023-09-18 18:31:46.118oai:repositorio.ufscar.br:ufscar/3843Repositório 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 Filtração de gases: estudo da deposição de diferentes tortas de filtração em diferentes meios filtrantes
title Filtração de gases: estudo da deposição de diferentes tortas de filtração em diferentes meios filtrantes
spellingShingle Filtração de gases: estudo da deposição de diferentes tortas de filtração em diferentes meios filtrantes
Rodrigues, Karina Bassan
Filtração de gases
Profundidade da penetração
Filtros de tecido
ENGENHARIAS::ENGENHARIA QUIMICA
title_short Filtração de gases: estudo da deposição de diferentes tortas de filtração em diferentes meios filtrantes
title_full Filtração de gases: estudo da deposição de diferentes tortas de filtração em diferentes meios filtrantes
title_fullStr Filtração de gases: estudo da deposição de diferentes tortas de filtração em diferentes meios filtrantes
title_full_unstemmed Filtração de gases: estudo da deposição de diferentes tortas de filtração em diferentes meios filtrantes
title_sort Filtração de gases: estudo da deposição de diferentes tortas de filtração em diferentes meios filtrantes
author Rodrigues, Karina Bassan
author_facet Rodrigues, Karina Bassan
author_role author
dc.contributor.authorlattes.por.fl_str_mv http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=P804954
dc.contributor.author.fl_str_mv Rodrigues, Karina Bassan
dc.contributor.advisor1.fl_str_mv Aguiar, Mônica Lopes
dc.contributor.advisor1Lattes.fl_str_mv http://lattes.cnpq.br/0431688649128529
dc.contributor.authorID.fl_str_mv 5c481c43-003e-4fd1-9a67-9d41b94b4dfe
contributor_str_mv Aguiar, Mônica Lopes
dc.subject.por.fl_str_mv Filtração de gases
Profundidade da penetração
Filtros de tecido
topic Filtração de gases
Profundidade da penetração
Filtros de tecido
ENGENHARIAS::ENGENHARIA QUIMICA
dc.subject.cnpq.fl_str_mv ENGENHARIAS::ENGENHARIA QUIMICA
description The particle retention inside a filter medium, after cleaning, significantly improves the initial pressure drop during the subsequent cycle, that is, the residual pressure drop. However, the way as these particles accommodate inside the filter isn t still very clear, as well as, its impact on filtering performance. This work aims to verify the spatial disposal of different particles inside filtration media with different properties, in order to study the penetration depth, after cleaning, as well as the particle size variations from the cake-filter interface to the filtration bulk. Moreover, the objective of this research was to verify the relation between particle penetration behavior and other filtration characteristics for each fabric tested, like the development of residual pressure drop, retained and removed mass after cleaning, and removal efficiency. Three different kinds of powder materials were used for the experiments, varying particle size, granulometric distribution and particle shape: fine phosphoric rock dust, with an average Stokes diameter of 3.71 µm, irregular shape and wide granulometric distribution, coarse phosphoric rock dust, with an average Stokes diameter of 14.67 µm, irregular shape and wide granulometric distribution and tapioca flour, with average Stokes diameter of 8.67 µm, almost spherical shaped, and narrow granulometric distribution. It was observed, despite of the filter media heterogeneity, a particle accumulation in the upward layers of the fabric, decreasing as a function of depth. However, the penetration depth, amount of particles and particle diameter didn t vary according to the number of cycles. It was verified that, the polypropylene fabric, which has low values of permeability and porosity, presented lower particle retention values after cleaning, higher residual pressure drop and shorter filtration cycles, what could be associated with a superficial penetration, according to the microscopy tests carried out. The comparison made between treated and untreated polyester needle felts showed a greater retained mass in the untreated fabric, what resulted in a longer filtration cycle during the beginning of the process, making no difference when fine rock or tapioca flour were used. However, the filtration performance was significantly prejudiced during the following cycles, with higher residual pressure drop and lower particle efficiency removal, what turned the fabric less suitable than the other ones. The results showed that the material presenting narrower granulometric distribution and almost spherical shaped had more xiv homogeneous and long filtration cycles, despite of the greater values of retained mass and depth of penetration, what suggests the better accommodation of particles in the filter cake. The increase in the coarse rock particle diameter resulted in a deeper penetration and a greater retained mass, but similar residual pressure drop, with longer filtration cycles, what meant that the cake formed by greater particles offered better filtration conditions and less specific cake resistance. However, the penetration was deeper for the coarse rock, being the penetration intensity similar for the two rock diameters tested. The increase of maximum pressure drop resulted in a greater retained mass and a greater residual pressure drop. However, nothing could be assured about the total amount of particles collected from each analyzed layer, because the average values in each layer were comparable in magnitude. For a higher maximum pressure drop, the penetration was deeper, as well as the specific resistance of the filter cake, resulted from a greater filtration pressure.
publishDate 2006
dc.date.issued.fl_str_mv 2006-06-19
dc.date.available.fl_str_mv 2007-08-09
2016-06-02T19:55:20Z
dc.date.accessioned.fl_str_mv 2016-06-02T19:55:20Z
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dc.identifier.citation.fl_str_mv RODRIGUES, Karina Bassan. Filtração de gases: estudo da deposição de diferentes tortas de filtração em diferentes meios filtrantes.. 2006. 253 f. Tese (Doutorado em Ciências Exatas e da Terra) - Universidade Federal de São Carlos, São Carlos, 2006.
dc.identifier.uri.fl_str_mv https://repositorio.ufscar.br/handle/ufscar/3843
identifier_str_mv RODRIGUES, Karina Bassan. Filtração de gases: estudo da deposição de diferentes tortas de filtração em diferentes meios filtrantes.. 2006. 253 f. Tese (Doutorado em Ciências Exatas e da Terra) - Universidade Federal de São Carlos, São Carlos, 2006.
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