Evaluation of Self Cleaning System in Aerosol Filtration Using Synthetic Filter

A.M.M. Arouca; G.C. Gerkman; F.O. Arouca; L.G.M. Vieira; J.J.R. Damasceno

doi:10.4028/www.scientific.net/MSF.802.220

Paper Titles

Project and Construction of a Differential Mobility Analyzer to Produce Monosized Nanoparticles
p.197

A CFD Study of the Air Distribution at Non-Conventional Dryers Using Different Configurations of Mini Pipes
p.203

Analysis of Solid Concentration Profiles in Batch Sedimentation Tests Using Viscous Newtonian Fluids
p.209

An Investigation of the Different Flow Regimes in a Rotating Drum through Experimental and Simulation
p.215

Evaluation of Self Cleaning System in Aerosol Filtration Using Synthetic Filter
p.220

CFD Applied to the Analysis of Hydrodynamics in a Hydrocyclone
p.226

Obtaining Ceramic Filter from Rice Husk and Kaolinitic Clay
p.232

Fast Pyrolysis of Soy Hulls in a Fluidized Bed Reactor: Main Components of the Bio-Oil
p.239

Analysis of the Effect of the Underflow Orifice Size on the Filtering and Concentrating Hydrocyclone
p.245

HomeMaterials Science ForumMaterials Science Forum Vol. 802Evaluation of Self Cleaning System in Aerosol...

Evaluation of Self Cleaning System in Aerosol Filtration Using Synthetic Filter

Abstract:

In industries that work with particulate material is observed from among other concerns, not to discard solid material in the air. Aiming to develop gas-solid filtration equipment more efficient, the study of a self-cleaning system utilizing filter fabric made from synthetic material, was conducted using the phosphate rock as particulate material. The objective of this study is to evaluate the performance of a vibratory system filtration of gases. The system is made up a box filter coupled to an eccentric motor which causes a continuous vibration during the filtration cycle, not being necessary to interrupt the process to the procedure of fabric filter cleaning. We used polyester synthetic filter for the tests. With known relative humidity and temperature at which the tests were performed, it was possible to estimate the performance of the equipment in continuous vibration filtration of pulverulent material dispersed in gas currents, under the influence of different vibration frequencies.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Materials Science Forum (Volume 802)

Pages:

220-225

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.802.220

Citation:

Cite this paper

Online since:

December 2014

Authors:

A.M.M. Arouca, G.C. Gerkman, F.O. Arouca, L.G.M. Vieira, J.J.R. Damasceno

Keywords:

Aerosol Filtration, Gas Cleaning, Gas-Solid Separation, Mechanical Vibration

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] D.M. Nunes: Construção de um Sistema de Filtração de Gases para o Estudo da Formação e Remoção de Tortas de Filtração. Mestrado (Dissertação). Uberlândia, 2011. Universidade Federal de Uberlândia UFU. (MG).

DOI: 10.14393/ufu.di.2011.122

Google Scholar

[2] S.G.R. Azevedo: Estudo da Influência do Formato das Partículas na Operação de Filtração de Gases. Mestrado (Dissertação). São Carlos, 2009. Universidade Federal de São Carlos (UFSCar). SP.

DOI: 10.21115/jbes.v14.suppl2.p180-6

Google Scholar

[3] S.M.S. Rocha: Estudo da Influência da Velocidade e dos Ciclos de Filtração na Formação da Torta na Limpeza de Gases em Filtros de Mangas. Doutorado (Tese). Uberlândia, 2010. Universidade Federal de Uberlândia UFU. (MG).

DOI: 10.14393/19834071.v26.n2.2017.38402

Google Scholar

[4] A.C.M. Rodrigues: Estudo da Formação e Remoção de Tortas de Filtração de Gases em Filtros de Tecido de Polipropileno e de Algodão. Mestrado (Dissertação). São Carlos, 2004. Universidade Federal de São Carlos (UFSCar). SP.

DOI: 10.21115/jbes.v14.suppl2.p180-6

Google Scholar

[5] R.P. Donovan: Fabric Filtration for Combustion Sources. (Marcel Dekker Inc. New York, 1985).

Google Scholar

[6] E.H. Tanabe: Desempenho de Meios Filtrantes na Filtração de Gases a Altas Pressões. Doutorado (Tese). São Carlos, 2011. Universidade Federal de São Carlos (UFSCar). SP.

DOI: 10.21115/jbes.v14.suppl2.p180-6

Google Scholar

[7] E. F. Tiene, Filtração de Gases: Estudo do Fenômeno da Limpeza por Blocos. Dissertação de Mestrado. São Carlos – UFSCar, (2005).

Google Scholar

[8] K.B. Rodrigues: Filtração de Gases: Estudo da Deposição de Diferentes Tortas de Filtração em Diferentes Meios Filtrantes. Doutorado (Tese). São Carlos, 2006. Universidade Federal de São Carlos (UFSCar). SP.

DOI: 10.21115/jbes.v14.suppl2.p180-6

Google Scholar

[9] A.G. Fargnoli: Estudo da Compressibilidade de Tortas de Filtração de Gases em Filtros de Tecido. Mestrado (Dissertação). São Carlos, 2010. Universidade Federal de São Carlos (UFSCar). SP.

DOI: 10.21115/jbes.v14.suppl2.p180-6

Google Scholar

[10] E.H. Tanabe; Estudo do Comportamento da Deposição das Partículas em Diferentes Meios Filtrantes. Mestrado (Dissertação). São Carlos, 2008. Universidade Federal de São Carlos (UFSCar). SP.

DOI: 10.21115/jbes.v14.suppl2.p180-6

Google Scholar

[11] J.R. Coury: Electrostatic Effects in Granular Bed Filtration of Gases. Doctoral (Thesis). Cambridgeshire, 1983. University of Cambridge. (UK).

Google Scholar