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Implementation of Homotopy Perturbation Method to Solve a Population Balance Model in Fluidized Bed

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Zeitschriftentitel: International Journal of Chemical Reactor Engineering
Personen und Körperschaften: Dutta, Abhishek, Constales, Denis, Van Keer, Roger, Heynderickx, Geraldine J.
In: International Journal of Chemical Reactor Engineering, 11, 2013, 1, S. 271-282
Format: E-Article
Sprache: Unbestimmt
veröffentlicht:
Walter de Gruyter GmbH
Schlagwörter:
General Chemical Engineering
author_facet Dutta, Abhishek
Constales, Denis
Van Keer, Roger
Heynderickx, Geraldine J.
Dutta, Abhishek
Constales, Denis
Van Keer, Roger
Heynderickx, Geraldine J.
author Dutta, Abhishek
Constales, Denis
Van Keer, Roger
Heynderickx, Geraldine J.
spellingShingle Dutta, Abhishek
Constales, Denis
Van Keer, Roger
Heynderickx, Geraldine J.
International Journal of Chemical Reactor Engineering
Implementation of Homotopy Perturbation Method to Solve a Population Balance Model in Fluidized Bed
General Chemical Engineering
author_sort dutta, abhishek
spelling Dutta, Abhishek Constales, Denis Van Keer, Roger Heynderickx, Geraldine J. 1542-6580 2194-5748 Walter de Gruyter GmbH General Chemical Engineering http://dx.doi.org/10.1515/ijcre-2012-0047 <jats:p><jats:bold>Abstract</jats:bold>: A particle population balance formulation for a circulating fluidized bed, involving aggregation and breakage of particles, is solved using the homotopy perturbation method (HPM). The homotopy method deforms a difficult problem into a simple problem, which then can be easily solved. The HPM solution is compared with the solution obtained using a standard finite difference method. Using homotopy, a good approximation of the finite difference solution is obtained within a few iteration steps. The results reveal that the homotopy method is an effective and simple tool to solve nonlinear partial integro-differential equations and has a wide scope and applicability to solve complex engineering problems. The reliability of the algorithm is tested using three different feed inlet particle size (diameter) distributions to indicate the robustness of this method.</jats:p> Implementation of Homotopy Perturbation Method to Solve a Population Balance Model in Fluidized Bed International Journal of Chemical Reactor Engineering
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series International Journal of Chemical Reactor Engineering
source_id 49
title Implementation of Homotopy Perturbation Method to Solve a Population Balance Model in Fluidized Bed
title_unstemmed Implementation of Homotopy Perturbation Method to Solve a Population Balance Model in Fluidized Bed
title_full Implementation of Homotopy Perturbation Method to Solve a Population Balance Model in Fluidized Bed
title_fullStr Implementation of Homotopy Perturbation Method to Solve a Population Balance Model in Fluidized Bed
title_full_unstemmed Implementation of Homotopy Perturbation Method to Solve a Population Balance Model in Fluidized Bed
title_short Implementation of Homotopy Perturbation Method to Solve a Population Balance Model in Fluidized Bed
title_sort implementation of homotopy perturbation method to solve a population balance model in fluidized bed
topic General Chemical Engineering
url http://dx.doi.org/10.1515/ijcre-2012-0047
publishDate 2013
physical 271-282
description <jats:p><jats:bold>Abstract</jats:bold>: A particle population balance formulation for a circulating fluidized bed, involving aggregation and breakage of particles, is solved using the homotopy perturbation method (HPM). The homotopy method deforms a difficult problem into a simple problem, which then can be easily solved. The HPM solution is compared with the solution obtained using a standard finite difference method. Using homotopy, a good approximation of the finite difference solution is obtained within a few iteration steps. The results reveal that the homotopy method is an effective and simple tool to solve nonlinear partial integro-differential equations and has a wide scope and applicability to solve complex engineering problems. The reliability of the algorithm is tested using three different feed inlet particle size (diameter) distributions to indicate the robustness of this method.</jats:p>
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author Dutta, Abhishek, Constales, Denis, Van Keer, Roger, Heynderickx, Geraldine J.
author_facet Dutta, Abhishek, Constales, Denis, Van Keer, Roger, Heynderickx, Geraldine J., Dutta, Abhishek, Constales, Denis, Van Keer, Roger, Heynderickx, Geraldine J.
author_sort dutta, abhishek
container_issue 1
container_start_page 271
container_title International Journal of Chemical Reactor Engineering
container_volume 11
description <jats:p><jats:bold>Abstract</jats:bold>: A particle population balance formulation for a circulating fluidized bed, involving aggregation and breakage of particles, is solved using the homotopy perturbation method (HPM). The homotopy method deforms a difficult problem into a simple problem, which then can be easily solved. The HPM solution is compared with the solution obtained using a standard finite difference method. Using homotopy, a good approximation of the finite difference solution is obtained within a few iteration steps. The results reveal that the homotopy method is an effective and simple tool to solve nonlinear partial integro-differential equations and has a wide scope and applicability to solve complex engineering problems. The reliability of the algorithm is tested using three different feed inlet particle size (diameter) distributions to indicate the robustness of this method.</jats:p>
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spelling Dutta, Abhishek Constales, Denis Van Keer, Roger Heynderickx, Geraldine J. 1542-6580 2194-5748 Walter de Gruyter GmbH General Chemical Engineering http://dx.doi.org/10.1515/ijcre-2012-0047 <jats:p><jats:bold>Abstract</jats:bold>: A particle population balance formulation for a circulating fluidized bed, involving aggregation and breakage of particles, is solved using the homotopy perturbation method (HPM). The homotopy method deforms a difficult problem into a simple problem, which then can be easily solved. The HPM solution is compared with the solution obtained using a standard finite difference method. Using homotopy, a good approximation of the finite difference solution is obtained within a few iteration steps. The results reveal that the homotopy method is an effective and simple tool to solve nonlinear partial integro-differential equations and has a wide scope and applicability to solve complex engineering problems. The reliability of the algorithm is tested using three different feed inlet particle size (diameter) distributions to indicate the robustness of this method.</jats:p> Implementation of Homotopy Perturbation Method to Solve a Population Balance Model in Fluidized Bed International Journal of Chemical Reactor Engineering
spellingShingle Dutta, Abhishek, Constales, Denis, Van Keer, Roger, Heynderickx, Geraldine J., International Journal of Chemical Reactor Engineering, Implementation of Homotopy Perturbation Method to Solve a Population Balance Model in Fluidized Bed, General Chemical Engineering
title Implementation of Homotopy Perturbation Method to Solve a Population Balance Model in Fluidized Bed
title_full Implementation of Homotopy Perturbation Method to Solve a Population Balance Model in Fluidized Bed
title_fullStr Implementation of Homotopy Perturbation Method to Solve a Population Balance Model in Fluidized Bed
title_full_unstemmed Implementation of Homotopy Perturbation Method to Solve a Population Balance Model in Fluidized Bed
title_short Implementation of Homotopy Perturbation Method to Solve a Population Balance Model in Fluidized Bed
title_sort implementation of homotopy perturbation method to solve a population balance model in fluidized bed
title_unstemmed Implementation of Homotopy Perturbation Method to Solve a Population Balance Model in Fluidized Bed
topic General Chemical Engineering
url http://dx.doi.org/10.1515/ijcre-2012-0047