A hybrid GA-SQP multi-objective optimization methodology for carbon monoxide pollution minimization in Fluid Catalytic Cracking Process

In this work a multi-objective hybrid optimization strategy was developed considering genetic algorithms (GA) in series with sequential quadratic programming (SQP). This methodology is used to minimize carbon monoxide emissions of regenerator dense phase at the same time that maximize process conver...

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Published in	23rd European Symposium on Computer Aided Process Engineering Vol. 32; pp. 763 - 768
Main Authors	Cuadros, José F., Melo, Delba N.C., Nascimento, Nàdson M., Filho, Rubens Maciel, Wolf Maciel, Maria R.
Format	Book Chapter Reference
Language	English
Published	2013
Subjects	Fluid Catalytic Cracking Process Genetic Algorithms Hybrid Optimization Algorithms Hydrogen Multi-Objective Optimization Recycling Sequential Quadratic Programming Fluid Catalytic Cracking Process Genetic Algorithms Hybrid Optimization Algorithms Multi-Objective Optimization Sequential Quadratic Programming
Online Access	Get full text
ISBN	0444632344 9780444632340
ISSN	1570-7946
DOI	10.1016/B978-0-444-63234-0.50128-7

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Abstract	In this work a multi-objective hybrid optimization strategy was developed considering genetic algorithms (GA) in series with sequential quadratic programming (SQP). This methodology is used to minimize carbon monoxide emissions of regenerator dense phase at the same time that maximize process conversion in Fluid Catalytic Cracking (FCC). The process is characterized for being a highly nonlinear with strong interactions between process variables. The combination of those optimization algorithms was developed considering final values of GA optimization as initial estimative of SQP algorithm. The reason for that is because initial estimative determined by a stochastic technique is not subject to local minimums and additionally, deterministic technique speed up the calculations and reach the final solution in shorter times in order to obtain optimization objectives with low computational burden and time.
AbstractList	In this work a multi-objective hybrid optimization strategy was developed considering genetic algorithms (GA) in series with sequential quadratic programming (SQP). This methodology is used to minimize carbon monoxide emissions of regenerator dense phase at the same time that maximize process conversion in Fluid Catalytic Cracking (FCC). The process is characterized for being a highly nonlinear with strong interactions between process variables. The combination of those optimization algorithms was developed considering final values of GA optimization as initial estimative of SQP algorithm. The reason for that is because initial estimative determined by a stochastic technique is not subject to local minimums and additionally, deterministic technique speed up the calculations and reach the final solution in shorter times in order to obtain optimization objectives with low computational burden and time.
Author	Melo, Delba N.C. Filho, Rubens Maciel Wolf Maciel, Maria R. Cuadros, José F. Nascimento, Nàdson M.
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References	Moro, Odloak (bb0025) 1995; 5 Melo (bb0015) 2008; 25 Mansoornejad (bb0010) 2007; 32 Cuadros (bb0020) 2012; 26
References_xml	– volume: 5 start-page: 29 year: 1995 end-page: 39 ident: bb0025 article-title: Constrained multivariable control of fluid catalytic cracking converters publication-title: Journal of Process Control – volume: 32 start-page: 1447 year: 2007 end-page: 1455 ident: bb0010 article-title: A hybrid GA-SQP optimization technique for determination of kinetic parameters of hydrogenation reactions publication-title: Computers and Chemical Engineering – volume: 26 year: 2012 ident: bb0020 article-title: Fluid catalytic cracking environmental impact: factorial design coupled with genetic algorithms to minimize carbon monoxide pollution publication-title: Chemical Engineering Transactions – volume: 25 start-page: 483 year: 2008 end-page: 488 ident: bb0015 article-title: Hybrid strategy for real time optimization with feasibility driven for a large scale three-phase catalytic slurry reactor publication-title: Computer Aided Process Engineering
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SubjectTerms	Fluid Catalytic Cracking Process Genetic Algorithms Hybrid Optimization Algorithms Hydrogen Multi-Objective Optimization Recycling Sequential Quadratic Programming
Title	A hybrid GA-SQP multi-objective optimization methodology for carbon monoxide pollution minimization in Fluid Catalytic Cracking Process
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