Hybrid algorithm for acceleration of convergence to cyclic steady state

Cyclic process is inherently dynamic, thus it has no steady state. However, the process, after a sufficient number of cycles, will reach a state called Cyclic Steady State (CSS) where the process state variables at some instant within a cycle have the same value at the corresponding instant within e...

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Main Authors:	Lai, Y. L., Choong, T. S. Y., Chuah, T. G., Ahamad, I. S., Razon, Luis F.
Format:	text
Published:	Animo Repository 2009
Subjects:	Cycles Chemical Engineering
Online Access:	https://animorepository.dlsu.edu.ph/faculty_research/1298 https://animorepository.dlsu.edu.ph/context/faculty_research/article/2297/type/native/viewcontent
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Institution:	De La Salle University

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spelling	oai:animorepository.dlsu.edu.ph:faculty_research-22972021-06-14T05:54:46Z Hybrid algorithm for acceleration of convergence to cyclic steady state Lai, Y. L. Choong, T. S. Y. Chuah, T. G. Ahamad, I. S. Razon, Luis F. Cyclic process is inherently dynamic, thus it has no steady state. However, the process, after a sufficient number of cycles, will reach a state called Cyclic Steady State (CSS) where the process state variables at some instant within a cycle have the same value at the corresponding instant within each subsequent cycle. Depending on the nature of the cyclic process, the number of cycles needed before the process reaches CSS may vary from tens to thousands. In this study, a hybrid algorithm that aims to predict and accelerate the convergence of the CSS is developed and tested on a cyclic operation of controlled-cycled stirred tank reactor. © 2009 Asian Network for Scientific Information. 2009-08-26T07:00:00Z text text/html https://animorepository.dlsu.edu.ph/faculty_research/1298 https://animorepository.dlsu.edu.ph/context/faculty_research/article/2297/type/native/viewcontent Faculty Research Work Animo Repository Cycles Chemical Engineering
institution	De La Salle University
building	De La Salle University Library
continent	Asia
country	Philippines Philippines
content_provider	De La Salle University Library
collection	DLSU Institutional Repository
topic	Cycles Chemical Engineering
spellingShingle	Cycles Chemical Engineering Lai, Y. L. Choong, T. S. Y. Chuah, T. G. Ahamad, I. S. Razon, Luis F. Hybrid algorithm for acceleration of convergence to cyclic steady state
description	Cyclic process is inherently dynamic, thus it has no steady state. However, the process, after a sufficient number of cycles, will reach a state called Cyclic Steady State (CSS) where the process state variables at some instant within a cycle have the same value at the corresponding instant within each subsequent cycle. Depending on the nature of the cyclic process, the number of cycles needed before the process reaches CSS may vary from tens to thousands. In this study, a hybrid algorithm that aims to predict and accelerate the convergence of the CSS is developed and tested on a cyclic operation of controlled-cycled stirred tank reactor. © 2009 Asian Network for Scientific Information.
format	text
author	Lai, Y. L. Choong, T. S. Y. Chuah, T. G. Ahamad, I. S. Razon, Luis F.
author_facet	Lai, Y. L. Choong, T. S. Y. Chuah, T. G. Ahamad, I. S. Razon, Luis F.
author_sort	Lai, Y. L.
title	Hybrid algorithm for acceleration of convergence to cyclic steady state
title_short	Hybrid algorithm for acceleration of convergence to cyclic steady state
title_full	Hybrid algorithm for acceleration of convergence to cyclic steady state
title_fullStr	Hybrid algorithm for acceleration of convergence to cyclic steady state
title_full_unstemmed	Hybrid algorithm for acceleration of convergence to cyclic steady state
title_sort	hybrid algorithm for acceleration of convergence to cyclic steady state
publisher	Animo Repository
publishDate	2009
url	https://animorepository.dlsu.edu.ph/faculty_research/1298 https://animorepository.dlsu.edu.ph/context/faculty_research/article/2297/type/native/viewcontent
_version_	1703980798718246912

Hybrid algorithm for acceleration of convergence to cyclic steady state

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