Multilinear Model of Heat Exchanger with Hammerstein Structure

Multilinear Model of Heat Exchanger with Hammerstein Structure

The multilinear model control design approach is based on the approximation of the nonlinear model of the system by a set of linear models. The paper presents the method of creation of a bank of linear models of the two-pass shell and tube heat exchanger. The nonlinear model is assumed to have a Ham...

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Main Authors: Dragan Pršić, Novak Nedić, Vojislav Filipović, Ljubiša Dubonjić, Aleksandar Vičovac
Format: Article
Language:English
Published: Hindawi Limited 2016-01-01
Series:Journal of Control Science and Engineering
Online Access:http://dx.doi.org/10.1155/2016/7856510
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spelling doaj-a25e816dfbcf42c6a94acecaef97a89b2020-11-25T02:19:11ZengHindawi LimitedJournal of Control Science and Engineering1687-52491687-52572016-01-01201610.1155/2016/78565107856510Multilinear Model of Heat Exchanger with Hammerstein StructureDragan Pršić0Novak Nedić1Vojislav Filipović2Ljubiša Dubonjić3Aleksandar Vičovac4Faculty of Mechanical and Civil Engineering in Kraljevo, University of Kragujevac, Dositejeva 19, 36000 Kraljevo, SerbiaFaculty of Mechanical and Civil Engineering in Kraljevo, University of Kragujevac, Dositejeva 19, 36000 Kraljevo, SerbiaFaculty of Mechanical and Civil Engineering in Kraljevo, University of Kragujevac, Dositejeva 19, 36000 Kraljevo, SerbiaFaculty of Mechanical and Civil Engineering in Kraljevo, University of Kragujevac, Dositejeva 19, 36000 Kraljevo, SerbiaFaculty of Mechanical and Civil Engineering in Kraljevo, University of Kragujevac, Dositejeva 19, 36000 Kraljevo, SerbiaThe multilinear model control design approach is based on the approximation of the nonlinear model of the system by a set of linear models. The paper presents the method of creation of a bank of linear models of the two-pass shell and tube heat exchanger. The nonlinear model is assumed to have a Hammerstein structure. The set of linear models is formed by decomposition of the nonlinear steady-state characteristic by using the modified Included Angle Dividing method. Two modifications of this method are proposed. The first one refers to the addition to the algorithm for decomposition, which reduces the number of linear segments. The second one refers to determination of the threshold value. The dependence between decomposition of the nonlinear characteristic and the linear dynamics of the closed-loop system is established. The decoupling process is more formal and it can be easily implemented by using software tools. Due to its simplicity, the method is particularly suitable in complex systems, such as heat exchanger networks.http://dx.doi.org/10.1155/2016/7856510
collection DOAJ
language English
format Article
sources DOAJ
author Dragan Pršić
Novak Nedić
Vojislav Filipović
Ljubiša Dubonjić
Aleksandar Vičovac
spellingShingle Dragan Pršić
Novak Nedić
Vojislav Filipović
Ljubiša Dubonjić
Aleksandar Vičovac
Multilinear Model of Heat Exchanger with Hammerstein Structure
Journal of Control Science and Engineering
author_facet Dragan Pršić
Novak Nedić
Vojislav Filipović
Ljubiša Dubonjić
Aleksandar Vičovac
author_sort Dragan Pršić
title Multilinear Model of Heat Exchanger with Hammerstein Structure
title_short Multilinear Model of Heat Exchanger with Hammerstein Structure
title_full Multilinear Model of Heat Exchanger with Hammerstein Structure
title_fullStr Multilinear Model of Heat Exchanger with Hammerstein Structure
title_full_unstemmed Multilinear Model of Heat Exchanger with Hammerstein Structure
title_sort multilinear model of heat exchanger with hammerstein structure
publisher Hindawi Limited
series Journal of Control Science and Engineering
issn 1687-5249
1687-5257
publishDate 2016-01-01
description The multilinear model control design approach is based on the approximation of the nonlinear model of the system by a set of linear models. The paper presents the method of creation of a bank of linear models of the two-pass shell and tube heat exchanger. The nonlinear model is assumed to have a Hammerstein structure. The set of linear models is formed by decomposition of the nonlinear steady-state characteristic by using the modified Included Angle Dividing method. Two modifications of this method are proposed. The first one refers to the addition to the algorithm for decomposition, which reduces the number of linear segments. The second one refers to determination of the threshold value. The dependence between decomposition of the nonlinear characteristic and the linear dynamics of the closed-loop system is established. The decoupling process is more formal and it can be easily implemented by using software tools. Due to its simplicity, the method is particularly suitable in complex systems, such as heat exchanger networks.
url http://dx.doi.org/10.1155/2016/7856510
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AT novaknedic multilinearmodelofheatexchangerwithhammersteinstructure
AT vojislavfilipovic multilinearmodelofheatexchangerwithhammersteinstructure
AT ljubisadubonjic multilinearmodelofheatexchangerwithhammersteinstructure
AT aleksandarvicovac multilinearmodelofheatexchangerwithhammersteinstructure
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