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dc.contributor.authorZabiri, H.
dc.contributor.authorSamyudia, Yudi
dc.date.accessioned2017-01-30T11:04:40Z
dc.date.available2017-01-30T11:04:40Z
dc.date.created2016-09-12T08:36:35Z
dc.date.issued2009
dc.identifier.citationZabiri, H. and Samyudia, Y. 2009. MIQP-based MPC in the presence of control valve stiction. Chemical Product and Process Modeling. 4 (3).
dc.identifier.urihttp://hdl.handle.net/20.500.11937/8107
dc.identifier.doi10.2202/1934-2659.1397
dc.description.abstract

Stiction in control valve is the most common and long standing problem in process industry, resulting in oscillations in process variables which subsequently lower product quality and productivity, accelerates equipment wear and tear, or leads to system instability. In this paper, we apply the Mixed-Integer Quadratic Programming (MIQP)-based Model Predictive Controller (MPC) that was originally developed for system with backlash, to the system with the control valve stiction. The objective is to investigate the robustness of the original MIQP-based MPC in the presence of control valve stiction nonlinearity. To have the real stiction model, we apply neural-network modelling from simulated data of real valve stiction and then use it to test the MIQP-based MPC control. Different scenarios of control valve stiction are considered. Simulation studies using an industrial case study of fluid catalytic cracking unit (FCCU) show that, if the approximate dead-band value is known a priori, the MIQP-based MPC can effectively improve the closed-loop performance in the presence of stiction through the reduction of oscillations in the process variables. © 2009 The Berkeley Electronic Press. All rights reserved.

dc.publisherDe Gruyter
dc.titleMIQP-based MPC in the presence of control valve stiction
dc.typeJournal Article
dcterms.source.volume4
dcterms.source.number3
dcterms.source.issn1934-2659
dcterms.source.titleChemical Product and Process Modeling
curtin.departmentCurtin Sarawak
curtin.accessStatusFulltext not available


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