Control of reaction systems using decoupled dynamics via perturbed Hamiltonian formulation
Document Type
Article
Publication Date
1-1-2020
Abstract
This work proposes a novel control strategy to stabilize the dynamics of a homogeneous reactor, described by the extents of reaction and inlet streams with the inclusion of heat balance. Specifically, we formulate this transformed model into a perturbed port-Hamiltonian (PH) structure, where the vector of reaction rates is expressed as a matched/unmatched and time-varying disturbance. Then, together with the tracking-error-based control method for the stabilization, two different configurations to compensate such disturbance, including a feed-forward law and a dynamic feedback one, are designed such that the error system asymptotically converges to the set point and preserves the PH representation by assigning an appropriate damping injection. A complex reaction system is used to illustrate the approach. Copyright (C) 2020 The Authors.
Keywords
Tracking-error-based control, Extent of reaction, Disturbance compensation
Divisions
sch_che
Funders
Japan International Cooperation Agency (JICA),University of Malaya (UM) via the AUN/SeedNet scholarship,National Foundation for Science & Technology Development (NAFOSTED) (103.99-2019.385)
Publication Title
IFAC-PapersOnLine
Volume
53
Issue
2
Publisher
Elsevier
Publisher Location
RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS
Additional Information
21st IFAC World Congress on Automatic Control - Meeting Societal Challenges, Online, July 11-17, 2020