Design of decoupling control and time-delay compensation for a CFSTR

This thesis is concerned with the design of a decoupling compensator and a time-delay compensator for a nonisothermal continuous flow stirred tank reactor (CFSTR). An expression for the analysis of interaction of the two-variable CFSTR was theoretically derived by using the relative gain method (RGM...

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Main Author: Chen, Liang
Language:English
Published: University of British Columbia 2010
Subjects:
Online Access:http://hdl.handle.net/2429/29469
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spelling ndltd-UBC-oai-circle.library.ubc.ca-2429-294692018-01-05T17:45:12Z Design of decoupling control and time-delay compensation for a CFSTR Chen, Liang Chemical reactors -- Design and construction Sewage -- Purification This thesis is concerned with the design of a decoupling compensator and a time-delay compensator for a nonisothermal continuous flow stirred tank reactor (CFSTR). An expression for the analysis of interaction of the two-variable CFSTR was theoretically derived by using the relative gain method (RGM). For the purpose of improving the stability of the decoupling control system, undercompensation for a decoupled CFSTR system was suggested and the robustness test of such undercompensation decoupler to the modelling error was studied. On the other hand, the proposed time-delay compensation method, unlike conventional Smith's scheme, can rely on the basic property of gain-invariant time-delay. The stability of this time-delay compensation method is not affected by the CFSTR control system time-variant time-delay, while its compensation structure has the same features as the Smith compensator. The design of a decoupler and that of a time-delay compensator are independent of each other. All compensation structures are physically realizable. The theoretical results are supported by simulation. Simulation results for a CFSTR demonstrate that the undercompensation decoupling control can tolerate a relatively wide modelling error and reduce the sensitivity of the CFSTR process to parameter variations and unwanted disturbances. Also, simulation results show that the proposed time-delay compensator can provide an improvement over the conventional Smith compensator. Applied Science, Faculty of Chemical and Biological Engineering, Department of Graduate 2010-10-22T15:36:29Z 2010-10-22T15:36:29Z 1990 Text Thesis/Dissertation http://hdl.handle.net/2429/29469 eng For non-commercial purposes only, such as research, private study and education. Additional conditions apply, see Terms of Use https://open.library.ubc.ca/terms_of_use. University of British Columbia
collection NDLTD
language English
sources NDLTD
topic Chemical reactors -- Design and construction
Sewage -- Purification
spellingShingle Chemical reactors -- Design and construction
Sewage -- Purification
Chen, Liang
Design of decoupling control and time-delay compensation for a CFSTR
description This thesis is concerned with the design of a decoupling compensator and a time-delay compensator for a nonisothermal continuous flow stirred tank reactor (CFSTR). An expression for the analysis of interaction of the two-variable CFSTR was theoretically derived by using the relative gain method (RGM). For the purpose of improving the stability of the decoupling control system, undercompensation for a decoupled CFSTR system was suggested and the robustness test of such undercompensation decoupler to the modelling error was studied. On the other hand, the proposed time-delay compensation method, unlike conventional Smith's scheme, can rely on the basic property of gain-invariant time-delay. The stability of this time-delay compensation method is not affected by the CFSTR control system time-variant time-delay, while its compensation structure has the same features as the Smith compensator. The design of a decoupler and that of a time-delay compensator are independent of each other. All compensation structures are physically realizable. The theoretical results are supported by simulation. Simulation results for a CFSTR demonstrate that the undercompensation decoupling control can tolerate a relatively wide modelling error and reduce the sensitivity of the CFSTR process to parameter variations and unwanted disturbances. Also, simulation results show that the proposed time-delay compensator can provide an improvement over the conventional Smith compensator. === Applied Science, Faculty of === Chemical and Biological Engineering, Department of === Graduate
author Chen, Liang
author_facet Chen, Liang
author_sort Chen, Liang
title Design of decoupling control and time-delay compensation for a CFSTR
title_short Design of decoupling control and time-delay compensation for a CFSTR
title_full Design of decoupling control and time-delay compensation for a CFSTR
title_fullStr Design of decoupling control and time-delay compensation for a CFSTR
title_full_unstemmed Design of decoupling control and time-delay compensation for a CFSTR
title_sort design of decoupling control and time-delay compensation for a cfstr
publisher University of British Columbia
publishDate 2010
url http://hdl.handle.net/2429/29469
work_keys_str_mv AT chenliang designofdecouplingcontrolandtimedelaycompensationforacfstr
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