Purity control of simulated moving bed based on advanced fuzzy II controller

Simulated Moving Bed (SMB) is the optimal technology for chromatographic separation, but its process is complex and sensitive to numerous parameters that affect separation performance, making it difficult to control. In recent years, fuzzy controllers have been widely applied in industry due to thei...

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Published in	PloS one Vol. 20; no. 2; p. e0314545
Main Authors	Xie, Chao-Fan, Lin, Ting, Zhang, Hong
Format	Journal Article
Language	English
Published	United States Public Library of Science 24.02.2025 Public Library of Science (PLoS)
Subjects	Accuracy Adsorption Algorithms Artificial intelligence Chromatography Computer and Information Sciences Computer Simulation Control Controllers Engineering and Technology Equilibrium Experiments Fuzzy control Fuzzy Logic Mathematical models Methods Models, Theoretical Moving beds Parameter estimation Parameter sensitivity Partial differential equations Physical Sciences Research and Analysis Methods Separation Stability analysis Steady state System theory Variables China
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Abstract	Simulated Moving Bed (SMB) is the optimal technology for chromatographic separation, but its process is complex and sensitive to numerous parameters that affect separation performance, making it difficult to control. In recent years, fuzzy controllers have been widely applied in industry due to their simplicity, robustness, and ease of implementation. However, traditional fuzzy controllers used in industry do not consider the error acceleration term. In steady-state conditions, error acceleration is typically slightly less than the target value. Introducing the acceleration term, albeit non-fuzzy, in a proactive fuzzy I-type controller often leads to an increase in steady-state values. The study shows that, compared to the advanced fuzzy I-type controller, the extraction accuracy for material B improved by an average of 0.7%, while the accuracy for material A increased by 0.1%. Compared to traditional fuzzy controllers, the extraction accuracy for material B improved by an average of 0.35%, while the accuracy for material A remained relatively stable. In terms of stability analysis concerning variations in moving bed parameters, the advanced fuzzy II-type controller exhibited greater stability than the I-type, with an average precision stability improvement of 0.6%. Traditional fuzzy controllers demonstrated pathological characteristics during fluctuations in the switching time parameter, whereas the advanced fuzzy II type controller-maintained stability.
AbstractList	Simulated Moving Bed (SMB) is the optimal technology for chromatographic separation, but its process is complex and sensitive to numerous parameters that affect separation performance, making it difficult to control. In recent years, fuzzy controllers have been widely applied in industry due to their simplicity, robustness, and ease of implementation. However, traditional fuzzy controllers used in industry do not consider the error acceleration term. In steady-state conditions, error acceleration is typically slightly less than the target value. Introducing the acceleration term, albeit non-fuzzy, in a proactive fuzzy I-type controller often leads to an increase in steady-state values. The study shows that, compared to the advanced fuzzy I-type controller, the extraction accuracy for material B improved by an average of 0.7%, while the accuracy for material A increased by 0.1%. Compared to traditional fuzzy controllers, the extraction accuracy for material B improved by an average of 0.35%, while the accuracy for material A remained relatively stable. In terms of stability analysis concerning variations in moving bed parameters, the advanced fuzzy II-type controller exhibited greater stability than the I-type, with an average precision stability improvement of 0.6%. Traditional fuzzy controllers demonstrated pathological characteristics during fluctuations in the switching time parameter, whereas the advanced fuzzy II type controller-maintained stability. Simulated Moving Bed (SMB) is the optimal technology for chromatographic separation, but its process is complex and sensitive to numerous parameters that affect separation performance, making it difficult to control. In recent years, fuzzy controllers have been widely applied in industry due to their simplicity, robustness, and ease of implementation. However, traditional fuzzy controllers used in industry do not consider the error acceleration term. In steady-state conditions, error acceleration is typically slightly less than the target value. Introducing the acceleration term, albeit non-fuzzy, in a proactive fuzzy I-type controller often leads to an increase in steady-state values. The study shows that, compared to the advanced fuzzy I-type controller, the extraction accuracy for material B improved by an average of 0.7%, while the accuracy for material A increased by 0.1%. Compared to traditional fuzzy controllers, the extraction accuracy for material B improved by an average of 0.35%, while the accuracy for material A remained relatively stable. In terms of stability analysis concerning variations in moving bed parameters, the advanced fuzzy II-type controller exhibited greater stability than the I-type, with an average precision stability improvement of 0.6%. Traditional fuzzy controllers demonstrated pathological characteristics during fluctuations in the switching time parameter, whereas the advanced fuzzy II type controller-maintained stability.Simulated Moving Bed (SMB) is the optimal technology for chromatographic separation, but its process is complex and sensitive to numerous parameters that affect separation performance, making it difficult to control. In recent years, fuzzy controllers have been widely applied in industry due to their simplicity, robustness, and ease of implementation. However, traditional fuzzy controllers used in industry do not consider the error acceleration term. In steady-state conditions, error acceleration is typically slightly less than the target value. Introducing the acceleration term, albeit non-fuzzy, in a proactive fuzzy I-type controller often leads to an increase in steady-state values. The study shows that, compared to the advanced fuzzy I-type controller, the extraction accuracy for material B improved by an average of 0.7%, while the accuracy for material A increased by 0.1%. Compared to traditional fuzzy controllers, the extraction accuracy for material B improved by an average of 0.35%, while the accuracy for material A remained relatively stable. In terms of stability analysis concerning variations in moving bed parameters, the advanced fuzzy II-type controller exhibited greater stability than the I-type, with an average precision stability improvement of 0.6%. Traditional fuzzy controllers demonstrated pathological characteristics during fluctuations in the switching time parameter, whereas the advanced fuzzy II type controller-maintained stability.
Audience	Academic
Author	Zhang, Hong Xie, Chao-Fan Lin, Ting
AuthorAffiliation	Cyprus International University Faculty of Engineering: Uluslararasi Kibris Universitesi Muhendislik Fakultesi, TÜRKIYE 1 Department of Big Data and Artificial Intelligence, Fujian Polytechnic Normal University, Fuzhou, China 2 Key Laboratory of Nondestructive Testing, Fujian Polytechnic Normal University, Fuzhou, China
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Cites_doi	10.1016/S0098-1354(00)00492-0 10.1081/SPM-200042081 10.1016/j.chroma.2021.462280 10.1016/j.chroma.2021.462073 10.1016/j.chroma.2008.10.075 10.1016/S0021-9673(00)00956-0 10.1016/j.chroma.2016.09.070 10.1016/S0021-9673(03)00946-4 10.1016/j.ifacol.2018.09.370 10.1016/j.chroma.2018.06.009 10.1021/acs.iecr.5b00553 10.1002/aic.690431109 10.1109/ACCESS.2021.3074375 10.1016/S0021-9673(03)00327-3
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SubjectTerms	Accuracy Adsorption Algorithms Artificial intelligence Chromatography Computer and Information Sciences Computer Simulation Control Controllers Engineering and Technology Equilibrium Experiments Fuzzy control Fuzzy Logic Mathematical models Methods Models, Theoretical Moving beds Parameter estimation Parameter sensitivity Partial differential equations Physical Sciences Research and Analysis Methods Separation Stability analysis Steady state System theory Variables
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Title	Purity control of simulated moving bed based on advanced fuzzy II controller
URI	https://www.ncbi.nlm.nih.gov/pubmed/39992917 https://www.proquest.com/docview/3170839638 https://www.proquest.com/docview/3170932816 https://pubmed.ncbi.nlm.nih.gov/PMC11849874 https://doaj.org/article/8d724602d2f440ffbbf18a27d5706449 http://dx.doi.org/10.1371/journal.pone.0314545
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