Power maximization for a discrete-model of multistage dynamic irreversible isothermal-chemical-engine with linear mass-transfer law

Power maximization for a discrete-model of multistage dynamic irreversible isothermal-chemical-engine (IICE) with a linear mass-transfer-law is investigated by applying discrete-maximum-principle and dynamic-programming method with conditions of fixed initial-time and fixed initial key-component-con...

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Vydáno v:International communications in heat and mass transfer Ročník 149; s. 107153
Hlavní autoři: Chen, Lingen, Xia, Shaojun
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Ltd 01.12.2023
Témata:
Discrete-maximum-principle
Dynamic-programming method
Irreversible isothermal-chemical-engine
Linear mass-transfer law
Multistage discrete system
Power maximization
Multistage discrete system
Linear mass-transfer law
Power maximization
Dynamic-programming method
Discrete-maximum-principle
Irreversible isothermal-chemical-engine
ISSN:0735-1933
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Abstract Power maximization for a discrete-model of multistage dynamic irreversible isothermal-chemical-engine (IICE) with a linear mass-transfer-law is investigated by applying discrete-maximum-principle and dynamic-programming method with conditions of fixed initial-time and fixed initial key-component-concentration (KCC). Relationships among the maximum power (MPO), final-KCC and process-period for discrete multistage dynamic IICE system are discussed in detail. Results show that when final-concentration and process-period are fixed, there does exist an optimal control-strategy for MPO, and internal-irreversibility factor has a significant effect on the MPO, but the corresponding optimal-concentration-configurations are the same. When final-time and final-concentration are fixed and free, respectively, there does exist an optimal final-KCC for MPO, and change of internal-irreversibility factor has effects on MPO and the corresponding optimal-KCC configurations now; the more total stage-number of chemical-engines is, the more closely optimization results of discrete-model tend to those of the corresponding continuous-model. When final-time and final-concentration are free and fixed, respectively, numerical example shows that for the discrete multistage dynamic IICE system with total stage-numbers of N=25 and N=50, respectively, total MPOs are with relative errors of 1.66% and 3.33%, respectively, comparing with that for the continuous-model of multistage dynamic IICE system. Both the model established and the mothed adopted herein are effective. •Discrete-model of multistage dynamic irreversible isothermal-chemical-engine is built.•Linear mass transfer law, internal dissipation and finite potential source are considered.•Finite time thermodynamics is applied with discrete-maximum-principle and dynamic-programming.•Power maximization is performed with fixed initial time and key component concentration.•Numerical examples are provided and results are compared with those for continuous-model.
AbstractList Power maximization for a discrete-model of multistage dynamic irreversible isothermal-chemical-engine (IICE) with a linear mass-transfer-law is investigated by applying discrete-maximum-principle and dynamic-programming method with conditions of fixed initial-time and fixed initial key-component-concentration (KCC). Relationships among the maximum power (MPO), final-KCC and process-period for discrete multistage dynamic IICE system are discussed in detail. Results show that when final-concentration and process-period are fixed, there does exist an optimal control-strategy for MPO, and internal-irreversibility factor has a significant effect on the MPO, but the corresponding optimal-concentration-configurations are the same. When final-time and final-concentration are fixed and free, respectively, there does exist an optimal final-KCC for MPO, and change of internal-irreversibility factor has effects on MPO and the corresponding optimal-KCC configurations now; the more total stage-number of chemical-engines is, the more closely optimization results of discrete-model tend to those of the corresponding continuous-model. When final-time and final-concentration are free and fixed, respectively, numerical example shows that for the discrete multistage dynamic IICE system with total stage-numbers of N=25 and N=50, respectively, total MPOs are with relative errors of 1.66% and 3.33%, respectively, comparing with that for the continuous-model of multistage dynamic IICE system. Both the model established and the mothed adopted herein are effective. •Discrete-model of multistage dynamic irreversible isothermal-chemical-engine is built.•Linear mass transfer law, internal dissipation and finite potential source are considered.•Finite time thermodynamics is applied with discrete-maximum-principle and dynamic-programming.•Power maximization is performed with fixed initial time and key component concentration.•Numerical examples are provided and results are compared with those for continuous-model.
ArticleNumber 107153
Author Xia, Shaojun
Chen, Lingen
Author_xml – sequence: 1
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  surname: Chen
  fullname: Chen, Lingen
  email: lingenchen@hotmail.com, 2506715339@qq.com
  organization: Institute of Thermal Science and Power Engineering, Wuhan Institute of Technology, Wuhan 430205, China
– sequence: 2
  givenname: Shaojun
  surname: Xia
  fullname: Xia, Shaojun
  organization: School of Power Engineering, Naval University of Engineering, Wuhan 430033, China
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Keywords Multistage discrete system
Linear mass-transfer law
Power maximization
Dynamic-programming method
Discrete-maximum-principle
Irreversible isothermal-chemical-engine
Language English
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Snippet Power maximization for a discrete-model of multistage dynamic irreversible isothermal-chemical-engine (IICE) with a linear mass-transfer-law is investigated by...
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StartPage 107153
SubjectTerms Discrete-maximum-principle
Dynamic-programming method
Irreversible isothermal-chemical-engine
Linear mass-transfer law
Multistage discrete system
Power maximization
Title Power maximization for a discrete-model of multistage dynamic irreversible isothermal-chemical-engine with linear mass-transfer law
URI https://dx.doi.org/10.1016/j.icheatmasstransfer.2023.107153
Volume 149
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