Multi-objective optimization of marine nuclear power secondary circuit system based on improved multi-objective particle swarm optimization algorithm

The mathematical model for the main equipment and auxiliary equipment of the marine nuclear power secondary circuit system and the system heat balance calculation model are established. A complete mathematical model of the secondary circuit system is obtained by coupling the above model. In addition...

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Veröffentlicht in:Progress in nuclear energy (New series) Jg. 161; S. 104740
Hauptverfasser: Zhao, Jiarui, Li, Yanjun, Bai, Jinfeng, Ma, Lin, Shi, Changwei, Zhang, Guolei, Shi, Jianxin
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Elsevier Ltd 01.07.2023
Schlagworte:
Adaptive algorithm parameters
Angle penalized distance
Multi-objective optimization
Pareto optimal solutions
Secondary circuit system
Pareto optimal solutions
Multi-objective optimization
Angle penalized distance
Adaptive algorithm parameters
Secondary circuit system
ISSN:0149-1970
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Abstract The mathematical model for the main equipment and auxiliary equipment of the marine nuclear power secondary circuit system and the system heat balance calculation model are established. A complete mathematical model of the secondary circuit system is obtained by coupling the above model. In addition, an adaptive multi-objective particle swarm optimization algorithm based on angle penalized distance (AMOPSO-APD) for complex and strong coupling marine nuclear power system is obtained by introducing the angle penalized distance and the adaptive adjustment strategy of algorithm parameters based on convergence factor in the MOPSO algorithm. By optimizing the benchmark test problems to compare the performance of the improved algorithm, the original one, and the NSGA-II algorithm. It is discovered that the improved algorithm has greatly enhanced search capability and optimization efficiency. Sensitivity analysis is used to choose parameters for optimization that have a significant impact on the equipment structure and system performance, such as the secondary circuit saturated steam pressure, the U-tube outer diameter, and the coolant flow velocity in U-tube. Satisfying the safety, performance, and structure constraints, taking the lightest weight, minimum volume, and highest effective efficiency of the secondary circuit system as the optimization objectives, the optimal design for the system is carried out with the AMOPSO-APD algorithm, the Pareto optimal solutions and Pareto front are obtained, and the TOPSIS method is used to choose the compromise optimization scheme. In the optimized secondary circuit system, the weight is reduced by 10.57%, the volume is reduced by 13.68%, and the effective efficiency is increased by 4.26%.
AbstractList The mathematical model for the main equipment and auxiliary equipment of the marine nuclear power secondary circuit system and the system heat balance calculation model are established. A complete mathematical model of the secondary circuit system is obtained by coupling the above model. In addition, an adaptive multi-objective particle swarm optimization algorithm based on angle penalized distance (AMOPSO-APD) for complex and strong coupling marine nuclear power system is obtained by introducing the angle penalized distance and the adaptive adjustment strategy of algorithm parameters based on convergence factor in the MOPSO algorithm. By optimizing the benchmark test problems to compare the performance of the improved algorithm, the original one, and the NSGA-II algorithm. It is discovered that the improved algorithm has greatly enhanced search capability and optimization efficiency. Sensitivity analysis is used to choose parameters for optimization that have a significant impact on the equipment structure and system performance, such as the secondary circuit saturated steam pressure, the U-tube outer diameter, and the coolant flow velocity in U-tube. Satisfying the safety, performance, and structure constraints, taking the lightest weight, minimum volume, and highest effective efficiency of the secondary circuit system as the optimization objectives, the optimal design for the system is carried out with the AMOPSO-APD algorithm, the Pareto optimal solutions and Pareto front are obtained, and the TOPSIS method is used to choose the compromise optimization scheme. In the optimized secondary circuit system, the weight is reduced by 10.57%, the volume is reduced by 13.68%, and the effective efficiency is increased by 4.26%.
ArticleNumber 104740
Author Shi, Changwei
Zhao, Jiarui
Shi, Jianxin
Ma, Lin
Li, Yanjun
Bai, Jinfeng
Zhang, Guolei
Author_xml – sequence: 1
  givenname: Jiarui
  surname: Zhao
  fullname: Zhao, Jiarui
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  givenname: Yanjun
  surname: Li
  fullname: Li, Yanjun
  email: lyjhrb@126.com
  organization: College of Power and Energy Engineering, Harbin Engineering University, 145 Nantong Street, Harbin 150001, China
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  givenname: Jinfeng
  surname: Bai
  fullname: Bai, Jinfeng
  organization: Harbin Marine Boiler and Turbine Research Institute (The 703th Research Institute of CSSC), 35 Honghu Road, Harbin 150078, China
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  givenname: Lin
  surname: Ma
  fullname: Ma, Lin
  organization: College of Power and Energy Engineering, Harbin Engineering University, 145 Nantong Street, Harbin 150001, China
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  givenname: Changwei
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  givenname: Guolei
  surname: Zhang
  fullname: Zhang, Guolei
  organization: College of Power and Energy Engineering, Harbin Engineering University, 145 Nantong Street, Harbin 150001, China
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  givenname: Jianxin
  surname: Shi
  fullname: Shi, Jianxin
  email: shijianxin@hrbeu.edu.cn
  organization: College of Power and Energy Engineering, Harbin Engineering University, 145 Nantong Street, Harbin 150001, China
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Keywords Pareto optimal solutions
Multi-objective optimization
Angle penalized distance
Adaptive algorithm parameters
Secondary circuit system
Language English
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Snippet The mathematical model for the main equipment and auxiliary equipment of the marine nuclear power secondary circuit system and the system heat balance...
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StartPage 104740
SubjectTerms Adaptive algorithm parameters
Angle penalized distance
Multi-objective optimization
Pareto optimal solutions
Secondary circuit system
Title Multi-objective optimization of marine nuclear power secondary circuit system based on improved multi-objective particle swarm optimization algorithm
URI https://dx.doi.org/10.1016/j.pnucene.2023.104740
Volume 161
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