Optimization of centrifugal pump performance and excitation force based on machine learning and enhanced non-dominated sorting genetic algorithm III

This study addresses the issue of excessive vibration in centrifugal pumps without compromising their performance by employing six machine learning methods. These include the Backpropagation (BP) Neural Network, Feedforward Neural Network (FNN), Support Vector Machine (SVM), Extreme Learning Machine...

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Vydáno v:Engineering applications of artificial intelligence Ročník 143; s. 110036
Hlavní autoři: Haoqing, Jiang, Wei, Dong, Sucheng, Li, Fan, He
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Ltd 01.03.2025
Témata:
Axial force
Centrifugal pump
Genetic algorithm
Machine learning
Optimization design
Centrifugal pump
Genetic algorithm
Optimization design
Axial force
Machine learning
ISSN:0952-1976
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Abstract This study addresses the issue of excessive vibration in centrifugal pumps without compromising their performance by employing six machine learning methods. These include the Backpropagation (BP) Neural Network, Feedforward Neural Network (FNN), Support Vector Machine (SVM), Extreme Learning Machine (ELM), Gaussian Process Regression (GPR), and Tree Ensemble (TE). These methods are used to construct a mapping model that correlates optimization objectives and parameters. The model served as the fitness function in the Adaptive Non-dominated Sorting Genetic Algorithm III (A-NSGA-III). A total of 1000 optimization results generated by the A-NSGA-III were evaluated to determine the final optimization scheme, using a reverse design approach to identify optimal parameters.A comparison of the hydraulic performance before and after optimization revealed minor improvements in the head, efficiency, and shaft power. The radial force decreased by 17.81%, and the axial force decreased by a substantial 98.12%, meeting the set objectives. The significant reduction in axial force was predominantly observed at the balance chamber. Entropy production theory analysis indicated a considerable decrease in the entropy production rate on the impeller's inner wall.Cross-wavelet transform and wavelet coherence analysis showed a significant correlation between the entropy production rate and the energy variation of the axial force. Before optimization, there was a pronounced coherence between the entropy production rate and the resonance period, which was notably reduced after optimization. This method significantly addresses the issue of excessive axial force in the operation of centrifugal pumps without compromising the basic hydraulic performance. This study provides a reference for the structural optimization of centrifugal pumps.
AbstractList This study addresses the issue of excessive vibration in centrifugal pumps without compromising their performance by employing six machine learning methods. These include the Backpropagation (BP) Neural Network, Feedforward Neural Network (FNN), Support Vector Machine (SVM), Extreme Learning Machine (ELM), Gaussian Process Regression (GPR), and Tree Ensemble (TE). These methods are used to construct a mapping model that correlates optimization objectives and parameters. The model served as the fitness function in the Adaptive Non-dominated Sorting Genetic Algorithm III (A-NSGA-III). A total of 1000 optimization results generated by the A-NSGA-III were evaluated to determine the final optimization scheme, using a reverse design approach to identify optimal parameters.A comparison of the hydraulic performance before and after optimization revealed minor improvements in the head, efficiency, and shaft power. The radial force decreased by 17.81%, and the axial force decreased by a substantial 98.12%, meeting the set objectives. The significant reduction in axial force was predominantly observed at the balance chamber. Entropy production theory analysis indicated a considerable decrease in the entropy production rate on the impeller's inner wall.Cross-wavelet transform and wavelet coherence analysis showed a significant correlation between the entropy production rate and the energy variation of the axial force. Before optimization, there was a pronounced coherence between the entropy production rate and the resonance period, which was notably reduced after optimization. This method significantly addresses the issue of excessive axial force in the operation of centrifugal pumps without compromising the basic hydraulic performance. This study provides a reference for the structural optimization of centrifugal pumps.
ArticleNumber 110036
Author Fan, He
Haoqing, Jiang
Sucheng, Li
Wei, Dong
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Keywords Centrifugal pump
Genetic algorithm
Optimization design
Axial force
Machine learning
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Snippet This study addresses the issue of excessive vibration in centrifugal pumps without compromising their performance by employing six machine learning methods....
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StartPage 110036
SubjectTerms Axial force
Centrifugal pump
Genetic algorithm
Machine learning
Optimization design
Title Optimization of centrifugal pump performance and excitation force based on machine learning and enhanced non-dominated sorting genetic algorithm III
URI https://dx.doi.org/10.1016/j.engappai.2025.110036
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