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Research on Multi-Objective Optimization of High-Speed Solenoid Valve Drive Strategies under the Synergistic Effect of Dynamic Response and Energy Loss

Zhiqing Yu, Yang Li, Jianhui Zhao, Leonid Grekhov

2024Energies17 citationsDOIOpen Access PDF

Abstract

Under high-frequency operating conditions, the high-speed solenoid valve (HSV) experiences energy loss and heat generation, which significantly impacts its operational lifetime. Reducing the energy loss of an HSV without compromising its opening response characteristics poses a significant challenge. To address this issue, a finite element simulation model of an HSV coupled with a current feedback model is constructed to investigate the synergistic effects of dynamic response and energy loss. Prediction models for the opening response time, HSV driving energy, and Joule energy using a back propagation neural network (BPNN) are established. Furthermore, a multi-objective optimization study on the current driving strategy using a non-dominated sorting genetic algorithm II (NSGA-II) is conducted. After optimization, although there was a 6.24% increase in the opening response time, both HSV drive energy and Joule energy were significantly reduced by 15.67% and 22.49%, respectively. The proposed multi-objective optimization method for an HSV driving strategy holds great significance for improving its working durability.

Topics & Concepts

Solenoid valveEnergy (signal processing)Joule (programming language)Computer scienceSolenoidJoule heatingGenetic algorithmFinite element methodSortingSimulationControl theory (sociology)Automotive engineeringEngineeringMechanical engineeringElectrical engineeringArtificial intelligenceMathematicsStructural engineeringAlgorithmControl (management)StatisticsMachine learningHydraulic and Pneumatic SystemsFuel Cells and Related MaterialsElectric and Hybrid Vehicle Technologies