2023
DOI: 10.3390/pr11092623
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Multi-Objective Optimization of Kinetic Characteristics for the LBPRM-EHSPCS System

Yuhang Zhang,
Gexin Chen,
Guishan Yan
et al.

Abstract: As the ‘heart’ of energy vehicles, the lithium-ion battery is in desperate need of precision improvement, green production, and cost reduction. To achieve this goal, the electro-hydraulic servo pump control system (EHSPCS) is applied to the lithium-ion battery pole rolling mill (LBPRM). However, this development can lead to limited dynamic performance and large power loss as a result of the EHSPCS unique volume direct-drive control mode. At present, how to solve this conflict has not been studied and how the E… Show more

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“…In chemical processes, there commonly exist multi-rate systems [4][5][6]. It is passively generated due to the process constraints of production, safety, economy, or environment, and on the other hand, it is artificially constructed due to the need for process control [7][8][9]. The multi-rate problem mainly exists for the following reasons: (1) the implementation of dynamic optimization is limited by operation rate [10][11][12]; (2) in the actual process, the number of sensors is less than the number of output variables, so time-sharing measurement is adopted [13][14][15]; (3) in the chemical process, the change frequency for each optimization variable may greatly differ from others; (4) in addition to the multirate phenomenon in the actual process, some operation optimizations require multi-rate operation [16][17][18], such as pole assignment, enhanced dynamic performance, and model following [19][20][21].…”
Section: Introductionmentioning
confidence: 99%
“…In chemical processes, there commonly exist multi-rate systems [4][5][6]. It is passively generated due to the process constraints of production, safety, economy, or environment, and on the other hand, it is artificially constructed due to the need for process control [7][8][9]. The multi-rate problem mainly exists for the following reasons: (1) the implementation of dynamic optimization is limited by operation rate [10][11][12]; (2) in the actual process, the number of sensors is less than the number of output variables, so time-sharing measurement is adopted [13][14][15]; (3) in the chemical process, the change frequency for each optimization variable may greatly differ from others; (4) in addition to the multirate phenomenon in the actual process, some operation optimizations require multi-rate operation [16][17][18], such as pole assignment, enhanced dynamic performance, and model following [19][20][21].…”
Section: Introductionmentioning
confidence: 99%