排气能量回收的气电系统研究

Xing Luo, Jihong Wang, Hao Sun
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引用次数: 5

摘要

与液压和电动执行器相比,气动执行器的显著缺点是能量转换能力低,这是由于其本质上是开路结构。本文提出了一种混合气电系统,目的是回收现有气动执行器出口的排气压缩空气能量来发电。制定了合理的控制策略,以控制作动器系统的运行,保证能量回收工作的顺利进行。给出了气电系统的数学模型和仿真结果。介绍了实验室试验结果。并对系统的能效进行了分析。仿真和实验研究表明,在适当的工作条件下,所设计的控制器运行的整个系统能够成功地回收排气压缩空气能量。
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Study of a Pneumatic-electrical System for Exhaust Air Energy Recovery
In comparison to hydraulic and electrical actuators, the significant drawback of pneumatic actuators is low energy conversion ability which is due to the open-circuit structure in nature. This paper represents a hybrid pneumatic-electrical system for the purpose of recycling exhaust compressed air energy from existing pneumatic actuator outlets to generate electricity. A proper control strategy is developed to manage the actuator system operation and to ensure the energy recovery work well. The pneumatic- electrical system mathematical model and the simulation results are presented. The laboratory experimental tests are described. The system energy efficiency is also analyzed. The simulated and experimental studies demonstrate that the whole system operated by the designed controller can successfully recover exhaust compressed air energy under appropriate working conditions.
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