基于液压传动发电技术的新型隔热飞行器综合制冷系统

2022 First International Conference on Cyber-Energy Systems and Intelligent Energy (ICCSIE) Pub Date : 2023-01-14 DOI:10.1109/ICCSIE55183.2023.10175225

Xue Zhang, Xin Yang, Shaoqi Wang

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引用次数: 0

摘要

在炎热的环境中，现场工作人员穿着隔热服散热是困难的。针对传统空调服装制冷效果差、空间有限的问题，研制了一种基于液压传动发电技术的隔热飞行器综合制冷系统。COMSOL仿真结果表明，该制冷原理是可行的。采用液压动力系统为整个系统供电，将液压发电机与稳定蓄电池连接，实现稳定的直流供电。现场活作业试验表明，该系统能极大地改善夏季活作业人员的工作环境，降低工作强度，提高工作效率，也可推广应用到其他工作场景。

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A Novel Integrated Refrigeration System for insulating aerial vehicle Based on Hydraulic transmitting Power Generation Technology

It is difficult for live-line workers to dissipate heat in insulating clothing in a hot environment. Aiming at the problems of poor refrigeration effect and limited space of traditional air-conditioned clothing, this paper develops an integrated refrigeration system for insulating aerial vehicles based on hydraulic transmitting power generation technology. Simulation by COMSOL shows that the refrigeration principle is feasible. The hydraulic power system is used to supply power to the whole system, and the hydraulic generator is connected to the stabilized battery to realize a stable DC power supply. Field live working test shows that the system can greatly improve the working environment of live working personnel in summer, reduce the working intensity and improve the working efficiency, and can also be popularized and applied to other working scenes.

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来源期刊

2022 First International Conference on Cyber-Energy Systems and Intelligent Energy (ICCSIE)

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