用一维模型分析电动公交车的电机冷却线路并进行实验验证

Azim Turan, Emrah Yaki, Çağrı Emre Birgül, Hakan Kaya
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引用次数: 0

摘要

改进电动汽车的整体热管理策略可直接或间接提高电池效率和车辆续航里程。本研究的目的是利用一维计算流体动力学模型模拟和改进为电动公交车开发的电机冷却线路的性能。在这项研究中,对 Anadolu Isuzu 的 12 米电动汽车 Citivolt 进行了模拟研究。根据开发的一维模型确定了流线位置和部件选择等设计参数。研究结束时获得的设计得到了测试和实验研究的支持。结果表明,流水线上的组件能够正确检测流量和压力损失,最大误差率为 8%,平均误差率为 4.8%。此外,管道上的元件通过其自身的 dp-Q 特性曲线被添加到模型中。由此可见,这些包含复杂流线的组件可以用独特的 dp-Q 曲线来表示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analysis of Motor Cooling Lines of Electric Buses with 1D Models and Verification with Experiments
Improving the overall thermal management strategy in electric vehicles can directly or indirectly improve battery efficiency and vehicle range. The aim of this study is to simulate and improve the performance of motor cooling lines developed for an electric bus using 1D computational fluid dynamics models. In the study, simulation studies were carried out for the 12-m EV Citivolt vehicle of Anadolu Isuzu. Design parameters such as placement of flow lines and component selection were decided thanks to 1D models developed. The design obtained at the end of the study was supported by tests and experimental studies. As a result, it was seen that the components in the line correctly detected the flow rate and pressure losses with a maximum error rate of 8% and an average error rate of 4.8%. Additionally, the components on the line were added to the model via their own characteristic dp-Q curves. In this way, it has been seen that these components, which contain complex flow lines, can be represented with unique dp-Q curves.
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