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Air Conditioning System Performance and Vehicle Fuel Economy Trade-Offs for a Hybrid Electric Vehicle

机译：空调系统性能和车辆燃料经济性的混合动力车电动汽车的折价

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In this paper, the tradeoff relationship between the Air Conditioning (A/C) system performance and vehicle fuel economy for a hybrid electric vehicle during the SC03 drive cycle is presented. First, an A/C system model was integrated into Ford’s HEV simulation environment. Then, a system-level sensitivity study was performed on a stand-alone A/C system simulator, by formulating a static optimization problem which minimizes the total energy use of actuators, and maintains an identical cooling capacity. Afterwards, a vehicle-level sensitivity study was conducted with all controllers incorporated in sensitivity analysis software, under three types of formulations of cooling capacity constraints. Finally, the common observation from both studies, that the compressor speed dominates the cooling capacity and the EDF fan has a marginal influence, is explained using the thermodynamics of a vapor compression cycle.

机译：本文介绍了SC03驱动周期中混合动力电动车辆的空调（A / C）系统性能和车辆燃料经济性的权衡关系。首先，将A / C系统模型集成到Ford的HEV仿真环境中。然后，通过制定静态优化问题，在独立A / C系统模拟器上执行系统级灵敏度研究，该静态优化问题最小化致动器的总能量使用，并保持相同的冷却能力。之后，通过在敏感性分析软件中的所有控制器中进行车辆级灵敏度研究，在三种冷却能力约束的制剂中。最后，通过蒸汽压缩循环的热力学来解释，从两种研究中的常见观察，压缩机速度主导冷却能力和EDF风扇具有边缘影响。

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《SAE World Congress Experience》|2017年|1 Electronic text data|共10页
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Quansheng Zhang; Yan Meng; Christopher Greiner; Ciro Soto; William Schwartz; Mark Jennings;
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机译：基于动态规划的混合动力汽车燃油经济性和NO ^ sub x ^排放潜力的研究与权衡
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4. Air Conditioning System Performance and Vehicle Fuel Economy Trade-Offs for a Hybrid Electric Vehicle [C] . Quansheng Zhang, Yan Meng, Christopher Greiner, SAE World Congress Experience . 2017

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Air Conditioning System Performance and Vehicle Fuel Economy Trade-Offs for a Hybrid Electric Vehicle

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