关键词: 汽车空调；新风结构；最小新风量；新风负荷

Abstract: The fresh air load of automotive air conditioning is an important research object to improve the driving range of battery electric vehicles. Scholars focus on the analysis of the minimum fresh air volume and the optimization control mode, so as to reduce the vehicle energy consumption and improve the driving range. However, in terms of engineering realization, based on the current mainstream fresh air structure of automobile air conditioning, the author finds that with the increase of vehicle speed, the higher the deviation between the actual minimum fresh air volume and the theoretical demand value, the higher the additional fresh air load. Therefore, this paper proposes an improved fresh air structure, which can improve the realization degree of the theoretical minimum fresh air volume at different vehicle speeds. The computational fluid dynamics (CFD) analysis of the improved fresh air structure shows that the minimum fresh air volume can be improved from 68 m 3 /h to 33.5 m 3 /h when the speed is 120 km/h, and the control limit of the minimum fresh air volume is improved by 49%. Moreover, when the CO2 threshold is 1 000×10-6 mg/L comfort mode, the fresh air heat load at 0 km/h, 50 km/h, 80 km/h and 120 km/h is optimized by 0%, 27%, 38% and 51% compared with the existing design. When the CO2 threshold is 2 000×10-6 mg/L energy saving mode, the heat load at 0 km/h, 50 km/h, 80 km/h and 120 km/h is optimized by 58%, 66%, 58% and 51% compared with the existing design.

Key words: Automotive air conditioning; Refresh air structure; Minimum fresh air volume; Fresh air load