Research on Energy Saving of PHEV Air Conditioning System Based on Reducing Air Backflow in Underhood

• Published in: Energies (Basel) Vol. 15; no. 9; p. 3183
• Main Authors: Wu, Haibo, Tang, Xingwang, Xu, Sichuan, Zhou, Jiangbin
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.05.2022
• Subjects: air backflow; Air conditioning; air conditioning system; Cost control; Efficiency; Energy conservation; Energy consumption; Energy management; Genetic algorithms; Heat exchangers; Heat transfer; One dimensional models; Optimization; PHEV; Radiators; Refrigeration; Research methodology; Reynolds number; Simulation; thermal management; Thermodynamic efficiency; Vehicles
• ISSN: 1996-1073; 1996-1073
• DOI: 10.3390/en15093183

A novel method characterizing the air backflow of the underhood in order to improve the thermal efficiency of the air conditioning system (ACS) and reduce the energy consumption of PHEV is proposed in this paper. In addition, a 1D model for analyzing air backflow occurring in the underhood is established and a CFD method for calculating air backflow rate and distribution is proposed. It is found that the decrease in the air backflow rate of the underhood helps to improve the refrigeration capacity of the ACS, and when the backflow ratio cannot be reduced below 10%, the air backflow should be distributed as evenly as possible at the front end of the condenser. Moreover, in order to eliminate the impact of backflow on the underhood of PHEV, the gap between the radiator and the bracket is sealed and the gap around the air guide is reduced. Compared with the original structure, the backflow rate of the optimized structure is reduced from 32.7% to 9.3% and the cabin temperature can be reduced by 3–5 °C.