Advances in Mechanical Engineering (Sep 2024)
Research on the influence of environment temperature and running condition on the driving range of battery electric vehicle
Abstract
Reduction of the driving range under either cold temperature or real-world running condition has become the biggest challenge for battery electric vehicle (BEV). In this paper, a simulation platform that combines a kinematics model, a thermal management model, and extracted typical running conditions has been established to estimate the energy flows inside the electric vehicle under cold temperature and real-world running condition. Three vehicles have been selected to validate the accuracy of the simulation platform, giving an accuracy between 90.6% and 96.6% according to different running conditions. Under highway running condition, the driving range could be reduced by 54%. Under urban running condition, when the environment temperature drops down to −20°C, the driving range is only 49.1% of that under 20°C. In addition, there could be a 4.4% increase in driving range if the target cabin temperature could be decreased from 28°C to 20°C. According to simulation, the application of motor waste heat recovery, internal gas recirculation, and heat pump, could increase the driving range at −7°C under urban running condition by 3.5%, 2.9%, and 3.9%, indicating a 10.3% improvement in total. This has been validated via experimental test after implementing these three approaches onto the test vehicle.
