再生制动器
模糊逻辑
汽车工程
能源消耗
计算机科学
功率消耗
电动汽车
能量(信号处理)
功率(物理)
控制工程
工程类
电气工程
数学
人工智能
物理
制动器
统计
量子力学
作者
Tolga Kocakulak- Enes Yurdaer
出处
期刊:Engineering Perspective
[ASOS Yayinevi]
日期:2021-01-01
卷期号:1 (1): 11-21
被引量:13
标识
DOI:10.29228/sciperspective.47590
摘要
One of the disadvantages of electric vehicles that has not yet been overcome is the long battery refueling time. Besides studies to shorten the battery refueling time, increasing the driving range is also a solution to this problem. Different energy saving methods have been tried to increase the driving range. Regenerative braking is one of the best energy-saving methods in electric vehicles. Among several different strategies for regenerative braking, in this study, a fuzzy logic-based regenerative braking strat-egy is applied to ensure the best regenerative ratio for electric vehicles in any braking case. Moreover, three electric vehicles with different powertrains are modeled in MATLAB/Simulink, and their regenerative braking effectiveness is compared. Inputs of this fuzzy logic controller were determined as the vehicle speed, brake pedal position, and state of charge data; also, three different driving cycles are utilized for simulation. These models are equipped with REMY HVH250-115 electric motor and a battery with a capacity of 80 kWh. As a result, the energy-saving amounts are ordered from the best to the worst as all-wheel drive, front-wheel drive, and rear-wheel drive configurations. Furthermore, the average energy-saving in the all-wheel drive configuration is calculated as 19.11%, in the front-wheel drive configuration is calculated as 9.38%, and in the rear-wheel drive configuration is calculated as 7.93%.
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