Modeling and thermal management of proton exchange membrane fuel cell for fuel cell/battery hybrid automotive vehicle

质子交换膜燃料电池 堆栈(抽象数据类型) 汽车工程 电池(电) 混合动力汽车 行驶循环 汽车工业 PID控制器 核工程 电动汽车 工程类 计算机科学 温度控制 机械工程 燃料电池 功率(物理) 热力学 航空航天工程 程序设计语言 物理 化学工程
作者
Lu Xing,Wentao Xiang,Ruizhi Zhu,Zhengkai Tu
出处
期刊:International Journal of Hydrogen Energy [Elsevier BV]
卷期号:47 (3): 1888-1900 被引量:32
标识
DOI:10.1016/j.ijhydene.2021.10.146
摘要

The proton exchange membrane fuel cell (PEMFC) stack is a key component in the fuel cell/battery hybrid vehicle. Thermal management and optimized control of the PEMFC under real driving cycle remains a challenging issue. This paper presents a new hybrid vehicle model, including simulations of diver behavior, vehicle dynamic, vehicle control unit, energy control unit, PEMFC stack, cooling system, battery, DC/DC converter, and motor. The stack model had been validated against experimental results. The aim is to model and analyze the characteristics of the 30 kW PEMFC stack regulated by its cooling system under actual driving conditions. Under actual driving cycles (0–65 kW/h), 33%–50% of the total energy becomes stack heat; the heat dissipation requirements of the PEMFC stack are high and increase at high speed and acceleration. A PID control is proposed; the cooling water flow rate is adjusted; the control succeeded in stabilizing the stack temperature at 350 K at actual driving conditions. Constant and relative lower inlet cooling water temperature (340 K) improves the regulation ability of the PID control. The hybrid vehicle model can provide a theoretical basis for the thermal management of the PEMFC stack in complex vehicle driving conditions. • Thermal management of PEMFC stack for fuel cell/battery hybrid vehicles. • Hybrid vehicle model simulates driver behavior, dynamics, control, PEMFC, battery. • Under driving cycles (0–65 kW/h), 33%–50% of the total energy becomes stack heat. • Proposed PID control stabilizes stack temperature at 350 K at real driving condition.

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