燃料电池混合动力客车的配电控制

He Hong-wen, Zhang Cheng-ning, Yu Xiao-jiang
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引用次数: 2

摘要

在大气污染和交通运输石油短缺的压力下,氢作为一种可再生的清洁能源越来越受到世界各国的关注。有人预测,21世纪将是一个氢世纪。目前,由于燃料电池堆的成本和技术不成熟,混合动力系统成为最佳解决方案。本文所讨论的5吨燃料电池混合动力客车,采用高压PEMFC和大功率镍氢电池组构成混合动力系统。为了获得更高的燃油效率,避免电池组的频繁充放电,提出了一种面向燃料电池的控制策略。建立了高压燃料电池发动机的控制极限模型。构建了实现燃料电池为主电源和维持电池组SOC的控制逻辑。实验结果表明,燃料电池功率可以很好地满足驾驶员的要求。混合动力汽车的氢消耗量高达2.464 kgldr(100km)-1 (25.2 mpg)。
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Power Distribution Control for a Fuel Cell Hybrid Electric Bus
Under the pressure of air pollution and oil shortage of transportations, hydrogen as a renewable and clean energy gets more and more attentions from all over the world. There predicts that the 21s' century will be a hydrogen century. Nowadays, for the cost and not matured technology of fuel cell stack, hybrid system becomes the best solution. For a 5-ton fuel cell hybrid electric bus discussed in this paper, high-pressure PEMFC and high-power NiMH battery pack forms the hybrid system. In order to obtain the higher fuel efficiency and avoid the frequent charge & discharge of battery pack, a control strategy for the fuel cell-oriented control is proposed. The controlling limitation model for the high-pressure fuel cell engine is built. The control logic to realize the fuel cell as the primary power source and maintain the SOC of battery pack is built. Experimental results indicate that the fuel cell power can follow the driver's requirement very well. The hybrid vehicle's hydrogen consumption is up to 2.464 kgldr(100km)-1 (25.2 mpg).
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