The cell stack is applicable in the area of PEM fuel cells and PEM water electrolyser cells.
该电池堆可适用于PEM燃料电池和PEM水电解剂电池的领域中。
The invention relates to a bipolar plate, a method for preparing the bipolar plate and a PEM fuel cell.
本发明涉及双极板,制备双极板的方法以及PEM燃料电池。
A two - dimensional whole-cell model for a PEM fuel cell with interdigital flow field has been developed.
本文建立了一个封闭流道PEM燃料电池二维全电池数值模型。
Based on the information provided by American Energy Department, it describes the cost analysis of PEM fuel cell for cars.
本文根据美国能源部资料介绍了对车用PEM燃料电池的成本分析。
Experimental results are very helpful to optimize the operating parameters of PEM fuel cell, and promote its commercialization.
实验结果对PEM燃料电池的参数优化具有重要的参考作用,为其推广应用提供实践依据。
The method also relates to the method for preparing the bipolar plate and application of the bipolar plate in the PEM fuel cell.
本发明同样涉及到双极板的制备方法,以及双极板在PEM燃料电池中的用途。
Polymer electrolyte membrane (PEM) is a key material that strongly affects the cell performance, cost and application prospect of the PEM fuel cell.
高分子电解膜是高分子燃料电池的关键材料之一。
In this paper, liquid water on the performance of a PEM fuel cell and mass transport is observed on different electrode relative position under gravity effect by experiment.
通过试验,观察了在重力作用下液态水对PEM燃料电池性能及其内部传质的影响,分析了PEM燃料电池单体电极的不同摆放位置对其性能的影响。
It was found that the start-up and step response time of PEM fuel cell was in the order of seconds, which was similar to the simulation results of most presently used models.
结果表明:电池的启动时间和阶跃响应时间均为秒的数量级,与大多数模模拟的结果相一致。
The study of different area polarization of bi-polar plate flow field PEM fuel cell could be a very good diagnosing tool to verify the engineering design of flow field of bi-polar plate.
质子交换膜燃料电池双极板导流场的不同区域极化研究可以诊断导流场工程设计的合理性。
The experimental results show that the performance of PEM fuel cells improves with the increase of the humidification temperature when the humidification temperature is below cell temperature;
结果加湿温度低于电池温度时,升高加湿温度,电池性能得到改善;
Polymer electrolyte membrane (PEM) is used as the electrolyte in polymer electrolyte membrane fuel cell (PEMFC).
质子交换膜燃料电池(PEMFC)采用质子交换膜(PEM)作为电解质。
A dynamic model was developed to analyze the thermal management subsystem of a proton exchange membrane (PEM) fuel cell system.
该文分析了车用质子交换膜燃料电池系统热管理子系统的结构,并建立热管理子系统的动态模型。
Proton Exchange Membrane (PEM) Fuel Cell is a clear and efficient new energy source.
质子交换膜(PEM)燃料电池是一种清洁高效的新型能源。
Reactant gas flow rates needed by proton exchange membrane (PEM) fuel cell have important influence on its performance and cost.
研究表明,燃料电池运行参数如温度和湿度,对提高燃料电池的性能和寿命起着至关重要的作用。
Proton Exchange Membrane (PEM) is the key part in the Fuel Cell.
质子交换膜是燃料电池中的关键部件。
Proton Exchange Membrane (PEM) is the key part in the Fuel Cell.
质子交换膜是燃料电池中的关键部件。
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