Proton exchange membrane is the key component of PEMFC.
质子交换膜是燃料电池的核心组件。
The electrochemical modeling of PEMFC is analyzed particularly.
详细分析了质子交换膜燃料电池(pemfc)的电化学模型。
The military application prospect for PEMFC systems were discussed.
探讨了PEMFC发电系统在军事方面的应用前景;
Preparation and optimization of MEA are the pivotal techniques for PEMFC.
膜电极组件的制备与优化是PEMFC的关键技术。
It was believed that, the PEMFC would be of great value in military applications.
认为质子交换膜燃料电池在军事应用中有很高的价值。
So the simulations of flow and mass transfer processes for PEMFC is very important.
因此,对PEMFC 内的流动和传质过程的数值模拟研究,具有重要的工程意义与学术意义。
This paper focuses on modeling membrane resistance of the PEMFC for control design.
该文针对控制的需要,集中研究质子交换膜燃料电池膜阻抗部分的模型。
Water management is a key technology of polymer exchange membrane fuel cells (PEMFC).
水管理是质子交换膜燃料电池的关键技术之一。
The technology difficulty facing for PEMFC and regenerative PEMFC system was discussed.
讨论了PEMFC和可再生PEMFC系统所面临的技术难点。
With working principles of PEMFC engines, an electrochemistry model of PEMFC was established.
结合质子交换膜燃料电池(PEMFC)发动机的工作原理,建立电化学模型。
Humidifying technology is one of key technologies for proton exchange membrane fuel cell (PEMFC).
增湿技术是质子交换膜燃料电池(pemfc)的关键技术之一。
A new structure of static water removal for proton exchange membrane fuel cell (PEMFC) was designed.
设计了一种新型的质子交换膜燃料电池的静态排水结构。
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。
The experimental results show that the current distribution in PEMFC with metal mesh flow field is not homogeneous.
实验结果表明,采用网状流场电流密度分布并不均匀。
Proton exchange membrane fuel cell (PEMFC) temperature had great influences on the generation performance of the stack.
质子交换膜燃料电池(PEMFC)温度对发电性能的影响很大。
The study on water distribution in PEMFC is the foundation of performance stablity and operating without humidification.
提高不加湿质子交换膜燃料电池性能关键在于水的管理。
Heat sources of the electrode and their proportion of the energy wastage in PEMFC were analyzed by the voltammetry curves.
根据伏安曲线分析了质子交换膜燃料电池(P emfc)的电极热源项和能量损耗比例。
According to the working principle of the PEMFC stack, the calculations and analysis for the FC vehicle system are conducted.
根据质子交换膜燃料电池工作原理,对车载燃料电池系统进行了较详细的计算与分析。
The practical significance of CO removal in methanol reformed gases for proton exchange membrane fuel cell (PEMFC) was introduced.
评述了质子交换膜燃料电池(pemfc)甲醇重整气中CO去除的现实意义。
The characteristics of the electrode process and its effects on energy transfer efficiency and the heat sources of PEMFC were studied.
研究了PEMFC的电极过程特性以及对电池能量转化效率和热源的影响。
Thermodynamic and kinetic considerations for the ethanol electrooxidation in a proton exchange membrane fuel cell(PEMFC) were discussed.
从热力学和动力学角度讨论了质子交换膜燃料电池中的乙醇电氧化过程。
Therefore, including the catalyst layer, the materials and structures of the MEA are considered to have most effects on PEMFC performance.
膜电极包含的催化剂层、材料和结构等对PEMFC的性能影响很大。
This article introduces the research and designs of the PEMFC engine system, and a project of the vehicle fuel cell engine system is presented.
文章介绍了质子交换膜燃料电池发动机系统的设计,提出了将其集成为车用发动机系统的设计方案。
The experimental results show that the infrared thermal imaging is an effective method to measure the exterior temperature fields of the PEMFC.
实验结果表明红外热成像技术能有效地测量质子交换膜燃料电池的外表面温度。
Progress in research of PEMFC world wide, the developing hydrogen storage technology toward to ripening, and PEMFC future outlook were described.
介绍了国内外PEMFC的研究进展,趋于成熟的贮氢技术,以及未来展望。
The experimental results show that the performance and limited current density of the PEMFC are enhanced with increasing operational temperature.
结果表明:升高电池温度可提高PEMFC的性能及极限电流密度;
Research progress in PEMFC including catalyze, electrode, proton exchange membrane, electrolyte, bipolar board and carbon nano-tube were described.
综述了包括催化剂、电极、质子交换膜、电解质、双极板和碳纳米管在内的质子交换膜燃料电池的研究进展。
Through comparison and detailed analysis, this article discusses the key technology of PEMFC and its prospects as the military power supply equipment.
通过质子交换膜燃料电池和现有通信电源装备的对比分析,讨论了质子交换膜燃料电池作为军事通信电源的关键技术和发展前景。
Finally, an analytic PEMFC model based on electrochemical methods was constructed as a simple example for the application of electrochemical techniques.
作为电化学测试的初步应用,建立了基于电化学测试方法的电池分析模型系统。
Finally, an analytic PEMFC model based on electrochemical methods was constructed as a simple example for the application of electrochemical techniques.
作为电化学测试的初步应用,建立了基于电化学测试方法的电池分析模型系统。
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