The efficiency of a DMFC is determined by its membrane.
DMFC的性能取决于它的膜。
Output power, DMFC efficiency, cost and application depended on the PEM.
它的作用决定着DMFC的输出功率、电池效率、成本及应用前景。
The technical state of the prototype DMFC at home and abroad was introduced in detail.
报导了国内外直接甲醇燃料电池样机达到的技术水平。
A passive DMFC system was designed and fabricated to power notebook computer successfully.
设计、组装了被动直接甲醇燃料电池系统,并与笔记本电脑联试成功。
The principal component influencing the performance of the DMFC is proton exchange membrane.
作为其重要组成部分的质子交换膜的性质是影响电池性能的关键因素。
Liquid feed DMFC is receiving more attention because it is more convenient to use in practice.
液体进料dmfc更因为其在实用上具有很大的方便之处。
The recent development in research on cathodic catalysts for direct methanol fuel cells (DMFC) is (reviewed).
综述了近年来直接甲醇燃料电池(DMFC)中阴极催化剂研究进展。
For the inner complexity of Direct Methanol Fuel cell (DMFC), mathematical modeling of DMFC is very difficult.
针对直接甲醇燃料电池(DMFC)系统过于复杂,难以数学建模。
Direct methanol fuel cell (DMFC) USES methanol as fuel, which solves the problems in hydrogen storage, transportation.
直接甲醇燃料电池(DMFC)采用甲醇为燃料,很好地解决了困扰人们的氢气的储存、运输等问题。
The double-layered structure was beneficial for oxygen diffusion and water removal, and thus improved the DMFC performance.
该双催化层阴极结构有利于氧气扩散和水的排出,提高了电池性能。
DMFC was the most promising cleanly energy device at present, the key technology of which is the catalytic oxidation of methanol.
直接甲醇燃料电池(DMFC)是目前最有前途的清洁能源装置,其关键的技术问题是催化氧化甲醇。
Direct Methanol Fuel Cell (DMFC) is considered as a promising power sources with great potential for electric vehicle in 21st century.
直接甲醇燃料电池(DMFC)被认为是21世纪最有潜力的电动汽车动力源。
Model indicates that, at low current density and high methanol concentration, the methanol crossover poses a serious problem for a DMFC.
模型计算显示,在低电流密度和高浓度甲醇进料情况下,甲醇渗透将成为DMFC的一个严重问题。
A direct methanol fuel cell (DMFC) is an electrochemical device in which the methanol is fed directly into the fuel without any fuel reformer.
直接甲醇燃料电池(DMFC)是一种不需要燃料重整器而以甲醇直接进料的电化学装置。
Flow field plate is one of the key components in DMFC (Direct Methanol Fuel Cell), and flow-field is the most important part for flow field plate.
流场板是直接甲醇燃料电池关键组成部分之一,而流场是流场板的核心部分。
DMFC is expected to find wide application as a portable or mobile power, exemplified by battery for cellular phones or engine for electric vehicles.
DMFC被认为最适宜作可移动动力电源和便携式电源,如电动车电源和手机电池。
High catalyst loading and high working temperature force DMFC to adopt special membrane-electrode structure, e. g. , unsupported catalyst electrode;
高催化剂载量和高工作温度迫使DMFC采取特殊的膜电极结构,如无担载催化剂电极;
DMFC are expected to find wide application as a portable or mobile power, exemplified by battery for cellular phones or engine for electric vehicles.
DMFC被认为最适宜作可移动动力电源和便携式电源,如电动车电源和手机电池。
Improved applicable temperature and high conductivity of the composite membrane indicate its promising application in DMFC operating at high temperature.
使用温度的提高及在高温下的高电导率表明该复合膜适合在高温DMFC中使用。
This article deals with the techniques for preparing the anode catalysts. It could be a reference for the preparation of anode catalysts used in the DMFC.
介绍了DMFC阳极催化剂的几种制备方法,并对这些方法进行了评述,对制备d MF C阳极催化剂具有很好的参考价值。
Visualization study of two-phase flow in anode interdigital flow bed of a liquid-fed direct methanol fuel cell (DMFC) was performed in a home-made experimental system.
采用自制的实验系统对液态进料直接甲醇燃料电池(DMFC)阳极交叉指状流道内的两相流动特性进行了可视化实验研究。
The effect of pore structure in the anode catalyst layer on the performance of direct methanol fuel cell(DMFC) was investigated using ammonium carbonate as a pore former.
采用碳酸铵作为造孔剂,研究了阳极催化层孔结构对直接甲醇燃料电池(DMFC)性能的影响。
The measure result showed the higher current density and stability of the mesoporous Pt nanowires than the solid nanowires, which had prospect in the application of DMFC.
电化学性质测试表明,介孔pt纳米线电极比普通实心电极有着更大的催化电流密度和稳定性,在直接甲醇燃料电池应用方面具有前景价值。
The direct methanol fuel cell (DMFC) has been received widespread attention due to the abundant sources, the price, the safety of the storage and transportation of the fuel.
直接甲醇燃料电池(DMFC),由于其燃料来源丰富,价格便宜、运输和储存较安全等优点而受到广泛重视。
Developed direct methanol fuel cell (DMFC) has been received widespread attention due to the abundant source, the low price, the safety of storage and transportation of fuel.
直接甲醇燃料电池(DMFC)由于其燃料来源丰富、价格便宜、运输和存储安全等优点而受到广泛的重视。
Direct methanol fuel cell (DMFC) is an ideal portable power source in the future because of the simple system, high energy density and convenient fuel storage and transportation.
直接甲醇燃料电池(DMFC)具有系统简单、比能量高、燃料便于储运等优点,是未来理想的移动电源系统。
The direct methanol fuel cell (DMFC) becomes the research project of general interest because methanol is a kind of rich, cheap liquid fuel and is easy to be stored and transported.
直接甲醇燃料电池以燃料甲醇来源丰富,价格低廉,储存、携带方便而成为近年的研究热点。
The anode catalyst of direct methanol fuel cell (DMFC) is one of the key materials for DMFC. The electrochemical activity of the catalysts affects the performance and cost of the fuel cell.
直接甲醇燃料电池(DMFC)阳极催化剂是DMFC的关键材料之一,其电化学活性的大小对燃料电池的性能及成本起着关键作用。
The decrease of active surface area in the anode caused by CO2 accumulation is reduced through treating the diffusion layer and catalyst layer with PTFE, resulting in increased DMFC performance.
通过对阳极扩散层和催化剂层的疏水处理,降低了阳极产生的CO2导致的催化活性比表面积损失,有效地提高了电池性能。
The decrease of active surface area in the anode caused by CO2 accumulation is reduced through treating the diffusion layer and catalyst layer with PTFE, resulting in increased DMFC performance.
通过对阳极扩散层和催化剂层的疏水处理,降低了阳极产生的CO2导致的催化活性比表面积损失,有效地提高了电池性能。
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