微型燃料电池

MEMS微型燃料电池及其基于压电风扇的换气方法

MEMS-based micro fuel cell and its air supplying method by piezoelectric fan

基于Fluent的微型燃料电池阴极建模

Micro Fuel Cell Cathode Modeling Based on Fluent

基于MEMS技术的微型燃料电池的制作

Fabrication of Micro Direct Methanol Fuel Cell Based on MEMS Technologies

质子交换膜与MEMS微型燃料电池的研究

Study on Proton Exchange Membranes and Micro Fuel Cells Based on MEMS

论文首先开发了工艺简单、高性能的CCM（catalystcoatedmembrane）膜电极制备技术，将高强度、薄厚度的钛金属片应用于微型燃料电池。

A simple catalyst coated membrane ( CCM ) fabrication technique was developed which showed high performances . A high mechanical strength and thin titanium substrate has been applied to micro fuel cells .

该微型燃料电池采用KOH体硅腐蚀技术得到流体通道，并溅射金属Pt层作为收集电流的电极。

The micro channels of fuel cells are obtained by bulk silicon KOH etching , and the platinum layer is deposited as an electrode to collect the current .

依据当前微型燃料电池的发展现状，重点探讨基于MEMS工艺的微型燃料电池微流场板、膜电极集合体等基本构件制造过程，提出了其中的关键技术和瓶颈问题。

Then , according to state - of - the - art in μ PEMFC , the MEMS based manufacturing technologies of the micro flow field and membrane electrode assembly , as well as the related key techniques and the bottleneck problems in these processes were discussed .

用于微型燃料电池的多孔硅可控制备技术的研究

Study on controllable preparation of porous silicon for miniaturized fuel cell

微型燃料电池流场参数影响研究

Research on the Influence of Flow Field Parameters in μ DMFC

微型燃料电池国际标准化的最新动向

New Tendercy of International Standardization of Micro Feul Cells

详细讨论了微型燃料电池的的研究现状。

Meanwhile , fuel cell technology , especially miniature fuel cell technology is also surveyed .

微尺度学在微型燃料电池数学模型中的应用

Micro Fluidics and Its Applications in Mathematical Model of Micro Proton Exchange Membrane Fuel Cells

原则上来说，霍克蒂的微型燃料电池和许多现在正在实验中的燃料电池很相似。

In principle , Hockaday 's miniature fuel cell is similar to many now being tested .

基于硅的微型燃料电池的研究

Study on Silicon Based Micro-fuel Cell

该微型燃料电池电源系统为燃料电池在便携式电源方面的应用提供了一个很好的发展方向。

It suggests a potential orientation for the application of PEMFC in the field of portable devices .

霍克蒂原来是一位物理学者，若干年前就开始在自家的地下室里摆弄微型燃料电池了。

Hocicaday , formerly a physicist , began tinkering with a miniature fuel cell in his basement years ago .

在此基础上，对微型燃料电池的换气方法进行了研究。

Based on these , the air supplying techniques which are used in micro direct methanol fuel cell were studied .

如果微型燃料电池能够风行起来的话，手机生产商就要做出他们可能从来没有预料到的调整。

If the micro fuel cell catches on , cellular telephone manufacturers will haw to make an adjustment they probably never anticipated .

最后提出了微型燃料电池进入商业化须要重点解决的技术问题及其发展趋势。

In order to put them into commercialization , the technology challenge and research trend for micro fuel cells were also discussed .

在此基础上，根据微通道的特性，分析了电极板上各种不同截面形状的气道对微型燃料电池性能的影响。

According the characteristics of micro channels , the effects of different cross section micro channels on the performances of micro-fuel cells are analyzed .

微型燃料电池除了环境友好、比功率高和可靠性好的优点外，相对于传统蓄电池还具有更高的能量密度且更换燃料方便。

Besides the environment friendly and high specific power and reliability good outside the advantage , The micro fuel cell have a higher energy density than traditional battery and replace the fuel quickly .

目前，微型燃料电池的制造成本是阻碍其商品化的主要因素，特别是双极板的制造成本；较低的质量比功率和体积比功率也是其应用的一大障碍。

The manufacturing cost of miniature fuel cells especially bipolar plates is the main restriction of its commercialization . In addition , low specific power of mass and volume is also a great barrier .

因此，如何降低双极板的制造成本、减轻体积和重量，以及如何提高功率密度成为微型燃料电池研究必须解决的关键问题。

So in order to extend the application of miniature fuel cells , the following solutions should be focused on more attention : manufacturing cost , reduce the mass and volume of bipolar plates and increase specific power .

对微型燃料电池在一些知名研究所、大学和公司的最新研究动态进行了详细介绍，重点讨论了微型燃料电池的结构设计、加工过程以及它们的应用；

Based on the achievements in the present literatures , recent progress in the region of micro fuel cells was introduced , and the structure design , fabrication process and applications of micro fuel cells were presented in detail .

微型PEM燃料电池膜电极的研究

Study on Membrane Electrodes Assemblies of Micro PEMFC

采用CFD软件对微型甲醇燃料电池（MicroDirectMethanolFuelCells，μDMFC）进行模型的建立和性能仿真，并比较了不同的流场结构设计对电池性能的影响。

Using CFD software , modeling and numerical simulation of μ DMFC ( Micro Direct Methanol Fuel Cells ) was carried out . Moreover , the influence of DMFC performance with various flow channel design were studied .

这些材料对于生产微型的燃料电池是非常重要的。

Those materials are essential to the working of the micro fuel cell .

基于MEMS技术的微型直接甲醇燃料电池的设计与制作

Design and Fabrication of Micro Direct Methanol Fuel Cells Based on MEMS Technology

提出一套基于MEMS加工技术和薄膜淀积技术的硅基微型直接甲醇燃料电池的制作工艺流程。

A fabrication process of micro direct methanol fuel cell based on MEMS technologies is presented .

PDMS封装技术在硅基微型直接甲醇燃料电池中的应用

Applications of PDMS Assembly Technology to Silicon-based Micro Direct Methanol Fuel Cell