Fuel Cells 2012 Science & Technology - A Grove Fuel Cell Event Impact of gas diffusion layers (GDLs) on MEA performance in PEFCs

Toshihiro Tanuma; Shinji Kinoshita

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Fuel Cells 2012 Science & Technology - A Grove Fuel Cell Event Impact of gas diffusion layers (GDLs) on MEA performance in PEFCs

机译：燃料电池2012科学与技术-格鲁夫燃料电池事件气体扩散层（GDL）对PEFC中MEA性能的影响

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We examined the effect of the hydrophobic/hydrophilic nature of the microporous layer (MPL) on membrane-electrode assembly (MEA) performance. The MEA using a hydrophilic MPL showed much better performance in a wide range of pressure and humidity conditions than that using a hydrophobic MPL. In the MEA operation without humidification, the MEA using a hydrophobic MPL showed a rapid drop in cell voltage with a rise in temperature, whereas the MEA employing a hydrophilic MPL maintained fairly high cell voltage even at 95℃, suggesting that the hydrophilic MPL helps prevent drying out of the membrane under the dry condition.

机译：我们检查了微孔层（MPL）的疏水/亲水性质对膜电极组件（MEA）性能的影响。使用亲水性MPL的MEA在广泛的压力和湿度条件下显示出比使用疏水性MPL更好的性能。在不加湿的MEA操作中，使用疏水性MPL的MEA随温度升高显示出电池电压的快速下降，而使用亲水性MPL的MEA甚至在95℃时仍保持较高的电池电压，这表明亲水性MPL有助于防止在干燥条件下将膜干燥。

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来源
《Research reports of Asahi Glass Co.,Ltd.》 |2013年第2013期|98-105|共8页
作者
Toshihiro Tanuma; Shinji Kinoshita;
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作者单位

Asahi Glass Research Center,1150 Hazawa-cho, Kanagawa-ku, Yokohama-shi, Kanagawa 221-8875, Japan;

Asahi Glass Research Center,1150 Hazawa-cho, Kanagawa-ku, Yokohama-shi, Kanagawa 221-8875, Japan;

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正文语种 eng
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关键词
Gas diffusion layers; PEM fuel cells; Membrane-electrode assemblies;

机译：气体扩散层;PEM燃料电池;膜电极组件;

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1. Estimation of through-plane and in-plane gas permeability across gas diffusion layers (GDLs): Comparison with equivalent permeability in bipolar plates and relation to fuel cell performance [J] . Mukherjee Mainak, Bonnet Caroline, Lapicque Francois International journal of hydrogen energy . 2020,第24期

机译：估计跨越气体扩散层（GDL）的贯穿面和平面内透气性的估计：与双极板中的等效渗透性相比以及与燃料电池性能的关系
2. Direct water balance analysis on a polymer electrolyte fuel cell (PEFC): Effects of hydrophobic treatment and micro-porous layer addition to the gas diffusion layer of a PEFC on its performance during a simulated start-up operation [J] . Hironori Nakajima, Toshiaki Konomi, Tatsumi Kitahara Journal of power sources . 2007,第2期

机译：聚合物电解质燃料电池（PEFC）上的直接水平衡分析：在模拟启动操作过程中，疏水处理和PEFC气体扩散层中添加微孔层对其性能的影响
3. Effects of gas diffusion layer (GDL) and micro porous layer (MPL) on cathode performance in microbial fuel cells (MFCs) [J] . Carlo Santoro, Alexander Agrios, Ugur Pasaogullari, International journal of hydrogen energy . 2011,第20期

机译：气体扩散层（GDL）和微孔层（MPL）对微生物燃料电池（MFCs）阴极性能的影响
4. NUMERICAL SIMULATION OF DROPLET EMERGENCE AND GROWTH FROM GAS DIFFUSION LAYERS (GDLS) IN PROTON EXCHANGE MEMBRANE (PEM) FUEL CELL FLOW CHANNELS [C] . Jingru Benner, Mehdi Mortazavi, Anthony D. Santamaria ASME International Mechanical Engineering Congress and Exposition . 2019

机译：质子交换膜（PEM）燃料电池流动通道中气体扩散层（GDLS）液滴出现和生长的数值模拟
5. Engineering the ionic polymer/gas interfacial properties of a fuel cell catalyst layer and performance optimization of various reversible fuel cells [D] . Dowd, Regis P., Jr. 2017

机译：工程化燃料电池催化剂层的离子聚合物/气体界面特性以及各种可逆燃料电池的性能优化
6. Coating Distribution Analysis on Gas Diffusion Layers for Polymer ElectrolyteFuel Cells by Neutron and X-ray High-Resolution Tomography [O] . Victoria Manzi-Orezzoli, Adrian Mularczyk, Pavel Trtik, 2019

机译：聚合物电解质气体扩散层的涂层分布分析中子和X射线高分辨率断层扫描技术对燃料电池的研究
7. Impact of gas diffusion layers (GDLs) on MEA performance in PEFCs [O] . Tanuma Toshihiro, Kinoshita Shinji 2012

机译：气体扩散层（GDL）对PEFC中MEA性能的影响

Fuel Cells 2012 Science & Technology - A Grove Fuel Cell Event Impact of gas diffusion layers (GDLs) on MEA performance in PEFCs

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