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THE EFFECT ON IN-CELL MEASUREMENTS FROM WATER AND METHANOL TRANSPORT IN DIRECT METHANOL PROTON EXCHANGE MEMBRANE FUEL CELLS

机译：直接甲醇质子交换膜燃料电池中水和甲醇输送的细胞内测量的影响

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This submission relates to direct methanol fuel cells (DMFCs) and to a method for the determination, simultaneously, of in-cell methanol crossover and water diffusion coefficients. Preliminary experimental results are presented describing an extension of the electrochemical methanol crossover technique in a fuel cell. A purge gas flow rate dependence is shown to arise in the methanol crossover current when that cathode purge gas is not humidified and it is suggested that this flow rate dependence drives water flux across the cell. At limiting flow, conditions prevail that allow the determination of trans-membrane water diffusion coefficient. This offers the possibility of deriving this important water transport parameter from a simple and near ubiquitously used electrochemical method. Beyond this, our experiments have suggested that the use of zero-flow purge for methanol permeation current measurement gives rapid and reliable results.

机译：该提交涉及直接甲醇燃料电池（DMFC）和用于测定细胞内甲醇交叉和水扩散系数的方法。提出了初步实验结果，描述了燃料电池中的电化学甲醇交叉技术的延伸。当阴极吹扫气体未加湿时，吹扫气体流速依赖性在甲醇交叉电流中出现并且建议该流速依赖性将水通量驱动到细胞上。在限制流动时，条件允许跨膜水扩散系数的测定。这提供了从简单而接近普遍使用的电化学方法中导出这一重要的水运输参数的可能性。除此之外，我们的实验表明，使用零流动吹扫的甲醇渗透电流测量可提供快速可靠的结果。

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《Electrochemical Society》|2006年||共7页
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Mark C. Lefebvre; David L. Olmeijer;
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中图分类电化学、电解、磁化学;
关键词
Electrochemical methanol crossover measurement; Water effective diffusion coefficient; Direct methanol fuel cell;

机译：电化学甲醇交叉测量;水有效扩散系数;直接甲醇燃料电池;

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1. Modelling and Controlling of ion transport rate efficiency in Proton exchange membrane (PEMFC), alkaline (AFC), direct methanol (DMFC), phosphoric acid (PAFC), direct forming acid(DFAFC) and direct carbon (DCFC) fuel cells [J] . Fatemeh Mollaamin, Thu Thi Pham, Dung My Thi Dang Biointerface Research in Applied Chemistry . 2019,第4期

机译：质子交换膜（PEMFC），碱（AFC），直接甲醇（DMFC），磷酸（PAFC），直接形成酸（DFAFC）和直接碳（DCFC）燃料电池中离子运输速率效率的建模与控制
2. Proton exchange membranes for direct methanol fuel cells: Properties critical study concerning methanol crossover and proton conductivity [J] . Silva VS, Mendes A, Madeira LM, Journal of Membrane Science . 2006,第1a2期

机译：直接甲醇燃料电池的质子交换膜：关于甲醇穿越和质子传导性的关键性能研究
3. Transport of methanol and protons through partially sulfonated polymer blend membranes for direct methanol fuel cell [J] . Jung B, Kim B, Yang JM Journal of Membrane Science . 2004,第1a2期

机译：甲醇和质子通过部分磺化的聚合物共混膜的运输，直接用于甲醇燃料电池
4. THE EFFECT ON IN-CELL MEASUREMENTS FROM WATER AND METHANOL TRANSPORT IN DIRECT METHANOL PROTON EXCHANGE MEMBRANE FUEL CELLS [C] . Mark C. Lefebvre, David L. Olmeijer Electrochemical Society . 2006

机译：直接甲醇质子交换膜燃料电池中水和甲醇输送的细胞内测量的影响
5. Methanol permeation through proton exchange membranes of direct methanol fuel cells. [D] . Bello, Mukhtar. 2006

机译：甲醇透过直接甲醇燃料电池的质子交换膜渗透。
6. Composite Proton Exchange Membranes Based on Chitosan and Phosphotungstic Acid Immobilized One-Dimensional Attapulgite for Direct Methanol Fuel Cells [O] . Wen-Chin Tsen 2020

机译：基于壳聚糖的复合质子交换膜固定的一维甲弧菌直接甲醇燃料电池
7. Design and Optimization of a Hyper-Branched Polyimide Proton Exchange Membrane with Ultra-High Methanol-Permeation Resistivity for Direct Methanol Fuel Cells Applications [O] . Liying Ma, Guoxiao Xu, Shuai Li, 2018

机译：具有超高甲醇渗透电阻率的超高支化聚酰亚胺质子交换膜的设计与优化直接甲醇燃料电阻率
8. Polyphosphazene-Based Proton-Exchange Membranes for Direct Liquid Methanol Fuel Cells [R] . Pintauro, P. N. , Wycisk, R. , Yoo, H. , 2005

机译：基于聚磷腈的质子交换膜用于直接液体甲醇燃料电池

THE EFFECT ON IN-CELL MEASUREMENTS FROM WATER AND METHANOL TRANSPORT IN DIRECT METHANOL PROTON EXCHANGE MEMBRANE FUEL CELLS

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