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Dynamic heat transfer model analysis of the power generation characteristics for a proton exchange membrane fuel cell stack

机译：质子交换膜燃料电池堆发电特性的动态传热模型分析

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Proton exchange membrane (PEM) fuel cells principally output voltage and heat. A PEM fuel cell stack is comprised of several unit cells packaged in a shell. At the cell level, heat transfer takes place across hydrogen, oxygen, electrode, electrolyte and bi-polar plate layers. Temperature distribution varies across the cell's cross section layers and also varies along the entire stack. It is crucial to know the stack temperature distribution, since it affects the performance of the PEM stack. The contribution of this paper is to develop a dynamic heat transfer model of a PEM fuel cell, suitable for integration with combined heat and power (CHP) system models, and that calculates the stack temperature distribution across the stack and analyze its effect on the power generating characteristics of a PEM fuel cell.

机译：质子交换膜（PEM）燃料电池主要输出电压和热量。 PEM燃料电池堆由封装在外壳中的几个单元电池组成。在电池级，传热发生在氢，氧，电极，电解质和双极板层之间。温度分布在整个电池的横截面层中都不同，并且在整个电池组中也都不同。了解堆栈温度分布至关重要，因为它会影响PEM堆栈的性能。本文的作用是开发一种适用于与热电联产（CHP）系统模型集成的PEM燃料电池动态传热模型，该模型可以计算出整个电池堆的温度分布并分析其对功率的影响PEM燃料电池的发电特性。

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《》|2003年|p.252-258|共7页
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Srinivasan; P.; Sneckenberger; J.E.; Feliachi; A.;
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中图分类无线电电子学、电信技术;
关键词
proton exchange membrane fuel cells; heat transfer; hydrogen; oxygen; electrochemical electrodes; electrolytes; temperature distribution; cogeneration; distributed power generation; dynamic heat transfer model analysis; power generation characteristi;

机译：质子交换膜燃料电池传播热量;氢;氧;电化学电极电解质温度分布热电联产分布式发电;动态传热模型分析;发电特性;

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1. Experimental and modeling study on dynamic characteristics of a 65 kW dual-stack proton exchange membrane fuel cell system during start-up operation [J] . Wu Di, Li Kai, Gao Yan, Journal of power sources . 2021,第Jana1期

机译：65 kW双堆质子交换膜燃料电池系统动态特性的实验和建模研究启动操作
2. Numerical analysis of static and dynamic heat transfer behaviors inside proton exchange membrane fuel cell [J] . Wang Qianqian, Tang Fumin, Li Bing, Journal of power sources . 2021,第Mara15期

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3. Thermodynamic modeling and exergy analysis of proton exchange membrane fuel cell power system [J] . Liu Guokun, Qin Yanzhou, Yin Yifan, International journal of hydrogen energy . 2020,第54期

机译：质子交换膜燃料电池电力系统的热力学建模与探测分析
4. Dynamic heat transfer model analysis of the power generation characteristics for a proton exchange membrane fuel cell stack [C] . Padmanabhan Srinivasan, John Ed Sneckenberger, Ali Feliachi Southeastern Symposium on System Theory . 2003

机译：质子交换膜燃料电池堆发电特性动态传热模型分析
5. Determining the quality and quantity of heat produced by proton exchange membrane fuel cells with application to air-cooled stacks for combined heat and power. [D] . Schmeister, Thomas. 2010

机译：确定质子交换膜燃料电池产生的热量的质量和数量，并将其应用于风冷电池组以结合热量和功率。
6. In-Situ Measurement of High-Temperature Proton Exchange Membrane Fuel Cell Stack Using Flexible Five-in-One Micro-Sensor [O] . Chi-Yuan Lee, Fang-Bor Weng, Yzu-Wei Kuo, 2016

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7. Cooling strategy for effective automotive power trains: 3D thermal modeling and multi-faceted approach for integrating thermoelectric modules into proton exchange membrane fuel cell stack [O] . Abdel Raouf Mayyas, Dilip Ramani, Arunachala M. Kannan, 2014

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Dynamic heat transfer model analysis of the power generation characteristics for a proton exchange membrane fuel cell stack

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