Numerical Study to Understand the Conservation of Hydrogen Through a Dynamic Fuel Supply System in Proton Exchange Membrane Fuel Cells (PEMFCs)

Q4 Energy

Journal of Nuclear Energy Science and Power Generation Technology Pub Date : 2022-03-26 DOI:10.21926/jept.2203024

Jeggathishwaran Panisilvam, Peng Wang, H. An

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Abstract

Reducing and conserving fuel usage is pivotal for any engineering system for the development of a sustainable energy solution. Proton exchange membrane fuel cells (PEMFCs) are one of the promising renewable energy systems that consume hydrogen as their source of fuel to generate electricity. This paper investigate the necessity of the constant supply of fuel (hydrogen) in the PEMFC system to ensure stable operation. We propose that a dynamic supply of fuel could help achieve similar performance and reduce the amount of fuel used. The effect of the multiple dynamic fuel inlet rates (0.3 m/s, 0.2 m/s, and 0.1 m/s) was studied numerically using a validated CFD PEMFC model. A transient inlet condition was introduced to replicate the pulsating effect. It was observed that up to 66% of fuel could be conserved (compared to the constant fuel supply condition) while maintaining the stable performance of the PEMFC under conditions of a dynamic fuel profile. A drop of approximately 29% in PEMFC performance was observed under conditions of a low dynamic fuel profile. The results reveal that the concept of dynamic fuel supply can be exploited to sustain the performance of PEMFC and realize a threshold value of performance under conditions of reduced fuel input.

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质子交换膜燃料电池(pemfc)中动态燃料供应系统中氢守恒的数值研究

减少和节约燃料的使用对于开发可持续能源解决方案的任何工程系统都至关重要。质子交换膜燃料电池(pemfc)是一种很有前途的以氢为燃料发电的可再生能源系统。本文研究了PEMFC系统持续供给燃料(氢气)以保证稳定运行的必要性。我们建议，动态的燃料供应可以帮助实现类似的性能，并减少燃料的使用量。利用经过验证的CFD PEMFC模型，对多种动态燃油进口速度(0.3 m/s、0.2 m/s和0.1 m/s)的影响进行了数值研究。为了模拟脉动效应，引入了瞬态进口条件。结果表明，在动态燃料分布条件下，PEMFC在保持稳定性能的同时，可节省高达66%的燃料(与恒定燃料供应条件相比)。在低动态燃料分布条件下，PEMFC的性能下降了约29%。结果表明，动态燃料供应的概念可以用来维持PEMFC的性能，并在燃料输入减少的情况下实现性能的阈值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Nuclear Energy Science and Power Generation Technology Energy-Energy Engineering and Power Technology

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