采用滑模控制的开阴极PEM燃料电池的热管理和空气管理

IF 2.7 4区工程技术 Q3 ELECTROCHEMISTRY

Journal of Electrochemical Energy Conversion and Storage Pub Date : 2023-07-27 DOI:10.1115/1.4063056

K. Ram, Shanal Kumar, Vincent Léchappé, A. Mohammadi, Maurizio Cirrincione

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引用次数: 0

摘要

本文提出了一个简化的开放式阴极质子交换膜燃料电池（PEMFC）非线性模型，并采用三种不同的策略对其进行控制。所提出的模型使用了四个状态变量。氧的质量流量、氢的流量、水和温度被认为是系统中的关键动力学。使用1.2kW PEMFC的实验数据来估计未知参数。简化模型与实验结果吻合较好。实施控制方案来控制PEMFC的堆叠温度。比例（P）和比例积分（PI）控制表现良好，但与滑模控制（SMC）方案相比响应较差。对不同控制方案的研究揭示了单独控制氧气过剩率或温度的危险。结果表明，当通过参考温度控制过量比时，实现了最佳控制。该研究还比较了不同控制器引起的风扇寄生损耗。总的来说，这些结果为设计用于开阴极PEMFC的鲁棒控制系统提供了很好的见解，以获得更快的响应和更大的耐用性。

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Thermal and Air Management of an Open Cathode PEM Fuel Cell using Sliding Mode Control

The paper presents a simplified nonlinear model for an open cathode proton exchange membrane fuel cell (PEMFC) and its control by using three different strategies. The model presented uses four state variables. The mass flow of oxygen, hydrogen flow, water and temperature were taken to be the critical dynamics in the system. The unknown parameters were estimated using the experimental data of a 1.2 kW PEMFC. The simplified model showed good agreement with experimental results. Control schemes were implemented to control the stack temperature of the PEMFC. The proportional (P) and proportional-integral (PI) Control performed well but had a poorer response compared to the sliding mode control (SMC) scheme. The study of the different control schemes reveals the dangers of singularly controlling either the oxygen excess ratio or the temperature. Results show the best control is achieved when the excess ratio is control through the reference temperature. The study also compares the parasitic losses from the fans caused by the different controllers. Overall the results provide a good insight into designing a robust control system for an open cathode PEMFC for faster response and greater durability.

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来源期刊

Journal of Electrochemical Energy Conversion and Storage Engineering-Mechanics of Materials

CiteScore

4.90

自引率

4.00%

发文量

期刊介绍： The Journal of Electrochemical Energy Conversion and Storage focuses on processes, components, devices and systems that store and convert electrical and chemical energy. This journal publishes peer-reviewed archival scholarly articles, research papers, technical briefs, review articles, perspective articles, and special volumes. Specific areas of interest include electrochemical engineering, electrocatalysis, novel materials, analysis and design of components, devices, and systems, balance of plant, novel numerical and analytical simulations, advanced materials characterization, innovative material synthesis and manufacturing methods, thermal management, reliability, durability, and damage tolerance.