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Volume 28 Issue 1
Jan.  2015
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Article Contents
Journal of Southwest Jiaotong University  > 2015  >  28(1): 44-50.
YOU Zhiyu, CHENG Weirong, PENG Yun, LI Qi. Temperature Control of High-Power Self-Humidifying PEMFC with Air Cooling[J]. Journal of Southwest Jiaotong University, 2015, 28(1): 44-50. doi: 10.3969/j.issn.0258-2724.2015.01.007
Citation: YOU Zhiyu, CHENG Weirong, PENG Yun, LI Qi. Temperature Control of High-Power Self-Humidifying PEMFC with Air Cooling[J]. Journal of Southwest Jiaotong University, 2015, 28(1): 44-50. doi: 10.3969/j.issn.0258-2724.2015.01.007
shu

Temperature Control of High-Power Self-Humidifying PEMFC with Air Cooling

doi: 10.3969/j.issn.0258-2724.2015.01.007
  • Received Date: 15 Jan 2014
  • Publish Date: 25 Feb 2015
    Abstract
  • To study the influence of temperature control on the stack output performance of high-power self-humidifying proton exchange membrane fuel cell (PEMFC) with air cooling, four control methods including fuzzy control, PID control, fuzzy-PID switching control, and adaptive fuzzy PID control are employed to test the stack. Results show that distinct differences exist in response performances of the stack among different control methods with load variations. More specifically, the fuzzy control has a greater influence on the output performance of the stack, resulting in obvious concentration polarization with heavy current output. In addition, when the load changes, problems of excessive overshoot in dynamic response and long regulation time exist in the fuzzy control, PID control, and fuzzy-PID switching control, while the adaptive fuzzyPID control has tiny overshoot and short regulation time. Compared with the PID temperature control, the adaptive fuzzy PID temperature control reduces the overshoot by at least 75%, and reduces the regulation time by at least 20%. By comprehensively evaluating the typical parameters such as regulation time, overshoot, control error, and the stack output performance, the adaptive fuzzyPID temperature control is favorable to improve the output performance of the high-power self-humidifying PEMFC with air cooling.

     

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