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PEMFC水淹的陽極氣體壓力降變化特征預(yù)警技術(shù)
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國(guó)家重點(diǎn)基礎(chǔ)研究發(fā)展計(jì)劃(973計(jì)劃)資助項(xiàng)目(2012CB215505)和國(guó)家高技術(shù)研究發(fā)展計(jì)劃(863計(jì)劃)資助項(xiàng)目(2012AA1106012,、2012AA053402)


Flooding Prediction Based on Characteristics of Hydrogen Pressure Drop in PEMFC
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    摘要:

    通過觀察陽極氣體壓力降對(duì)一個(gè)兩片的質(zhì)子交換膜燃料電池堆進(jìn)行水淹預(yù)警的研究發(fā)現(xiàn),,其在水淹過程中陽極氣體壓力降具有“兩級(jí)臺(tái)階”的變化特征,。結(jié)合流道內(nèi)水積聚過程的研究成果以及電壓的變化特點(diǎn),,可以將水淹過程分為良好期,、濕潤(rùn)期,、過渡期和水淹期4個(gè)階段,。對(duì)比實(shí)驗(yàn)表明電流和溫度對(duì)于兩級(jí)臺(tái)階的相對(duì)幅度影響不大,,氣體壓力和陽極過量系數(shù)對(duì)臺(tái)階相對(duì)幅度有較顯著的影響,。提高氣體壓力和增大陽極過量系數(shù)可以提高PEMFC抵抗水淹的能力,,但增大陽極過量系數(shù)則會(huì)造成氫氣浪費(fèi)。調(diào)整電池堆工作溫度是一種有效的水淹自愈手段,,通過調(diào)整溫度可以使PEMFC工作在“微濕未淹”的狀態(tài)下,。陽極脈沖排氣或增大陽極氣體過量系數(shù)則可作為PEMFC嚴(yán)重水淹時(shí)的輔助處理措施。

    Abstract:

    Flooding diagnosis is the key issue of PEM fuel cell. Flooding prediction through hydrogen pressure drop is investigated in this study on a two piece PEMFC stack. Pressure drop is a key parameter to diagnose water content of PEM fuel cell. The hydrogen pressure drop is more suitable for flooding prediction because it can reflect not only the content but also the water harm on PEM fuel cell. Furthermore, the ideal hydrogen pressure drop is calculated through the operation conditions. Flooding experiments are organized and a two level characteristic on hydrogen pressure drop is observed. At first, the actual hydrogen pressure drop keeps steady nearly the same as the ideal value, and the voltage is pretty high and constant. Next, the hydrogen pressure drop rises gradually because of the appearance of water droplets. Then, the hydrogen pressure drop performs the second steady level because the water droplets form a liquid film. Finally, the hydrogen pressure drop rises quickly and the voltage drops rapidly as the formation of slug flow. Combining with the visualization results of water droplet accumulation in channels and the tendency of hydrogen pressure drop and voltage, the flooding process can be divided into four continuous periods, which are proper period, humid period, transitional period and flooding period. The growth rate of the hydrogen pressure drop is defined and four groups of flooding experiments are completed, in which the effects of current, temperature, pressure and hydrogen stoichiometry can be discussed. Experiment results show that current and temperature influence little on the growth rate of two levels, while the effect of pressure and hydrogen stoichiometry is remarkable. Increasing the gas pressure can improve the ability for anti flooding in PEMFC, increasing the hydrogen stoichiometry will waste hydrogen as consideration. The hydrogen purge can take a part for a while in the flooding period to prevent the fuel cell from falling into total flooding, while it does not change the operation conditions which lead to flooding. The hydrogen pressure drop should be controlled before the transitional period. The moist section can be planned out in the first half of the humid period based on hydrogen pressure drop. In the moist section, PEM fuel cell is supposed to be far from the occurrence of flooding. Adjusting the fuel cell stack working temperature may be an effective method to realize the flooding prediction.

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宋滿存,裴普成,曾 夏,查鴻山. PEMFC水淹的陽極氣體壓力降變化特征預(yù)警技術(shù)[J].農(nóng)業(yè)機(jī)械學(xué)報(bào),2014,45(7):340-346. Song Mancun, Pei Pucheng, Zeng Xia, Zha Hongshan. Flooding Prediction Based on Characteristics of Hydrogen Pressure Drop in PEMFC[J]. Transactions of the Chinese Society for Agricultural Machinery,2014,45(7):340-346.

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  • 收稿日期:2013-10-16
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  • 在線發(fā)布日期: 2014-07-10
  • 出版日期: 2014-07-10
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