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Experimental investigation on bubbling behavior in anode channel of passive DMFC

ZOU Xiaoyan,YAO Kejian   

  1. State Key Laboratory Breeding Base of Green Chemistry-Synthesis Technology,School of Chemical Engineering and Materials Science,Zhejiang University of Technology,Hangzhou 310032,Zhejiang,China
  • Online:2011-07-05 Published:2011-07-05

被动式DMFC阳极通道气泡行为的实验研究

邹晓燕,姚克俭   

  1. 绿色化学合成技术国家重点实验室培育基地,浙江工业大学化学工程与材料学院,浙江 杭州310032

Abstract:

The behavior of bubbling from anode diffusion layer into anode channel in passive DMFC was simplified as the formation and detachment of CO2 bubbles at orifices immersed in a stagnant liquidand was experimentally investigated by using a visual system. The effects of as fluxorifice submergencegas nozzle sizeliquid concentration were investigated. The results showed that in the process of bubble growththe contact angle decreased sharply at first and then increased rapidlythen was maintained at a constant value until detachment. With the increase of gas fluxbubble departure diameter changed little and the detaching time tended to be constant after the first rapid decline. Bubble departure diameter decreased and bubble frequency increased with the increase of submergenceand there was a fall in detaching time at first and then became constant in the process. The impact of gas flux on detaching time was weakened with the increase of submergence. As aperture increasedbubble departure diameter increasedresulting in decreasing bubble frequencyand bubble detachment time decreased. When the concentration of methanol was increasedthe bubbles produced became smaller and the fluctuation of bubble size became significantand bubble frequency grew faster. In additiondetaching time decreased first and then became constant especially at a low concentration.

摘要:

将被动式DMFC阳极通道内气泡形成过程简化为CO2气体注入充满静态甲醇溶液中形成气泡的过程。利用可视化实验研究了气体垂直注入静态甲醇溶液中形成气泡以及气泡脱离的过程,考察了气体流量、液层高度、孔径大小、甲醇浓度对气泡形成及长大脱离过程的影响。结果表明:在气泡的生长过程中,接触角先是快速下降后又迅速上升,然后趋于稳定值直到脱离。随着气体流量的增加,脱离时气泡的直径变化甚微,脱离时间先下降较快后趋于稳定。随着液层高度的增加,气泡的脱离直径变小,产生的频率加快,脱离时间先是减小后趋于稳定;气体流量在此条件下对脱离时间的影响减弱。随着孔径的增加,气泡的脱离直径增加,产生气泡的频率减慢,气泡的脱离时间减小。随着甲醇浓度的增加,气泡的脱离直径变小且波动明显,气泡产生的频率变快,脱离时间先是减小后趋于稳定,对低浓度的溶液影响较为明显。

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