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Two-phase flow in anode flow field of a small direct methanol fuel cell in different gravities 被引量:1

Two-phase flow in anode flow field of a small direct methanol fuel cell in different gravities
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摘要 An in-situ visualization of two-phase flow inside anode flow bed of a small liquid fed direct methanol fuel cells in normal and reduced gravity has been conducted in a drop tower.The anode flow bed con-sists of 11 parallel straight channels.The length,width and depth of single channel,which had rec-tangular cross section,are 48.0,2.5 and 2.0mm,respectively.The rib width was 2.0mm.The experi-mental results indicated that when the fuel cell orientation is vertical,two-phase flow pattern in anode channels can evolve from bubbly flow in normal gravity into slug flow in microgravity.The size of bub-bles in the reduced gravity is also bigger.In microgravity,the bubbles rising speed in vertical channels is obviously slower than that in normal gravity.When the fuel cell orientation is horizontal,the slug flow in the reduced gravity has almost the same characteristic with that in normal gravity.It implies that the effect of gravity on two-phase flow is small and the bubbles removal is governed by viscous drag.When the gas slugs or gas columns occupy channels,the performance of liquid fed direct methanol fuel cells is failing rapidly.It infers that in long-term microgravity,flow bed and operating condition should be optimized to avoid concentration polarization of fuel cells. An in-situ visualization of two-phase flow inside anode flow bed of a small liquid fed direct methanol fuel cells in normal and reduced gravity has been conducted in a drop tower. The anode flow bed consists of 11 parallel straight channels. The length, width and depth of single channel, which had rectangular cross section, are 48.0, 2.5 and 2.0 mm, respectively. The rib width was 2.0 mm. The experimental results indicated that when the fuel cell orientation is vertical, two-phase flow pattern in anode channels can evolve from bubbly flow in normal gravity into slug flow in microgravity. The size of bubbles in the reduced gravity is also bigger. In microgravity, the bubbles rising speed in vertical channels is obviously slower than that in normal gravity. When the fuel cell orientation is horizontal, the slug flow in the reduced gravity has almost the same characteristic with that in normal gravity. It implies that the effect of gravity on two-phase flow is small and the bubbles removal is governed by viscous drag. When the gas slugs or gas columns occupy channels, the performance of liquid fed direct methanol fuel cells is failing rapidly. It infers that in long-term microgravity, flow bed and operating condition should be optimized to avoid concentration polarization of fuel cells.
出处 《Science China(Technological Sciences)》 SCIE EI CAS 2009年第6期1576-1582,共7页 中国科学(技术科学英文版)
基金 Supported by the National Natural Science Foundation of China(Grant No. 50406010) Excellent Talents Programme of Beijing Municipality(Grant No. 20081D0501500167)
关键词 direct METHANOL FUEL cells MICROGRAVITY TWO-PHASE flow visualization BUBBLE behavior direct methanol fuel cells microgravity two-phase flow visualization bubble behavior
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  • 1Guo H, Ma C F, Wang M H, et al. Heat and Mass Transfer and Two Phase Flow in Hydrogen Proton Exchange Membrane Fuel Cells and Direct Methanol Fuel Cells. In: Shah R K eds. Proceedings of First International Conference on Fuel Cell Science, Engineering and Technology. 2003. New York: ASME, 471-476.
  • 2赵建福.微重力条件下气/液两相流流型的研究进展[J].力学进展,1999,29(3):369-382. 被引量:32

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