216203 固体高分子形燃料電池におけるガス拡散層の厚さと気孔率の影響調査(一般05 流体力学・流体工学3)
スポンサーリンク
概要
- 論文の詳細を見る
Only the water drop discharged on the channel surface has been observed at this laboratory. Therefore, it was difficult to observe the internal situation of the gas diffusion layer which diffuses reactive gas. It was found in the past research that generated water moved from a pore to a bigger pore in GDL their influence on. In this research, the porosity and thickness of GDL were varied in the in-situ experiments, and the discharge of water droplets and power generation performance were investigated. As a result, as the porosity varied in condensation conditions, because the stoma distribution inside GDL differed. The discharge behavior of water changed. Since water would be sucked up for the direction of a thick thing by the action of capillary-tube pressure if what has thin thickness is compared with a thick thing, it becomes difficult to produce flooding and the improvement in the engine performance was found.
- 一般社団法人日本機械学会の論文
- 2011-03-17
著者
関連論文
- 2116 パッシブ形PEFCモジュールの性能に関する研究(J17-2 燃料電池(2) 固体高分子形燃料電池,ジョイントセッション,21世紀地球環境革命の機械工学:人・マイクロナノ・エネルギー・環境)
- PEM燃料電池の実用化と性能向上に関する研究
- 固体高分子型燃料電池における気液二相流の研究(第一報)単セルモデル内の空気の流れの計測
- J0601-2-4 パッシブ形PEFCの空気極近傍の流れの可視化(燃料電池システムおよび熱・物質移動)
- DMFC流路内における気液二相流の可視化
- PEFC拡散層内の水滴挙動計測
- DMFC流路内における二相流の可視化
- 自動車用トルクコンバータの動向
- 半透膜によって区分された微小流路内反応性混相流のナノ場計測
- 5039 平面配置形燃料電池の電極付近の流動に関する実験的研究(J09-2 熱流体輸送および反応流の実験的及び数値的解析(2),J09 熱流体輸送および反応流の実験的及び数値的解析)