Hwai-Luh Chang scite author profile

The uphill transport of vanadium(1V) through a countertransport supported liquid membrane containing di(2-ethylhexyl)phosphoric acid (DZEHPA) as a mobile carrier was examined as it relates to its transport mechanism. The experiments were carried out in a stirred permeation cell with well-defined hydrodynamics. A transport model was presented that takes into account all possible resistances. The degree of uphill transport was found to depend strongly upon the transport mechanism, especially as the concentration of vanadium(1V) in the strip phase was greater than that in the feed phase. In general, the degree of uphill transport remained comparatively larger when the role of membrane diffusion was more significant.

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ＴＢＰ，ＴＯＰＯ抽出剤によるＣｏ（ＩＩ）抽出における塩化物の塩析効果

Juang

Chang

1994

J. Chem. Eng. Japan

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Hwai-Luh Chang

Distribution Equilibrium of Citric Acid between Aqueous Solutions and Tri-n-octylamine-Impregnated Macroporous Resins

Column Sorption of Citric Acid from Aqueous Solutions Using Tri-n-octylamine-Impregnated Macroporous Resins

A Mechanistic Study of Uphill Transport of Metal Ions through Countertransport Supported Liquid Membranes

ＴＢＰ，ＴＯＰＯ抽出剤によるＣｏ（ＩＩ）抽出における塩化物の塩析効果

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