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The transport of La(Ⅲ)through a dispersion supported liquid membrane with polyvinylidene fluoride membrane as the liquid membrane support and dispersion solution including HCl solution as the stripping solution and 2-ethylhexyl phosphonie acid mono-2-ethylhexyl ester(PC-88A)in kerosene as the membrane solution,Was studied.As a result,the optimum transport conditions of La(Ⅲ)were obtained as that concentration of HCl solution Was 4.0 mol/L.concentration of PC-88A 0.16 mol/L,and volume ratio of membrane to stripping solution 30:30 in the dispersion phase,and pH value 4.0 in the feed phase.Ionic strength had no obvious effect on the transpon of La(Ⅲ).Under the optimum conditions.when initial concentration of La(Ⅲ)was 0.8x10-4 mol/L,the transport rate wag up to 96.3%during the trailsport time of 125 min.The kinetic equation was developed based on the law of mass diffusion and theory of interface chemistry.The diffusion coefficient of La(Ⅲ)in the membrane and the thickness of diflusion layer between feed and membrane phases were obtained as 3.20x10-1 m2/s and 3.22x10-5 m,respectively.The calculated results were in good agreement with experimental results.