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Q2) A falling film column, operating at 1.0 atm and 35C, is used to study the diffusion of a solute A through a stagnant layer

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Q2) A falling film column, operating at 1.0 atm and 35C, is used to study the diffusion of a solute "A" through a stagnant layer of "B" and then through non- diffusing liquid. The equilibrium data is given in table Q2: Table Q2: Equilibrium data - falling film column XA 0 0.05 0.082 0.133 0.165 0.223 0.26 0.293 0.315 0.338 0.35 0 0.0225 0.038 0.075 0.1 0.15 0.2 0.25 0.3 0.35 0.4 At a certain point in the column in which the gas bulk concentration (YAG=0.3) and the liquid bulk concentration (XAL= 0.1), the film mass transfer coefficients in the gas phase and liquid phase were estimated to be (ky = 0.0015 kgmol A/sec.m.mol fraction) and (kx = 0.0022 kgmol A/sec.m.mol fraction) respectively. Calculate the following: i. The interface concentrations xa and yai and the flux NA. ii- The overall mass transfer coefficients (K) and (Kx). iii- The percent resistance in the gas and liquid films of the total resistance. [30 Marks] [20 Marks] [10 Marks]

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