Abstract
The ratio between the number of functional groups grafted in micro and macropores for Purolite C 150 resin, a macroporous styrene‐divinylbenzene copolymer, with –SO3H functional groups, was evaluated using a kinetic procedure based on a bidisperse pore model. The proposed procedure requires potentiometric measurement at constant temperature in batch system of the fractional approach to equilibrium for H+/Na+ ion exchange process on the macroporous resin in concentrated external solution, 1.00 mol/L NaCl. The macropore integral interdiffusion coefficients were computed at each point on the fractional approach to equilibrium versus time curve, for different values of the β/α parameter of the model, which is three times the ratio of micropore and macropore uptake at equilibrium. Several discrimination criteria were used to select a reliable β/α value. The result for Purolite C 150 resin is β/α ≤ 0.03; the ratio between the sulfonic groups grafted onto micro and macropores is equal to or lower than 1/100.
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