The effects of ultrafiltration on solute mass transfer in three membrane dialysis systems, say flat-plate module, tubular module and hollow fiber module, are investigated theoretically and experimentally. The mass-transfer efficiency can be enhanced by introducing the ultrafiltration operation into a dialysis system. This is due to the solute that can be transported by diffusion and convection simultaneously. The purposes of this study are firstly to derive the velocity profiles in membrane dialysis systems with ultrafiltration operation by using the stream function and perturbation method, and then to derive the solute concentration distribution in membrane dialysis systems with ultrafiltration operation, and finally to develop the theoretically two-dimensional mass transfer models of the three membrane dialysis systems. The solute concentration profile, average outlet concentration and enhancement of mass-transfer efficiency of the membrane dialysis system coupled with ultrafiltration operation are also discussed. The experiments in flat-plate module and hollow fiber module are performed to confirm the accuracy of the theoretical results.