In the present study, a numerical simulation program of multi-pass plate heat exchanger is developed and the pressure drop, velocity distribution and temperature of both water and supercritical carbon dioxide in a plate heat exchanger are calculated with different mass flow rate, inlet pressure, inlet velocity, inlet temperature, number of channels and different plates. As a result of simulation, the physical properties of carbon dioxide vary drastically at supercritical state in that the density and viscosity of the impact cannot be ignored. The flow distribution of water, however, did not change significantly with temperature. Besides, the heat transfer effect will be significantly improved by analysis results from some comparisons between U and Z-type, single and multi-pass during the designing process of plate heat exchanger.