The Phase Change Material(PCM) will produce or release massive heat energy when processes phase change which is called latent heat. PCM can use the nature to reduced temperature oscillation amplitude or even achieve constant temperature. Therefore, phase change material is used widely in the building. The application of phase change material in building is popular in the Western country than the Eastern country. Because of the Western country’s temperature during the night time in autumn and winter is so cold, the power consumption of heating is very height. Thus, they use the phase change material for the purpose of raising temperature at night. The phase change material will absorb massive quantity of heats by latent heat in daytime and release massive quantity of heat at night, which achieves the effect of heating air. But Taiwan is in the subtropics climatic region, the major problem is overheated in summer, that causes the massive power consumption of air condition. Therefore, the purpose of using phase change material in buildings is opposite to the Western country. The main discussion for this paper is the energy-saving effect of phase change materials applied to buildings in Taiwan’s climate. Using commercial finite element software ANSYS simulate the model which have the proper boundary condition. Firstly, the operation of phase change material in the ventilation unit is discussed. There are two types of unit, single and multiple phase change materials. Then, the ventilation unit is combined with the building model to become the controlled phase change material ventilation system. For various ventilation modes, the usage rate of phase change materials and building power consumption in each mode were discussed. After establishing the system, the selection of temperature ranges of the phase change material in different climates and the relationship between the amount of phase change material and size of service space is studied. Finally, this paper discussed the influence of phase change material plates’ arrangement on the building power consumption. Because windows affect the power consumption of the room, the simulation of glass windows also considered. After that, this paper researches whether the controlled phase change material ventilation system used in this study can also achieve its energy-saving effect under the temperate climate in winter.