In this study, return air effect of make-up air handling unit(MAU) in a factory building was investigated. The outdoor high-temperature and high-humidity air must be processed by the MAU to have a dry bulb temperature of 20°C and a relative humidity of 50% RH. Then, the process air is directly distribute the supply air to three process air handling units(AHU) for use. Because the required supply air volume of each process AHU has to be controlled at about 2000CMH, the total air supply volume is 6000CMH for three AHU. The MAU is not directly connected to the process AHU, the air outlet duct of MAU extends to the vicinity of the air inlet duct of the process AHU to provide air with temperature and humidity in order to meet the required conditions in the surrounding environment. The fan motor of AHU can be controlled by the process to inhale the required air volume according to the demand. The air supply from MAU is directly leaked to the air conditioning space, so that the temperature and humidity of the air conditioning space can be maintained at 24~27℃ 65% RH, which leads to unnecessary energy waste. Therefore, if the return air from air conditioning space is introduced to MAU, the demand for outside air can be reduced, thereby reducing the energy consumption of the MAU and achieving energy-saving effects. This study evaluates the return air volume ratio of the MAU, in terms of the ambient enthalpy variations in 2020, and discuss the energy consumption after adjusting the return air proportion according to the outdoor air enthalpy value. By the return air control, the annual energy consumption of the MAU can be reduced by 144,931 kW. The results show that the load of 150RT chiller can be reduced by 46,056 kWh / year and the energy consumption can be reduced by 6.7% in part load operation.