Compressed air is usually produced by air compressor, cooled down with the pressure-stabilized storage barrels and primarily dehumidified via refrigeration dryer. And then a heatless or heat-driven dual-bed adsorption dryer futhermore reduces moisture to reach dew point temperature of -40℃ or -70 ℃. In order to develop a high-efficiency energy-saving adsorbent in adsorption dryer, this study was to investigate the adsorption and desorption behavior and regeneration energy consumption affected by adsorbents characteristic at high pressure status. The adsorbents of 4A, 13X, ZSM-5-260, Al2O3 and ZSM-5-38 were measured in the study to find the lowest energy consumption and optimal desorption method. The results could be applied to screen the optimum adsorbents for high-efficiency thermal-regeneration adsorption dryer in compressed air system. In this research, experement results show that the adsorbent of the lowest regeneration energy consumption under high pressure system is activated alumina.