Due to that fossil fuel combustion causes increasing atmospheric concentration of CO2 and induces manmade greenhouse effect, the decrease of anthropogenic CO2 emissions has gained worldwide attention. The CaO cyclic capture is one of the promising CO2 capture technologies which has the advantages of low sorbent purchase cost and high fresh sorbent capacity. However, CaO is also suffered from severe decay in sorbent capacity during cyclic adsorption. In this study, the modification on CaO as well as the adsorption-desorption-regeneration process to enhance the uptake capacity and reversibility were been researched. The CaO is modified by either metal addition or hydration process. The result showed that low-temperature steam and liquid water hydration process are promising to improve sorbent CO2 adsorption capacity, While, steam desorption at 850℃ could enhance the CO2 desorption rate, The reversibility test showed that after the deterioration of CaO sorbent, using the 300 C steam could reactivate the CaO and the CO2 adsorption capacity was the same as the fresh sorbent again. From SEM and BET results, the main reason for the decay of CaO adsorption capacity is due to pore volume of larger pore size (>100Å) was decreasing.