Tropical cyclone (TC) activity in Northwest Pacific Ocean is analyzed in 3 models from phase 5 of the Coupled Model Intercomparison Project (CMIP5) CNRM-CM5, MIROC5 and GFDL-ESM2G and high-resolution atmospheric model(HiRAM) . We discuss the total number, lifetime, intensity, track variation of tropical cyclones under different climate scenarios in the Northwest Pacific Ocean. All of models show that there are several changes of large-scale environment occurred with global warming in the West North Pacific. (1) Sea surface temperatures increase. (2) sea surface temperature gradient of equatorial Pacific decrease (3)Walker circulation weakens. (4) West North Subtropical high extend westward. (5) monsoon through weakens. (6)Stability increase and (7) Specific humidity in low troposphere increase. Therefore , all of models show that the number of TC decrease. This reduction is associated with increment of stability and weakness of monsoon through. The increment of specific humidity in low troposphere cause the rainfall brought by TCs become stronger .And the track of TCs tend to westward instead of northward because of the westwardly extension of West North Subtropical high. Tropical cyclone strength , HiRAM, CNRM-CM5 and GFDL-ESM2G are simulate that potential intensity will increase in tropical Northwest Pacific under the global warming, so average maximum wind speed of TCs increase and the number or ratio of stronger TCs increase. But MIROC5 shows that average maximum wind speed decrease and reduce the number of stronger TCs because of the decrement of potential intensity.