This research describes that we apply the Computational Fluid Dynamics package software to simulate the resistance of hull in calm water and regular wave. We choose the 1700 TEU container ship with arrow bow at model scale 1/50 to be our model of computation. The goal of this research is to evaluate resistance of hull in real sea operation. A finite volume method is adopted to discretize the computationa domain and calculate the Reynolds-Averaged Navier-Stokes equation with suitable turbulence model. Free surface is modeled by using Volume-of-Fluid approach . We use the trimmer mesh and prism layer mesh of unstructural computational grid and add the local refinements to get the more accurate results. The part of calculation in calm sea is divided into hull fixed and hull free, and these results of resistance are compared with results of model test. The error of fixed state is in 4% and the error of free state is in 3%. In the part of regular wave, we decide the time step with pure linear wave firstly, and generate suitable grid for simulating wave. Then we add the model to calculate resistance and motion at each frequency. These calculated results are verified with experimental data and the results of potential theory . The trends of mean added resistance coefficients were evaluated correctly . the motion responses were well consistent with experiments qualitatively. Finally,The results were applied to whole-year sea state statistics from the Taiwan Strait,and this way can predict the maximum expected value of added resistance in real sea operation conservatively.