Small-and medium seawater intake facilities are being used currently. However, the design parameter of the double pipe type intake pipe is not standardized in Korea. In this study, we have examined the design parameter as the analysis for the flow phenomenon and intake discharge in the intake pipe using Computational Fluid Dynamics (CFD). From the results of the numerical simulation for the 5 m, 10 m and 20 m length of intake pipe, respectively, when the length of intake pipe is at least 10.0m, the velocity in the intake pipe is uniformly distributed. In order to secure stable flow in the intake pipe, the length of intake pipe is needed to be more than 10 m. From the results of the numerical simulation for the intake discharge per the perforated, velocity vector, streamline and standard devi-ation according the perforated ratio, the ratio must be established more than 353%. The advantage of the ratio come from the equal pressure distribution and stable flow. The results of numerical simulation were similar to the results of 359% ratio of the experimental modeling test.