Taiwan faces the big challenge on the energy problem recently, because traditional methods of electricity generation results in environmental pollution. In particular, nuclear power raises safety issues such as radiation and excess waste. Taiwan is surrounded by the ocean, and possesses abundant resources of ocean energy. Kuroshio is the best one to develop in Taiwan, but the lack of the offshore technology and the enormous cost are the difficulties to build up the technology. Therefore, developing the suitable tool to design and analyze is the important tactics. In this research, we choose the Floating Kuroshio Turbine (FKT) which was designed by Dr. Chiu as the original model. We let the FKT modeled in parametric way and simulated by the buoyancy program. In order to estimate the position and posture of FKT underneath the ocean, we need to simulate FKT under different kind of conditions and make sure the reliability in real working environment. Consider the total force balance and total torque balance of gravity force, buoyancy force, hydrodynamic force and towing force in the program. To build the chart of hydrodynamic, we use CFD software to solve the hydrodynamic performance of FKT under every pitch angels. Then, we use three parameters to analyze the performance and find out the best design of FKT to discuss the relation between parameters and performance. In the process of developing FKT, we can design the suitable model to fulfill all the demands.