In responds to the growing needs of energy and the drive to develop renewable power nowadays, we are dedicating to develop the Floating Kuroshio Turbine (FKT), which is a device used to extract energy from Kuroshio Current. In order to apply this technique to practical application, how to anchor the floating marine current turbine and run steadily under the deep water seabed, and how to efficiently control its position for maintenance and risk avoidance are going to be the biggest challenges. The system appearance is similar to a regular underwater vehicle which composed of a Foil Float that has ballasting water control, Vertical Supports, Cross Beams, Nacelles that each has a direct-drive permanent magnet generator inside, and Rotor Blades. In the present study, we take a turbine set composed of counter rotating twin rotors that has rated power output of 20kW as an example to discuss. The ocean current speed is between 0.25m/s and 2.0m/s. We mainly discuss the corresponding lift and drag when the floating marine current turbine encounter different current speed and blades rpm; plus, collocating with mooring cable program to simulate the underwater position of the turbine. The CFD software, ANSYS-FLUENT, is adopted to deal with the hydrodynamic calculation of the turbine.