Frictional resistance is the component of a shipβs total resistance that arises from the shear stresses generated as the hull moves through water. It depends primarily on the wetted surface area, the speed of the vessel, and the viscosity of the water. Accurate estimation of this resistance is essential for predicting propulsion power and fuel consumption.
The International Towing Tank Conference (ITTCβ57) formulation provides a widely accepted empirical method to calculate the frictional resistance coefficient, C_f. The method relates C_f to the Reynolds number, Re, which captures the ratio of inertial to viscous forces in the flow.
Once C_f is known, the frictional resistance R_f can be obtained from the basic drag equation R_f = Β½ Ο VΒ² S C_f, where Ο is water density, V is ship speed (in mβ―sβ»ΒΉ), and S is the wetted surface area. This widget implements the ITTCβ57 method to give quick estimates for design and operational studies.
What is frictional resistance in maritime?
How does hull speed affect frictional resistance?
What is the ITTC-57 formulation used for in ship design?
How does wetted surface area impact frictional resistance?
Why is accurate estimation of frictional resistance important?
What factors does the ITTC-57 formulation consider?
Results are for informational purposes only and do not constitute professional advice.