Abstract
The typical maneuvering of a ship can reflect its maneuvering characteristics, which are closely related to the safety and economy of its navigation. The accurate prediction of a ship’s maneuvering characteristics is essential for its preliminary design. This paper adopts the overset grid method to deal with multibody motion and the body-force method to describe the thrust distribution of the propeller at the model scale, as well as to obtain the changes in the hydrodynamic load and the characteristic parameters in a computational fluid dynamics (CFD) maneuver simulation. Then, the paper compares the results with those of a self-propulsion experiment conducted at the China Ship Scientific Research Center. The numerical results show that the maneuverability characteristics obtained from the CFD simulation are in satisfactory agreement with the experimental values, which demonstrates the applicability and reliability of the combination of the overset grid with the body-force method in the numerical prediction of the typical maneuvering of a ship. This provides an effective pre-evaluation method for the prediction of a ship’s maneuvering through self-propulsion.
Highlights
Ship maneuvering is one of the essential tasks performed in ship navigation, and it can reflect a ship’s maneuverability and course-keeping ability, which is closely related to navigation safety
A systematic simulation of the and typical maneuvering trajectories and hydrodynamic loads were analyzed in a Reynolds-averaged Navier–Stokes considering the boat–paddle–rudder interactions was carried propeller out
The (RANS) simulation with the assumption of two-body flow and a body-force to hyper method used to deal with the relative multibody motion, parameters and the variati reducewas the computational time
Summary
Ship maneuvering is one of the essential tasks performed in ship navigation, and it can reflect a ship’s maneuverability and course-keeping ability, which is closely related to navigation safety. In the design stage of a ship, the maneuvering performance is mainly evaluated with typical ship maneuvering tests. The forecasting methods include semitheoretical and semiempirical estimation methods, numerical methods based on mathematical models, and free-sailing self-propulsion model tests. The semiempirical and semitheoretical methods rely too much on existing ship maneuverability test data and experts’. Experience, and the scope of application and forecasting accuracy are greatly restricted
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