Hydrodynamic damping and added mass of modern screw propellers

The operation of ships with "slow-steaming" poses new problems for the torsional vibration analysis of the drive train. It is well known that the propeller determines the essential part of the mass moment of inertia and the system damping. Both values are determined during the initial desi...

Full description

Bibliographic Details
Published in:Volume 7B: Ocean Engineering
Main Authors: Krüger, Stefan, Abels, Wilfried
Format: Conference Object
Language:English
Published: The American Society of Mechanical Engineers 2017
Subjects:
600: Technik
Grim
Arctic
Online Access:http://hdl.handle.net/11420/4802
Description
Summary:The operation of ships with "slow-steaming" poses new problems for the torsional vibration analysis of the drive train. It is well known that the propeller determines the essential part of the mass moment of inertia and the system damping. Both values are determined during the initial design phase by semiempirical methods with have originally been developed by Schwanecke and Grim between 1970 and 1980. Since then, propeller designs have changed significantly and it is unclear if modern propeller designs are still covered by these calculation methods. The paper suggests an extension of Grim's and Schwanecke's method for modern screw propellers in homogeneous and unsteady flow.

Similar Items