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A complete design of ship propellers using the new computer system

Abstract

The computer system presented in this article is composed of several program blocks for the complete design of ship propellers. The design calculations are based on a combination of the modified lifting line theory and on the vortex lifting surface theory. The system enables solution of the following design problems:
- calculation of the scale effect on the ship wake velocity field, including the influence of the propeller and rudder on this field at the propeller location
- maximization of the propulsive efficiency
- optimization of the propeller blade geometry on the basis of the compromise between the cavitation and blade strength requirements
- optimization of the number of propeller blades and blade geometry on the basis of the acceptable level of induced pressure pulses and unsteady shaft bearing forces
- calculation of the blade spindle torque for the controllable pitch propellers.
The computer system is equipped with many numerical options for graphical visualization of the input data, including an easy possibility of their correction and control of the intermediate and final results of calculations.

Keywords:

ship propellers, design methods, computational fluid dynamics

Details

Issue
Vol. 16 No. 1(59) (2009)
Section
Latest Articles
Published
20-04-2009
DOI:
https://doi.org/10.2478/v10012-008-0007-7
Licencja:
Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Open Access License

This journal provides immediate open access to its content under the Creative Commons BY 4.0 license. Authors who publish with this journal retain all copyrights and agree to the terms of the CC BY 4.0 license.

 

Authors

  • Tadeusz Koronowicz

    Polish Academy of Sciences, Institute of Fluid-Flow Machinery
  • Zbigniew Krzemianowski

    Polish Academy of Sciences, Institute of Fluid-Flow Machinery
  • Teresa Tuszkowska

    Polish Academy of Sciences, Institute of Fluid-Flow Machinery
  • Jan A. Szantyr

    Gdańsk University of Technology, Department of Turbomachinery and Fluid Mechanics

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