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Numerical Prediction of Model Podded Propeller-Ice Interaction Loads

[+] Author Affiliations
Jungyong Wang, Neil Bose

Memorial University of Newfoundland, St. John’s, NL, Canada

Ayhan Akinturk

National Research Council of Canada, St. John’s, NL, Canada

Paper No. OMAE2006-92023, pp. 667-674; 8 pages
  • 25th International Conference on Offshore Mechanics and Arctic Engineering
  • Volume 2: Ocean Engineering and Polar and Arctic Sciences and Technology
  • Hamburg, Germany, June 4–9, 2006
  • Conference Sponsors: Ocean, Offshore, and Arctic Engineering Division
  • ISBN: 0-7918-4747-0 | eISBN: 0-7918-3777-7
  • Copyright © 2006 by National Research Council of Canada


As the interest in arctic shipping and arctic exploration of oil and gas is increasing in recent years, the number of ice class vessels is increasing rapidly. Also the choices for propulsion devices are getting wider and these include podded propulsion systems. This study is a framework for the numerical prediction of the ice interaction loads acting on a podded propeller blade. The results of this study will help us to understand the propeller-ice interaction problem more comprehensively. Several studies for propeller-ice interaction have been carried out in the past few decades. Propeller-ice interaction, however, is a complicated process with a high level of uncertainties due to ice properties, ship operating conditions, and environmental conditions. Full-scale measurements involve high costs. In order to overcome these difficulties, model tests were carried out with model ice in an ice tank. The model tests provide well-controlled ice properties and interaction conditions to reduce the uncertainties. The tests were carried out in the ice tank with scaled down model ice at the National Research Council of Canada’s Institute for Ocean Technology. The ice loads acting on the propeller blade were measured with a six-component force and moment load cell fitted to the shaft and one of the propeller blades. Based on the experimental results, a numerical prediction model was developed to estimate the ice loads on the propeller blade. The numerical prediction is composed of three parts: the hydrodynamic calculations including separable and inseparable hydrodynamic loads, and the ice milling loads calculation. The separable and inseparable hydrodynamic loads can be obtained from clear water and blocked flow respectively. The hydrodynamic calculations were done by a low order panel method. The subroutines for calculating the ice milling loads are implemented into the panel method. The numerical prediction model for ice milling loads is described and the results are compared with those of experiments.

Copyright © 2006 by National Research Council of Canada
Topics: Stress , Ice , Propellers



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