Sharp Profile for Icebreaking Propellers to Improve Their Ice and Hydrodynamic Characteristics

Stern-first operation under severe ice conditions (ridges) is one of the most effective modes to increase the operating efficiency of icebreakers and ice ships. However, when a ship overcomes the ridge astern, the propellers continuously interact with ice blocks, and ice moment affects the propeller...

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Bibliographic Details
Published in:Journal of Marine Science and Engineering
Main Authors: Alexander Vladislavovich Andryushin, Sergey Vladimirovich Ryabushkin, Alexander Yurievich Voronin, Egor Vladimirovich Shapkov
Format: Article in Journal/Newspaper
Language:English
Published: MDPI AG 2022
Subjects:
icebreaker propeller
sharp profile
strength of propellers
propeller/ice interaction
hydrodynamics
cavitation
Naval architecture. Shipbuilding. Marine engineering
VM1-989
Oceanography
GC1-1581
Icebreaker
Online Access:https://doi.org/10.3390/jmse10060742
https://doaj.org/article/e39795e37f2e458e9a97fbb1c0d8e3be
Description
Summary:Stern-first operation under severe ice conditions (ridges) is one of the most effective modes to increase the operating efficiency of icebreakers and ice ships. However, when a ship overcomes the ridge astern, the propellers continuously interact with ice blocks, and ice moment affects the propeller and the main engine. This leads to propeller speed drop and propeller thrust reduction. Propeller stop is also possible. This is the reason why the propeller ice moment needs to be decreased. Blade profiles with a sharp leading edge are used for this purpose because their thickness is significantly less than that of a traditional icebreaking profile. The application of sharp profiling makes it possible to significantly reduce the ice moment (ice loads) on the propeller, reduce the drop in its speed, and increase the hydrodynamic thrust. The main task when installing blades with sharp profiles is to ensure the strength of their leading edges exposed to ice pressure. In this article, the authors tackle upon some methods of assigning integral and local ice loads on propellers. Solutions for ensuring the local strength of the blade edges were developed and presented. The influence of sharp profiling on the hydrodynamic and cavitation characteristics of ice propellers was considered. The article presents examples of calculating the hydrodynamic propeller thrust and moment, as well as ice loads on a propeller with a sharp and traditional profile, when an ice ship moves through a ridged ice isthmus with its stern first.

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