The effect of the stern shape and propeller location on the propulsive efficiency of a blunt ship

G. Bilici, U. O. Ünal

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

Abstract

A reliable powering prediction is of critical importance at the design stage of a ship and the evaluation of the hull/propeller interaction constitutes a fundamental part of the propulsion performance estimation. Whilst the hull form and propeller geometry directly affect the interaction characteristics, the axial distance between propeller and hull is also a critical factor. This paper investigates the effect of different propeller positions and stern shapes on the self-propulsion characteristics of Kriso Very Large Crude Carrier 2 (KVLCC2) tanker. Hydrodynamic performance of the reference propeller (KP458) was first examined in open-water conditions for validation purposes. Two different longitudinal positions of the propeller were considered in the self-propulsion cases. Section shifting method was used to generate two variations of the original stern form. The approach adopted was simply based on deforming the shape of the associated cross-sectional area curve. Negligible changes in the displacement and wetted surface area were basically aimed for the hull form modifications.

Original languageEnglish
Title of host publicationMaritime Transportation and Harvesting of Sea Resources
EditorsC. Guedes Soares, Angelo P. Teixeira
PublisherCRC Press/Balkema
Pages347-354
Number of pages8
ISBN (Print)9780815379935, 9780815379935
Publication statusPublished - 2016
Event17th International Congress of the International Maritime Association of the Mediterranean, IMAM 2017 - Lisbon, Portugal
Duration: 9 Oct 201711 Oct 2017

Publication series

NameMaritime Transportation and Harvesting of Sea Resources
Volume1

Conference

Conference17th International Congress of the International Maritime Association of the Mediterranean, IMAM 2017
Country/TerritoryPortugal
CityLisbon
Period9/10/1711/10/17

Bibliographical note

Publisher Copyright:
© 2018 Taylor & Francis Group, London.

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