Shape Optimization of Bow Bulbs with Minimum Wave-Making Resistance Based on Rankine Source Method

doi:10.1007/s12204-012-1239-3

Journal of shanghai Jiaotong University (Science) ›› 2012, Vol. 17 ›› Issue (1): 65-069.doi: 10.1007/s12204-012-1239-3

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Shape Optimization of Bow Bulbs with Minimum Wave-Making Resistance Based on Rankine Source Method

ZHANG Bao-ji (张宝吉)

(College of Ocean Environment and Engineering, Shanghai Maritime University, Shanghai 201306, China)
(College of Ocean Environment and Engineering, Shanghai Maritime University, Shanghai 201306, China)

Received:2011-06-20 Online:2012-02-29 Published:2012-03-21
Contact: ZHANG Bao-ji (张宝吉) E-mail:zbj1979@163.com

Abstract

Abstract: Abstract: The hull form optimization concerns one of the most important applications of wave-making resistance theories. In recent years, scholars can determine the hull form by using the optimization method based on the computational fluid dynamics (CFD) and other mathematical techniques. In this paper, the hull form optimization method based on the Rankine source method and nonlinear programming (NLP) is discussed; in the optimization process, a hull form modification function is introduced to represent an improved hull surface and to generate a new smooth hull surface by changing its frame lines and bow stem profiles under the prescribed design constraints. Numerical example is given for a practical container hull form. Finally, shape optimization of bow bulls is shown for non-protruding and protruding bow bulls. This study presents a simplified and practical design method to the select frame lines of bow bulls.

Key words: shape optimization| minimum wave-making resistance|Rankine source method| nonlinear programming (NLP)

摘要： Abstract: The hull form optimization concerns one of the most important applications of wave-making resistance theories. In recent years, scholars can determine the hull form by using the optimization method based on the computational fluid dynamics (CFD) and other mathematical techniques. In this paper, the hull form optimization method based on the Rankine source method and nonlinear programming (NLP) is discussed; in the optimization process, a hull form modification function is introduced to represent an improved hull surface and to generate a new smooth hull surface by changing its frame lines and bow stem profiles under the prescribed design constraints. Numerical example is given for a practical container hull form. Finally, shape optimization of bow bulls is shown for non-protruding and protruding bow bulls. This study presents a simplified and practical design method to the select frame lines of bow bulls.

关键词: shape optimization| minimum wave-making resistance|Rankine source method| nonlinear programming (NLP)

CLC Number:

U661.1

ZHANG Bao-ji (张宝吉). Shape Optimization of Bow Bulbs with Minimum Wave-Making Resistance Based on Rankine Source Method[J]. Journal of shanghai Jiaotong University (Science), 2012, 17(1): 65-069.

References

[1] Zhang Bao-ji. Research on optimization design of hull lines and minimum
resistance hull form [D]. Dalian: Department of Naval Architecture,
Dalian University of Technology, 2009 (in Chinese).

[2] Kara F, Tang C Q, Vassalos D. Time domain three-dimensional fully
nonlinear computations of steady body-wave interaction problem [J].
Ocean Engineering, 2007, 34(5-6): 776-789.

[3] Ma Kun, Ichiro T. A study of optimal hull from for minimum resistance
[J]. Journal of Hydrodynamics, 1997, 12(1): 113-122 (in
Chinese).

[4] Suzuki K, Ikehata M, Iiiguchi M. Fundamental studies on ship hull form
design by means of nonlinear programming (2nd report): Application
of low speed theory \& experimental verification [J]. Journal
of Society of Naval Architects of Japan, 1981, 155: 49-55 (in
Japanese).

[5] Hamasaki J, Himeno Y. Hull form optimization by nonlinear programming
(part 1): Improvement of prismatic curve for minimizing wave
resistance [J]. Journal of Society of Naval Architects of
Japan, 1995, 223: 29-34 (in Japanese).

[6] Suzuki K, Iokamori N. Studies on minimization of wave making resistance
based on Rankine source method [J]. Journal of Society of Naval
Architects of Japan, 1999, 185: 9-19 (in Japanese).

[7] Suzuki K, Kai H, Kashiwabara S. Studies on the optimization of stern hull
form based on a potential flow solver [J]. Journal of Marine
Science and Technology, 2005, 10(2): 61-69.

[8] Masuda S, Suzuki K. Experimental verification of optimized hull form
based on Rankine source method [J]. Journal of Society of
Naval Architects of Japan, 2001, 236: 27-32 (in Japanese).

[9] Zhang Bao-ji, Ma Kun. Optimization design of hull lines based on Rankine
source method [J]. Journal of Shanghai Jiaotong University,
2010, 44(10): 1414-1417 (in Chinese).

[10] Yoshida T, Suzuki K. Hydrodynamic shape optimization of bow bulbs based
on Rankine source method [J]. Journal of Society of Naval
Architects of Japan, 2001, 35: 39-47 (in Japanese).

Shape Optimization of Bow Bulbs with Minimum Wave-Making Resistance Based on Rankine Source Method

Shape Optimization of Bow Bulbs with Minimum Wave-Making Resistance Based on Rankine Source Method

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