Shape optimization of symmetric cylinder shape on buoyancy using fourier series approximation

Hyeongkeun Kim; Dongmin Choi; Youngjin Kim; Seunghyun Baik; Hyungpil Moon

doi:10.1115/1.4001493

Shape optimization of symmetric cylinder shape on buoyancy using fourier series approximation

Hyeongkeun Kim
, Dongmin Choi
, Youngjin Kim
, Seunghyun Baik
, Hyungpil Moon

Department of Mechanical Engineering

Sungkyunkwan University

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

The hydrophobicity of water striders and fisher spiders shows the geometrical property of microsetae with elaborate nanogrooves. Studying such geometrical morphology naturally leads to the question: what is an optimal shape for buoyancy? In this paper, we present a methodology to find suboptimal shapes for star-shaped cross-sectional rods, which maximizes the buoyant force by modeling the cross-sectional shapes with Fourier series representation in the polar coordinate. We provide four suboptimal cross-sectional shapes and their experimental results. Our results support the importance of the geometrical shape for buoyant force and might be helpful in designing water repelling devices.

Original language	English
Pages (from-to)	512061-512068
Number of pages	8
Journal	Journal of Fluids Engineering, Transactions of the ASME
Volume	132
Issue number	5
DOIs	https://doi.org/10.1115/1.4001493
State	Published - May 2010

Keywords

Buoyant force
Contact angle
Fourier series
Hydrophobicity
Multiwalled carbon nanotubes
Shape optimization

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10.1115/1.4001493

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title = "Shape optimization of symmetric cylinder shape on buoyancy using fourier series approximation",

abstract = "The hydrophobicity of water striders and fisher spiders shows the geometrical property of microsetae with elaborate nanogrooves. Studying such geometrical morphology naturally leads to the question: what is an optimal shape for buoyancy? In this paper, we present a methodology to find suboptimal shapes for star-shaped cross-sectional rods, which maximizes the buoyant force by modeling the cross-sectional shapes with Fourier series representation in the polar coordinate. We provide four suboptimal cross-sectional shapes and their experimental results. Our results support the importance of the geometrical shape for buoyant force and might be helpful in designing water repelling devices.",

keywords = "Buoyant force, Contact angle, Fourier series, Hydrophobicity, Multiwalled carbon nanotubes, Shape optimization",

author = "Hyeongkeun Kim and Dongmin Choi and Youngjin Kim and Seunghyun Baik and Hyungpil Moon",

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AU - Kim, Hyeongkeun

AU - Choi, Dongmin

AU - Kim, Youngjin

AU - Baik, Seunghyun

AU - Moon, Hyungpil

PY - 2010/5

Y1 - 2010/5

N2 - The hydrophobicity of water striders and fisher spiders shows the geometrical property of microsetae with elaborate nanogrooves. Studying such geometrical morphology naturally leads to the question: what is an optimal shape for buoyancy? In this paper, we present a methodology to find suboptimal shapes for star-shaped cross-sectional rods, which maximizes the buoyant force by modeling the cross-sectional shapes with Fourier series representation in the polar coordinate. We provide four suboptimal cross-sectional shapes and their experimental results. Our results support the importance of the geometrical shape for buoyant force and might be helpful in designing water repelling devices.

AB - The hydrophobicity of water striders and fisher spiders shows the geometrical property of microsetae with elaborate nanogrooves. Studying such geometrical morphology naturally leads to the question: what is an optimal shape for buoyancy? In this paper, we present a methodology to find suboptimal shapes for star-shaped cross-sectional rods, which maximizes the buoyant force by modeling the cross-sectional shapes with Fourier series representation in the polar coordinate. We provide four suboptimal cross-sectional shapes and their experimental results. Our results support the importance of the geometrical shape for buoyant force and might be helpful in designing water repelling devices.

KW - Buoyant force

KW - Contact angle

KW - Fourier series

KW - Hydrophobicity

KW - Multiwalled carbon nanotubes

KW - Shape optimization

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JO - Journal of Fluids Engineering, Transactions of the ASME

JF - Journal of Fluids Engineering, Transactions of the ASME

IS - 5

ER -

Shape optimization of symmetric cylinder shape on buoyancy using fourier series approximation

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Keywords

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