## Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volumes 1-2American Society of Mechanical Engineers, 1991 - Arctic regions |

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Page 19

A higher order element discretisation of a novel integral equation is

A higher order element discretisation of a novel integral equation is

**described**. It is shown that this is capable of providing highly accurate first order results based on a relatively small number of elements .Page 19

A higher order element discretisation of a novel integral equation is

A higher order element discretisation of a novel integral equation is

**described**. It is shown that this is capable of providing highly accurate first order results based on a relatively small number of elements .Page 33

Cf = Co sin essin 0s + Cul 12 / Kc ) cos Ꮎ , ( 21 ) where 0 = 271 / T . For the sinusoidally oscillating flow

Cf = Co sin essin 0s + Cul 12 / Kc ) cos Ꮎ , ( 21 ) where 0 = 271 / T . For the sinusoidally oscillating flow

**described**by eqn . ( 6 ) , eqn . ( 21 ) is multiplied by sine and integrated to give 100 -216 F sine do 2 Um T CMF = ad ( 22 ) ...### What people are saying - Write a review

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### Contents

CONTENTS | 131 |

High Frequency Hydrodynamic Damping of a TLP | 147 |

A Comparison of Results | 153 |

Copyright | |

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### Common terms and phrases

acceleration added amplitude analysis angle applied approach approximately assumed body boundary cable calculated coefficients compared components computed considered constant coordinate corresponding cylinder damping depth determined developed diffraction direction displacement distribution domain drag drift dynamic effect element Engineering equation estimated experimental experiments expressed field Figure floating flow fluid force free surface frequency function given height hydrodynamic included increase integral length lift force linear load mass maximum mean measured Mechanics method mode mooring motion natural nonlinear obtained Offshore operation oscillation period phase pile platform position potential predicted present pressure problem production range ratio relative represents respectively response second-order separation ship shown shows simulation solution stiffness structure surface surge Table Technology tension tests theory values velocity vertical vessel wave