## Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volumes 1-2American Society of Mechanical Engineers, 1990 - Arctic regions |

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Page 73

ABSTRAC METHOD FOR ANALYSIS

equation for calculating the inline

slender oylinder may be expressed as as Based on linear wave theory , The lift ...

ABSTRAC METHOD FOR ANALYSIS

**Forces**on Slender Members The Morisonequation for calculating the inline

**force**by both wave and current on unit length ofslender oylinder may be expressed as as Based on linear wave theory , The lift ...

Page 90

12 and 13 present the

measurements . ... drag coefficient , C = the added mass a coefficient , F = the

maximum value of the lift

wall .

12 and 13 present the

**force**- coefficient data obtained from the present pressuremeasurements . ... drag coefficient , C = the added mass a coefficient , F = the

maximum value of the lift

**force**YA away from the wall and F = that towards thewall .

Page 112

The

becomes smaller and smaller so that the accuracy of the solution can be

increased by using more and more dipoles . Typically , for a two pipe system 20

dipoles ...

The

**force**on each cylinder F = ( 1.69 , 0 ) PA · a of oo The strength the dipolesbecomes smaller and smaller so that the accuracy of the solution can be

increased by using more and more dipoles . Typically , for a two pipe system 20

dipoles ...

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### Contents

HYDRODYNAMIC FORCES | 47 |

The Force Coefficients on Inclined Cylinder in Random Wave and Current | 57 |

K S Varyani | 79 |

Copyright | |

45 other sections not shown

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### Common terms and phrases

acting added mass amplitude analysis angle applied array assumed body boundary calculated circular coefficient compared component considered constant corresponding crest cylinder damping defined dependent depth determined direction distribution domain drag drift dynamic effect element Engineering equation estimated experimental experiments expressed Figure flow fluid forward speed frequency function given heave horizontal hydrodynamic increase integral irregular length lift force linear load maximum mean measured method mooring motion nonlinear obtained Offshore oscillation parameters period phase pile plate potential predicted present pressure problem radiation range ratio reference regular waves relative respectively response riser ship shown shown in Figure simulation solution spectra spectrum structure surface surge Table theory velocity vertical vessel wave force wave height wind