## Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 2; Volume 8, Part 2American Society of Mechanical Engineers, 1989 - Arctic regions |

### From inside the book

Results 1-3 of 85

Page 311

COMPUTATION OF VORTEX INDUCED VIBRATION AND THE EFFECT OF

Skomedal A. S Veritas Research Hovik , Norway P. Teigen Stgatoil , Postuttak ...

COMPUTATION OF VORTEX INDUCED VIBRATION AND THE EFFECT OF

**CORRELATION**ON CIRCULAR CYLINDERS IN OSCILLATORY FLOW N. G.Skomedal A. S Veritas Research Hovik , Norway P. Teigen Stgatoil , Postuttak ...

Page 313

SECTIONAL VORTEX SHEDDING

way to represent the phase of vortex shedding needed for the estimation of vortex

shedding

SECTIONAL VORTEX SHEDDING

**CORRELATION**. It is difficult to find a directway to represent the phase of vortex shedding needed for the estimation of vortex

shedding

**correlation**. However , the vortex induced transverse force follows ...Page 315

The numerical simulation does not substantiate any claim of

between the different sections of the cylinder for the transverse force / vortex

shedding . Figure 6 shows the force displacement cross -

( t ) ...

The numerical simulation does not substantiate any claim of

**correlated**behaviourbetween the different sections of the cylinder for the transverse force / vortex

shedding . Figure 6 shows the force displacement cross -

**correlation**function Rio( t ) ...

### What people are saying - Write a review

We haven't found any reviews in the usual places.

### Contents

HYDRODYNAMIC FORCES | 1 |

WaveCurrent Force on Horizontal Cylinder | 7 |

DoubleFactor Method for the Linearization of Drag Force | 39 |

Copyright | |

45 other sections not shown

### Other editions - View all

### Common terms and phrases

added mass amplitude analysis applied approach approximately assumed body boundary calculated circular compared components computed considered correlation corresponding cylinder damping defined depends depth described determined direction distribution drag coefficient drift force effect elements Engineering equation estimate experimental experiments expressed extreme factor failure Figure flow fluid free surface frequency function given horizontal hydrodynamic important in-line included increase indicate integral length lift lift force linear load maximum mean measured Mechanics method mode motion nonlinear normal obtained Offshore oscillation parameters period pipeline potential predicted present pressure probability problem random range ratio reference relative reliability represented respectively response second order separation shear ship shown shows simulation solution structure surface Table term tests theory transverse uncertainty variables varying velocity vertical vortex wave force wave height