## Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 13, Parts 1-2American Society of Mechanical Engineers, 1994 - Arctic regions |

### From inside the book

Results 1-3 of 86

Page 41

The

phase with the pressure term ( see the left sides of parts ( a ) & ( b ) of Figure 3 ) .

Generally , the amplitude of the

amplitude of ...

The

**surface**roughness is the portion of the free -**surface**elevation that is inphase with the pressure term ( see the left sides of parts ( a ) & ( b ) of Figure 3 ) .

Generally , the amplitude of the

**surface**roughness is much less than theamplitude of ...

Page 94

The normal v component Un should be equal to the normal velocity compo the

body motion due to the kinematic boundary condition on th

A1X , + ( 192 ) ( 196 ) Un = ucos X , + vsin X , = xin , U , = - usin X2 + vcos X3 The

...

The normal v component Un should be equal to the normal velocity compo the

body motion due to the kinematic boundary condition on th

**surface**. 2x = Xx +A1X , + ( 192 ) ( 196 ) Un = ucos X , + vsin X , = xin , U , = - usin X2 + vcos X3 The

...

Page 122

This point is called the decoupling point . F wo the increasing load . a , is the

centre of the yield

When the load increases further , the next

follow ...

This point is called the decoupling point . F wo the increasing load . a , is the

centre of the yield

**surface**1 . This mechanism is called kinematic hardening .When the load increases further , the next

**surface**is reached and this**surface**willfollow ...

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### Contents

OCEAN WAVES AND ENERGY | 1 |

Load Control Method and Its Realization on an OWC Wave Power Converter | 19 |

Nonlinearity in CrestTrough Statistics of Bretschneider Seas | 27 |

Copyright | |

25 other sections not shown

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### Common terms and phrases

amplitude analysis applied approach assessment assumed boundary calculated coefficient compared components considered correlation corresponding cost crack curve cylinder damping depth determined developed direction distribution drag dynamic effects energy Engineering equation estimated expressed extreme factor failure fatigue field Figure flow fluid frequency function given height hydrodynamic important increase initial inspection installation integration interaction joints length lift force limit linear load mass maximum mean measured Mechanics method modes mooring motion nonlinear normal obtained offshore operation oscillation parameters peak performed period phase platform potential predicted present pressure probability problem procedure random range ratio relative reliability represent respectively response risk safety shown shows significant simulation solution statistical stress structure surface Table variables velocity wave wind