Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volumes 1-2American Society of Mechanical Engineers, 1991 - Arctic regions |
From inside the book
Results 1-3 of 84
Page 239
... pressure range , they are not exposed to pressure fluctuation beyond their rated capacity and not exposed to temperature and pressure shock . Instrument temperature variations could cause other errors . The sea water temperature at the ...
... pressure range , they are not exposed to pressure fluctuation beyond their rated capacity and not exposed to temperature and pressure shock . Instrument temperature variations could cause other errors . The sea water temperature at the ...
Page 240
... pressure data are converted to a hydrostatic water column by using the formula = H1 = ( Pt - Pb ) * C Hu the hydrostatic head in M water column above the pressure sensor , = Pt the ( total ) pressure ( bar ) measured by the sensor ...
... pressure data are converted to a hydrostatic water column by using the formula = H1 = ( Pt - Pb ) * C Hu the hydrostatic head in M water column above the pressure sensor , = Pt the ( total ) pressure ( bar ) measured by the sensor ...
Page 452
... Pressure Hull The pressure hull is 7.0 m in diameter and 20.0 m long . It contains the engine room , the crew accommodation and the control room ( Fig . 4 ) . the The pressure hull is a stiffened cylinder with unstiffened hemispherical ...
... Pressure Hull The pressure hull is 7.0 m in diameter and 20.0 m long . It contains the engine room , the crew accommodation and the control room ( Fig . 4 ) . the The pressure hull is a stiffened cylinder with unstiffened hemispherical ...
Contents
VORTEX SHEDDING AND VIBRATION | 187 |
OCEAN WAVES AND CURRENT | 209 |
COMPUTATIONAL METHODS | 247 |
Copyright | |
32 other sections not shown
Other editions - View all
Common terms and phrases
added mass amplitude analysis approximately average body boundary condition cable calculated circular cylinder components computed correlation density diffraction displacement distribution drag coefficient dynamic effects Ekofisk Engineering experimental field Figure finite element floating flow fluid free surface frequency domain function Green function horizontal hydrodynamic hydrodynamic forces incident wave integral equation irregular waves length lift force linear load low-frequency matrix maximum measured method mode mode shapes mooring motion natural frequency nonlinear obtained Ocean Offshore Structures OMAE open boundary oscillation parameters phase velocity platform predicted present pressure problem random waves ratio response Reynolds number riser Sarpkaya seabed second-order ship simulation small forward solitary wave solution spectral spectrum stiffness surge tank tanker tension tether theory transverse values vector velocity potential vertical vessel vibration vortex vortices water depth wave drift damping wave forces wave height wave profile