Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 16, Parts 5-6American Society of Mechanical Engineers, 1997 - Arctic regions |
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Page 209
... hydrodynamic loads on the pipeline caused by waves and currents . In Russia , all calculations of pipeline stability on the seabed under hydrodynamic loads are performed in accordance with recommendations of SNIP 2.06.04-82 « Loads and ...
... hydrodynamic loads on the pipeline caused by waves and currents . In Russia , all calculations of pipeline stability on the seabed under hydrodynamic loads are performed in accordance with recommendations of SNIP 2.06.04-82 « Loads and ...
Page 139
HYDRODYNAMIC AND HYDROELASTIC ANALYSES OF VERY LARGE FLOATING STRUCTURES IN WAVES Kazuhiro Iijima Koichiro Yoshida Hideyuki Suzuki Dept. of Naval Architecture and Ocean Engineering University of Tokyo Tokyo , Japan SURGE FORCE ...
HYDRODYNAMIC AND HYDROELASTIC ANALYSES OF VERY LARGE FLOATING STRUCTURES IN WAVES Kazuhiro Iijima Koichiro Yoshida Hideyuki Suzuki Dept. of Naval Architecture and Ocean Engineering University of Tokyo Tokyo , Japan SURGE FORCE ...
Page 212
... Hydrodynamic Force After solving the boundary integral equations , the hydrodynamic forces can be determined from the potentials consequently . For the added mass coefficient Ark , we have , Ark T ρ = Re fin ' -u , p , ds ω and for the ...
... Hydrodynamic Force After solving the boundary integral equations , the hydrodynamic forces can be determined from the potentials consequently . For the added mass coefficient Ark , we have , Ark T ρ = Re fin ' -u , p , ds ω and for the ...
Contents
FREE SPANNING PIPELINEMULTISPAN PROJECTS | 11 |
Design Guideline for Free Spanning Pipelines | 28 |
RELIABILITY DESIGN SUPERB AND DNV96 PROJECTS | 45 |
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amplitude analysis ASME axial beam bending bending moment bottom boundary calculated characteristics coefficient collapse condition corrosion cross-flow defect deformation density Det Norske Veritas developed diameter displacement dynamic elastic electrodes Engineering equation evaluated experimental fatigue Figure floating airport flow rate fluid force free span function hoop stress horizontal hydrodynamic Hydroelastic impeller in-line VIV incident waves inspection instability region installation interaction Japan large floating structure length limit limit state design linepipe load effects maximum measured Mega-Float meter method mode mooring motion natural frequencies node numerical obtained Offshore parameters phase pipe predicted pressure distribution ratio reduced velocity reliability response safety class safety factors safety levels sand wave seabed simulation Statoil steel strain stress surface Table temperature thickness titanium trawl turbulence two-phase flow uncertainty velocity potential vertical vibration VLFS Vortex Induced Vibrations water depth wave height welding