Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 2, Parts 1-2American Society of Mechanical Engineers, 2000 - Arctic regions |
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Page 967
Table 3 Predeicted Melt Rates of Wellstream Pipe on Lake Ice , Pipe Covered By Snow Melt Rate Pipe on Surface of lo 38 ° C Pipe 60 ° CPipe No Melting Q012am / hr . Melt Rate Pipe Melted Into loe 0.024am / hr . - 183cm / m 0.3 m of pipe ...
Table 3 Predeicted Melt Rates of Wellstream Pipe on Lake Ice , Pipe Covered By Snow Melt Rate Pipe on Surface of lo 38 ° C Pipe 60 ° CPipe No Melting Q012am / hr . Melt Rate Pipe Melted Into loe 0.024am / hr . - 183cm / m 0.3 m of pipe ...
Page 998
... pipes . The different parts of the installation were analyzed in order to control the loads on the composite pipe . The main difference between a steel pipe and the composite is that strains on the composites must be limited to a lower ...
... pipes . The different parts of the installation were analyzed in order to control the loads on the composite pipe . The main difference between a steel pipe and the composite is that strains on the composites must be limited to a lower ...
Page 1123
... pipe will be located and a site survey performed . The defective pipe section will then be cut out and removed from the work site allowing the free ends of the pipe to be recovered to surface . Once the flanges have been welded to the ...
... pipe will be located and a site survey performed . The defective pipe section will then be cut out and removed from the work site allowing the free ends of the pipe to be recovered to surface . Once the flanges have been welded to the ...
Contents
OMAE2000OSU OFT3007 | 878 |
I | 879 |
OMAE2000OSU OFT4061 147 | 894 |
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alloys application ASME assessment axial bending buckling calculated coefficient composite Copyright corrosion crack growth CTOD cycles deformation depth displacement distribution DQEM drag coefficient drilling fluid Engineering equation failure fatigue crack Figure finite element fire flexible pipe flow flowline FM analysis fracture mechanics function grade gradient hammer peening increase initial inspection installation insulation interlayer layer length lift coefficient material maximum method mode operation parameters peening pipeline plastic plate predicted pressure probabilistic production propagation properties PWHT reduced velocity reliability resistance riser seabed shear shielding gas shown simulation SINTEF SN curves soil span specimens Statoil steel strain strength stress intensity factor stress range surface Table temperature tensile thermal thickness titanium tubular joints tundra turbidity current values vertical loop vessel weld metal weld toe yield strength yield stress Zeepipe