Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 4American Society of Mechanical Engineers, 2001 - Arctic regions |
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Page 142
... Flowline allowing the flowline to slide under gravity within the catenary . Then weld the end bulkhead directly in place . Cut the Carrier and Flowline as before . This time recovering the flowline so as to achieve the required In a PIP ...
... Flowline allowing the flowline to slide under gravity within the catenary . Then weld the end bulkhead directly in place . Cut the Carrier and Flowline as before . This time recovering the flowline so as to achieve the required In a PIP ...
Page 143
... flowline into the carrier increases proportionally to the length of flowline inserted . In order to determine a suitable coefficient of friction to use in the analysis , the force necessary to push the flowline into the carrier was ...
... flowline into the carrier increases proportionally to the length of flowline inserted . In order to determine a suitable coefficient of friction to use in the analysis , the force necessary to push the flowline into the carrier was ...
Page 144
... Flowline Carrier Flowline Maximum applied top kN 610.5 726 1335.2 -0.14 500 tension Axial force at KN -185.2 113 223 -387 0 catenary bottom 500 4000 1500 2000 2500 3000 Maximum Mises MPa 198.8 99 384 72.5 -500 ELEM ENT No. stress over ...
... Flowline Carrier Flowline Maximum applied top kN 610.5 726 1335.2 -0.14 500 tension Axial force at KN -185.2 113 223 -387 0 catenary bottom 500 4000 1500 2000 2500 3000 Maximum Mises MPa 198.8 99 384 72.5 -500 ELEM ENT No. stress over ...
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Common terms and phrases
accretion analysis annulus Arctic Engineering Arctic Ocean axial loading behavior bending stiffness Bohai buckle arrestor bundle cable calculated carrier pipe catenary coefficient collapse compressive Conference on Offshore configuration corrosion crack damping ratio deepwater defect deformation Det Norske Veritas developed diameter displacement dynamic elastic experimental failure pressures Figure finite element finite element analysis flexible pipe flowline fluid fracture freespans gauge grooves heat transfer heat transfer coefficient hummocks ice force ice load ice sheet increase installation insulation internal pressure layer length liner maximum Mechanics and Arctic method Offshore Mechanics operation parameters PETROBRAS phase pipeline pipeline system plastic predicted ratio reeling Rio de Janeiro riser system risk sagging sand scour sea ice seabed shear stress simulation soil specimens stamukhas steel strain strain gauges stress structure subsea surface temperature tension tests thermal thickness titanium values velocity water depth weld wrinkle