Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volumes 5-6; Volume 8, Parts 5-6American Society of Mechanical Engineers, 1989 - Arctic regions |
From inside the book
Results 1-3 of 63
Page 371
... Equation 27 . Energy dissipation at hinges A and C has the same form as Equation 28 except that now the yield condition at A is YC 10 for the base metal . mx * 1 + q or MA - Mb ( 1 + q ) Substituting Equation 42 in Equation 28 gives D1 ...
... Equation 27 . Energy dissipation at hinges A and C has the same form as Equation 28 except that now the yield condition at A is YC 10 for the base metal . mx * 1 + q or MA - Mb ( 1 + q ) Substituting Equation 42 in Equation 28 gives D1 ...
Page 200
... equation of the two fixed spheres : 22 2 2 x2 + y2 + z2 = r2 2 and ( x - x2 ) 2 + ( y - 702 ) 2 + ( 5-802 ) 2 = r2 ( 1 ) ( 2 ) Then the standard equation of the co - circular sphere beam is : 2 E [ r2 2 - p22 , +00 ) ( Range ) To ...
... equation of the two fixed spheres : 22 2 2 x2 + y2 + z2 = r2 2 and ( x - x2 ) 2 + ( y - 702 ) 2 + ( 5-802 ) 2 = r2 ( 1 ) ( 2 ) Then the standard equation of the co - circular sphere beam is : 2 E [ r2 2 - p22 , +00 ) ( Range ) To ...
Page 226
... equation ( 21 ) knowing that at xo we have u = 0 , v = 0 and Vu = 0 . Hence equation ( 21 ) becomes k = Vuu ( 22 ) We want to find the curvature magnitude at a point ( xo , yo , Zo ) on the surface in the direction a = ( a1 , a2 , a3 ) ...
... equation ( 21 ) knowing that at xo we have u = 0 , v = 0 and Vu = 0 . Hence equation ( 21 ) becomes k = Vuu ( 22 ) We want to find the curvature magnitude at a point ( xo , yo , Zo ) on the surface in the direction a = ( a1 , a2 , a3 ) ...
Contents
PIPELINE DESIGN AND OPERATIONS | 1 |
PIPELINE FORCES DYNAMICS AND STABILITY I | 95 |
9 | 123 |
Copyright | |
29 other sections not shown
Other editions - View all
Common terms and phrases
amplitude analysis applied Arctic Engineering axial base metal bending Buckle length buckling bundle calculated coefficient compressor Conference on Offshore corrosion crack curvature deformation developed diameter displacement ductile effect Eighth International Conference electrodes equation explosive welding failure flaw flow rate gas turbine geometry heat horizontal hydrodynamic hydrodynamic forces hydrogen inertial installation laboratory length lift force line pipe liquid load maximum measured Mechanics and Arctic meters method monitoring natural burial Offshore Mechanics Offshore Technology Conference operation parameters predicted present pressure problem procedure ratio reheated reliability repair resistance response rockdumps sand SAW metal scour depth seabed shown in Figure simulation Snøhvit soft zone soil Sørøya sour gas span Statoil steel stress structural submarine pipelines submerged arc welding Sumer surface Table Technology temperature tion tool trench velocity vertical vibration viscometer viscosity vortex vortex shedding wave