Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 1; Volume 7, Part 1American Society of Mechanical Engineers, 1988 - Arctic regions |
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Page 476
... temperature field in the vessel wall . Chart 1 shows the average wall temperature in circuit direction at different points of time . The results are valid for a first approach to cal- culate the temperature field of the vessel wall ...
... temperature field in the vessel wall . Chart 1 shows the average wall temperature in circuit direction at different points of time . The results are valid for a first approach to cal- culate the temperature field of the vessel wall ...
Page 477
... Temperature Ti time Fig . 3 : Step graph used in this calculation lines of constant temperature + time for rupture at indicated temperature T ; Fig . 4 : Typical rupture time rupture stress dia- gram depending on the chosen vessel mate ...
... Temperature Ti time Fig . 3 : Step graph used in this calculation lines of constant temperature + time for rupture at indicated temperature T ; Fig . 4 : Typical rupture time rupture stress dia- gram depending on the chosen vessel mate ...
Page 478
... ( temperature of 1250 ° C ) to the outside wall surface via a radiation factor of a perfect black body . The wall elements are connected via the temperature dependent material conductivity and the wall to fluid connection via a constant ...
... ( temperature of 1250 ° C ) to the outside wall surface via a radiation factor of a perfect black body . The wall elements are connected via the temperature dependent material conductivity and the wall to fluid connection via a constant ...
Contents
FLOATING PRODUCTION SYSTEMS | 1 |
OFFSHORE MECHANICS | 23 |
Early Production Systems in the North | 31 |
Copyright | |
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analysis angle applied axial bending cable calculated characteristics coefficient components Conference connected considered construction cost curve damage depth determined diameter direction displacement distribution dynamic effect element energy Engineering equation equipment fatigue field Figure flexible flow forces frequency function geometry given important included increase installation International joint length limit linear load lower mass material matrix maximum mean measured Mechanics method mode mooring motion natural normal obtained Offshore operation parameters performance period pile pipe pipeline platform position presented pressure problem production range ratio response riser shear shown shows significant soil static stiffness strength stress structure surface Table Technology tension tower turbine vane vessel wave weight wire