Galtung, 1975 - Google Patents
Simulation study of barge motions during pipe laying in deep waterGaltung, 1975
- Document ID
- 14229183103668512523
- Author
- Galtung F
- Publication year
- Publication venue
- Norwegian Maritime Research
External Links
Snippet
The objective has been to determine the effect of the pipeline on barge motions during pipe laying in deep water, with emphasis on dynamic coupling effects through the pipe tensioner. The barge motions have been studied by simulating the pipe laying process on a digital …
- 238000004088 simulation 0 title abstract description 4
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Jiang et al. | Manoeuvring simulation of a tanker moored in a steady current including hydrodynamic memory effects and stability analysis | |
| Galtung | Simulation study of barge motions during pipe laying in deep water | |
| Huijsmans | Wave drift forces in current | |
| Vinje | Statistical distributions of hydrodynamic forces on objects in current and waves | |
| Olsen et al. | Slow and High Frequency Motions and Loads of Articulated Single Point Mooring Systems for Large Tankers | |
| Umeda et al. | Hydrodynamic forces acting on a longitudinally non-symmetric ship under manoeuvring at low speed | |
| Huse | Wave induced mean force on platforms in direction opposite to wave propagation | |
| Hogben | Automated recording and analysis of wave patterns behind towed models | |
| Berg et al. | Prediction of manoeuvring characteristics | |
| Qian | Study on the optimal coordination between ship and restricted waterway | |
| Gran et al. | Hull Responses to Hydrodynamic Forces on Bow Flare | |
| Varyani et al. | Manoeuvring Simulations of British Bombardier, Mariner and Frigate Forms | |
| Huse | Air Injection to Avoid Cavitation Erosion in Propeller Ducts | |
| Lambrakos et al. | Wake and shielding effects on hydrodynamic loading | |
| Lloyd | General Ship Dynamics Aspects of Different Vehicle Types | |
| Ogiwara | STUDIES ON THE APPLICATION OF WAVE PATTERN ANALYSIS TO THE TANK TESTS WITH SHIP MODELS | |
| Kudo et al. | Computation on a Two-Dimensional Supercavitating Hydrofoil Using the Linear Vortex Panel Method | |
| Fujisawa et al. | STUDY OF THE HYDRODYNAMIC FORCES AND THE WAVE EXISTING FORCES ON CONE TYPE STRUCTURES WITH A CONSTANT FORWARD SPEED IN WAVES | |
| Sorensen | SIMPLE CALCULATION OF WIND AND CURRENT | |
| Tzabiras et al. | On the numerical solution of the turbulent flow-field past double ship hulls at low and high Reynolds numbers | |
| Kawamura et al. | CFD simulation of the flow around planing craft and tandem hydrofoils | |
| Grace | Submarine Pipeline Design Against Wave Action | |
| Milch et al. | FUEL SAVING VESSELS--A CASE STUDY | |
| Olsen | PREDICTIONS OF MOTIONS, LOADS AND STRUCTURAL RESPONSES INDUCED BY WAVES | |
| Ghose | EXPERIMENTS WITH ROUGHENED'LUCY ASHTON'GEOSIMS |