Prediction of design loads for deep water subsea lifting operations based on non-stationary time response
Author:
Funder
Petrobras
Publisher
Elsevier BV
Subject
Mechanical Engineering,Mechanics of Materials,Ocean Engineering,General Materials Science
Reference51 articles.
1. Little Inc. Stress analysis of ship-suspended heavily loaded cables for deep underater emplacements;Arthur,1963
2. Snap loading of marine cable systems;Niedzwecki;Appl Ocean Res,1991
3. Development and validation of a lumped-mass dynamics model of a deep-sea ROV system;Driscoll;Appl Ocean Res,2000
4. Time-domain numerical simulation of ocean cable structures;Gobat;Ocean Eng,2006
5. Extreme mooring tensions due to snap loads on a floating offshore wind turbine system;Hsu;Mar Struct,2017
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