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Keywords: deep waterClose
Proc. ASME. OMAE2021, Volume 4: Pipelines, Risers, and Subsea Systems, V004T04A024, June 21–30, 2021
Paper No: OMAE2021-62896
.... This paper aims to identify and quantify the key mechanisms that 3 drive the behaviour of pipe bends in a deep-water environment. Their behaviour has been studied at global and local scales. The 2 behaviour of bends seems not fully understood amongst academia and in the industry. This paper endeavours to 1...
Proc. ASME. OMAE2021, Volume 6: Ocean Engineering, V006T06A034, June 21–30, 2021
Paper No: OMAE2021-61098
... of the umbilical. In this study, launch and recovery of a deep-water work class ROV are experimentally investigated using a 1:10 scaled ROV model through a series of wave flume tests. Different regular and irregular waves are generated in the flume while the ROV model is hung over the flume in four different...
Proc. ASME. OMAE2020, Volume 2A: Structures, Safety, and Reliability, V02AT02A067, August 3–7, 2020
Paper No: OMAE2020-18532
...Abstract Abstract Deep-water natural gas hydrate has high environmental risk and high technical difficulty in drilling and production. In order to promote the development of gas hydrate, we develop the assessment methods and control technologies for the operation risk during hydrate drilling...
Proc. ASME. OMAE2019, Volume 5A: Pipelines, Risers, and Subsea Systems, V05AT04A038, June 9–14, 2019
Paper No: OMAE2019-95177
.... deep water gas field subsea wellhead hydrate inhibit injection rate remediation A STUDY OF HYDRATE INHIBITION FOR DEEPWATER GAS FIELD DEVELOPMENT Hualei Yi1 Yun Hao Xiaohong Zhou CNOOC Research Institute Co., Ltd. Beijng, China ABSTRACT For deepwater subsea tie-back gas field development...
Proc. ASME. OMAE2013, Volume 9: Odd M. Faltinsen Honoring Symposium on Marine Hydrodynamics, V009T12A003, June 9–14, 2013
Paper No: OMAE2013-10169
... wave loads valid for deep water (Faltinsen , Pinkster ). The modular type maneuvering model (MMG model) based on Söding’s  nonlinear slender-body theory is used for the maneuvering analysis. Forces and moments due to rudder, propeller, and viscous cross-flow are accounted for as presented...
Proc. ASME. OMAE2012, Volume 2: Structures, Safety and Reliability, 559-567, July 1–6, 2012
Paper No: OMAE2012-83862
... The oil and gas industry has moved towards the offshore deep water regions due to depletion of these resources in shallow and intermediate water depths. Conventional fixed jacket type platforms and bottom supported compliant platforms have been found to be inefficient and uneconomical...
Proc. ASME. OMAE2009, Volume 3: Pipeline and Riser Technology, 439-446, May 31–June 5, 2009
Paper No: OMAE2009-79519
... 22 02 2010 Developments of deep water oil reservoirs are presently being considered in the Gulf of Mexico (GoM). Pipe-in-Pipe (PIP) systems are widely used and planned as the tie-back flowline for high pressure and high temperature production (HPHT) due to their exceptional thermal...
K. Nishimoto, M. D. Ferreira, M. R. Martins, I. Q. Masseti, C. A. Martins, B. P. Jacob, A. Russo, J. R. Caldo, E. S. S. Silveira
Proc. ASME. OMAE2003, Volume 1: Offshore Technology; Ocean Space Utilization, 575-584, June 8–13, 2003
Paper No: OMAE2003-37381
... conditions. However, the dynamic behavior of oil floating exploitation units in actual ocean environmental condition, in waves, wind and current, is more complex and very difficult to simulate using full non-linear Navier Stokes equations. In addition, in the ultra-deep water, it is the primer importance...