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Please use this identifier to cite or link to this item: http://eprint.iitd.ac.in/handle/2074/1026

Title: Dynamic behaviour of square and triangular offshore tension leg platforms under regular wave loads
Authors: Chandrasekaran, S
Jain, A K
Keywords: tension leg platform
horizontal degrees
vertical degrees
hydrodynamic drag force
yaw degrees
Issue Date: 2002
Citation: Ocean Engineering, 29(3), 279-313
Abstract: Among compliant platforms, the tension leg platform (TLP) is a hybrid structure. With respect to the horizontal degrees of freedom, it is compliant and behaves like to a floating structure, whereas with respect to the vertical degrees of freedom, it is stiff and resembles a fixed structure and is not allowed to float freely. The greatest potential for reducing costs of a TLP in the short term is to go through previously applied design approaches, to simplify the design and reduce the conservatism that so far has been incorporated in the TLP design to accommodate for the unproven nature of this type of platform. Dynamic analysis of a triangular model TLP to regular waves is presented, considering the coupling between surge, sway, heave, roll, pitch and yaw degrees of freedom. The analysis considers various nonlinearities produced due to change in the tether tension and nonlinear hydrodynamic drag force. The wave forces on the elements of the pontoon structure are calculated using Airy's wave theory and Morison's equation, ignoring the diffraction effects. The nonlinear equation of motion is solved in the time domain using Newmark's beta integration scheme. Numerical studies are conducted to compare the coupled response of a triangular TLP with that of a square TLP and the effects of different parameters that influence the response are then investigated.
URI: http://eprint.iitd.ac.in/dspace/handle/2074/1026
Appears in Collections:Civil Engineering

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