Publisher: Trans Tech Publications
E-ISSN: 1662-7482|2014|711|535-541
ISSN: 1660-9336
Source: Applied Mechanics and Materials, Vol.2014, Iss.711, 2015-02, pp. : 535-541
Disclaimer: Any content in publications that violate the sovereignty, the constitution or regulations of the PRC is not accepted or approved by CNPIEC.
Abstract
This paper presents the finite element structural sensitivity analysis of a cable guyed monotower known as the Tarpon Monopod when subjected to extreme environments in Malaysian waters. A hydrodynamic loading and static platform response analysis is performed in SACS v5.3 to gauge the structural robustness in extreme Malaysian metocean conditions. A Stokes Fifth Order Wave Theory was employed to obtain wave kinematics and dynamics for load computation. The Tarpon Monopod design is reviewed generically. An actual platform located in 60m water depth within Malaysian waters is modelled for analysis. Four different guying cable scenarios are considered which are the fully guyed condition (three guy cables pinned), two guy cables condition (one wire loss), one guy cable condition (two wire loss) and free standing condition (total loss of guy wires) are presented. The environmental load sets are simulated at different headings using 45 degree steps. The results suggest that the structural caisson contributes little to the lateral stiffness of the platform. The Tarpon Monopod has little structural redundancy and its integrity is highly dependent on guy wire condition and environmental load headings.
Related content
Finite Element Analysis of Bolted Flanged Joints Subjected to External Loads
Applied Mechanics and Materials, Vol. 2015, Iss. 750, 2015-05 ,pp. :
Reliability Analysis of APN-A Offshore Jacket Using Monte Carlo Finite Element Method
Applied Mechanics and Materials, Vol. 2017, Iss. 862, 2017-03 ,pp. :