Publication: Numerical analysis of fishtailing motion, buoy kissing and pullback force in a catenary anchor leg mooring (CALM) moored tanker system
Date
2023
Authors
Ju X.
Amaechi C.V.
Dong B.
Meng X.
Li J.
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier Ltd
Abstract
The catenary anchor leg mooring (CALM) sys tem is one of the most complex hydrodynamic systems in terms of hydrodynamic theory. This complexity comes from a large amount of interaction between the buoy, its mooring legs, hawsers, and the moored tanker. A dynamic simulation analysis of a CALM moored tanker system is carried out in this research. A double spring hydrodynamic response system model composed of �Anchoring-Buoy� and �Hawser-Tanker� established for the CALM system in the given environmental conditions with the method of time domain coupling simulation, correlation, and comprehensive analysis simulations of the fishtailing motion, buoy kissing, hawser capacity, and pullback force. A numerical analysis shows that without pullback force, fishtailing occurs often. A pullback force of 800 kN in line with the tanker's centerline effectively reduces the yaw motion and preserves a safe distance between the tanker and the buoy, so fishtailing occurs less often, and buoy kissing does not occur. Thus, the pullback force of 800 kN represents astern propulsion and a pullback tug, as it significantly improves the behavior of the moored tanker in relation to the buoy. Therefore, it is recommended that a tug is always present while a tanker is moored to the CALM system. � 2023
Description
Keywords
Catenary anchor leg mooring , Fishtailing , Floating buoy , Hydrodynamic , Mooring , Offshore floating structure , Tanker , Buoys , Mooring , Mooring cables , Numerical analysis , Offshore oil well production , Time domain analysis , Catenary anchor leg moorings , Fishtailing , Fishtailing motion , Floating buoy , Floating structures , Hawsers , Hydrodynamic systems , Mooring system , Offshore floating , Offshore floating structure , environmental conditions , floating structure , hydrodynamics , mooring system , numerical method , offshore structure , Hydrodynamics