Viscous-Flow Calculations For KVLCC2 In Manoeuvring Motion In Deep And Shallow Water
Author Toxopeus, S.L., Simonsen, C.D., Guilmineau, E., Visonneau, M. and Stern, F.
Title Viscous-Flow Calculations For KVLCC2 In Manoeuvring Motion In Deep And Shallow Water
Conference/Journal NATO AVT-189 Specialists Meeting on "Assessment of Stability and Control Prediction Methods for NATO Air and Sea Vehicles", Portsdown-West, UK
Paper no. MP-AVT-189-10
Month October
Year 2011

Abstract
The objective of the NATO AVT-161 working group is to assess the capability of computational tools to aid in the design of air, land and sea vehicles. For sea vehicles, a study has been initiated to validate tools that can be used to simulate the manoeuvrability or seakeeping characteristics of ships. This paper is part of the work concentrating on manoeuvring in shallow water.
As benchmark case for the work, the KVLCC2 tanker from MOERI was selected. At INSEAN, captive PMM manoeuvring tests were conducted with a scale model of the vessel for various water depths. Several partners in the AVT group have conducted RANS calculations for a selected set of manoeuvring conditions and water depths for the bare hull. Each partner was asked to use their best practice and own tools to prepare the computations and run their flow codes. Specific instructions on the post-processing were given such that the results could be compared easily. The present paper discusses these results. Detailed descriptions of the approach, assumptions, and verification and validation studies are given. Comparisons are made between the computational results and with the experiments. Furthermore, flow features are discussed.


NATO Unclassified, releasable to Australia and Sweden. Paper available to eligible parties upon request through research@marin.nl.

 

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