Direct and Large-Eddy Simulation XI pp 579-585 | Cite as
Detached Eddy Simulations of the Flow Around the Japan Bulk Carrier (JBC)
Conference paper
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Abstract
The accurate prediction of the velocity field in the wake of a ship is a challenge of crucial importance since it affects the optimal design of the propeller rotating in a non-uniform velocity field. This non-uniformity causes temporal variations of the propeller thrust and torque and, consequently, possible vibrations and fatigue of the propulsive system.
Notes
Acknowledgements
This work was granted access to the HPC resources of CINES/IDRIS under the allocation A0022A00129 made by GENCI.
References
- 1.Deng, G.B., Visonneau, M.: Comparison of explicit algebraic stress models and second-order turbulence closures for steady flow around ships. In: 7th Symposium on Numerical Ship Hydrodynamics, pp. 4.4-1–4.4-15. Nantes, France (1999)Google Scholar
- 2.Guilmineau, E., Deng, G.B., Leroyer, A., Queutey, P., Visonneau, M., Wackers, J.: Assessment of hybrid RANS-LES formulations for flow simulation around the Ahmed body. Comput. Fluids (2017). https://doi.org/10.1016/j.compfluid.2017.01.005MathSciNetCrossRefGoogle Scholar
- 3.Hirata, J.: JBC test data in NMRI. In: Tokyo 2015 Workshop on CFD in Ship Hydrodynamics (2015)Google Scholar
- 4.Japan Bulk Carrier (JBC). http://www.t2015.nmri.go.jp/jbc.html
- 5.Kornev, N., Taranov, A., Shchukin, E., Kleinsorge, L.: Development of hybrid URANS-LES methods for flow simulation in the ship stern area. Ocean Eng. 38, 1831–1838 (2011)CrossRefGoogle Scholar
- 6.Nishikawa, N.: Application of fully resolved large eddy simulation to Japan bulk carrier with an energy saving device. In: Tokyo 2015 Workshop on CFD in Ship Hydrodynamics. Tokyo, Japan (2015)Google Scholar
- 7.Visonneau, M.: JBC local flow analysis. In: Tokyo 2015 Workshop on CFD in Ship Hydrodynamics (2015)Google Scholar
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