Investigation of Flow Distribution Around A Submarine
Year 2016,
Volume: 12 Issue: 2, 1 - 26, 14.11.2016
Abdi Kükner
,
Adem Duran
Tarkan Çınar
Abstract
In this paper the flow
field around a submarine has been investigated. Pressure distribution and its
impact on submarine hull form have been studied.
The accurate and efficient prediction of hydrodynamic pressure and forces on a
submarine has been achieved by investigating the flow related to the
interaction of the vertical flow shed from the sail and the cross-flow boundary
layer of the hull. Therefore this study aims to simulate the flow field of a
submarine by using finite volume method. Finite Volume Stress Analysis Method
and k-ω turbulence model have been used to simulate turbulent flow past the
submarine hull surface. A submarine hull
with overall length of 80 meters and diameter of 10 meters
was chosen. It has aft body length 11m and sail length 7m. The speed range of
the submarine is 0 to 30 knots with 5 knots increments. Calculated pressure
coefficients along the submarine hull are discussed to show the effect of the
sail lateral position and the stern appendages. It is also discussed a Reynolds
Averaged Navier-Stokes (RANS) code application in the design of an
"Advanced Sail" for a submarine.
References
- 1) “Submarine Hydrodynamics” by Martin Renilson, SpringerBriefs in Applied Sciences and Technology, New York Dordrecht London, 2015.
- 2) P.N.Joubert, “Some Aspects of Submarine Design Part 1. Hydrodynamics” by DSTO Platforms Sciences Laboratory, 506 Lorimer St, Fishermans Bend, Victoria 3207 Australia. 2004.
- 3) Gorski, J. J., Coleman, R. M., and Haussling, H. J., "Computation of Incompressible Flow Around the DARPA SUBOFF Bodies," David Taylor Research Center Report, DTRC - 90/016, 1990.
- 4) Menter, F. R., “Two-Equation Eddy-Viscosity Turbulence Models for Engineering Applications”, AIAA Journal, Vol. 32, No. 8, pp.1598-1605, August, 1994.
- 5) N. Vlahopoulos and C. G. Hart., “A Multidisciplinary Design Optimization Approach to Relating, Affordability and Performance in a Conceptual Submarine Design”, Journal of Ship Production and Design, Vol. 26, No. 4, November 2010, pp. 273–289.
- 6) Arentzen, E. S. and Mandel, P. E., “Naval Architectural Aspects of Submarine Design”,
- Trans. SNAME, pp. 622-692, 1960.
- 7) D. Ang, L. Chen and J. Tu., “Unsteady RANS Simulation of High Reynolds Number Trailing Edge Flow”, 15th Australasian Fluid Mechanics Conference, The University of Sydney, Sydney, Australia, 13-17 December 2004.
- 8) P. N. Joubert, “Some Aspects of Submarine Design Part 2. Shape of a Submarine 2026”, Defence Science and Technology Organisation DSTO-TR-1920, Australia, 2006,
- 9) Hervey, J. B., “Submarines”, Brassey’s, London, 1994
Year 2016,
Volume: 12 Issue: 2, 1 - 26, 14.11.2016
Abdi Kükner
,
Adem Duran
Tarkan Çınar
References
- 1) “Submarine Hydrodynamics” by Martin Renilson, SpringerBriefs in Applied Sciences and Technology, New York Dordrecht London, 2015.
- 2) P.N.Joubert, “Some Aspects of Submarine Design Part 1. Hydrodynamics” by DSTO Platforms Sciences Laboratory, 506 Lorimer St, Fishermans Bend, Victoria 3207 Australia. 2004.
- 3) Gorski, J. J., Coleman, R. M., and Haussling, H. J., "Computation of Incompressible Flow Around the DARPA SUBOFF Bodies," David Taylor Research Center Report, DTRC - 90/016, 1990.
- 4) Menter, F. R., “Two-Equation Eddy-Viscosity Turbulence Models for Engineering Applications”, AIAA Journal, Vol. 32, No. 8, pp.1598-1605, August, 1994.
- 5) N. Vlahopoulos and C. G. Hart., “A Multidisciplinary Design Optimization Approach to Relating, Affordability and Performance in a Conceptual Submarine Design”, Journal of Ship Production and Design, Vol. 26, No. 4, November 2010, pp. 273–289.
- 6) Arentzen, E. S. and Mandel, P. E., “Naval Architectural Aspects of Submarine Design”,
- Trans. SNAME, pp. 622-692, 1960.
- 7) D. Ang, L. Chen and J. Tu., “Unsteady RANS Simulation of High Reynolds Number Trailing Edge Flow”, 15th Australasian Fluid Mechanics Conference, The University of Sydney, Sydney, Australia, 13-17 December 2004.
- 8) P. N. Joubert, “Some Aspects of Submarine Design Part 2. Shape of a Submarine 2026”, Defence Science and Technology Organisation DSTO-TR-1920, Australia, 2006,
- 9) Hervey, J. B., “Submarines”, Brassey’s, London, 1994