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High accuracy DNS and LES of high Reynolds number, supersonic base flows and passive control of the near wake

High accuracy DNS and LES of high Reynolds number, supersonic base flows and passive control of the near wake
High accuracy DNS and LES of high Reynolds number, supersonic base flows and passive control of the near wake
Supersonic axisymmetric base flows are prototypical for flows behind projectiles and missiles. For these flows, drag reduction can be achieved by means of passive control of the near wake. Thereby, large (turbulent) coherent structures play a dominant role. The objective of the present investigationis to elucidate if and how successful passive flow control techniques modify these structures. To this end, first Direct Numerical Simulations (DNS) for a Reynolds number of ReD = 100,000 and Mach number of Ma = 2.46 were performed using a high-order accurate and highly parallelized research code which was developed at the University of Arizona. Thereby, roughly 52 million grid points were employed. The DNS data serve to visualize typical structures of the unsteady flow field and to verify that the use of less computational costly RANS/LES methods is applicable for this flow. Two of these methods, the Flow Simulation Methodology (FSM) and Detached Eddy Simulations (DES), were then employed to investigate the supersonic base flow at ReD = 3.3 106 and Ma = 2.46 using between 460,000 and seven million grid points. For the DES, the commercial CFD-code Cobalt was employed. This unstructured grid solver allowed then to perform simulations with boat-tailing. The obtained mean flow data is compared to available experimental results
0769524966
1-9
IEEE Computer Society
von Terzi, D.A.
d9369e9f-b41d-403d-a898-84968542a33b
Sandberg, R.D.
41d03f60-5d12-4f2d-a40a-8ff89ef01cfa
Sivasubramanian, J.
987437d6-040a-4d22-af28-ae478cba76c7
Fasel, H.F.
45db4ae8-5501-4afd-9d6f-b35ac55e7629
von Terzi, D.A.
d9369e9f-b41d-403d-a898-84968542a33b
Sandberg, R.D.
41d03f60-5d12-4f2d-a40a-8ff89ef01cfa
Sivasubramanian, J.
987437d6-040a-4d22-af28-ae478cba76c7
Fasel, H.F.
45db4ae8-5501-4afd-9d6f-b35ac55e7629

von Terzi, D.A., Sandberg, R.D., Sivasubramanian, J. and Fasel, H.F. (2005) High accuracy DNS and LES of high Reynolds number, supersonic base flows and passive control of the near wake. In Proceedings of the Users Group Conference 2005. IEEE Computer Society. pp. 1-9 . (doi:10.1109/DOD_UGC.2005.32).

Record type: Conference or Workshop Item (Paper)

Abstract

Supersonic axisymmetric base flows are prototypical for flows behind projectiles and missiles. For these flows, drag reduction can be achieved by means of passive control of the near wake. Thereby, large (turbulent) coherent structures play a dominant role. The objective of the present investigationis to elucidate if and how successful passive flow control techniques modify these structures. To this end, first Direct Numerical Simulations (DNS) for a Reynolds number of ReD = 100,000 and Mach number of Ma = 2.46 were performed using a high-order accurate and highly parallelized research code which was developed at the University of Arizona. Thereby, roughly 52 million grid points were employed. The DNS data serve to visualize typical structures of the unsteady flow field and to verify that the use of less computational costly RANS/LES methods is applicable for this flow. Two of these methods, the Flow Simulation Methodology (FSM) and Detached Eddy Simulations (DES), were then employed to investigate the supersonic base flow at ReD = 3.3 106 and Ma = 2.46 using between 460,000 and seven million grid points. For the DES, the commercial CFD-code Cobalt was employed. This unstructured grid solver allowed then to perform simulations with boat-tailing. The obtained mean flow data is compared to available experimental results

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Published date: 2005
Venue - Dates: 2005 Users Group Conference, USA, 2005-06-27 - 2005-06-30
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Identifiers

Local EPrints ID: 71906
URI: http://eprints.soton.ac.uk/id/eprint/71906
DOI: doi:10.1109/DOD_UGC.2005.32
ISBN: 0769524966
PURE UUID: 934f2c11-0649-41bd-9823-f9c8f931239c
ORCID for R.D. Sandberg: ORCID iD orcid.org/0000-0001-5199-3944

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Date deposited: 12 Jan 2010
Last modified: 13 Mar 2024 20:50

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Contributors

Author: D.A. von Terzi
Author: R.D. Sandberg ORCID iD
Author: J. Sivasubramanian
Author: H.F. Fasel

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