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An assessment of OpenFOAM solver on RANS simulations of round supersonic free jets

An assessment of OpenFOAM solver on RANS simulations of round supersonic free jets
An assessment of OpenFOAM solver on RANS simulations of round supersonic free jets
Numerical performance of rhoCentralFoam, a compressible solver in OpenFOAM, was studied by modeling round supersonic free jets with varying nozzle exit conditions through Reynolds-Averaged Navier-Stokes approach. To understand the behavior and accuracy of the solver, simulations were conducted at four different nozzle pressure ratios (i.e. NPR = 2.8, 3.4, 4 and 5), corresponding to over-, perfectly-, moderately under- and highly under-expanded exit conditions, respectively. The simulated results were subsequently validated against qualitative and quantitative experimental results and good overall agreements can be observed, in terms of the shock structures along the jet core as well as the mixing characteristics through velocity decay and shear layer growth. In particular, the predicted lengths of the first shock cell were within 4% of those measured from experiments. However, the jet shear layers determined from k-ω SST model showed wider spread and hence over-estimating the jet mixing behavior. Nevertheless, the discrepancies were still deemed to be within acceptable range (<10%). In addition, results obtained from comparisons with commercial CFD solver also demonstrate certain advantages in numerical accuracy for rhoCentralFoam solver, under the present simulation conditions.
1877-7503
18-31
Zang, B
bf980cd0-d046-4c82-b48c-5b2feea8a52d
U S, Vevek
87b3f496-a502-404e-b9f3-14115dc18f94
Lim, Desmond
82a7e7e8-2ade-44f8-a342-a99c2b9339c4
Wei, X F
4fd4e67e-ec69-4c1e-8e81-7ce59790f668
New, T.H.
f35405df-ad65-4b96-9d6b-06afebdd43a8
Zang, B
bf980cd0-d046-4c82-b48c-5b2feea8a52d
U S, Vevek
87b3f496-a502-404e-b9f3-14115dc18f94
Lim, Desmond
82a7e7e8-2ade-44f8-a342-a99c2b9339c4
Wei, X F
4fd4e67e-ec69-4c1e-8e81-7ce59790f668
New, T.H.
f35405df-ad65-4b96-9d6b-06afebdd43a8

Zang, B, U S, Vevek, Lim, Desmond, Wei, X F and New, T.H. (2018) An assessment of OpenFOAM solver on RANS simulations of round supersonic free jets. Journal of Computational Science, 28, 18-31. (doi:10.1016/j.jocs.2018.07.002).

Record type: Article

Abstract

Numerical performance of rhoCentralFoam, a compressible solver in OpenFOAM, was studied by modeling round supersonic free jets with varying nozzle exit conditions through Reynolds-Averaged Navier-Stokes approach. To understand the behavior and accuracy of the solver, simulations were conducted at four different nozzle pressure ratios (i.e. NPR = 2.8, 3.4, 4 and 5), corresponding to over-, perfectly-, moderately under- and highly under-expanded exit conditions, respectively. The simulated results were subsequently validated against qualitative and quantitative experimental results and good overall agreements can be observed, in terms of the shock structures along the jet core as well as the mixing characteristics through velocity decay and shear layer growth. In particular, the predicted lengths of the first shock cell were within 4% of those measured from experiments. However, the jet shear layers determined from k-ω SST model showed wider spread and hence over-estimating the jet mixing behavior. Nevertheless, the discrepancies were still deemed to be within acceptable range (<10%). In addition, results obtained from comparisons with commercial CFD solver also demonstrate certain advantages in numerical accuracy for rhoCentralFoam solver, under the present simulation conditions.

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More information

Accepted/In Press date: 5 July 2018
e-pub ahead of print date: 7 July 2018
Published date: 1 September 2018
Additional Information: © 2018 Elsevier B.V. All rights reserved.

Identifiers

Local EPrints ID: 469265
URI: http://eprints.soton.ac.uk/id/eprint/469265
ISSN: 1877-7503
PURE UUID: 998bbea7-2756-4f70-a241-673ae175e1ff
ORCID for Desmond Lim: ORCID iD orcid.org/0000-0001-6191-6803

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Date deposited: 12 Sep 2022 16:36
Last modified: 16 Mar 2024 21:04

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Contributors

Author: B Zang
Author: Vevek U S
Author: Desmond Lim ORCID iD
Author: X F Wei
Author: T.H. New

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