Large eddy simulation of pseudo shock structure in a convergent–long divergent duct
Large eddy simulation of pseudo shock structure in a convergent–long divergent duct
In this paper, the Pseudo shock structure in a convergent–long divergent duct is investigated using large eddy simulation on the basis of Smagorinsky–Lilly, Wall-Adapting Local Eddy-Viscosity and Algebraic Wall-Modeled LES subgrid models. The first objective of the study is to apply different subgrid models to predict the structure of Lambda form shocks system, while the ultimate aim is to obtain further control of the shock behavior. To achieve these goals, the dynamic grid adaption and hybrid initialization techniques are applied under the 3D investigation to reduce numerical errors and computational costs. The results are compared to the existing experimental data and it is found that the WMLES subgrid model results in more accurate predictions when compared to the other subgrid models. Subsequently, the influences of the divergent section length with the constant ratio of the outlet to throat area and, the effects of discontinuity of the wall temperature on the flow physics are investigated. The results indicate that the structure of compressible flow in the duct is affected by varying these parameters. This is then further discussed to provide a deeper physical understanding of the mechanism of Pseudo shock motion.
823-837
Mousavi, Seyed Mahmood
d9a5bdc1-4f30-4229-bb65-682a8995faf1
Kamali, Reza
72e7394f-29f3-4a97-b5aa-ff949461ac02
Sotoudeh, Freshteh
cde5aca6-0515-41f8-b66f-126e09d4c130
Karimi, Nader
620646d6-27c9-4e1e-948f-f23e4a1e773a
Khojasteh, Danial
12c03361-41e4-4958-9e3e-2d459a00b14c
1 January 2021
Mousavi, Seyed Mahmood
d9a5bdc1-4f30-4229-bb65-682a8995faf1
Kamali, Reza
72e7394f-29f3-4a97-b5aa-ff949461ac02
Sotoudeh, Freshteh
cde5aca6-0515-41f8-b66f-126e09d4c130
Karimi, Nader
620646d6-27c9-4e1e-948f-f23e4a1e773a
Khojasteh, Danial
12c03361-41e4-4958-9e3e-2d459a00b14c
Mousavi, Seyed Mahmood, Kamali, Reza, Sotoudeh, Freshteh, Karimi, Nader and Khojasteh, Danial
(2021)
Large eddy simulation of pseudo shock structure in a convergent–long divergent duct.
Computers & Mathematics with Applications, 81, .
(doi:10.1016/j.camwa.2019.10.017).
Abstract
In this paper, the Pseudo shock structure in a convergent–long divergent duct is investigated using large eddy simulation on the basis of Smagorinsky–Lilly, Wall-Adapting Local Eddy-Viscosity and Algebraic Wall-Modeled LES subgrid models. The first objective of the study is to apply different subgrid models to predict the structure of Lambda form shocks system, while the ultimate aim is to obtain further control of the shock behavior. To achieve these goals, the dynamic grid adaption and hybrid initialization techniques are applied under the 3D investigation to reduce numerical errors and computational costs. The results are compared to the existing experimental data and it is found that the WMLES subgrid model results in more accurate predictions when compared to the other subgrid models. Subsequently, the influences of the divergent section length with the constant ratio of the outlet to throat area and, the effects of discontinuity of the wall temperature on the flow physics are investigated. The results indicate that the structure of compressible flow in the duct is affected by varying these parameters. This is then further discussed to provide a deeper physical understanding of the mechanism of Pseudo shock motion.
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Published date: 1 January 2021
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Local EPrints ID: 509066
URI: http://eprints.soton.ac.uk/id/eprint/509066
ISSN: 0898-1221
PURE UUID: 07f1c80b-a9ed-41e9-a92b-1305e144716f
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Date deposited: 10 Feb 2026 18:09
Last modified: 11 Feb 2026 03:18
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Author:
Seyed Mahmood Mousavi
Author:
Reza Kamali
Author:
Freshteh Sotoudeh
Author:
Nader Karimi
Author:
Danial Khojasteh
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