Effects of near wall modeling in the improved-delayed-detached-eddy-simulation (IDDES) methodology
Effects of near wall modeling in the improved-delayed-detached-eddy-simulation (IDDES) methodology
The present study aims to assess the effects of two different underlying RANS models on overall behavior of the IDDES methodology when applied to different flow configurations ranging from fully attached (plane channel flow) to separated flows (periodic hill flow). This includes investigating prediction accuracy of first and second order statistics, response to grid refinement, grey area dynamics and triggering mechanism. Further, several criteria have been investigated to assess reliability and quality of the methodology when operating in scale resolving mode. It turns out that irrespective of the near wall modeling strategy, the IDDES methodology does not satisfy all criteria required to make this methodology reliable when applied to various flow configurations at different Reynolds numbers with different grid resolutions. Further, it is found that using more advanced underlying RANS model to improve prediction accuracy of the near wall dynamics results in extension of the grey area, which may delay the transition to scale resolving mode. This systematic study for attached and separated flows suggests that the shortcomings of IDDES methodology mostly lie in inaccurate prediction of the dynamics inside the grey area and demands further investigation in this direction to make this methodology capable of dealing with different flow situations reliably.
Saini, Rohit
51bd9b2d-320e-46f4-ab3d-4276835b7327
Karimi, Nader
620646d6-27c9-4e1e-948f-f23e4a1e773a
Duan, Lian
3a23d461-f9c7-47a9-ae84-f1193b037bdc
Sadiki, Amsini
b1f66c0c-d55a-44e6-8fe7-0e9043cd55ff
Mehdizadeh, Amirfarhang
731ed507-43ea-4096-a63c-840665afa535
8 October 2018
Saini, Rohit
51bd9b2d-320e-46f4-ab3d-4276835b7327
Karimi, Nader
620646d6-27c9-4e1e-948f-f23e4a1e773a
Duan, Lian
3a23d461-f9c7-47a9-ae84-f1193b037bdc
Sadiki, Amsini
b1f66c0c-d55a-44e6-8fe7-0e9043cd55ff
Mehdizadeh, Amirfarhang
731ed507-43ea-4096-a63c-840665afa535
Saini, Rohit, Karimi, Nader, Duan, Lian, Sadiki, Amsini and Mehdizadeh, Amirfarhang
(2018)
Effects of near wall modeling in the improved-delayed-detached-eddy-simulation (IDDES) methodology.
Entropy, 20 (10).
(doi:10.3390/e20100771).
Abstract
The present study aims to assess the effects of two different underlying RANS models on overall behavior of the IDDES methodology when applied to different flow configurations ranging from fully attached (plane channel flow) to separated flows (periodic hill flow). This includes investigating prediction accuracy of first and second order statistics, response to grid refinement, grey area dynamics and triggering mechanism. Further, several criteria have been investigated to assess reliability and quality of the methodology when operating in scale resolving mode. It turns out that irrespective of the near wall modeling strategy, the IDDES methodology does not satisfy all criteria required to make this methodology reliable when applied to various flow configurations at different Reynolds numbers with different grid resolutions. Further, it is found that using more advanced underlying RANS model to improve prediction accuracy of the near wall dynamics results in extension of the grey area, which may delay the transition to scale resolving mode. This systematic study for attached and separated flows suggests that the shortcomings of IDDES methodology mostly lie in inaccurate prediction of the dynamics inside the grey area and demands further investigation in this direction to make this methodology capable of dealing with different flow situations reliably.
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Published date: 8 October 2018
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Local EPrints ID: 509029
URI: http://eprints.soton.ac.uk/id/eprint/509029
ISSN: 1099-4300
PURE UUID: f6fcdd06-4a6f-4c5b-97cb-a02072958e11
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Date deposited: 10 Feb 2026 17:42
Last modified: 11 Feb 2026 03:18
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Author:
Rohit Saini
Author:
Nader Karimi
Author:
Lian Duan
Author:
Amsini Sadiki
Author:
Amirfarhang Mehdizadeh
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