On Interface Issues in LES/RANS Coupling Strategies: A Method for Turbulence Forcing

Abstract: The present work deals with a computational strategy coupling near-wall, eddyviscosity-based RANS models with LES within a zonal Hybrid LES/RANS (HLR) framework. Key questions concerning the coupling of both methods, the inherently steady RANS method and highly-unsteady LES method, are closely connected to the treatment at the interface separating both sub-regions. Large attention was paid to this problem and following three issues were highlighted: (1) the exchange of the variables across the LES/RANS interfa… Show more

“…Various interface positions between O(50)-O(600) have been applied with zonal approaches (e.g. Piomelli et al, 2003;Temmerman et al, 2005;Jakirlić et al, 2011). Based on numerical tests in the present setup (not shown herein for brevity), re-sults were not noted to be very sensitive to the exact position of the interface, corresponding with previous canonical flow observations (Keskinen et al, 2017).…”

“…In the HLR approach, Eqs. (1)-(4) incorporate an effective filter width (Jakirlić et al, 2011;Sagaut et al, 2013): in the RANS zone, the model mimics an SGS model whose length scale corresponds to the SGS width at the LES/RANS interface, approaching the scale l RAN S = k 3/2 /ε close to the wall (Jakirlić et al, 2011). As noted in our previous work (Keskinen et al, 2017)…”

“…Eq. 13 (Jakirlić et al, 2011) for a dynamic approach). The RANS zone employs a low-Reynolds k − ε turbulence model based on the model of Lien et al (1996) with pertinent modifications detailed in our previous study (Nuutinen et al, 2014).…”

“…(9)-(10)) in the first cell of the LES domain via source terms (cf. (Jakirlić et al, 2011) for a more detailed description). Interfaces in this study are placed manually to a scaled wall-normal distance of y + 1 ≈ O(100) in maximum gradient conditions, while intake jet regions were set in the LES zone.…”

Numerical assessment of wall modelling approaches in scale-resolving in-cylinder simulations

“…Various interface positions between O(50)-O(600) have been applied with zonal approaches (e.g. Piomelli et al, 2003;Temmerman et al, 2005;Jakirlić et al, 2011). Based on numerical tests in the present setup (not shown herein for brevity), re-sults were not noted to be very sensitive to the exact position of the interface, corresponding with previous canonical flow observations (Keskinen et al, 2017).…”

“…In the HLR approach, Eqs. (1)-(4) incorporate an effective filter width (Jakirlić et al, 2011;Sagaut et al, 2013): in the RANS zone, the model mimics an SGS model whose length scale corresponds to the SGS width at the LES/RANS interface, approaching the scale l RAN S = k 3/2 /ε close to the wall (Jakirlić et al, 2011). As noted in our previous work (Keskinen et al, 2017)…”

“…Eq. 13 (Jakirlić et al, 2011) for a dynamic approach). The RANS zone employs a low-Reynolds k − ε turbulence model based on the model of Lien et al (1996) with pertinent modifications detailed in our previous study (Nuutinen et al, 2014).…”

“…(9)-(10)) in the first cell of the LES domain via source terms (cf. (Jakirlić et al, 2011) for a more detailed description). Interfaces in this study are placed manually to a scaled wall-normal distance of y + 1 ≈ O(100) in maximum gradient conditions, while intake jet regions were set in the LES zone.…”

Numerical assessment of wall modelling approaches in scale-resolving in-cylinder simulations

“…30 In a more general class of zonal approaches, where completely different models are used for the URANS and LES zones, a special interface treatment would have been unavoidable. 35,39,41,42 This, however, poses the additional question on how to correctly reconstruct URANS quantities from the resolved LES field and vice versa , often leading to sharp interface discontinuities and/or modeling issues. 39,42 One of our main objectives is to verify whether the relatively simple ZDES-type methodology, described by equations (7) and (8), could be effectively applied to actual engine geometries.…”

Validation of a zonal hybrid URANS/LES turbulence modeling method for multi-cycle engine flow simulation

Computational Modelling of Flow and Scalar Transport Accounting for Near-Wall Turbulence with Relevance to Gas Turbine Combustors