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articles
1.Hongkai ZHAOorcid_16x16.png, Yangwei LIUorcid_16x16.png, Liang SHAOorcid_16x16.png, Le FANG, Ming DONG (2021).
Existence of positive skewness of velocity gradient in early transition
Phys. Rev. Fluids 6, 104608 (21 pages). doi:10.1103/PhysRevFluids.6.104608 doi.ico hal.ico openalex-16x16.png
2.Feng LIU, Le FANG, Liang SHAOorcid_16x16.png (2020).
The role of velocity derivative skewness in understanding non-equilibrium turbulence
Chinese Physics B 29, 114702. doi:10.1088/1674-1056/abbbdc doi.ico hal.ico openalex-16x16.png
3.Jean-François MONIER, Feng GAO, Jérôme BOUDETorcid_16x16.png, Liang SHAOorcid_16x16.png (2020).
Turbulence modelling analysis in a corner separation flow
Comput. Fluids 213, 104745 (16 pages). doi:10.1016/j.compfluid.2020.104745 doi.ico hal.ico openalex-16x16.png
4.Jianzhao WU, Le FANG, Liang SHAOorcid_16x16.png, Lipeng LU (2018).
Theories and applications of second-order correlation of longitudinal velocity increments at three points in isotropic turbulence
Phys. Lett. A 382, 1665–1671. doi:10.1016/j.physleta.2018.04.021 doi.ico hal.ico openalex-16x16.png
5.Baolin XIE, Feng GAO, Jérôme BOUDETorcid_16x16.png, Liang SHAOorcid_16x16.png, Lipeng LU (2018).
Improved vortex method for large-eddy simulation inflow generation
Comput. Fluids 168, 87–100. doi:10.1016/j.compfluid.2018.03.069 doi.ico hal.ico openalex-16x16.png
6.Feng GAO, Wei MA, Jinjing SUN, Jérôme BOUDETorcid_16x16.png, Xavier OTTAVYorcid_16x16.png, Yangwei LIUorcid_16x16.png, Lipeng LU, Liang SHAOorcid_16x16.png (2017).
Parameter study on numerical simulation of corner separation in LMFA-NACA65 linear compressor cascade
Chin. J. Aeronauti. 30, 15–30. doi:10.1016/j.cja.2016.09.015 doi.ico hal.ico openalex-16x16.png
7.Pascal ZILLÉ, Thomas CORPETTI, Liang SHAOorcid_16x16.png, Chen XU (2016).
Super-resolution of turbulent passive scalar images using data assimilation
Exp. Fluids 57, 21. doi:10.1007/s00348-015-2104-6 doi.ico hal.ico openalex-16x16.png
8.Feng GAO, Wei MA, Gherardo ZAMBONINI, Jérôme BOUDETorcid_16x16.png, Xavier OTTAVYorcid_16x16.png, Lipeng LU, Liang SHAOorcid_16x16.png (2015).
Large-eddy simulation of 3-D corner separation in a linear compressor cascade
Phys. Fluids 27, 085105 (21 pages). doi:10.1063/1.4928246 doi.ico hal.ico openalex-16x16.png
9.Feng GAO, Gherardo ZAMBONINI, Jérôme BOUDETorcid_16x16.png, Xavier OTTAVYorcid_16x16.png, Lipeng LU, Liang SHAOorcid_16x16.png (2015).
Unsteady behavior of corner separation in a compressor cascade: Large eddy simulation and experimental study
Proc. IMechE Part A, J. Power Energy 229, 508–519. doi:10.1177/0957650915594314 doi.ico hal.ico openalex-16x16.png
10.Baolin XIE, Liang SHAOorcid_16x16.png (2015).
Generation of unsteady inflow conditions for compressible LES with a modified vortex method
JBUAA 41, 701–706. doi:10.13700/j.bh.1001-5965.2014.0281 doi.ico hal.ico openalex-16x16.png
11.Xu CHEN, Pascal ZILLÉ, Liang SHAOorcid_16x16.png, Thomas CORPETTI (2015).
Optical flow for incompressible turbulence motion estimation
Exp. Fluids 56, 8 (14 pages). doi:10.1007/s00348-014-1874-6 doi.ico hal.ico openalex-16x16.png
12.Pascal ZILLÉ, Thomas CORPETTI, Liang SHAOorcid_16x16.png, Xu CHEN (2014).
Observation model based on scale interactions for optical flow estimation
IEEE Trans. Image Process. 23, 6825869. doi:10.1109/TIP.2014.2328893 doi.ico hal.ico openalex-16x16.png
13.Le FANG, Liang SHAOorcid_16x16.png, Jean-Pierre BERTOGLIO (2014).
Recent understanding on the subgrid-scale modeling of large-eddy simulation in physical space
Sci. China, Phys. Mech. Astron. 57, 2188–2193. doi:10.1007/s11433-014-5606-y doi.ico hal.ico openalex-16x16.png
14.Zi Xuan YANG, Gui Xiang CUI, Chun-Xiao XU, Zhao Shun ZHANG, Liang SHAOorcid_16x16.png (2012).
Correlation between temperature and velocity fluctuations in the near-wall region of rotating turbulent channel flow
Chin. Phys. Lett. 29, 054702 (4 pages). doi:10.1088/0256-307X/29/5/054702 doi.ico openalex-16x16.png
15.Le FANG, Wouter J. T. BOSorcid_16x16.png, Liang SHAOorcid_16x16.png, Jean-Pierre BERTOGLIO (2012).
Time-reversibility of Navier-Stokes turbulence and its implication for subgrid scale models
J. Turbul. 13, 1–14. doi:10.1080/14685248.2011.639777 doi.ico hal.ico openalex-16x16.png
16.Cyril CASSISA, Serge SIMOËNSorcid_16x16.png, V. PRINET, Liang SHAOorcid_16x16.png (2011).
Subgrid scale formulation of optical flow for the study of turbulent flow
Exp. Fluids 51, 1739–1754. doi:10.1007/s00348-011-1180-5 doi.ico openalex-16x16.png
17.Wei MA, Le FANG, Liang SHAOorcid_16x16.png, Lipeng LU (2011).
Scaling law of resolved-scale isotropic turbulence
Chin. J. Theor. Appl. Mech. 43, 267–276.
18.Le FANG, Liang SHAOorcid_16x16.png, Jean-Pierre BERTOGLIO, Lipeng LU, Zhao Shun ZHANG (2011).
The rapid-slow decomposition of the subgrid flux in inhomogeneous scalar turbulence
J. Turbul. 12, 1–23. doi:10.1080/14685248.2010.541257 doi.ico openalex-16x16.png
19.Le FANG, Wouter J. T. BOSorcid_16x16.png, X. ZHOU, Liang SHAOorcid_16x16.png, Jean-Pierre BERTOGLIO (2010).
Corrections to the scaling of the second-order structure function in isotropic turbulence
Acta Mech. Sin. 26, 151–157. doi:10.1007/s10409-009-0327-6 doi.ico openalex-16x16.png
20.Zi Xuan YANG, Gui Xiang CUI, Chun-Xiao XU, Liang SHAOorcid_16x16.png, Zhao Shun ZHANG (2010).
The effect of the Taylor-Görtler vortex on Reynolds stress transport in the rotating turbulent channel flow
Sci. China, Phys. Mech. Astron. 53, 725–734. doi:10.1007/s11433-010-0168-0 doi.ico openalex-16x16.png
21.Jian FANGorcid_16x16.png, Lipeng LU, Liang SHAOorcid_16x16.png (2010).
Heat transport mechanisms of low Mach number turbulent channel flow with spanwise wall oscillation
Acta Mech. Sin. 26, 391–399.
22.J. ZHANG, Lipeng LU, Liang SHAOorcid_16x16.png (2009).
A study on heat transfer in a turbulent channel flow with spanwise oscillation
Science in China 52, 1129–1288.
23.Le FANG, Liang SHAOorcid_16x16.png, Jean-Pierre BERTOGLIO, Gui Xiang CUI, Chun-Xiao XU, Zhao Shun ZHANG (2009).
An improved velocity increment model based on Kolmogorov equation of filtered velocity
Phys. Fluids 21, 065108 (9 pages). doi:10.1063/1.3153911 doi.ico openalex-16x16.png
24.Yu GUO, Chun-Xiao XU, Gui Xiang CUI, Zhao Shun ZHANG, Liang SHAOorcid_16x16.png (2007).
Large eddy simulation of scalar turbulence using a new subgrid eddy diffusivity model
Int. J. Heat Fluid Flow 28, 268–274. doi:10.1016/j.ijheatfluidflow.2006.04.003 doi.ico hal.ico openalex-16x16.png
25.Wouter J. T. BOSorcid_16x16.png, Liang SHAOorcid_16x16.png, Jean-Pierre BERTOGLIO (2007).
Spectral imbalance and the normalized dissipation rate of turbulence
Phys. Fluids 19, 045101 (8 pages). doi:10.1063/1.2714079 doi.ico hal.ico openalex-16x16.png
26.Guillevic LAMAISON, Wouter J. T. BOSorcid_16x16.png, Liang SHAOorcid_16x16.png, Jean-Pierre BERTOGLIO (2007).
Decay of scalar variance in isotropic tubulence in a bounded domain
J. Turbul. 8, N 4 (11 pages). doi:10.1080/14685240601091676 doi.ico hal.ico openalex-16x16.png
27.Jérôme BOUDETorcid_16x16.png, Joëlle CARO, Liang SHAOorcid_16x16.png, Emmanuel LÉVÊQUEorcid_16x16.png (2007).
Numerical studies towards practical large-eddy simulation
J. Therm. Sci. 16, 328–336. doi:10.1007/s11630-007-0328-3 doi.ico hal.ico openalex-16x16.png
28.Emmanuel LÉVÊQUEorcid_16x16.png, F. TOSCHI, Liang SHAOorcid_16x16.png, Jean-Pierre BERTOGLIO (2007).
Shear-improved Smagorinsky model for large-eddy simulation of wall-bounded turbulent flows
J. Fluid Mech. 570, 491–502. doi:10.1017/S0022112006003429 doi.ico openalex-16x16.png
29.Gui Xiang CUI, Chun-Xiao XU, Le FANG, Liang SHAOorcid_16x16.png, Zhao Shun ZHANG (2007).
A new subgrid eddy-viscosity model for large-eddy simulation of anisotropic turbulence
J. Fluid Mech. 582, 377–397. doi:10.1017/S002211200700599X doi.ico hal.ico openalex-16x16.png
30.Guoxin WEI, Ivana VINKOVIC, Liang SHAOorcid_16x16.png, Serge SIMOËNSorcid_16x16.png (2006).
Corrélations de vitesse Lagrangienne et échelle temporelle en simulation des grandes échelles
C. R. Méc. 334, 298–303. doi:10.1016/j.crme.2006.03.005 doi.ico hal.ico openalex-16x16.png
31.Guoxin WEI, Ivana VINKOVIC, Liang SHAOorcid_16x16.png, Serge SIMOËNSorcid_16x16.png (2006).
Scalar dispersion by large eddy simulations and a Lagrangian stochastic subgrid model
Phys. Fluids 18, 095101. doi:10.1063/1.2337329 doi.ico hal.ico openalex-16x16.png
32.Liang SHAOorcid_16x16.png, Zhao Shun ZHANG, Gui Xiang CUI, Chun-Xiao XU (2005).
Subgrid modeling of anisotropic rotating homogeneous turbulence
Phys. Fluids 17, 115106 (7 pages). doi:10.1063/1.2130748 doi.ico openalex-16x16.png
33.Gui Xiang CUI, Haibing B. ZHOU, Zhao Shun ZHANG, Liang SHAOorcid_16x16.png (2004).
New subgrid model for LES and its application
Chinese Journal of Computational Physics 21, 289–293.
34.Wouter J. T. BOSorcid_16x16.png, Hatem TOUIL, Liang SHAOorcid_16x16.png, Jean-Pierre BERTOGLIO (2004).
On the behavior of the velocity-scalar cross correlation spectrum in the inertial range
Phys. Fluids 16, 3818–3823. doi:10.1063/1.1779229 doi.ico openalex-16x16.png
35.Gui Xiang CUI, Haibing B. ZHOU, Zhao Shun ZHANG, Liang SHAOorcid_16x16.png (2004).
A new dynamic subgrid eddy viscosity model with application to turbulent channel flow
Phys. Fluids 16, 2835–2842. doi:10.1063/1.1762911 doi.ico openalex-16x16.png
36.Haibing B. ZHOU, Gui Xiang CUI, Zhao Shun ZHANG, Liang SHAOorcid_16x16.png (2002).
Dependence of turbulent scalar flux on molecular Prandtl number
Phys. Fluids 14, 2388–2394. doi:10.1063/1.1485764 doi.ico openalex-16x16.png
37.Haibing B. ZHOU, Gui Xiang CUI, Zhao Shun ZHANG, Liang SHAOorcid_16x16.png (2002).
The effect of transportation of passive scalar in the homogeneous turbulence with different molecular Prandtl numbers.
Acta Mech. Sin. 34.
38.Hatem TOUIL, Jean-Pierre BERTOGLIO, Liang SHAOorcid_16x16.png (2002).
The decay of turbulence in a bounded domain.
J. Turbul. 3, 1–12.
39.Gui Xiang CUI, Y. CHEN, Zhao Shun ZHANG, C. XU, Liang SHAOorcid_16x16.png, Jean-Pierre BERTOGLIO (2000).
Transportation of passive scalar in inhomogeneous turbulence.
Acta Mech. Sin. 16, 21.
40.Liang SHAOorcid_16x16.png, S. SARKAR, C. PANTANO (1999).
On the relationship between mean flow and subgrid stresses in large eddy simulation of turbulent shear flow
Phys. Fluids 11, 1229–1248. doi:10.1063/1.869895 doi.ico openalex-16x16.png
41.Zhao Shun ZHANG, Gui Xiang CUI, C. XU, Liang SHAOorcid_16x16.png, H. PASCAL, Jean-Pierre BERTOGLIO (1999).
Effects of plane strain on inhomogeneous turbulence.
Science in China 42, 154–161.
42.Claude CAMBONorcid_16x16.png, J.P. BENOIT, Liang SHAOorcid_16x16.png, L. JACQUIN (1994).
Stability analysis and large eddy simulation of rotating turbulence with organized eddies.
J. Fluid Mech. 278, 175–200.
 
thèses/hdr
1.Jean-François MONIER (dir.: Liang SHAO, Jérôme BOUDET) (2018).
Analyse de la modélisation turbulente en écoulement tourbillonnaire
Thèse École centrale de Lyon hal.ico
2.Baolin XIE (dir.: Liang SHAO) (2016).
Improved vortex method for LES inflow generation and applications to channel and flat-plate flows
Thèse École centrale de Lyon hal.ico
3.Xu CHEN (dir.: Liang SHAO) (2015).
New formulation of optical flow for turbulence estimation
Thèse École centrale de Lyon
4.Pascal ZILLÉ (dir.: Liang SHAO) (2014).
Modèles multi-échelles pour l'analyse d'images : application à la turbulence
Thèse École centrale de Lyon
5.Feng GAO (dir.: Liang SHAO, Jérôme BOUDET, Xavier OTTAVY, Lipeng LU) (2014).
Advanced numerical simulation of corner separation in a linear compressor cascade
Thèse École centrale de Lyon
6.Cyril CASSISA (dir.: Serge SIMOËNS, Liang SHAO) (2011).
Optical flow estimation with subgrid model for study of turbulent flow
Thèse École centrale de Lyon
http://bibli.ec-lyon.fr/exl-doc/TH_T2229_ccassisa.pdf
7.Liang SHAOorcid_16x16.png (2007).
Contribution à l'étude de la turbulence par simulation numérique directe et par simulation des grandes échelles
Habilitation École centrale de Lyon
8.Liang SHAOorcid_16x16.png (1992).
Étude d'une couche de mélange non cisaillée par simulation des grandes échelles.
Thèse École centrale de Lyon
 
communications avec actes
1.Jean-François MONIER, Nicolas POUJOL, Mathieu LAURENT, Feng GAO, Jérôme BOUDETorcid_16x16.png, Stéphane AUBERTorcid_16x16.png, Liang SHAOorcid_16x16.png (2018).
LES investigation of Boussinesq constitutive relation validity in a corner separation flow
ASME Turbo Expo 2018, Oslo, Norway. doi:10.1115/GT2018-75792 doi.ico
In: Proceedings of ASME Turbo Expo 2018: Power for Land, Sea, and Air (GT), ASME, New York, USA. doi:10.1115/GT2018-75792 doi.ico
2.Jean-François MONIER, Jérôme BOUDETorcid_16x16.png, Joëlle CARO, Liang SHAOorcid_16x16.png (2017).
Budget analysis of turbulent kinetic energy in a tip-leakage flow of a single airfoil: RANS vs zonal LES
12th European Conference on Turbomachinery Fluid dynamics & Thermodynamics, Stockholm, Sweden.
In: Proceedings of 12th European Conference on Turbomachinery Fluid dynamics & Thermodynamics, , .
3.Jean-François MONIER, Jérôme BOUDETorcid_16x16.png, Joëlle CARO, Liang SHAOorcid_16x16.png (2017).
Turbulent energy budget in a tip leakage flow: a comparison between RANS and LES
ASME Turbo Expo 2017, Charlotte, United States. doi:10.1115/GT2017-63611 doi.ico
In: Proceedings of ASME Turbo Expo 2017: Power for Land, Sea, and Air (GT), ASME, New York, USA. doi:10.1115/GT2017-63611 doi.ico
4.Jean-François MONIER, Feng GAO, Jérôme BOUDETorcid_16x16.png, Liang SHAOorcid_16x16.png, Lipeng LU (2016).
Budget analysis of turbulent kinetic energy in corner separation: RANS vs LES
ECCOMAS Congress 2016 : VII European Congress on Computational Methods in Applied Sciences and Engineering, Crete Island, Greece.
In: Proceedings of ECCOMAS Congress , , , 1–16.
5.Feng GAO, Gherardo ZAMBONINI, Jérôme BOUDETorcid_16x16.png, Xavier OTTAVYorcid_16x16.png, Lipeng LU, Liang SHAOorcid_16x16.png (2015).
Unsteady behavior of corner separation in a compressor cascade-LES and experimental study
11th European Conference on Turbomachinery Fluid Dynamics and Thermodynamics, Madrid, Spain.
In: Proceedings of ETC 2015, Von Karman Institute for Fluid Dynamics, Rhode-St-Genèse - Belgium.
6.Feng GAO, Gherardo ZAMBONINI, Wei MA, Jérôme BOUDETorcid_16x16.png, Xavier OTTAVYorcid_16x16.png, Lipeng LU, Liang SHAOorcid_16x16.png (2014).
Turbulent dynamics in a linear compressor cascade
5th International Symposium on Jet Propulsion and Power Engineering, Beijing, China.
In: Proceedings of ISJPPE 5, , , 2014-ISJPPE-5017.
7.Le FANG, Liang SHAOorcid_16x16.png, Jean-Pierre BERTOGLIO, Lipeng LU, Zhao Shun ZHANG (2010).
Rapid and slow decomposition in large eddy simulation of scalar turbulence
ASME 2010 3rd Joint US-European Fluids Engineering Summer Meeting (FEDSM2010), Montreal, Quebec, Canada. doi:10.1115/FEDSM-ICNMM2010-30654 doi.ico
In: Proceedings of the ASME 2010 Joint U.S.-European Fluids Engineering Summer Meeting, ASME, New York, USA, 30654. doi:10.1115/FEDSM-ICNMM2010-30654 doi.ico
8.Cyril CASSISA, V. PRINET, Liang SHAOorcid_16x16.png, Serge SIMOËNSorcid_16x16.png, C.L. LIU (2008).
Optical flow robust estimation in a hybrid multi-resolution MRF framework
IEEE International Conference on Acoustics, Speech and Signal Processing 2008, Las Vegas, United States. doi:10.1109/ICASSP.2008.4517729 doi.ico
In: Proceedings of ICASSP 2008, IEEE, , 793–796. doi:10.1109/ICASSP.2008.4517729 doi.ico
Article number 4517729
9.Le FANG, Jérôme BOUDETorcid_16x16.png, Liang SHAOorcid_16x16.png (2007).
Les echanges inter-échelles en simulation des grandes échelles
18ème Congrès français de mécanique, Grenoble, France.
In: Jacqueline ETAY (Ed.), E.J. HOPFINGER (Ed.), Philippe MARTY (Ed.), Actes du 18ème Congrès Français de Mécanique, Association Française de Mécanique, Courbevoie, CFM2007-1508.
10.Jérôme BOUDETorcid_16x16.png, Joëlle CARO, Liang SHAOorcid_16x16.png, Emmanuel LÉVÊQUEorcid_16x16.png (2007).
Numerical studies towards adaptive large-eddy simulation
8th International Symposium on Experimental and Computational Aerothermodynamics of Internal Flows, Lyon, France.
In: Proceedings of the 8th International Symposium on Experimental and Computational Aerothermodynamics of Internal Flows, , .
11.Wouter J. T. BOSorcid_16x16.png, Liang SHAOorcid_16x16.png, Jean-Pierre BERTOGLIO (2007).
The effect of a finite cascade time on the normalized energy dissipation
Eleventh European Turbulence Conference, Porto, Portugal.
In: José M. L. M. PALMA (Ed.), A. SILVA LOPEZ (Ed.), Advances in Turbulence XI, Springer, Dordrecht, The Netherlands, 23–25.
12.F. TOSCHI, Emmanuel LÉVÊQUEorcid_16x16.png, Liang SHAOorcid_16x16.png, Jean-Pierre BERTOGLIO (2007).
Shear-improved Smagorinsky model for Large-Eddy Simulation of wall-bounded turbulent flows
Eleventh European Turbulence Conference, Porto, Portugal.
In: José M. L. M. PALMA (Ed.), A. SILVA LOPEZ (Ed.), Advances in Turbulence XI, Springer, Dordrecht, The Netherlands, 319–321.
13.Wouter J. T. BOSorcid_16x16.png, Hatem TOUIL, Liang SHAOorcid_16x16.png, Jean-Pierre BERTOGLIO (2005).
Etude de l'effet du nombre de Reynolds sur le spectre du flux de scalaire
17ème Congrès français de mécanique, Troyes, France.
In: Actes du 17ème Congrès français de mécanique, , .
14.Wouter J. T. BOSorcid_16x16.png, Hatem TOUIL, Liang SHAOorcid_16x16.png, Jean-Pierre BERTOGLIO (2004).
Spectral studies of scalar mixing
Tenth European Turbulence Conference, Trondheim, Norway.
In: H. I. ANDERSSON (Ed.), P.-Å. KROGSTAD (Ed.), Advances in Turbulence X, International Center for Numerical Methods in Engineering (CIMNE), Barcelona, Spain, 171–174.
15.Wouter J. T. BOSorcid_16x16.png, Hatem TOUIL, Liang SHAOorcid_16x16.png, Jean-Pierre BERTOGLIO (2003).
Two-point modelling of turbulent scalar mixing and a new inertial range law
International symposium on turbulence, heat and mass transfer 4, Antalya, Turkey.
In: Turbulence, heat and mass transfer 4, Begell House inc., New York, Wallingford (UK), 895–902.
 
communications sans actes
1.Wouter J. T. BOSorcid_16x16.png, Liang SHAOorcid_16x16.png, Jean-Pierre BERTOGLIO (2008).
Déséquilibre spectral et la dissipation normalisée en turbulence
GDR Turbulence, Ile d'Oléron, France.
2.Wouter J. T. BOSorcid_16x16.png, Liang SHAOorcid_16x16.png, Jean-Pierre BERTOGLIO (2007).
Déséquilibre spectral et la dissipation normalisée en turbulence
GDR Turbulence, Marseille, France.
3.Wouter J. T. BOSorcid_16x16.png, Hatem TOUIL, Liang SHAOorcid_16x16.png, Jean-Pierre BERTOGLIO (2004).
On the velocity-scalar cross correlation spectrum
Colloque Jean Mathieu, Ecully, France.
 
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