Laboratory Experimental Studies of LES Models:

1. K. Bai, C. Meneveau & J. Katz, “Near-wake turbulent flow structure and mixing length downstream of a fractal, tree-like object” (2012), Bound. Lay. Met. 143, 285-308.

2. C. Higgins, C. Meneveau & M.B. Parlange, “Geometric alignments of the subgrid-scale force in the atmospheric boundary layer” (2010), Bound. Layer Met., 132 DOI 10.1007/s10546-009-9385-3.
3. B. Brzek, S. Torres-Nieves, J. Lebrón, R. Cal, C. Meneveau & L. Castillo, “Effects of free-stream turbulence on rough surface turbulent boundary layers” (2009), J. Fluid Mech. 635, 207-243.  
4. W. Yue, C. Meneveau, M.B. Parlange, W. Zhu, R. van Hout & J. Katz, “Turbulent kinetic energy budgets in a windtunnel model canopy: LES and comparison with experiments” (2008), J. Environmental Fluid Mechanics 8, 73-95. Abstract (html)

5. W. Zhu, R. van Hout, L. Luznik, H.S. Kang, J. Katz, Joseph, C. Meneveau, “A Comparison of PIV Measurements of Canopy Turbulence Performed in the Field and in a Wind Tunnel Model” (2006), Exp. Fluids 41, 309-318. Abstract (html) or full pdf article © Springer, see http://www.springer.com/west/home/physics?SGWID=4-10100-70-1057776-0

6. J. Chen, C. Meneveau & J. Katz, “Scale Interactions of Turbulence Subjected to a Straining-Relaxation-Destraining Cycle” (2006), J. Fluid Mech. 562, 123-150 Abstract (html) or full pdf article © CUP, see http://journals.cambridge.org/action/home

7. H.S. Kang and C. Meneveau, 'Experimental measurements of spectral subgrid scale Prandtl number in a heated turbulent wake flow, EDQNM predictions, and 4/3-law' (2007), J. of Turbulence 7, paper 045. Abstract (html) or full pdf article © Taylor & Francis , see http://www.tandf.co.uk/journals/titles/14685248.asp

8. J. Chen, J. Katz, and Meneveau, 'The Implication of Mismatch between Stress and Strain-Rate in Turbulence Subjected to Rapid Straining and Destraining on Dynamic LES Models' (2005), J. Fluids Eng. 127, 840-850, Abstract (html) or full pdf article © ASME

9. Y.-Y. Chow, O. Uzol, J. Katz & C. Meneveau, “Decomposition of the spatially filtered and ensemble averaged kinetic energy, the associated fluxes and scaling trends in a rotor wake” (2005), Phys. Fluids 17, 085102, Abstract (html) or full pdf article © AIP, see http://ojps.aip.org/phf (Reused with permission from Yi-Chih Chow, Physics of Fluids, 17, 085102 (2005). Copyright 2005, American Institute of Physics.)

10. H.S. Kang and C. Meneveau, 'Effect of large-scale coherent structures on subgrid-scale stress and strain-rate eigenvector alignments in turbulent shear flow' (2005), Phys. Fluids, 17, 055103, Abstract (html) or full pdf article (Reused with permission from Hyung-Suk Kang, Physics of Fluids, 17, 055103 (2005). Copyright 2005, American Institute of Physics.)

11. H.S. Kang, S. Chester and C. Meneveau, 'Decaying turbulence in an active-grid-generated flow and comparisons with large-eddy simulation' (2003), J. Fluid Mech. 480, p. 129-160 Abstract (html) or full pdf preprint © Cambridge University Press

12. H.S. Kang and C. Meneveau, 'Universality of LES model parameters across a turbulent wake behind a heated cylinder' (2002), J. of Turbulence 3, paper 032. Abstract (html) or full pdf article. © Taylor & Francis , see http://www.tandf.co.uk/journals/titles/14685248.asp

13. F. van der Bos, B. Tao, C. Meneveau, & J. Katz, 'Effects of small-scale turbulent motions on the filtered velocity gradient tensor as deduced from holographic PIV measurements' (2002), Phys. Fluids 14, p. 2457-2474. Abstract (html) or full pdf article © AIP, see http://ojps.aip.org/phf (Reused with permission from Fedderik van der Bos, Physics of Fluids, 14, 2456 (2002). Copyright 2002, American Institute of Physics.)

14. H.S. Kang and C. Meneveau, 'Passive scalar anisotropy in a heated turbulent wake: new observations and implications for LES' (2001), J. Fluid Mech., 442, p. 161. Abstract (html) or full pdf article © Cambridge University Press

15. B. Tao, J,. Katz and C. Meneveau, 'Statistical geometry of subgrid-scale stresses determined from holographic particle image velocimetry measurements' (2002), J. Fluid Mech., 467, p. 35-78. Abstract (html) or full pdf article © Cambridge University Press

16. B. Tao, J. Katz and C. Meneveau, 'Geometry and scale relationships in high Reynolds number turbulence determined from 3-D holographic velocimetry' (2000), Phys. Fluids 12, p. 941. Abstract (html) or Full pdf article © AIP, see http://ojps.aip.org/phf (Reused with permission from Bo Tao, Physics of Fluids, 12, 941 (2000). Copyright 2000, American Institute of Physics.)

17. S. Cerutti, C. Meneveau and O.M. Knio, 'Spectral and hyper eddy-viscosity in high Reynolds number turbulence' (2000), J. Fluid Mech. 421, p. 307. Abstract (html) or full pdf article © Cambridge University Press

18. S. Cerutti and C. Meneveau, 'Statistics of filtered velocity in grid and wake turbulence' (2000), Phys. Fluids 12, p. 1143. Abstract (html) or full pdf article © AIP, see http://ojps.aip.org/phf (Reused with permission from Stefano Cerutti, Physics of Fluids, 12, 1143 (2000). Copyright 2000, American Institute of Physics.)

19. C. Meneveau and J. Katz, 'Scale-invariance and turbulence models for large-eddy simulation' (2000), Annu. Rev. Fluid Mech. 32, p. 1-32. Abstract (html) or Full pdf article © Annual Reviews, see http://www.annurev.org/org/phf

20. C. Meneveau and J. Katz, 'Dynamic testing of subgrid models in LES based on the Germano identity' (1999), Phys. Fluids 11, p. 245. Abstract (html) or Full pdf article © AIP, see http://ojps.aip.org/phf (Reused with permission from Charles Meneveau, Physics of Fluids, 11, 245 (1999). Copyright 1999, American Institute of Physics

21. S. Liu, J. Katz and C. Meneveau, 'Evolution and modeling of subgrid scales during rapid straining of turbulence' (1999), J. Fluid Mech. 387, p. 281. Abstract (html) or full pdf article © CUP, see http://uk.cambridge.org/journals/flm

22. C. Meneveau and J. Katz, 'Conditional subgrid force and dissipation in locally isotropic and rapidly strained turbulence' (1999), Phys. Fluids 11, p. 2317 Abstract (html) or full pdf article © AIP, see http://ojps.aip.org/phf (Reused with permission from Charles Meneveau, Physics of Fluids, 11, 2317 (1999). Copyright 1999, American Institute of Physics.)

23. J. O'Neil and C. Meneveau, 'Subgrid-scale stresses and their modelling in a turbulent plane wake' (1997), J. Fluid Mech. 349, p. 253. Abstract (html) or full pdf article © CUP, see http://uk.cambridge.org/journals/flm

24. C. Meneveau, 'Statistics of turbulence subgrid-scale stresses: Necessary conditions and experimental tests' (1994), Phys. Fluids A 6, p. 815. Abstract (html) or full pdf article © AIP, see http://ojps.aip.org/phf (Reused with permission from Charles Meneveau, Physics of Fluids, 6, 815 (1994). Copyright 1994, American Institute of Physics.)

25. S. Liu, C. Meneveau and J. Katz, 'Experimental study of similarity subgrid-scale models of turbulence in the far-field of a jet' (1995), App. Sci. Res. 54, p. 177. Abstract (html)

26. S. Liu, C. Meneveau and J. Katz: 'On properties of similarity subgrid-scale models as deduced from measurements in a turbulent jet' (1994), J. Fluid Mech. 275, p. 83. Abstract (html) or full pdf article © Cambridge University Press)

27. C. Meneveau and J. O'Neil: 'Scaling laws of the dissipation rate of turbulent subgrid-scale kinetic energy' (1994), Phys. Rev. E 49, p. 2866. Abstract (html) or full pdf article © AIP, see http://ojps.aip.org/phf

• Conference proceedings: (Articles may be downloaded for personal use only. Any other use requires prior permission of the author and the Publishers):

1. H.S. Kang and C. Meneveau, 'Experimental measurements of
   subgrid passive scalar anisotropy and universality' (2001), to appear in Proceedings of Direct and Large Eddy Simulation -IV (Geurts, Métais and Friedrich, Eds). Abstract (html) or full pdf article © Kluwer, see http://www.wkap.nl/kaphtml.htm/HOMEPAGE)

2. B. Tao, J. Katz, & C. Meneveau, 'Effects of strain-rate and SGS dissipation rate on alignment trends between large and small scales in turbulent duct flow', in Proc. Fluids Eng. Division Summer meeting of the ASME, San Fransisco 2001, FEDSM01-18272, on CD-ROM. Abstract (html) or full pdf article © ASME, http://www.asme.org)

3. B. Tao, J. Katz, & C. Meneveau, 'Alignment of the strain-rate, SGS stress, and SGS force relative to parameters of the filtered velocity gradients', in Proc. Fluids Eng. Division Summer meeting of the ASME, San Fransisco 2000, FEDSM00-11164, on CD-ROM. Abstract (html) or full pdf article © ASME, http://www.asme.org

4. B. Tao, J. Katz, & C. Meneveau, 'Application of HPIV data in turbulent duct flow for turbulence modeling', in Proc. Fluids Eng. Division Summer meeting of the ASME, San Fransisco 1999, FEDSM99-7281, on CD-ROM. Abstract (html) or full pdf article © ASME, http://www.asme.org

5. C. Meneveau, S. Cerutti, J.O’Neil, F. Porté-Agel & M. Parlange: ‘Physics and modeling of small scale turbulence for Large Eddy Simulation’, (1999) Proceedings of Monte Verita II (eds. A. Tsinober & A. Gyr), Trends in Mathematics (Birkhauser Verlag), pp. 221-231.

6. S. Liu, C. Meneveau and J. Katz, 'Generation of locally isotropic turbulence in a tank, and its response to rapid straining' (1997) (ASME), FED-ASME Forum on Turbulent Flows, CD-ROM.

7. S. Liu, C. Meneveau and J. Katz: 'Experimental studies of similarity subgrid-scale models of turbulence using conditional averaging' (1994), FED-ASME Forum on Turbulent Flows, p. 1-7.

8. J. O'Neil and C. Meneveau, 'Measurements of subgrid-scale stresses in the turbulent plane wake' (1994) (ASME), FED-ASME Forum on Turbulent Flows, p. 8-14.

9. S. Liu, C. Meneveau and J. Katz: 'Experimental study of similarity subgrid-scale models of turbulence in the far-field of a jet', (1994) in 'Direct and LES 1'. eds. P. Voke, L. Kleiser & J-P Chollet (Kluwer Acad. Amsterdam), p. 37-48.

Charles Meneveau, Department of Mechanical Engineering, Johns Hopkins University, 3400 N. Charles Street, Baltimore MD 21218, USA, Phone: 1-410-516-7802, Fax: 1-(410) 516-7254, email: meneveau@jhu.edu