A Comparison Of Inflow Generation Methods For Large-Eddy Simulation
Autor: | Francois T. Pronk, Steven J. Hulshoff |
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Jazyk: | angličtina |
Rok vydání: | 2012 |
Předmět: | |
DOI: | 10.5281/zenodo.1055175 |
Popis: | A study of various turbulent inflow generation methods was performed to compare their relative effectiveness for LES computations of turbulent boundary layers. This study confirmed the quality of the turbulent information produced by the family of recycling and rescaling methods which take information from within the computational domain. Furthermore, more general inflow methods also proved applicable to such simulations, with a precursor-like inflow and a random inflow augmented with forcing planes showing promising results. {"references":["P. Batten, U. Goldberg, and S. Chakravarthy, \"Interfacing Statistical\nTurbulence Closures With Large-Eddy Simulation: Boundary Conditions\nFor Large-Eddy Simulation,\" AIAA Journal, vol. 42, no. 3, pp. 485-492,\n2004.","S. Lee, S. K. Lele, and P. Moin, \"Simulation of spatially evolving\nturbulence and the applicability of Taylor's hypothesis in compressible\nflow,\" Physics of Fluids A: Fluid Dynamics, vol. 4, pp. 1521-1530,\n1992.","M. Pami`es, P. Weiss, E. Garnier, S. Deck, and P. Sagaut, \"Generation\nof synthetic turbulent inflow data for large eddy simulation of spatially\nevolving wall-bounded flows,\" Physics of Fluids, vol. 21, p. 045103,\n2009.","I. Marusic, \"On the role of large-scale structures in wall turbulence,\"\nPhysics of Fluids, vol. 13, pp. 735-743, 2001.","J. Schl¨uter, H. Pitsch, and P. Moin, \"Large Eddy Simulation Inflow\nConditions for Coupling with Reynolds-Averaged Flow Solvers,\" AIAA\njournal, vol. 42, no. 3, pp. 478-484, 2004.","P. Druault, J. F. Largeau, F. Coiffet, J. Delville, J. P. Bonnet, and\nS. Lardeau, \"Numerical Investigations of Turbulent Inflow Condition\nGeneration for LES,\" Journal of Fluids Engineering, vol. 127, no. 5,\npp. 945-948, 2005.","P. R. Spalart and A. Leonard, \"Direct numerical simulation of equilibrium\nturbulent boundary layers,\" in IN: Symposium on Turbulent Shear\nFlows, 5th, Ithaca, NY, August 7-9, 1985, Proceedings (A86-30201 13-\n34). University Park, PA, Pennsylvania State University, 1985, p. 9.35-\n9.40., 1985.","T. S. Lund, X. Wu, and K. D. Squires, \"Generation of Turbulent Inflow\nData for Spatially-Developing Boundary Layer Simulations,\" Journal of\nComputational Physics, vol. 140, no. 2, pp. 233-258, 1998.","P. Spalart, M. Strelets, and A. Travin, \"Direct numerical simulation of\nlarge-eddy-break-up devices in a boundary layer,\" International Journal\nof Heat and Fluid Flow, vol. 27, no. 5, pp. 902-910, 2006.\n[10] M. P. Simens, J. Jim'enez, S. Hoyas, and Y. Mizuno, \"A high-resolution\ncode for turbulent boundary layers,\" Journal of Computational Physics,\nvol. 228, no. 11, pp. 4218-4231, 2009.\n[11] A. Spille-Kohoff and H.-J. Kaltenbach, \"Generation of turbulent inflow\ndata with a prescribed shear-stress profile,\" 2001.\n[12] P. Schlatter and R. O¨ rlu¨., \"Assessment of direct numerical simulation\ndata of turbulent boundary layers,\" Journal of Fluid Mechanics, vol. 659,\nno. 1, pp. 116-126, 2010.\n[13] K. A. Chauhan, P. A. Monkewitz, and H. M. Nagib, \"Criteria for\nassessing experiments in zero pressure gradient boundary layers,\" Fluid\nDynamics Research, vol. 41, p. 021404, 2009.\n[14] P. Sagaut, E. Garnier, E. Tromeur, L. Larchevˆeque, and E. Labourasse,\n\"Turbulent Inflow Conditions for Large-Eddy Simulation of Compressible\nWall-Bounded Flows,\" AIAA Journal, vol. 42, no. 3, pp. 469-477,\n2004.\n[15] E. T. Spyropoulos and G. A. Blaisdell, \"Large-Eddy Simulation of a\nSpatially Evolving Supersonic Turbulent Boundary-Layer Flow,\" AIAA\njournal, vol. 36, no. 11, pp. 1983-1990, 1998.\n[16] T. Wei, R. Schmidt, and P. McMurtry, \"Comment on the Clauser chart\nmethod for determining the friction velocity,\" Experiments in Fluids,\nvol. 38, no. 5, pp. 695-699, 2005.\n[17] P. A. Monkewitz, K. A. Chauhan, and H. M. Nagib, \"Self-consistent\nhigh-reynolds-number asymptotics for zero-pressure-gradient turbulent\nboundary layers,\" Physics of Fluids, vol. 19, p. 115101, 2007.\n[18] A. Smits, N. Matheson, and P. Joubert, \"Low-reynolds-number turbulent\nboundary layers in zero and favorable pressure gradients,\" Journal of\nship research, vol. 27, no. 3, pp. 147-157, 1983."]} |
Databáze: | OpenAIRE |
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