UFR 1-07 References: Difference between revisions

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# <span id="16">Coats, C. M., Coherent structures in combustion, ''Prog. Energy Combust. Sci.'', 22, p.427&ndash;509, 1996</span>
# <span id="16">Coats, C. M., Coherent structures in combustion, ''Prog. Energy Combust. Sci.'', 22, p.427&ndash;509, 1996</span>
# <span id="17">Albers, B. W. and Agrawal, A. K., Schlieren analysis of an oscillating gas-jet diffusion flame, ''Combust. Flame'', 119, p.84&ndash;94, 1999</span>
# <span id="17">Albers, B. W. and Agrawal, A. K., Schlieren analysis of an oscillating gas-jet diffusion flame, ''Combust. Flame'', 119, p.84&ndash;94, 1999</span>
# <span id="18">Cetegen, B. M. and Kasper, K. D., Experiments on the oscillatory behavior of buoyant plumes of helium and helium-air mixtures, ''Phys. Fluids'', 8, &nbsp; p.2974, 1996</span>
# <span id="19">Gebhart, B., Jaluria, Y., Mahajan, R. L. and Sammakia, B., ''Buoyancy-induced flows and transport'', Hemisphere Pub. Corp., New York, 1988</span>
# <span id="20">Juang, X. and Luo, K. H., Spatial direct numerical simulation of the large vortical structures in forced plumes, ''Flow Turbul. Combust.'', 64,  p.43&ndash;69, 2000</span>
# <span id="21">Jiang, X. and Luo, K. H., Direct numerical simulation of the puffing phenomenon of an axisymmetric thermal plume, ''Theoret. Comput. Fluid Dynamics'', 14,  p.55&ndash;74, 2000</span>
# <span id="22">Subbarao, E. R. and Cantwell, B. J., Investigation of a co-flowing buoyant jet: experiments on the effect of Reynolds number and Richardson number, ''J. Fluid Mech.'', 245, p.69&ndash;90, 1992</span>


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Revision as of 07:45, 1 July 2010

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Underlying Flow Regime 1-07

Bibliography

  1. DesJardin, P. E., O‘Hern, T. J. and Tieszen, R., Large eddy simulation and experimental measurements of the near-field of a large turbulent helium plume, Phys. Fluids, 16 , p.1866 – 1883, 2004
  2. Tieszen, S. R., Pitsch, H., Blanquart, G. and Abarzhi, S., Toward the development of a LES-SGS closure model for buoyant plumes, in Proc. of the Summer Program, Center for Turbulence Research, Stanford, 2004
  3. Xin, Y., Baroclinic effects on fire flow field, in Proc. 4th Joint Meeting of the U.S. Section of the Combustion Institute, Philadelphia, PA, 2005
  4. O‘Hern, T. J., Weckman, E. J., Gerhart, A. L., Tieszen, S. R. and Schefer, R. W., Experimental study of a turbulent buoyant helium plume, J. Fluid Mech., 544, p.143–171, 2005
  5. Chen, C. J. and Rodi, W., Vertical buoyant jets: a review of experimental data, Pergamon, New York, 1980
  6. List, E. J., Turbulent jets and plumes, Ann. Rev. Fluid Mech., 14, p.189–212, 1982
  7. List, E. J., Mechanics of turbulent buoyant jets and plumes, in Turbulent Buoyant Jets and Plumes, Rodi, W. (Ed.), Pergamon Press, 1982
  8. Drysdale, D., An introduction to fire dynamics, John Wiley & Sons, 1998
  9. Dimonte, G., Youngs, D. L., Dimits, A., Weber, S., Marinak, M., Wunsch, S., Garasi, C., Robinson, A., Andrews, M. J., Ramaprabhu, P., Calder, A. C., Fryxell, B., Biello, Dursi, L., MacNeice, P., Olson, K., Ricker, P., Rosner, R., Timmes, F., Tufo, H., Young, Y.-N. And Zingale, M., A comparative study of the turbulent Rayleigh-Taylor instability using high-resolution three-dimensional numerical simulations: The Alpha-Group collaboration, Phys. Fluids, 16, p.1668–1693, 2004
  10. Cook, A. W. and Dimotakis, P. E., Transition stages of Rayleigh-Taylor instability between miscible fluids, J. Fluid Mech., 457, p.69–99, 2002
  11. Jacobs, J. W. and Dalziel, S. B., Rayleigh-Taylor instability in complex stratifications, J. Fluid Mech., 542, p.251–279, 2005
  12. Cabot, W. H., Cook, A. W., Miller, P. L., Laney, D. E., Miller, M. C. and Childs, H. R., Large-eddy simulation of Rayleigh-Taylor instability, Phys. Fluids, 17,  DOI:10.1063/1.1942519, 2005
  13. Cook, A. W., Cabot, W. and Miller, P. L., The mixing transition in Rayleigh-Taylor instability, J. Fluid Mech., 511, p.333–362, 2004
  14. Buckmaster, J. and Peters, N., The infinite candle and its stability — a paradigm for flickering diffusion flames, in Proc. 21st Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, PA, 1986
  15. Ghoniem, A. F., Lakkis, I. and Soteriou, M., Numerical simulation of the dynamics of large fire plumes and the phenomenon of puffing, in Proc. 26th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, PA, 1996
  16. Coats, C. M., Coherent structures in combustion, Prog. Energy Combust. Sci., 22, p.427–509, 1996
  17. Albers, B. W. and Agrawal, A. K., Schlieren analysis of an oscillating gas-jet diffusion flame, Combust. Flame, 119, p.84–94, 1999
  18. Cetegen, B. M. and Kasper, K. D., Experiments on the oscillatory behavior of buoyant plumes of helium and helium-air mixtures, Phys. Fluids, 8,   p.2974, 1996
  19. Gebhart, B., Jaluria, Y., Mahajan, R. L. and Sammakia, B., Buoyancy-induced flows and transport, Hemisphere Pub. Corp., New York, 1988
  20. Juang, X. and Luo, K. H., Spatial direct numerical simulation of the large vortical structures in forced plumes, Flow Turbul. Combust., 64, p.43–69, 2000
  21. Jiang, X. and Luo, K. H., Direct numerical simulation of the puffing phenomenon of an axisymmetric thermal plume, Theoret. Comput. Fluid Dynamics, 14, p.55–74, 2000
  22. Subbarao, E. R. and Cantwell, B. J., Investigation of a co-flowing buoyant jet: experiments on the effect of Reynolds number and Richardson number, J. Fluid Mech., 245, p.69–90, 1992


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