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PUI-KUEN    YEUNG,    Ph.D.

Archival Journal Publications  (last updated 19 April 2005)

(in chronological order)
  1. Yeung, P.K. and Kot, S.C. (1985)
    On body-fitted coordinates for separated laminar flows past wall-mounted obstacles.
    International Journal for Numerical Methods in Engineering, Vol. 21, pp. 929-940.
  2. Yeung, P.K. and Kot, S.C. (1985)
    Computation of turbulent flows past arbitrary two-dimensional surface-mounted
    obstructions.
    Journal of Wind Engineering and Industrial Aerodynamics, Vol. 18, pp. 177-190.
  3. Yeung, P.K. and Pope, S.B. (1988)
    An algorithm for tracking fluid particles in numerical simulations of homogeneous turbulence.
    Journal of Computational Physics, Vol. 79, pp. 373-416.
  4. Yeung, P.K. and Pope, S.B. (1989)
    Lagrangian statistics from direct numerical simulations of isotropic turbulence.
    Journal of Fluid Mechanics, Vol. 207, pp. 531-586.
  5. Pope, S.B., Yeung, P.K., and Girimaji, S.S. (1989)
    The curvature of material surfaces in isotropic turbulence.
    Physics of Fluids A, Vol. 1, pp. 2010-2018.
  6. Yeung, P.K., Pope, S.B., and Girimaji, S.S. (1990)
    Straining and scalar dissipation on material surfaces in turbulence: implications for flamelets.
    Combustion and Flame, Vol. 79, pp. 340-365.
  7. Yeung, P.K. and Brasseur, J.G. (1991)
    The response of isotropic turbulence to isotropic and anisotropic forcing at the large scales.
    Physics of Fluids A Vol. 3, pp. 884-897.
  8. Yeung, P.K. and Pope, S.B. (1993)
    Differential diffusion of passive scalars in isotropic turbulence.
    Physics of Fluids A Vol. 5, pp. 2467-2478.
  9. Yeung, P.K. (1994a)
    Spectral transfer of self-similar passive scalar fields in isotropic turbulence.
    Physics of Fluids Vol. 6, pp. 2245-2247.
  10. Yeung, P.K. (1994b)
    Direct numerical simulation of two-particle relative diffusion in isotropic turbulence.
    Physics of Fluids Vol. 6, pp. 3416-3428.
  11. Yeung, P.K., Brasseur, J.G., and Wang, Q. (1995)
    Dynamics of large-to-small scale couplings in coherently forced turbulence: concurrent physical and Fourier-space views.
    Journal of Fluid Mechanics Vol. 283, pp. 43-95.
  12. Zhou, Y., Yeung, P.K. and Brasseur, J.G. (1996)
    Scale disparity and spectral transfer in anisotropic numerical turbulence.
    Physical Review E Vol. 53, pp. 1261-1264.
  13. Menon, S., Yeung, P.K. and Kim, W-W. (1996)
    Effect of subgrid models on the computed interscale energy transfer in isotropic turbulence.
    Computers and Fluids Vol. 25, pp. 165-180.
  14. Yeung, P.K. (1996)
    Multi-scalar triadic interactions in differential diffusion with and without mean scalar gradients.
    Journal of Fluid Mechanics Vol. 321, pp. 235-278.
  15. Bogucki, D., Domaradzki, J.A. and Yeung, P.K. (1997)
    Direct numerical simulations of passive scalars with  Sc=1/8, 1 advected by turbulent flow.
    Journal of Fluid Mechanics Vol. 343, pp. 111-130.
  16. Yeung, P.K. and Zhou, Y. (1997)
    On the universality of the Kolmogorov constant in numerical simulations of turbulence.
    Physical Review E Vol. 56, pp. 1746-1752.
  17. Yeung, P.K. (1997)
    One- and two-particle Lagrangian acceleration correlations in numerically simulated homogeneous turbulence.
    Physics of Fluids Vol. 9, pp. 2981-2990.
  18. Shen, P. and Yeung, P.K. (1997)
    Fluid particle dispersion in homogeneous turbulent shear flow.
    Physics of Fluids Vol. 9, pp. 3472-3484.
  19. Borgas, M.S. and Yeung, P.K. (1998)
    Conditional fluid particle accelerations in turbulence.
    Theoretical and Computational Fluid Dynamics Vol. 11, pp. 69-93.
  20. Yeung, P.K. (1998)
    Correlation and conditional statistics in differential diffusion: scalars with uniform mean gradients.
    Physics of Fluids Vol. 10, 2621-2635.
  21. Yeung, P.K. and Zhou, Y. (1998)
    Numerical study of rotating turbulence with external forcing.
    Physics of Fluids Vol. 10, 2895-2909.
  22. Vedula, P. and Yeung, P.K. (1999)
    Similarity scaling of acceleration and pressure statistics in numerical simulations of turbulence.
    Physics of Fluids Vol. 11, 1208-1220. [PDF]
  23. Yeung, P.K., Sykes, M.C. and Vedula, P. (2000)
    Direct numerical simulation of differential diffusion with Schmidt numbers up to 4.0. Physics of Fluids Vol. 12, 1601-1604.
  24. Sawford, B.L. and Yeung. P.K. (2000)
    Eulerian acceleration statistics as a discriminator between Lagrangian stochastic models in uniform shear flow.
    Physics of Fluids Vol. 12, 2033-2045. [PDF]
  25. Yeung, P.K. (2001)
    Lagrangian characteristics of turbulence and scalar transport in direct numerical simulations.
    Journal of Fluid Mechanics Vol. 427, 241-274. [PDF]
  26. Vedula, P., Yeung, P.K. and Fox, R.O. (2001)
    Dynamics of scalar dissipation in isotropic turbulence: a numerical and modeling study.
    Journal of Fluid Mechanics Vol. 433, 29-60. [PDF]
  27. Tsinober, A., Vedula, P. and Yeung, P.K (2001)
    Random Taylor hypothesis and the behavior of local and convective accelerations in isotropic turbulence.
    Physics of Fluids Vol. 13, 1974-1984. [PDF]
  28. Sawford, B.L. and Yeung. P.K. (2001)
    Lagrangian statistics in uniform shear flow: DNS and Lagrangian stochastic models.
    Physics of Fluids Vol. 13, 2627-2634. [PDF]
  29. Yeung, P.K. (2002)
    Lagrangian investigations of turbulence.
    Annual Review of Fluid Mechanics. Vol. 34, 115-142. (Invited) [PDF]
  30. Yeung, P.K. and Sawford, B.L. (2002)
    Random sweeping hypothesis for passive scalars in isotropic turbulence.
    Journal of Fluid Mechanics Vol. 459, 129-138. [PDF]
  31. Yeung, P.K., Xu, S., and Sreenivasan, K.R. (2002)
    Schmidt number effects on turbulent transport with uniform mean scalar gradient.
    Physics of Fluids Vol. 14, 4178-4191. [PDF]
  32. Schumacher, J., Sreenivasan, K.R., and Yeung, P.K. (2003a)
    Derivative moments in turbulent shear flows.
    Physics of Fluids Vol. 15, 84-90. [PDF]
  33. Schumacher, J., Sreenivasan, K.R., and Yeung, P.K. (2003b)
    Schmidt number dependence of derivative moments for quasistatic straining motion.
    Journal of Fluid Mechanics Vol. 479, 221-230. [PDF]
  34. Fox, R.O. and Yeung, P.K. (2003)
    Improved Lagrangian mixing models for passive scalars in isotropic turbulence.
    Physics of Fluids Vol. 15, 961-985. [PDF]
  35. Sawford, B.L, Yeung, P.K, Borgas, M.S., Vedula, P., LaPorta, A., Crawford, A.M., and Bodenschatz, E. (2003)
    Conditional and unconditional acceleration statistics in turbulence.
    Physics of Fluids Vol. 15, 3478-3489. [PDF]
  36. Yeung, P.K. and Xu, J. (2004)
    Effects of rotation on turbulent mixing: non-premixed passive scalars.
    Physics of Fluids Vol. 16, 93-103. [PDF]
  37. Yeung, P.K. and Borgas, M.S. (2004)
    Relative dispersion in isotropic turbulence: Part 1. Direct numerical simulations and Reynolds number dependence.
    Journal of Fluid Mechanics Vol. 503, 93-124. [PDF]
  38. Borgas, M.S. and Yeung, P.K. (2004)
    Relative dispersion in isotropic turbulence: Part 2. A new stochastic model with Reynolds number dependence.
    Journal of Fluid Mechanics Vol. 503, 125-160. [PDF]
  39. Yeung, P.K., Xu, S., Donzis, D.A., and Sreenivasan, K.R. (2004)
    Simulations of three-dimensional turbulent mixing for Schmidt numbers of the order 1000.
    Flow, Turbulence and Combustion Vol. 72, 333-347. [PDF]
  40. Borgas, M.S., Sawford, B.L., Xu, S., Donzis, D.A., and Yeung, P.K. (2004)
    High Schmidt number scalars in turbulence: structure functions and Lagrangian theory.
    Physics of Fluids Vol. 16, 3888-3899. [PDF]
  41. Schumacher, J., Sreenivasan, K.R. and Yeung, P.K. (2005)
    Finest dissipative structures in scalar mixing.
    Journal of Fluid Mechanics Vol. 531, 113-122.
  42. Donzis, D.A., Sreenivasan, K.R. and Yeung, P.K. (2005)
    Scalar dissipation rate and Dissipative anomaly in isotropic turbulence.
    Journal of Fluid Mechanics Vol. 532, 199-216. [PDF]
  43. Yeung, P.K., Donzis, D.A. and Sreenivasan, K.R. (2005)
    High-Reynolds-number simulation of turbulent mixing.
    Physics of Fluids Vol. 17, 081703. [PDF]
  44. Donzis, D.A., Yeung, P.K. and Sreenivasan, K.R. (2008)
    Energy dissipation rate and enstrophy in isotropic turbulence: resolution effects and scaling in direct numerical simulations.
    Physics of Fluids Vol. 20, 045108. [PDF]
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