References for the Reacting Flow Interfaces
1.
W.M. Kays, “Turbulent Prandtl Number — Where Are We?”,
ASME J. Heat Transfer
, vol. 116, pp. 284–295, 1994.
2.
S. Kubacki and E. Dick, “Simulation of Impinging Mass Transfer at High Schmidt Number with Algebraic Models,”
Progress in Computational Fluid Dynamics
, vol. 11, no. 1, pp. 30–41, 2011.
3.
Y. Na and T.J. Hanratty, “Limiting Behavior of Turbulent Scalar Transport Close to the Wall,”
Int. J. Heat Mass Transfer
, vol. 43, pp. 1749–1758, 2000.
4.
B.A. Kader, “Temperature and Concentration Profiles in Fully Turbulent Boundary Layers”,
Int. J. Heat Mass Transf.
, vol. 24, pp. 1541–1544, 1981.
5.
T. Poinsot and D. Veynante,
Theoretical and Numerical Combustion
, 2nd. ed., R.T. Edwards, Philadelphia, 2005.
6.
B.F. Magnussen and B.H. Hjertager, “On Mathematical Modeling of Turbulent Combustion with Special Emphasis on Soot Formation and Combustion,”
16th Symp. (Int.) on Combustion
. Comb. Inst., Pittsburgh, Pennsylvania, pp. 719–729, 1976.
7.
A. Bakker and J.B. Fasano, “Time Dependent, Turbulent Mixing and Chemical Reactions in Stirred Tank,”
AIChE Symposium Series 299
, vol. 90, pp. 71–78, 1993.
8.
D. Lacasse, È. Turgeon, and D. Pelletier, “On the Judicious Use of the
k
-
ε
Model, Wall Functions and Adaptivity,”
Int.J. Therm. Sci.,
vol. 43, pp. 925–938, 2004.
9.
H.A. Jakobsen,
Chemical Reactor Modeling: Multiphase Reactive Flows
, Springer, 2008.