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1    User manual for 1993 version pulverized coal gasification and combustion 3-dimensional (pcgc-3).
Advanced Combustion Engineering Research Center, Brigham Young University, 1993.

2    FIELDVIEW Reference Manual, Software Release Version 10.
Intelligent Light, 2004.

3    KINetics for Fluent, Version 1.0.
Reaction Design, Inc., San Diego, CA, 2004.

4    VdmTools Programmer Manual, Version 3.2.0.
Visual Kinematics, Inc., 2005.

5    T. Ahmad, S. L. Plee, and J. P. Myers.
Computation of Nitric Oxide and Soot Emissions from Turbulent Diffusion Flames.
J. of Engineering for Gas Turbines and Power, 107:48-53, 1985.

6    B. J. Alder and T. E. Wainright.
Studies in Molecular Dynamics. II: Behaviour of Small Number of Spheres.
J. Chem. Phys., 33:1439, 1960.

7    B. J. Alder and T. E. Wainwright.
Studies in Molecular Dynamics II: Behaviour of a Small Number of Elastic Spheres.
J. Chem. Phys., 33:1439, 1990.

8    A. A. Amsden.
KIVA-3: A KIVA Program with Block-Structured Mesh for Complex Geometries.
Technical Report LA-12503-MS, UC-361, Los Alamos National Laboratory, Los Alamos, New Mexico, March 1993.

9    A. A. Amsden, P. J. O'Rourke, and T. D. Butler.
KIVA-2: A Computer Program for Chemically Reactive Flows with Sprays.
Technical Report LA-11560-MS, UC-96, Los Alamos National Laboratory, Los Alamos, New Mexico, May 1989.

10    T. B. Anderson and R. Jackson.
A Fluid Mechanical Description of Fluidized Beds.
I & EC Fundam., 6:527-534, 1967.

11    W. Anderson and D. L. Bonhus.
An Implicit Upwind Algorithm for Computing Turbulent Flows on Unstructured Grids.
Computers Fluids, 23(1):1-21, 1994.

12    A. Antifora, M. Sala, A. Perera, and L. Vigevano.
NOx Emissions in Combustion Systems of Coal Fired Furnaces with a Reducing Environment: Predictions and Measurements.
In Fourth International Conference on Technologies and Combustion for a Clean Environment, Lisbon, Portugal, 1997.

13    S. Armsfield and R. Street.
The Fractional-Step Method for the Navier-Stokes Equations on Staggered Grids: Accuracy of Three Variations.
Journal of Computational Physics, 153:660-665, 1999.

14    R. H. Augnier.
A Fast, Accurate Real Gas Equation of State for Fluid Dynamic Analysis Applications.
Journal of Fluids Engineering, 117:277-281, 1995.

15    F. Backmier, K. H. Eberius, and T. Just.
Comb. Sci. Tech., 7:77, 1973.

16    S. Badzioch and P. G. W. Hawksley.
Kinetics of Thermal Decomposition of Pulverized Coal Particles.
Ind. Eng. Chem. Process Design and Development, 9:521-530, 1970.

17    J. Baldyga.
Turbulent mixer model with application to homogenous instantaneous chemical reactions.
Chem. Eng. Sci., 44:1175-1182, 1989.

18    R. S. Barlow, G. J. Fiechtner, C. D. Carter, and J. Y. Chen.
Experiments on the Scalar Structure of Turbulent CO/H $_2$/N $_2$ Jet Flames.
Combustion and Flame, 120:549-569, 2000.

19    F. J. Barnes, J. H. Bromly, T. J. Edwards, and R. Madngezewsky.
NOx Emissions from Radiant Gas Burners.
Journal of the Institute of Energy, 155:184-188, 1988.

20    R. Barrett, M. Berry, T. F. Chan, J. Demmel, J. Donato, J. Dongarra, V. Eijkhout, R. Pozo, C. Romine, and H. Van der Vorst.
Templates for the Solution of Linear Systems: Building Blocks for Iterative Methods.
SIAM, Philadelphia, Pennsylvania, 2nd edition edition, 1994.

21    T. J. Barth and D. Jespersen.
The design and application of upwind schemes on unstructured meshes.
Technical Report AIAA-89-0366, AIAA 27th Aerospace Sciences Meeting, Reno, Nevada, 1989.

22    H. Barths, C. Antoni, and N. Peters.
Three-Dimensional Simulation of Pollutant Formation in a DI-Diesel Engine Using Multiple Interactive Flamelets.
SAE Paper, SAE, 1998.

23    H. Barths et al.
Simulation of pollutant formation in a gas turbine combustor using unsteady flamelets.
In 27th Symp. (Int'l.) on Combustion. The Combustion Institute, 1998.

24    G. K. Batchelor.
An Introduction to Fluid Dynamics.
Cambridge Univ. Press, Cambridge, England, 1967.

25    D. L. Baulch, D. D. Drysdall, D. G. Horne, and A. C. Lloyd.
Evaluated Kinetic Data for High Temperature Reactions, volume 1,2,3.
Butterworth, 1973.

26    D. L. Baulch et al.
Evaluated Kinetic Data for Combustion Modelling.
J. Physical and Chemical Reference Data, 21(3), 1992.

27    M. M. Baum and P. J. Street.
Predicting the Combustion Behavior of Coal Particles.
Combust. Sci. Tech., 3(5):231-243, 1971.

28    L. L. Baxter.
Turbulent Transport of Particles.
PhD thesis, Brigham Young University, Provo, Utah, 1989.

29    L. L. Baxter and P. J. Smith.
Turbulent Dispersion of Particles: The STP Model.
Energy & Fuels, 7:852-859, 1993.

30    W. Bechara, C. Bailly, P. Lafon, and S. Candel.
Stochastic Approach to Noise Modeling for Free Turbulent Flows.
AIAA Journal, 32:3, 1994.

31    M. Behnia, S. Parneix, Y. Shabany, and P. A. Durbin.
Numerical Study of Turbulent Heat Transfer in Confined and Unconfined Impinging Jets.
International Jounal of Heat and Fluid Flow, 20:1-9, 1999.

32    A. Bejan.
Convection Heat Transfer.
John Wiley and Sons, New York, 1984.

33    R. W. Bilger and R. E. Beck.
In 15th Symp. (Int'l.) on Combustion, page 541. The Combustion Institute, 1975.

34    R. W. Bilger, M. B. Esler, and S. H. Starner.
On Reduced Mechanisms for Methane-Air Combustion.
In Lecture Notes in Physics, volume 384, page 86. Springer-Verlag, 1991.

35    B. Binniger, M. Chan, G. Paczkko, and M. Herrmann.
Numerical Simulation of Turbulent Partially Premixed Hydrogen Flames with the Flamelet Model.
Technical report, Advanced Combustion Gmbh, Internal Report, 1998.

36    J. Blauvens, B. Smets, and J. Peters.
In 16th Symp. (Int'l.) on Combustion. The Combustion Institute, 1977.

37    R. M. Bowen.
Theory of Mixtures.
In A. C. Eringen, editor, Continuum Physics, pages 1-127. Academic Press, New York, 1976.

38    C. T. Bowman.
Chemistry of Gaseous Pollutant Formation and Destruction.
In W. Bartok and A. F. Sarofim, editors, Fossil Fuel Combustion. J. Wiley and Sons, Canada, 1991.

39    R. K. Boyd and J. H. Kent.
Three-dimensional furnace computer modeling.
In 21st Symp. (Int'l.) on Combustion, pages 265-274. The Combustion Institute, 1986.

40    J. U. Brackbill, D. B. Kothe, and C. Zemach.
A Continuum Method for Modeling Surface Tension.
J. Comput. Phys., 100:335-354, 1992.

41    A. Brandt.
Multi-level Adaptive Computations in Fluid Dynamics.
Technical Report AIAA-79-1455, AIAA, Williamsburg, VA, 1979.

42    K. N. Bray and N. Peters.
Laminar Flamelets in Turbulent Flames.
In P. A. Libby and F. A. Williams, editors, Turbulent Reacting Flows, pages 63-114. Academic Press, 1994.

43    K. S. Brentner and F. Farassat.
An Analytical Comparison of the Acoustic Analogy and Kirchhoff Formulations for Moving Surfaces.
AIAA Journal, 36(8), 1998.

44    J. Brouwer, M. P. Heap, D. W. Pershing, and P. J. Smith.
A Model for Prediction of Selective Non-Catalytic Reduction of Nitrogen Oxides by Ammonia, Urea, and Cyanuric Acid with Mixing Limitations in the Presence of CO.
In 26th Symposium (Int'l) on Combustion, The Combustion Institute, 1996.

45    S. Brunauer.
The Absorption of Gases and Vapors.
Princeton University Press, Princeton, NJ, 1943.

46    Trong T. Bui.
A Parallel, Finite-Volume Algorithm for Large-Eddy Simulation of Turbulent Flows.
Technical Memorandum NASA/TM-1999-206570, 1999.

47    R. Cao and S. B. Pope.
Numerical Integration of Stochastic Differential Equations: Weak Second-Order Mid-Point Scheme for Application in the Composition PDF Method.
Journal of Computational Physics, 185(1):194-212, 2003.

48    N. F. Carnahan and K. E. Starling.
Equations of State for Non-Attracting Rigid Spheres.
J. Chem. Phys., 51:635-636, 1969.

49    M. G. Carvalho, T. Farias, and P. Fontes.
Predicting Radiative Heat Transfer in Absorbing, Emitting, and Scattering Media Using the Discrete Transfer Method.
In W. A. Fiveland et al., editor, Fundamentals of Radiation Heat Transfer, volume 160, pages 17-26. ASME HTD, 1991.

50    J. R. Cash and A. H. Karp.
A variable order Runge-Kutta method for initial value problems with rapidly varying right-hand sides.
ACM Transactions on Mathematical Software, 16:201-222, 1990.

51    T. Cebeci and P. Bradshaw.
Momentum Transfer in Boundary Layers.
Hemisphere Publishing Corporation, New York, 1977.

52    S. Chapman and T. G. Cowling.
The Mathematical Theory of Non-Uniform Gases.
Cambridge University Press, Cambridge, England, 3rd edition, 1990.

53    S. Charpenay, M. A. Serio, and P. R. Solomon.
In 24th Symp. (Int'l.) on Combustion, pages 1189-1197. The Combustion Institute, 1992.

54    H. C. Chen and V. C. Patel.
Near-Wall Turbulence Models for Complex Flows Including Separation.
AIAA Journal, 26(6):641-648, 1988.

55    P. Cheng.
Two-Dimensional Radiating Gas Flow by a Moment Method.
AIAA Journal, 2:1662-1664, 1964.

56    N. P. Cheremisinoff.
Fluid Flow Pocket Handbook.
Gulf Publishing Co., Houston, TX., 1984.

57    R. V. Chima and M. S. Liou.
Comparison of the AUSM+ and H-CUSP schemes for turbomachinery applications.
NASA TM-2003-212457, 2003.

58    A. J. Chorin.
Numerical solution of navier-stokes equations.
Mathematics of Computation, 22:745-762, 1968.

59    D. Choudhury.
Introduction to the Renormalization Group Method and Turbulence Modeling.
Fluent Inc. Technical Memorandum TM-107, 1993.

60    B. H. Chowdhury.
Emission Control Alternatives for Electric Utility Power Plants.
Energy Sources, 18(4):393-406, October 1996.

61    E. H. Chui and G. D. Raithby.
Computation of Radiant Heat Transfer on a Non-Orthogonal Mesh Using the Finite-Volume Method.
Numerical Heat Transfer, Part B, 23:269-288, 1993.

62    Clift, Grace, and Weber.
Bubbles, Drops, and Particles.
Technical report, Academic Press, 1978.

63    P. J. Coelho and M. G. Carvalho.
Modelling of Soot Formation and Oxidation in Turbulent Diffusion Flames.
J. of Thermophysics and Heat Transfer, 9(4):644-652, 1995.

64    M. F. Cohen and D. P. Greenberg.
The Hemi-Cube: A Radiosity Solution for Complex Environments.
Computer Graphics, 19(3):31-40, 1985.

65    D. Cokljat, V. A. Ivanov, F. J. Sarasola, and S. A. Vasquez.
Multiphase k-epsilon Models for Unstructured Meshes.
In ASME 2000 Fluids Engineering Division Summer Meeting, Boston, USA, 2000.

66    D. Cokljat, M. Slack, and S. A. Vasquez.
Reynolds-Stress Model for Eulerian Multiphase.
In Y. Nagano K. Hanjalic and M. J. Tummers, editors, Proceedings of the 4th International Symposium on Turbulence Heat and Mass Transfer, pages 1047-1054. Begell House, Inc., 2003.

67    A. Coppalle and P. Vervisch.
The Total Emissivities of High-Temperature Flames.
Combustion and Flame, 49:101-108, 1983.

68    S. M. Correa.
A Review of NOx Formation Under Gas-Turbine Combustion Conditions.
Combustion Science and Technology, 87:329-362, 1992.

69    C. Crowe, M. Sommerfield, and Yutaka Tsuji.
Multiphase Flows with Droplets and Particles.
CRC Press, 1998.

70    G. T. Csanady.
Turbulent Diffusion of Heavy Particles in the Atmosphere.
J. Atmos. Science, 20:201-208, 1963.

71    N. Curle.
The Influence of Solid Boundaries upon Aerodynamic Sound.
Proceedings of the Royal Society of London. Series A, Mathematical and Physical Sciences, 231:505-514, 1955.

72    E. H. Cuthill and J. McKee.
Reducing Bandwidth of Sparse Symmetric Matrices.
In Proc. ACM 24th National Conf., pages 157-172, New York, 1969.

73    J. Dacles-Mariani, G. G. Zilliac, J. S. Chow, and P. Bradshaw.
Numerical/Experimental Study of a Wingtip Vortex in the Near Field.
AIAA Journal, 33(9):1561-1568, 1995.

74    J. M. Dalla Valle.
Pitman, London, 1948.

75    B. J. Daly and F. H. Harlow.
Transport Equations in Turbulence.
Phys. Fluids, 13:2634-2649, 1970.

76    J. F. Daunenhofer and J. R. Baron.
Grid Adaption for the 2D Euler Equations.
Technical Report AIAA-85-0484, American Institute of Aeronautics and Astronautics, 1985.

77    G. G. De Soete.
Overall Reaction Rates of NO and N $_2$ Formation from Fuel Nitrogen.
In 15th Symp. (Int'l.) on Combustion, pages 1093-1102. The Combustion Institute, 1975.

78    J. E. Dec.
A Conceptual Model of DI Diesel Combustion Based on Laser Sheet Imaging.
SAE Technical Paper 970873, SAE, 1997.

79    M. K. Denison and B. W. Webb.
A Spectral Line-Based Weighted-Sum-of-Gray-Gases Model for Arbitrary RTE Solvers.
J. Heat Transfer, 115:1002-1012, 1993.

80    P. R. Desam.
Subgrid Scale Model Development and Validation for Thermal Nitric Oxide Prediction in Glass Furnaces.
PhD thesis, The University of Utah, 2005.

81    J. Ding and D. Gidaspow.
A Bubbling Fluidization Model Using Kinetic Theory of Granular Flow.
AIChE J., 36(4):523-538, 1990.

82    G. Dixon-Lewis.
Structure of Laminar Flames.
In 23rd Symp. (Int'l.) on Combustion, pages 305-324. The Combustion Institute, 1990.

83    N. Dombrowski and P. C. Hooper.
The effect of ambient density or drop formation in sprays.
Chemical Engineering Science, 17:291-305, 1962.

84    N. Dombrowski and W. R. Johns.
The aerodynamic Instability and Disintegration of Viscous Liquid Sheets.
Chemical Engineering Science, 18:203, 1963.

85    C. Dopazo and E. E. O'Brien.
Functional formulation of nonisothermal turbulent reactive flows.
Phys. Fluids, 17:1968, 1975.

86    A. M. Douaud and P. Eyzat.
Four-Octane-Number Method for Predicting the Anti-Knock Behavior of Fuels in Engines.
SAE Technical Paper, v87 780080, SAE, 1978.

87    M. C. Drake and R. J. Blint.
Relative Importance of Nitrogen Oxide Formation Mechanisms in Laminar Opposed-Flow Diffusion Flames.
Combustion and Flame, 83:185-203, 1991.

88    M. C. Drake, S. M. Correa, R. W. Pitz, W. Shyy, and C. P. Fenimore.
Superequilibrium and Thermal Nitric Oxide Formation in Turbulent Diffusion Flames.
Combustion and Flame, 69:347-365, 1987.

89    M. C. Drake, R. W. Pitz, M. Lapp, C. P. Fenimore, R. P. Lucht, D. W. Sweeney, and N. M. Laurendeau.
In 20th Symp. (Int'l.) on Combustion, page 327. The Combustion Institute, 1984.

90    D. A. Drew and R. T. Lahey.
In Particulate Two-Phase Flow, pages 509-566. Butterworth-Heinemann, Boston, 1993.

91    J. K. Dukowwicz and A. S. Dvinsky.
Approximate Factorization as a High-Order Splitting for the Implicit Incompressible Flow Equations.
Journal of Computational Physics, 102:336-347, 1992.

92    P. A. Durbin.
Separated Flow Computations with the $k$- $\epsilon$- $v^2$ Model.
AIAA Journal, 33(4):659-664, 1995.

93    E. R. G. Eckert and R. M. Drake.
Analysis of Heat and Mass Transfer.
McGraw-Hill Co., 1972.

94    D. K. Edwards and R. Matavosian.
Scaling Rules for Total Absorptivity and Emissivity of Gases.
J. Heat Transfer, 106:684-689, 1984.

95    J. K. Edwards, K. Jeremy, B. S. McLaury, S. Brenton, S. A. Shirazi, and A. Siamack.
Supplementing a CFD Code with Erosion Prediction Capabilities.
In Proceedings of ASME FEDSM'98: ASME 1998 Fluids Engineering Division Summer Meeting, Washington DC, June 1998.

96    J. K. Edwards, B. S. McLaury, and S. A. Shirazi.
Evaluation of Alternative Pipe Bend Fittings in Erosive Service.
In Proceedings of ASME FEDSM'00: ASME 2000 Fluids Engineering Division Summer Meeting, Boston, June 2000.

97    S. E. Elgobashi and T. W. Abou-Arab.
A Two-Equation Turbulence Model for Two-Phase Flows.
Phys. Fluids, 26(4):931-938, 1983.

98    S. Ergun.
Fluid Flow through Packed Columns.
Chem. Eng. Prog., 48(2):89-94, 1952.

99    G. Erlebacher, M. Y. Hussaini, C. G. Speziale, and T. A. Zang.
Toward the Large-Eddy Simulation of Compressible Turbulent Flows.
J. Fluid Mech., 238:155-185, 1992.

100    G. M. Faeth.
Spray Atomization and Combustion.
AIAA Journal, (86-0136), 1986.

101    R. F. Fedors and R. F. Landell.
An Empirical Method of Estimating the Void Fraction in Mixtures of Uniform Particles of Different Size.
Powder Technology, 23:225-231.

102    C. P. Fenimore.
Formation of Nitric Oxide in Premixed Hydrocarbon Flames.
In 13th Symp. (Int'l.) on Combustion, page 373. The Combustion Institute, 1971.

103    C. P. Fenimore.
Destruction of NO by NH $_3$ in Lean Burnt Gas.
Combustion and Flame, 37:245, 1980.

104    J. L. Ferzieger and M. Peric.
Computational Methods for Fluid Dynamics.
Springer-Verlag, Heidelberg, 1996.

105    J. E. Ffowcs-Williams and D. L. Hawkings.
Sound Generation by Turbulence and Surfaces in Arbitrary Motion.
Proc. Roy. Soc. London, A264:321-342, 1969.

106    M. A. Field.
Rate of Combustion Of Size-Graded Fractions of Char from a Low Rank Coal between 1200 K-2000 K.
Combustion and Flame, 13:237-252, 1969.

107    I. Finnie.
Erosion of Surfaces by Solid Particles.
Wear, 3:87-103, 1960.

108    W. A. Fiveland and A. S. Jamaluddin.
Three-Dimensional Spectral Radiative Heat Transfer Solutions by the Discrete Ordinates Method.
HTD Vol. 106, Heat Transfer Phenomena in Radiation, Combustion and Fires, pp. 43-48, 1989.

109    T. H. Fletcher and D. R. Hardesty.
Compilation of Sandia coal devolatilization data: Milestone report.
Sandia Report SAND92-8209, 1992.

110    T. H. Fletcher and A. R. Kerstein.
Chemical percolation model for devolatilization: 3. Direct use of $^{13}$C NMR data to predict effects of coal type.
Energy and Fuels, 6:414, 1992.

111    T. H. Fletcher, A. R. Kerstein, R. J. Pugmire, and D. M. Grant.
Chemical percolation model for devolatilization: 2. Temperature and heating rate effects on product yields.
Energy and Fuels, 4:54, 1990.

112    W. L. Flower, R. K. Hanson, and C. H. Kruger.
In 15th Symp. (Int'l.) on Combustion, page 823. The Combustion Institute, 1975.

113    R. O. Fox.
Computational Models for Turbulent Reacting Flows.
Cambridge University Press, Cambridge, England, 2003.

114    S. Fu, B. E. Launder, and M. A. Leschziner.
Modeling Strongly Swirling Recirculating Jet Flow with Reynolds-Stress Transport Closures.
In Sixth Symposium on Turbulent Shear Flows, Toulouse, France, 1987.

115    J. Garside and M. R. Al-Dibouni.
Velocity-Voidage Relationships for Fluidization and Sedimentation.
I & EC Process Des. Dev., 16:206-214, 1977.

116    M. Germano, U. Piomelli, P. Moin, and W. H. Cabot.
Dynamic Subgrid-Scale Eddy Viscosity Model.
In Summer Workshop, Center for Turbulence Research, Stanford, CA, 1996.

117    T. Gessner.
Dynamic Mesh Adaption for Supersonic Combustion Waves Modeled with Detailed Reaction Mechanisms.
PhD thesis, University of Freiburg, Freiburg, Germany, 2001.

118    N. E. Gibbs, W. G. Poole, Jr., and P. K. Stockmeyer.
An algorithm for reducing the bandwidth and profile of a sparse matrix.
SIAM J. Numer. Anal., 13:236-250, 1976.

119    M. M. Gibson and B. E. Launder.
Ground Effects on Pressure Fluctuations in the Atmospheric Boundary Layer.
J. Fluid Mech., 86:491-511, 1978.

120    D. Gidaspow.
Multiphase Flow and Fluidization.
Academic Press, Boston, 1994.

121    D. Gidaspow, R. Bezburuah, and J. Ding.
Hydrodynamics of Circulating Fluidized Beds, Kinetic Theory Approach.
In Fluidization VII, Proceedings of the 7th Engineering Foundation Conference on Fluidization, pages 75-82, 1992.

122    R. G. Gilbert, K. Luther, and J. Troe.
Ber. Bunsenges. Phys. Chem., 87, 1983.

123    M. Giles.
Non-Reflecting Boundary Conditions for the Euler Equations.
Technical Report TR 88-1-1988, Computational Fluid Dynamics Laboratory, Massachusetts Institute of Technology, Cambridge, MA.

124    P. Glarborg, J. E. Johnsson, and K. Dam-Johansen.
Kinetics of Homogeneous Nitrous Oxide Decomposition.
Combustion and Flame, 99:523-532, 1994.

125    M. E. Goldstein and B. Rosenbaum.
Effect of Anisotropic Turbulence on Aerodynamic Noise.
Journal of the Acoustical Society of America, 54:630-645, 1973.

126    J. Gottgens, F. Mauss, and N. Peters.
Analytic Approximations of Burning Velocities and Flame Thicknesses of Lean Hydrogen, Methane, Ethylene, Ethane, Acetylene and Propane Flames.
In Twenty-Fourth Symposium (Int.) on Combustion, pages 129-135, Pittsburgh, 1992.

127    I. R. Gran and B. F. Magnussen.
A numerical study of a bluff-body stabilized diffusion flame. part 2. influence of combustion modeling and finite-rate chemistry.
Combustion Science and Technology, 119:191, 1996.

128    D. M. Grant, R. J. Pugmire, T. H. Fletcher, and A. R. Kerstein.
Chemical percolation model of coal devolatilization using percolation lattice statistics.
Energy and Fuels, 3:175, 1989.

129    P. M. Gresho, R. L. Lee, and R. L. Sani.
On the Time-Dependent Solution of the Incompressible Navier-Stokes Equations in Two and Three Dimensions.
In Recent Advances in Numerical Methods in Fluids. Pineridge Press, Swansea, U. K., 1980.

130    D. J. Gunn.
Transfer of Heat or Mass to Particles in Fixed and Fluidized Beds.
Int. J. Heat Mass Transfer, 21:467-476, 1978.

131    W. W. Hagerty and J. F. Shea.
A Study of the Stability of Plane Fluid Sheets.
Journal of Applied Mechanics, 22:509, 1955.

132    A. Haider and O. Levenspiel.
Drag Coefficient and Terminal Velocity of Spherical and Nonspherical Particles.
Powder Technology, 58:63-70, 1989.

133    M. P. Halstead, L. J. Kirsch, and C. P. Quinn.
Autoignition of Hydrocarbon Fuels at High Temperatures and Pressures - Fitting of a Mathematical Model.
Combustion and Flame, 30:45-60, 1977.

134    Z. Han, S. Perrish, P. V. Farrell, and R. D. Reitz.
Modeling Atomization Processes of Pressure-Swirl Hollow-Cone Fuel Sprays.
Atomization and Sprays, 7(6):663-684, Nov.-Dec. 1997.

135    G. Hand, M. Missaghi, M. Pourkashanian, and A. Williams.
Experimental Studies and Computer Modelling of Nitrogen Oxides in a Cylindrical Furnace.
In Proceedings of the Ninth Members Conference, volume 2. IFRF Doc No K21/g/30, 1989.

136    R. K. Hanson and S. Salimian.
Survey of Rate Constants in H/N/O Systems.
In W. C. Gardiner, editor, Combustion Chemistry, page 361, 1984.

137    H. O. Hardenburg and F. W. Hase.
An Empirical Formula for Computing the Pressure Rise Delay of a Fuel from its Cetane Number and from the Relevant Parameters of Direct Injection Diesel Engines.
SAE Technical Paper 790493, SAE, 1979.

138    K. Haugen, O. Kvernvold, A. Ronald, and R. Sandberg.
Sand Erosion of Wear-resistant Materials: Erosion in Choke Valves.
Wear, 186-187:179-188, 1995.

139    R. A. W. M. Henkes and C. J. Hoogendoorn.
Scaling of the Turbulent Natural Convection Flow in a Heated Square Cavity.
Trans. of the ASME, 116:400-408, May 1994.

140    R. A. W. M. Henkes, F. F. van der Flugt, and C. J. Hoogendoorn.
Natural Convection Flow in a Square Cavity Calculated with Low-Reynolds-Number Turbulence Models.
Int. J. Heat Mass Transfer, 34:1543-1557, 1991.

141    J. B. Heywood.
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281    N. Peters.
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282    N. Peters and S. Donnerhack.
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284    K. K. Pillai.
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285    H. Pitsch, H. Barths, and N. Peters.
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286    H. Pitsch and N. Peters.
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287    T. J. Poinsot and S. K. Lele.
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288    T. J. Poinsot and L. Selle.
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289    S. B. Pope.
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290    S. B. Pope.
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292    S. B. Pope.
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293    I. Proudman.
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294    G. D. Raithby and E. H. Chui.
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295    W. E. Ranz.
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296    W. E. Ranz and W. R. Marshall, Jr.
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297    W. E. Ranz and W. R. Marshall, Jr.
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298    R. D. Rauch, J. T. Batira, and N. T. Y. Yang.
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299    R. D. Reitz.
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300    R. D. Reitz and F. V. Bracco.
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301    R. D. Reitz and F. V. Bracco.
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302    W. C. Reynolds.
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303    W. C. Reynolds.
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304    C. M. Rhie and W. L. Chow.
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305    H. S. Ribner.
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306    J. R. Richardson and W. N. Zaki.
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307    C. E. Roberts and R. D. Matthews.
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308    P. L. Roe.
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314    M. M. Salama and E. S. Venkatesh.
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315    S. Sarkar and L. Balakrishnan.
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316    S. Sarkar and M. Y. Hussaini.
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317    A. Saxer.
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318    S. S. Sazhin.
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319    D. G. Schaeffer.
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320    R. W. Schefer, M. Namazian, and J. Kelly.
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322    H. Schlichting.
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324    D. P. Schmidt, M. L. Corradini, and C. J. Rutland.
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326    P. K. Senecal, D. P. Schmidt, I. Nouar, C. J. Rutland, and R. D. Reitz.
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328    A. A. Shabana.
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329    N. G. Shah.
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330    T.-H. Shih, W. W. Liou, A. Shabbir, Z. Yang, and J. Zhu.
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334    C. Simonin and P. L. Viollet.
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335    A. K. Singhal, H. Y. Li, M. M. Athavale, and Y. Jiang.
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336    Y. R. Sivathanu and G. M. Faeth.
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337    J. Smagorinsky.
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342    I. W. Smith.
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343    J. M. Smith and H. C. Van Ness.
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344    T. F. Smith, Z. F. Shen, and J. N. Friedman.
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345    L. D. Smoot and P. J. Smith.
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346    D. O. Snyder, E. K. Koutsavdis, and J. S. R. Anttonen.
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348    C. Soteriou, R. Andrews, and M. Smith.
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353    H. B. Squire.
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355    D. W. Stanton and C. J. Rutland.
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356    R. C. Steele, P. C. Malte, D. G. Nichol, and J. C. Kramlich.
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360    K. Sutton and P. A. Gnoffo.
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365    D. Tabacco, C. Innarella, and C. Bruno.
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366    W. Tabakoff and T. Wakeman.
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377    O. Ubbink.
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383    V. R. Voller.
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384    V. R. Voller, A. D. Brent, and K. J. Reid.
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386    V. R. Voller and C. R. Swaminathan.
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387    K. S. Vorres.
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388    H. Wagner.
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389    L. P. Wang.
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390    J. Warnatz.
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391    G. P. Warren, W. K. Anderson, J. L. Thomas, and S. L. Krist.
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393    J. M. Weiss.
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394    J. M. Weiss, J. P. Maruszewski, and W. A. Smith.
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395    J. M. Weiss, J. P. Maruszewski, and W. A. Smith.
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396    J. M. Weiss and W. A. Smith.
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397    C.-Y. Wen and Y. H. Yu.
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398    H. Werner and H. Wengle.
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399    C. Westbrook and F. Dryer.
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400    C. Westbrook and F. Dryer.
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401    A. A. Westenberg.
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402    F. White and G. Christoph.
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403    D. C. Wilcox.
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404    F. A. Williams.
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405    F. Winter, C. Wartha, G. Loffler, and H. Hofbauer.
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407    P.-K. Wu, L.-K. Tseng, and G. M. Faeth.
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409    J. B. Young.
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410    J. B. Young.
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411    J. B. Young.
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416    V. L. Zimont, F. Biagioli, and K. J. Syed.
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