1974<\/em><\/p>\n Statistische Untersuchung Einer Turbulenten, Reagierenden Stromung<\/b>, H. Knabben, W. Kollmann, and C. G. Stojanoff, Archiwum Procesow Spalania 5:295-310.<\/p>\n 1975<\/em><\/p>\n Calculation of Special Functional Integrals<\/b>, W. Kollmann, J. Math. Phys. 16:2197-2200.<\/p>\n 1976<\/em><\/p>\n Functional Integrals in the Statistical Theory of Turbulence and the Burgers Model Equation<\/b>, W. Kollmann, J. Stat. Phys. 14(3):291-303.<\/p>\n 1977<\/em><\/p>\n Numerishe Untersuchung Des Abklingvorganges Eines Freien Luftbogens<\/b>, W. Kollmann, H. Sommer, and C. G. Stojanoff, J. Non-Equilib. Thermodyn. 2:17-38.<\/p>\n Preliminary Report On Sheared Cellular Motion As a Qualitative Model of Homogeneous Turbulent Shear Flow<\/b>, S. Corrsin and W. Kollmann, Turbulence in Internal Flows, S. N. B. Murthy, Ed., Hemisphere Publishing, Pp. 11-33.<\/p>\n 1978<\/em><\/p>\n Ein Rechenmodell Fur Reagierende Turbulente Scherstromungen Im Chemischen Nichtgleichgewicht<\/b>, J. Janicka and W. Kollmann, Warme and Stoffubertragung 11:157-174.<\/p>\n The Solution of a PDF-Transport Equation for Turbulent Diffusion Flames<\/b>, J. Janicka, W. Kolbe, and W. Kollmann, Proceedings of the 26th Heat Transfer and Fluid Mechanics Institute, C. T. Crowe and W. T. Grosshandler, Eds., Stanford University Press, Pp. 296-312.<\/p>\n Two Variables Formalism for the Treatment of Chemical Reactions in Turbulent H2-Air Diffusion Flames<\/b>, J. Janicka and W. Kollmann, Proceedings of the 17th Symposium (Intl.) On Combustion, Leeds, Pp. 421-430.<\/p>\n 1979<\/em><\/p>\n Closure of the Transport Equation for the Probability Density Function of Turbulent Scalar Fields<\/b>, J. Janicka, W. Kolbe, and W. Kollmann, J. Nonequil. Thermodyn. 4:47-66.<\/p>\n The Calculation of Free Turbulent Shear Flows With Strong Density Fluctuations<\/b>, W. Kollmann and D. Vandromme, Int. J. Heat and Mass Transfer 22:1557-1565.<\/p>\n Turbulent Mixing in the Downstream-Mixing Gasdynamic Laster<\/b>, D. Vandromme, W. Kollmann, and J. F. Wendt, Proc. 2nd International Symposium On Gas-Flow and Chemical Lasers, Hemisphere Publishing Corp., Pp. 297-307.<\/p>\n Prediction Model for the PDF of Turbulent Temperature Fluctuations in a Heated Round Jet<\/b>, J. Janicka and W. Kollmann, Proc. Second Symposium On Turbulent Shear Flows, London, Pp. 1.7-1.11.<\/p>\n Turbulent Shear Flow With Fluctuating Density<\/b>, W. Kollmann and D. Vandromme, Paper No. 79-1485, AIAA 12th Fluid and Plasma Dynamics Conference, Williamsburg, Va.<\/p>\n A Prediction Model for Turbulent Diffusion Flames Including No-Formation<\/b>, J. Janicka and W. Kollmann, Agard Conference Proceedings Cp-275, Pp. 1-16.<\/p>\n 1980<\/em><\/p>\n Prediction of Turbulent Diffusion Flames With a Four-Equation Turbulence Model<\/b>, W. Kolbe and W. Kollmann, Acta Astronautica 7:91-104.<\/p>\n Computational Fluid Dynamics<\/b>, Volume I, W. Kollmann, Ed., Vki-Book, Hemisphere Publishing Corp., Washington, Dc.<\/p>\n Prediction Methods for Turbulent Flows<\/b>, Volume II, W. Kollmann, Ed., Vki-Book, Hemisphere Publishing Corp., Washington, Dc.<\/p>\n Computational Fluid Dynamics, Vol. 2<\/b>, W. Kollmann, Ed., Vki-Book, Hemisphere Publishing Corp. Washington, Dc.<\/p>\n Closure Model for Intermittent Turbulent Flows<\/b>, S. Byggstoyl and W. Kollmann, Int. J. Heat Mass Transfer 24:1811-1822.<\/p>\n 1981<\/em><\/p>\n The PDF of Temperature in Recirculating Flows<\/b>, W. Kollmann and F. Schmidt, Proc. Seventh Biennial Symposium On Turbulence, Rolla.<\/p>\n Second Order Closure for Variable Density Free Shear Layers<\/b>, D. Vandromme and W. Kollmann, Proc. Third Int. Symp. On Turbulent Shear Flows, Davis.<\/p>\n 1982<\/em><\/p>\n The Calculation of Mean Radical Concentrations in Turbulent Diffusion Flames<\/b>, J. Janicka and W. Kollmann, Combustion and Flame 44:319-336.<\/p>\n The Probability Density Function of a Passive Scalar in Turbulent Shear Flow<\/b>, W. Kollmann and J. Janicka, Physics of Fluids, Pp. 1755-1769.<\/p>\n 1983<\/em><\/p>\n Reynolds Stress Closure Model for Conditional Variables<\/b>, J. Janicka and W. Kollmann, Proceedings of Fourth International Symposium, Turbulent Shear Flows, Karlsruhe (Springer Verlag, Berlin).<\/p>\n Second Order Closure for the Calculation of Compressible Wall Bounded Flows With an Implicit Navier-Stokes Solver<\/b>, D. Vandromme, Hieu Ha-Minh, J. R. Viegas, M. Rubesin, and W. Kollmann, Proceedings of Fourth International Symposium, Turbulent Shear Flows, Karlsruhe (Springer Verlag, Berlin).<\/p>\n 1984<\/em><\/p>\n Prediction of the Intermittency Factor for Turbulent Shear Flows<\/b>, W. Kollmann, AIAA Journal 22:486-492.<\/p>\n Intermittent Turbulent Flow<\/b>, W. Kollmann, Proceedings of Fundamentals of Fluid Mechanics Conference, Evanston, Il (Springer Verlag).<\/p>\n Conserved Scalar Fluxes Measured in a Turbulent Nonpremixed Flame By Combined Laser Doppler Velocimetry and Laser Raman Scattering<\/b>, R. W. Dibble, W. Kollmann, and R. W. Schefer, Combustion and Flame 55:307-321.<\/p>\n Laser Measurements and Stochastic Simulation of Turbulent Reacting Flows<\/b>, S. C. Johnston, R. W. Dibble, R. W. Schefer, W. T. Ashurst, and W. Kollmann, AIAA-84-0543, Aerospace Sciences Conference, Reno, Nv.<\/p>\n Measurements and Predictions of Scalar Dissipation in Turbulent Jet Flames<\/b>, R. W. Dibble, W. Kollmann, and R. W. Schefer, Proceedings of 20th International Symposium, Combustion, Ann Arbor, Mi (Combustion Institute).<\/p>\n 1985<\/em><\/p>\n Multi-Scalar PDF Transport Equations for Turbulent Diffusion Flames<\/b>, W. P. Jones and W. Kollmann, Fifth International Symposium On Turbulent Shear Flows, Cornell University and Turbulent Shear Flows, Vol. 5 (F. Durst Et Al., Eds.), Springer V. (1987), Pp. 296-309.<\/p>\n Second-Order Closure for Turbulent Nonpremixed Flames<\/b>, M. Farshchi, W. Kollmann, R. W. Dibble, and R. W. Schefer, Fifth International Symposium On Turbulent Shear Flows, Cornell University.<\/p>\n The Behaviour of Turbulence Anisotropy Through Shock Waves and Expansions<\/b>, H. Ha-Minh, W. Kollmann, and D. Vandromme, Fifth International Symposium On Turbulent Shear Flows, Cornell University.<\/p>\n 1986<\/em><\/p>\n Stress Transport in the Rotational and Irrotational Zones of Turbulent Shear Flows<\/b>, S. Byggstoyl and W. Kollmann, Physics of Fluids 29:1423-1429.<\/p>\n A Closure Model for Conditioned Stress Equations and Its Application To Turbulent Shear Flows<\/b>, S. Byggstoyl and W. Kollmann, Physics of Fluids 29:1430-1440.<\/p>\n Second-Order Closure for Turbulent Nonpremixed Flames: Scalar Dissipation and Heat Release Effects<\/b>, R. W. Dibble, W. Kollmann, M. Farshchi, and R. W. Schefer, Twenty-First Symposium On Combustion, Munich.<\/p>\n Nonreacting Turbulent Mixing Flows<\/b>, F. C. Gouldin, R. W. Schefer, S. C. Johnston, and W. Kollmann, Progr. Energy Comb. Sci. 12:257-303.<\/p>\n Slow Chemistry Nonpremixed Flows<\/b>, M. C. Drake and W. Kollmann, Progr. Energy Comb. Sci. 12:373-392.<\/p>\n 1987<\/em><\/p>\n A Second-Order Closure Prediction of Premixed Turbulent Combustion in Jets<\/b>, N. Dave and W. Kollmann, Physics of Fluids 30:345-356.<\/p>\n Conditional Sampling of Velocity and Scalars in Turbulent Flames Using Simultaneous Ldv-Raman Scattering<\/b>, R. W. Dibble, V. Hartmann, R. W. Schefer and W. Kollmann, Experiments in Fluids 5:103-113.<\/p>\n PDF-Transport Equations for Chemically Reacting Flows<\/b>, W. Kollmann, Proc. U.S.-France Workshop On Turbulent Reactive Flows.Also Appeared In:<\/b>\u00a0Lecture Notes in Engineering, Vol. 40, R. Borghi and S. N. B. Murthy, Eds., Pp. 715-730, Springer Verlag,<\/p>\n 1989.<\/p>\n Scalar-Velocity PDF Equations for Turbulent Shear Flows<\/b>, W. Kollmann and A. Wu, AIAA Paper AIAA-87-1348.Also Appeared As:<\/b>Equation for the Probability Density Function of Velocity and Scalar for Turbulent Shear Flows<\/b>, W. Kollmann and A. Wu, AIAA Journal 27(8):1052-1058 (1989).<\/p>\n 1988<\/em><\/p>\n PDF Modeling of Chemical Nonequilibrium Effects in Turbulent Nonpremixed Hydrocarbon Flames<\/b>, J.-Y. Chen and W. Kollmann, Twenty-Second Symposium (Int.) Combustion, the Combustion Institute, Pp. 645-653.<\/p>\n 1989<\/em><\/p>\n PDF Modeling of Turbulent Nonpremixed Methane Jet Flames<\/b>, J.-Y. Chen, W. Kollmann, and R. W. Dibble, Combustion Science and Technology 64(4-6):315-346.<\/p>\n Mixing Models for Turbulent Flows With Exothermic Reactions<\/b>, J.-Y. Chen and W. Kollmann, Seventh Symposium On Turbulent Shear Flows, Vol. 2, Pp. 23.3.1-23.3.6, Stanford University.<\/p>\n 1990<\/em><\/p>\n The PDF Approach To Turbulent Flow<\/b>, W. Kollmann, Theoretical Comput. Fluid Dynamics 1:249-285.<\/p>\n Predictions of Soot in Laminar Diffusion Flames<\/b>, I. M. Kennedy, W. Kollmann, and J.-Y. Chen, AIAA Journal 29, Pp. 1452-14572Also Appeared In:<\/b>\u00a028th Aerospace Sciences Meeting, AIAA Paper 90-0459, January 8-11, Reno, Nv..<\/p>\n Chemical Models for PDF Modeling of Hydrogen-Air Nonpremixed Turbulent Flames<\/b>, J.-Y. Chen and W. Kollmann, Combustion Flame 79(1):75-99.<\/p>\n A Model for Soot Formation in a Laminar Diffusion Flame<\/b>, I. M. Kennedy, W. Kollmann, and J.-Y. Chen, Combustion Flame 81(1):73-85.<\/p>\n 1991<\/em><\/p>\n PDF Prediction of Sooting Turbulent Flames<\/b>, M. Metternich, W. Kollmann, I. M. Kennedy, and J.-Y. Chen, AIAA Meeting, Reno, Nv, 1991.<\/p>\n Segregation Parameters and Pair-Exchange Mixing Models for Turbulent Nonpremixed Flames<\/b>, J.-Y. Chen and W. Kollmann, Twenty-Third International Symposium On Combustion. the Combustion Institute, 1980, Pp. 751-757.<\/p>\n Analysis of Turbulent Mixing Models<\/b>, J.-Y. Chen, and W. Kollmann, Eighth Symposium On Turbulent Shear Flows, Munich, Germany, Pp. 22-1 – 22-5. (50%)<\/p>\n 1992<\/em><\/p>\n PDF Modeling and Analysis of Thermal No Formation in Turbulent Nonpremixed Hydrogen-Air Jet Flames<\/b>, J.-Y. Chen and W. Kollmann, Combustion & Flame 88, Pp. 397-412. (50%)<\/p>\n A Simulation of Particle Dispersion in a Turbulent Jet<\/b>, D. Hansell, I.M. Kennedy and W. Kollmann, Int. J. Multiphase Flow 18, Pp. 559-576. (35%)<\/p>\n The Interaction of Turbulence and Chemical Kinetics<\/b>, W. Kollmann and J.-Y. Chen, Major Research Topics in Combustion (M.Y. Hussaini, A. Kumar and R. G. Voight Eds.), Springer Verlag, Pp. 359-402. (50%)<\/p>\n 1993<\/em><\/p>\n Direct Simulation of a Turbulent Boundary Layer With Suction<\/b>, P. Mariani, P. Spalart and W. Kollmann, Near Wall Turbulent Flows (R.M.C. So, C.G. Speziale and B.E. Launder, Eds), Elsevier Sci, Publ. New York, Pp. 347-356. (30%)<\/p>\n Numerical Simulation of Particle Dispersion in Turbulent Jets<\/b>, J. J. Lienau, I.M. Kennedy and W. Kollmann, AIAA 93-0547. (35%)<\/p>\n Numerical Simulation of the Turbulent Flow in Round Jets<\/b>, J. J. Lienau and W. Kollmann, AIAA 93-0199. (50%)<\/p>\n PDF Prediction of Supersonic Hydrogen Flames<\/b>, P. Eifler and W. Kollmann, AIAA 93-0448. (60%)<\/p>\n Measurements and Predictions of the Non-Diffusive Reaction Product in a Co-Flow Turbulent Jet<\/b>, T. A. Jenkins, I. M. Kennedy and W. Kollmann, AIAA 93-0452.(35%)<\/p>\n Transient Behavior of Simplified Reaction Mechanisms for Methane Nonpremixed Combustion<\/b>, J.-Y. Chen, T. Kaiser, W. Kollmann, Combust. Sci. and Techn., 92, 313-347.(35%)<\/p>\n Numerical Simulation of Propagating Surfaces in Turbulent Jets<\/b>, J. J. Lienau and W. Kollmann, AIAA 93-3119. (50%)<\/p>\n Numerical Simulation of Low Reynolds Number Turbulence in Round Jets<\/b>, J.H. Chen, J.J. Lienau and W. Kollmann, Nineth Symposium On Turbulent Shear Flows, Kyoto, Japan, Pp. 9-4-1 – 9-4-6. (35%)<\/p>\n Role of Turbulent Shear Stresses in Particle Dispersion<\/b>, I. M. Kennedy and W. Kollmann, AIAA Journal 31, Pp. 1959-1960. (50%)<\/p>\n 1994<\/em><\/p>\n Comparison of Prediction and Measurements in Non-Premixed Turbulent Flames<\/b>, J.-Y. Chen and W. Kollmann, Turbulent Reacting Flows (P.A. Libby and F. A. Williams, Eds.), Pp. 211-308. (50%)<\/p>\n Structural Properties of Turbulent Round Jets<\/b>, J. J. Lienau, W. Kollmann and J. H. Chen, AIAA 94-0406. (40%)<\/p>\n Numerical Simulation of Vaporizing Particles in Turbulent Jets<\/b>, J. J. Lienau, I. M. Kennedy and W. Kollmann, AIAA 94-0662.<\/p>\n Topological and Geometrical Properties of Turbulent Flames<\/b>, J. H. Chen and W. Kollmann, AIAA 94-0098. (50%)<\/p>\n Large-Eddy Simulation Using the Finite-Element Method<\/b>, R. C. Mccallen, P. Gresho, J. M. Leone, Jr. and W. Kollmann, Proc. 1994 ASME Fluids Engineering Meeting, Lake Tahoe. (25%)<\/p>\n","protected":false},"excerpt":{"rendered":" Publications: 1974 Statistische Untersuchung Einer Turbulenten, Reagierenden Stromung, H. Knabben, W. Kollmann, and C. G. Stojanoff, Archiwum Procesow Spalania 5:295-310. 1975 Calculation of Special Functional Integrals, W. Kollmann, J. Math. Phys. 16:2197-2200. 1976 Functional Integrals in the Statistical Theory of Turbulence and the Burgers Model Equation, W. Kollmann, J. Stat. \u2026 Continue reading