Date of Birth: 05 June 1934 Phone: +7(495)434-53-69 E-mail: frost@ipmnet.ru

Education and Degrees:

1983	Doctor of Sciences Thesis : " The Unsteady Regimes of Solid Propelant Rocket Ingine "
1962	PhD, Technical science Thesis : "Some features of the working process of the scramjet"
1958–1961	Post-graduate at MIPT
1951–1957	Moscow Institute of Physics and Technology (MIPT), Faculty of aeromechanics

Research Area

• Modelling of turbulent reacting flows
• Turbulent mixing modelling
• The equations for the probability density functions of the reactants
• Hypotheses closing Karman-Howarth and Corrsin equations
• Large eddy simulation (LES) of turbulent reacting flows
• Direct numerical simulation (DNS) of turbulent reacting flows

Publications

List of Principal Papers

I. Pdf equation for turbulent flame modelling:

1. The mathematical model of turbulent combustion. // In Proceedings of the 3th USSR Meeting on theory of combustion/ M., 1960, pp. 122-125.
2. The model of turbulent diffusion flame.// Izv. Acad. of Sci. USSR, energy. and transport, 1973, No 6, pp. 108-116. (It was published in English//Fluid Res., Sov. Mech., 4, pp. 124-130, 1975.)
3. The model of premixed turbulent flame.// In Proc. of the 4th USSR Symposium on combustion and explosion. M., 1977, pp. 361-365.
4. Analysis of joint pdf equation in turbulent flow with density variations.(coauthors: V.M.Emelianov, S.A.Nedoroob) // In Proceedings of 24 Symp. (Int.) on Combustion, August 5-10 1992, Sydney, Pittsburgh, PA, pp. 435-442.
5. Turbulent Diffusion Flame with a Mean Streamwise Pressure Gradient (co-authors: M. Gorokhovski, Yu. Vladimirov). Proceedings of the Zel'dovich Memorial. Int. Conference on Combustion, Moscow, 12-17 Sept., 1994, pp. 247- 251.
6. Micromixing models in the frame of two concentrations PDF equation (co-authors: V.A.Kaminsky, A.B.Rabinovich). Statistical properties of turbulent gaseous flames. Preprints of Euromech Colloquium 340, Delft, The Netherlands, August 30-September 1, 1995. pp2 . Abstrct
7. Problems of turbulent combustion simulation.//Advanced Computation & Analysis of Combustion. Ed. by G.D.Roy, S.M.Frolov, P.Givi. ENAS Publisher. 1997, pp. 404-434.PDF-Paper
8. The problems of stochastic description of turbulent micromixing and combustion on the base of two-point probability distribution functions. (coauthors: N.N.Ivenskikh, V.P. Krasitskii)// Preprint of Inst. for Prob. in Mech. RAS, 2002, No 699.
9. Зона реакции в турбулентной среде// Математическое моделирование. 2015. Т. 27.
10. Reaction zone in turbulent fluid// Mathematical Models and Computer Simulations. 2015. Т. 7. № 5. С. 430-438.

II. Turbulent mixing modelling:

1. Mathematical description of turbulent combustion (co-authors: V.P.Krasitskii, M.L.Filimonov).// In Proceedings of Moscow seminar on combustion theory. 1970 , pp. 7-17.
2. Acceleration of the molecular transfer processes in turbulent flows.//Dokl. Acad. Nauk SSSR., 1967, v.176, No 4, pp. 794- 796.
3. Experimental researching of buoyancy forces on turbulent microscale mixing.(co-author: V.M.Emelianov)// Preprint of Inst. for Prob. in Mech. RAS, 1988, No351.
4. Mixing processes description in turbulent flows with density variations.//Preprint of Inst. for Prob. in Mech. RAS, 1990, No 483.
5. Pdf concentration and intermittency in turbulent jets. (in cooperation with V.R.Kuznetzov// Izv. Acad. of Sci. USSR, (ser. mech. gidk. i gasa), 1973, No2, pp. 58-64.
6. Simulation of Turbulent flows with fast chemistry reaction (co-authors: V.A.Kaminsky, A.Ya.Fedorov)//Theor. base of Chemical Techn. (Russian). 1994, v.28, No 6, pp.591-599.
7. Macrokinetical description of turbulent flows with fast chemical reactions (co-authors: V.A.Kaminsky)//Journ. of Physical Chemistry (Russian), No 12, 1995. pp8.
8. Turbulent transfer modeling in flows with chemical reaction (co-authors: Kaminsky V.A., Fedorov A.Ya.)//Proceedings of 8 Conference on transfer processes in combustion, San-Francisco, USA, July 15-20, 1995.љ
9. Turbulent diffusion and microscale mixing description for PDF equation for turbulent reacting flows simulation(co-authors: A.Ya.Fedorov, V.A.Kaminsky)//5th Int. Conference on numerical combustion. Germany, September 29-October 1, 1993.љ
10. Acceleration of the molecular transfer processes in turbulent flows.//Dokl. Acad. Nauk SSSR., 1967, v.176, No 4, pp. 794- 796.
11. Modelling of micromixing in turbulent combustion (co-authors: A.Ya.Fedorov, V.A.Kaminsky, A.B.Rabinovich).//Advanced љComputation & Analysis of Combustion. Ed. by G.D.Roy, S.M.Frolov, P.Givi. ENAS Publisher. 1997,љ pp. 360-370.
12. The problems of stocastic description of turbulent micromixing and combustion on the base of two-point probability distribbution functions. (co-authors: Ivenskikh N.N., Krasitskii V. P.) Preprint of Inst. for Prob. in Mech. RAS, 2002, No 699. Preprint # 699
13. Modelling of molecular mixing under turbulent action based on two-point description (coauthors: N.N.Ivenskikh, V.P. Krasitskii, D.O.Patrikeev)// Preprint of Inst. for Prob. in Mech. RAS, 2002, No 709.љPreprint # 709
14. PDF simulation of premixed combustion in turbulent flows. (co-authors: V.Kaminsky, A.Rabinovich) // Workshop on premixed turbulent combustion. Langevin center. Modana. France. February 5-10, 1995. WorkShop-paper

 

III. Hypotheses closing Karman-Howarth and Corrsin equations:

1. Molecular transfer in turbulent flows. (co-author: Krasitskii V. P.)// Fluid Dynamics. 2007. Т. 42. № 2. С. 190.
2. Approximation of the third two-point moments of the velcity field in isotropic turbulence (coauthor: Babenko V.A)// Fluid Dynamics. 2012. Т. 47. № 6. С. 735-747.
3. Modelling of the turbulent reacting flows on the base of the equation for the scalar field correlation function. (co-author: Babenko V.A.) // International Journal of Heat and Mass Transfer. 2009. Т. 52. № 13-14. С. 3314-3319. WorkShop-paper
4. Approximation of the two-point third moments of the velocity field in homogeneous turbulence. (co-authors: Babenko V.A.) // International Journal of Heat and Mass Transfer. 2012. Т. 55. № 9-10. С. 2676-2683.

 

IV. Abstracts:

1. Micromixing Algorithms for Turbulent Flows with Fast Chemical Processes. (co-authors: V.A.Kaminsky, A.B.Rabinovich) Damkoler

 

V. Other fields of interest:

1. About quenching of propellant combustion under pressure reducing. //PMTF Journal of USSR.,1972, No 5, pp. 113-118.
2. The investigations of quench phenomena for model with surface temperature variation. (co-author - V.Yumashev) // PMTF Journal of USSR. 1973, No 3, pp. 92-98.
3. Solid propellant combustion with macro-scale fluctuations of flow velocity. (co-author - V.Matveiev and V.Yumashev) // Fyz. gor. i vzryva, No 5, pp. 710-716, (1975).
4. Quenching of propellant under pressure reducing as being the process of instability. (co-author - V.Yumashev)// Fyz. gor. i vzryva, 1976, No 4, pp. 548-555.
5. The numerical method for plane hypersonic flows with automatic extractions of discontinuity lines. (co-author - A.Berland) // in "Numumerical methods in continuous media", 1972, 3, No 3, pp. 3-12.
6. Unsteady inner gravity waves. (in cooperation with Yu.V.Vladimirov) Preprint of Inst. for Prob. in Mech. RAS, 1989, No 415.
7. Some effects of density variations in turbulent flows with pressure fluctuations. In book "Unsteady Combustion", Kluwer Academic Publisher, Netherland, 1994. 10 pp. (co-authors: A.Burluka, V.Meitlis).
8. Decay of turbulence in fluid with density fluctuations under the stable stratification(co-author: V.M.Emelianov)//Preprints Fourth Int. Symposium on stratified flows, vol. 2, Grenoble, France, June 29-July 2, 1994. p.6.