Popov Valentin Nikolaevich

Publications in Math-Net.Ru

1. Calculation of the transport properties of dilute gas mixtures on the basis model potentials. Mercury–argon system
   
   TVT, 55:2 (2017),  216–222
2. General function of the unit compressibility factor for liquid and gaseous mercury
   
   TVT, 51:4 (2013),  520–523
3. An approximate numerical method of solving collision integrals for the Morse potential in a wide parameter interval
   
   TVT, 51:1 (2013),  73–78
4. Thermal properties of mercury on the basis of model potentials
   
   TVT, 50:6 (2012),  752–759
5. Equation of State and Thermodynamic Properties of Saturated and Superheated Mercury Vapors up to $1650$ K and $125$ MPa
   
   TVT, 49:6 (2011),  862–871
6. A new equation of state for rubidium vapors at temperatures up to $1600$ K and pressures up to $4$ MPa
   
   TVT, 44:1 (2006),  68–81
7. Turbulent transport of momentum, heat, and mass of components of a mixture under conditions of free and mixed thermoconcentration convection in the vicinity of an inclined surface
   
   TVT, 37:1 (1999),  78–86
8. Analytical representation of collision integrals for the ($m$–$6$) Lennard–Jones potentials in the EPIDIF database
   
   TVT, 37:1 (1999),  49–55
9. Turbulent transport of momentum, heat and mass of components of a mixture under conditions of free and mixed thermoconcentration convection during flow past a vertical surface
   
   TVT, 36:5 (1998),  785–793
10. Numerical simulation of the process of nonstationary conjugate heat transfer in turbulent flows of liquid in channels
    
    TVT, 35:6 (1997),  917–925
11. Numerical simulation of heat transfer and hydrodynamic processes with the flow rate of liquid decreasing in time
    
    TVT, 35:2 (1997),  249–256
12. Numerical simulation of processes of heat transfer and hydrodynamics under conditions of liquid flow rate increasing with time
    
    TVT, 34:4 (1996),  551–559
13. Heat transfer and friction resistance at the turbulent flow in a flat curvilinear channel
    
    TVT, 33:3 (1995),  410–421
14. Mathematical simulation of pulsing turbulent flow in a pipe
    
    Dokl. Akad. Nauk, 332:1 (1993),  44–47
15. The effect of free thermoconcentration convection on turbulent transfer in a horizontal boundary layer
    
    TVT, 31:2 (1993),  239–251
16. Heat-transfer and turbulent-flow of cooled helium with supercritical state parameters in a tube
    
    TVT, 27:3 (1989),  506–514
17. Calculation of heat-transfer and flow resistance in the turbulent pipe-flow of cooled carbon-dioxide in the supercritical region
    
    TVT, 23:2 (1985),  309–316
18. Effects of free-convection on turbulent transport in a flow of liquid on an inclined surface
    
    TVT, 22:2 (1984),  315–323
19. The effects of free-convection on turbulent transport for a liquid flowing in a vertical channel
    
    TVT, 21:3 (1983),  515–521
20. Effects of free-convection on turbulent transport for a liquid flowing in a horizontal channel
    
    TVT, 21:2 (1983),  281–291
21. Heat-transfer in laminar free-convection near a vertical plate for fluids in the supercritical regions of state variables
    
    TVT, 20:6 (1982),  1110–1118
22. Расчет теплоотдачи и сопротивления при турбулентном режиме течения в круглой трубе гелия при сверхкритическом давлении
    
    TVT, 16:5 (1978),  1018–1027
23. Взаимодействие теплопроводности и излучения в плоском слое газа при наличии полосного спектра
    
    TVT, 16:2 (1978),  344–348
24. Calculation of heat exchange and resistance under conditions of turbulent flow in a round pipe of liquid with various types of dependence of physical properties on the temperature
    
    TVT, 15:6 (1977),  1220–1229
25. К расчету процессов теплообмена и турбулентного течения сжимаемой жидкости в круглой трубе
    
    TVT, 15:4 (1977),  795–801
26. Теплоотдача при переходном и турбулентном с малыми числами Рейнольдса режимах течения жидкости в круглой трубе
    
    TVT, 13:2 (1975),  370–378
27. Коэффициенты восстановления температуры при турбулентном течении жидкости в круглой трубе
    
    TVT, 10:6 (1972),  1231–1241
28. Теплоотдача и адиабатная температура стенки при турбулентном течении жидкости в круглой трубе
    
    TVT, 10:4 (1972),  804–813
29. Теплоотдача, адиабатная энтальпия (температура) стенки и гидродинамическое сопротивление при турбулентном и ламинарном течении в круглой трубе сжимаемой жидкости
    
    TVT, 10:3 (1972),  572–586
30. Heat transfer and resistance with the turbulent flow of dissociated and ionized air in an equilibrium state around a plate
    
    TVT, 8:6 (1970),  1209–1217
31. Heat transfer and resistance in the longitudinal turbulent flow of air around a plate
    
    TVT, 8:5 (1970),  1032–1042
32. Heat transfer and frictional drag in the longitudinal flow of a gas with variable physical properties past a plate
    
    TVT, 8:2 (1970),  333–345
33. Теплоотдача и сопротивление трения при турбулентном течении в трубе диссоциирующей четырехокиси азота
    
    TVT, 6:4 (1968),  665–673
34. Теоретический расчет теплоотдачи и сопротивления трения для двуокиси углерода в сверхкритической области при ламинарном течении в круглой трубе
    
    TVT, 4:5 (1966),  689–697
35. Теоретический расчет теплоотдачи и сопротивления трения при ламинарном течении в трубе равновесно диссоциирующего водорода
    
    TVT, 4:4 (1966),  531–539
36. Об искажении температурного поля в области заделки термопары
    
    TVT, 4:2 (1966),  261–266
37. Теоретический расчет теплоотдачи и сопротивления трения при турбулентном течении в трубе равновесно диссоциирующего водорода
    
    TVT, 2:4 (1964),  599–611
38. An experimental investigation of the viscosity of mixtures of nitrogen and helium
    
    TVT, 1:3 (1963),  348–355
39. The theoretical calculation of heat-flux and frictional resistance in laminar flow in tubes of an incompressible liquid with variable physical properties
    
    TVT, 1:2 (1963),  228–237
40. Experimental study of the viscosity of helium and nitrogen
    
    TVT, 1:2 (1963),  191–197


41. Theoretical calculation of heat exchange and frictional resistance in turbulent flow in tubes of an incompressible fluid with thermophysical properties
    
    TVT, 1:1 (1963),  85–101