SCIENCE & EDUCATION

References

1.     Kutateladze S.S., Leont'ev A.I. Teplomassoobmen i trenie v turbulentnom pogranichnom sloe [Heat-mass-exchange and friction in a turbulent boundary layer]. 2^nd ed. Moscow, Energoatomizdat, 1985. 320 p.

2.     Leont'ev A.I. Gazodinamicheskie metody temperaturnoi stratifikatsii (obzor) [Gas-Dynamic Methods of Temperature Stratification (a Review)]. Izvestiia RAN. Mekhanika zhidkosti i gaza, 2002, no. 4, pp. 6-26. (Trans. version: Fluid Dynamics, 2002, vol. 37, no. 4, pp. 512-529. DOI: 10.1023/A:1020629000437  ).

3.     Eckert E., Drewitz O., Die Berechnung des Temperaturfeldes in der laminaren Grenzschicht schnell angeströmter, unbeheizter Körper (in German). Luftfahrt-Forschung, 1942, bd. 19, pp. 189-196.

4.     Leont'ev A.I. Sposob temperaturnoi stratifikatsii gaza i ustroistvo dlia ego osushchestvleniia (Truba Leont'eva) [The method of temperature stratification of gas and device for its implementation (Pipe Leontiev)]. Patent RF, no. 2106581. 1998.

5.     Leont'ev A.I. Gazodinamicheskii metod energorazdeleniia gazovykh potokov [Gas-dynamic method of energy separation of gas flows]. Teplofizika vysokikh temperature, 1997, vol. 35, no. 1, pp. 157-159.

6.     Leont'ev A.I. Temperaturnaia stratifikatsiia sverkhzvukovogo gazovogo potoka [Thermal stratification of supersonic gas flow]. Doklady Akademii Nauk, 1997, vol. 354, no. 4, pp. 475-477.

7.     Leont'ev A.I. Temperaturnaia stratifikatsiia v sverkhzvukovom potoke [Thermal stratification in the supersonic flow]. Litovskaia AN. Energetika, 1998, no. 2, pp. 35-42.

8.     Burtsev S.A. Issledovanie temperaturnoi stratifikatsii gaza [Investigation of the temperature stratification of gas]. Vestnik MGTU im. N.E. Baumana. Ser. Mashinostroenie [Bulletin of the Bauman MSTU. Ser. Mechanical Engineering], 1998, no. 2, pp. 65-72.

9.     Burtsev S.A. Optimizatsiia geometrii sverkhzvukovogo kanala v ustroistve dlia energorazdeleniia [Optimization of the geometry of supersonic channel in device for energy separation]. Vestnik MGTU im. N.E. Baumana. Ser. Mashinostroenie [Bulletin of the Bauman MSTU. Ser. Mechanical Engineering], 1999, no. 2, pp. 48-54.

10.  Burtsev S.A. Issledovanie temperaturnogo razdeleniia v potokakh szhimaemogo gaza. Kand. diss. [Investigation of temperature separation in the flows of compressible gas. Cand. diss.]. Moscow, 2001. 124 p.

11.  Leont'ev A.I., Burtsev S.A., Vizel' Ia.M., Chizhikov Iu.V. Eksperimental'noe issledovanie gazodinamicheskoi temperaturnoi stratifikatsii prirodnogo gaza [Experimental investigation of gas dynamic temperature stratification of natural gas]. Gazovaia promyshlennost' [Gas Industry], 2002, no. 11, pp. 72-75.

12.  Leont'ev A.I., Mironov B.P., Fafurin A.V. Dlina nachal'nogo uchastka pri turbulentnom techenii gaza v tsilindricheskoi trube v usloviiakh sushchestvennoi neizotermichnosti [The length of the initial section at turbulent gas flow in cylindrical tube in conditions of essential non-isothermality]. Zhurnal prikladnoi mekhaniki i tekhnicheskoi fiziki [Journal of Applied Mechanics and Technical Physics], 1968, no. 4, pp. 99-104.

13.  Burtsev S. A. Issledovanie ustroistva temperaturnoi stratifikatsii pri rabote na prirodnom gaze [Investigation of the operation of temperature lamination device working on the natural gas]. Nauka i obrazovanie MGTU im. N.E. Baumana [Science and Education of the Bauman MSTU], 2004, no. 9. DOI: 10.7463/0904.0516097

14.  Vinogradov Iu.A., Ermolaev I.K., Leont'ev A.I. Techenie gaza v sverkhzvukovom osesimmetrichnom sople s pronitsaemoi vstavkoi [Gas flow in supersonic axisymmetric nozzle with permeable insert]. Izvestiia RAN. Mekhanika zhidkosti i gaza, 1999, no. 5, pp. 205-208.

15.  Makarov M.S. Vliianie real'nykh svoistv gaza na koeffitsient vosstanovleniia i koeffitsient treniia v sverkhzvukovom pogranichnom sloe [The influence of real gas properties on the recovery coefficient and the coefficient of friction in supersonic boundary layer]. Trudy 3 Rossiiskoi natsional'noi konferentsii po teploobmenu [Proceedings of 3rd Russian national conference on heat transfer]. Moscow, MEI Publ., 2002, vol. 8, pp. 32-35.

16.  Burtsev S.A., Leont'ev A.I. Temperaturnaia stratifikatsiia v sverkhzvukovom potoke gaza [Temperature stratification in supersonic gas flow]. Izvestiia RAN. Energetika, 2000, no. 5, pp. 101-113.

17.  Leontiev A.I. New Methods of Gas-Dynamic Temperature Stratification. In: Kakac S., et all, eds. Low Temperature and Cryogenic Refrigeration. Kluwer Academic Publishers, 2003, pp. 249-263. DOI: 10.1007/978-94-010-0099-4_15   (NATO Science Series; vol. 99).

18.  Aleksandrenkov V.P., Bazhenova T.V., Burtsev S.A., et al.  Energotekhnologii [Energy technologies]. In: Leont'ev A.I., Piliugin N.N., Polezhaev Iu.V., Poliaev V.M., eds. Nauchnye osnovy tekhnologii 21 veka [Scientific bases of technology of the 21 century]. Moscow, UNPTs Energomash Publ., 2000. pp. 58-96.

19.  Romanenko P.N. Teplomassoobmen i trenie pri gradientnom techenii zhidkostei [Heat-mass-exchange and friction at gradient current of liquids]. Moscow, Energiia, 1971. 568 p.

20.  Pohlhausen E. Der Wärmeaustausch zwischen festen Körpern und Flüssigkeiten mit kleiner reibung und kleiner Wärmeleitung (in German). Zeitschrift für Angewandte Mathematik und Mechanik, 1921, vol. 1, iss. 2, pp. 115-121. DOI: 10.1002/zamm.19210010205

21.  Eckert E. and Weise W. Messung der Temperaturverteilung auf der Oberflache Schnell Angestromter Unbeheizter Korper (in German). Forschg. Ing. Wessen., 1940, vol. 13, pp. 213-234.

22.  Kurosaka M. Acoustic Strieaming in Swirling Flow and the Ranque-Hilsch Effect. J. Fluid Mech., 1982, vol. 124, pp. 139-172. DOI: http://dx.doi.org/10.1017/S0022112082002444

23.  Eckert E. and Weise W. Die Temperatur unbeheizter Körper in einem Gasstrom hoher Geschwindigkeit (in German). Forschung auf dem Gebiete des Ingenieurwesens, Jan-Feb. 1941, vol. 12, no 1, pp. 40-50.

24.  Johnson H., Rubesin M.W. Aerodynamic heating and convective heat transfer-summary of literature survey. Trans. ASME, 1949, vol. 75, no. 5, pp. 447-452.

25.  Hilton W.F.  Thermal effects on bodies in an air streams. Proceedings of the Royal Society of London. Series A, October 1938, vol. 168, pp.43-57.

26.  Eckert E., Weise W. Measurement of temperature distribution on the surface of unheated bodies in hight velocity flow. Forschung auf dem Gebiete des Ingenieurwesens, 1942, vol. 13, pp. 246-254.

27.  Ackerman G. Plate thermometre in hight velocity flow with turbulent boundary layer. Forschung auf dem Gebiete des Ingenieurwesens, 1942, vol. 13, pp. 226-235.

28.  Lin C.C., ed. Turbulent flows and heat transfer. Princeton, N.J., Princeton University Press, 1959. 549 p. (High speed aerodynamics and jet propulsion; vol. 5.). (Russ. ed.: Lin'-Tszia-Tsziao, ed. Turbulentnye techeniia i teploperedacha : sb. statei. Izdatel'stvo inostrannoi literatury, 1963. 564 p.).

29.  Seban R.A. Analysis for the heat transfer to turbulent boundary layers in high velocity flow: P.h.D. Thesis. Berkeley, Univ. of Calif., 1948. 234 p.

30.  Ibragimov M.Kh., Subbotin V.I., Bobkov V.P., Sabelev G.I.,Taranov G.S. Struktura turbulentnogo potoka i mekhanizm teploobmena v kanalakh [The structure of turbulent flow and the mechanism of heat transfer in channels]. Moscow, Atomizdat, 1978. 296 p.

31.  Tyldessley J.R., Silver R.S. The production of the transport properties of a turbulent fluid. Intern. J. Heat Mass Transfer, 1968, vol. 11, no. 9, pp. 1325-1347.

32.  Gukhman A.A., Kader B.A. Massootdacha ot stenki truby k turbulentnomu potoku zhidkosti pri bol'shikh chislakh Shmidta [Mass-transfer from the tube wall to the turbulent flow of fluid at high Schmidt numbers]. Teoreticheskie osnovy khimicheskoi tekhnologii [Theoretical foundations of chemical engineering], 1969, vol. 3, no. 2, pp. 216-243.

33.  Stalder I.R., Rubezin M.W., Tendeland T. A determination of the laminar-transitional and turbulent boundary layer temperature recovery factors on a flat plate in supersonic flow. NACA-TN-2077, 1950. 21 p.

34.  McAdams W.H., Nicolai L.A., Keenan J.H. Measurements of recovery factors and coefficients of heat transfer in a tube for subsonic flow of air. NACA-TN-985, 1945. 30 p.

35.  Jack J.R., Moskowitz B. Experimental investigation of temperature recovery factors on a 10 degree cone at angle of attack at a Mach number of 3.12. NACA-TN-3256, 1954. 16 p.

36.  Reller J.O H., Frank M. Temperature recovery factors on a slender 12 degree cone-cylinder at Mach numbers from 3.0 to 6.3 and angles of attack up to 45 degrees. NACA-RM-A55G20, 1955. 59 p.

37.  Tucker M., Maslen S.H. Turbulent boundary-layer temperature recovery factors in two-dimensional supersonic flow. NACA-TN-2296, 1951. 21 p.

38.  Van Driest E.R. The laminar boundary layer with variable fluid properties. Preprints of Papers, Heat Transfer and Fluid Mechanics Institute, 1954, vol. 7, pp. 127-141.

39.  Young G.B.W., Janssen E. The compressible boundary layer. Jour. Aero. Sci., Apr. 1952, vol. 19, no. 4, pp. 229-236; 288.

40.  Van Driest E.R. The turbulent boundary layer with variable Prandtl number. Rep. No. AL-1914. North American Aviation, Inc., Apr. 2, 1954. 68 p.

41.  Mack L.M. An experimental investigation of the temperature recovery factor. NACA Report JPL-20-80, 1954. 23 p.

42.  Isachenko V.P., Osipova V.A., Sukomel A.S. Teploperedacha [Heat-transfer]. Moscow; Leningrad, Energiia, 1965. 424 p.

43.  Petukhov B.S. Teploobmen v dvizhushcheisia odnofaznoi srede. Laminarnyi pogranichnyi sloi [Heat exchange in a moving single-phase medium. Laminar boundary layer]. Moscow, MEI Publ., 1993. 352 p.

44.  Kikoin I.K., ed. Tablitsy fizicheskikh velichin. Spravochnik [Tables of physical quantities. Handbook]. Moscow, Atomizdat, 1976. 1008 p.

45.  Vargaftik N.B. Spravochnik po teplofizicheskim svoistvam gazov i zhidkostei [Handbook of thermophysical properties of gases and liquids]. Moscow, Nauka, 1972. 720 p.

46.  Grigor'ev I.S., Meilikhov E.Z., eds. Fizicheskie velichiny: Spravochnik [Physical quantities:  Handbook]. Moscow, Energoatomizdat, 1991. 1232 p.

47.  Goldstein R.G., Eckert E.R.G., Wilson D.J. Film cooling with normal injection into a supersonic flow. Trans. ASME. Ser. B, 1968, vol. 90, no. 4, pp. 584-589.

48.  Baryshev Iu.V., Vinogradov Iu.A., Leont'ev A.I., Rozhdestvenskii V.I. Koeffitsienty vosstanovleniia na pronitsaemoi poverkhnosti i v oblasti gazovoi zavesy v sverkhzvukovom turbulentnom pogranichnom sloe [Recovery factors for a permeable surface and a gas surface film in a supersonic turbulent boundary layer]. Izvestiia AN SSSR. Mekhanika zhidkosti i gaza, 1972, no. 2, pp. 131-136. (Trans. version: Fluid Dynamics, 1972, vol. 7, no. 2, pp. 303-307. DOI: 10.1007/BF01186475  ).

49.  Kharchenko V.N. Teploobmen v sverkhzvukovom turbulentnom pogranichnom pri vduve okhlazhdaiushchego gaza cherez shchel' [Heat exchange in a supersonic turbulent boundary layer with blowing of cooling gas through the slit]. Teplofizika vysokikh temperature, 1972, vol. 10, no. 1, pp. 101-105.

50.  Kutateladze S.S., Leont'ev A.I. Teplomassoobmen i trenie v turbulentnom pogranichnom sloe [Heat-mass-exchange and friction in a turbulent boundary layer]. Moscow, Energoatomizdat, 1972. 340 p.

51.  Baryshev Iu.V., Leont'ev A.I., Peiker N.K. Turbulentnyi pogranichnyi sloi na pronitsaemoi poverkhnosti pri intensivnykh vduvakh [Turbulent boundary layer on a permeable surface with intensive blowing]. Inzhenerno-fizicheskii zhurnal, 1976, vol. 30, no. 5, pp. 773-779. (Trans. version: Journal of Engineering Physics and Thermophysics, 1976, vol. 30, no. 5, pp. 513-517. DOI: 10.1007/BF00863655  )

52.  Volchkov E.P. Pristennye gazovye zavesy [Near-wall gas surface film]. Novosibirsk, Nauka, 1983. 240 p.

53.  Bartle E., Leadon B. Experimental evaluation of heat transfer with transpiration cooling in a turbulent boundary layer at M=3.2. Journ. Aero. Sci., 1960, vol. 27, no. 1, pp.334-337.

54.  Rubesin M.W. An analytical estimation of the effect of transpiration cooling on the heat-transfer and skin-friction characteristics of a compressible, turbulent boundary layer. NACA-TN-3341, 1954. 57 p.