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Heat transfer bibliography—russian works
Int. J. Hear Moss Transfer.
Vol.10.pp. 999-1014
HEAT TRANSFER
Pergamon Press Ltd. 1967.
Printed in Great Britain
BIBLIOGRAPHY-RUSSIAN
WORKS
A. V. LUIKOV Heat and Mass Transfer Institute of the B.S.S.R. Academy of Sciences, Minsk, U.S.S.R. (Received
1 parch 1966)
BOOKS A. D. AL’TSHUL and P. G. KISELEV,Hydraulics and Aerodynamics. Fun~mentals of Fluid Mechanics. Stroiizdat, Moscow (1965). R. G. BARANTSEV,Lectures on Transonic Gas Dynamics. Izd. Leningr. Univ., Leningrad (1965). A. V. PAVLOV.Heat Transfer between Freezing and Mel&a Soils mrd Atmosphere. Nauka, Moscow (19g5). ” L. S. POLAK.Ed., Kinetics and Thermodynamics of Chemical Reactions in a Low Temperature Plasma. (Collected Papers). Nauka, Moscow (1965). V. G. IL’IN, Heat Exchangers of Graphite for Aggressive Media. Mashinostroenie,-Moscow (1965). _ P. K. KONAKOV. Ed.. Heat-Transfer Studv in Thermal Power Plants and Installations fir Production of Semiconductor Materials. Vysshaya Shkola, Moscow (1965). E. S. SHCHETINKOV, Physics of Gas Combustion. Nauka, Moscow (1965). V. K. SHCHUKIN,Heat Transfer in Nature and Engineering.
Nauka, Moscow (1965). Thermal Operation of Metallurgical Furnaces. SredneUral’sk. Knizh. Izd-vo, Sverdlovsk (1965). M. I. ZHVKOVSKYand L. M. ZYSINA-MOLOZ~N, Eds., Aerodynamics and Heat Transfer, (collected papers). Leningrad (1965). GENERAL A. A. GUKHMAN,The similarity theory, its essence, methods and promises, Khim. Prom. (7), 448 (1965). P. K. KONAKOV,On the mass and energy transfer law, Inzh.-Fiz. Zh. 9 (3), 337 (1965). 0. G. M~~~~o, All-Union Scientific Council on “Mass
and Heat Transfer in Technological Processes”, Inzh.Fiz. Zh. 9 (2), 237 (1965).
On compilation of international skeleton tables of thermodynamic properties of gas widely used in engineering, Teploliz. Wok.
Temper. 3 (3). 492 11965).
D. 1: P;]ISH&HUK, Thk Fourth Scientific’Conference on Evaporation, Combustion and Gasdynamics of Dispersed Systems, Teplojiz. Vysok. Temper. 3 (3), 493 (1965).
E. T. BARTOSH,N. F. VOLKOVand B. A. ROMANOV,On systems of proof of entropy existence in thermodynamics, inch.-Fiz. Zh. 9 (3), 412 (1965).
B. N. BIRGER,Steady state of conducting systems, Inzh.Fiz. Zh. 9 (3), 358 (1965). V. M. BRODYANSKY and A. B. GRACHEV,A thermodynamic analysis of gas refrigerating installations with a displacer, IZV. Yyss!z. Wcheb. Zaved. Energetika. (7), 74 (1965). .. I. DYARMATY,A general variation principle of nonequilibrium thermodynamics, Zh. Fiz. Khim. 39 (6), 1489 (1965). I. T. EL’PERIN,Thermodynamic study of heat and mass transfer in a non-unifo~ ga~susp~nsion flow, Inzh.-Fiz. Zh. 9 (3), 364 (1965).
V. V. FILIPPOV,On the equation of expansion and compression lines in piston engines and machine tools allowing for heat losses through the cylinder walls, &hen. Zap. (Vsesoyuzn. ~aochn. In-t Znzhenerov Zh.-Dor. Transporta) (IS), 32 (1965).
L. V. GORBUNOV,Dependence of constant pressure thermal capacity on temperature and calculation of thermodynamic values, Zh. Fiz. Khim. 39 (6), 1345 (1965). A. I. GULYAEV,The Ranque effect at low tem~ra~r~, Inzh.-Fiz. Zh. 9 (3), 354 (1965).
V. M. KAZANSKY,Determination of thermodynamic Functions of moisture absorbed by a disperse body according to specific evaporation heat, Inzh.-Fiz. Zh. 9 (3), 328 (1965). YA. Z. KAZAVCHINSKY,Application
of thermodynamic similarity to gaseous mixture properties, Znzh.-Fiz. Zh. 9 (3) 345 (1965). YA. 2: KAZAVCH&KY, Comments on the paper “Application of classical conceptions to the new s stem of roof of the Second Law of Thermodynamics .’ 6. Engng %iys. 3 (12), (196411Znzh.-Fiz. Zh. 9, 409 (1965). P. M. KESSEL’MAN,P. A. KOTLYAREVSKY and M. M. AFANASIEV,The CO, state equation in the range of i~mpera~ures from 273 to 4WO”K and ressures up to 1WI IO’ N, M ‘, Itr;k.-Fi:. 2%. 9 (4). 527 ?I 965). 1. I. KIRENKOV, Development of the thermodynamic temperature scale, Trudy In-tov Goskomiteta (Gas. Kom. Standartov. Mer i Izmer. Priborov SSSR) (76), 102 (1965). R.
THERMODYNAMICS V. E. ALEMA~~V and A. F. DREGALIN,Calculation ofthermodynamic properties of reacting working substance, Trudy Kazansk. Aviafs. In-ta. (86), 3 (1964).
P. KOLODNY, General detinition of the adiabatic exponent, Inzk-Fiz. Zh. 9 (l), 86 (1965). P. K. KONAKOV,On the reciprocity principle of irreversible thermodynamics, Znzh.-Fiz. Zh. 9 (3), 369 (1965). S. I. KOSTERIN+ and B. M. PAVLOV,Experimental study of certain the~odyn~ic properties of low-temperature
1000
A. V. LUIKOV
composite solutions (up to -196”C), Znzh.-Fiz. Zh. 9 (3), 323 (1965).
F. A. KUZNETSOVand T. P. SMIRNOVA,Thermodynamic characteristics of thin films, Vychisl. Sistemy (15), 39 (1965).
V. S. LERNER,Determination of optimum operating conditions of converters, Znzh.-Fiz. Zh. 9 (I), 25 (1965). A. V. LUIKOV,Application of irreversible thermodynamics methods to heat and mass transfer, Znzh.-Fiz. Zh. 9 (3), 287 (1965).
A. V. LUIKOV,Thermodynamics and heat transfer of gassolid particles suspension, Zzv. Akad. Nauk SSSR. Ser. Fiz.-Tekhn. Nauk (I), 54 (1965). 0. P. MCHEDLOV-PETROSYAN and V. I. BABUSHKIN, Inter-
relation between the thermodynamics and kinetics of certain solid phase reactions, Dokl. Akad. Nauk SSSR 163(2), 406 (1965). G. B. SINYAREV,Complete thermodynamic
functions and their application to the calculation of equilibrium states of composite thermodynamic systems, Zzv. Vyssh. Ucheb.
Zaved. Mashinostr. (2), 99 (1965).
A. G. TABACHNIKOV and L. S. SERDYUK,The state equation of nitrogen oxide in the range of temperatures 190-2000°K and densities O-20 kmol/m3, Znzh.-Fiz. Zh. 9 (3), 332 (1965).
A. G. TEMKIN,Determination of internal heat- and masstransfer parameters by means of characteristic functions of irreversible thermodynamics, Znzh.-Fiz. Zh 9 (3), 305 (1965).
P. V. Tsar, Irreversible thermodynamics and derivation of simultaneous differential equations of molecular transfer. Znzh.-Fiz. Zh. 9, (3), 318 (1965).
HEAT CONDUCTION I. S. AKIMOV,Calculation of temperature distribution in an eccentric annular layer with heat generation, Znzh.-Fiz. Zh. 9 12). 227 (1965). \,I
M. I. ALIEV,G.‘T. A~HMEDWand M. A. ALIEVA,Study of heat conductivity of alloyed gallium arsenide, Zzv. Akad. Nauk Azerb. SSR. Ser. >iz.-Tekhn. i Matem. Nauk (5), 49 (1964). G. N. DUL’NEV, Heat transfer through solid disperse systems, Znzh.-Fir. Zh. 9 (3), 399 (1965). G. N. DUL’NEV,Heat conduction of statistical mixtures, Znzh.-Fiz. Zh. 9 (4), 538 (1965).
L. G. FUKS, The temperature field in a rectangular bar with internal heat release, Zzv. Tomsk. Politekhn. In-ta 137, 29 (1965). G. M. GLUKHOV,Working out of the solution ofa boundary-
value problem for one nonlinear equation of heat conduction, Trudy Sara?. In-ta Mekhan. Sel. Khoz. (33), 2 24 (1964).
V.‘V. I~ANOVand V. V. SALOMATOV, On temperature field calculation in solids with a variable heat-transfer coefficient, Znzh.-Fiz. Zh. 9 (I), 83 (1965). V. V. IVANOVand Yu. V. VIDIN,The temperature field in a parallelepiped, heated by radiant flux, Zzv. Vyssh. Ucheb. Zved. Chern. Metalhug. (5), 180 (1965).
M. A. KAGANOVand V. A. YANGARBER,The temperature field in a homogenous medium heated by current under
conditions of spheric symmetry, Zh. Prikl. Mekh. Tekh. Fiz. (2), 110 (1965). V. M. KAPINOSand Yu. M. MATSEVITY. On the solution by the network method of a steady heat conduction problem allowing for the dependence of the heat conductivity coefficient on temperature, Zzv. Vyssh. Ucheb. Zaved. Energetika (5), 77 (1965). S. KARYMSAKOV, On some problems of heat conduction, connected with an operator of the Bessel-type, Vopr. Vychisl. Matem i Tekhniki (3). 17 (1964). N. I. NIKITENKO, Numerical integration of the heat-
propagation
equation for variable physical properties,
Znzh.-Fiz. Zh. 9 (4), 512 (1965).
M. D. MIKHAILOV,Errors of papers by V. P. Maikov (1) and V. P. Maikov and I. Ya. Pil’skii (2) in the collection of works “Investigation and Calculation of Thermal Power and Chemical Power Processes”, (Mashgiz, 1961) Znzh.-Fiz. Zh. 9 (4). . 544 (1965). I,
E. S. PLATUNOV,The temperature field in a thin plate at monotonous heating, Znzh.-Fiz. Zh. 9 (4). 507
( 1965). P. I. POVARMN,Application of thermodynamic similarity principles for the calculation of physical properties of liquid on a saturation line, in Heat-Transfer Study in Flows of Liquidand Gas, p. 153. Moscow (1965). U. T. Rzanv, A particular boundary-value problem of steady-state heat conduction, (Comments on the book “Heat Transfer” by the German scientist Ten-Bosch) Uchen. Zap. (Azerb. Un-t), Ser. Fiz.-Mat. Nauk (4), 17 (1964).
A. A. SAMARSKY and S. B. MOSTINSKAYA, Numerical solution of two-dimensional heat conductional equation with continuous coefficients in polar co-ordinates. Sb. Rabat Vychisl. Tsentra Mask. Un-ta 3, 147 (1965).
A. G. SHASHKOVand T. N. A~RAHENKO,A method of continuous measurement of heat conductivity (concentration) of gaseous binary mixture. Zzv. Akad. Nauk BSSR, Ser. Fiz. Tekhn. Nauk (1), 64 (1965). Yu. M. SHEKHTMAN,Heat-conduction with a change of material structure, including the influence of the outgoing gas, Znzh. Zh. 5 (3), 441 (1965). I. T. SHEETSand E. P. DYBAN,A reply to the comments of M. I. Tsaplin. Znzh.-Fiz. Zh. 9 (4), 542 (1965). Yu. P. Smo~ov, Heat transfer by heat conduction and radiation in an absorbing medium, Trudy Mosk. In-ta Znzhen. Zh.-D. Transporta (189), 109 (1965). V. S. SYIRNOV,A. F. CHUDNOVSKY and M. A. KAGANOV, The theoretical way of estimating heat conductivity of porous alloys at high temperature, Trudy LPI (Leningr. Politekhn. In-t) (243), 12 (1965).
M. I. TSAPLIN,Comments on the paper “Heat transfer of flat surfaces in contact” by I. T. Shvets and E. P. Dyban, Znzh.-Fiz. Zh. 9 (4), 539 (1965). 0. B. TS~E~KOV,Application of the regular thermal regime
methods to the investigation of thermal conductivity of liquid freon, Znzh.-Fiz. Zh. 9 (I), 42 (1965). 0. 8. TS~JJ~KOV,On the temperature dependence of heat conduction of low-boiling fluids, Zzv. Vyssh. Ucheb. Zaved. Energetika (5), 84 (1965).
G. S. ZAVT,A heat conduction theory of dielectrics at low temperatures. A case of arbitrary interaction between
HEAT
TRANSFER
BIBLIOGRAPHY-RUSSIAN
phonons and defects, Trudy In-ta Fiz. i Astronom. Akad. Nauk Estonsk. SSR (29), 95 (1965).
CONVECTIVE HEAT TRANSFER K. F. AKSENOV,V. V. KUDRYAVTSEV etal., The experimental study of convective heat transfer and hydraulic resistance in viscous fluid motion with large Re numbers, Trudy Mask. In-ta Inzhenerov 2h.D. Transporta (189), 91 (1965). N. S. ALFEROVand R. A. RYBIN,Critical heat fluxes in the
flow of water and water-steam
mixture in tubes, in
Convective Heat Transfer in Two-phase and Monophase Flows, p. 278. Moscow-Leningrad (1964).
WORKS
1001
in Convective Heat Transfer in Two-phase and Monophase Flows, p. 413. Moscow-Leningrad (I964). V. K. FY~ROV and E. M. LITINSKY.Heat transfer to a rectanaular wedae in a transverse aas flow, Inzh.-Fir. Zh. 9 (2), 171 (1965): 1. I. GEL’PERINand A. M. KAGAN.Heat transfer of eases in tubes with packing at low temperatures, Khim.*i Neft. Mashinostr. (6), 18 (1965). I. P. GINZBURGand I. V. KORNEVA,On the effect of the turbulent Pr, number on skin friction and heat transfer on a plate in turbulent gas flow, Inzh.-Fiz. Zh. 9 (2), 155 (1965). L. A. GORYAINOV, V. I. BEILINand V. A. PAVLENKO, On the determination of the Reynolds number under the conditions of convective heat transfer, Trudy Mosk. Zn-ta
N. S. ALFEROVand R. A. RYBIN,Heat transfer in annular Inzhen. Zh.-D. Transporta (189), 103 (1965). channels, in Convective Heat Transfer in Two-phase and M. KH. IBRAGIMOV and A. V. ZHUKOV,Heat transfer and Monophase Flows, p. 139. Moscow-Leningrad (1964). temperature fields in bundles of rod-type fuel elements in A. A. ANDREEVSKY, V. M. BOIUSHANSKY and V. B. ZHINKINA, a longitudinal laminar flow of liquid, Atomn. Energ 18 Heat transfer investigation of staggared tube bundles in a (6), 630 (1965). transverse water flow, in Convective Heat Transfer in V. P. ISACHENKO and N. M. GALIN,Heat transfer for turbuTwo-phase and Monophase Flows, p. 417. Moscowlent liquid motion in an annulus, Izv. Vyssh. Ucheb. Zaved.. Enernetika (6). 68 (1965). Leningrad (1965). B. A. AaKADIEV,On free heat convection in turbine cavities, V. M. KAP~N&, Effect ‘of a radial gradient of relative cirInzh.-Fiz. Zh. 9 (l), 15 (1965). cumferential component velocity on heat transfer in V. S. A~DU~VSKY,V. N. KRYUKOVand V. P. SOLNTSEV, An expanding flow between two rotating disks, Izv. Akad. experimental study of boundary layer structure and heat Nauk SSSR, Energetika i Transport (3), 111 (1965). transfer on a rough surface, in Heat-Transfer Study in V. M. KAPINOS,Heat transfer on a disk, rotating in a vessel, Liquid and Gas Flows, p. 55. Moscow (1965). Izv. Vyssh. Ucheb. Zaved. Aviats. Tekhnika (2), 76 (1965). N. F. BABOI,M. K. BOL~CAand K. N. SEMENOV, Effect of P. K. KONAKOV,V. T. KUMSKOV,et al., Complex heat electric fields on heat transfer, Izv. Akad. Nauk Mold. transfer and hydraulic resistance in a moving grey medium with large optical density, Tru4 Mosk. In-ta SSR (5), 52 (1964). V. M. BORISHAN~KY and E. V. FIRSOVA,Heat transfer in a Inzhenerov Zh.-D. Transvorta (189). 41 (1965). V. I. KUZNETSOV, Heat transfer on a’Bat plate in a laminar longitudinal flow of metallic sodium along tube bundles, in Convective Heat Transfer in Two-phase and Monophase flow of heated liquid, Inzh.-Fiz. Zh. 9 (2), 148 (1965). Flows, p. 377. Moscow-Leningrad (1964). V. L. LEL’CHUKand G. I. ELFIMOV,Study of heat transfer V. M. BORISHANSKY, L. 1. GEL’MANet al., Study of heat to a carbon dioxide turbulent flow in a tube with large transfer in mercury flow through horizontal and vertical temperature differences, in Convective Heat Transfer tubes, in Convective Heat Transfer in Two-phase and in Two-phase and Monophase Flows, p. 339. MOSCOWMonophase Flows, p. 350. Moscow-Leningrad (1964). Leningrad (1964). V. M. BORISHANSKY, T. V. ZABLX)TSKAYA and N. I. IVASH- V. B. LEONAS, Study of energy transfer in interaction CHENKO,Study of heat transfer and temperature fields in between a molecular flow and a surface, Zh. Prikl. Mekh. turbulent motion of metallic sodium in tubes, in ConTekh. Fiz. (2), 84 (1965). vective Heat Transfer in Two-phase and Monophase Flows, A. I. LEONT’EV and A. G. KIRDYASHKIN, Free-convection p. 363. Moscow-Leningrad (1964). heat transfer over a horizontal surface iu horizontal slots and in a large volume, Inzh.-Fiz. Zh. 9 (l), 9 (1965). A. K. CHERNYSHEV,Determination of the heat-transfer coefficient from an external surface of an insulation V. M. LINDIN and YE. A. KAZAKOVA, Heat transfer in a using nomograms, Stroit. Truboprovodov (3), 14 (1965). fixed bed of spherical particles, Khim. i Neft. Mashinostr. Yu. A. DEM’YANOV and V. T. KI~EEV,An analysis of one(6), 23 (1965). dimensional transient gas flows with allowing for heat A. S. LYALIKOV and Yu. A. ZAGROMOV, On free-convective conduction and viscosity, Izv. Akad. Nauk SSSR, heat-transfer in a closed volume with displacement of Mekhanika (2), 3 (1965). the heat source, Izv. Tomsk. Politekhn. In-ta 137, 99 V. YE. DOROSHCHUK and F. P. LANTSMAN,Critical heat (1965). fluxes in flow of water and steam-water mixture in tubes, V. G. MOROZOV,Study of heat transfer for water boiling in in Convective Heat Transfer in Two-phase and Monotubes, in Convective Heat Transfer in Two-phase and phase Flows, p. 290. Moscow-Leningrad (1964). Monophase Flows, p. 130. Moscow-Leningrad (1964). V. I. EVENKOand V. M. SHISHKOV,Study of heat transfer Yu. A. MIKHAILOVand R. YA. OZOLS,Heat transfer in a and resistance of tubes, finned by a goffered band, uniform magnetic cross field, Izv. Akad. Nauk Latv. Izv. Vvssh. Ucheb. Zaved.. Enernetika (51 106 (1965). SSR. ser. Fiz. i Tekhn. Nauk (2), 19 (1965). E. V. F&ova, Study of heat transfer and’hydraulic rksistS. I. MOVCHAN,A temperature difference in heat exchangers ante in a longitudinal water flow around a tube bundle, with parallel-mixed and cross currents, in Convective
1002
A. V. LUIKOV
Heat Transfer in Two-phase and Monophase Flows, p. 187.
Moscow-Leningrad (1964). V. G. MOROZOVand Yu. Yu. RYNDIN,Study of boiling heat transfer in annuli and in tube bundles, in Convective Heat Transfer in Two-phase and Monophase Flows, p. 181. Moscow-Leningrad (1964). V. B. NE~TERENKO and V. M. SHADSKY, A method of simulation on analog computers of transient thermal processes of gas cooled power reactors, Izv. Akad. Nauk BSSR. ser. Fiz.-Tekhn.
Nauk (I), 38 (1965).
A. T. ONUFRIEV,Solution of a linearized problem in the Couette flow for rarefied gas by the method of integral diffusion, Zh. Prikl. Mekh. Tekh. Fiz. (2), 47 (1965). A. P. ORNAT~KY and L. S. VINYARSKY, A crisis of heat transfer under conditions of forced motion of subcooled water in tubes of small diameter, Teplofiz. Vysok. Temper. 3 (3), 444 (1965).
A. L. PARNAS~~~S. S. ZABRODSKY, Motion and heat transfer of particles in ascending pulsating gas flow, in Heat and Mass Transfer in DispersedSystems. p. 179. Minsk (1965). M. A. PAVLI~HINA,A flow round an oscillating circular cvlinder. Izv. Akad. Nauk SSSR. Mekhanika (2). . I. 175 (i965).
M. A. POLYATSKIN and 0. A. TASS,Intensification of convective heat transfer in a combustion chamber of gasturbine installations, in Convective Heat Transfer in Two-phase and Monophase Flows, p. 432. MoscowLeningrad ( 1964). P. I. POVARNIN,Calculation of boilmg crisis under conditions of forced flow of subcooled fluids, in Study of Heat Transferin FIowsofLiquidandGas, Q. 160. Moscow(l965). G. V. RATIANI and D. I. AVALIANI,A number of active centres of steam generation and critical heaf fluxes in pool boiling of some organic liquids, Soobshch. Akad. Nauk Gruz. SSR 37 (3), 653 (1965). E. L. RODIONOV,A criteria1 heat-transfer equation for free convection superposed on forced laminar flow, Teploenergetika
(6), 81 (1965).
V. K. SHCHUKIN, An experimental study method of heat transfer in an external flow around cylindrical surfaces of variable curvature, Trudy Kazansk. Aviats. In-ta (86) 28 (1964).
V. P. SHELYAG,The experimental study of heat transfer for laminar gas flow in a slotted channel, Vestn. Kievsk. Politekhn. In-m. ser. Teploenergetika (I), 21 (1964). V. S. SIDOROV,On convective heat transfer in turbulent motion of viscous fluid in the starting portion of a tube, Trudy Mosk. 83 (1965).
In-ta Inzhenerov
Zh.-D.
Transporta
(189)
Yu. M. TANANAIKO, Study of the effect of liquid film density on heat transfer at boiling in a down flowing film, Vestn. Kievsk. Politekhn. In-la. Ser. Khim. Mashinostr. log. (I), 145 (1965).
Tekhno-
A. G. TKACHEV,Convective heat transfer in processes of melting and solidification of a homogenous medium, in Convective Heat Transfer in Two-phase and Monophase Flows. D. 308. Moscow-Leninarad (1964).
V. I. TOL~BINSKY, A. P. ORNATSK~and L. F: GLUSHCHENKO, Study of heat transfer and hydraulic resistance in liquid cooling of cylindrical fuel elements, Vestn. Kievsk. Politekhn. In-ta. Ser. Teploenergetika (I), 3 (1964). S. V. VALLANDER,Stochastic description of a rarefied gas motion as a random process, Dokl. Akad. Nauk SSSR 162 (2), 297 (1965).
E. P. VOLCHKOV,S. S. KUTATELADZE and A. I. LEONT’EV, Interaction between submerged turbulent jet and a solid wall, Zh. Prikl. Mekh. Tekh. Fiz. (2), 50 (1965). YA. V. YASHCHENKO,Study of the vibration effect of acoustical frequency on heat-transfer intensity in viscous media, Vestn. Kievsk. Politekhn In-ta. Ser. Teploenergetika (I), 15 (1964). Yu. A. ZAGROMOV and Yu. A. KOROLENKO, Heat transfer of a vertical row of horizontal tubes under conditions of free air convection, Izv. Tomsk. Politekhn. In-ta 137, 52 (1965).
RADIANT HEAT TRANSFER A. A. BUZMKOVand B. P. Kozvazv, Absorption of slightly heated blackbody radiation by the atmosphere, Inzh.-Fiz. Zh. 9 (1), 70 (1965). S. P. DETKOV,Transfer of radiant energy near a flat surface, Teplofiz.
Vysok. Temper. 3 (3), 438 (1965).
L. A. G~RY~INOV, Methods of separation of composite heat transfer, Trudy Mask. In-ta Inzhenerov Zh.-D. Transporta (189), 59 (1965). V. I. KIRILLOVand M. M. LITVINOV,Electric simulation of transient temperature fields with radiant heat transfer, Prikl. Mekh. Otdel Matem.. Mekh.. Kibernetiki AN USSR 1 (6), 21 (1965).
P. K. KONAKOV,On the absorption coefficient of a grey medium, Inzh.-Fiz. Zh. 9 (I), 77 (1965). P. K. KONAKOV,V. T. KLJMSKOV et al., On the solution of a composite heat-transfer problem in a moving grey medium with small optical density, based on boundarylayer equations, Trudy Mask. In-ta Inzhenerov Zh.-D. Transporta (189), 33 (1965).
V. T. KUMSKOV,On composite heat-transfer
study, Trudy Mosk. In-ta Inzhenerov Zh.-D. Transporta (189), 5 (1965). A. Yu. SKRINSKAand Yu. K. STASYULYAVICHYUS, An V. T. KUM~KOVand Yu. P. SIWROV, An absorption coexperimental study of the influence of non-uniformity efficient of a grey medium (for heat-transfer study), of a heat transfer coefficient on the efficiency of ribbed Trudy Mosk. In-ta Inzhenerov Zh.-D. Transporta (189) pipes, Trudy Akad. Nauk Litovsk. SSR. Ser. B, 1, 123 52 (1965). (1965). A gas burner of infraV. I. SUBBOTIN, M. KH. IBRAGIMOV and YE. V. NOMOFILOV, A. M. LEVINand S. SALIKHODZHAEV, red radiation with an iron emitter for drying of plaster, Correlation of the turbulent heat-transfer coefficient in Ispofzovanie Gaza v Narodn. Khoz. (3), 208 (1965). fluid flow. Tetrlofiz. Vvsok. Temper. 3 (3), 421 (1965). A. M. LEVINand S. SALIKHODZHAEV, Study of infrared radiaV. I. SUBBO& B: ‘A. ZE&EVICH and 0. L:PEsKo~, Critical tion burners with metallic emitters, Ispoliovanie Gaza v heat fluxes in forced motion of steam-water mixture in Narocin. Khoz. (3), 208 (1965). tubes, in Convective Heat Transfer in Two-phase and A. S. NEVSKY,Application of a zonal method to calculation Monophase Flows, p. 298. Moscow-Leningrad (1964)
HEAT
TRANSFER
BIBLIOGRAPHY-RUSSIAN
of radiant heat transfer in furnaces, Sb. Nauchn. Trudov VNHMT (Vsesoyuzn. Nauchn. Tep~ofekhnik~ (1 I), 166 (1965).
Issled. In-t Metallurg.
A. S. NEVSKY, Radiant heat transfer between surfaces, between a surface and a volume and between volumes, Sb. Nauchn. Trua’ov VNHMT (Vsesoyuzn. Nauchn. Issled. In-t Metallurg. Teplotekhniki (1 l), 126 (1965).
A. S. NEVSKY, Radiant heat transfer in the simplest radiating systems consisting of two volumetric zones, Sb. Nauchn. Trudov VNHMT (Vsesoyuzn. Nauchn. Issied. In-t Metallurg. TepIotek~jki) (ii), 145 (1965).
B. S. SADYKOV,On tem~rature dependence of radiation capacity of metals, Teplofiz. Vysok. Temper. 3 (3), 389 (1965). S. SALIKHODZHAEV, Study of density distribution of burner radiation with a latticed metallic emitter, Ispol’zovunie Gaza v Naroa’n. Khoz. (3), 195 (1965). Yu. A. SURINOV,Integral equations of a radiation transfer theory in anisotropic scattering medium (for generalized statement of the spatial problem), Tepi&z. Vysok. Temper. 3 (3), 427 (1965).
A. I. TAMARINand V. D. DUNSKY,On radiative heat transfer ofa fluidized bed with a surface, in Heat and Mass Transfer in Dispersed Systems, p. 58. Minsk (1965). TRANSFER PROCESSES INVOLVING PHASE CO~IONS I. T. ALAD’EV and V. I. YASHNOV,Effect of wetting on a boiling crisis, in Convective Heat Transfer in Two-phase and Monophase Flows, p. 249. Moscow-Leningrad (1964). E. P. ANAN’EV,On heat-transfer mechanism in nucleate boiling of water in a tube and the Reynolds analogy, in Convective Heat Transfer in Two-phase and Monophae Flows, p. 62. Moscow-Lenin~ad (1964).
WORKS
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in Convective Heat Transfer in Two-phase and Monophase Flows, p. 208. Moscow-Leningrad (1964). V. E. DOROSHCHIJK and V. L. MAL’TW, Film boiling in tubes, in Convective Heat Transfer in Two-phase and Monop~e Flows, p. 235. Moscow-Leningmd (1964). G. M. DVOR~NA and N. G. STYUSHIN, On relative motion of a steam phase in adiabatic flow of a two-phase flux in tubes, Teploenergetika 12 (6), 79 (1965). I. YA. ERSHOV,Subcooling liquid pool boiling at high heat fluxes, Izv. Vyssh. Ucheb. Zaved. Energetika (5), 110
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Vol.10.pp. 999-1014
HEAT TRANSFER
Pergamon Press Ltd. 1967.
Printed in Great Britain
BIBLIOGRAPHY-RUSSIAN
WORKS
A. V. LUIKOV Heat and Mass Transfer Institute of the B.S.S.R. Academy of Sciences, Minsk, U.S.S.R. (Received
1 parch 1966)
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Nauka, Moscow (1965). Thermal Operation of Metallurgical Furnaces. SredneUral’sk. Knizh. Izd-vo, Sverdlovsk (1965). M. I. ZHVKOVSKYand L. M. ZYSINA-MOLOZ~N, Eds., Aerodynamics and Heat Transfer, (collected papers). Leningrad (1965). GENERAL A. A. GUKHMAN,The similarity theory, its essence, methods and promises, Khim. Prom. (7), 448 (1965). P. K. KONAKOV,On the mass and energy transfer law, Inzh.-Fiz. Zh. 9 (3), 337 (1965). 0. G. M~~~~o, All-Union Scientific Council on “Mass
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B. N. BIRGER,Steady state of conducting systems, Inzh.Fiz. Zh. 9 (3), 358 (1965). V. M. BRODYANSKY and A. B. GRACHEV,A thermodynamic analysis of gas refrigerating installations with a displacer, IZV. Yyss!z. Wcheb. Zaved. Energetika. (7), 74 (1965). .. I. DYARMATY,A general variation principle of nonequilibrium thermodynamics, Zh. Fiz. Khim. 39 (6), 1489 (1965). I. T. EL’PERIN,Thermodynamic study of heat and mass transfer in a non-unifo~ ga~susp~nsion flow, Inzh.-Fiz. Zh. 9 (3), 364 (1965).
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