SCIENTIFIC ABSTRACT GORBIS, Z.R. - GORBOV, F.D.

AUTHOR: Gorbis, Z.R. (Odessa) SOV/24-58-9-13/31 TITLE: n[griteria f or Convective Heat uxchange in Two-pbase Plan of the "Gaseous Suspension" Type (Kriteriallnyye uravneniya Konvektivnogo teploobmena v dvukhfaznykh potokakh tipa "gazovzves"') PERIODICAL: Izvestiya Akademii Nauk SSSR, Otdeleniye Tekhnicheskikh Nauk, 1958, Nr 9, pp 94 - 102 (USSR) ABSTRACT: After a brief discussion of the equation of continuity, the equations of motion and energy in two-phase flow are stated. By the um of similarity transformations on the three equations, non-dimensional functional forms are obtained for the parameters of the system. The first criterion discussed characterises the uniform motion of the particles with given limiting relative velocity. Then the coefficient of resistance of the two-phase flow is discussed. Having.considered the hydro-mechanical criterion equations, the author turns to the heat trans- fer criterion equation and obtains a functional relation- ship for the Nusselt number involving the Reynolds number and the Prandtl number. With the aid of experimental results, explicit forms are derived for the coefficient Cardl/2  SOV/24-58-9-13/31 Equations Giving Criteria for CQnveq-tive j1eat- whange,in Tbo~thss'il'llmiv 0'f'-~~the"*Itrf BTB*- ,; PMO of resistance and the Nusselt number. There are 5 figures and 15 Soviet references. ASSOCIATION: Tekhnologicheskiy institut im. Stalina, (Technological Institute imeni Stalin) SUBMITTED: May 181 1957 Card 2/2  24(3) SOV/143-58-10-15/24 AUTHDR: Gorbis, Z.R. TITLE: The Theory and Calculation Method of "Gazovzves"' Heat Exchangers PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Energetika, 1958, Nr 10, ppI18-125 (USSR) ABSTRACT: In 1947, Z.P. Chukhanov Llef 17 showed the high ef- fectiveness of the heat exchange in the "gazovzves"' (gas suspension). Such heat exch~Lngers consist of cooling and heating chambers connected in series by a solid heat carrier. The gas particles are moved by mechanical or pneuidatic means. The author presents in his paper calculation elements for "gazovzves',", heat exchanger chambers. However, these calculation .elements obviously require further improvement in re- fard to accuracy be collecting experimental and opera- tion data. The author presents basic equations for determining the desired heater surface, formulae for calculating the height of the chambers for cooling Card. 1/2 of the gas and heating of the air, pressure losses  SOV/143-58-10-15/24 The Theory and Calculation Method of "Gazovzves''I Heat Exchangers within the heat exchanger chambers and formulae for determining the air temperature to be achieved when the heig t of the chambers is known. There are 1 .,h graph and 10 references, 9 of which are Soviet and 1 Engli3h. ASSOCIATION: Odeoskiy tekhnologichoskiy in8titut imciii I.V. Stalina (Odessa Institute of Technology iiaeni I.V. Stalin) Kafedra teplotekhniki (Chair of Heat En,~;ineering) SUBMITTED: October 24, 1958 Card 2/2  G?!!IS,_Z.11.,,-ZHIDKO, V.I.; MOLINSMY, (),S. Studying the aerod7namice of grain in a fluidized bed. Iz,r. vys.ucheb.sav.; pishch.tekh. no.2:110-115 159- (KIRA 1238) 1. Odesakiy tekhAologichaskiy institut im. LV-Stalina. (Grain) (Fluidization)  QMBM, Z. R., and BAIMTIOZIN, R. A. I "Experimental Investigations on Coavective Heat Transfer of Flovs vith Dust Particles." Report submitted for the Conference on Heat and Mass Transfer, Minsk, WSR, Tune 1961.  GORB13; Z: P,:, and KALOnARIYAN, V. .A. IlExperimental Investigation of Heat Transfer of a long- Tudinally Moving Layer of Loose Material." Report submitted for the Conference on Heat and Mass Transfer, Minsk, BSSR, june 1961.  WnBr" Z. R., XAMI=IYAN, V. A., and BAKUTIOM, R. A. "I Thermal Properties of Synthetic Graphite Particles." Report submitted for the Conference on Heat and Mass Transfer, Minsk, BSSR, June 1961.  GORDIS, Z.R., kand.tekhn.nauk, dotsent; BAKHTIOZIN, R.A., inzh. Concerning the aerodynamic characteristic of graphite particles. Izv. vys. ucheb. zav.; energ. 4 no.11:101-104 N 161. (MIRA 14,12) 1. Odesskiy toklinologicheskiy institut. Predstavlena kafedray teplotekbniki. (Graphite) (Pneumatic-tube transpirtation)  29546S/089J61/011/005/01 1/0 17 B102/BlOl AUTHORS% Gorbis, Z. Kalenderlyan, V. A. I ITLER Physical properties of a layer of particles of artificial " graphite PERIODICAL; Atomnaya energiya, v, 11, no- 5v 1961, 450 - 454 TEXT% The authors investigated the physicalg mechanicalp and thermo- physical properties of graphitized breakage from electrode -lants of r Zaporozhlye and Novocherkasaki The ash content of the graphite layers was not above 0.5%t particle sizes were between 0.4 and >2.88 mm. The specific weight and y v (the weight per m3) of the dry granular material as well as the specific weight of single particles were determined with an accuracy of 1 -- 2%. It was found that yv of the dry material was the highero the lower the particle size was. This weight was also determined for moving graphite layers (which may be used as coolants) in smooth and ribbed tubes at velocities between 3 and 80 cm/sec. YV was found to be nearly constant for iner'easing flow rate up to a critical value dependent Card 1/3 prorn t,h P on Vers '2al 9 4Y t~e rMa, ixtu was ffusivm r tj e ar the  29546 S/08 61/011/005/011/017 Physical properties of a- B102YB101 heat conduction was determined using the relation X - acy v, c being the mean specific heat. X was found to drop hyperbolically with increasinf; porosity p. The experimental curves agree in shape but lie somewhat above Bogomolov's theoretical hyperbola. Agreement was also found with data by M. I. Kozak (Zh.tekhn.fiz. no. 11, 1952) and K. F. Fokin (Stroitel'naya teplotekhnika ograzhdeniya chastey zdaniy (construction thermotechnics of enclosing parts of buildings) M., Gosstroyizdat, 1937). X as a function of layer density a was given by Bogomolov as: X - 21,7X log 0.74-0~31E , For an induszrial mixture (0-55