SCIENTIFIC ABSTRACT IYEVLEV, V. - IYEVLOEV, V.

1797M$ V. N. .011 "The Burnirc of Turbulent Combustible Jets in Ducted Burners., It a paper presented at the 6th International Conference on Combustion, N nL ew Haven, 19.21t August 1956 Qmd, Tech, Sci,,, Inst. Energetics AS UM., YVBCOW A-52W, 0, July 56  IYEVIEV, V. N. "Combustion of Turbulent Jets in Ducted. Burners." ;P paper presented at the 6th International Symposium on Combustion, Yale University, 19-24 Aug 56~ Abstract of papers E-4519, Branch 5  An EmPeri.-e ntal S ---dy *C t e c -j in Tu~-,el 'Purnt--r It q ' I-,i - 17. 1". Krzhl 7.han(,vr',-,j ,,. ,()r -I'- . -,,N. 0 -ell'tation for t -echnJcal Sciences) fle ',andldatr~ dn SOURP-E Knizhn--Ya Letopis', No 6 1956  Yff- VLF V, V PHASE I BOOK EXPLOITATION 626 Akademiya nauk SSSR. Energeticheskiy insitut Issledovaniya protsessov goreniya; sbornik statey po rabotam, vypolnennym v Energeticheskom institute im. G.M. Krzhizhanovskiy AN SSSR (Study of Combustion Processes; Collection of Articles on Work Done by the Power Institute imeni G.M. Krzhizhanovakogo AS USSR) Moscow, Izd-vo AN SSSR, 1958. 123 P. 3,300 copies printed. Resp. Ed.: Ithitrin, L.N..Corresponding Member, AS USSR; Ed. of Publishing House:: Pobedimskiy, V.Vo; Tech. Ed.: Polesitskaya, S.M* PURPOSE: This book is meant for scientists and engineers working in the field of fuel combustion. COVERAGE: This collection of articles represents reaent research in the field of combustion processes performed at the Institute of Power Engineering imeni G.M* Krzhizhanovskiy, AS USSR. Materials studied were gaseous and vapor fuels. Problems considered were: Card 1/ 18  Study of Combustion Processes (Cont.) 626 ignition of gaseous mixtures and stabilization of the flame front; conditions for igniting homogeneous mixtures; performance of a tunnel burner; booster method for tunnel burners~in particular for the burning of gases with low cal6rific valueal regularities of flame propagation in laminary and turbulent flows; effect of preheating and fuel composition on the rate of flame propagation; heat-engineering calculations of processes In furnaces, boilers, and other devices, and methods for the estimation of their performance. A new photopyrometric method is described which serves for measuring the temperature of burning-coal particles in motion. TABLE OF CONTENTS: Khitrin, L.N., Corr. Member AS USSR. Preface 3 Brief review of the four group6 into which this collection is divided. Card 2/18  Study of Combustion Processes (Cont.) 626 Khitrin, L.N. and Gold'denberg, S A,,(Laboratory for the Intensification of Furnace Froces;e Ignition of Gaseous Mixtures and Critical Characteristics 5 The authors based their research on the assumptions of Ya. B. Zelldovich for the determination of ignition characteristics, such as: concentration limits, boundary flame velocities and flame stabilization criterion. Heated rods or spheres were used as ignition sources. N.N, Semenov [Ref. 21 and L.A. Vulis [Ref. 41 are also mentioned as contributors to combustion theory. The activation energy for methane-air-mixture (E=35000 is quoted from the work of V.I. Andreyev and L.A Volodina [P. 361. There are 9 figures, 14 equations, and 4 SoviAt referencess Iyevlev. V.N. and -Solov1yeva, L.S. (Laboratory for the Intensification of Furna.-e Processes). Experimental Study of Gas Combustion Processes in Tunnel Burners 14 Card 3/18  Study of Combustion Processes (Cont.) 626 The authors demonstrate that combustion in a tunnel is similar to combustion in a free turbulent flow. The tunnel appears not to have an essential effect on the combustion process., but is a good, convenient flame front stabilizer. The characteristics derived by the authors can be useful in calculations of premixer gas burners. There are 7 figures and 3 Soviet refersaces. Speysher, V.A. (Laboratory for the Intensification of Furnace Processes)* Limit-pressure Tunnel Burners Operating on Lovr- calory gases 23 Experimental data show that a primix tunnel burner is effective in stabilizing the ignition of gas-air mixtures. This is true.for small caliber tunnels (D - 48 mm) with producer gas and for larjer tunnels (DT= 550 mm) ;ith gas from underground gasification. There are 3 figures and 2 Soviet references. Speysber, V.A. and Andreyev, V.I. (Laboratory for the Intensification of Furnace Processes). Effect of Preheating Card 4/18  Study of Combustion Processes (Cont.) 626 of the Gas-air Mistures on the Ignition Stability J.n Tunnel Burners 27 The authors studied the ignition stability of preheated hydrogen-air mixtures (200 and 390* C). Considerable widening of the ignition stability range was observed at higher initial temperatures of the mixture, whereby lower calorific values were permissible. There are 3 filpires and no references. Iyay-lev, V.N. and Speysher, V.A. (Laboratory for the IntensiTI-c-aTlon of Furnace Processes). Intensifeation of Combustion in Tunnel Burners 31 The authors studitd the effect of a bluff body in a flow of combustible gases. A conical insert with mixer (fan) was placed in the center of the burner nozzle. A threefold to fourfold intensification of the combustion process was Card 5/18  Study of Combustion Processes (Cont.) 626 obtained for low-calory gases (from underground gasification). A comparative study of various types of inserts was made by V.N. Iyevlev and L.S. Solov'yeva. Their results are given in table 1. There are 4 figures.,' 1 table, and 2 Soviet references. Volodina, L.A. and Andreyev, V.I. Effect of Air Preheating on Flame Stabilization by Bluff Bodies in an Open Flow 36 The authors studied flame stabilization of a methane-air mixture with air preheated to 4009. Cones of stainless steel, 5, 7. and 9 mm in diameter, were used as stabilizers. Results are in agreement with those obtained by Longwell [Ref. 11 and Dezubay [Ref. 21. There are 2 figures and 2 U.S. references. It was observed that preheating the air component widened the stabiliz- ation limits considerably in poor mixtures, and insignificantly in rich mixtures. Card 6/18  Study of Combustion Processes (Cont.) 626 Khitrin, L.N. and Golldenberg, S.A. (Laboratory for the Intensification of Furnace Processes). Effedt of Preheating the Combustible Mixture and of the Ambient Pressure on Flame Stabliziation Limits 39 The authorB studied the effect of the initial temperature and of pressure on flame stabilization. Exptrimental data are given from the work of L.A. Volodina and V.I. Andreyev at the Power Engineering Institute, AS USSR. There is good agreement of experimental data with theoretical computations. Certain deviations are due to the characteristics of the stabilizers used. The stability parameters are derived from the fuel to air ratio (F according to Longwell !Ref. 101 and Friedman [Ref. 111. There are 3 figures,, 12 equations, and 13 references, 4 SovJ&., and 9 English. Card 7/18  Study of Combustion Processes (Cont.) 626 The authors studied the effect of pressure on flame velocity for gasoline-air and methane air mixtures. Experiments were conducted with a burner of d-16 mm and d= 12 mm, with a peripheral ignition source, and constant Reynolds nimber 1700. Pressure was varied from 760 -'100'mm.' Results obtained were: for methaw and for gasoline jj n~ VV IZ-F There are 7 figures, 1 table,, and 34 references, 10 of which are Soviet, 20 English, 3 German, and 1 French. Golldenberg, S.A. and Pelevin, V.S. (Laboratory of Combustion Physics). Effect of Pressure on the Flame Propagation Velocity in a Turbulent Flow 68 This study is based on the experimental work of the authors. The pressure dependence of flame propagation velocity was studied by means of a burner with d = 16 mm andlength assuring stabili- zation. A gasoline-air mixture was used at pressures of 76o - 100 mm and Reynolds number's 4-- 20~103. It was determined that Card 9/18  Study of Combustion Proce.sees (Cont.) 626 It was established that the effect of preheating on the flame propagation velocity is the same in turbulent and laminar flows. There are 7 figures and no references., Tsukhanova, O.A. (laboratory for the Intensification of Furnace Processes). Calculation of the Summary Reaction Rate and Flame Velocity in Gas Mittures 81 The object of this study is the development of approximation methods for the calculation of the total reaction rate without restricting the order of reaction, The normal flame speed theory of Ya. B. Zell- dovich, H*K* Semenov,, and D*A. Frank-Kamenetskly was taken as the base for this work. The author gives the equation for the total reaction rate, the equation for normal combustion and its approximate solution, and calculation of the kinetics of CO-air and CO-oxygen combustion with a comparative table of results.b7 various authors table 1). These data are compared with results of N.A. Karzhavina ~fig. 2). Finally., the calculation of flame propardtion velocities Card 11/18  Study of Combustion Processes (Cont.) 626 Ravich, M,B. (Laboratory for the Intensificatlon of Furnace Processes). Methods for the Computation of Flue-Gas LoBs Divi to Incomplete Combustion from the Componition of Combustion Products The author discusses the possibility of calculating the heat losses through flue gases by a simplified method using data ort the composition and temperature of combustion products. Formulas are given for the flue-gas loss and for the gasification efficien^-Y. There Is I table, and 1 Soviet reference. Ravich, M.B. (Laboratory for the Intensification of Furnace Pro-,esses). Classification of Fuels by Their Thermal Properties I".- Tables are given for certain thermal characteristics of fuels whlt!h are divided into two main classes. The first contains with heating valUes that are higher than 2000*s The second tla.Bs Card 13/18  Study of Combustion Processes (Cont.) 626 contains fuels with heating values lower than 20004jand mostly below 17000. There are 2 tables and no references* Ravich, M.B. (Laboratory for the Intensification of Furnace Prooesses). Methods for the Computation of the Excess-oxygen. Coefficient During the Combustion of Fuels in an Atmosphere of Oxygen and Oxygen-nitrogen Mixtures This paper describes the calculation of the coeffieient of excess oxygen (a) from the analysis of combustion Droducts without the preliminary determination of the percentage of oxygen in the feed blast. Data are given for varlovo Soviet fuels# There are no references. Popov., V A. (Laboratory for the Intensifioation of FiLrnace Pr'ocesse;). Measuring the Temperature of Burning Fuel Particles in Motion Card 14/18  Study of Combustion Processes (Cont.) 626 The author presents a photopyrometric method for the determination of temperatures of the combustion process. He believes that this particular'method has not been applied elsewhere. The modification of the photometric method is based on two factors: 1) the moving object is photographed by means of a film moving at a given speed, 2) calibration of the standard is performed on a film moving at identical speed with the observation film. It is imperative to keep exposure conditions identical for both instances. Film used was type D with sensitiveness 350* GOST (8000* Kh and D.) Developer usedwas NIM-1. Results showed that the temperature of particles varied from 885 to 925* C, which is in agreement with physicochemical calculations. There are 5 figures, 2 tables, and no references, Sobolev, G.K. (Laboratory for the Intensification of Furnace Processes). Optical Measurement of Combustion Temperatures in Mixtures of Atr with Carbon Monoxide and Methane. 110 This paper discusses the optical measurement of flame temperatures in a given flame zone. The technique of NaCl dust injection into Card 15/18  Study of Combustion Processes (Cont.) 626 the stream was used for temperature determination by the sodium D- line reversal method. The optical arrangement ordinarily used in such cases is described in the 1952 book Metody izmereniya temper- ayur v promyshlennosti edited by A.N. Gordov. An LT-2 comparison lamp was used, and the combustion products were analyzed by means of the VTI gas analyzer. The temper ature of combustion products in the methane-air mixture was estimated as equal to the theoretical combustion temperature. It was measured at 2-3 mm from the flame front. The temperature of combustion products of carbon monoxide at 4-6 mm from the flame front was considerably lower than the thermodynamic equilibrium temperature, but fairly close to the temperature calculated from the composition of reaction products in the studied flame zone. There are 2 figures and no references. Blinov, V.I. and Khudyakov, G.N. (Laboratory for the Intensific- tion of Furnace Processes), Certain Regularities in the Combustion of Petroleum Products in Containers 113 The combustion of autom6bile gasoline, kerosine, solar oil, Diesel oil, transformer oil, petroleum, and mazut was studied in burners and containers of various dimensions. Their combustion characteristics are given in table 1. Data-for a Card 16/18  Study of Combustion Processes (Cont.). 626 container with d = 22.9 m were supplied by the Central Soientific Research Institute of Fire Prevention (TsNIIPO), and for d= 1.3 and 2.6 m. were prepared by the authors in collaboration with workers of the TsNIIPO. It- was shown that combustion of petroleum products in cohtainers with d= 1 m is turbulent, and tis velocity, and evidently the relative flame height, do not change with varying diameters. It can be assiuned that the rate of turburlent combustion of liquids is determined by the amount of radiation heat obtained from"the flame. This amount diffeTs for different sections of the fuel surface. L.A. Volodin and A.A. Koryakin cooperated in the collection of experimental data. There are 2 figures, 4 tables, and 4 Soviet references. Tsukhanov O.A. (Laborator7,jjfpr the Intensification of wurnqre -_Proces S)-. So ution of W14WRjoblems of Heterogeneous CombusgTo by t~e Method;a- 'ng.of Equations Tir- The author discusses the application of the method of averaging to the problem of combustion in a carbon channel for the simplest case of oxygen reaction at the wall tO'CO2 and without considering Card 17/18  Study of Combustion Processes (Cont.) 626 the existence of reduction. This method was suggested by M.11. Keldysh in the form of an approximation method for the solution of combustion problems based on the averaging of differential equations for one of the independent variables. The method of averaging permits the solution of problems for gas formation in presence of several simultaneous space and surface reactions. There are no references. Kh1trin, L.N. (Laboratory for the Intensification of Furnace Processes). Possible Role of Catalytic Surface Combustion During the High-Temperature Combustion of Gase6 in a Flow 123 The author studied the effect of surface combustion in a high- temperature burning of gases. A tunnel type burner was used with a layer of fine-grained material. It was determined that under such conditions the surface catalytic combustion does not have a noticeable effect and the process is termed an ordinary space combustion of a flow. The fine-grained layer will reveal surface processes in the case of high catalytic activity materials. There are 3 equations, 1 figure,and no references. AVAILABLE: Library of Congress TM/ksv Card 18/18 12-3-58  E Y, V, N - PHASE I BOOK MIOMMON 1112 Naucbmo-tekbnitbeekoye obahchestvo energeticheskoy promyghlen 11ti. Teentrallnoye upravleniye, Sektsiya gazifikateii Tec)riya i praktiks. szhiganiya gaza; trudy amcbm-tekhrli chaskoSD soireshchazdya (Umry and Practice of Gas Combustion; Transactions of a Scientific and Teabnical Meeting) Leningrad., Gostoptekbtzdat, 1958. 343 P,e 5000 copies printed -/ 7 Ed.: Lyakhovskiy., D.N.; Executive Ed.: Fedotova, M.Im.; Tech, Ed,-. Yashchurzhinakaya, A~.B. RIMSE: This book is intended for scientists, desigaing organizations, heat and power engineers, and workers in the gas industry and in enterprises using gas fuel. COVERAGE: This volume contains reports and addresses presented at the scientific- Tecbnical Conference on the Theory and Practice of Gas CombustIon. The reports deal with the physics of gas fuel combustion, the constmiction and operation of gas burners and the practical use of gas fuel in industrial and power plants. References are given at the end of each article. Card 1/5  Theory and Practice of Gas Combustion (Cont.) 1112 TABLE OF CONTENTS: PART I. THE AERODYNAMICS OF GAS COMBUSTION PROCIZBES Vulis, L.A.,Doctor of Technical Sciences. Aerodynamic Laws of a Gas Torch Lyakhovskiy, D.N., Candidate of Technical Sciences. The Aerodynamics of Involute Jets and Its Significance to the Torch Process of Combustion 28 Belov, I.V., Engineer. Characteristics of a Martin (Open-ilearth) Gas Furnace Nozzle 77 PART II. TMM OF GAS COMBUSTION Xhitrin, L.N. Theory. of the Combustion of Gaseous Mixture Flow and Their Critical Characteristics of its Ignition 94 Speysher, V.A., Candidate of Technical Sciences. Maximum Conducting Capacities of Tunnel Jets for Preliminary Mixing 116 Card 2/5  Theory and Practice of Gas Combustion (cont.) 1-112 1yevlev, V.N., Engineer. Principles of Tunnel Burner Combustion 128 It ------------- Ravich, M.B., Doctor of Technical Sciences. Methods of Thernotechnical Computations for the Combustion of Gas With Varying Cceposition 140 Arseyev, A.V., Candidate of Technical Sciences. Results of Research In the Field of Gas Combustion by VNIIM (All-Union Scientific Ro-earch Institute for Metallurgical Heat Engineering) 15 Zakh ikov,, N.A., Candidate of Technical Sciences. Heat Transfer in Industrial Furnaces Depending Upon Conditions of Gas Combustion 168 PART III. GAS COMBUSTION APPARATUS Privalova, K.A., Candidate of Technical Sciences. Survey and Comparative Evaluation of Methods for Designing Gas Ejector Burners 185 Levin, A.M., Candidate of Technical Sciences. Combustion of Gas in Atmospheric Burners 201 Card 3/ 5  Theory and Practice of Gas Combustion (coat.) 1112 Volkov, M.A.j Engineer. Coubustion of Gases of Law Calorific Value in Illumin ting Gas Apparatus 217 Kasavin, L.A., Candidate of Technical Sciences. A Review of Several Gas Boiler DesignB and Methods for Their Imrovement, 224 Tsarik, D.F., Engineer. Gas Combustion Practice in the City of L'vov - and a Survey of the Gas-burning Devices V'.ed 240 Polyatskin, M.A., Candidate of Technical Sciences and Burgvits, G.A., Enginer. Testing the High-capacity Combustion of Blast-furnace Gas 264 Bakhshiyan, Ts. A.., Engineer. Panel Burners for Furnaces and Boilers Petroleum Ref iner:L- a 271 PART IV. THE PRACTICE OF GAS COMBUSTION Kurochkin, B.N. Testing'Natural Gas for Use in Heating YArtin (Open-hearth) Furnaces 2B0 Card 4/5  Theory and Practice of Gas Combustion (Cont.) 1112- Mikheyev, V.P., Candidate of Technical Sciences. Experience with Industrial Gas Combustion in the City of Kuybyshev 289 Avdeyeva, A.A., Engineer. Several Facts Concerning Experiments by the ORGFM MES (State Trust for the Organization and EVIciency of Electric Power Plants, Ministry of Electric Power Plants) with Boilers Operating on Gaseous Fuel 296 Imenitov, B.R., Candidate of Technical Sciences. The Use of Lov-heat Gas, Burned in Ejector Burners in Warmed Air and Gas, for Heating High-Ten- perature Furnaces 309 Bogachev, M.N., Candidate of Technical Sciences. The Transfer of Heat- treatment Furnaces to Gaseous Fuel 324 Sazonov, N.I. Gas Supply in Foreign Countries AVAILABIE: Library of Congress 327 Card 5/5 T14/mas 2-18-59  SO V11 37 - 59-1-75 Translation from: Referativnyy zhurnal. Metallurgiya, 1951), Nr J, p i0 (IJISSR) AUTHORS: Iyevlev, V. N., Solov'yeva, L. S. TITLE: Experimental Study of the Process of Cornbustion of Gas i-, Burners (Eksperimei-ital'noye izucheniye protsetisa goreniya qlaza tunnet'nykh gorelkakh) PERIODICAL: V sb.: Issled. protsessov goreniya. Moscow, AN SSSR, 1956, 14-22 ABSTRACT: An investigation was carried out with gas-and-air premixing burners with a combustion crater 30 mzyi in diarn iind a tunnel duct (D) 80 Inm in diam; part of the work was done on industrial burners with crater diameters of 66 and 90 mm and D di-am of 260 mm. The delivery speed of the city-gas-and-air mixture -,,-aried within the 10 - 30 ni/ sec range, the air-excess coefficient was 0.86 - L. 37. In the course of the experiments the concentrations of C02 and the pressures varied. The combustion process in the D proceeds similarly to that of a free turbulent jet. Between the walls of the D and the border of the flame jet there lies a zone of completely burned con-ibushoil Card 1/2 products, which excludes the direct effect of t~ie incandescent wallt;  SO V/1 37-59- 1 -75 Experimental Study of the Process of Combustion of Gas in Tunnel Burners on the combustion process in the jet. In the front part of the D there is an area of negative pressures I static- pressure deficiency; Transl.Ed.Note] which ersures the movement of the combustion products toward the base of the jet. The supply of hot combustion products, protected from cooling by the incandescent walls, of the refractory D ensures steady ignition of the current of the fresh combustible r-aixture. Experimental data are available on the values for the speeds and con- centrations for various magnitudes of the excess air coefficient, and on the initial speeds of the mixture and of diameters of the crater of the burner. The structure of the flame jet was examined and the determining factor of the two zones in the formation of the burning jet is clarified. G - G Card 2/2  Translation from: Referativnyy zhurnal. Metallurgiya, 1959, AUTHORS: Iyevlev, V. N., Speysher, V. A. ----------- TITLE: Intensification of Combustion in Tunnel Burners goreniya v tunnel'nykli gorelkakh) PERIODICAL: V sb. : Issled. protsessov goreniya. Mosco%%, pp 31-35 SO V/i, 3 7- 59- !- 71 Nr 1. p 9 (USSR) (IntensifiRatsiya AM SSSR, 1958, ABSTRACT: An appreciable shortening of the flame in tunnel burners can be achieved by installing a non-streamlined axially- symmetrical body close to the combustion-zone crater. In burning city gas in a burner with a crater 90 mm in diameter and a tunnel ZbO mm in diam. the installation of a smooth hollow cone 60 mm in diam on the axis of the jet shortens the flame by 66% and increases the heat liberation from 14 to 43 kcal/m3 hour. The highest liberation of heat and the least increase in resistance are achieved when the cone is in the optimum position. Conical insertions with turbulence- stimulating blades proved still more effective. The libe-ration of heat increases by 600 and more percent. Card 1/1 G. G.  �r It 1 OM fit Ik p 4' VA 1~ 91 3  06384. 16(2,7) SOITI.170-59-2-RIP-3 AUTHORS: Goltdenberg, S.A., 13revlev, V.N. TITM: The Determination of the Inten ity of Turbulence ILlong a Heat.Source PERIODICALt Inzhenerno-fizicheskiy zhurmal, 195%, Nr 2, pp 10-16 (USSR) ABSTRACT: The paper describes an attampt to establish the appliciOility of the statistical theory of isotropic turbiilence for thiDdetiu-minatlan of' th-i intensity of turbulemce of an air flow, strvaming from a oy.11ndrical tjb4 in the region of its core. -Me &uthors analyze the basio equa 'tics for-the determination of turbulence parameters in an fsott,opia hxwbttlent field, Forvula 1, obtained first by Taylor ZRef g and emsidar two ext'reme solu- tionsg 1. For the case of a short time interval ond 2. For the case of a long interval,kof time, In the first case the coeffici-ent of turbulent diffusion grows linearly with time, Formula, 9, in the second case, 1.41,, at a considerable d1stanoe from the source, 'the wilue of this coef-ftei4mt tends to a constant magnItude, Formula 11. The authors then consider theoretically the case of a point source of head, and report on the expori- ~ R ments carried out by them with a gas-oxygen br=er, taken as 6 point" source, placed co-axi&Uy In a cyllmdrical tubte of 32 - 34 m in dianiet-_r, Card 1/3 Figure 1 show typical cur4res of temperature dist;r1butlen along a tranwreerse  06384 SOV/170-59-2-~2/23 The Determination of the Intensity of Turbulence Al--,mg a heat Source direction relative to the aJr flow at var-lous dlstwzea along the flow., The temperature was measured by a tlheryjio-ooup.1,4~ w114 ourveotions Tor radiation, The anilysis of the vAsulf-s shows -Wat the distri-bation of temperatures in the can-t-ral, part, of thoA aix flow corresponds r&tMr well to t1he Gauss law (FigurA 2) ~ ThA ,~alntlat-_d vaIumt of 'hirbulence ~nttnsity on the tube axis agree well with -the data obtalned with im ETAM-3A electro- thermoanemom-ster ty S,G. Tka,~hak, a sAentifta worker of the laboratory of combustion processes of -the MN, and V,M. Pant*layev, a radiotedbaician. The experiments Ohrried out by thA authors have ft,stablishod thAt n9latively homogeneous fields of t1xr'_"uIe:~;.t pilsations are obst~rvi_,!i In the central part of the flow stream ing: out of a Wb-.~ in ths region of --~ 0 ~ 2-9 D as it is shown Card 2/3 in Figure 4, The !Lnt,~Lasity of tj_r-bulance vaxles iru~ignlflcantly at a  06364 SOV/170-59-2-2/23 The Determination of the Intensity of Turbulence Along ~,,Heat source .1 distance of 2D from the and of the tube and practically does not depend on the flow velocity. There are: 4 graphs and'.5 references, 3 of which are Soviet and 2 Maglish. ASSOCIATION: Energetioheskiy institut AN SSSR (Power EngineerJjig Institute of th&~AS USSR), Moscow. Card 3/3  IYEVLEV, V.N., kand.tekhn.nauk-, C-OLIDENDERG, S.A., kard.tekl-Il.rauk- Ignition from a flame n.-jurce in the ilow of homoFeneous fuel-a-Ir mixtures. Teploenergetika 0. no-5:22-24 Vky '~2. (MIFUl 15-4) 1. Energeticheskiy institut in. KrzhizhanovskoFo. (Combustion)  C E"If 1, ( -M BDS A.Ylr:,c 'AFX 'T"h I!W *NW MOS C cFdj ; -ye,.,' ev cov TITLE: The effect of turbulence in the: flov Of cCMbUztVbI,!! MIXIALTes OIL t'Lie SXRCE! AN SSSR. Izv. Otd. tekh. newl-r. Melthanilm i peI4;1*,iI.jics 1. rcareniye no. 11, 1963, 112-1-15 TOPIC TAGS-. twbulence effect, ignition temperature, M=AbilItir li=lt, b!=m-r, turbulence proffile, ignition property ABSTRA.ICT: The effect of turbulence in the flcrz of, pre=-ixaiIj,,~ap;q3.vne-a:Lr mlx- tureA on the ignition tomiper-ature and the 11mits, off 'Iame stabillity mas ) uh!i-.1i .af, equ-Appe4 vith P- ,0 =; lcni.7,th, 700 In a tubvIar burn-Ir (dixmncter, concentrically located water-cooled additional burner (timer diarriater, outer diameter, 7 =-) E!ervins as the ignition sr-yarce. 712-q! cool.." mg-surface arem Of the Source could be varied to Sive source vitla methane-cctygea xtuzes, ranging frcm 17,00 to 2200C. The source tenporptimm- %,as reasured trozco-plicalij 1-21 -- fI7.mstrt= frcm th,~ source b-v the T-.!!!thc0- (if' rcx-4!1=-Ui3e --Lr--iience frm 5.5 to Iii the -.-t~:inity of Card I  L 136co--63 grt Ln the burneT, frm the --,-n ~~rn 1-- f r--7m the bio-noj r :rit e t ftn ~-:ect -!-c- f -' I - !I :n I I f! I f, C t f .I fri n - 7n --r. r- :3 -J P:7 1 D-St I'10 -,--f n 4- n r e V- S e F, S ab t a-- t-, a Lly. t~,e lie a zlct! On of ~~Ihe air excess factor with ~!'j P,id lewa.ted Tm frim th.! ol-,tlet) - A-ri -- lys i S ,-i e I d ed t he if 011 Curt'i f I-M ul an ff 0 r :: (:~r -re 1.! rT, I crl -'r- z Ci-,Y Vith tuxb,~,Ience all Nu - Const: V = Wo ,where v is flaw velocity ;t turbulence e, wo ie initial "locity at ImItial turbulence C OP andK = 4. Applied to an exomple, the forimilas yllelcled a flow -relacilty at a turbulence of M of 16 m~aec, ccmparea vith 1.9 milliac dat-ervined by e:zperiirent. Thia correspmds to 31 ra/sec at a turb,,%Ience of 55 and. id-entical ,1,, ersturts (:-5C.Cr,). 'the tmitlhorij (--Y, ress tbeir I-irselt nmbers and ignition temn-pe p sincerL- thanks to L. N, Mitrin for his sugl--restionz." Orig. a::-.. has: 7 and 4 foxmu-I-S. Card 24),  ;ACCESSION NR: AP4024190 S/029 4/64/0021001/0058/0064 AUTHOR: Gol'denberg, S. A.; Iyevlev. V. N.; Leont'YeV29 Ze St TITLE: Determination of electrical conductivity of high-temperature combustion products by the induction method SOURCE: Teplofizika vy*sokikh temperatur, v. 2, no. 1, 19640 58-64 :TOPIC TAGS: electrical conductivity, high tempe;rature gas, combustion product, combustion, rocket exhaust, induction method -ABSTRACT: The electrical conductivities of combustion products,of gasoline-oxygen mixtures in the temperature range of 2600-3000K at atmospheric pressure were measured by the induction method. Fig. I of Enclosure shows the experimental assembly used for.obtaining the high-temperature gases. A homogeneous gasoline-aLr mixture passell .7 into the burner, which consists of several sections. In section 10. the combustible mixture is mixed with oxygen injected through small. orifices and is then ignited by a continuous-action gi%s-oxygen ignition. source. Above the ignition source, water-cooled combustion ch~amber 3; .is installed, in which intensive mixing and combustion take place. Card 1/6~7  ~ACCESSION NR: AP4024190 ;Combijdtion is completed in quartz tube 6, (diameter, 4G mm; length, .about 300 mm). To cool the chamber walls, air is passed through the uced jacket formed by quartz tubes 6 and 7. Salt soluttons are introd Into section 2 through an atomizer nozzle to increase the electrical .conductivity of the high-temperature gases. The assembly has the* following performance parameters: consumption of the air-oxygen mix-) ture,,54-70 m3/hr, and gasoline consumption, 17-24 kglltr. The con- centiation of oxygen in the mixture is varied from 38,to 60%. The flow velocity of the high-temperature combustion products is varied from 155 to 190 m/sec. The gas temperature, which was calculated on the basis.of the gas composition and measured by the method of the sodium D~-Iind reversal, is varied in the range of 2740-3030K. Potassium salt-is injected in the form-of an aqueous solution of KCNS. Provision ,id alsb made for.simultaneous injection of dry potassium carbonate. T4e.operation of the LEP-01 instrument used for determining the elec- trical-rconductivity is based on the interaction of a conductive medium MI'i'-ith the ei~dial component of a primary magnetic field. (See Fig. 2.)".: Fig. 3','shows the experimental and calculated electrical conductivities~ f ftfiWrtempenture gases. Expressions were also derived for calculating. the induced electromotive force. The results indicate that the elec- 'Veal conductivities of combustion products containini; 0,7-1.5% t r  ACCZSSION NR: AP4024190 potassium in the temperature ranne of 2700-3000K vary in the range of. 0.3-0.9 ohm-1cm-1 The determined electrical conductivities Vere in good agreement with values calculated by use of-& correction factors Orig..arts hast 4 figures, 3 formulas, and 1 table. ASSOCIATIONt Energaticheskiy institut im. G. It. Krzhimhanovskogo (Power Engineering Institute) 'SUBMITTED: 13Jul63 DATE ACQ: 16Apr64 ENCL: 03 SUB CODE: PR NO REP SOV: 006 OTHER: 009 47 Card 3/  ALADITEV, I.T.; ALEKSANDROV, D.K.; BAUM, V.A.; GOLOVINA, Yo.S.; GOLIDENBERG, S.A.; ZHIMERIN, D.G.; ZAKHARIN, A.G.;_1Q. KNORPE, V.G.; KOZLOV, G.I.; LEO,',TTIYEVA, Z.1.; MARKOVICH, I.M. IYEROVICH E.A.; MIKIINEVICH, G.V.; POPKOV R E p ) Z. I.; POPOV, V A,) PREDVODITELEV, A.S.; PYATNITSKIY, L.N.; STYRIKOVIC11, M.A.; TOLSTOV, Yu.G.; TSUKHANOVA, O.A.; CITUKHANO-11, "U.; SIREYNELIN, A.Ye. Lev Nikolaevich Khitrin, 1907-1965; obituary. Izv. All SSSR. Enorg. i transp. no.2:159-160 Mr-Ap 165. (141RA IS: 6)  0 7-66 ';W M~&W ZVYWA (W WA _0 I Aj.&WV~~ SOURCE; COM URIO 1 65 000 0138 6'13. AloksAndrov, &Ma,3L," A GoaAmi-TI, S-1 Golldenbar~, S. A-L nOrin. D. G.; ZAkharin Zhir . A. O.t V._G., I m4zlov' G. I.; Loontlyova, Z. .1 Markovi , I H.; IWXRX24$~~; Mikhnovich, G ""OPXOV, 14. L.; _V, V. A,; k PO __o; voditelov, A. S.; Pyj!tn1ts4Y. L, N.; StyrikDvich He_ A.; Tolstoy, Yu. G.; Taukhanova. 0. A.; Chukhanov, Z. F.t Sheinvili , A. To. ORGt none TITIZ- Lor Ilikolayevich Khitrin XUFZ-~: SSS~!- '_~zvestiya. Enorgetika i t-ransport, no. 2, 1965, 1.91159 TOPIC TACS: academic personnel, physics personnel. combustion, carbon, high temperature researcht plasma beam, fuel AMNACT: Professor Corrosponding'Nember. Acadesrq of Scianios US1,11, State Price Latroate, and-Doctor of Enginoerint Sciencov, died after a short but severe illness at the age of 58. He was wall known here and abroad as an outstanding scientist and speciali3t in'tho field of embustion theory and the development of methods for rpoedinr. iq burning of fuel. No b*Zan his scientific %*rk at the All, Union Heat ftinoorir% Institute after Craduating 'fron the phys1c3 dopartriont of Moscow University in 1930. Ilia earIV wor!( vas on the propaGation of flamea In Cases, and on hatororonous ccmbvztion4 In .1948 he defended his Wetor's Dissertation on the theory of coubuation.of, car- Card 1/2 nqA,W-  L 24077-66 'i4 --- AP60lh966 bon. His monograph "Coplbustion of Carbon" was auardad ;Lhe Stato Prize in 100.~ In l9drj he bocamo Iffio pomanont director of the laborator,,r for the intensvica- i tion of combustion processes of tho 0. It. Krzhizhanovska Power Inztituto.Y He 1 was oloctcd a corresponding member or Ulu Academy of 5clonced U I MTIV~). He MT I 'hoaded tho All Union Advisory Board on conbustion, represented Soviet sclonco at Intornational Symposia, and was a manbor of the International Instituto of combustion. For a number of years, he diroctod the Ilosooit Concril sex--iinar on co;~ibustion. and took an active part in Cho work of the Scientific Council of the Academy of Sciences USSR, on high temperature beat physics, and of the scientific council on the comprehon3ivo utilization of fuol, He dwiotod a large amount of attention to toaching work. He directed * Combustion Divi- P. His MO 4-09-ra-27- 6ion of the Physics..Deortmon. f Voscoir 5'-ato Univorsity.Y "Physics of Conbustion and �~~ sion,; 1957 is a basic text for students in this "ield. Wree Doctor's OWJ sortat4ons and fifteen Candidate Dissertations wore defended undor his direction. In tho last years of his life he directed work on MOthOd3 for comprohensiva utilization of fuel at povar stations so as to obtain valuable products from the minoral part of the fuel, as well ae work on the physical chmical proceeses in a plawa strean, And thd hochanim of interaction between carbon and'gasos. He waa the author of more than 60 scientific works, forwhich he wao Awarded the order of the Red Bannet of. Labor and models. Orig. art. hast 1 figure. CJPR_S7 SUB Comi 21, 20 / SUHN DAM none Card  MUTTSOV, A. T.; IYETLEV, V. S. Transporting auxiliary materials in bydraulic mines. ~goll Ukr. 7 noA.,25-27 Ap 1163, OGRA 16--4) 1, Gosudarotvennyy inatitut po proyaktirovaniytt shakhtnogo etroitel's-tva v yuzhnykh rayonakh SSSR. (Hydraulic mining) (Mine haulage)  f L/ c USSR /themical Technology. Chemical Products H-5 and Their Application k, -er. Water treatment. Sewage wat Abs Jour: Referat Zhur - Khimiya, No 1, 1958, 1811 Author : Iyeyley V. Inst : State Union Institute of Planning of Establish- ments of the Coal-Tar Chemical Industry Title : Decontamination of Sewage Water of the Installa- tions for the Removal of Hydrogen Sulfide from Coke Gas by the Arsenate-Soda Method Orig Pub: Soobshch. Gos. soy,-,z.. izn-ta po proyelctir. pred- priyatiy koksokhim. prom-sti, 1956, No 17, 150-161 Abstract: The sewage water contains (in g/lIter) : Na2SO,3 up to 250, NaCNS 70-90 and Na,SOq up to 60, To C ard 1112  USSR /themical Technology. Chemical Products H-5 and Their Application Water treatment. Sewage water. AbB Jour: Referat Zhur - Khimlya, No 1, 1958, 181.1 decontaminate the sewage water it Is proposed to evaporate it after removing the Fe admixtures (by precipitation with NH . The evaporation residue is calcined in muffle furnaces and con- sists thereafter of 96% Na~SOy. The fl Iue gases contain, 4.5-5.5% SC& and arte used for the pro- duction of H SO,4 Another suggested procedure for the treAmeni of sewage water is a treatment with HgSO4. The S that separates is used in the production of H2SOV, while evaporation of the solution of sulfate and thiocyanate yields 11a2SO4 which meets the specifications of GOST 1363-47. C ard 2/12  IYEVLEV$ V.V., kand.tekhn.nauk Decontamination by evaporation of the tar water fron coke and coal chemical plants, Koks i khim. no.8t42-46 163. (MIRA 160) 1. Ukrainskiy uglekhimichoskiy institut, (Coke industry-By-produe-ts) (Industrial waste s-P U-if ication)  MIMYLOVY N.V.; GORRACREVA, V.O.;.I'YhVLEVAI A.K. Determination of the specific volumes of synthetic fibers at elev4ted temperatures, Khim. volok. no.5t26-28 163. (MM 16: 10) 1. Vsesoyuzn~y nauchn-itisledovatel'skly insf-Atut iskusstvennogo volokna.  IYEVLEVA, q2,--pKe-podavatell University of culture in a technical school. Frof.-tekh, obr. 20 to-3:22-23 Mr 163. (MIRA 16:3) 1. Novosibirskiy IndustriallWy tekhnikum. (Vocational education) (Aesthetics-Study and teaching)  VA.NWA, G.A.; NMIOTENOVAq T.I.;.jYEVLEVAs I.A. Extension of the storage life of fruit jelly concentrates. Konoei ovoprome 16 noJ:18-19 fir 161, OURL 14:3) 1. TSentralinyy nauchno-issledovateltakiy institut koxisermoy I ovoshcheaushillnoy promyshlonnosti. (jelly-Preservation)  KHAKEINA, L.P., starshiy nauchnyy 8otrudnik; IYEVLEVAt-j~A-, mladshiy nauchnyy sotruoik Freeze-dried meat as a semiproceased product for manufacturing food concentrates. Trudy VNIIKOP no.10:82-1011 159. (MIRA 14:8) (Meat, Dried) (Food, Concentrated)  IVA11OVAJ, G.A., ata~r-pauchnyy sotrudnik; KIIAKIIIIJA, i,.P., starshiy nauclinyy sotrw1Y;ik,-'-'CHINE:N0VA, L.G., starshi)r nauclwy7 sotrudnik; PETKEVICH, V.P., starshiy nauchnyy sotrudnik '; mladshiy nauchnyy sotrudnik; MINKVITS, X.L., hiy nauchnyy sotrudnik Industrial production of dried meat, a semiprocessed product for food concentrates. Trudy VNIIKOP no.10:109-115 159 '~ 14:8) MIR ( (Meat, Dried) (Food) Concentrated)  MIAKIIIIIA, LJ.; lVA160VA, G,,A-,; 1YEVIEVA, LA. Powdered sauces. Konq. i ov. prom. 16 no.10:26-27 0 161. (M]-11. 14:11) 1. TSen.rallnyy nauchno-issledovatellskiy inati-tut kor-servnoy i ovoshchesushillnoy promyshlennosti. (sauces',  VOLOBUYEV) V.I.; BIDA, L.S.; KUKUSHKINA, Me.; NENARTOVICH, L.V.; KAIMKOVA, Zh.l.; KASIYANENKO, S.I.;jT _, MXVA,,.L.A.j ROY-EVA, Zh.M.; Prinimali uchastlyet KINELIK, A.I.; VOSKMAN, A.O.; SHAPOVALOVA, L.P. New wholesale prices for cast iron, blast furnace ferroalloys, open-hearth and converter steel. Sbor.trud. UNIIM no.3.1:131-137 165. (MIRA 18:13.)  IYENLEVA, L.S., Cand Tech Sci -- (diss) "Sensitivity Len, 195 of teleohone networks to .4, '8, 13 P~) (Min of Itailways USSR. Len Order of Lenin Inst of znginecr,; of Railroad Transport im Acadamician V.N. Obraztsov) 100 copies,(KLy 29-58, -132) - 5h -  6(7) SOVI 112-59 -4-8.317 Translation from: Referativz,.yy zhurnal. Elektrotekhnika, 1959, Nr 4, pp 271-272 (USSR) AUTHOR: jy-!v1e!VA'L. S. TITLE: Senaitivity of Telephone Circuits to Noise PERIODICAL: Sb. Len-ingr. in-ta inzh. zh.-d. transp., 1958, Nr 158, pp 368-386 ABSTRACT: The existing methods 3f determining the flensilti.-Aty fattCj' Of a telephone circuit to noise are discLssed. Wave phenomer-a inn asymmetrIcal line.a and the sensitivity factor of an asymmetrical line a.re exami-ned. New methods for meaimrinng noise sensitivity of an asymmetrical fine, -without' breaking it in- the middle, is affexed; the new method requires less time. Bibliography: 10 items. N. A. U. Card 1 / I  KALLER, M.Ya, kand.tekhnonauko dotsentp, IiINLUA, L.S.o kand. tokhn. naul: ~ I Methoda, for taking into acomt the ~AtUftl aaYABOUT Of a two-wir4 oircuit on the magnitude of nolne induaed in it. Sbor, trad,'LIIZHT no.179:61-M 161. (MIRA 16:1-1)  IYE VLEVA, L. V.: Second Moscow State Medical Inst imeni I. V. Stalin. IYEVLEVA, L. V.s "On the use of salicylic preparations and X-ray to treat rheumatism patients." Second Moscow State Medical Inst imeni 1. V. Stalin. Moscow, 1956, (Dissertation for the Degree of Candidite in Me&Lcal Sciences) SO: KniEha= Letopielp No. 20, 1956o  I ~[ 'Vr Z L V F7 ,, I/ ~ ~~ - MESUROV, A.I., prof.; INURVA, L.V. -, kand.med.wjuk; SIGMIII, Is.A. (Hoskcvs) So-called Collagen diseases. Terap.arkh. 29 no.2:3-17 '57. OfIRA 11:1) 1. DeystvitelInyy chlen AMN SSSR (for Nesterov) (COLLAGEN DISEASES, review (Run))  kand. med. nauk; SIGIDIN, Ta.A. Some clinical variants of the so-called collagen diucaaes. Terkp. arkh. 30 no.11:16-23 N 158. (XIIIA 12:7) 1. Iz kafedry falmlitetskoy terapii (zav. - deystv. chlen AMN SM prof. A.1. Nesterov) 11 MoBkovskogo meditsinntogo bistituta imeni N. I. Pirogova. (GOLIAGEN DISFASRS)  -,IYEVLEUp L.V.; ANOKHIN# V.N. Combined therapy and its influence on the dynamics of certain imminological indices Jm patients with rheumatic fover. Klin. med. 38 no. 2:76-85 F 160, (MIRA 14: 1) (MEMATIC FEVER)  rz%i:dll,a-Lic)ns cf :.,p a v L,.,:,. al ~~i i r  IY.'L,,VT,7-VM,,O.B. (Voronez~,) "Vibrations of a body having a spherical cavity Mled i-ilth a viscous liquid" report presented at the 2nd All-Union Congress on 1heoretical and Applied 14echanics, Xoscow, 20 Jan - 5 Feb 64.  Is!~W--AN - A . j 1jx 11ILYI-AWWAL". R's Ak'bU13912 C 0 D E: UR 0 7 31AD40* E AUTHOR: Blyum. G. Z.: Iyevleva, S. S.; ElimIdna, Z. A. ORG: Moscow All-Union Institute of Chemical Reagents and SpecigIlly Pure Substance (Moskovskiy vsesoyuznyy institut khimicheskikh reaktivov I osobo chistykh veshchestv) TITLE: A study of of the liquid-vapor phase in the trichlorosilane -chloroform system SOURCE: Zhurnal fizIcheskoy khimil, v. 40, no. 4, 1966, 925-9211 TOPIC TAGS: phase equilibrium, chloroform, silane, IR spectroscopy ABSTRACT: The phase composition of a binary mix f specially pu~Ved trichlorosilRne and redistilled chloroform was analyzed by infrared spectroscopy (UR-101-sipectrometer! Orela- i tive error 3 ~7%). The results were Interpreted statistically and verified thermodynamically~ The data obtained were used to calculate coefficients of relative volatility and activity. The 1 system is characterized by a negative deviation from Raoult's principle. The measurements on the UR-10 were performed by B.V. Zhadanov, Orig. art. has: 5 figures and I table. SUB CODE: 07/ SUBM DATE: 18Dec64/ ORIG REF: 003/ OTH REF-. 001 UDC: 541.8  GWWOVA, Tevgonlys, Stapanovna; IYETLUA, T,A., red.; GALALIIIONOTA# U.N.1 tekhn. red@ ` [Reinforced concrete bridgeol ZholazobstoWe mosty, Moskva, 16uchno-takhn. lzd-w avtotrandp..lit-ry, 1956. 74 plA(MM lltIO) (Bridges, Concrete)  IVANOV, Nikolay Hikolayevichs prof.; ORNATSKIY. Nikolay Tasillyevich, prof.; BABKOV, Valeriy Fedorovich, prof.; ITEYLEVA, T.A., red.; HAWAOVA. N.V., tekhn.red. [Fourth International Conference on Soil Kochanice and Foundation Engineering] IV Heshdunarodnyi kongress po mekhanike gruntov i fundamentostroaniiu, London, 1957.g. Hoakva. Xaucbno-tekhn.izd-To K-va avtomobillnogo transp. i shossainykh dorog RWSR, 1958. 178 P. (KIRA 12:6) (London--Soil mechanics--Congresses) (Great Britain-Road construction)  -ORNATSKIY, N.V., prof., otshaixiy red.; VAMWSHIN~, N.P., red.; IYXVMVA, T.A., red.; KALIKOVA, N.V.. takhn.red. 14r- [Research on durability of the road materials] Issladovanis prochnosti dorozhnykh odezhd. Podred. N.V.Ormatakolgo. Koskva, Nauchno-tekhn.izd-vo X-va B'vtomobillnogo transp. i shosseinykh dorog RSFSR, 1959. 298 pe (MIRA 12:8) 1. Moscow. Vaesoyuzny7 doroshnyy nauchno-issledovatellskiy institut. (Road materials--Testing)  TROYMOV, Grigoriy Terentlyevich; ITETLEVA. T.A., red.; DCNMATA. G.D., tekhn.red, "W"WHO-MMIMW (Highway construction on permafrost] Stroitallstvo avto- mobillnykh dorog v uslovilakh mnogoletnal meraloty. Hookwas Hauchno-takhn.izd-vo X-va avtomoblllnogo tranaporta L shosseinykh dorog RSPM, 1960. 43 p. (MM 13:5) (Road constraction-Cold weather conditions)  AHMEYEV, Oleg Vladimirovich. dotsent, kand.teklm.nau3c; LvIp I.I., prof., doktor tokhn.naukv.retsenzent; HEUSHECHM, AvA.p prof., retsenzent; IYBWZVA, T.A., red.; GALAICTIMOVA, YSOMSO tekhn.red. [Designing bridges] Proaktirovanis mostovykh perekhodoy. Izd.2., perer. Koskva, Mauchno-takhn.izd-vo 9-va nvtomobill- nogo tranap. i shossainykh dorog RSFSR, 1960. 294 p. (miRA 14:2) (Bridges)  ITEVLEVA, T.M.J-Iievleva, T.M.] - .Case of tetanus following criminal abortion. Pod., akush. i gin. 20 no.1:62 158. (MIRA 13:1) 1. I-ya Infektsionnaya bollnitsa (glavnyy vrach - IT.F. Babyak), g. Zaporozhlye. (ABORTION) (TETANUS)  Ifu~pa-I-Ifte dls i-N. 14. Titunov iml 'u. RVI CIIA (Centril rianvittcl, Chemical Abstracts rd. A.7jualat. Msj, ti, inoiaiu or vii.- Vol. 48 No. 5 globulin fnivifoii h 0)vrvvNI In of I 141r. 10, 1954 J. I : Biological Obertistry rxmi. mb~ pwe,mei III compyboll with tiorr".1 vtli. An i bit pyoderma t hmc-. Ii ubsetvttl it 1.itlOtir itid-l"No of W01 atid 1-01)bulln friletionq. G. hy. M)Solapoff  i "lit'd of 'i)7~hdo, m,l 3c ItIt 11-t I,- It  A10"AN, A.T., RAIRMALEVICHo Te,K.l, OMAN, A.A.. OVCIIMIKOV. N.M.. ZALXW, P.M 04~1UWWA, YZ.AO-f IVANOVA, 14L, ZIRTSI--WTA, 0.1. Bxperimental data on the study of causativ0agent of pemphigue in the developing chick embryo (with summary in J~nzlil. Vest.derm. i van* 32 noo'4t3-9 Jl-Ag 158 MMA 11:3.0) lo Ix tsentrallnogo kozhno- venerologicheskago instituta dir N.M. Turanov) i Inatituta virusologii Akademii moditainskM nauk SSSR dir' PoNo Xooyakov), DEOMIGUS, virus, culture in chick embryo (Rus))  MALYKIN, R.Ya., prof. [deceased]; UIRUNOVA, A.P., kand.med.nauk; IYAV I YevAgg m1adehiy nauchnyy sotrudnik Some physiological mechanisms of the activity of ganglion-blocking preparations and of electrona=osio on the functiomnl state of the skin; experimental investigations. Veat.derm.i von. 33 no.5:18-24 S-0 159. (MIRA 13:2) 1. Iz otdolapatofiziologii (zaveduvushchiy- prof. R.Ta. 14alyk-in) TSentrallnogo nauchno-iseledovatellskogo kozhno-venerologicheakogo institute. (direktor - kand.med.nauk N.M. Taranov) Mini8teretva zdra- vookhraneniya RSFSR. (SKIN phyeiol.) (ATJTONOMIC DRUGS pharmacol.) (MCTRONARCOSIS off.)  LEBEDEV, B.M.; IEVLEVA, E.A.- IMLEVAy Ye.A. 3- - Skin reaotion to 4 -radiations during the with radioactive phosphorus. Mod. rad. 5 (PHOSPHORUS-ISOTOPES) use of applicators no.8:13-14(16o. taRA 13:12.) (SKIN)  IY3VLF,VAP Ye.A. Effect of the pathogens of leprosy alad tuberculosis on changes in .skii reactivity in experimental animolo. Zhur. mikrobiol.. epid. i imran. 31 no. 5:50-53 My 160* (MIRA 13: 10) 1* Iz TEentrallnogo kozhno-venerologichookogo instituta Mi-misterstva zdravookbrawniya ESPER. (MYCOBACTERM TUBERCULOSIS) (MYCOBACTERIUM LEME) ~(SKIN)  SMELOV, N.S.9 prof*; ZALKANp P-M-P prof.; BOLISMKOVA, G',M,~J, IYEVlWAP Ye.A,; =PTANOVrg, B,G. Cortiaone in the treatment of eczema and neurodermatitis. Sov. med. 25 no.3:91-96 Mr 161. (laRA 14 - 3) 1. Iz otdela dermatologii (sav. - prof. N.S.Smelov) TSeut~allnogo nauchno-isisledovatellskogo kozhno-venerologiohookogo instituta, (direktor - kand.mad.nauk N.M.Turanov) Rinisteratva zdmockhmieniya RSFSR. (ECZEM) (CORTISONE) (SICIN-DISEMES) I  IEVLEVA . Yq_t&_L_L~~, B,K, Effect of irradiation with radioactive phosphorus an the seusi- tivity of the skin of guinea pigs to dinitroctaorobenzeue. Teat* demA vet. 35 no.lt23-24 Ja 161. (MIRA 143) 1. Iz otdela eksperimentallnoy dermatologii (mav. - prof. P.M. Zakali) TSentrallnogo nauchno-isoledovatellskogo kozbmo-venero- logicheskogo instituta (dire - kandsmedonauk N.H. Turanov) Minioteratva zdravookhraneniya RMR. (PHOSPHORUS-ISOTOPES) (RADIATION SIMMS) (BBNZMEK) (SKIli)  IrEVLEIIA, Ye. A. Method for studying the effect of medicinal ointments, cleansimy preparations and cosmetics on skin reactivity in guinea pigs. Vest. derm. i ven. no.3:83-85 '62. (MIRA 15:6) 1. Iz otdeleniya eksperimentallnoy dermatologii (zav. - prof. P. M. Zalkan) TSentrallnogo nauchno-issledovatellskogo kozluia-venerolo- gicheskogo instituta (dir. - kandidat meditsinskikh nauk N. M. Luranov) Ministerstva zdravookhraneniya FM'SR. (SKIN) (OINIMRNTS-PHYSIOLOGICAL EFFZ,T) (CrSMETICS-RffSIOLOV.ICAL EFFBOT)  ALYUSHIN,, M.,r.; TYLJIj-,,RtVA Y,-- A Experimental studies on tbt~, effent of poIyzrrgajiosiJi"Yane liquids on the reactivity of the skin. Tact. derm. i ven. 311, no.6:29-34 Je 164. (KERA48:6) .111 'e~-ar-stv6nnykh eona i git'lonovy"Ah 2. Ieboratorlya foklinolot I prepLratov (--av. - kand.rn~doiauk O.I.M.ova) T'Sentri%].1nogo nauchnc~-Issledovatellskogo aptecbiogo institut,u (dJi,. - ka-nd., fanuakologi.aheskikh naul, A.K.14-11nich--nko) Mirtistwerafva zdra-,,;~~&~Lraneniya SSSR i otd-ill~niya eksperinal'itallnoy d+,~rmatologli Nav. - prof. P.M.Zalkan) TSerjti-altnogo nauchn u-is i3~led ovate I Iskogo, kazhno-m-venerologicheskogo instituta (dir. - kand.med,71auk N.Mj, Turanov') WnistCr3tVa zdravookhranortiya SSSR, Moskn~,  L(I~z"i'lF.V! , O~f I . ~ I YPJT,- ljri~ , Ye s. , ~~_i I ~ I , I." ,, t antibodie. against ;--'I_-co.Mag_ T-1 ckl. N SS~R 162 J~-, '65, !MTRA 16:7) 1 - 0 I . In's t i t" I '. e 1) 1 " e ni f ~ 11 '7~g i 1 1 im; , 2. -~tyzitvi-telInyy - - chien AMN ( _'-~17 "! 1P L~,-  STROGANOV,, N.S.; IYEVLEVA, Ye.S. Determination of the degree of relationship in fishes by the method of precipitation on agar, Zool zhur. 43 no.Wlle-219 164. (MIRA 17:6) 1. Biologo-pochvennvy fakulltet Maskovskogo gosudaratvonnogo u#iversiteta.  js~R Z~YL" 2, (4 /Chemical Tecli?nology - Chemical Products and Their 1-8 1 Application. Treatment of Natural Gases and Petroleum. Motor and Jet Fuels. Lubricants. Abs Jour : Ref Zhur - Xhimiya, No 1, 1958, 2580 Author : Avleva, Z,V., Tesner, P.A. Inst : All-Union Scientific Research Institute of Natural Gases Title : Investigation of the Process uf Acetylene Formation on Incomplete Combustion of Methane in Oxygen. Orig Pub : Tr. Vses. n--i. in-t prirodn. gazov, 1957, No 1(q), 100- 122 Abstract : A study of the process of incomplete combustion of methane (I) in oxygen, in the flame of a burner of the Bunsen type, and in a heated tube. On incomplete combustion of I in oxygen, within the inner cone of the Bunsen flame aiid in the heated tube, the process is clearly divided in two Card 1/2  USSR/Chemical Technology - Chemical Products and Their 1-8 Application. Treatment of Natural Gases and Petroleum. Motor and Jet Fuels. Lubricants. Abs Jour Ref Zhur - Khimiya, No 1, 1958, 258o stages: a stage of rapid combustion and a subsequent sta- ge of a relatively slow reaction. The mjor amount of C H2 (11) is formed within the zone of rapid combustion, w erein the components of the water gas reaction are not in equilibrium; this equilibrium becomes established im- mediately beyond the zone of rapid combustion. On combus- tion of I in 02, at atmospheric pressure, a maxi7mm yield of II is determined, essentially, by the CH4:02 ratio in the initial mixture. On combustion, in 02, of a mLcture of I and propane the yield of II is higher than on combus- tion of pure I. Card 2/2  ye V k C V 9' AUTHORS Iyevl~_-Taq Z V and Tesmerj, P*A, 20-3-32/59 TITLE Formation of AceVlene on Incomplete Combutution of Methane in Oxygen. (Obrazovaniye atsetilena, pri nepolnom gorenii matana v kiainrode.)# PERIODICAL Doklady Akademii Nault.. IL957., Vol- 115, Nr 3, pp. 537 - 54o (USSR.)* A.BSTRACT One of the most productive methods of obtaining ticetylene from natural gas is at present the oxidation pyrolysis i.ep the incomplete comp bustion of natural gas in oxygen. Several industrial pjantaL are alrea- d~7 working according to this method,, The mechanism of formation of the acetylene in the flam is,,p iioweverj, compIntely uninvo5tigatedo In the case. of present methodsj, burners of the Bunsen type were used. Expe- riments with:separated and open flame at various relations of methane and oxygem in the initialmixture were carried out,.p as well. as expen rimentsi with the additi= of propane, The curves of figure I shot that the main part of methane and oxygen enterwinto the reaction in aLvery sh6rt section of the flames In this section.on tho-whole all reaction products are formed C02, C2H 21 CO and Ho In re&XiW the combustion zone is obviously- still smaller, Analogous results are also obtained UL the case, of a deviating composition of the initial mixture, The corxentratioa of acetylene, is reduced with. Increasing oxygem quantity.* In the combustion of the propane-methane mixture the concentration of acelylene is increased* The latter is lower in tha undivided flame, cardi lj4 The H-concentra-tion also passes a maxinm wheream in the divided f lam  20-3-32/59 Formation of Acetylera on Incomplete Combuation of Methune In Oxygen, an nninterruptedl, increase of the H-content is noticed. Figure 2 arhows the content curves at U flame crosa sectiorts for varioiLs dintances; frcw-the edge of the burner* According to this; the concentration of the acetylene has its maximum, above the pe0i of the inner come (crow section X"3,97 mm) at the axlsp its minimuma beyond the peaks, The reactiomof the incomplete combustion of methane in 0 which takea plaft simultaneousl~r with a considerable formation of acetylene is on the whole completed within a zone of a breadth of sorie tenths of mm, Outside of this zone., above the peak of the inner cone-s, the reac" tion takes place essentiaUy more slo%3~y. The acetylene content ina creaaes outside the Ocona up to a maxi=m which is 00 - O.A mm from the and of the; O-zone. Then theL acetylene content begins to decresseg, For the purpose of studyIng the first stages of the reactions, expePt riments, with. simulltaneouu ignition of the initial mixture at. the em- tire cross section were carried out, Thus it coulA be concluded that acetylene formation on the whole occurs at the and of the O-zone and is; completed immediately after having left its vicinity,* Figure 3 show- the temperatura distribution curve along the vertical axis of Card, 2/4 the flame. The temperature rises: quicWJq- in the 0--mome and then re-  20-3-32/59 Formation of Acetylene on Incomplete Combustion of Methane in Oxygen* mains almost constant (about 1,85o), Figure 4 shows the results concerning the-modiflaation of concentration along the vertical axis of the flaim. At the beginning of the Ozone the formaition of CO and w%ter takes-place most quicMrw koetylene formatiom obw ta.im a. noticeable velocity only at the erd of the 0.4one,, the valiocity. of the H-formation increasing siraultaneous]~T* This; is In contradiction; to the mechanism of Benedek and Lasmolo according to whichacetylene develops in the interaction bittween fornaldehyda and methanol.* Obviously the acetyleneTormation has a morely tecbr nical, mechanism which talms: p3ACe simultaneously with the H.,formam tion and with an interaction of methano moletales or correaponding C-rwUcals after a muff iciently. high tomper&ture. was obtained by combustion of Go., H.0 and Co.* The wAktar gas reactiom, haaj, bD*zver,, to be taken into consideration by whiob the rime of volocitr. of tha Hmformation at the end of the 0.4one ivoxplbined, It must take place here in the directiom Co + B20 - C02 + H20 The C02 mooncentrap tion, in. the combustion products isp hamover., somewhat lower tha av the Haco=entration, and thus-this reaction alone cannot lead'to Qscrd 3/3 the formation of the whole quantity of developing Ho  Y v S", 11 -1 A YA Y evskaya, A of 0j, ti,. ijs-.l 9ci ;os(,Ow 5tat,~! L, so: sLi,. 1631 22 JulY 1-75L-  - Magnetic resonance of nuclei F-D-2876 Card 1/1 Pub. 146 - 13/26 Author : Gvozdover, S. D.; )(evskaya, N. M. 1 4N0 "Wltm ~~Y. Title : Determining the time of transverse relaxation during magnetic resonance of atomic nuclei in weak high-frequency magnetic field Periodical : Zhur. eksp. i teor. fiz., 29, August 1955, 227-236 Abstract : The authors levelop a procedure for measuring the time of trans- verse relaxation which is based on a determination of the time interval between extrema of dispersion signal in a weak high- frequency magnetic field in the case of non-adiabatic transition through resonance. They obtain relations and construct graphs which permit one to determine the time of transverse relaxation. For an experimental verification of the procedure they measure the dependence of time of transverse relaxation upon the concentration of paramagnetic ions in aqueous solutions of copper sulfate and iron nitrate. Seven references: e.g. S. D. Gvozdover and A. A. Magazanik, ibid., 20, 705, 1950; S. D. Gvozdover and N. M. Iyevskaya, ibid., 25, 435, 1953; N. Bloembergea, Nuclear Magnetic Relaxation, Hague, 1948. Institution Moscow State University Submitted May 22, 1954  "/J US.~A/Iiuclear ih~dics nuclear Relaxation FD-3339 Card 1/1 Pub. 146 - 11/28 Author : Gvozdover, S. D. and Iyevskaya, N. M. Title : Determination of longitudinal relaxation time at magnetic resonance of atomic nuclei in a strong high frequency magnetic field Periodical : Zhur. Eksp. i Teor. Fiz., 29, No 5, 637-044, 1955 Abstract : Two methods of longitudinal relaxation time determination are devised, by using the envelop of dispersion signals observed in a strong high frequency magnetic field during the variation of a constant magnetic field, and by measuring the distance in time to the inversion point. Correlations allowing the determination of longitudinal relaxation time are derived. As experimental tests of the method, measurements are carried out of the relation of the longitudinal relaxation time to the concentration of paramagnetic ions in aqueous solutions of copper sulfate and of iron nitrate. Eight references, including 4 foreign. Institution : Moscow State University Submitted : June 18, 1954  T AUTHOR: N.W~ TITLE: On the jlvoc of Signals ,:~ ,I:~i;natic Rosonatiace of Atomic Nuclei in c-.tse of Mudium Roli,.x.%tion Timor, (0 fori-ne I & 3i-r,~Iov pri re:no;,_~_iiLc atonnyl-h yader v uluch- ayo srodaika vt-nviu-it PERIODICAL; Isvestiya .`kkademij. .;aulk, Vol, X~,, #11, p~j 1226 - 1231 1956, USSR, Seriya fizicheskaya ABSTRACT: This article investigates the shape of dispersion and absorption signals, which originate In weak and strong high-frequency magnetic fields at B.Inusoidal viodulat- ion of the longitudinal maenetic field in case of medium relaxation times. A special installation was constructed for observation of signals originated in magnetic resonance, The shape of these signals appearin'- on the oscillograph depends on the values of longitudinal and tranavernal relaxat- Card 1/3 ion times and on nome external conditions.  jy~4_V~KlAyfl' 3UBJECT USSR / PHYSICS PA - 1232 AUTITOR IEVSKAJA, N.M. TITLE On the Form of Dispersion 8ignals in Connection with the Mag- netic, Resonance of Atomic If-aalei in a Stroxitr High Frequency Magnetic Field~ PERIODICAL turn. eksp. i teor. fis, 30, 1040-1046 (1956) Publ, 6 / 1956 reviewed 9 / 19.56 The present work investigates the form of the signal occxrrina, in a strong high frequency magnette field in the case of a Binusoidal modulation of the longitudinal magnetic field at average relaxation times. In this saae the period T mof the modulating magnetic field and the longitudinal and transversal relaxation times T, and T 2 respectively ar#h of the same order. The solution is given in form of a development in seriess with respect to ;k N y H2. Here w denotes the frequency of the moilulating wag- M m/ 1 0 1 m netic field, H M Its amplitude, H, - the half amplitudo of the high fxe- quency magnetic field. The zero th approximation is explicitly written down, If A is small, the form of the signal, is described with aceuxacy by the zero th approximation down to the terms which are small in the second order. At first the form of the signal in the steady atate and with symmetrical modulation is studied. Tn the steady state the form is the sane as in the - " - u-If wl-dth 01 .ne a-ignai on t.jltj :s-un%-vw, v"  S/0 5816 V000/0 10/0-33/100 A001/A101 AUTHOR.Si Iyevskaya, N.M., Umarkhodzhayev, R.M. TITIEs Development of an installation for observing fine structure of nuc- lear magnetic resonance signals from protons PERIODICALi Referativnyy zhurnal. Fizika, no. 10, 1961, 1.555, abstract 10V285 (V ab. "Paramagnitn. rezonans", Kazan', Kazansk. un-ij ig6o, 137-141) TEXT: The authors describe an installation for observ;ng nuclear resonance signals of protons with high resolution. The installatlon,makes use of radio- frequency bridge, superheterodyne amplification and amplitude or phase detection. Signals are observed by means of an osaillograph. Speotra from protons of acetic acid and ethyl alcohol have been obtained. Spli ting separations bet*een the aDectral lines are respectively equal to 5.6xlo!~ and 4.4xIO--u relative units. A~.- slow scanning of magnetic field, fluctuations of signal intensity were observ- ed, caused apparently by nutation of the nuclear magnetization vector. To eli- min5t*p this nhenomenon, it,is necessary that the ratio of the rate of magnetic Card Y/2  51,18 20320 00/00 6/00 -1/0 11 Bloly-60/0 0 0 0 (9-'e /0 13~) /13 9) B204 AUTHORS: Iyevakaya, N. M., Umarkhodzhayev, R. M. TITLE: Conditions for observing the fine structure of signals of nuclear magnetic resonance PERIODICAL: Vestnik Moskovskogo universiteta. Se.riya 3, fizikaj astronomiya, no. 6, 1960, 3-7 TEXT: For the purpose of obtaining undistorted signals of nuolear magnetic resonance (nmr), it is necessary that corresponding expo~rimexitFil conditions be observed. Therefore, the effect of tuning the resonance circuit containing the specimen upon the shape of the dispersion Cn=,pc4r-t'.-- u and the absorption component v of the nmr was studied. The ch~%.nge I -(-L voltage in the case of occurrence of v and u signals is understoo,l to t-t2 a change in R and L of the circuit, and for the emf e v and eu ev = k(pL6)8L - RAR)/(R 2 + p2 L2); e ~ k(R:~,AL - pLL%R)/(R2 + 1)~ u 2 63 is written down. Here p = (63 0 ?)A) ; '~~o denotes the natural frtquqn,~j Card 1/16 :5-  2 Conditions for observing ... S/ -1 849MOOO/Oo B-101/B204 of the circuit, W - the generator frequency, k -- a coofficilent depeikiing on the experimental conditions chosen. From (1) It follows that by changing the tuning of the circuit either the signal componenta ,,jr mixture is recotdod. For a weak highfrequency field H I and a alow passage through resonance the following As written down. 2H2T T