Electrical Theory of Ozonizerso 711. The S/076/60/034/05/24/038 Effect of the Formation of Ozone on the B010/BO02 Current-voltage of Ozonizers voltage of the ozonizer. This may be explained by a successive propagation of the discharge on the surface of the electrode, The active capacity of the ozonizer may be calculated with sufficient accuracy if the dependence of the burning voltage of the discharge on the ozone concentration and the change in the effective capacity of the barrier of the ozonizer are taken into account. There are 4 figures, 3 tablesp and 9 references: 5 Soviet7 2 Germang and 2 Swiss, ASsocrATION: Maskovskiy goeudaretvennyy.universitet im. M. V. Lomonoaova (Moscow State University imeni M. V. Lomonosov) SUBMITTED: July 21, 1958 Card 2/2  S/076/60/034/05/37/038 B01O/B003 AUTHORS: Vendillop V,,P -# Yemellyanoyj__Yu. A., Filippov, Yu-. V TITLE., Calculation of Laboratory Ozonizers .PERIODICAL: Zhurnal fizicheekoy khimiiq 1960f Vol. 349 No- 5P pp. 1145-1147 TEXT: The electrical theory of ozonizers (Ref. 3) and experimental results on the kinetics of the ozone synthesiallobtained in the laboratoriya kataliza I gazovoy elektrokhimii MGU (Laboratory of Catalysis and Gas Electrochemistry of MSU) permit the.calculation of ozonizers having the necessary capacit-y-Tor a certain oon 'centration of ozone. The calculation method described Is suitable for any ozon12eT, . V Proceeding from the curves of dependence (Fig. 1) for the concentration of ozone on the factor U/v (u. - capacity of the ozonizer, v = consumption of gas)-the equations for the calculation of ozonizers are derived. The calculation method ie illustrated by an example. It is recommended to use a working voltage of 8-9 kvo For feeding the ozonizer, machine generators Card 1/2  Calculation of Laboratory Ozonizers 5/076/60/034/05/37/038 BO1O/BOO3 or vaouum-tube generators of different types may be used (3r-2A (~G-2A), ?-r -1o ~ZG-10)~$ 3r -11 (ZG-1 1),' and otherq) along with tke~ corresponding A amplifiers -300 -3600*Y-500 (U-500%~Y-6oo (u-6oo) _ and TY- -5)),~ (Y -(U 2~j Y t 5-(M_ In order to raise the voltage (to 8-9 kv)j ransformers of the types HO,4-10 (11OH-10), OMI-0.5/10 (OM-0.~/101?$and 0~-5/10 (O~-5/10 *ay be used. The voltage may be regulated by laboratory autotransformore of the types J1ATP-1-(LATR-1)Aand JIATP-2 (LATR-2). The transformer operation may be controlled by means of kilovoltmetern of the types C-96 Sm26)'Vand V/8 BKC-79 (VXS-7b)A, voltage dividers of the Me-l' -tnd A1.9F-2 (Me-2), or b means of mill ammeters with rectifiers of the types 11,-312 (T 8_ 312~$4-4L(Ts-4Wand others). There are 2 figures and 4 Soviet references. ASSOCIATION; Moskovskiy gosudarstvennyy universitet im. M. V. Lomonosova (M, oacow State University imeni M. V. Lomonosov) SUBMITTED. September 30, 1959 card 2/2  -9/0-76/60/034/012/024/027 B02O/BO67 AUTHORS: Y*Rolly&noyt YUO No, 7ilippoy, Yu. V. TITLE: Equivalent Electric Circuit of Ozonizers (Reply to the Article by V. V, Yastrobov "On the Problem of an Equivalent Ilootrio Circuit of Ozonizsroll ) PERIODICAL: Zhurn&l fixichookoy khimii, 19600 Vol, 34, No. 12, pp. 2841-2843 TEXT: In the-artiols by V. V. Yastrobov (Ref6. 1) & number of objections are'm&do to the equiv&lont.olectric circuit of the ozonizer. A now equivalent ozonizor oircuit is suggested which consists of an electric system of throe series-connooted oondenserep the central one of which is shunted by two thyrotrons and & resistor, The authors point to the fact that V. V. Yastrobov has not observed the principal difference between the equivalent circuit of the apparatus and its model. The equivalent circuit should be a combination of simple elements of the electric system which in the calculations replaces part of the actual electric system. Further- more, it replaces any device only as source or consumer of electric Card 1/3  Equivalent Electric Circuit of Ozonizers (Reply S/076J60/034/012/024/027 to the Article by V. V. Yastrabov "On the B020/BO67 Problem of an Equivalent Electric Circuit of Ozonizere") energy, it can, howeverp not be regarded as its model. The equivalent circuit suggested corresponds to these three requirements; it allows the thoorstioAl calculation of thd moat important electric characteristics of ozonizers, iveo, of tho external atatio and dynamic volt-ampere character- istics, of the active power and the power factor. The authors tofuto V. V. Yastrebov's opinion that the ozonizer circuit suggested by the authors (Fig. 1) does not allow the interpretation of other types of current curves which are obtained when studying real ozonizers. The elec- tric system suggested by V. V. Yastrebov is only one of the possible ozonizer models and cannot be regarded as equivalent circuit since it contains also thyratrons besides simple elements. The results obtained by V. V, Yastrebov when studying the qualitative dependence of the shape of the current curve of the ozonizer on the lumped voltage in the thyratran system and the magnitude of the shunt do not correspond to the facts. Fig. 2 shows the oscillogram of the voltage curve in the discharge interval which was experimentally obtained by the authors. The shape of this curve corresponds to the theory of electric ozonizqrs. The flat Card 2/3  Equivalent Electric Circuit of Ozonizers (RSPIY 8/076/60/034/012/024/027 to'tht'Articlo by V. V. Yastrebov "On the 3020/3067 Problem of an Equivalent Electric Circuit of Ozonizers") peaks of this curve confirm the voltage regulation in the discharge Interval during the ignition of discharge. Hance, the following may be concluded: 1) the objections made by V. V. Yastrebov against the equivalent ozonizer circuit are not substantiated and do not take account of the principle difference between the equivalent circuit and a model, 2) the electric system suggested by V. V. Yastrebov is no equivalent circuit of ozonizers but only its faulty model. There are 2 figures, and 7 Soviet references. ASSOCIATION.- Moskovskiy gosudarstvennyy univernitst im. M.V. Lomonosova (Moscow State University imeni M. V. Lomonosov) SUBMITTED: October 7) 1959 Card 3/3  S/189/61/000/001/002/002 B105/B208 AUTHOR% TITLEt First All-Union Conference of Schools of Higher Education on Ozone. PERIODICAL% Vestnik Moskovskogo universiteta. Seriya 2, khimiya no. 1, 1961, 77 - 80 TEXTs The first All-Union Conference of Schools of Higher Education on Ozone took place in Khimicheskiy fakul'tet Moskovskogo universiteta (Chemical Department of the Moscow University) on May 10 - 14. It has been convened by the Department and the Ministeretvo vysehego i arednego Bp tsial nogo obrazovaniya (Ministry of Higher and Medium Special Mining; of RSFSR. It dealt with production, properties and applicability of ozone in various branches of national economy._ In his opening speech, Professor N. I. Kobozev outlined the historical development of ozone research,its production methods and fields of application. In the plenary session, three scientists delivered generalized lectures. Yu. F. Filippov, Docent, reported on ozone synthesis in electric discharge, N. A. Matveyev, Card 1/ 7  3/18 61/000/001/002/002 First All-Union Conference ... B105YB208 Candidate of Technical Sciences, on the tdchnology and apparatus of industrial ozone production in the USSR and abroad. I. A. Khvostikov, Professor, spoke on ozone in the terrestrial atmosphere, the nature of the ozoL.,, layer, methods of measuring ozone, the vertical ozone dis- tribution, and the role of atmospheric ozone for the life on the Earth. 65 lectures were held altogether which were divided into 4 sections: 1) 20 lectures in the sections "Electrosyntheeis of ozone"; 2) 26 in the section "Chemical reactions, properties and application of ozone"; 3) five in the section "Study of various methods of ozone-preparation";.4) 10 in the eections"Water purification". Yu. V. Filippov, Yu M. Yemellyanov, V. P. Vendillo and V. 0. Samoylovich reported on the electrical theory of ozonizers'and practical engineering calculations for laboratory and in- dustrial 9zonizers. Yu. V. Filippov, and N. I. Kobozev pointed out that the formation constant of ozone is not temperaturedependent. Yu. M. Yemellyanov.and Yu. V. Filippov discussed the quantitative evaluation of the thermal conditions of ozonizers. I. A. Semiokhin, N. I. Kobozev and Ye. N. Pitskhelauri found the electrosynthesis at,-- 0.5 - 1.0 atm to be the most economic method of ozone preparation. V. C. Voronkov reported Card 2/ 7  S/189/61/000/001/002/002 First All-Union Conference... B105/B208 on the possibilities of preparing ozone of low concentration with pressures up to 50 atm. abs. V. P. Vendillo, Yu. N. Zhitnev, A. N. Gukova and Yu. V. Filippov stated that argon does not take part in ozone formation tind docomponition. Carbon dioxido up to 20-30 ~* increases the conversion of oxygen to ozone, nitrogen increanovo by activation tindor cortnin condi- tions, the energy yield and ozone concentration by 30-50 0 according to the theory of "energetic catalysis" by S. S. Vasillyev, et al. V. V. Krylov and Yu. V. Filippov spoke on the effect of oxygen moisture on ozone synthesis. N. A. Matveyev and S. F. Beschastnov had tried to produce ozone from non-dried air in ozonizers with hydrophobic electrode coverings. V. P, Bykov reported on the stnbility of ozone on contact with various substancest.and ozone losses in production plants. The following methods of preparation were reportedt 1) by condensation of atomic oxygen at low temperature: L. I. Nekrasov, I. I. Skorokhodov, N. I. Kobozevj 2) from the dissociation products of carbon dioxide in glow discharge; Ye. N. Yereminj 3) by radiolytic action of fast electrons and r -rays upon gaseous and liquid oxygent N. A. Buneyevq I. A. Myasnikovf S. Yas Pshezhetskiy; 4) by electrolysis of sulfuric acids E. V. Kasatkin, A. A. Card 3/7  3/109/61/000/001/002/002 First All-Union Conference ... B105/B208 Rakov, V. I. Veselovskiyl 5) by electrolysis of perchloric acidt M. A. Gerovich (deceased), R. 1. Kaganovich, Yu. A. Mazitov, V. V. Soboll, L. N. Gorokhov. S. Ya. Pshezhetakiy, S. A. Kamenotakaya, Ye. 1. Gribova, A. V. Pankratov, Ya. M. Morosovt I. N. Pospelovap A. Ya. Apin, V. N. Siryatskaya, N. A. Slavinskaya, V, M. Cherednichenko, E. H. Pitskhelauri, V. V. Yastrebov, N. I. Kobozov, G. I. Yemellyanova, B. V. Strakhov, V. P. Lebedev spoke on the resistance to explosion of liquid and gaseous ozone and on mechanism and kinetics of its thermal, photochemical, and catalytic decomposition, A. A. Rakov and V. I. Veselovskiy reported on the cathodic ozone reduction on metal electrodes. LT. G. Terekhova, A. N. Malltsev, Ye. N, Yeremin, N. I. Kobozev stated that the ozone adsorption by silica gel considerably increases between - 120 and - 1500C- S. Ya. Pshezhetskiy, S. A. Kamenetskaya, V. M. Cherednichenko, N. A. Slavinskaya, 1. N. Pospelova reported that ozone decreases the effective avtivation energy of oxidation processes. L. A. Lovachev dealt with the propagation rate of flames on ozone supply, N. A. Kleymenov, A. B. Nalbandyan -aith the prin,:3ry mo~thyl peroxide formation in the reaction of hydrocarbons with Card 4/7  s/189/61/000/001/002/002 First All-Union Conference*. B105/B200 ozone. I. A. Kazarnovskiy, Corresponding Member of the AS USSR, reported on alkali ozonide formations of the MeO3 type. 1. 1. Skorokhodov, L. I. Nekrasov and N. I. Kobozev spoke on the reaction of 100% ozone with atomic hydrogen, V. G. Voronkov, N. M. Emanuel' on paraffin oxidation, V. G. Voronkov, I. D. Uvarova on the oxidation of liquid cyclohexane, and E. T. Denisov, V. V. Kharitonov on the cyclohexanol oxidation with ozone. V. L. Plakidin, V. A. Yakobi, S. Ye. Pokhila, P. P. Karpuklin reported on the production of 16,17-dihydroxy-violanthrone by ozone. B. V. Strakhovg V. P. Lebedev, N. I. Kobozev reported that the nitric oxyde concentration amounts to 3% in the nitrogen oxidation with ozone. S. I. Papko spoke on ammonia xidation. N. I. Kobozev, A. L. Shneyerson, Ye. N. Yeremin, Ye. N. Pitskhelauri A. Ch. Podeyko reported on the oyidation of nitrous gases; B. A. Dogadkin, I. I. Tugov, V. S. AlItzitser, and L. S. Krokhina on ozonization of vulcanizates; V. V. Korshak, K..K. Mozgova, and M. A. Shkolina on ozone ds an initiator in the grafting of vinyl monomers. B. 1. Aykhadzhayev, V. A. Kargin, Kh. U. Usmanov and N. Sh. Inoyatov spoke on the refinement of cotton cord, Yu. S. Zuyev, S. 1. Pravednikova on the destruction of rubbers by means of ozone. T. P. Bogdanova. and M. A. Cubarl Card 5/7  S11891611000100110021002 First All-Union Conferenceo.. B105/B208 dealt with the bactericidal properties of ozone. The chemical, techno- logical, and bactericidal aspects of water purification of Dnepr and Desna were discussed by L. A. Kul'skiy, M. A. Shevchenko, of the reser- voirs of Uchinsk and KlyazIma, by T. A. Dmitriyeva, I. A. Gusev, Yu. B. Bagotskiyt 1. Kh. Bikktenin, N. M. Avdiyevich, Ye. S. Zellmina and of the hydroelectric power plant of Stalino, by Yu. A. Bardin, Ye. S. Shalashova. 1. 1. Rozhnyatovskiy, D. P. Dubrovskaya, F. A. Melamed reported on the purification of phenol sewages, M. A. Popov on that of the sewages of mineral oil plants, Ye. N. Pitskhelauri and T. A. Pospelova on the desulfurization of benzine-ligroin distillate, I. A;1 Semiokhin, G. M. Panchenkov, V. K. Korovkin on the enrichment of the 8-isotope in the electric ozone synthesis, D. M. Chizhikov and V.P. Kroyngauz on cobalt extraction from nickel ores by ozone. It.was decided to convene the next conference in 2-3 years. The Moscow Department of Vsesoyuznoye khimicheskoyo obshchestvo im. D. I. Mendeleyeva (All-Union Chemical Society imeni D. I, Mendelyev) wos asked to establish a comission for ozone. Card 6/7  - _. - ____ ____ ___ ___ __ ____ __ S11891611000100110021002 First All-Union Conference ... B105/B206 ASSOCIATION: Moskovskiy universitet, Kafedra fizicheskoy khimii (Moscow University, Department of Physical Chemistry) SUBMITTED: September 12f 1960 Card 7/7  8/07 61/035/002/012/015 B107Y220 AUTHORS: Vilippovj Yu. V. and YemelfyAnon_j~_! ,(Moscow) TITLE: Electrosynthesis of ozone, I. Kinetics of ozone synthesis under flow conditions PERIODICAL: Zhurnal fizicheekoy khimii, v- 35, no. 2j 19611 407-415 TEXT: The paper is mainly a theoretical study of the kinetics of ozone syn- thesis in the ozonizer under flow conditions. The investigation is substan- tiated by some experimental data# For the kinetics of ozone synthesis, the equation dx kv - kilx (1), where x is the ozone concentration, t the time# k I and k 0 0 constants, has been derived by S. S. Vasillyevy N. I. Kobozev, and Ye. N. Yeremin (Zh. fiz. khimiip.1, 619, 1936). When t in replaced by U/v, the solution of the equation will be x - x p(I - exp(-k1-2) (2)1 xp = ko/k, is v the equilibrium concentration of the ozone, U/v is the ratio of capacity to volume rate of the gas flow. A further equation for the kinetics of ozone Card 1/6  Electrosynthesis of ozone 89575 S/076161/035/002/012/015 B107/B220 synthesis has been derived by H. Backer (Wiss. Vero"ff. Siemens Konz.tl, 76j 19201 ), 242, 1923/1924): x - a U1v (3), where a and b are constants. I + b U/V The investigation has shown that these equations correspond to the critical cases of ozone tranoport in a Cue flow. (3) holds for the case of ideal mixing, and (2) for the case of ideal displaqqpient, i.e., in the aboonco of diffusion. For the general case, the differeriTial equation d2x dx D:-'~_ - v -- kIx + k' - 0 (8) has to be solved, where D is the diffusion di2 Ldl 1 0 coefficient, 1 the coordinate along the axis of the ozonizer, and v L the linear flow velocity. In equation (8), the change of volume is not con- sidered. As G. M. Panchenkov has shown (Uch. zap. MGUt no. 174P 53P 1958)p this may have a substantial influence upon kinetics under flow conditions. Because of the slight conversionj the volume change in the electrosynthesis of ozone amounts to 3~6 only. Under the boundary conditions, where the ozone is removed from the reaction space merely by mass transfer, the equation for the ozone concentration at the outlet of the ozonizer (1 = L) is solved as follows: Card 2/6  89575 Electrosyntheais of ozone 8/076 61/035/002/012/015 B1 07YB220 a2 - a2 v 2 k1l 1 2 L v 2 2 (9)f where a1,2 " YD - + D 2 aI exp(-a 2L) - a2exp(-a,L). tf4LD The direct calculation of the kinetic constants from this equation is very complicated. The following indirect solution is possible: v X V a2 exp(-a2L) a2exp(-a,L) 'L In,. P x 0 'L In 2 (10). Here, the left- L L 2 2 p aI a2 hand side is the decomposition "constant" of ozone, calculated from the equa- tion for ideal displacement: x - x p(I - exp (-k1L/vL )). Fig. 1 shows the good agreement of the theoretical curve with experimental data. For the testsj an ozonizer of L w 35 cm was used; the external and internal diameters were 41.9 and 39-7 mm, respectivelyfor the outer electrode, and 35.6 mm and 33-0 mmt respectivelyfor the inner electrodel discharge capacity was about 120 w. The apparatus is described in detail in a previous paper of the authors (Zh. fiz. khimii, 31, 896p 1957). As a table shows, the decomposi- ticn constant of the ozone increases with increasing flow velocity and Card 3/6  89575 3/076j6l/O35/002/012/015 Electrosynthesis of ozone B107/B220 tends toward the critical value 0-340 sec Using this value for k,, the curves for several values of D were calculated (Fig. 2). in most caBest equation (10) can be reduced. Thus# P In. X W v a (11) holds for higher flow velocities. As to the L x L 2 p accuracy of this approximation see Legend to Fig. 2. Equation (9) may be reduced to x - x p(1 - exp(a 2L)) (14)- Calculation shows that the error is below 1% under the above-described experimental conditions; for industrial conditions where the reaction space is considerably longer than 35 cm, the range of application of equation (14) is extended significantly. Further- moref the usefulness of the equations (1) set up by S. S. Vasillyev, N. I. Kobozev, Ye. N. Yeremin and (2) by H. Becker for an approximate calcu- lation was examined. Their comparison with experimental data shows clearly that the former is more suitable. There are 5 figures, 1 table, and 10 references: 9 Soviet-'.loc and 1 non-Soviet-bloc. Card 4/6  8/076/61/035/002/012/015 "'Eledtrosynthesia of ozone -BI07/B220 F A 4 D..'ASSOCIATION: -Moskovskiy gosudarstv~nn y universitet im. M. V. Lomonosova Y (Moscow state university ,imeni M. V. Lomononov) tij SUMMED:- June 16, 1959 n4 l Ligend to1ig. 1i Dependenoo of,k on low velocity of oxygen;~the theI fil -'%j~~ .~Points-represqnt experimental values,' the curve in theoretically oaloulato di f orD 15 CM4/sec 77 Card.5/6 14-  9575 /61/035/002/012/015 S/076 ,Electrosyntb:esis of ozone B107/B220 on thelflov? Velocity of oxygen at different ndence of Fig. 2: Depe v lues of D. a --cm2/seci* Legen 0-340 sea- )1*(2) D d: (1) D 0 CM2/secl (3) D 10 2 (4) D -,100 om /sec; (5) D,- 1000 cm/secl (6 D - oo. The straights indixte the area,where the Orror,ia lese'than 1~; the undulatory lines indicate the area with an error below 10/1-- 44' J, ------------ to 12 53 1:1441 13.0' :KY i t:62 238 22,1 t. W 10159 301 14,7 :323 14 2 125 M 12:2 (3:07 3.1 0 ~tlj" ~P.,12,7 oG D,;, --i5. pard- 6/6  32640 S/076/62/036/001/012/017 a B124/B11O AUTHORS: Filippov, Yu. V., and TITLE: Electrosynthesis of ozone. IV. Effect of discharge power (ozonizer with 1 mm diecharge gap) PERIODICAL: Zhurnal fizicheskoy khimii, v. 36, no. 1, 1962, 181-188 TEXT: Five series of tests were performed at various rates of oxygen flow to study the effect of the discharge power on the ozone yield in electro- synthesis. The equipment used for ozone synthesis has been described earlier by the authors (Ref. 6: Zh. fiz, khimii 31, 896, 1957; Ref. 8-. Zavodsk. laboratoriya 259 14019 1959). The gas pressure was autcmatically maintained at 775 t 0.1 mm Hg. Tetrachloromethana was used as a coolant for the electrodes, the temperature of which was kept constant at 20.0 t O-050C. The current frequency was 1350 cps. The discharge power was measured with a flow calorimeter described by the authors in Ref. 9 (Zh. fiz. khimii 31, 1042, 1959). The ozone content in the gas was determined iodometrically. As is evident from Fig. 1, the factor U/V, U being the discharge power and v the volume rate of oxygen flow through Card i/&,, 1AJ  32640 3/07 62/036/001/012/017 Electrosynthesis of ozone... B124YBIIG the ozonizer, is not the only parameter determining the ozone concentration.- One of the additional factors is the temperature in the reaction zone which depends on the discharge power. The mean temperature in the reaction zone of the ozonizer can be calculated by allowing for the effects of the tomperature differences between the gas in the reaction zone and the cooling liquid which, in turn, involve the gas temperature drop In the reaction zone, at the walls of the glass electrode, and at the interface between the cooling-liquid film and the electrode surfaces. The relation to qoa2 + t0 max 249 el (9), where qo . amount of heat evolved per sec in the volume unit of the reaction zoned a - distance between the electrode surface and the center of the discharge gap, %g a heat-transfer coefficient of the gas, and t e1 ' surface temperature of the electrode, holds for the maximum temperature of the gas layer in the central part of the reaction zone, For the mean gas tempera- ture in the ozonizer, the relation t0 qoa2 + t0 (10) Card 2113 9 3X9 el  32640 S/67 4?/036/001/6112/0*1~ Bleotrosynthesis of ozone..# B124YBIIO is valid. By comparing these two equations, one obtains t0 - t0 0 0 (11). , 9 01 (t MaX -tel) -5 X was calculated from experimental data to be 14-10 cal/cm-sec,deg. 9 Thus, the temperature difference between the gas in the reaction chambor and the cooling liquid is a linear function of the discharge power. Mathematical evidence is given for the fact that equilibrium concentration (i.e.9 12.5 f. by volume) of ozone is the maximum yield which can be obtained in the given ozonizer with a constant coolant temperature of 200C. The ozone concentration can be increased by improving the cooling of the electrodes.' S. S. Vasillyev, N. I. Kobozev, and Ye. N. Yeremin (Ref. 4: Zh. fiz. khimii 1, 619, 1936) are mentioned. There are 3 figures, I table, and 11 references: 8 Soviet and 3 non-Soviet. ASSOCIATION: Moskovskiy gosudarstvannyy universitet im. M. V. LomonoBova (Moscow State University imeni M. V. Lomonosov) SUBMITTED: June 8, 1960 Card 314  FILIPPM,, Yu.V.; YZXZLIYANOV~ . Yu.M. Electrical theory of ozonizers. Part 4t Dependence of the voltage of discharge burning on the concentration of ozone in ozonizers with various discharge gaps. Zhar.fiz.khim. 36 no.8s1781-1785 Ag 162. (MIRA 1518) 1. Moskovskiy gosudarstvennyy univerBitat imeni Lomonosova. (Ozonization)  YEMEL'YANOV.,,Yu.M.; FILIPPOV, YU.V- Electrosynthesis of ozone. Part 9. Zhur.fiz.khim. 36 no.10: 2263-2267 0 162. - (MIRA 17:4) 1. Moskavskiy gosudarstvennyy universitet imeni Lomonosova.  YEMELIYANOV.* Yu.M.p kand. kh1m. nauk Ozone In the eervIcs of chemical industriao. PrIr0dA 52 no.12: 106-108 163. (MIRA 17:3) 1. Moskovs1dy gosudarBtvannyy univarsitat im. M*V* JjomonoBovas  YEME11YANOVI-YU.M.; NEKRASOV, V.I. Radiophotography'of wood from tb:e- area affected by the fall of the Tunguika,xetsorit6#-,,Dok1. AN SSSR 148 xo.6t1418-1421 F 163. (MIRA 16:3) 1. Hoskovskiy gosudarstvennyy universitet in. M.Lononosova i Glavnyy botanichaskly sad AN SSSR. Pred3tavlano akadomikom V.N. Sukachevym. I (Focu6nennaya Tunguska Valley-Meteorites) (Wood) (Autoradiography)  MEKRASOV, V.I.; YEMELIYANOVp Yu.M. ........ Studying forest growth In connection with the problem of the Tunguska meteorite. Meteoritika no.241l52-161 164. (MM 17:5)  --358W-66- -- Md-r-0T)8 ~TOALVI - IWO ACC NRI AP6014899 SOURCE CODE: UR/0076/65/039/012/3092/3095 AUTHOR: Samoylovich, V. G.; Popovich, Me P ; Yemellyanov, Yu. Me; Filippov,-YU-7 V, 6 0 ORG: Moscow State University im. Me V. Lomonosov (14oakovskiy gosujarstvennyy universitet) TITLE': Electric theory of ozonizersA XI. Discharge in helium at various pressures and discharge gaps SOURCE: Zburnal fizicbeskoy kbimil, v, 39, no* 12# 1965, 3092-3o95 TOPIC TAGS: ozone, electric theory, ABSTRACT: The equipment used in the experiments (illustrated in a figure) consisted basically of an upper aluminum electrode with a diameter of 15 mm and a height of 50 mm and a lower aluminum electrode with a diameter of 10 mm, pressed into a base made of organic glass. The article gives also a diagram of the electric circuit. Using this equipment# measurements were made by the oscillograpbic method of the combustion pressure during a discharge in bellumwlMessurements of the combustion pressure in helium were made at gas pressures of 7509 6oo, 4oo, 200, 100, and 50 mm Hg for discharge gaps of 0.45, l.0# 2-Op 3.0, Card 1/2 UDC: 541  I - - ACC NRI AP601k899 0 .4-0a 5,0, anO 7,0 mme The value of E/p was found to remain constant and to be equal to le4 volts/cm-mm Hg for disebarge gaps from 2 to 7 =n and for pressures not less than 200 mm Hg. An evaluation of the electron temperature gave a value of 2.7 electron volts. Orig. art. bast 5 figures and 1 table, SUB CODE: 20/ SUBM DATE: 23Nov64/ ORIG REF: 004/ OTH REF: 001 1-01~  M FS F ACC NRI AP6010743 SOURCE CODE: UR/0076/66/040/003/0531/0536 ZE AUTHOR: Samoylovich, V. G. ; Pqovjch, K. pe; XCOVI!yanov. -P j _Z M 'jilippoy, yu. V. ORG: Moscow &.- te University im. M. V. Lomonosov (Moskovskly gDsudarstvennyy universitet) TIT, LE: The electrical theory of ozonizers. XIL Burining voltage in oxygen-ozone mixtures SOURCE: Zhurnal fizicheskoy khimli, v. 40, no. 3, 1966, 531-636 TOPIC TAGS: electric theory, gas discharge, oxygen, ozone ABSTRACT: The authors used a flat ozo)?Izer (discharger) to measure the burning voltage of L a discharge in oxygen and oxygen-ozone'vfhixtures at various gas pressures and with various discharge intervn!s. The value of the field applied to the oxygen and the oxygen-ozone mix- tures Is determined. In 6rder to avoid any gradient in ozonetboncentration, the ozone waq produced externally and introduced. Discharge gaps from 0.1 to 4.0 mm were used, with pressures from 50 to 750 mm Hg. The ozone concentration was 0.65 to 7.0% by volume.- IThe ratio of the elemental reaction-c-onst-aits of-6zofib iiM_oxygen upon collision with elec- trons was determined. It was established by the experiments that the curve of the burning Card 1/2 UDC: 541.13  ACC NRi AP6010743 voltage as a function of ozone concentration Is linear. Orig. art. has; 6 tables, 4 figures, and 4 formulas. SUB CODE: 07? 20/ 1 SUBM DATE:~ 07Dec64/ ORIG REP: 006/ OTH REF: 005 cmd 2/2  ACC Nr,. AP7002558 SOURCE CODE: UR/0413/66/000/023/003T/0038 iNVI"NTOR: Ycm.611yanov, Yu.n. ORG none 121,TLE: Vibrom oustic protection system for magnetic receiving antennas Class 21, N'o. N9034. [announced by Institute of Automation and 'Flectrometry, Siberian Branch, All SSSR (Institut aVtoinatiki i eleXtrometrii Sibirskogo otdeleniya, All SSSR)3 i -SOURCE: Izobroteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 23, .1966, 37-38 TOPIC TAGS: r .adio antenna, acoustic damping ABSTRACT: To increase the efficiency of 'the propo's'ed's-Y'S'iem of vibrOilcOtlitic Pro- ,tection for magnetic* antennas, one end of each rubber shock absorber is fixed.at the centpr_of,.gravity.of.the magnetic antennas, and-th'e other end. is ~ix~A io -a' rigid unloading ring while. 't!'e" magn_e~ic- antennas are placed in a supplementary acoustic screen which serves simultaneously as a vibrodamper., UDC: 621.396.669.8:621.396.677.75 I Card ..1/2 UDC: none  ACC-N-Rs--kPj(SU25 5 d Vibroacoustic protection Fig. -~j oq/ SUB14 DATE- 14oct65/ ATD PRESS: 5113 system I tagnetic antennas; 2~- rubber shock ~jI stic screen; 4 - un- absorbers; 3 - acou loading ring; 5 - supplementary screen of the vibrodamper. SuB CODE; 2/2  L 2 5976-- &_~ DIT ( 1) IWA (h cc N~s AT6(ff1932 SOURCE CODSt VRIOOO[661 10099 AUTHOR:'Tom8l!V an-Qy,~ N. (Novosibirsk); Timonen, L. S. (Novosibirsk) r , - _:[L _ ORQs none TITLEs Binary-sequence -test or SOURCE: Voesoyuznaya konferents a Po avtomatichoskomu kontrol chaskikh izzmarer. !Ahs )104 6 I notodam elektri- . Avtomatichookiy kontroll I Mtody eloktricheBkikh lzmoreniyl trudy konforentaiij t.,2t Izmeritelfnyyo Wormatsionnyyo sisterv. Ustraystva avto- matichoskogo kontrolya. Elektricheskiye izmereniya neelektricheakikh velichin (Automatic control and electrical measuring techniquesl transactiorw or the -conference, v. 2: Thformation measurement systems. Automatic control devices. Electrical measurements of nonelectrical quantities). Novosibirsk, Izd-vo Naulca, 1966, 99-104 TOPIC TAGS: random process, Markov process ABSTRACT, The development Is reported of a new tester for experimental determination of statistical characteristics of binary random sequences, I. o., homogeneous Markov chai~w* Such a chain vwy exist only in one of two incompatible states. Formulas for evaluating the probability of occurrence of a particular ctato are developed. The tester counts states'Al and ~, and also their combinations for the moments tk and tk4,N (where N 1, 2'p.. 22) of the sequence being tested. The states Card  :Vi25976-66 ACCC NRi rl 60119 32 - A, and A2 are represented as I and 0 in the tester. The instrument has 24 electro-, mechanical-counters; two counters, 10000 units each, are intended for separate counting of I and 01 twenty-two counterss 1000 units each, record the combinations in 22 points of the sequence. Any combination (I and 1, 1 and 0, 0 and 1) can be, selooted by a logical unit.Basicta~y, tho tester inoludest (1) A two-cycle forri.te-" diode shift register which stores the information, advances aixt delivers all values of a particular sequencel (2) A logical unit which controls the type of combination] (3) A counting device which counts the detected combinations'. A block diagram of the tester is supplied., and its distingu:1,3hing features are noted. ,Orig. art. haBS I figure and 16 formulaB., [03] SUB CODE: 09 SUBM DATE: 2),Nov65 ATD PRESS6. Card 2/2 FV)  - - -- - --- - - - - -- - - --- ---- - - - --- -- - - -- -- ------- - JERELIJANOV, JU-V- Manual on small veo:;als. Album. of diarrams; supplement , LeninEred, Goo. -vo sudostroit. li'-ri, l9r,0. 127 P- of oingro. (51-27925) zd U i Mgm.E5 DiaEr.  rEIMIMNOII, Yu. V. Spravochnik po melkijr sudam (Handbook on small craft, by) Y11. V. Yemellyarov i 11. A. Krysov. leninCrad, SLdPra-7.giz, 1950. 395 p. diagrs. SO- N15 743.Ij I Yl  mLIYUIj'mv-'-YU-.v-. Motornain lodka. a podvesnym motorom (Outboard rjotor boats). MopkvA. 19". 614 p. (VEecoiuz. dobrav-~llnoe o-vo sodeistylla Armli, Aviatell i 7lotu. P-Y-B luz:,oro koz-.rtruktors) SO: Monthly List of RuEsian Accessions, Vol 7. No 9, Dec 1954  Yet-ACL., EM=A=' YJ1 KRYSO'Ip N. A. 2. USSR (600) 4. En6llianov, Yu. A. 7. Handbook of small vessels. Yu. V. Emellianov. N. A. Krysov. Reviewed by Eng. V. P. P,ozdnyakov. Rech. transp. 13, No. 2p 1953. 9. Monthl List of Russian Accessions, Library of Congress, Aoril -1953, Uncl.  e L- r",J 001MICIEV, G., mouter uporta; ZHIRO, V., master sporta; ZHIRUI~, 1,., Muter sporta; GIADKOV, ,-uhltol v6dw-motornorc. tiirlz-~na. MIROKNOTOY, B., Lsit's organize motorboat cliibs. Voon.%nan. 13 no.6:34 Je 15?. 10:0 l.Prodeedatell veanoraznny vo~nc-motornoy sektall (for Gladkov) (Boat-3 -,nd :ontlng)  TWA~T T rovich; IGOSHINO X.Go. redaktor; IrARYAKIRik, K*S&, , .1g" Mft,L~r!jj tii"Ich,emMy redaktor . (Boat vith an outboard motor] lodim a podvosmM notorom. Is& 2-oe# dop, Waskwag Is'6-yo DOU". 1956. 93 p. (MI" 9:7) (BoatImilding)  ylMiyAllOV. yu.; VALINOVSKIY9 G- 4 - "DOUO-l' outboard motor boat. Voen.snan. 31 li-e- 321 no.4: 24-z5 Ap 156. (Outboard motorboats) (NLHA 9:8)  - , . T-.--- -- -- --- ---- ---- - - -- - I ( L I I - -,/ r.-' 0-) & L V I / ZHEUKOVA, G-1-, YANOVP yu.; D%yAKEVICH. V.; IGOSHIN. H.G., reds; 13LA 1~ ne6li4e-- [(;Utters with automobile motors) later 8 avtomobil'nYm(motorom. Mosk" I%d-vo DOSAAF. 1957. 136 P. MIRA 11:2) ( Motorboats)  RADOV,Aleksandr Hironovich; Yj;~MIITANOV. . 14., . redaktor; SHAURAX.Ye.H., ---- 'UTW&Y redaktor; DYCHHOVSKATA, icheskijr redaktor (Fundamentals in designing mechanical equipmentfor launches] Onnovy proaktirovauiia katernykh mekhonicheekikh ustanovok. Leningrad, Goa. soiusnoe izd-vo sudoetroltelluoi promyshlennosti 1955. 305 P. (Launches) (MLRA 9:1)  LAZAREV9 Valentin Afanaslyeriob; MANZROS., Yu.A., inzb.p reteenzent; KARPCVv D.Tev inzbe., retoenzent;..YRMIYAROVj'Yu.V-v nauchnyy red.; SMIRNOV, I i '. T &I-# redo; FRUHM, P.S., ts'kb`n.~-'i~A-,----- [Automobile engines in launch buildilng] Aytomobillmys dvigateli Y katerostroenii. leningradq Goo. aoiuznoo izd-vo sudoetroit.pro- myshl. 1961. 258 p. (MIRA 14:6) (Marine engines) (Automobles-Ingines)  R%LMNNO, Leonid Leontlyevich; SHCMMAKOV, Leonid Sargayevich; _XZHELUAWV,-Yu.V..O inzh.v retsenzent; MAIIZHOS, Yu.A., nauchM7 red.; LISOK, E.I.,p red.; XCROVE4NO, Yu.11.p tekhn. red. [Motorboat,-, manual for anateursIMotornaia lodka; posobie dlia liubitclei. 2., ispr. i dop. izd. Leningradv Sudpromgiz, 1962. 338 p. (MM 15:9) (Boatbuilding--Handbookst manuals, ote.) (Motorboats)  . -,Xptyj MLLINOVSKIYI G., master oporta; STROKOV, V... V,MU!YAV(Rj podvodnik-lyubitel"; PAYMMYEV., Yu... master oporta, admi. al; ZEMOV,, V., z-asluzherm7y trener SWRI master sports, chempior, Sovetskogo Soyuza. po vodnomotornomu aportu Deep waters for small boatsl Tekh. mol, 31 no.6;26-29 16~, (KIRA 16:7) 1. Predsedatell Federatsli vodnomotornogo sports, (for Yemellyanov). 2.Predsedatell Komiteta. vodnolyzhnomu sportu (for Malinovskiy). (Motorboats) (Aquatic sports) fir  ELOYANIOV, KRIVONOS011, Lev Mikhaylovicjj; BELIC111-:11KO; JI.I., red. - - yu.V., red6 and design in amateur boatLuilding] RaschetY [Calculations liubiXeliskom sudostroenii. Moskva, i chertezhi v (11,IRA 18:6) , DOSAAF, 19640 166 p.  GURARI, N.G.; YEMEL'YANOV, YU.V. (Mechanization of carcass splitti.Ml Mekhanizatsli.e. raspilovki tusb. Monkval TSentr. In-t nauulxc-tekhn. informataii pishchevoi pron-.johl.p 1903. 72 p. WIRA 3.8-7)  YTTRODS-OF SPEEDINO-UP THE OPER1. 1. Y. AKUSHSKIY, L. B. YD:ELYANGV-YM=LAVSKIY, E. A. XLYAYEO, V. S. LINa'lf, G. D. FMAYBOV Institute for Scientific Research of Ilectonic MathematicF-1 Machines, Moscow, USSR. In the paper are considered different methods of speedin~-up operations in digital computers. Methods of accelerating the digit by digit multiplication by overlepaing In time the operations of addition aTYJ shiftj the method of the "travelling wave" when the addition of several partial products is effecte,1 simultaneously, etc. For speeding-up the division operation a method Is recommend-d by which the Infor- mation containei in the dee of the next remainder is used for determining in one step the group of the quotient consecutive digits. Are considered the ridv,~ntages, from the point of view of operation speeeing~-uip, of storage of codes In not norw3ized condition tnd representation of negative nupbers In the machine in reverse code (Ath 1ntr*_iurtJm of cccfro CcrhAni-.d re c,51n,Aatinn Y -!Arti3.n alanbrai.r- txor--~ssions In the conditi.)ns of an arithmetiz levice with -in increase-A number of componenti. Methods nre describe;! for zpe-lln~;-up the rd0ition eiemo~:nz;~-r.r :14ch ensure single-shot operation of each component of the add circuit, as well as the methods of speeding up the group shift by mans of a special shif ter designed in the form. of a ferrite mFtri-Y* Considerations are given on the expediency of including the c~Flculations of the values of glementary functions in the list of main machine operptionsi.anj sorz qlg9rithms are given kwhich are adaptable for their circuit execution by the arl metic devicei. on Paper presented at Intl. Conf. on Inforvation Processing, UNMO House, Parls, 15-20 Jul 1~9-  the basis of which these values are formed of the operations of addition and oroun shift. The role of microprogram control for accelerating operations Is discussed. Th particular, at microprogram control, when a alnRle-olded high-sreed larive canAeltv memory is used, it seems possible to obtain efficient results by calculatinR the elementary function values on the basis of block-pol~-nomlal anproximAtion of functions by different polynomials at various intervals. PAPER PRWENTED AT INTERNATIONAL CONF. ON MPORMATTON PROM93M, UNESCO HOUSEp PARTS 15 - 20 JUNE 1959  YWWyANOV-YAROSLAVSKIYj L.B. [Iftellianov-UroolavOlkyip L.13.](Mookya) -- - I -- I Princ,iples.of the operation of an informal automaton* Avtomatyka 9 no.1:29-42 '64- (MIRA 17:3)  YML I YANOVXA.PMIAV~;XIY L, 6, Simui'ating "thet 5M of the Nervous Syster.0 (26 October 1956). Paper presented at the Seminars on Cybernetics at Moscow University during the 1956-57 school year. Problemy Kibernetiki, No. 1. 1958  YEMEL'YAIWV-YAROSbAVSKIY, L. B., Cand Tech 6cl -- (diss) "PtIcroprograin control in digital computer machines." Moscow, 1960. 8 pp with schema- ties; (State Committee under the Council of Ministers USSR for Radio- electronics, NIISchetmash -- Scientific Research Inst for Computers" J; 150 copies; price not given; (KL, 21-60, 123)  TWLIYAUOVA, A.A. Spnee distribution of photons neAr the nxis of extensive Air showers. 2bur.akep. 1, teor. fiz. 34 no.2:516-518 7 158. (MIRA 11:4) 1. Fizichaskiy inatitut Im. P.N. lAbodevn Akedemii nauk SSSR. (Photons) (Cosmic rAys)  S17MOVI O.G.; YEW-L'YAROVA, A.D.1 DUBOV, S.S.; KOZLOVA, N.V. Infrared spectra and structure of zone secondary amines, derivatives of cyanuric chloride and Bubstitutad anilinea. Zhur. strukt. khim. 6 no.2s218-226 Mr-Ap 165. (HIRA 180)  BELITS, Ye.A.; yl., It~q~ 1, 1 Y A-1 I 07P, -,-II.G. Anap',ylactic shock folloWilig lactotherar-rf. Vcst. derm. i vcn. 38 no.10:83-84 0 '64- 1, -yo (211V, YuA. Bolltn) U11,10VOY hnIlylitoy 1 Kozhlloye ot(lelent, ) yugo-'apadnoy zlie.leznoy dwW, (nachallnik - 1.11. Belyl I- 1 .1 Vinnitsa.  AUTHORS: Vlyushkov, B.P. and Yemellyanova, A.I. 30Y/11-59-1-11/16 TITLE: The First Find of Fossilized Reptiles in the Tunguaska Basin (Pervaya nakhodka iskopayemykh reptiliy v Tungusskom bas- seyne) PERIODICAL: Izvestiya Akademii nauk SSSR, Seriya geologicheskaya., 1959, Vj ~Iy_J Nr .1, PP 111-113 (USSR) ABSTRACT: The fossilized bones of a large reptile, identified as be- longing to the class of Dicynodontia, were found between the Permian and Triassic layers in the lower part of the Korvunchany river of the Tungueska basin. ASSOCIATION: Paleontologicheakiy Institut AN SSSR, Moscow (The Moscow Paleontologic Institute of the AS USSR) SUBMITTED: May 3, 1958 Card 1/1  YMUIT"QVA. 4". ProductioncC carbonated vater for heat treat"ut plants. Motal- urg no,10:3Z-33 0 136. (KM 9111) 1. VAguitogorskly filial Gipromesa. (Carboviated waters) (Netalm-Reat treatmient)  TIMILITANOVA, A.M. Mechanization of labor consuming tasks. Matallurg no.12:33-35 D 156, (YILRA, 10; 1) 1. Magnitogorskiy filial Gidpromeza. (ftgnitogrorsk-Hatallurgical plants-Squipment and supplies)  AUTHOR: Amel I yanovaq A'. M. 130-5-15/22 TITLE: MechanisationoY-trie removal of brick debris in the repair of hot tops (Mekhanizatsiya uborki boya ' kirpicha pri remonte uteplitellnykh nadstavok) . PERIODICAL: "Metallurg" (Metallurgist) 1957P NO'059 P~032 (USSR). ABSTRACT: A brief account is given of a recently adopted system at Magnitogorsk in which bricks knocked out of hot tops are removed by a conveyor belt. The 'belt runs in a trench which is covered by a grating. The hot tops are arranged in two rows on a framewoxk on the gratingg and the pieces of brick fall through the grating onto inclined chutes which direct them onto the c9nveyor belt. The adoption of this system in a Card 1/1 single ingot yard has freed two men and increased the hot-top repair rate by 5%. There is 1 f igure. ASSOCIATIDN: Magnitogorskiy metallurgical combine (Magnitogorskiy Metallurgicheskiy Kombinat). AVAILABLE:   YMLIYANOVAt A,,X. , iiia - ~ ~ 1 1, .1 Xechanized food of quartz.its. Ogneupor7 22 no.2:77-78 157. (MLEU 10:4) (Crashing machinery--Attachments)  YAWL'YANOVA, A.K-,... I -.. - 6- )1~0-6~izlng th, e*, removal ofIbroken bricks during sinkhead repairs. '57,-,. - (KIRA 10:6) I. YAgnitogorskiy metallurgichaskiy kombinat. (ConveyingImachinery)  go 0 A j _-w-um m LIZ A a 00 U a v W 0 VI 0 a 'A , *sc4L�mi Aso Ott#t rV i. ' aw typ" !mb"twilm Wit NOW. A. P I'l-IrIlk-1 of 1;1 1 NO 3 Ph-m b 7 1 ^00 . -ov-0 - -fe . nowl A. P-ZUW1:VAWAV-&.- 1 00 -Y bw w4r kmt~. ,I, ith vol.%It futdaviv mAtItAll fil mis w impetlimitna WAStv polymm, j%tr 7 yunvubons to vAvfni wtaphthA h 4 .; ~ up"%; A wAn t bi l . c. tunwn. e said. vegetable oils, radn. paftfj of 6 Pads Of 0 SJCCAtITC (Ph Afft.1111t. %in, ee rl"InAtt.0473,81111 10 9"rt%0(11 rUtPIWTY Ml%t- WA4 .00 S"Itid re 0 =00 C*o see laws ir Ow- -0 1'I.AM1tAkL1jOGKAL t1tinall,4C CL&j$WKAjIQj. too. si-Wi4a- . , ? , $4 as -0 111111-jej Sp Ov 41f -i-Ok -A$ i~~TT__ i4 I'& i, Ila 4.. w- 1, u is as r, 0 0 0 w Im 0 a 1101food sit Igo x a It it N UO A 34 A"I 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 * 111 0 0 IS 9 0 0 e 0 0 0 0 0 P11, 0 a 0 0 0 it -9 0 9 090 so* 49 9.   I I v.A11A _tmveruct ci dBwtv =*A,i i Mbojg__ - ' ~- - ~z z "-i -- , -, ~ . --- I -  U.N.; YMLIYANOVA, A.F.; PISARINKD. A.P. Using high-styrane rubbers in the mnufacture of microporous soles for shoes. Kozh.-obuv. prom. no-3:19-23 Mr 159. (KIRA 12:6) (Rubber, Synthetic) (Shoo manufact+)  ~l t .. - .- I  YA-0-VA, A.V. - YUSLOYANOVA, A.Y., metodist Ixereize therapy as a method for restoring motor function in nourosurgical patients. Ked.sestra 16 no.6:19-22 Je '57. (an 10:8) 1. Is Nsuchno-iseledovatellsk4o ordona Trudovogo Krannogo Znameni institute n'eyroWrurgii imeni aked. N.N*Buidenko Akademil mediteinakikh nank SSSR (AMC IS& THUAPY) (NARVWS SYSTAX-SURGERY)  KIIARIKOVTSEV, G.N.; YETCLIYANOVA, E.N. --__ Regional differentiation in wholosala prices for farroui metals, Sbor.trud.Otd. tekh,ekon. isal. TSIIIICHY. no. ltl29-136 163. (WRA 1736) 41  YEHELOYANOVA Furtsevek Anastas~) , uvinarka; UNSKIKH, A., zootekhniki -- =i-,~ ~, I.G., red.; KOLBIGM, V.I.# tekhn. redo (Competing with lAroslav Chizhl Sorevnuomsia a lAroalavom Chlzbom. Cheliabinsk, Cheliabinskoe kn1zhnoe izd-vop 1960o 8 Ps (MIRA 14:12) 1. Sovk~qz "Krasnyy Oktyabr'Q Verkbne-Urallskogo rayona (for Furtseva). (Swine breeding)  KISAROV, V.M.; KOLMAKOV, O.A.; RYABININ, S.I.; Prinimela uchastiye YEMELIYANOVA, G.A. Recovery of benzene from absorption gases by means of by-products of phenol manufacture via cumene. Khim.prom. no.9t691-692 S 162. (MIRA 15t11) (Benzene) (Gases) (Phenol)  TMLOYANOVA, G.F.. BARIL12KO, V*F. Revigiona are neceasarY in the zurriculume Sov.zdrave 17 no*8:3033 Ag 1-58 (MIRA n--8) 1. 1% kafedrY organizateii zdrfvOOkhrskndni7FL (zlive GJ, TOmelly8nova) Dn~porpstrovskogO MOditainskogo ingtituta (dir. - prof. D.P. ChUkhriyenb)s (PUBLIC H3AWH~ eduO in Rassia. need for curriCUlum chnng0s Ous))  MMITAROVA, G.7., BARIUM, V.P. *Sanitation, therapy, and prophy2a3cle provided for workers at machine-tractor stations.' by R.D, Gabovich.' Reviewed by G.Fe Imellianova. V.P. Baril~Ao**** Gig, isang 23 no,807-88 Ag '58 (MIRA 11 s 9) (MACHIMr.ZRM(K STATIMSiMMO ASPSMI)  yx M IYAHOVAP G,7* 17-~ health of minera. Vraeh.delo no.6s631-632 Concern for the (NM 13:7) je t60. 1. lafedra organisatsil sdravookhrAtOniYa i istorit mediteluy (zav. - G.7. Yemellyauova) Dnepropetrovskogo maditRitOkOgO inatituta. (KRIVOY ROG-KIMS--DISBASES AND HYGIM)  BARI1ZHKOj V.P.; MELIYANOVAP G-F-, CHERITENKO, I.Ne (Dnepropetrovsk) Activity of the Red Croso Society in the program of the departnents of public health organization, Soy, zdrav, 39 no,7:39-41 160, (MIRA 13:8) 11 IZ kafedry organizatsii zdravookhraneniya (zav, G.F. Yemellyanova) Dnepropetrovskogo meditsinskogo Inatituta i Dnepropetrovskogo oblastnogo komiteta Obahcheotva Krasnogo (predsedatell I.N. Chernenko). (PUBLIC MALTH ADMITISTRATION-STUDY AND TEACHING)  BARILENIKO iV.p.; yEI46LIYAHOVAl G.F. I------- -132 my 161. Accident control in agriculture- Vrach, delo no.5;I)l (MIRA 1/.:g) o. F.'Yemll yanova) (7,av, - 1. Kafedra organizatsii zdravookhraneniya OW0. Dnepropotrovskogo meditainskogo instituta. 11, (AGRICULTWy--ACCIDENTS)  YEMEWYAROVA, G.F.., dotoent, Measures for further Improvement of medical service and health protection of the Krivoy Rog Basin population. Vrach. delo noo7tl26-127 J1163. (MIRA 16tio) 1. Kafedra o:7ganizatzli zdravookhranoniya I istorii meditsiny Dnepropetrovskogo meditsinskogo instituta. (KRIVOY ROG BASIN.-FUBLIC HEALTH)  YERELTYANOVA.G.F.., dotsent (Dnepropetrovsk) -1-1-1-1-111 .- Hicrobiolos-istsi, First Congress Of ftienistap Epidemiologists, f Public Infectious Diseases Specialists., and organizers o (miRil 16t12) Health in Bulgaria, Sov. zdrav, 22 no.7190-91 163  YEIMMIYANOVAt G.I.; V.P.; lfOBr-'Z-'V, ':-I- Catalytic -4--c- . 'icn o' liquid czcne at lo-i temparat,--cc. Part 1: -:osit Kj~notjCo 0.' jCt!-,`A-,,,,c.Tat-are cata2ysiz on i-latir,,--. iac*-,. "CS'P.-. un. Ser, 2:7-9 ~'-D 160. (1-'LA ll,-2) 1. Kafcd---a Zizicheukcoy 1.*.,,-,:31,ovs*,:oGo univc-i-3iteta. (0z-:,.,-Ii)) (Platir,=)  8h3b6 S/189/60/000/004/001/006 H. //I~o BO02/B06O AUTHORSs Yemellyanova, G. I., Strakhov, B. V., Lebedev, V. P. TITLEt Density of Liquid Ozone \\ PERIODICALs Veatnik Moskovskogo universiteta. Seriya 2, khimiya, 1960, No. 4, P7-11 TEM Values for liquid ozone density in available literature differ as much as 8%'(Refs. 1-3). A new determination was, therefore, made at -195 .6 C. A certain volume was filled with 100% gaseous ozone, and the pressure was meaeuredl ozone wan then condensed, and the volume of liquid ozone was measured with a measuring tube, The average value from four measurements was 1.619 � 0.004 g/cM3, which is in good agreement with the most current data available. The method was checked by determining the density of liquid oxygen; the value found was 1.204 g/CM3, as against 1.2037 g/cm3 in Ref. 4. The errors in measurement did not exceed +0.002%. There are 4 referencess I Soviet, 1 German, and 2 US. Card 1/2  e4306 DeInaity of Liquid Ozone s/189/60/000/004/001/006 B002/BO6O ASSOCIATIONi Kafedra fizicheskoy khimii. (Chair of Physical Chemistry) SUBMITTEDt March 15, 1960 1~ Card 2/2  30342 S/189/61/000/006/004/005 1111.20 D22I8/D,3 04 AUTHORS; Yemellyanova, Gal Lebedev, V.P. and Kobozov, N.I. TITLF-s Catalytic decomposition of liquid ozone at low temperatures. II The energy of activation of the low-temperature decomposition of ozone and the activity of palladium black PERIODICALt Moscow. Universitet. Vestnik. Serlya II, khimiya'j no. 6, 1961, 31-34 TEXT& This investigation of the low-temperature decomposition of ozone and the activity of Pd black is a continuation of previous research by the authors ( Ref. It Vestn. blosk. un-ta, sera khimii., no. 6,7, 1960) in vdiich a catalytic process was discovered 0for the decomposition of liquid ozone on Ft black at -- 195.6 " Their new data, obtained fEom the decomposition of ozone on Pt black at - 183'j and - 195 .6 , show that the mean Card 1/3  3/189/6 1 /000/X304/005 Catalytic decomposition ... D228/D304 apparent energy of activation of the process is 500 cal. mol.71. Pd black was found to be equally effectivel the data for this catalyst satisfy the kinetic equation previously deduced for Pt black, and the maximum number of molecules decomposed in one second by one atom of catalyst was, calculated as 1.2 x 10 - an unexpectedly high value for low-temperature catalytic pro- oeBses. However, Ag black, CuO. Qu, XiOj Ri,203P Fe 203 , and Pe are catalytically quite inactive. It was also established from other tests that the rate of catalysis for Pd and Pt black is in no way influenced by diluting the ozone with oxygen or nitrogen. Moreover; the experimental study of the relationship of the catalyct"e activity to its q:,antity - at a constant conn,entration of ozone - indicates a certain decline in the re- lative activity of Pt black when its concentration exceeds 30 mg. Th,~ authors hence conclude that the decomposition of liquid ozone on Pd and Pt black is undoubtedly a heterogeno- Card 2/3  Catalytic decomposition 30342 B/189/61/000/006/004/005 D228/D304 catalyti-c procesa. However, further work will be undertaken +1c ascertain whether the transmission of the enert~y of the simple exathermic act of dissociation to the reacting molecules is accomplished through the catalysts crystal-lattice or in the adsorbecl layer of ozone. There are 4 figures, 1 table, and 2 11K referencess 1 Soviet-bloc and 1 non-Boviet-bloc. ASSOCIATION; Kafedra fizicheekoy khimii (Department of Physical Chemistry) SUBMITTED: August 3, 1960 Card 3/~  ACCESSION NR: Ai4010622 S/3051/63/000/000/0454/0459 AUTHOR: YemelFyanova, G.I.; Lebadav, V.P.; Kobozavs N.I. TITLE: Low-temperature catalytic decomposition of liquid ozone SOURCE: Katalitichaskiye reaktaii v zhidkoy faze, Trudy* Vseso noy k6n- ferentsii. Alma-Ata, 1963, 454-459 Yuf TOPIC TAGS: cryogenics, ozone, liquid ozone, ozone decomposition, low-temper- ature ozone decomposition, catalytic decomposition, low-temperature catalyst, heat transfer, thermodynamics ABSTRACT: Platinum, palladium, and silver black, Fe, Fe203, Cu, Cuo, Nio and N12O3 were tested for use as catalysts in the decomposition of liquid ozone. Platinum and palladium proved the most active in the decomposition of liquid ozone at -195.8 and -183C. On the basis of the results with platinum and palladium as catalysts, the authors concluded that decompositi~'n of ozone in a liquid state is a purely catalytic process in which no chain mechanism is involved, except on the metallic surface. Decisive in the decomposition is the exothermic energy transfer in the-absorptive layer of ozone in the cacaly6C. In roentgenographic, spectroscopic, and magnette studies of the affect of the .Card 1/2  ACCESSION NR: AT4010622 oxygefi on theacatalytic'surface,,the presence of oxides produced in a chemical interaction was not detected. Tests on ozone in a gaseous state at room temperature showed that the oxides, notably NiO and Ni2O3, are more active than PtIt ?d and Ag as catalysts. Orig. art. has: 6,chomical formulas and 3 figuras. ASSOCL4XION: Moskovskiy goapdarstvenny*y tiniversitet im.'XV..Lomonoso4a (Moscow state u4iversity) SUBMITTED: 00- DATE ACQ: 25Jan64 ENCL: 00 SUB CODE: GO NO REF SOV: 013 OTHE4: 001 2/2 Cord  YEMELIYANOVA. G .I.; LEBEDEV, V..p.; KOBOZEVy H.I. ne. Zhur. fiz.. khim. 38 Physical chemistry Of concentrated OZO (KM 17:2) no.1-170-175 Ja'64, 1. MoskovskiY gosudarstveftnYY universitet imeni Lomonosova.  IDEL-1-vANOVA, G.J.; LEP;"I)FVq V.P. surface firld CrPLa 1 84 ZO Of polt~i Relation tet-deea the free and adsorption catalysts. Zhur. fiz. kbim. 39 ro,9.;2293- 2296 5 164. ( MIr RA 17 ~ I Z ~ 1. Mosxovskly gosudarstvennyy univerositot izoni Lomonoso'jq, khImIcheskiy fakulltet.  YEMEL'YANOVA, G.I.; ll-*,13'-'tlf,:V, V.P. Catalytic activity of amornhous and crystalline phases. Part 4. Zhur. fiz. khim. 39 no.2.,403-409 F 165. (MJRA 18:4) 1. Moskovskly gosudarstvennyy universitat Imoni Lomanonova, khimicheskiy fakulltet.  L 9735-66. W(m)/&P(J)/9WP(t)/LrdP(b) IJP(b) JDIWdIJGIRM ACC NR: "5027171 SOURCE CODE- UR/007(1/65/03()/010/2380/2387 AUTHOR: Yemellynova, G. Labodev, V. P - Nobo -V N. 1 'ORG: Moscow State University Im. M. V. Lomonosov (Moskovskly gosudarstvennyy universitet) TITLE: Physical chemistry of concentrated ozone_~Ipart 25. Mechanism and kinetics of the low-temperature catalytic decomposition of liquid ozone on 2latinum nd palladium SOURCE: Zhurnal fizicheskoy khimil, v.- 39, no. 10, 1965, 2380-2387 TOP19 TAGS: ozone, plat inum, palladium, :catalysiiEl ALOLC-114M PJITRA AB composition of liquid 100% ozone and its solutions in nitrogen and oxygen at -195. GC on platinum and palladium black and on adsorption platinum catalysts goes through an active chemisorbed state which to thought t6 involve the composition Me03- The transfer of the energy of the elementary exothermic event is acCOMPItBhed In tbe layerof ozone physically adsorbed on the surface of the catalyst from one active center toI__X the next. In the course of the catalysis, an oxygen compound,of platinum of the composition MeO Is formed on the surface; this compound Is sufficiently stable at the tomperaturos Card 1/2 UDC 541.124/.128  L 9735-66 ACC NR: AP5OZ7171 Of the at which the catalytic experiment Is carried out, and as a result, a self-poisoning catalyst talms place. Comideration of this self-poisoning by meanEFo-f a semlempirical method led the authors to the derivation of a Idnetic equation which adequately describes the experimental data. Orig. art. has: I figure, 3 tables, and 17 formulas. SUB CODE: 07 SUBM DATE: 29May64 ORIG REF: 013 Card Z~ ----------  SOURCZ CODE: UH/0I89/66/000/q03!O045/0047 AUTHOR: YLe _ey m 11 Lebedev, V. P. (deceased) ORG: Department of Physical Chemistry, Moscow State University (Kafedra fizichaskoy khtinti moskovskogo gosudarstvennago univoraitnta), TITLE: Poisoning Isotherns in the presence of the promoting effect at low concentrations of the poison SOURCE., Moscow. Universitat. Vestnik. Seriya II. Mimlya, no. 3, 1966, 45-47 TOPIC TAGS: catalyst polsoningg promotor, promoting effect, catalyst SUB COM. 07 -func ABSTMCT: An exponential equation describing the relaiiiia aktiVity as-6 tion of catalyst poison adsorbed on centers for the totality of homogeneous Active sites on catalyst surface: In Lg B - 9 k Ao Zk[B + (b -b)gj k A vhere ext6nt of catalyst'poisoning; Zk = number vf catalytically active sites; g amount of adsorbed b.w,.,parametera of the Lan&~miir ;ard UDCt 541.1!532+533   -T ~ --- - - ,w '. , ~ ~ -~ --a "i I I I . ~ ; 1. .. . A   c rays Card 1/1 Author Title Periodical Abstract Institution Submitted Pub. 146 - 19/2o : Gramenitskiy, I. M.; Yemellyanova, G. S.; and Podgoretskiy, M. I. : Problem of the effect of connected fissions in cosmic rays : Zhur. eksp. i teor. fiz., 27s No 5 (11), 654-655, Nov 1954 : The authors analyze 820 "stars" found during an examination of 380 cm2 of emulsion 200 microns thick exposed at an altitude of about 15 km, and discuss the observed effect of connected "stars" for distances less than 0.5 mm. They note that the effect turns out to be approximatel the same as found by I--prince-Renguet and Heidman (Nature, 161, 1948 and by Li and Perkins (Nature, 3.61, 1948). Here the authors consider not only "'binaries" but also "trinaries", in contrast to previous in- vestigators. The authors note Zh. S. Takibayev's suggestion (Zhur. eksp. i teor. fiz., 24, 636, 1953) that pairs of photoplates moving relatively to each other be employed to determine the moment of time corresponding to the flight of cbarSed particles through the emulsion, which would also determine the simultaneity of two events and formations of nuclear fissions spatially close. The authors believe that Zh. S. Takibayev's method would solve the problem of the effect of connected fissions. Thirteen references, 3-1 Western and 2 USSR. : Physics Institute imeni P. N. Lebedev, Academy of Sciences tJSSR : February 18, 1954  :;/0a IJ63/000/003/027/o3 6 B144/Ble6 _-AUTHORS;:-, -.-Zaychenko-F-T -~N q V, -Yemellyanovav e t Iry -le n, a 0) TEXT; The possibJlity is studied for ob,taining solid polyethylene under -tho offect, of an oloctrio dinchargo in vnouo (5 - 50 mm lid)---It in chown that uning a oylindrioal-glano capaditor with a non-ioalatud central metal electrode as rea-ot'ion vessel., a polymer (90 - 97%) forms ------on the-clectroder. in the form of a transparent or dull white film which under prolonged action of the discharge becomes brittle, loses its solubility, and darkens. Simultancouely hydrogen and saturated and nonsaturated hydrocarbons form. The effect in studied of initiating additions (saturated and aromatic hydrocarbons) and gaseous products forming in the electronic discharge on the process of ethylene polymerization (inhibition of the process). It is shown that in the Card 112