SCIENTIFIC ABSTRACT FILONOV, I.G. - FILOSOFOV, B.I.

GERSHGORN, M.A.; KAZARNOVSKIY, KUTSENKO, A.D.; ULIYANOV, D.P. Production of lou,(-alloy bessemer rail oteeli Stall no.5404-408 My 161., (MIRA 14.5) 1, Ukrainskiy institut metallov i zavod.ird. Dzershinakogo,I (Bessemer process) (Steel alloys)  FILONOV, IOGO z The Dzerzhinakii Metallurgical Plant is 75 7ears old. Stall 24 no.5089-391 Yq 164. (KMA 17M) 1. Direktor Dneprovskogo metallurgichookogo zavoda im. Dzershinskogo.  BESEDIN, P.T.; SOROKIN, A.A.; FILONOV I.G.- KARPUNIN, A.M.; P "VDEYE-V, CHEPELEV M.G.; KUTSENKO, P.M.; Sffmmmlw"~) A.D.; TSELYUKO, V.I.; CHERNEVICH, Ye.M.; ORGIYAN, V.S.; CHERNETA, Z.A. Improving the technology of the heat treatment of rails at the Dzerzhinakii Plant for the purpose of increasing their durability in tracks. Stall 24 no.5:445-448 My 164. (MIRA 17:12) 1. Dneprovskiy metallurgicheskiy zavod im. Dzerzhinskogo i Ukrainskiy nauchno-issledovateliskiy institut metallov.  F p 0 kJ 0 .120A 0 gal .HV ;I 1V U P'. "G. 0 a A, 12. IT! OZOE12.11 ia .: a w- I i alk a" 1 g 0 -- soMi-*1 i a I 1H.-hi 11,3111mm" 3 0 06 Fo; a 0 dj -= .4 c 10- r "I a . CWC5 4 33. a u1 GO -0 05 r 1 i3r- - .11-01%.-A, Al c us I j g Nj IS von- ~ajivh C 'd 0 A- I !i u o 0 ~ i a o- 0 .44 60 .6. 0 Fhd ii .8 . ; Oro *'a -,o ,z a Be- 4 , j* M I I, vo I b; 1 jot!- I goo 00; 5 Ar, iT I  PAVLYUCIOIKO, M.M.; AKULOVICH, V.M.; FILOITOV, 1.0. I_%_-__-___-__- - Spectral determination of trace elements in mineral salts. Fiz.9bor. no.4:516-519 '58. (MM 12:5) 1.1netitut khtmii AN BSSR. (Trace elements--Spectra)  YILONOVO 1. Bargusin State Preserve. IUn.nat.no.9:91-22 D '56. (MU lo: 2) 1. Direkt.or sapoveftlka. olmorguAlm State P~mservo)  "FILONOV, K. f Int4resting aspect of the diet of Marmota kamtschatica in the Bargupin Reoer7o. Izv. Irk. goo. riauch.-isel. protivochum. I t, 2lt279-281 159o (MIRA 2/+:11 ~' - ,(UBPUZIN RANGF,-MM40TS)  FIWNDV, K.P. 7&3.1 and winter migrations of the hawfinch* Ilraeved-abore no.4:133-135 159. (MIRL 13:7) (Barguelu?reserve-Groebeaks) (Birds-CgratioA)  V.,,,.; I KAPIAN~ V.~I. I .. I -~ B,-.rguz-*,n State Preserve. Okhr. prir. Sib. I D.11. Ilo.t. no. I 1187-192 162. (M-r-FA 1-45)  SKRYABIN, N.G~; F.T-LONOVP K.P. -------- Materials on the avifauna. of the northeastern coast of Lake Baikal. Trudy BGZ no.4:119-189 162. (MIRA 17:9)  FILONOV) K.P. ~Fluc uation in the abundance of winter birds. Trudy BGZ no-4: 191-202 162. Addition to the list of mammals in the Barguzin Preserve. lbid.:228-229 (MIRA 170)  . - KPIPLID, G.S. _~ILOVOV K 11 Op Spa %.,,p I ng of grayling In the preaervo. Trudy BGZ no-~--23,(~-232 ti~2~ e 4 (MIIP-4 ilig)  FILCNOVP K.P. Seaoonsl develojment of natUre in the Baohk.ir Presem. Trudy Bas hogosozapo no*2313-43 163. l4at,crials on winter bird parmintions in the Bashkj'.r Prenerve. (MIRA l8s5)  F1 Lcei; - i " , !, . : " -.? -I nf the sumier orni L~nfauna of tha t,: ta t I vs~ eba rac ter I . - &!-,.n'q'k!r Freit3rva. Ornitclogilla no.7,.63-66 1~,5, (MIRA -183.10)  27933s/ 135/6 1/000/0 1010-021008 A0061AI01 AUTHORS-, Kotov, B. I., Goncharenko, N. M., Filonov, K. S., Engineers TITLE: Mechanization and automation of welding operations at tiie "Krasnyy Kotel'shchik" Plant PERIODICAL: Svarochnoye proizvodstvo, no. io, 1961, 14-17 TEXT: In order to fulfill the requirements of the current Seven Year Plai~ the Plant mentioned above must achieve an increased production of boilers mainly through mechanization and au 'tomation of welding operations. The following main fields of welding operations and achievements brought about are enumerated: 1) Electric slag welding. This process is now being used for welding 24 mm thick metal; bi-layer metal; up to 90 mm thick austenite chrome-nickel shells; largr size shells of 40 - 90 mm wall thickness, 3,100 mm In diameter, up to 2,100 mm length and 120 mm thick and 2,000 mm long panels. Welding Is carried out with devices A-340 and'A372M, austenite wire Cs -iX18HqEj (SvlKhl8N9B) under 'r K3- HT~ (TKZ-NZh) flux. In comparison with multi-pass automatic welding -~he production cycle when using electric slag welding was reduced by 35-40%, labor consumption by 30%, power consumption by almost twice and flux consumption by a factor of 20, Card 1/3 A  11133 S/135/6i/000/010/002/008 Mechanization and automation of welding ... A006/A101 2) Automatic and semi-automatic submerged electric-are welding. The Plant developed a number of automatic machines including a device with an automotive column and a portal type machine for the welding of containers. Automated welding was also applied for thin-walled large-size I%1M9T (lKhl8N9rr) steel containers of 3060 mm in diameter, 10,780 mm cylinder length, and 6 mm wall thickness. The operational -temperature of the container wall was - 1800C. The weldIng of the cylindrical section was 50% automated, the panels werc welded with tractor TC-32 (TS-32) which had been redesigned. A machine with a chain bevel- ing tool and a carriage, moving together with the welding torch, is being used for the automatic gelding of frame-beam structures of boilers; a rotary typo machine with adjustable inclination of the face plate is employed for welding flanges to 200 - 1,600-mm sleeves and pipes. Satisfactory results were obtained with automatic building up with austenite steel of sealing surfaces of boiler fixtures and high-pressure steam preheaters. Several units with a rotating face plate were designed to fasten built-up parts,of various sizes and weights. 3) Resistance butt welding of pipes. Resistance welding has been fully autd:: mated and the following butt welding machines are being used: MCM-150 (MSM~150), ACM-150 (ASM-150), ACM-300 (ASM-300). MCM-320 (MSM-320) and JACO-400 (M30-1100). At the recommendation of TsN1ITMASh butt-welding of pipes by continuous flashing Card 2/3  27933 S/135/61/000/010/002/008 Mechanization and automation of welding ... A006/A1O1 was developed and introduced. From 1957 butt welding of perlite steel pipes was assimilated, eliminating internal burrs by oxygen-air blast. Presently research is directed on butt welding of pipes with induction heating. 4) Flame cutting of metals is widely used. Manual and machine oxygen cutting is employed for cutting carbon low-alloy and two-layer steels and oxygen-flux cutting for cutting high-alloy steels. From 1957 the aforementioned operations have been carried out with the aid of natural gas. With the assistance of the Rostov NIITM, the Institute of Electric Welding imeni Ye. 0. Paton, NIIqVCh iment V. P. Vologdin, TsNIITMASh, and the Taganrog Radio-Engineering Institutp, the "Krasnyy Koteltshchik" Plant is occupied with a series of investigations and projects including the weldability of new steel grades, the development of efficient electrodes and welding fluxes. In the honour of the XXII KP33 Congress -the Plant undertook to design the first (TPP-110) boLler %qtt!i 050 (/hour steam capacity. There are 7 figures arid I Sovlet-bloc voferon.-~o Card 3/3  SOV/84-48-4-8/57 AUTHOR: Filonov, L. I TITLE: W11M""1%ft8-Are Burning (Kogda goryat ogni) PERIODICAL: Grazhdans)caya aviatslya, 1958, Nr 5, pp 12-13 (USSR) ABSTRACT: A story relating t#he activities of a night shift of maintenance teams in the Sverdlovsk airport. A photograph, showing an Il-12 aircraft before aright startj accompanies the text. 1. Aircraft--Maintenance 2. Personnel--Performance Card 1/1  (-- FILONOV., L.B. Dependence of the selection time on the number of discriminative features. Vop. psikhol.9 no.1:89-103 Jam-F 063, (MIRA 16-'4) - 1. Idstitut paikhologii Akademii pedagogicheskikh hauk RSFSR., Moskva. (Choice kPsychology))  HASLOV, Yuvenaliy Aleksandrovich; MIKHAYLOV, S.I., kand.takhn.nauk, retsenzent- FILOHOV,..-LqX., inzh., retsenzent; D3NISOV, Tu.A., I - - --- M"._., tekhn.red. inzh. , red4.".1u7ftII'- (Welding) 3varochnoe proizvodatvo. Moskva, Gos.nauchno-takhn. izd-vo lit-ry, 1959. 328 p. (MIRA 12:11) (Welding)  FILCROV, K. r Industrial organization and planning. Mor.flot 16 no.9:15-16 S 056. 11M 9:10) - I.Glavw lnzhener Ranonerskago savoda. (ships-maintenaws and repair)  'kg i ACCESSION NRi AP4042591 S/6056/64/046/006/2244/;245 AUTHORS: Perfilov,'N. A.; Solov'yeva, Z. I.; Filov, R. A' TITLE: Alpha particle spectrum of ternary spontaneous fission of Cm-244 SOURCE: Zh. eksper. i.teor.-,fiz., v. 46,*no. 6,.1964, 2244-2245- TQP1C'TAQSt curi%p, alpha partialia, fiesioh product, energfy dis-' tribution, alpha spectroscopy:... ABSTRACT: The investigation was undertaken in order to check Whethet, the spectral characteristic of the fission alpha particles is indeed, independent of the mass number, as was observed by the authors i.earlier (Atomn. energ-~ v. 14, 575, 1963; ZhETP v. 44, 1832" 1963j. The test was al .so aimfd.at checking the correctness of-the value ob- tained for the most pidbable energy 9f the fission alp ha part icles 'for Cm242., The same ~i%primental'setup was used-as in the earlier Ca  ACCESSION NR: AP4042591 investigation, -and,geometri'cal correc4ons were introduced into the experimentally obserMed energy distrib tion. The qbtained energy ry 9N4 spectrum for the terna* fission of was found to have a maxi- m um near 15.5 + 0.5 Me'V and, assuming c~ Gaussian d4stribution-, a 242 width 11.5 + 0 5 M V t half height. The values 6~tained fo r Cm are 15.5 + and 12,+ T respectively, indicating that the spectral characteristics agi.~ee, within the experimental err9r, also for two- curium isotopes, as they-did agree befo8re in the case of U and Pu.' However, the shift in the most,probable energy of ternary-fissibn alpha particles cannon^ be established'o"n'the basis of data on three elements only. "The authors 'thank A. S. Krivokhatskiy for assis.- tance.11 Orig. art. hass 1 figured ASSOCIATION; None it SUBMITTED: OlApr64 ENCL: 01 SUB CODE: NP NR~REF SOVa. .004 OTHER: 003. C r cdf: t A2/3  -vgmg' g ~%Q ~gvn_ W mmT.& g IF~ ACOMICN'NRI AP4042591 EKCLOSWMI 01 2S JO&MOV 15 29 'Up~' particle energy speo trum -of ternary fission of CM846 a experimental, b.- following data reduotio.n Card 3/3  48 "ic:-3-433-41 Yx (MIRA .18:8)  111"LONOV S. P. (EnFinaor); ~itnronko, V. S. (Enginoor); Zhq(,,~q~,r - -.- ----- --- -.. . . _# Y inner) (Can(U(Iato I '*~'~Ce'4 of techilicni '~co' 11RO L;ults Of TOS",-Ing Of 3700 Turbine Unit's 'vath-iroo %.s, Ganorator" rnorgo.~,\Iashinost"i,oyc.,i--yo, No. 7, 1966. PP- 35-36. Abstract: Results are presented from a testing of a gas turbino installation ~-rith a froo piston gas gonerator produc(3d by the Lugan5lc Locomotive Plant, designed '.Per driving a centrifugalp an oil._pjipo~#oApumping station. The installation, the GTU 3700, domonstrated considorably higher efficiency and equivalent ocnomic, starting and control charactorizUes w1hen compared with open cycle turbine units now being produced. The gas tompora-bul'o before 'the tui~oino did not exceed 490. dogroG3 C, Economllo calculations indicated that .the unit would be offioiently.usablo in mainlino.oil pipeline installations, Or---Z. art. has: I figure. LJPRS: 37,5641 ~ ORG: none TOPIC TAGS: gas turbine, pipeline SUB CODE: 13 / SUBM DATE: none OUG REF; 002 Card 1A UDC% 621-438-001-42  ~AA _,J A.Cassioll 14R-! AP5010967 UR/0286/65/OOC)/007/0152/0153 AWTIORS: Ogarkov., A. G*; Mh1akhov,,._ V. N. Filonov S. P. TITIZ: Double iston hydrauliopum Class 46t No. 169945 -P q~ SOMME - Byunetent JLzobreteniy i tovarrqkh znakov, no. 7, 1965, 1.52-153 TOPIC TAGSt pump i ABSTRACT: This.Autthor Certiflciato:presents-a double-piston hydravIle pumn for driving gas supply units and injeatin ignition fuel in intarnal com.-bustion engines operating in the gas diesal~eycle. The pump contains a housiw with a pi S*~on Pair of differipg diameter and rotating and return devices. To reduce the siza of the pump, the smaller diameter piston is fixed and I's placed concan- trl!~ally in the larger diameter piaton (see Fig. 1 on t6e Enclosuro). To n tr- PIL'y --.iriving gas supply units, the units are connected to the rxEssuro chamb,_- of larger diameter piston. To reduce igmition fuel conslzrzpti~- and to Insure am& _j ------ rim;, Orl ar ASSOOTATMI i R-O"l-is SUBMITIMN Web" ENCL: 01 SUB COM-- M [SHO IUKF SOV: 000 OTHM 1 000 ard r   WT n, 600 '7624,- -SOURCE CODE:- UR/0229/66/000/001/0634/0041D ATNHOR! Filonrui, So, -;.Gibalov I'l ORG: , Lugansk Did se1L-LoaomatA1"j'1a t of October Revolution (L ganski36 teplovozos-fr-6;Cii;i*9nyy zavoa imeRi Oktyabrlskoy revolyutaii)- .rITIY,: Gas-turbine.plant with free piston gasifieis for river ships SOURCE: SudostroyeWiye. no. 1. 19669 34-46 TOPIC TAGS:, rin engi'adrifig,-: gas turbin e i ~ma 8 n e ngin ABSTRACT: A'desoription of a gas-turbine pjanf69igned and manuf do- tured.by the LugqnALK esel-Ldcomotive Plant is presentede -The __Pi planto was designed for a 5300-ton river ship ~nd consisted of two 925-hp, '(port and itarboard) and three free piston ganifie turbine units ro of OP-95 type. The plant specification is as f onows: Rated capacity 1850 hp Rated one-hour capacity (forward) 2035 hp -(backward)',' 640 hp Rated capacity um Fuel cons ption 195 gjhp- bir Rated rpm forward) 300 rpm Rated rpm backward) 180 7m Efficiency of the plant .32.6 Weight of the plant 36 ton Unit'veight of the plant 19.5 kg/hp UDC: 621.431 74:621,43A ard- 1/3  L 2o945-M -AC-C Nlb - AP6007624 The.data on OP-95 gasifiers are given below$.~ Engine piston diameter 280 mm compressor piston diamater 750 mm Piston stroke ' 375 mm Compression rate (diesel-oylinder), 11.5 Max. cycle Pressure 1-5 K k /sq om Average pistowo 8.19 Sao al~ Rated capacity (ad*iabati d) 850 hp Max one-hour -oapffiol ty ( 6diabatio) 935 hp , ,' Gas pressure 4.5 atm Gas discharge 2.3 kg/seo Gas temperature 490 0 Number of cycles' 735 cyclea/Min --.-_- Fuel- consumption 152 ~/hp-hr ~ . Efficiency, 41.5 Size,- 4000 x 1500 x 2300 mm Wei ght 6000 kg unit, we.ighC .7906 41hp 2/3  _66- ACC NRs - AP6007624 The five-stageturbine unit,has the following ratings: Rated capacity-if,orward) 925 hp, Rated capacity (backward) 320 hP Rated rpalon-the shaft, forward) 9000 hp gffioienoy. 78.5 % W6ight - - the' unit of 9000 kg Z9 4018 x 2550 x 2616 mm The fuel of M-1 trade. mark, was used. The-lubricants were of VT GOST 32-53 type. ~The design and-operation of turbines and gasifiers were discussed and their cross-seotions were shown in two figures. Flow diagrams were used fordesoribing the:operations of fuel and gas dist- ribution syatdms. The arrangement of the pneumatic system was explain- ad and the variation of airpreasure under various operating o6nditions was graphloally representedo~ Orige arts' has: 7 figures. SUB CODX.,~ '13 a= DATS: 'None OIMG FiEr: 000 9TH RM. 000  -4737-' U, iEri? VY00 - L ~'. Yq ; _-_ -__"--_ _.. _ -, -_ __' .. ~ . - m - NR, Ap6oaqo66 SOURCE CODE: uR/o4l3/66/ooo/OiJj/O12_-/Ol22 MMOR: Filonov, S. P..; KhakharevP L. M. ; Gibalo,,r, A. I.; Chugunov, V. K1; MaBlov, G. I. ORO: none TITLE: Device for transferring gas of a free-piston generator. Class 46g No. 18406,5 /-announced by Lugansk Order of Lenin Diesel Locomotive Building Plant im..October Revolution (Lt*anakiy ordena Lenina teplovozostroiteltnyy za SOURCE: Izobret prom obraz tov zn, no. 14, 1966, 122 TOPIC TAGS: free piston generator, gas generator-, pipeline, pneumatic servomechanism valve, piston engine ABSTRACI!: The proposed device for the transfer of gas from a free piston generator (operating in a group of generators on a common gas pipeline) exhaust to the gas pipeline inlet contains atmospheric and main valves. In order to automate the gas transfer, the values are equipped with pn umatic servo drives, interlocked with a slide, valve, controlling the main qy a servodrive, and rigidly connected with-, the servodrive of atmospheric valve which receives a command signal from a electro-i pneumatic valve (see Fig. 1). In a modified version of. the above-described device, Card 1/2 uDc: 621.432. .31-577-  011 - L 47373-66 __Rk_ __~_666 tc _iY~6d2 o P to at*'osphexe- compressed, air Fig. 1. Gas transfer device sit 1 - Atmospheric valve; 2 - main valve; f roDi dalfipe4 I - servodrive of -the- -atmospberic_valvs.~.__ 4 - servodrive of the main valve; to 5 - slide valve; 6 - electropneumatic _=:-turbira' valve. Uri the servodrive of atmospheric valve was equipped with a damper in order to ensure gradual charging of the generator during the transfer of gas. Orig. art. has: 1 figurq. [AV] SUB CODE:13yIII6kUBM DATE: 15mar65/ ~/2 mjs,  ]!40NOV, V., inzhener. P~Lcknglng, flour in paper bags. Nuk.-elev. prom. 23 no.6.-27 Jo !57. - (NMA lotg) 1. Chely0inakoye oblastuoys upravlenlye khleboproduktov. Olour)  FI_LONOV V. Apparatus for automatic regulation of temperature in the hot air duct of the VTI-15 grain dr7er. Muk.-elev.prom-23 no.8:27-28 Ag 157. (MIRA 10:11) 1. Chelyabinakoye oblastnoye upravleniye khleboproduktov. Grain-Xrying)   BOGOMOLOV, G.V.; FILONOV, V.A. Hydrological cycles in the area of the Pripet faulL. DokI. AN BSSR 8 no. 3:172-174 Mr 164. WIRA 17:5) 1. Institut geologicheskikh nauk, Gosudarstvennogo geologicheskogo komiteta SSSR,  A AUTHORS: Finkellshteyn,Ya. B., Filonov, V. A., Soyfer, V. N. 2o-4-39/51.- Obukhova, M. P. TITLE: An Attempt to Apply Tritium as an Indicator for Studying the Dynamics of Underground Waters (Opyt primenenija tritiya v ka'- chestve indikatora dlya izucheniya dinamiki podzemnykh vod) PERIODICAL: Doklady AN SSSR, 1957, Vol- 116, Nr 4, pp. 671-672 (USSR) ABSTRACT: Such experiments were carried out by the institute (see associa- tion) with tritium water of a high specific activity by intro- duction into an underground brook in 1956. As water was here "marked" by water absorption processes were not possible. This allowed the determination of the right velocity of the water mo- vement. Small quantities of the tritium water (loo-2oo ml) with a specific activity of lo-2o mCo/ml were injected in the compres- sion borehole and tritium was determined at the output in the working boreholes. The taken samples were filtered for the purpo- se of cleaning, twice de3tilled with potas3ium permanganate and hydrogen obtained of the c&ium oxide formed by it by means of zinc dust at 5000. The latter was mixed with ethylene and checked in the Geiger-Mueller counter.For the experiment 4 boreholes were cho- sen: 1 hole for pumping in, and 3 working or observation holes resp. The marked water appeared quicker than it was calculated in ali 3 observation boreholes. The water was pumped into a producti- Card 1/2 ve layer of the solid-cemented sandstones of the Chokrak horizon.  An'Attewpt to Apply Tritium as an Indicator for Studying the 20-4-39/51 Dynamics of Underground Waters. Following conclusions can be drawn: 1) the application of tri- -.ium as water indicator is efficient and probably forms the only investigation medium for layer water movements. 2) Thus following problems can be solved: a) the connexions bet-.,.,een the boreholes and layers can be determined. b) the field of the raal velocity can be determined. c) determination of some phisical properties of the collector d) water filtration in the engineer-hvdrogeology 3) the application of tritium is especially of value f or its re- lative hartlessness in consequence of a soft P-radiation and a constant dilution under natural conditions-4) the introduction of tritium water into the borehole can be carried out simultane- ously with other investigations since the soft P-radiation does not influence the apparatus of the radioactive carottage. 5) For this purpose the working boreholes need not be stopped. There are I figure and 1 reference. ASSOCIATION: Institute for Petroleum AN USSR (Institat nefti Akademii nauk SSSR) PRESENTED; May 11, 1957, by S. I. Mironov, Academician SUBMITTED: may 7s 1957 AVAILABLE: Library of Congress Card 2/2 ggpv 5* 'F1.110 11' t5 N~  132-1-5/15 AUTHORSt Finkellahteyny Ya.B., Filonov, V.A., Soyfer, V.N., Obukhova,M.P. TITLE: Experimentation with ftftoactive Hydropn-2ritim Uotopes as 2mmars in the Stvdy of Dynudes of Oround Water (Ob opyte primeneniya radioaktivnogo izotopa vodoroda-tritiya v kachestve indikatora dlya izucheniya dinamiki podzemnykh vod) PERIODICALi Razvedka i Okhrana Nedr, 1958, # ly pp 26-35 (USSR) ABSTRAM The movement of subterranean water can be determined by using tritium, which has proved an ideal tracer under varying conditions, and is both inexpensive and safe to use. The method of "hiarking" subterranean water is of special inter- est for the crude oil industry. When injecting water into oil-bearing strata, it is important to know the flow of water within the layer to rationally exploit the deposit. Beginning in 1955, in the Laboratory No. I of the Petroleum Institute of the USSR Academy of Sciences, the authors of this article under the supervision of G.N. Flerov, F.A. Alekseyev and G.P. Gollbek, conducted experiments with radioactive tracers. Super heavy water (where hydrogen is represented Card 1/3 by its tritium modification) was chosen as the active agent.  132-1-5/15 Experimutation vith Fadloactive Hydrojpn-Tritium Isotopes as Tramrs in the ftudy of Dynoades of Gromad Water Concentrations of tritium in the "marked" water occuring below the petroleum layer did not exceed the permissable dose, which was as at 0.05 millicurie / milliliter in the water, and 5 - 10- in the atmosphere. Different methods of marking water by means of tritium were examined by the authors, mainly by using gaseous samples (acetylene, hydrogen, vapor of water)p which give clear indications with the Geiger-Mueller recorder. The method of measuring tritium in prepared samples consisted of three operationss electro- lytic concentration, decomposition of water, and measuring the gaseous samples of hydrogen inside the sensitive Geiger- Mueller device. The first experiment with layers'was conducted during Oktyabrl deposit. Injection wells was done by means of The active water which was average activity of 3 curie. Card 2/3 hours during a period of 24 tritium tracers in subterranean the summer 1956 at the second of tritium into the injection super heavy water placed in flasks. injected into the layer XV had an Tests were taken every two hours.  132-1-5/15 jVsrjmztmtUn witj% aaawtim yydrqpv-2rjtj= isotqps an Tftcers in tb.a.. ftedy or DYnudo&.of.Qr*=d Water A wide range of hydrogeological and hydrotechnical problems can be solved with the aid of tritium. At present, a serious handicap is the bulkiness of equipment. However, maesuring methods as well as apparatus can be simplified. There are 2 photographs and 3 figures. ASSOCIATIONs Petroleum Institute of the USSR Academy of Sciences (Institut nefti AN SSSR) AVAILABLEs Library of Congress Card 3/3  ALZISIM. ?.A.; SOYM, V.N.; FILONCV. V.A.; FINMISHTUN, Ta*B. Using tritium, the isotope of hydrogen, in oil field developmente Oeole neft! 2 no.12:47-52 D 158. IMIRA 12:2) 1. Inatitut geologii i ra%rabotki goryuchM iskupayaWkh AN SSR9 (Hydrogen-Isotopes) (Oil field flooding)  r- / LoNOV V. 4. '09-3-1(,/30 MIMS: Alekseyev, F. A. , Soyfer, V. N. , Filonov, V. A. Finkellshteyn, Ya. B. TITLE: Experimental Application of Tritium as a Detector oF Oily Water (Opyt i:3pollzovaniya tritiya kak indikatorn plastovy~:h vod) PERIODICAL: Atonnaya Energiya, 1958, Vol. 4, Er 3, pp. 206 - 301 (US3R) ABSTRACT: 3 ampules of I C tritium each were introduced successively into the water of the borehole. Two hours later the oily water to be investigated was taken out. At first this water was twice distilled in order to separate the nosjibly exist- ing natural radioactive salts and additions of oil. 10 - 16 al of this water were reduced to from 0,4 to 0,6 ml in a so- parately described electrolyzinf.; apparatus. The eleGtrolysis brings about a tritium concentration 7 - 10 tines as stronG. By the two following reactions H was separated fron the samples concentrated by tritium: Card 1/2 CaO+H20 = Ca(OH )2 (at room temperature)  89-7-16/30 Experimental Application of Tritium as a Detector of Oily Water Ca(OH )2 +Zn = CaZn 02 (at t about 50000 The gas samples thus obtained were filled into a counting; tube of 0,5 1 (pressure 100 - 200 mm), into which ethylene is added, at 10 - 15 mm mercury column partial pressure. The operational voltage of this counting tube is at 1500 - 1800 V and the plateau at 100 - 150 V with 3 ~o slope. After an especially careful screening tritium could be proved. Al- together in a concrete case 400 samples from 8 boreholes could be checked. From these measurements the velocity at which the water marked by tritium distributes under the earth could be computed. There are 4 figu--es, 3 references, 0 of which are Slavic. SUBMITTED: July 30, 1957 AVAILABU: Library of Congress 1. Water-Oil detection 2. Tritiun-Appl.ications Card 2/2  21(8) SOV/7-)8-7-4/13 AUTHORS: Alekseyev, F. A., Yermakov, V. I., Filonov, V. A. TITLE: Concerning the Content of Radioactive Elements Found in 'Waters of Oil Field Deposits (K voprosu o soderzhanii radioelementov v vodakh neftyanykh mestorozhdeniy) PERIODICAL: Geokhimiya, 1958, Nr 7, pp 642-649 (IISSR) ABSTRACT: The content of radium and uranium found in waters of oil field deposits was examineds radium was determined radio-chemically (Ref 3); the oontent of radon was measured by means of the electrometer Qv Yffk the amount of uranium ascertained bY luminescence. i,ne research was conducted at the Laboratoriya yadernoy geofiziki i geologii Inatituta nefti AN SSSR (Lab- oratory for Nuclear Geophysics of the Petroleum Institute AS USSR). ~:aters from wells as sell as sirface water from oil fields of Vvest Turkmenia (Tables 1-3) were examined. 6amplies ~ce of E~~a were taken from the petrol and mineral gas provin 0 (Kazakhstan) (Tables 4,5) and from oil fields in the Cis-~ Uralian region (Tables 6-8). Independent of the type of e- posit, the radium content ranges from JC-10 g,~l, seldom nder Card 1/2 10-11 . " ~7 g/l. The uranium content seldom surmounts 1.0 g/l.  S OV/7 -j 8 -7 3 Concerning the Content of Radioactive Llements Found in Waters of Oil Deposits The largest quantities of radiam are to be found in waters of the calcium chloride type. Uranium is concentrated in waters ofthe sodium bicarbonate type. Radium is found in largest amoants in the marginal zones of the oil fielid deposits. There are 8 tables and 12 references, 11 of which are Soviet. ASSOCIATION: Institut nefti AN Moskva (Petroieun insLitute of the Academy of Sciences, USSR, Moscow) SUBMITTED: July 7, 1958 Card 2/2  1W go it -4 I P, if 98 138 4 rS f -.9. t, 3 - a-, ?r - I va t. 6, -44 91 t , R U - P, 7w 1.6 We [i- 4 (V 0 A 17  FILONOV, V.A. Geochemical characteristics of underground waters in the Khanka Lowland. Sov.geol. 2 no.9:10.5-111 S '59. (14IRk 13:2) 1. Institut geologil i razrabotki goryuchikh iskopayenykh. (Khantra Lowland-Watnr, Underground)  "I-LLONOT, V.A. Rydrochemical charmoteristice of the Soyfun-Khanicay Depression. Trudy Inst, geol. i rasrab. gor. iakop. 1:341-362 160. (min i4a) (Buyfun-Khankay Bepression-Water, Underground)  GAMEMHTEYN., V.A*0 inzho; LITVINENKO,. V.G., inzh.; Prinizali uchastiyao. -ELOXPV inzh.; KSENDZUK,, F.A.., inzh.; SAMCffwVII.D., inzh.; VERBITSKIY, A.I., inzh.; YASBNIKOVV D.I., inzh.; LEYCHENKO, M.A., kand. tekhn. nauk; GRAMIN, I.K., telchni TOKARI, F.K., inzh.; ZAYTSEV, F,P,, inzh. Ma!'y g the production of cold-rolled sheets. Met. i gornorud. pr no.6:72-74 N-D 162. (MIRA 17:8)~ 1. Zavod "Zaporozhatall" (for Gamershteyn Litvinenko., Filonov., Ksendzuk., Samoylovo Verbitskiys Yashnikov~- 2. 7Sentrallnyy nauchno-isoledovateltakiy institut chernoy metallurgii im. Bardina (for Laychenko) Chamins Tokarl, Zayteev).  ~ FILONOV) V.A. Effect of the organic matter on the ohiCt of radloactive equi- librium In the waters of oil fields. Sov. gool. 7 no.6:144-146 je 164 (MIRA 18:1) 1. Institut geologicheskik-li nauk M ESSR.  FILGNOV, V.A.; BAKSHTAYEVA, I.A. Distribution of radioactive elezents in the formation waters of the Pripet fault. Dokl., AN BSSR 8 no,2:120-123 F 164, (MIRA 17.,S) 1. Institut, geologicheokikh nauk Gioudarstvannogo geologi- cheskogo komitata SSSR. Predstavleno akademikom AN BSSR G.V. Bogomolovym.  E" FILONOV, V.A.; LONDINSKAYA, K.I. Content of phenols in natural waters. Dokl. All' BSSR 8 no.io:664-666 0 164. (MIRA :L8:3) 1. Institut geologichaskikh nauk Gosudarstvennogo geologicheskogo komiteta SSSR,,  FILONOV, V,A. Uranium !~'oils of the Dnieper-Donets Lowland and Pripet trough. Dokl. AN SSSR 159 no.2055-356 N 164. (MTR-A 17:12) 1. Institut geologicheskikh nauk AN BSSR. Predstavleno akademikom N.M. Strakhovym.  FILONOT, Viktor Arturovioh -- Some featureIaIof the flight operation of jet transport planes. Grazhd. av. 12 no.7:19-22 J1 155. (min 11:6) l.Komandir reaktivnoge transportnogo samoleta. (Jet transports)  AUTHOR: TITM: PERIODICAL: ABSTRACT: Filonovs V., Pilot, let Class 84-12-27/49 Card 1/2 Winter Flying the Tu-104 (Polety na Tu-104 v zimnikh usloviyakh) Grazhdanskaya aviate1yas 1957,,'Nr 12j pp 15-17 (USSR) The author, one of the foremost jet airliner pilots reports on his experiences in winter flying. The first and basic condition for un- interrupted service is freedom of runways from snow or ice under any circumstances.- A separate runway for jet aircraft is suggested, so that there will be enought time between landings to do the clearing work. He refers to difficult working conditims of maintenar-e in intermediate airports when the weather Is colds but insists. -never- theless on the quality of work. The author objects to the method of removing Ice crust from the airfram by washing it away with hot water, Uhich can get into the engine compressors. He also requests that the weather service report the type of clouds, their lover and upper Limits, the probability of icing, air temperatures up to 10 -3.1 km. at the airport at departure as vell as within a radius of 250-300 km along the route and the weather conditions at the destination for the time of landing. The utilization of information from airliners in flight is urged, to  Winter Flying the Ta-104 84-:L2-27/49 insure a correct forecast for at least 3-4 hours. The distribution of bulletins should be extended to the airfield and the maintenance services. Parther.. the utilization of radio and redio-navigational, facilities is considered a vital factor In achieving regularity and safety. Their use is rec nA d under all circumstances for the purpose of training. The traffic control agencies are criticized for their in ility to cope allquately with the high-sp"d, heavy jet aircraft. The author also discusses errors made by other pilots in handIJng the Ta-104 under various circumstances. Finally, the use of the de-icing system is discussed, the main requirement being that it be switched on before ice forms. AVAIIABIE: TAbrary of Congress Card 2/2  sov/84-58-io-io/54 AUTHOR: Filonov, V. F V ~ilon~ov, ImDortarlt Tasks M T . Important Tasks (Vazhnyye zadachi) PMUODICAL: Grazhdariskava asiriatsiya, 1958, Nr 10, P 7 (USSR) ABSTRACT: The aul-hor atebes that the volume of traffic on the Tu-104, opened in 2.958, is 8teadily growing in his unit. Air routes now connect Mos-ow with Tirana, Kopenhagen, Brussels, Amsterdam, Paris, DaIW,, and Ca-Ira. Dozens of crews were added to the service in the past two years. In the past few days regular runs started or. the three and a half thousand km Moscow Alma-Ata route. There is one phlot-ograph of the Tu-io4 plane. Card 1/1  -FIIA)HOV, V.M. Simplest type of explosives. Put' J put.khoz. 4 no-9:39 5 160. (MIRA 13:9) 1. Nachallnik otdola burovzryvnykh rabot tresta Mostoramtounalto (Agplosives)  FILONOV V.M. Use of microcharges for bleating in quarries. Put' i put. khoz. 8 no.7s26 164. (MM 17310) 1. Nachallnik otdela, Goaudarstvennogo institute. po goaagicheskim izyskaniyam i proyektirovaniyu shchebenochnykh zavodoV i karlyerov Gosudarstvennogo proizvodstvennogo komitsta po transportnomu stroitelletvu SSSR.  AUTHOR: Pilonoy V 48-1-20120 TITLE: Industrial 9peabimsof Detector s for Thermal and rast Neutrons (Prorwrsh1cnnyye obraztsy detektorov teplovykh i bystrykh 0 neytronov). P~;RXDICA,L: Izvestiya jU1 SSSR Soriya Fizicheakaya, 1958, Vol. 22, Nr 1, PP. 94-96 (USSR). Receivedt Uarch 6, 1956 ABOTIULCT: The detectors described here were produced for industry- samples of dosimeters of thermal and fast neutrons of the type PH-3 and PH-4. The best detector for fast neutrons is the de- tector described in publications under the name of "Tabletka Gornyaka" (reference 1). It possesses a sufficiently high re- cording-efficacy of fast neutrons in the ener range of 0, 5 V* 14 KeV on a r-backgr)und to 250,41r sec According to reference 1 this eff-'2=cy oaounts tof.,l~"'b for the energy of 4 MeV. The efficiencj changes at various neutron-energies in such a manner that, to a certain degree, it reproduces the course of the doBe-3urve. The impulses produced under the in- fluence of t-radia.ion are according to amplitude, smaller by Card 1/3 one order of ma&--nitude than the impulses of the neutrons.  Industrial qpmi if Detectors for Thermal and Fast Neutrons. 48-1-20/20 This makes it posuible to realize a reliable dicrimination of L"-.,q I":-baokground. The efficacy of the recording of neutrons correspondingly also decreases. The detector has no directiv- ity: a modification of the an&le of incidence of neutrons changes the efficacy of recording (�51%). The te-niperature- -testing of this detector with the photoelectron-multiplier ~)Y-19 showed that with a ri-e of temperature by 1~ in the temperature range of 10 COO counting decreases by 0,6~. In this connection the amplitude of the radiation-impulses de- creases, whereas the noise-amplitude increases. The investi- 6ations showed that every resistance of the divisor may in the photoelectron-multiplier 13Y-19 not be taken larger than 5 megaolim. An inirease in the resistance in large Pfields (^.1250Atr sec- ) leads to a strong redistribution of the potent- ials at the last dynodes. But this makes special demands on the power of the feed source of the photomultiplier. The use of a divisor with a resistance of 5 megaolim in connection with a voltage that guarantees the maximum ratio signal/noiqe restricts the error to +Y/..The scattering of the efficacy of the detector does not exceed tlOla. The thermal neutron de- Card 2/3 tector fiffers from the abov~_-described one by the presence  Industrial Slmcirmnsl)f Detectors for Thermal and Faut ifeuti-ons. 40-1-20120 of boron anhydride in the former. In the first case the heavy ionizing particle-is produced due to an inelastic collision, in the second case due to an inelastic one. There- fore the detectors are very similar according to their para- meters and can be exchanged in devices without adf;itional ad- justment. The deficiency in the detector for thermal neutrons is the counting of fast neutrons. But in measurements of the maximum permissible flow of thermal neutrons on the background of a maximum permissible flow the counting of the fast neu- trons amounts to loss than 4o. There are 6 figures, 1 table, and 1 reference, 1 of which is Slavic. AVAILIBIX Library of Congress 1. Neutron counters 2. Radiation counters 3. Dosimeters Card 3/3  S/578/61/000/002/002/002 cy, 5-0 E032/E514 AUTHORS,! Filonav., V,S: and Selldyakov, Yu,,P, TITLE~ A detector for intermediate-energy neutrons PERIODICAL: Zhernov, V.S. and Shirshov, D.P., eds. Uzly novoy apparatury dlya issledovaniya yadernykh izlucheniy; nauchno-tekhnicheskiy sbornik. no.2. Moscow, Gosatomizdat, 1961, PP-107-110 TEXT.- The authors have used a perspex phosphor (3.7 cm thick, 8 cm in diameter, mounted on a %3y-.Jt~ (FEU-24) photo- multiplier). The phosphor contained 5 g of a substance referred to as T-1 per 240 g of perspex. The T-1 is said to have been developed by T. V. Timofeyeva and S. P. Khormushko (Ref.l: Izv. AN SSSR, seriya fiz., 22, No.1, 14-20, 1958; Ref.2a Atomnaya energiya, 3, No-3, 19581 and is being manufactured by the "Red Chemist" factory. Fig.1 shows the efficiency of the detector as a function of the neutron energy (eV). It was found that by . 6o discriminating against a y-ray background of 1000 lir/sec (Co y-rays) the efficiency was reduced by a factor of 4-5. A change in the energy of the y-rays did not have a great effect on the Card 1/2  A detector for intermediate ... S/578/61/000/002/002/002 E032/E514 neutron counting rate. Fig-3 shows the neutron efficiency as a function of the energy of the y-rays which were discriminated against. Acknowledgments are expressed to -,L. V. Timofeyeva for advice on the phosphor, S. N. Baykalov. M. V. Blinov. A.I. Seryakov and A. S. Solov'vev for carrying out some of the measurements, V. V. Matveyev and M. N. Pchellnikov for assistanc: in this work and to N. N. Prikhodchenko for developing the detectors. There are 3 figures and 4 Soviet references. E.1"i .-*~ I-01 I I= 4 d E 0 Os to Is 2.0 to &14 F, MW V--/ Card 2/2 Fig.1 Fig-3  PHASE I BOOK EXPLOITATION SOV/6058 Polikarpov, V. I., V. S. Filonov, 0. V. Chubakov~L, and N. N. Yuzvuk. Kontroll germetichnosti teplovydelyayushchikh elementov (Monitoring the Hermiticity of Fuel Elements). Moscow, Gosatomizdat, 1962. 186 p. Errata slip insetted. 2500 copies printed. Ed.: Ye. I. Panasenkova; Tech. Ed.: Ye. 1. Mazell. PURPOSE: This book is intended for engineers and technicians specializing in the design and operation of reactors and of ~ systems for monitoring the her- meticity of fuel-element jackets. COVERAGE- The principles of designing systems for monitoring the hermeticity of fuel-element jackets are presented. Particular attention is given to the physical and chemical phenomena affecting system sensitivity and efficiency. Card 1/0  Monitoring the Herm.6tibity (Cont. SOV/6058 The existing or projected non-Soviet systems are surveyed. Formulas and tabulated reference dat2Ufor the dedigner's use are included. There are 135 references: 90 Soviet (including 25 translations), 42 English, 2 French, and 1 German. TABLE OF CONTENTS [Abridged]: Introduction 3 Ch. L Destructive Processes in Fuel Elements 5 1. Fuel elements 5 2. Causes of hermeticity failure in fuel-element jackets 6 3. Development of defects in fuel-element jackets 10 4. Estimating the release of fission-fragment products from a damaged fuel element 12 5. Concentration of fission-fragment products in the coolant 25 6. Determining the sz..ititivity of syptems for monitoring the hermeticity of jackets 28 Card 214 "'L7  22(1~ SGV11Vt_'- 59- 3- 22/53 AUTHOR: Filonov V.V. TITLE: ModiA of an"'Artificial Earth Satellite PERIODICAL: Fizika v shkole, 1959, Nr 3, p 74 (USSR) ABSTRACT; The author describes a model intended to be used in school for illust:bating an artificiall satellite or- bit. The model consists of 4 globe with vertical axle and a device which marks a satellite orbit with chalk. When the model is operated, the graph marked by the device represents the function of the rotary mo- tion of the earth and Hie revolutions of the satellite. There is 1 diagram. ASSOCIATION: MIalopereshchepinskaya srednyaya shkola, Poltavskaya ' l, Poltava Oblast' (Malazm Pareshchopim Secondary Schoo Oblast Card 1/1  L-1260-66-.- ACCESSION MR., AP5024392 UR/0286/65/000/015/0073/0M 1000V AUTHOR: ArRhipov, V. V. Lj I 4 U0 A.; Nechayeva, L. A.; Khrushchev V* G,; Y W Perminov, T.,A.-, Shevyre .01 T~ov, 1. S.; Belyayev, A. S.; Nozdrachev,,A. I.; Yevglevskiy, A. A. TITLE: A ma-thod,for manufacturing tuberculin. Class 300 No. 173381 SOURCE: 'Byulleten' izobreteniy i tovarnykh znakov, no. 15, 1965, 73 TOPIC TAGS: tuberculosis, immunology, allergen ABSTRACTt This :Author's Certificate introduces a method for manufacturing tuber-.-- culin.' The method consists of growifig a tubercular culture on a nutrient medium, ' removal of the bacterial matter and filtration. An active and specific allergen Is produced and labor-consuaLng operations am reduced by exposing the culture to C060 Y-radiation. ASSOCIATION,. none SUBMITTEDt -IIJUU64. ~.ZNCL: 00 SUB CODE! LS No RE r 60vt OTHER.' 000 C6 d r  KROSS, A.(Cross, A.D.]; FENTIN, Yu.A.,, kand. khim. nauk [translator]; FILONOVA, A.D., red.; KHCV.YAKOV, A.D., tekhn. red. (Introduction to practical infrared spectroscopy] Vvedenie v I prakticheskuiu Infrakrasnuiu spektroskopiiu. Moskva, Izd-vo inostr. lit-ry, 1961. 109 P. (MIRA 15:1) (Spectrum, Infrared)  24020 '-j,3 --5/ 3 0 8 /3490 DIOI/ IB2 16 77 =~o L, I., Knboz~--v, N. j., and 11 T r i. n r,C %-I r7 i n r? during diz9ociation o f In qn Ar-. ii~!charge r! ai i piiifrill tr. 59), no. 5~ 1960, 1026-1030 a 1 o ~~r hydvpiz in- ~-- wr,i lriw to Rjisci~*,g -Le t,-o 11 ory Lit 1, 1 orj'~3 -'L 11-i mwo ~-? corcentrFited h it r tr. c, i v r4 u, p I~n r t 1- 6 is., N,rge v6-is stud i9d. ellllmilvea t,y S('A-'.rtlSt3 Arid ii, r n r3,,-r , -(1 1),,, -m, tird --~-ort .~n tl-l r r,,v;n exper-i - ;r rf h;dra-, i n,~ f, r%,:A tj F') r ~' b i u n He f . I (zh f k" i M,l i ,51 !Iie nnter d 41 t bv 1j", 0?.t-r-A a V-nwpl idli-h-rge 1- Thp  24020 S;'076 '61 !0`,`00r,"CO3 /008 Co 1%, of the i (,it r~f' diir,.rey. P I OI/B2 18 r t, i e. r f, tr-~i - f F~ t AiI - s s s t v o r-~ of IrtfY wl,ich varied ..!0 nm q f1cw of NF 3 I re IT. 'rF d q,-hsri-e c-.urrent a ~lt:ve, t~r t,-^ -n ~ The kvdrA2,re if~! ermi- trt-)-cft I rrimt tr it:. ri Uy mc-ne of p-di met t, ;I d tir- ";v "I-I, I i z I I j4,t, vL~A ch d A not n(%' i e i e -it ,,;r cX the, v,, o s!,, a nulhicrs fr~--;nd a it M.~Ixm yw t ol, N,11 .11ru tar, 14t d i I q ryv~ it tC'I i f, Tn r~rder nsltiblish --i I w% on the basia of th- r i m -m, t it Ii:ia t h o k n t h or , tv, k upAr az~. -i pirqm-ter (u ds U,,c- dIach-z-r,-f,,*ir-qj v der,,-te~, tI-e rWli~ of fIc-- of the gas, 1/hr; gain presnure mt Oip Inrut cO the Ji,.~Lharge tube. m1r. Fg), Fig. I dimArcim of cf N-ri ,is q e)f up~' v ; Fij- 2 showc the Y lo%-uragf-*A in of tit s-!,-ie~,iated Md a& a f~zn^tj-~r nf Ii- - ,)it? in-!x im"'m vi'I'Di ref~-rr-M to dissec-tated ard 0.1~ % 0 n 1, it  S /C~)06 1 1035/00 5/'C 03/00 P, Study of t),e formatior, of hydrazine durlm7... B101,/B218 refer,~E,,! L,) Lhe tcittA am-ount ef NIT 3 passed through the an--)aratus. Experi- mentc~ ;-~ -.90 -19')'~C ihowed that the Yield of N',H 4 Ices not depend on temp-r.-- t,)vo 'it i9 that the f-~rmatinr, of hydrazine rr,~ieeds accor-Png to 1hp eqi~at,.on ITF 2 f NH2 + M --) N9 H M (5), where m is a part i cis oausi,l.,j, recombinkti,'n. Dts5ociatlon of N. F proceeds accordire, to the 2 4 Pouai,2"rS Ht, (6) and IT H +H ~P NIT ~ VrH (7), Thus, 2"A 4 2 2 4 2 3 the v~-Id c-f K-F 'ler-nd~- nn se,?eral factors vinich t-ogell-o?r: 1) -n 019 1 4 ,.onot~ntrat-ion of TTH 2 radicals, which ig inversel-v to the Jls~-~,(:Jation or NIT,; 2) on the concent-ation of atomic h.,,Aropron. which is dir-ecIlly proportionaL to the dls,3oolatt-~n of NK:o 3) or fhe ttme f~.,-r --v~lch the par, remaimi 'in the discharge fube, The shortar 1.bli?i neriod, the less m degr-e 3 -'O"iati~,n LO the iissociation of N 2H 4' A maxi mi. :, f ITR liku - -orresponds to EL aiinimlim coroentration cf UH, rafl.cali and to a rmiximum -oncentration of atomic hydrogen, Th,Acl, th-~ yieH of h-,-drazl.ne r,!Pclies a 1/6 M -W L- RR M W  24020 ', 08 C-76/61/035/005`003/0 S 7itudy of the formatj~..n ,;f h.,fdrazirje 4uring... B'1 01.471 '1 Pinimum with maximum di~,,w,,clarior. of NH 3 S. S. Va,,-.i 1 Ye . N. Yeremin al-e mentioned. There sre, f1gures and 14 ref-rences: 1; Soviet-bloc and 11 non-Saviet-bloc- Tha, mo9t ir-ortan! rel~nrence~- '.o rublications re,3d as J. C_ Delrins, B. Miltr.n. T. 1,7nr. Cher.. Soc., 2618, 1954; G. W. RrAAnzon. 11. J. MrOarty, J. M:,~-,. Phys., 30, 9~9, !9qg; K. Ouchi, J. EIrt,.,-,:r-,-hem, S~:(-_ Jacan. 20, 387.. 116:1 1 -4 ud ars tve.,-,r t - n yy univercitf~ 1'. V. Lomonosova 3SOCI AT ION. Moskovskiv gn. - t (Moscow StRte University imeni M. V. -77 VB III TTED July 3, 1959 416  MAYRAMSKITYp Ki-netiz- surfaca vavts of 5--kA-2-iastylthi-aphena iv- vatmr-mithanvl solutions. 1 3 165, (ram 1s-.10) 1, lustitut orpniahaske khAn-4i lmen!~. N.D. 7elimkogo AN SSSR i Izwtitut ellvkt~-AhLmli JR SSSR.  FILONOVA L Shorter working. daY. Neftianik 5 no.3:1-2 Mr 160. (MIRk 11,~,:q) 1. Nachallnik ORKTIM-Upravleniya neftedobyvayushchey i gazovoy promyshlennosti Checheno-Inguahskoy ASSR. (Hours of labor) (Wagep)  11(0) PHASE I BOOK EXPLOITATION sov/1265 Kamyshev, Sevastlyan Filippovich, Galikhin, Viktor Dwitriyevich, Larin Vasiliy Illich, Mikhaylov, Leonid Leonidovich, Filonova, Lidiya Ivanovna, Yasnits, Mikhail Grigorlyevich, and Kvochkin, fe-ddr-Al5r-anovich Groznenskaya neftyanaya promyshlennost' (The CkoaW Petroleum Industry) Moscow, Gostoptekhizdat, 1957. 57 P. 1,500 copies printed. Executive Ed.: Lozbyakova, Ye. S.; Tech. Ed.: Polosina, A.S. PMU3M: The book is intended for engineers, technicians and workers in the petroleum industry. COVERAGE: The status of the Groznyy petroleum industry before the Revolution and the achievements in the recovery and refining of petroleum during the 40 years after the Revolution are discussed. New oil fields, petroleum installations and modern techniques and procedures introduced in the Groznyy petroleum indus- try are described. No facilities are mentioned. No references are given. C ard 113  11(0) SOV/1265 The G~oznyy Petroleum Industry TAME OF CONTENTS: Page Ch. 1. Development of the Groznyy Petroleum Industry from the Time of Its Nationalization up to the Time of the Implemen- tation of the Sixth Five Year Plan 3 Groznyy petroleum industry before its nationalization Groznyy petroleum industry during the first years after its nationalization 3 The first five-year plans 8 The Great Patriotic War and the period of reconstruction of the national economy 3-1 The post-war period 14 Ch. II. Present Status and Prospects of Development of the Groznyy Petroleum Industry 19 Ch. III. Development of Geological Prospecting in the Groznyy Petroleum Industry 25 Cara 2/3  ll(O) The Groznyy Petroleum Industry BOV11265 Ch. IV. Development of Techniques of Oil Well Drilling Technology, in the Groznyy Oilfields 32 Oil well drilling 32 Construction of derricks 33 Oil we3_1 structure 34 Drilling conditionsiturbodrills and rock bits 35 Directional turbodrilling 37 Mechanization of the labor-consuming operations 41 Drilling an& power equipment 42 Cementin# wells 42 Testing wells 43 Ch. V. Development of Technology and Techniques in the Groznyy Oilfields 45 Ch. VI. Development of Techniques and Refining Technology, in the Groznyy Petroleum Industry 53 Conclusion 58 AVAIIAM: Library of Congress card 3/3 Tx/mas 3-19-59  SHVETS, V.I.; VOLKOVA, L.V.; VASILIYEVA, V.V.; FILONOVA, L.M.; PRKOBRAZI]ENSKIY, N.A. Upides. Part 18: Synthesis of mixed unsaturatedc