SCIENTIFIC ABSTRACT SHEYNKMAN, M.K. - SHEYNMAN, V.A.

 L 20326-66 aTc(f)1EPF(n)-21EWG(m)1T1W(t) DPW RM !JDIWd ACC NR: AP5022470 SOURCE CODE: GE/0030/65/611/001/0429/0441 AUTHOR: Lashkarev, V. Ye.; Sheynkman, M. K. ORG: Institute of SemiConductors. Academy of Sciences of the Ukrainian SSR, Kiev TITLE; DeSermir~ationSo~ the parameters of sensitizing recombination centers inl-CdS %nd Cd e lingle crystals by _temperature and optical. _quenching of ZI _photocurrents SOURCE: Physics status solidi, v. 11, no. 1, 1965, 429-441 TOPIC TAGS: photocouductor, single crystal, parameter, electron capture, electron hole ABSTRACTs New stationary and kinetic methods are proposed for de- termining the parameters of sensitizing recombination r-centers in ~7_ high resistivity monopolar photocauductors. These methods are based on thermal and optical quenching of the photocurrent. They enable all the parameters of r-centers in CdS, CdSe, and partially Card 1/2  L 20396-66 ACC NR: AP5022470 Cd(S, Se) to be determined. These parameters include the concentra- tion and energy centers, and their cross sections for electron and hole capture. The method also gives the cross sections for absorption and photons with energies of 0.9 and 1.4 eV, these photons trans- ferring a hole from an r-center to an excited level, and to the valence band, respectively. The occupation of r-centers by holes under weak illumination and the probabilities of hole capture by r- and s-centers can be obtained. The experiments for determining the parameters of r-centers were carkied out and discussed by the authors! together with their collaborators Lubtchenko, A. V. (CdS) and Gorodetsky, I. Ya. and Yermolovich, I. B. (CdSe). The authors wi sh to thank them greatly. -Urig. art. 15-as: 5 figures,-,19 formulas and 1 table. [Based on author's abstract] SUB CODE: 20/ SUBH DATE: 05Jul65/ SOV REF: 006/ OTH REF: 013/ Card 2/2 - - - ---------------------  _QQ= _7"IrMIZORK W_*" UjT(M)/T/&ip(t) JJF(c) JD L 18764-M ~!,-ACC NR: AP6003775 SOURCE CODE: UR/0181/66/008/001/0134/0141 ]AUTHORS: -1uhlyanchikova, N. B.; __Pheynkman, M. K. ORG:. stitute-gf Semiconductors, AN UkrSSR, Kiev (Institut poluprovodnikov AN UkrSSR) TITLE: Low frequency noise of the photocurrent in s.ingle crystal ,I cadmium sulfide .SOURCE:! Fizika tverdogo tela, v. 8, no. 1, 1966, 134-141 TOPIC TAGS: photocurrent, cadmium sulfide, single crystal, photo- resistor, signal to noise ratio ABSTRACT; This is-a continuation of earlier work-by the-authors on the low frequency pbotocurrent noise of CdS, (F'�T v. 4, 1213, 1962),, where it was shown that the resistance fluctuations of this material have a high spectral density (AN )IN at sufficiently low temperatures, 4 reaching values of 10 and more. Since the earlier investigations were confined to homogeneous semiconductors, 'the authqrs investigate rd -Ca V2  'lag L 18764-66 ACC NR: Ap6oo3775 the magnitude and spectrum of the noise and the pbotoresponse spectra in single-crystal CdS containing inbomogeneities at frequencies I 4000 cps. A simultaneous study was made of the distribution of the optical resistance and the relaxation times of the photocurrent along the samples. In some samples the inhomogeneities of resistance were introduced artificially. The photosensitive CdS single crystals were ,produced by several methods, and were illuminated weakly with light of wavelength -520 or ~,630 nm from which the infrared component was cut out. Most measurements were made at room temperature and in air,-,', although some were made in vacuum and at other temperatures. The spectral-measurement apparatus was described elsewhere (UFZb v. 10, 27, 1965). The results show that the resistance and relaxation-time inhomogeneities of the pbotocurrent greatly influence the form of the spectrum and the spectral distribution. The noise spectrum exhibits characteristic peaks which are due to the presence of a narrow high- resistance region near one of the electrodes, and such an inbomogene- ity leads to bigh values of (AN2)IN >> 1. There is no clear-cut ex- planation of these peaks as yet. The authors thank V.-Ye. Lgshk=e-Y, J.. for interest in the work and a discussion. Orig. art. has,: 5 figures., 4 formulas, and 1 table. SUB CODE: 20/ SUBM DATE: -05jul65/ ORIG REP: 015/ OTH REF: 020 Card 212,~~e-  -7 /1-:P-- ( n) 2459 /1048---- ACC NRs AP601 SOURCE CODE: UR/0181/66/008/ 0 r1040 AUTHOR: Galushka, A. P.; Yermolovich, _L.- B.; Korsunskaya, N. Ye.; Konozenko, I. D.; ~heynj on, M. K. 0)(G:- Inntltuta of Physics, AN UkrSSR (Institut fiziki AN UkrSSR); I n R t L tu t e n f Sem Lcondu c tors AN U k r55 R, K ie v (I n a ti tu tf po lu provodn ikov. A14 UkrSSR) TITLE- Effec,t of_gam a-ray and fast-neutron Irradiation an electro- Physical propi_rCf~s of ~ single crystals SOURCE: Fizika tverdog6 tela, v. 8, no. 4, 1966, 1040-1048 TOPIC TAGS: Irradiation, gamma irradiation, neutron irradiation, irradiation effect, irradiation damage ABSTRAM An investigation was made of thq effect of nuclear-radiation an some properties of CdS single crystals grown by the zone sublimation method and not subjected to alloying. To measure Hall effect, speci- mens shaped as a parallelepiped (15 x 4 x 1 mm) were used; for other investigations, specimens 4 x 3 x 1 mm were used. The neutron irradia- tion was carried out in a VVR-11-type reactor at a temperature 'below 70C. Tho.gamma-ray.irradLation was ca'rried out in a cobalt installs- tion at a temperature below 20C. To determine the 'character of the Card 1/ 2 A  ACC NR, AP6012459 defects appearing in CdS single crystals due to neutron and gamma-ray irradiation, the following crystal characteristics were investigated before and after irradiation: dark resistance, photosensitivity to white light, spectral distribution of photoconductivity, spectra of infrared quenching, Hall mobility of majority current carriers and Its dependence on temperature, concentration and depth of occurrence of capture levels, characteristics of recombination centers, and lumi- nescence spectra at 300 and 77K. Hobility and spectral distribution of photoconductivity were measured in a cryostat at a vacuum of the order of 10-4 mm Hg. All other characteristics were measured in Ithe, air. It was found that gamma-irradiation primarily creates acceptor- type defects. In CdS. the simplest acceptors can be Cd vacancies or S atoms in interstices. Neutron irradiation creates donor-type defects. The simplest donors can be either Cd atoms in interstices or S vacancies. In addition, the products of nuclear transformations can also be donors. Orig. art. haso 6 figures and 2 tables.- - [JAI SUB CODE: 20/ SUBM DATEt 09Aug65/ OR.IG REF3 008/ OTH REF: 019 ATD PRESS:4/13L Card 2/2  L18883-66 EWT (1 )/EWT (m)/E..7C r/~vip(t) ijp(c) ow/Go/iD _Q /EWG(m)j ACC NR.- AF6M8o3 am= coDr... mVoi85/66/on/ooA/o22 1AUTHOR- lAshkarloy -Y, Xe JL Sheyhkmanp M. Ks; Lyubehenko, 0. V.; Gorodets IV47P Ya..; Yermol2yZcb, 1. B. 71, OPG -Inntit-Ute of Semiconductors AN Ulu-SSR Kiev (Instytut napi-,rprovidwjki-v All URSR) TITLE: Determination of the parameters of "sensitizing" recombination centers in jCdS and CdSe single c stals Is &6E: Ukrayins'kyy fizycbnyy zhurnal, v. 11, no. 2, 1966,, 221-224 TOPIC TAGS: color center, cadmium sulfide,, cadmium nelenide, single crygtalo elec-1 tron recombination, capture cross sectiong valence band, Ir light r: ABSTRACT: Continuing earlier investigations of the kinetics of relaxation of photo..i'-,~ current in CdS and CdSe single crystals (FM' v- 7j# 1717P 1965 and earlier papers),, ,the authors consider in this paper new stationary and kinetic methods of determin- jing hitherto undetermined parameters (the capture coefficient (Cr) of holes by type, 11 centers, and their energy levels (Evr) reckoned from the top of the valence band), as well as new methods of determining the cross section for the capture o f la quenching infrared photon. The new methods are based on the use of stationUT-.. Card 1/2  L 18883-66 "ACC VR: Ap6o07803 iexciting illumination in conjunction with pulses of exciting or'quenching ir light.' The theory underlying the methods is'briefly described. The methods w2re tested on selected high-resistance undoped CdS and CdSe single crystals. The teats showed' the resence in CdS of two types of recombination centers., with C X 10-11:34 p r celsec and E., - 1.0 ev for the first., and C. - (2--3) X 10-12 C;P/see and Evr 1.18 ev for the second. Teats made by three different methods gave nearli iden- tical results. Orig. art. has: 2 figures, 5 formulae, and 1 table. 1021'~ ;SUB CODE: 20/ suBm DA-LE: olo-ct65/ PRIG M t 005/-- '0TH MW: .062'. ATD PRESS: q 1 Card 2/2.  MRM-C. V&BU92AkzM til V EWT(j. .T/EWA(h) IJP(c) AT 'L 26588-66 i ACC NR: A:p6ol-i4"3'~-------'--"~6~ACE---CODE: iiR/66~~/6 11~ 65 1AUTHORS: Sheynkman, M. K.; Tivubcbenko, A. V. i0mu: institute of Semiconductors, Ac,adeniv of Sciences,UkrSSR I(Insti poluprovodnikov Akademii nauk UkrSSH) TITLE., Two parallel mechanisms for the capture of carriers by one recombination center SOURCE: AN SSSR. Doklddy, v. 167-, no. 4, 1966, 795-798 TOPIC TAGS: semiconductor capture, ir phenomenon, capture cross section, color center, recombination luminescence, transition- probability 1 ABSTRACT: The authors report that they have observed in CdS, for the Ifirst time, recombination which procdeds'via several channels through.LL~, one type of center, and specifically that hble cabture by the r-centar lean occur in parallel by two channels -- via a definite excited state-,"' iand by bypassing this state. This was observed by investigating the !kinetics, of infrared quen ocedure described earlier gbipg_by a pr FTT _a1R.3l ~+,537.5 . 2-6'. L-Car d __1/2 UDC.  L 26588-66 ACC NR: AP6011430 Iv. 7, 1717, 1965; DAN v. 161, 1310, :L965), illuminating the CdS crystals with weak absorbed light on which short infrared pulses at both extinction maxima (1.4 and 0.9 ev) were superimposed. By measuring the frequencies corresponding to the two transitions and by measuring directly the fraction of the released holes as a function Of the temperature, it becomes possible to determine the ratio of the- the 1probabilities of the two processes and the excitation energy of lexcitation level. The results can be reconciled,w1th theoretical calculations only by assuming the presence of the two simultaneous Capture mechanisms. It is pointed out that this demonstrated possi- bility of simultaneously realizing two different carrier capture Mechanisms by the center should be taken Into account both during the interpretation of the recombination and luminescence processes on impurity centers in semiconductors, as well as in the study of the properties of different F and V centers in alkali balide crystals. The authors thank Academician of*AN UkrSSR V. Ye. Lasbkarev and Docto !of Physical Mathematical Sciences.E. 1. Ra for interest In the V., 1work and discussion. This report was.presenteiLby-Academician A.'. A 7 .lShubnikov on 21-july l965._,,OrIg-2art. has: .2- figures, -and T,forui~iad -OTR F:, !SUB CODE: 20/ - SUBM DATE:_, 19JU:L85/---6 )04/ 77M,  ACC NRt AP6036785 SOURCE CODE: tRi/0,63/66/002/011/1 8/ - 94 1952 AU7;!CR: Korsunskaya, N. Ye.; labodeva, N. N.; 11irzoyov, B. R.; Shoynla,-,an, X. K. ORG: Institute for Semiconductors AN SSSR (Institut poluprovodnikov 'N' SSsi); Azerbaidzhan State University im. S. M. Kirov (Azerbaydzhanskiy gosudarstvennyy ~universitot) NITIS: Production and semiconducting properties of single crysta Ir 1 of 14S5 'SOURCE: AN SSSR. Izvestiya. Neorganicheskiye materialy, v. 2, no. 11, 1966, :1948-1952 ;TOPIC TAGS: semiconductor single crystal, indium compound, sulfide IL43STRACT: The In4S used in2the experiments was synthesized in a quartz ampoule ,evacuated to 0.133 gawtons/m , in a horizontal tubular furnace whose temperature was automatically regulated with a EPP-09 instrument. Visual observations and 6 tharmogra76hic recordings show that at a temperature of 6000there is a rapid exothermicl ;reaction between indium, and sulfur with the formation of a solid reaction product. The emperature is then raised to 10000C, at which temperature there already exists an !alloy of the composition I%S and then reduced at a rate of 70-800/hour to a ,f.emperature a&' 7700C, at whleg'temperature the reaction takes place. At this itemperature, the reaction lasts for 5-6 hours. The temperature is then reduced from Card UDC: 1221-537.311.  4- ACC NR, AP6036783 7700 to 7000C at a rate of 100/hour. The product is a porous ingot of a dark gray color. Single crystals of -Tn4S were grown from the ingot by the mothod of zone melting. 'I)ie product single c tals were found to have a monoclinic crystal system, and lattice constants agreeis g with previous data. The final experimental samples had dimensions of 4 x 2 x 0-3 mm: . Detailed studies were made of the electric and photoelectric properties of these monocrystalline plates. Determinations were made of the width of the forbidden band, and of the energy of the acceptor levels. The mobility of the basic carriers was determined. It was concluded from Vne data that have considerable photosensitivity over a wide spectral range at crystals of In4S5 reduced temperatures. Orig. art. hast 6 figures and 2 tables. SUB CODEs ZO/ SUBM DATE:. 03Feb66/ ORIG REF: 0031 OTH REF: 010 Card 2  ACC NR, AP6033562 SOURCE CODE: u-.R/ol8l/6u'/CC)O,/010/3004/3009 AUTHOR: Lukyanchikova, N. B.; Sheynkman, 14. K. ORG: institute of Semiconductors, AN U]krSSR, Kiev (Institut poluprovoLnikov AN Ue=SSR) TITLE: Yhotocurrent noise and superlinearity of lux-ampere characteristics in CdS and CdSe single crystals SOURCE: Fizika tvcrdogo tela, v. 8, no. 10, 1966, 3004-3009 TOPIC MGS: correlated noise, photoconductivity, optic property, internal photoeffect, 'optic center, cadmium sulfide, cadmium selenide ABSTRACT: This is a continuation of earlier work (m v. 4, 1213, 1962) where it was shown theoretically that 'the photocurrent noise can reach a large level in photocon- ductors wish non-constant quantum yield of the internal photoeffects, which depend on the filling of the adhesion levels. The present paper is devoted to a theoretical and experimental investigation of the connection between this noise, as represented by the quantity An2/n (n - photocarrier density, An 2 _ its dispersion) and the super- linearity of the lux-ampere characteristics of the currerru., as represented by a para- meter m, in single crystals of CdS and CdSe. The single crystals used in the investi- ~gation were described in an earlier paper (Ui-lh v-. 10, 27, 1965) - The measuremen7ts L were made at 300K in air (CaS) and at 120 and 30OK in vacuum (CdSe). Tne.theory is applied to the usual photoconductor scheme, which calls for the presence of two types of recombination centers and adhesion centers, and described in detail by the authors. Card 1/2  ACC NR: i AP6033562 1/n were measure(i else-where (FT"T v. 7, 1717, 1955 and elsewhere). In addition, a and An- :in the same sapples for identical values of n; a was varied with the aid of additional~ I !infrared quenching illumination or by temperature quenching of the photocurre&t. Me A ,result,s have established that when m > 1 and 6n2/n > 1, 6n2/n first increases in pro- f J portion to cr, but eventually this dependence can become nonmonotonic. The experimenta ;results were in qualitative agreement with the theory. Me authors thank V. Ye. iTashkarev for discussion of the work. Orig. art. has: 6 figures and 5 formulas. CODE: 20/ sum DATz-.. o2ApA6/ oRiG REF: oo6/ om REF: ol2 Card 2/2  ACC NRt AP6036956 A, /V SOURCE COM UR/0161166/008/011/3196h2oo AUTHORt Korsunskayal N. Ye.; lebedeva, N. N.; Sheynkmang M...,K. ORGI Institute of Semiconductoraq AN UkrSSRp Kiev (Institut poluprovodnikov AN UkrSSR) TITIE: Iow-tomperature photochemical reactions in In4S5 single crystals SOURCE: Fizika tvardogo telap v. 8, no. it., 1966, 3196-32oo TOPIC TAGSi indium compound, sulfidep photachemistr7l photoelectric property ABSTRACT: The electric and photoelectric properties of In4S single crystals were investigated. At low temperaturesp a strong dependence of ~L photoelectric proper- ties on the conditions of cooling and illumination of the samples was observed. This is shown to be due to the photochemical formation of new types of trapping centers (t-centers) and sensitizing recombination centers (r-centers), as in the case of Odso which was studied earlier. The main parameters of these centers were determined. The forbidden gap width, hole mobility, spectral and temperature characteristics of the photocurrent, temperature dependences of the dark current, ate. were measured. It is concluded that the formation of new types of r-centers in CdS and 1n4S5 provide information of the nature of "ordinary" r-centersp since their properties - small cross section of capture of majority carriers and large ratio of capture cross sec- tions of carriers of both signs - are similar. authors thank V* To. Lashkarev for a   ACC NR, AP6033585 SOURCE comt uR/olBi/66/008/010/3133/3135 AUTHOR: Malyuk, N. F.; Fedorus, G. A.; Fursen1w, V. D.; Shakh-4felikova, I. A.', ORG; Institute of Semiconductors AN UkrSSR (Institut poluprovodnikoy AN Uu-SSR) 0-.'V V TITLE: Determination of the energy required to separate an electron-hole pair in CdS single crystals irradiated with electrons of energy 5 - 50 key SOURCE: Fizika tverdogo tels, v. 8, no. 10, 1966, 3133-3135 r"OPIC TAGS: electron hole, electron energy, stimulated emission, electron bombardment, T photoconductivity, electric conductivity# forbidden band ABSTRACT: In view of the fact that earlier investigations have neglected the question of the energies required to produce or separate electron-holes, and knowledge of these energies is important in connection with the use of electron beams to produce stimulated emission in semiconductors, the authors have determined the electron-hole separation energy e in single-drystal CdS bombarded with electrons of 5 - 50 keV energy, They were able to measure c with sufficient accuracy only by using single crystals with a specific nonselective spectral photoconductivity characteristic obtained through special heat treatment. The method of determining c is based on comparison of the stationary values of the photo- and electron-conductivity in the same crystals The Corti 112  ACC NRi AP6033585 measurements were made in vacuum of 10-5 mm IIg at room temperature. The value of 3E (E = 7.5 + 0.8 ev is obtained in this manner for -c, which is found to be equal algo t6 fobidd;'u band width). The sameiratio of c to -E was obtained by others for a number of semiconductors*and agrees with the approximad theoretical model proposed by W. Shockley, Drig, art. has: I figure and I formula. SUB CODEs 20/ SUBM DATEt 19May"/ OFaG RUs 005/ OTH BUS 008 2/2  SHILOTISEV, S.P., prof.; SHEBMAN, M.V., doktor Some supplementary clinical and laboratory data ou cancez diagnosis. Trudy Kuib. med. inst. 24:32-38 163 (MIRA 17:4) 1. 1z kafedry obahchey khirurgii ( zav. - zasluzhennyy deyatell nauki prof. S.P. Sh:Llov-tsew) Kuybyshevskogo medtitsinskogo in- atituta.  BORODULINq M.I.;ISHEYNIC,IANy S.L. ------- Method of studying the elastic properties of rocks. Razved. i prom. geofiz. no.38:103-106 160. (MIRA 14:3) (Rocks-Testing) (Elastic waves)  L 22546-65 EwrMIrda Mlwr (m)/FFc (t)/T/Fwp M/FXP(b) 10(c) AT/JD ACOESSION NR: AP4043100 S/0185/64/009/007/0807/0810 AUT14ORS: Korsuns'ka, NaYe. (Korsunskaya, N.Ye.),~SaVkov~- Ye.A.; Chernovolenko, A.A.; Shankman, M. -'V h!- TITLE: Determining the quantum yield of the Intrinsic photoeffect In CdS-monocrystals using short impulse light SOURCE: Ukrayins'ky*y fizy*ahny4?y zhurnal, v..9. no. 79 1964, 807-810, TOPIC TAGS: CdS monocrystal, photoourrent.quantum yield,'photo- sensItivity, fast recombination channel,recombination, channel operating time)oadmium sulfide ABSTRACT: The phenomenological quantum yield of the'.photogurrent In CdS monocrystals lluminated by light impulses of 2 x'10 see. duration and con ant intensity was measured at'30OKS Wave length was varied from 480-520.)w. The yield was determined as the ratio of the total of the photoelectrons available in the sample at the end of the light impulse action to the t6tal number of :quanta, absorbed in the crystal; the latter was determined with the'help.of photo- amplifier PEY-18A calibrated against an absolutely black background value of the measured yield, wasnear.,unity In dIfferent photon 1/2   L 2 1156-65 EWA (h)/EWG(k)/EWT(J)/EWT (jn)/I~qp(b)/r/E~Vp(t) peb IM0 XTM.. ACCESSION NR: AP4048873 'StOI85164/009/0101115311157 AUTHOR: Yermolovy*ch, L B. (Yerm6 Ch B& dss--Cd TITLE.- Determination of parameters of:the recombination centers in-C se~ and CdS _CdSel_x single crystals XT x SOURCE: TJkrayinslky*y fizy*chny*Y-ihutnal, v~.: 9no.--10,~-,496C TOPIC TAGS: recombination center parameter, CdS, CdSef single crystal meihod of light impact ABSTRACT: By using the method of "light impact" the published by authors, in, Fizika Tverdogo Tela 5, 397 (1963), the concentrations were determined of,the - long lived recombination centers and of the cross sections of -electron -capture: by them, in the photosensitive single crystals of CdS, CdSe, and CdS -CdSe x Several channels of fast recombination were found in these materials, the kinetics of which was studied by means of short pulses of 2 x 10-7 sec.duration produced _,".J by a spark discharge in a capillary. The cross sections for the electron.q~pturp_~-,.~-,-, /2 C 04  L 2415"5 ACCESSION NR: AP4048873 at the corresponding levels were determined. The study of the kinetics of the decay of the photoflux in the region of temperature quenching permitted the C eter .centers mination of tLe depth-_of- the- levels- of -the-l-re-corfibift4tio-ii- approx~:.~__-.. 0. 6 ev). It Is shown that these levels In CdS are not connected with the disldcatiaris,~~ incrystals. "The authors are grateful to the academician AN USSR V.- Laskkarev for a discussion, band the engineer L'Ya. Gomdetzk!y for help: the measurements. Orig. arL has: I figure, 2 tables,--- ASSOCIATION: doytiv-M Mtffl~-Kier 0 natitute of Sem- ko ductor AN URSR) SUBAUTTED: 25Jun64 '00 ~0 U.- q, NO .1MV - ~ZVi 002 OTHER. SUB CODE: MT, Id 00 Card 2/ 2  L r,7,-t1! (1) /VG (k) 19Tf (m) /r/9iP(b)/.--_Wk(h)/1,WP(t) Pz-6/Pqb 'Y, 14P(c)' JD/fi-T ACCESSIOM NR: AP500",49 AUTHOR., Sheynlanan, M. X. WorMWJ MrAlff,4 k4d 6k$ LV aM 5&, TITLE: Possibility of.Auger.reco6bination& multiply-charged _cen__~., ters in germani and silico um SOURCE: Fizika tverdogo tela, v.' 7, no. 1 , 1965, 28-32 Al- --.TOPIC TAGS: . mpact reco,iW.inaEion-j.~,---sil.i66n,:~ 46rm#niu~-.- electrdn-z.~_ T ba- capture, hole capture, forbidden. nd ABSTRACT: An analysis of the exj~erimentally measured-cross sec-' Cd, tions with a capture of an electron by.the-impurities.Mn, Ni, Au, Ag, Cu, Fe, Ga, and Al in germanium and Zn, . Au,, In, Ga, and B in silicon has beenmade with an. aim. at ascertaining the I influence and size of Auger (impact) recombination, as coMAred with mult-ple- r.,, phonon or radiative recombination.- The recombination: proce larded# following h&_Bess (Phys. ReV. V'.- 111-t 129# 19S8) V as conl3a V 1-cmd. 1/2  L 24917-65 ACCESSION NR: APS003409 tuting capture of a free -:carrier _accompani4d.by: the- transfer of, a localized carrier of opposite.sign-int.o-the~6orrespbnd.ing band. The' he captum o A doubly negatively-- I analysis is confined to t f a hole charged center (for example Fe2.-.in Ge). __ AA Auger Me-chanism.whereift." the recombination energy acquired by capturing a carrier in one, cen- ter is transferred to a carrier localized in a neighboring center.. which in turn is transferr6d to the band is also considered. Some.- experimental consequences ok impact recombination and: possible means of evaluating its effect.,are discussed.' "The author.thanks V. Ye.. Lashkare E. I.-Rashba,_Ye..A..Sal'koV,, and K.- D.-Glinchuk for In-7- terest in the work and. for a discussibn*.'~ 0 ~cj art -has: 2 figu els and I table. ASSOCIATION: Institut polupicovodnikoV AN UkrSSR,..,:, Kiev ~'(Institute- of Semiconductors AN UkrSSR) SUBMITTEM Olildn64 ENCL: :.00 SUB CODEt. SS OTHE .009." NR REP SM 017,"' f Cum  I (M) .:7 ~,A,7003120 .3OUPCE CODE: UR. 0097 V /66/(500/009/060i/0005' :,-"OR: Candidate of ~Lechnical sciences); Sheynkman, V. S. (EnEineer); -K gineer); 4ozhdestvenskiy, 1. 1. kEfigineer) 'XRG: C 1 ch Institute for Industrial Structures (TsNII promr-daniy) TITIE: Use of hilgher-grade concretes prefabricated reinforced concrete sections' for industrial buildings I SOURICE: Be'uon i zhelezobeton, no. 9,.1966, 1-5 TOPIC TAGS: reinforced concrete, concrete I ArS.STRACT: In the preparation of standardized prefab sections, the possibility of ''increasing the strcngth of concrete of grades 1100-500 has not bacn.fully ex- ploitcd. T"hese gradeG are suitable for: columns up to 7.2 meters-high for live loads (Grade 400); square colirans spaced 12 meters apart in 'buildings with I-overhead cranes (grade 400); trusses made of grade 500 concrete for greater load capacity without increased diMenGions. Grade 600 concrete can be used where greater Gtrength is desired in conjunction with the use of lesser amounts of ,,eoncrete, such as in slotted columns with 12-meter spans for buildings with over- head cranes., 24-meter-span trusses for loads of 350 kg/m2 and higher (with 12- meter spans), 30-meter trusses with uniform loading, 3 x 12-meter slabs. Although grade 800 concrete can be used for various sections, such as 30-meter trusses, 3 x 12-meter slabs and 18-meter girders with some decrease in :.the volume of concrete, tests have shown that concretes of grade 700 and higher are not feasible for -Wido~'u�6 in prefabrication techniques becaiise of unsatisfacto technology and manufacturing procedures. For this reagon further research wit higher-grade concretes must be undertaken. (Yrig. art. has: 4 figures and 5 t SUB CODE: 11 / SUBM DATE: none . . I 1JPRS: 3 Card 1/14& UDC: 691,328  ,-r ~ klunrui"el' SHE-YINUP) cf Pr. 21 no.10.18-19 - 0 VC, Cea I a '32 sljy 2. MC,3kov (for SGk:o-"r--v"  PELIPENKO., V.; _�11MMAN, A..,...inzh.-konstruktor Redesign of the swivel-bearing arrangement of the floating crane "Bleikhert.0 Rech. transp. 22 no.11:50 N 163. (KM 16:12) 1. Glavnvy inzh, Kiyevskogo porta (for Pelipenko).  SOLODUK110, Yakov Yudelevich; �L1~YNW._&Ak*j VA, T. I., ._ jpzh., red.; KISW red.izd-ve; ISUNTIYEVA, P.G., tekhn.red. (Automatic control-of electric drives for continuous hot rolling Mille] Avtomatika elektroprivadov nopreryvnvk-h stanov goriachei prokatki. Moskva, Gos.nauchno-tekhn.izd-vo lit-ry po chernoi i tsvetnoi metallurgii, 196o. ilo p. (MIU 13:2) (Rolling mills--Electric driving) (Automntic control)  0 0 *a* 49 0 6-0 *-* 4 jo-O 4-4 -4-4 6-0 0 0-0 0 0 0-6-0--e-6 I I 1 4 1 1 , " 11 11 IJ U Is t6 t7 16 If a I It U a 34 ZI 26 27 3 Is x it V 13 If is 16 IT M P A) a A3 " a E!4P A A L A L I S M I A L_.A I k fig I-J-1 AA 9$CCWj94j__k 1 4 r S 0 -A -1--Lbo as 0 I-so CMWM*d Hqid_vSp" pM" WlAkJ-X"A cndLhM unit. A. 14. SIMINMAN Nrflydx" KhoLyulstm 21, Xj"3(1931). - A drtailcd drscription, incliIJAW"O~"i'mts 'Al unit installcd ki K h ki rt- crac oc n9 n and diavams.etc-. it givrn ols liquid-vapor phAw =00 it. ms Attwf"ts rvfimrv A A. D41111ITUNGIC *a j 0 as SO-SLA SITALLURGICAL LITFRATURE CLAISWICATOGN C - -- U X I, 'a 1 , 0 0, 0, P CIP w It eta OCCIft It W 04 4 di .3 14LO n 1. 3 1 . 0 0 0 0 0 0 0 0 0 q'9 : : : : : : : : : 4.0 0 0 0 6 0 0 0 0 0 4 a 0 0 0 0 0 0 : : 0 * * 0 0 0 0 0 0 'a 0,0 0 0 * 4 0 a 0 0 a 04 Go** a 0  W W V Iff 4 4 -411-01IM-41i -go 4 0*06 o 0606641100010069#64000011 0 q 0 0 0 a a 0 0 a a a 0 4 0 0 4 0 0 0 a 4 0 6 0 a 4 0 0 - 0 4 0 4 0 0 0 0 t ' : .1 : 1 0 t. It U V. W ft 1 41 C I. It !10 a L i 00 o \Vbe fethsolou ot the "Dubrovid" wspiar-phis" crack- I f* K, X. 11uhtovai and A. If. Nh,,ouisdn. Piwit. ' - - .00 0 * 111 dill-Vak,ps Attwoovg AU VIOW-18 V, F k. Sw. ' L ' Pr P k IV h S k 91 l o C o uxe a or ors, a 1 3. Ciaim e. . h. . Gorme-Gawt. Neff. Is". IOU, No. 3. 4 ~ IA: Foreiew Po. -40 Inpl*own r#YA. J. the ' Dubrovai cracking unit the x1twit 6 prefixaird to 4tMP* 00 Its a tube still aml passed Into a "nvurnam" Whele sit 0 0 a 11 admitted Amultaneoutly. The IVIIIII. of the stock is 00 r raised to The vapors then pou through a flashing to.c., bubble tower. etc. The stock is preheated .60 by making use of a no. a( brat exchancers. and it in said 06 thAt the tube still mav fie entirely clumuAted. Thepriv. .00 "1 is M"W out at atm. 1westutrr. anti wince the cracking 00 takes plate in the ..generator." which is of it very large 0 Also. the cracking truip. nuty be cousidcrahly lowvr than is : customary with other vaikIr-phau-c cracking unit-i. A 0 cracking temp. is attained by admitting IM-2441 1. C4 air per kg. tit cfackins t-k. tht- 1-m- .1,1-ditte the P"be.t."S I-'P. am# III. nXturr of the ol-kcrack"l. .00 00 r; The principal Product of file coullm,tt" III the "ge- .tt.tr" 6 1W ml mly imigruticam amts. oI Ct) and Co~ of X am forrued. C. 6 not dcptvtited in the tube still and the lampt4ack formed in the "xrnerator" may he b.rn-I mit -ith air. A kcroscric di3ittlate cracked without reeveling in a semi-can. unit yielded: tvack-i sliAtillate 311.9, T-VO gas 4amiline 41, "Indentair W.O. xas 13.7. [.~, 8% and h t t e fac cormImptiou amounted to 4%. A diamm )I tant iz iven A A 11 ht1m k N . . . M g x S..p _ 00 At . It A 417AIILI~K.L ~'G 0 S 14 u A' .0 to IV -4 a ,I 'q It It I I 't -1:! 1 1 1. oi* 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 *'* 0 & * 0 0 a 0 0 0 0 0 0 0 0 0 0 0 ' 0 0 0 0  a 0 fig 9 0 o 0 * 0 o 0 o a 0 0 It x T WR "N I fuff r- q IL INK T IA"AmajR.12 0 __I_% F, AjO F.Crior-ts .Lt. 90 00 0 A 71. 40 00 13 00 r 0 0 0 0 0 0 0 0 4 0 0 a it It -4 MPG 41 443 sie're I M. A10 0 ThO t*chnW*V of the "Dubro..I" IMP-r-phase oxide- tI00*Cr6CkIRg PrOCIIIII. X. K. Dubrovld and A. V. Shti s" K'L's. 1935, N;.. m NO 42 A. r n . .45M -Parts of the equipment. such as the cOmbum .10116-cfAckifflS tar tower and filter !:hii;: h ; for t c rt k e frasoval b pptd. during the rrac In the oil, am decribed and illuitmted. The y In the valior-Phate treating unit with 7nC6 wnrking clinnectlon with the cracking unit It. The life"urr distil. age in hested to 210-215* in a lul-lilland pa%,4%I Into a -410 treating tower with 8 baskets filled with ptimicc stone on 600 which solid ZnCl, is pptd.. and one upper and lower ba,,ket =00 with pumice stone coated with NaOll for the neutraliza- tion of HCI. Some of the polymers ppt. on the bottong 0 and constitute a raw material hw the lacquer indu%try. while a M"ine with an end t-itif of '_NN)* leavv-s flinmish Coo the top. then cuterint the litilible tower with the wutl .00 stripping r9itIpment. Gas 14 pa,%sed through an abswher g o unit (described and illustrated). A. A. Hochtlinxk o 4 t:0 Z no too 0 A arTALLURGKAL LITIOATURIE CLASSIFKATICN "so v*t7I M, W U A- _-O As r, I, a, K K it *1 U If it K IUD n oo - 0 0 0 0 0 0 0o 0 a 6 as o 0 a 0 0 00 ; 0 0 0 0 0 0 0 0 0 0 010 0 0 o 0 00 0  *eats**** a **go *too of*_ 00000404*0 0 0 0 03 1 1 JAI I ?a 9 WIPUIJU111617 4 " a, a III JS is V a it 31 It R 33 to a is V Is p 0 &1 a a so 0. A a C 4 L-1 P a a 11 L. It. I a CMC W Cut A L, a - k- 4_1-s _.o_j M, .-D I- cocoas - ".0CISSIS .%a -or. An attt=pt at thill subt4rMean goo-HIC-tiou of W in 00 sands. A.B.Shdwnan,K.K.t)ubruval.,V.A.S.,,,kin. N1. NJ. CharidKin, 5,* L. 7aks and K. C. Zincl-tok- .00 0 Vr/JjWxM ?_~_ --so Khollyclino 23. No. 4, 48 whav.J.-I-The vxrts. were carried out in an abandoned part of the Shirvan fields. The knition of the oil was effected tit hot by int-Ans -00 *a III a special furnace constructed near the well or in the well itself by lowering burning charcoal or charcoal which -00 00 was ignited later and pumping air into the well. Two .00 wells were drilled st different distances fmtn the burning well in order to study the range affected by the beat. .00 The oil present up to 02W in. from the well was recovrrahle. a 9 'j: Tht heated sands released all oil in the sand. Aluditica- tums of the procedure are described and a detailed de- wription of the evnit 14 nrrownted. A. A. BochtlinSk use roe see woo '00 "oo 41 0 0 f:3; S 5 L A AIRTALLLAPGOICAL LITERATUAI CLASS)FICATICO via, "all'. _---Tr---'- A to.. ia. n' woo Was') -A a.( 41&111*11. 00 a.. &%I 6 u - xv mo nf.' ;a a, x It It of cut U x A %a two 0 a-Var OTS'408 a a 0 a a a 0 'a 0 9 0 * 0 & 0 0 0 0 0 * - 0-0 0 0 0 0 o 0 0 0 : a 0 0 0 0 0 0 0 0 0 0 q a a a SHEYNMAN, A. B. and DUBROVAY, K- K.  0 0 o 0 o WO 41-0-0-w- - 0 6 I - 0 1 0 * 0 i Ala 1 4161 .. tallu 11 As to is It is a It As 11 0 0 11 6 11 1 6 4 M1 7 "1 'a I., i 1 I I m M 11 1 , 4 0 41 al - - 1 A o v . a -AL- 1 0 c ti i Ot A C -4 It'll I- 11-f-11 -.. h JAI ' 1 601 if 0001 4 440,AUNJ $414~104411" A 1: 15, Lm".- is IW7-38 cipts. wrte cunducird in% th. MaIncit properfirt an The palfication of oil deposits by st Injecting a hot sk-gas mixt. through an Intake well still lwasill ollbr Th h d h 00 00 10 i e e games (hrulig ums. removing t itro The mist, was InImt"i m. thick litul at a ilepth of M) ni, ' . 0 at por.litir"A A 7 mm. atilt 41AM 71111 still ski a imir ill 22N , on atilt. 64 W&I"I fillet. On.1 Wds %Wm luilik"t ru. fit. Iwo 24 his. Calorific value r4 Ps was 2-S-4.8 thousand cals. goo 40 The gw"ine was collected In a OM61 trati. K. 0 0 0 : 0it .0410 00 00 00 -00 64D 0 s* ie logo., *&list *A Ito* U U AV go is 1 0 " '3 19 4 3 is T.94 J 0 0 0 o * 74 : 0 0 0 o 0 1 0 0 4 0 0 e 9 0 0 0 0 0 0 0 0 F 1 4 0 it 0 & 0 0 0 0 to 0 4 e * o * 0 a 0 0 0 0 0 0 0 0 0 0 * 0 4 G  0002 0000000 rf W-11 all a layapa"90" :1 6~0 N I A k r 0 4 -00 PNOMM AND P80#111111% mods -4040 0 400 -4 WF -00 0, 0 C : j; iii 3M, veouR PHAss olnUTIVE CRACKING OF GAS OIL AND NAPHTHA IN '00 .00 oe PR&-ENCE UF AIR DMOM W11H OXIORM I. Sholman, A A and Tsuibe, -- -- - A 9 (8,11 aced act U.R.S.S. U1 mai to& 7rtz72T; J Inst petrol 19 ", :0.4 1945j, 31, 206A). Thoprocess of 6xidatles, cracking has been proved loo 8 effective, but has hitherto only beem applied using air. Industrial .00 o X ivailability of ohs& 02 (Kapitso process) m6se use of air/O E i MOO a mixtures feasible. aborstory scale experiments were undwta sn 400 using enriched air, so that the 02 oontent was 37-40. Cracking coo a 0 0 was carried out, over a charcoal oontact, at 540-560%., using =00 60-70 litres of alr/C6 mixture per kg. of charge. Reaction time go 0 0 V 00. 00 ~ was 28-4 sea. As ahErging stocks, there were sm~loyed a napths, 4109 A (d 0.7989 105-218*0.) and a gas oild(d2o 0.858, l.B.P. 2D) U., goo ;;Pat 360 W. Once through cracking yielded 30-35X of 150 G 400 ill end point Casolin I the total yield of liqpAid products, including goo gasoline, recovered by gas stripping, was 63-&A. Inspections of oharging stocks and products are given. or the 02- entering '000 the ro action 37% in accounted for as W2 and CO (mainly the former), Moo 30 by H20 and excess 02, and 29A by 0 containing liquid products esoo , % L A UVALUJIMICK LIMULTUAt C"WFKAMM cloo ~L 3111440 It 0MV Oat VAIL" G-V -- - - - r , I 1A ~ I ? V An L S 9 rM 0 M 9 1 N It I a 43 3 1 U U AT 10 11 q ; ~ U ' t I to 0 K K d a la ~ 0 0 0 oto 0 0 e 0 0 0 0 0 0 0 0 0 IS 0 0 0 0 0 0 a 0 0 0 is a a eito0 assoolLES-00000000000000 0 *  S'.E ET -'. V'/, A 8 P, 1. SEEyiXIT, A. GLAWISHE'P-1) I'li. S.; BUIVISTROVA) V. F. ; ME-ENRIA) C. N*. 2. ussR (6oo) "Tennerature Factor in Oil Extraction,," Iz. Ak. Nauk SSSR, Otdel. Tekh. Naulk, No. 7-8, 1941. Institute of Mineral Fuels Academy of Sciences USSR,, submitted 4 Jan 1Q,41. 0 /. IM Report U-1530, 25 Oct. 1951.  A a a A 0 3 9 a 4 t 36 P 41 41 41? 43 4 v a it 39 11 U If IS a a 9 A A L A A It I -A 1 1. k-Y- Q -,Q- K W-A-t-A. A-1-1. 0o ,! 1.UI;, 1. -00 00 - %'t, Effect of temperature ln PrOductiOQ Of naphLh4 00 Glarrishkin. F. 11,111118511!)" ' q 0o al- j 1,11. I R-S.S., t I'l Ile 0 1~11,44-11,11 oblitined (little 4 field V416.41. " -Vlltllvtk- lichl", v1ple 1 .41tht'd .%IL1,11C "AU'l 0114,11. atrAlel 1114tj 11 11111, 1 %%,11 11, 610111,th A 610, fill, fit, 14 1 vv A, . -it, skit Iltr-jjlr If I J() 41 . .", J ~ ChAt I VA. of sdild rchiiiii of one till't f I , 2-1 Vol. of another. kind of PC trolcum. The residu reduced from 0.19 0.20 to o. I I Vol. it W, is sub3tit I- air. It Petroleum is exPres"ll at 611* the re,itfu i , ,, fit 0-20 t.21 %-I. rite atilt I I- 31 r .,( l ;% Itk. lAy'.1 is IAi.A I,v "At "I 1-4-61K nit lim.tijill III,- I it, 1 Al"I 1 , 11-1 bw AI$ I h ... tigilif to I It, tAte'.1 lilt IA VAIll"ll 1114feliAl, tall.W.-m-, VA110144 Ivglm, "I lietinvallibly) illt-f-CAVI With I III V I. 111, 11111rC I'AlltillY thC higher it At I()W ICIIII). If. C P A. U TS if IS 0 0 0 0 0 0 0 0 0 0 0 - .00 -00 .00 -00 -00 .00 a= 00 00 4300 11111131 GK 0., 101% V i ZA An I I I Md 0 le *1 9 A a 11A 0 0 0000 0 0 0 00 0 0 0 0 00 0 0 0 0 0 -60 a 0 Ole 0 0 0 0 0 Coo SOO twoo =00 00 00 00  A. B. ar.-J'A TSY::-, r,~' Va-,o-,-Pha3! Ciidaticn Crac! lnstitut,~ of '-,in-,!ral Fu-31s, Ac-adnny of Sci!~nces USSP (-1.944-) "Vaucr-Phasi CAdation Grac'r-AnZ- of Gas Gil and Lil-oin in -~hl~ Prestnce of Ex-,,~---!n En~:-4 -6t- ached Air'l- Report 1. Iz Ak. Nau'r. ssm -;el, Tskh. Vauk. IT Nor - 10-11 , 1944 ER-52059019  Oyl. xrteltiental So idy-d the thtraw in MI UM G. M. Belova and A. Coutg. Strongly oxidized oil (4-67. ut dry sand) which cauld not be by blowing with air ar. by boiling with water wtu heated Ir a retort firthe absetice 61 ik itt-It lhax~-temP. to 2W,. of 450'. At t not less than 70. oil eMPS. Up vrar rcoavered andthe residual oil content was 1.5-3.51 to of the dry sand. At temps. up to 450'. recovery was 812-93% and the resAual oil cont,nL Wa~ Under othenvisc virntical Covditions the degme of rewvery depends oa the ~7ri 'ginal -ri5cosity of the oil lwnce. thc highr-, ihe viscosity ,4 the oil in the forin,ation: the higher should be the Eerap, B. Z. Kamich  TSYBA.A.Ii.; SHEYNMAN,A.B. Chemicnl composition of the aromatic part of gAsolinee obtained by oxidation cracking a:ad reforming. Trudy Inst.naft no.6:12-19 '55. (Gasoline) (MLRA 8:12)  S11EYM-LU, A. 13. with A. I. Sergeyev "Dmerimental Study of Burning in a Petroleum Saturated Sand Lanyer" CO -2~Z'5-- .2 -3;7 Transactions of the Petroleum Institute, Acad. Sci. USSR, v. L1, Oil Field Industry, Mooco;;, Izd-vo All SSSR, .19515- 346pp.  L4 (5) SOV/92-58-8-9/36 AUTHORS: Sh-3X_nM2-n1 A.B.. Sergeyev, A.I., and Shenayeva, V.I., Membel -Ur -ne TnStltute Lo TITIS: Thermal T ----a I'm-:7-L" cf Oil Wells 'Tepl-^vaya obrabot-ka 7it:-ftyanykh skvazh:i.7-' PERIODICAL: Neftyanik, 1958, Nr 8, PP 1-3-15 (USSR) ABSTRACT: The Petr;-.l.~run Inst-,itute of the Academy of Science of the 'USSR has studied -the effe--t of -Che bot-tom-hole heating in oilfields Produc4-ion Administ- '-ion. Experiments, i_:he K made -,--rider stipulated in Table 1, have indicated that a.=ng seve-Lai.me"11--ils !11' heating bottom-holes (hot oil or steam f]_u5hing.. ther-mal' a~~id treatment, electrical beating, etc.) the electrical heating with the device shown -in Fig. 1 produces the best result. Conditions under which the electric heater described by the author was used are given in Table 2 and the effect of heating in Fig. 2. As a result of experiments all the wells -Moreased their petrole-am output. Fig. 3 shows the design of Card i/2  Thermal Treatment of Oil Wells 92-58-8-9/36 the electric heater installed under the pumping unit, and used for continuous heating of the bottom-hole. While In oilfields of the Stanislavneft' organization the bottom-hole heating increased the petroleum flow 1.5 - 3 times, in some wells of the Sakhalin oil- fields it speeded the petroleum flow up to 13 times. Moreover, in some cases wax deposits were melted not only in bottom-holes, but also in pressure pump tubes,and thereffect of heating lasted several months. On the basis of experiments it can be said that the use of a mobile 25-30 kwt heater suitable for 8".. 6"1 or 411 wells is desirableand that a temperature around.150* C must be maintained at the bottom-hole. An i:ndependent, durable and flexible cil gas resistant wire rope shoi;ld be employed to suspend the electric heater. There are 3 figures and 3 tables. ASSOCIATION: inst-1,ute nefti AN SSSR (The Petroleum Institute of the Academy clo Science of the USSR) Card 2/2  ,.SE[ZYNMAN, A.B.; SKRGLTEV, A.I.; SREITAYEVA, V.I. Heat treatment of oil wells. Biul. tekh.-ekon.inform. no.9:7-9 158. (MIRA 11:10) (oil wells)  SHEYM-WI, A.B.; GLUSHNEV, V.Ye. Karl Karlovich Dubrovp-i4, obituar7.. Trudy Inst.nefti 12'372-374 '58. (MIRA 12:3) (Dubrovai, Karl Karlovich, 1888-1957)  SOV/93-58-8-10/15 ;AUTHOR: Sergeyev, A. 1. and Sheynman, A. B. TITLE: Depth Heaters (Glubinnyye nagrevatellnyye ustroystva) PERIODICAL: Neftyanoye khozyaystvo, 1958,~Nr 8, pp. 46-53 (USSR) ABSTRACT: The article presents data on Soviet and American depth heaters for oil wells. Stepanchikov's burner (Ref. 11, operating on the principle of flame propagation, is of limited capacity and lacks direct temperature control. It is also inclined to produce soot and contaminate the well. The American model of gas burner for underground generation of heat, presented by Fig. 1, fades out and ignites easily at low depths [Ref. 2]. Another American model presented by Fig. 2 and tested in a depleted forma- tion has markedly increased the yield of the formation [Ref. 31. The Institut nefti AN SSSR (Petroleum Institute, Academy of Sciences, USSR) has designed a gas burner which is supposed to satisfy most of the requirements. This Card 1/4  Depth Heaters SOV/93-58-8-10/15 burner, shown in Fig. 3, operates on the kinetic principle of fuel burning and its special feature is that the air-gas mixture which is introduced to the combustion area is prepared In advance. A triple cable of the KTSh-2 type delivers the electric power to the Ignition and transmits the data recorded by the thermocouple which is located at the cutlet of the burner. This burner has been subjected to laboratory bench, and'industrial tests. The laboratory tests have shown that a burner 1,000-mm. long at 30 atm.and 3000 can have a heat capacity of 190,000 -' 380,000 kilocalories/hr. and a volumetric capacity of 2,000 ~ 4,000 normal cu. m.//hr. They have also determined that the change in heat capacity and volu- metric capacity is directly proportional to changes in the length of the burner or in the pressure. The bench tests have disclosed that combustion proceeds Card 2/4  Depth Heaters SOV/93-58-8-10/15 evenly without explosions and without drastic pressure rise in the system, and it is characterized by tem- perature jumps. During the tests the air was delivered by means of a UPK-80 compressor. The bench test results are shown in Table 1 and Fig. 4. The industrial tests have shown that it is expedient to employ this type of burner under fixed conditions at a time when the entire formation has been stimulated and heating substances injected in it. The temperature curve during the burner operation under industrial conditions is shown in Fig. 5. The Petroleum Institute 'Academy of Sciences USSR in cooperation with Giproneftemash has also designed a depth burner (Fig. 6) for preventing paraffin and tar deposition in the well. This unit was tested at the YablonoV3kiy oilfield of the Kinellneft' NPU and the results are shown in Tables 2 and 3. The tests have shown that this unit satisfies the industrial require- ments. The Institute has designed another burner Card 3/4  Depth Heaters SOV/93-58-8-10/15 (Fig. 7) for installation in the well under a deep well pump so that the bottom hole heating and ,oil production proceed simultaneously. In this unit the current is conducted by a PUM brand copper con- ductor. The test results for these units will be published in detail in a separate article. The authors conclude that this study of thermal devices for the stimulation of oil production points out the need for further improvements in this field. There are 7 figures, 3 tables, and 3 references, of which 1 is Soviet and 2 are English. 1. Petroleum--P--oduction 2. 'Wells--ffeating 3. Heaters --Performance 4. Heaters--Test results card 4/4  SilEY12,10, A f.B. - SERGEYEV, A. I. Subsurface heating devices. Trudy Inst. geol. i razrab. gor. iskop. 2:177-193 160. (MM 14:5) (oil wells-Equipment and supplies) e-  3UPTAIII, A.B. [a-heynman, A.B.]; 11,1137FV, B. E. (Glushnev, B.8.1 Karoly Dubrovai; obituary. 14a,-,v kerm lap 15 no.2:61 F 160.  MALOFEYEV, G.Yqj SERGEYEVI A.I.; SHEYINAN, A.B. Experimental study of the olectric heating of a well bottom zone. Neft. khoz. 39 no.12139-4J,. D 160. (MIFA 14:4) (Oil fields-Produation methods)  .SjIEYN,.W],__Aleksandr Borisovich; SERGEYEV, Aleksandr Ivanovich; MALOFEYEV, Gurly Yovdokimovich; XMIYAN, V.A., red.; VATOLIN, G.F.2 .ved. red.; VORONOVA, V.V.y tekhn. red. [Electric heat treatment of oil well bore zones]Elektroteplo- vaia obrabotka prizaboinoi zony neftiarqkh skvazhin. Moskva, Gostoptekhizdat, 1962. 98 p. (MIRA 15:5) (Oil fields-Production methods)  'AALOFERA.T. G.Y,-.; SIfE"MtAN,, A.B. Ga2c-ola-t-Ing the r6S8r'70.ir 04-1 yield when ilujecting hot water. Neft. khos. 41 no.3631-31 Yx 163. (MIRA 172.11)  SHi-,Y1W,ANJ, A.B.; MALOFEYEV, G.Ye.; SERGEYEV, A.I. Investigating heating of the well-bottom zone in the presence of fluid inflow. Neft. khoz. 42 nc.1:37-42 Ja'64- (MIRA 17:5)  SIMEN: F.M.; KALUGIN, V.D.; RAKIIIMOV, A.R.; SHEYWAN, A.B. Electric heating of well bottcm zones in the South Alamphik field. Nefteprom. delo no.8:16-19 165. (MIRA 18-.9) 1. Institut geologii i razrabotki goryuchikh iskopayemykh, mo.91rvay i ob"yedineniye "Forgananeftegaz".  SHEMIAN, A. D. and TSYBA, A. N. "Chemical Conwsition of Aromatics Contained in Gasoline Produced by oxidative Crackirg and Reforming," Trudy Inst. Ilefti, No.6, 1955 Translation D 41-1562  HIGLLOVSKLYL, G.11.,; SHEYIIW, A.I. Obstetric forceps. Akush. i gin. no.6:23-27 N-D '55 (MLRA 9:6*1: 1. Iz rodillnogo, doma imeni V.S. Snegireva (glavnyy vra~h L.I. Krotova, nauchnyy rukovoditell prof. M.A. Petrov-Maslakov) Leningrad. (OBSTNTRIC, appar. and instruments Huzols forceps)  82b47 s/141/60/003/03/002/014 ElWP362 AUTHORS: Vilenskiy, I.M., Chernyshov, . and Sheynman, D.I. TITLE: Distortionlof the Modulation of High-p 19 During the Propagation%in the Ionosphere (Experimental Investigation). Part I. PERIODICAL: Izvestiya vysshilch uchebnykh zavedeniy, Radiofizika, 196o, Vol. 3, No. 3, pp. 367 - 374 TEXT- An investigation of the change of the modulation depth of an amplitude-modulated wave at the carrier frequency of 200 kc/s was carried out by J.W. King (Ref 6). It is considered, however, that the results obtained by J.W. King are not fully satisfactory V( since they cannot be used in studying the dependence of the amplitude distortion on distance. Consequently, a more detailed study of the problem was undertaken. The measurements of the modulation depth were carried out simultaneously at three different points by means of three specially prepared measurement sets. One of the sets was situated in the vicinity of the transmitter and measured the modulation depth produced by the transmitter; the second was situated at a distance of 2 000 Ian (point 4) while the third set could be situated at various distances from the transmitter Card 1/4  82447 s/i4l/60/003/03/002/oi4 E122~Eabjjo Distortion of the Modulation of High-po e a Waves During the Propagation in the Ionosphere (Experimental Investigation). Part 1. (points 1.2,3). Since the antenna system of the transmitter produced practically no vertical radiation component, it could be assumed that the receiver situated in the vicinity of the transmitter received only the surface wave whose modulation depth was the same as that of the transmitter. In order-to secure the measurement 0f the modulation changes with an error of 0-50% it is necessary to employ the measuring sets of very high stability. The measurement of the carrier level was performed by means of a linear voltmeter employing a copper oxide rectifier. The voltage obtained at the out- put of the rectifier circuit was applied to a 2-stage low-frequency amplifier, fitted with RC filters. These bandpass filters were tuned to frequencies of 40, 80, 160 and 600 cps, The output of the amplifier was fed to a peak voltmeter which was measuring the magnitude of the envelope of the �nvest�gated signal. The modulation depth was determined by comparing the readings of the linear and the peak voltmeters. The experimental investigation of the Card 2/4  82447 s/141/60/003/03/002/014 Ela2~EAffio Distortion of the Modulation of High-po e a Waves During the Propagation in the Ionosphere (Experimental Investigation). Part I. amplitude distortion due to the propagation of the waves in the ionosphere was conducted during the period from April 24, 1959 to June 18, 1959. A powerful radio station operating at the frequency of 236 kc/s was employed as the transmitter, the modulation frequencies being 80, 160 and 600 cps. The modulation depth was approximately 80%. During the above period 30 observations were effected at night-time,) the duration of each being 15 minutes (5 minutes for each audio frequency). All the 30 transmissions were received at the distance L = 2100 lun (point 4). Ten trans- missions were observed at the distances of 400, 700 and 1500 km from the receiver. The experimental results are given in Tables 1, 2, 3 and 4 and in Figures 1, 2 and 3. Tables 1, 2 and 3 shows the average relative values of the modulation changes. From the tables it is seen that while the modulation changes for any one observation did not exceed 2%. the differences between various observations are quite considerable. Table 4 shows the average relative values Card 3/4  82b47 s/141/60/003/03/002/014 EJR2~E~82 Distortion of the Modulation of Hig - o er Radio Waves During the Propagation in the Ionosphere (Experimental Investigation). Part I. of the modulation change for all the observation points. It is seen that the distortion at points 1 and 2 was as high as l7c'O'. The dependence of the modulation distortion on frequency is illustrated in Fig. 1, while Fig. 2 shows its dependence on dis- tance. The nonlinear dependence of the magnitude of the distortion on the power of the transmitter is illustrated in Fig. 3. The authors express their gratitude to G.S. Kharitonov, S.I. Volosnikov, B.I. Podlipalin, L.N. Ruchkan and V.P. Khoroshilov for their help in the preparation of the measuring equipment. There are 4 tables, 3 figures and 6 references: 3 English and 3 Soviet. ASSOCIATION: Novosibirskly elektrotekhnicheskly institut svyaz! (Novosibirsk Electrotechnical Communication Institute) SUBMITTED: December 14, 1959 Card 4/4  KUBIANOV, V.L., inzh.;-.qHEMA . D-1. , inzh. Automatic machine for broaching butts of steel aluminum bearing bushings of diesel.engines. Trakt. i sellkhozmash. 30 no.6:34-36 Je 160. OCMA 13: 11) (Broaching machines) (Bearings (machinery))  SHEYNMAN, D.I. A device for measuring small indi4es of phase modulation. Izv.vys. ucheb.zav.; radiotekh. 5 no.5:640-642 S-0 162. (MIRA 15:11) 1. Rekomendovd~o kafedroy antenn i rasprostraneniya radiovoln Novisibirskogo elektrotekhnicheskogo institute. avyazi. (Ionospheric radio wave propagation) (Radio measurements)  ~Ihl "I PI)4 I "II, I ~. I'-, .,. I, ! . Me, ~1 n-mt:nt cf relative phase shifts in shortwaves with freq. ency V 1'. "1 - u Jive,.,z~ ty. ti~:.heb. Ingt. sviazi, no.16:39-46 163. (14IRA 17t10) 1. -s!-,!v f--'Lektrotekhnicheskly inatitut avyazi,.  TSESARSKAYA, S. I;MONOSZON, S. M;SHEYIMN, To. A;YAEMIIS, B. L;GOLIEh'MG, A. I;GORLOVSKAYA, Ye. Role of roentgenological method in examination of children for B.C.G. vaccination. Probl. tuberk., Moskva no.4:31-36 July-Aug. 1950. (CIAL 20: 1) 1. (Candidate Medical Sciences S. I. Tserkay-a -- Odessa Tuber- culosia Institute; S. M. Monoszon and E. A. Sheyman - Lenin- grad Tuberculosis Institute; Prof. B. L. Yakhnis and Candidate Medical Sciences A. Ya. Gollberg -- Khar1kov Tuberculosis Institute; E. P. Gorlovskaya -- Kiev Tuberculosis Institute.  1571. SHEYNM AN E. A. Isolation of newborns vaccinated with B;tTrIa-g'~~af:Lff';iT tuberculosis (Russian text) SOVETSK. MED. 1954, 1 (26-28) Tables 1 The author states that an isolation of 6-8 weeks is necessary in newborns after the BCG vaccination before they come in contact with persons suffering from th. Palack~ - Uh. Hradiste (VII, 15)  r-?-ctior, of the olrir~r child orgini!nm to the adlministr7~tion of 7,e',-hcd" T e_ 17rr-4, 1955. Leningm~ St;nte Crti,~r or .,in LenLr, inst, for the Avince~i Training of Flhysicians imeni S.", Firov. LeninCrad Sci 7L-_s inst, for Ttfberclillosls imerd .'L.Ya. Shternber.-. (Diz~,~rtations for the Del;~ree of Candi--~-te of Medical Sciences). ~:~O: Knizhna-~ leton-is' ',.o 44, 2~1 October 1955.  GOLIDFARB, M.L. GOTICHAROVA, M.K.; SHETWAN, S.A. Studying the effectiveness of BCG revaccination by intracutaneous and percutaneous methods. Prob.tub.no.4:3-8 Jl-Ag '55-MRA 8:10) 1. Iz arganizatsionno-metodicheakogo otdela (zav.-kandidat 1;editsinskikh nauk M.L, Gol'dfarb) Leningradskogo nauchno-issle- dovatellskogn Tuberkuleznogo instituta (dir.-doktor maditsinskikii nank prof. A.D. Semenov) (BCG VACCIN&TION, on tuberculin reaction in intracutansous and percuta- neous methods) (M?JILVWIN REACTION eff. of BCG vacc. in intracutan ous & percutaneous methods)  AYZ3NGSRG, B.I., inzhener, redaktor; SHHYN-KLL-j""D,' inzhener, radaktor; ZOAMIXSYANTS, M.Ya., inz-heaer, .L-Ft-or, GIADKOV, K.M., radaktor; MODXL', B.I., tekhnicheskiy radaktor [Auanual for designers of machine construction plants] Spravochnik preoektanta mashinostroitellnykh zavodov. Bost. pod rukovodstvom B.I.Aizenberg. Moskva, Goa. nauahno-tek)m. 12d-Vo mashinostroit. lit-ry. Vol-3. [The designing of various industrial and auxiliary shops) Proaktirovanie raznykh proizvodstvennvkh i vapomogatellnvkh tsakhov. 1946. 307 P. (HLRA 9:9) 1. Moscow. GosudarBtvennyy institut po proyaktirovaniyu mashino- 3troitellnykh zavodov. (Machinery--Dasign--Handbooks, manuals, ate.)  M SHEIMMAN, I. -B. . Cutting forgings by weight. ~Lvt.trakt. prom. no.6:7-9 Je '53. (W-RA 6:6) 1. Moskovskiy zavod malolitrazhnykh avtomobiley. (Forging)  SHEYNMAN) I.M.9 starshiy inzh. mostopoyezda (Volgograd) Reinforced concrete construction In winter time. Put' i put.khoz. 7 no.12:29 163. (MIRA 16:12)  SHEYNMAN,,-j-a-,-inzh.; KRITSKIY, S.N., dAtor tekhn.nauk -:5-~ "Engineering hydrology" by G. Rdmt.-*n,:dras [in French]. Reviewed by L.B. Sheinmen, S.N. Kritskii. Gidr. stroi. 31 no.9:3 of cover s 161. (MIRA 14:12) (Hydrology) (Rdmdnidras, G.)  - SHNDKB, L.B-, inzh. ; RUBINSETEY14., G.V.., inzh. Design of a low-presmire hydroelectric dervelopment in precast reinforced concrete. Gidr.stroi. 33 no.10,.L'+'-20 0 162. (MIU 15:22) (I~ydroelectric power stations) (Precast concrete construction)  SHEYNMAN,Le'v'Yefimovich, starshiy prepodavatell; SHEKHTER, Villyam, - LeonidovicH,- inzh.; GOLOVANOV, Robert Dmitreyevich, inzb..; SHMIRSEY, Vladislav Vasillyevich, inzh. Automatic drop of reactive power in a mechanical current converter. Izv. vys. ucheb. zav.; elektromekh. 6 no.10:1249-1252 163. (MIRA 17:1)  S- ii Ey .,j y t C, "J IIPJ~, ll~ s tr va, U.-,~- r)" r,~-vc, :-;~ ible gerie r a -Ino~ ! Or ty j-, 0 , r - ~ ~-,. . , , . r '.,e, r for rp-!,-inf~ the quality of eleztrj(.~ j-,-).jvr or an Fy-,,tpm. Izv. AN SS'T. Fherg. i transp. no.4.489-492 16 ~,M,R-k 17?110)  Latlan of --3 3 A, a 6L ~-ri~~bx-anuu.-; rii .n.-Pate7,. IU"kl, ~ i  r  PODGAYETSKIY, G. B.; SHEYNMA11, N. S. Immediate results in the treatment of upper respiratory tuberculosis with paraaminosalicylic acid. Vest. otorinolar., Moskva 13 no.4:86-87 Jul-Y-Aug 1951* (CUIL 21:1) 1. Of the Ukraiiiian Sc; -.-,tific-Research Tuberculosis Institute.  SEY-NMAN, N.S., kandidat meditsinskikh nauk. Disorders of vestibular function in streptomycin therapy of tuberculosis. Vest.oto-rin. 15 no.6:22-26 N-D 153, (KMA 7:1) 1. 1z Ukrainskogo nauchno-issledovatellskogo instituta tuberku- leza im. F.Ya.Yanovskogo, Kiyev. (Streptomycin-Physiological effect) (Tuberculosis) (Equilibrium (Physiology))  KOLOVIYCHENKOY Aleksey Isidofovich, prof.; SEEYNM,,-.Iiaum-~i-Qlo=nQyi-ch1 kand. med. nauk; KJIARSHAK, Ye.M. . red.; CHUCHUPAK, V.D... tekhn. red. [Atlas of tonal audiometric studies; a textbook for practicing physicians and students]Atlas tonallnykh audiometricheakikh issledovanii; posobie dlia prakticheskikh vrachei i studentov. Kiev, Gosmedizdat USSR, 1962. 292 p. (MIRA 15:11) (AUDIOME,TRY)  SHEYMAN, R.P., inzh. Homograph for calculating equipment in designing continuous lines for the production of multiple articles. Vest.mashinostr. 1+2 no.8:?8-80 Ag 162. OURA 15;8) (Factory mana Pm nt)  ,M Remualld Petrovich; ZEKLEGLYADOV).Konstantin Grigorlyvvich; SHELY~~ TELYASHOV, R.Xh., red. izd-va; GVIRTS, V.L.., tekhn. red. [Improvement of the production structure of a machinery plant] Sovershenstvoyanie proizvodstvennoi struktury mashino- stroitellnogo zavoda. lAningrad, Ob-vo po rasprostraneniiu politicheskikh i nauchn. znanii RSFSR, 1963. 1+2 p. (Leningrad- skii dom naudhno-tekhnicheskoi propagandy. Obmen peredovym opy- tom. Seriia: Mekhanizatsiia inzhenernogo, i upravlencheskogo truda, no.1) (MIRA 16:7) (Machinery industry-Management)  LIPKIND, L. M.; SHEYN11AN, It. 11. ; S1,17111S, M. 11. , red.; PULI KINA, Ye. A.Jq tek-hn. red. [Methods for preparing the production program of a machinery plant which provides for an in rease in the level of serial production.] Metody postreniia proizvodstvennoi programmy mashinostroitellnogo zavoda, sposobstviushchie povyshaniiu urovnia seriinosti proizvodstva. (Russia (1917-R.S.F.S.R.) Leningradskii ekonomicheskii administrativnyi raion. Labor- atoriia promyshlenno-ekonomichaskikh issledovanii, Trudy, ho. (MIRA 16:11)  TATEVOSOV, K.G., doktor ekonom.nauk,prof.; SHEYN14AN, R.P., inzh. Establishing an optimum schedule and voli, plan for.a shop (section) with diversified production. Vest.mashinostr. 44 no.7: 72-77 Jl 164. (MIRA 17-9)  qSHEINTIA,N R.P.1 kand.ekonom.nauk Gptim8l planning of equipment for the machining areas. Vest. mashilnostr. 45 no.3:78-80 Mr 165. (MIRA 18W  SIEINMANN, S. M. RT-1102 (Stationary temperature field around a regular heogonal priam of infinite length immersed in an unlimited hormgeneous medium) Statsionarnoe pole temperatury vokrug beskonechnoi pravilinoi shestigrannoi prizzy, pogruzh6nnoi v bezgranichnuiu odnorodnulu sredu. D:jjk Arkticheakogo Instituta 110; 33-38, 1938  1. SHEYNN'All, S. ". ?. usst, (6oo) 4. Pagnetism, Terrestrill 7. Investigating the process of fixinF-- electromagnetic fields in the ground. (Abstr-et.) Izv. Glv-n. unr. geol. fon. ro. 2, 1947. 9. MonthLy List of Russian Accessions, LibraY7 of Congress, March 1953. Unclassified.  sov/1-69-59-5-4562 Translation from: Referativnyy zhurnal, Geofizika, 1959, Nr 5, p 42 (USSR) AUI'HORS- Sheynmann, S.M., Frantov, G.S. T Magnetic Dipole Above a Double-Layer Medium. On the Geologic Mapping by Means of Aeroelectric Prospecting 'V PERIODICAL. Tr, Vses. n.-i. in-ta metodiki i tekhn. razvedki, 1958, Nr 1, pp, 161 - 188 ABSTRACT-, Comparing the various methods of aeroelectric prospecting, the authors come to the conclusion that using, as source of the field, closed loops with alterating current of audio frequency offers the most suitable for practice method, if the closed loops are moving together with the aircraft, as well as the receiver of the field. Basing on the described method, the authors analyze the field of a magnetic dipole above the original rocks covered with the overburden having a good conductivity. The developed theory can be applied to media, which a.re not bounded in horizon- tal directions. if the structure of the ground is more complicated, Card 1/2 the method allows the estimation of the expected order of variations  sov/169-59-5-4562 Magnetic Dipole Above a Double-Layer Medium. On the Geologic Mapping by Means of Aeroelectric Prospecting of the secondary magnetic field. The expounded theoretical considerations made It possible to draw the conclusion that t1he aeraelectric prospecting using magnetic divole can provide a valuable material for charting the resistance of the original rocks. The accuracy of determining the contacts of different rocks increases with an increased ratio of their conductivity. . pselble to distinguish confidently the rocks from each other, if their It is p conductivities differ by a factor of 5 - 6 and the thickness of the overburden does not exceed 20 - 30 m. The presence of horizontal stratification in the upper mellow layer cannot hinder,under certain conditions, the application of the theory. In the authorst opinion, in the present stage of development of the aeroelectric prospecting, the proposed theory can be useful for experi- menters, planners and prospectors. A.A. Smirnov Card 2/2  sov/.169-59-7-6728 Translation from: Referativnyy zhurnal, Geofizika, 1959, Nr 7, pp 30 - 31 (USSR) AUTHOR: Sheynmann, S.M. 4MMONOWNiWauft. liv TITLE: On the Possibility of Utilizing Telluric Current Fields and Remote Radio Stations for Geological Mapping PERIODICAL: Tr. Vses. n.-i. in-ta metodiki I tekhn. razvedki, 1958, Nr 1, pp 189 - 209 ABSTRACT: The author discusses the question of utilizing telluric current fields and remote radio stations for determining the relief and the nature of the original rocks under the alluvium. It is presumed that both the telluric field and the field of radio stations in a remote zone are identical, in relatively small areas, to the field of a quasiplane vertically polarized wave, and the fundamental properties of the field in a stratified medium are discussed. The author draws the conclusion that the utili- zation of remote radio stations is expedient for geological Card 1/2 mapping, when the alluvium is not existent or when its resistivity  SOV/169-59-7-6728 On the Possibility of Utilizing Telluric Current Fields and Remote Radio Stations for Geological Mapping is large 104 ohm cm). When observing tellurio currents, the problems of the structural and geological mapping of the orig.Lna-; rocks which occur under conducting deposits lying horizontally with a thickness up to hundreds of meters, can be solved successfully. It is pointed out, that the study of the phase relations in the telluric field may turn out to be of interest for the geological Interpretation of anomalies. A.A, Smirnov Card 2/2  ALL-'.KSF,)D.'V, Arian Mikhaylovich; �1W -TSKAYA, A.I., - j, ,. red.; ZAIU vedushchiy red.; POLOSINA, A.S., tskE.red. [Apparatus for telluric current electric prospecting] Apparatura dlia alektrorazvedki metodom telluricheakikh tokov. Hoskva, Gos. nauchno-tekhn.izd-vo neft. i gorno-toplivnoi lit-ry, 1959. 90 p. (MIRA 12:12) (Electric prospecting~Equipment and supplies)  Bmicu'vau, Kark Naumovich; red.; FERSHINA, Ye.G., vedushchAy red.; MOTOVA, I.G., tekhn.red. Urospecting by the telluric method] Blektricheskais razvedks metodom telluricheskikh tokov. Pod red. S.K.Sheinmana. Moskvp, Gos.nauchno-tekhn.izd-vo neft. i gorno-toplivnoi lit-ry, 1960.~ 236 p. (MIRA 13:4) (Electric prospecting)  VELIKIN, A.B.; FRANTOV, G.S.,- Interpretation in multifrequency inductive electric prospecting. Prikl. geofiz. no.31:.165-178 161. (MIRA 1513) (Electromagnetic prospecting)  CHEI-OfAK, G.Ya.; SHEII[MANI, S.I.I., kand. fiz.-matem. nauk', retsenzent; OGILIVI, N.A., kand. tekhn. nauk., nauchnyy red. [Dielectric methods for --tudying the moisture of soils. Dielektriches- 'iE6-metody issledovaniia vlazhnhkh gruntov. Mosk-va, Izd-vo "Nedra,11 1964. 127 p. (Moscow. Vsesoiuznyi nauchno-issledovatel'ski institut gidrogeologii i inzhenernol geologii. Trudy, no.5)  SHEYMM, V.A.; SaEMOVICH, V.M. Equipment for petroleum refining. Biul.tekh.-skon.inform. no.8:10-15 161. O-IIRA 14:8) (Petroleum-Refining)  SHEYNMAN, V.A., inzh.; roGAN) YU.S., Inzh.; ALLZSANDROV, I.A., kand. tekhn.nauk Comparative hydromatic tests of plates of various desigm. Khim. mashinostr. no-3:15-17 MY-Je 163. (Iffha 16:11)