SCIENTIFIC ABSTRACT AKSMLROD, M.M. - AKSELROD, Z. M.

On the Prospects of Employing D.C.Transmission 105-58-5-20/28 in the USSR covering reactive (idle) power are unfounded because the recti- fier plant has a cos y = 0.90 - 0.95. Polovoy does not take power losses in compensation devices intlo account. He assumes the specific costs of the transformer plant of D.C. substations to amount to 36% of the substation costs. According to Teploelektro- proyekt they amount to 26%, and according to the Institute for Direct Current and the All-Union Institute for Electrical Engi- neering - 17%. According to experience gathered in conneotion with the line Kashira hydraulic station - Moscow, and according to technical conditions the life of valves between two repairs amounts to 15 000 hours or two years and not one year. 2.) Criticism of the article by lellgunov. It is wrong to declare that the costs of D.C. - and A.C. substations including devices for the increase of stability are the same already at the present stage of transformer-engineering, that in the case of long-dis- tanoe transmission no intermediate output is necessary, that by means of the mercury valve grids the intermediate substations can be reliably disconnected from the long distance line. Advantages Card W3 and disadvantages of a D.C. line are enumerated.  GLRIFIYAIIUV, Magnetic resonance in some coals. Xhim. I tokh.topl. i meel, 4 no-3:64-68 Mr 159. (MIRk 12t4) 1. Kazanskiy f ilie'l AN SSSR. (Coal--Magnetic properties)  AKSELIROD. M TKOVSKIY, V.M. Technological and economic indices of d.c. power transrAssion and its comparison to other modes of transporting power resources. Izv. NIIPT no.6:92-3-U 160. (MIRA 14t7) Electric power distribntion-Direct current) Nwer resources-Transportation)  41 .4 40 MEW  AKSEI;IRODI* M.M.; VIDGON, L.N.; ROKOTYAN, S.S.; TURETSKIY, V.Ye. Cocipariaon of the economic efficiency of d.c. power transmission and transportation of gas to electric power plants. Izv. HIPT no.8:20-31 161. (MIRA 150) .,(Electric power distribution-Costs) (Gas, Natufal-Transportatioln)  AiCSELIROD, M.M.; ROKOTYAN, S.S. Engineering and economic indices of d.c. power transmission lines with intermediate power take-off. Elektroenergetika no.53120- 128 162, (MIRA 15:4) (Electric power-distributicn--'High tension)  TSI-DILIIMVSIKIY,, I.M.; SOKOLOV, V.I.; AXSELIROD, N.M. Resistance of semigetals in strong magnetic fields. Fiz. met*, i metalloved. 16 nos~s318-320 Ag 163. (HIRA 16:8) 1. Inatitut fiziki me*llov AN SSSR. (Antimony-Bleciric propertieo) (Magnetic fields)  M-10 Tl~, p T C 7 A ~;s 7~t m o r, - p PSTPACT: 7'~ C) r s f3 o cl s c '1~; maq ""t- 'L .1 -7j  L 2072-65 P~CCESSION NP: AP5OOj467 tne electron takes place. Th e p O-ainsL t',I)e field are ,~-is-ruzzL-4 in Ligs"-IL ol -Lhe Published data. "The authors tbank G. 11 Xharus for a discussion of the measurenwnt rr!suIts." Orig. axt. has: I figure and I formula. ASSOCIATION! Institut fizikl C~ -K  I , i . ~, - il . ~ 3i K - - - - ~ , - '. I.-i , .1 c) 5 - --- -.. -4 . UU'l 1:-,7- ~-- 1 , ne 1, - ~ . 4 1 z . Cord ' '7 . . - '--' " n-;i:. . ~  za-  -4;66 bP(c JD ACC NRt AP6002037 SOURCE CODE: GE/0030/65/012/002/0667/0678 X .AUTHOR: Tsidilkovskii, I. M.; Akse M.; Uritsky, S. 1. ORG: /Tkdilkovakii, Akselrod7 Inatitute of Metpq1_VqsiSst rd1j -kovskii, Ur'it-sky7Ura1 State UniversTty-- !sk /Teidi3 TITLE: -Spin-magnetophonan re sonance -In semiconductors SOURCE: Physica status solidi, v. 12, no. 2, 1965, 667-678 TOPIC TAGS: semiconductor, magne Itoresistance, phonon, conduction electron, AfIL-, Z_4,Ac4z. AA,"Cx, ABSTRACT: A theory of spin-magnetophonon resonance is-presented. The spin interaction!- -,of-electrons with notica.1 phonons-is described by the introduction of vector and' scalar potentials of the,optical vibrational field. It is shown thatthe spin-magnet- ophonon resonance should cause alanimum in the longitudinal magnetoresistance. The experimental data for n-InSb and N-InAs;1re discussed on the basis of this theory. In experiments conducted on N-InSb,.a maximum transverse magnetoresistance -obser q__w4s ved at 82 o resonance. J ______kg.____This_peak.- coresponds--to-the--sVin-;;-tddktidtt~6-0 The &-factor- for the-conduction electtonscalculated from this maximum is in good agreement with the theoretical value. A minimum in the:longitudinal magnetoresistance observed at 24 kg was atrributed to the combined magnetophonon and spin-magaetophonon resonance scattering. Orig. art. has- 17 fdrmulas and 3 figures. ICS I SUB CODE. 20 SUBM DATE: 05Jul65/ ORIG REF: 0041 OTH REF: 008/ ATO PRESS: Card 1117  AP6032017 SOURCE CODE: AUTHOR: Akseltrgd, M._M.; Tsidillkovakiyp 1. M. ORG: Institute of Physics of Metals,. AcadSZ of Sciences SSSR (Institut fiziki MeZi. lov Akademii nauk SSR) TITLE: Spin magnetophonon and magnetophonon oscillations of !~Ag etoresistance in n-InAs IVA &~TE: Zhurnal eksperimentallnoy i teoreticheskoy fiziki. Pis'na v redaktsiyu. Prilozheniye, v. 4, no. 6, 19660 205-208 TOPIC TAGS. phonon interaction, magnetoresistance, galvanomagnetic effect spin phonon interaction, spin resonance,indium compound, antimonide ABSTRACT: This in a continuation of earlier work (Piz. tyerdogo tela. v. 7, N6 1 1965, Fhys. stat. Sol. v. 12, 667, 1965) on spin-magnetophonon resonance (SM). it is show that in n-InSb the results explain the observed mininnim of the longitudinal magneto- resistance (pzz), which is due either to SMR or to combir d transitions. Investiga- tions of longitudinal magnetoresistance in_single-crysta'~.' 16- 1 n-InAs with n - 2.2 x 10 cm73 at 3OOK have shown that pzz does indeed have a minimum located at 480 kG. If it is assumed that this minimum is due to SMR, then the value Igol - 19 obtained for the g-factor is in good agreement with theory. The authors investigated also the trans- verse magnetoresistance (pxx) in the temperature interval 250 - 22OK,, and found that pXX has a ma imum at 76 kG, corresponding to MPH transitions. It is shown, however, that these transitions do not cause the minimum of pzz observed at 78 W. The maxi- Card  AKSELIRODI N.M. Industrial efficiency wid the development of invuntions in the I-lain Adrdnistration for the Supply of tho National Economy with Petroleinn Products of the Russian Soviet Federated SocipJist Republic. Transp. i k1wan. nofti i neftprod. no.6:32-33 164. (I-alltl 17:9) 1. Glavnoye upravleniye po transportu i SDabzheniyu neftlyu i nefte- produktam RSF'SR.  AKSEL'RODo P.L.9 inzh. Simple method of .determining the heat losses of insulated overhead pipelines. Teploenergetika 7 no.11:87-88 N 160. WaA 14:9) (Steam pipes--Testing)  VLASOV, Sergey Afonaelyevich;-AWLI.204,.R.~6, redaktor; SIREBRREKIKOVA, L.A., redek-tor; MATUSIVICH, N.L., tekhnicheskiy redek-tor [Bricklaying of hollow walls] Kolodtaevaia kladka sten. Moskva. Vees. uchobno-padagog. izd-vo Trudrezervizdat, 1956. 50 P- (MLRA 10:1) (Bricklaying)  MOSKATOV, Yevgeniv Petrovich; AEBBLIROD#, Polina Savellyeva, ivxho, nauchWy red.; KCITTSEVAYA, I.M.-,-~red.; 691A~or,,-v.8., tekhii.red. (Do it yourself; collection of articleBI.Svoizi rukami; abornik. Moak-va, Vaes. uchebno-padagog. i2d-vo Tru&rezervizdat, 1957. 192 p. (Technology) (MIRA 11:3)  BRUYLVICH, N.G.., akademik,, otv. red.; HXELIROD,_.P~-S. red. [Precision and reliability of automatically controlled manufacture of machinery] 0 tochnosti i nadezhnosti v - avtomatiz.rovannom mashinostroenii. Moskva, Naukap 1965. 137 p. (MIRA 18:4) 1. GosudarstveMvy nauchno-issledovatellskiy institut ma- shinovedoniya.  L it m Cc W 1`1 k A # 4 09 J, ~,A Kwv RD F- -ct14;04 RaVW anollaim of skys of AMC pe Odundaum, 0 niaftaxim. t1m). IWO af~ Kb. A. J(Aduts- kaya. Zovedska)a Lab. drtmilm of Mu is best done by Felshl 6 test: the WmPle is 0: i 0 vr t is tr- ter 2-3 inin. 1 treated with a &DP of 2D% N* l t i;mm.1 by it railer ImIxT uhich 1% Itratril with A -IrRis 4 es I ~Suldt -Uthkv. a IlIddeah4l Ity NAOII, Ifulimink P111- 00 0 41unifi): the AlNis alkWi either amw im chAnge tv air l t 1 11c1 1 g IIN t d - vr (h. e can w 4 10m W. I 41 famp 1 00 if 1 lk i AN t I 1 I di W k *0 0 n rs; n 01 m ylie a c ty, 11, 4 ,pr. tt" Cu n t e ml to I l r f I N l oll 1 t oo p 4 c a ta m o ca u .j o , t pp all, In caw of Duralutnin alloy. G. Nf. K(W44poff too 00 00 :50 0 OW, f age , 7. 7 of ,--. : am 64"~ '40 0 0. 71, u :10 0 0 0 0% -An--4 t -n-d- .7 -1W Ot- 0 ii 3 T 6010 0 0 9 * 0 & 0 & 0 * 0000000 0 0 * 0 0 9 * 0 0 e 0 0 0 0 0 0 0 0 0 0 0  AKSMOD., R. S. A 77 USBR/MetAls Stiil Analysis'' Dec 50 1 "Determination of Oxygen in Steel," R. S. Aksel~ rod, L. S. Tarasova, Dnepropetrovsk Plant for Metallurgical Equipment "Zavod lab" No 12, pp 1494, 1495 Suggests better method for sampling molten steel and describes detn of oxygen in steel by improved Heurty methoa. Roasted residue was fused with 2-3 g potassium bisulfate and, after lixiviation and electrolysis of soln with Hg cathode, detn was photocolorimetric using color reaction with aluminon. 1"3  ^ -dPrKSEL' kOj), (~- s - %_ozl Ast"kada of M"M to pu"".-R 's. 0A . Genkins, &W F. 1. Vudellovkh. Zawd- - 112(IM).-Heat the sampki in willwi crudbks with Iluvwd *H or paraffin, io that 165' is reseW In 4-3 min.; bap at 163* for 3 min. 0. M. KWA)ISPOff  -AIKSILT41-ROPI. S. , Coll for the introduction of radioisotopes into the well. Raxved.i prom.goofts. no-311.89-92 159. (MIRA 13:4) (Oil well logging, Radiation)  USANOVICH, H.; AKSELIROD Physicochemical study of the system No+ CI-' sc~-# 00 Part 2: Xeotric-conductivity, viscosity, and density of N e ternary system Naf~ 017-1. $047-, %0. Izv. AN Kazakh. SSR.Ser. kbim. no.1:3-14 160o (MM 131l1) (4stems (Chemistry)) (salt) (Sodium sulfate)  AKSELIROD, S.B. Determining flow characteristics of the "nozzle-damper" type control system. Inform. sbor. TSNII14F no.64. Tekh. ekspl; mor. flota, no.9s27-31 t6l. (MIRA 16:6) (Hydraulic control) (Marine gas turbines)  AKSELIROD.? S.B. Comparison of diagram for - ine gas trubine plants and controlled pitch propellers. Trudy TSHIIW 7 noo34*-124-131 161. (KM 14:8) (Marine gas turbines) (Propellers)  8/752/61/000/038/01/001 A026/A!26 AUTHOM Aksellrod, S.B. TITIEt Approximate formula for evaluating the magnitude of the jet Influ- ence on the damper of,the control mechanism type "nozzle-damperM SOURCE: Tsentrallnyy nauchno-issiedovatellskiy institut more.kogo flota.. no. 38, 1961. Tekhnicheskaya eks luatatsiya sudovykh silo* Trudy. vykh ustanovok The author develops the approximate formula for determining the pow--i TITLE:- er characteristics of the control mechanism when the regulating system uses an Incompressible fluid as-working substance. All previous Investigations on this subject assumed a flow toward the damperp the incompressible fluids used being air, kerosene and Amrio (AMG10) oil. However,"for a large number of marine gas-w turbine installations it Is necessary to know the damper characteristics when the.`0 flow is directed away from the damper (Fig. 1). The fluid uqed for this particu- A jar Investigation was diesel oil. The author finds the final formula (8) for the case of flow as shown in Fig. ls Card 1/2  ARSELOROD, S.B. Approximate formula to evaluate the flow pressure on the valve of a "nozzle - flap" type.control system. Trudy TSNIDW no.38:102-105 161. - (MIRk 15:9) (Hydra)LUe control)  AESELIROD, S.B. Automatic regulation of starting arrangements of marine gas turbine-plants. Trudy TSNIIHF 8 no.44240-45 162. . (KM 1611) (Marine gas turbines) (Automatic control)  ARSELIROD,, S.B. Pulse slection for an-antipumping regulator of a marine gas turbine plant. Trudy TSNIIHF 8 no."t72-78 162. (MIRA 1631)-' (Marine gas turLines-Zafety appliances) (Gove ors' (Machinery))  AXSELIROD) S.B. Determining the efficiency of marine gas turbine compressors in operation. Inform. sbor. TSNIIMF no.94 Tekh. ekspl. mor.flots, no.2106-60 163. (MIRA 17-.4)  hffect of the stability of equilibrium regimes of marine gas turbines driving oontrollable pitoh propellers on the selection of the Idlin parameters* Trudy TSNIIMF no.58s65-75 164,  -AUTHORt Aks21_Lr_m1&_jL_B- ORG: no, n VITLE: A starting re ator for agas turbine installation. Use& 46.9 No_~-i~7361~~; gul n' isobretv ~SOURCE iByullste n iy i tovarnykh znakov, no. A, 1965, 100 TOPIC TAGS$ gap.turbine -turbine compressoro turbine design 4BSTRACT 3 This Autho certificate presents a starting regulator of a gas turb ih installatibn. The regulator contains pressure pickup tubes before and after the ,compressor (before azA after-throttle socket in the air duct) and a directing member activated by a computing device when the correlation of pressures correw -sponds to the extremes of pumping (see Fig. 1). To improve the performancep the computing device is made in the form of a chamber connected to the pressure pickup tube behind the throttle- socket& The tube carries three nipples. One of these is, onnected to the pressure pickup tube behind the compressor, the other to the Z pressure tube ~n front of the throttle socket) and the third serves as the re- :-Gard-1/2 2 17 ~10 R NOR '00 IN M A,   iTSELIROD, 3olomon L'voviCh N/5 850.11 . A3 SportiviWe sorevnolinniye v kollektive fizicheskoy kul'turY (Sports COM- petitions in the physical culture group) Moskva, Fizkulltura i Sport, 1956. 126 p. tables.  6. AKSXLIROD, S., z3Lsluzheuny7 master,sport4t; KIROYAKOV, Yu. Galliethenice in industry. Okh,truda i cote.strakh. no.1:54-55 is 16o.- (Calliethenio.a)I(Industrial h7giens) (KIRA 13:5)  kKSELIROD, Solomon Moiseyevi.ch; BM4,AN, Mark Mikhaylovich; VIVOGFMq ivi~ix;-GOLIDUND, Samuil Shlemovich; DIJGIN, Yakov Sergeyevich; DULBPOVp Konstantin Vasillyevich; KALUGA, Ivan Ivanovich; LERNER,, Yefim Llvovich; LUTSKIY, Moisey Leybovich; PILETSKIY, Vladimir Kirillovich; SADOVVIKOV, Petr Favlovich; SHLYAMOVICHjp VASIL tYBVp`B'*X.-p- "ied. I BOBOIZVp Ye.M.p tekbi.-'~red.- I ~~. :- ~--. :~- [Problems of radio engineering and radar]Zadachnik po radioteF-, nike i radiolokatsii. [By)S.M.Akeellrod i dr. Moskva, Gosenergo- izdat, 1962. 414 p. (Radio) (Radar) (MIRA 15:12)  AXSZLIRDD, S.M, Instrument for repelling magnetic points. Ra2ved.i prom.geofiz. no.12:43-50 155. (MLRA ():?) (Magnetic measurements) (Oil well logging)  - ROD, S1. M. "Radioactive Isotopes Used in Surveying Azerbaydzhan Oil Wellsy" Utilization Of Radioactive Isotopes & Emanations in the Petroleum Industry (Symposlum), Min. Petroleum Industry USSR, 1957. Results of the Joint Session of the Technical. Council of Min. off the Petroleum Industry USSR and Soviet Sci. and Technical Association, moscow.14-19 Mar 1956.  AXINLIROD PUTURAWN, L.A. Doternining the absorption profile of injection wells by the activated suspension method. Azerb. neft. khoz. 36 no.10:1(~-11 0 '57. (HUU 11:2) (Secondary recovery of oil)  AF-S-Fl-'ROD, S.1.1 Cand Teqh Sci-(kli~ia) "Radioletive methods of NAM- A j tc~~A rluu -i= 0 cemen lic "tt- ti Dnjalt 1~5pl. , IJ4 f& A 16 pp (Ilii of HiGher Eduefttion US.M. &-der of L-bor Red Dalinor Ijidustrial Inct iiii l-'. Azizbekov), 100 copiev (J,'-T p 22-53,107  ftV,_%j_L, Ao D) c~. (n 3(5) PHASE I BOOK EXPLOITATION SOV/2819 Voesoyuznyy Dauchno-issledovatellskly institut geofizichenkikh metodov razvedki Razvedochnaya i pronWslovaya geofizika, vyp. 23 (Exploration and Industrial Geophysics, Nr 23) Moscow, Gostoptekhizdat, 1958, 77 P. (Series: Obmen proizvodstvennym opytom) Errata slip inserted. 4,000 copies printed. .Ed.: A.I. Bogdanov; Exec. Ed.: Ye.G. Pershina; Tech. Ed.: A.S. Polosina. PURPOSE: This booklet is intended for geophysicists as well as engineerin& and technical personnel in the petroleum industry. COVERAGE: This collection of articles describes new equipment and instruments used in the petroleum industry. individual articles discuss the single- cable electronic thermometer and the magnetic logging locator. Regional exploration problems such as electrical sounding at sea, electrical survey in permafrost areas etc. are also treated. References accompany each article. TABLE OF CONTENTS: Datakeviah, A.A. Magnetio Logging Locator 3 Akeellrod, S,M. Single-Cable Electronic Thermometer 16  30) PHASE I BOOK EXPLOITATION SOV/2821 Vaesayuzn" nauchno-Issladovatel'skLy inst1tut georizieheB)digh meto- dov razvedki Razvodochnsya I MY 1 'y eofizlka, vYp. 24 (Exploration and In- ' *c `a A' t 8 58 I d 29 : j & . P. z M..c.,Gostvptekh , 5 .24 ic N dustrial Geo 7 , (Series: Obmen proizvodetvennym upytom) 4,500 copies printed. YA.s M.X. Polshkov; Exec. Ed.t Ye. 0. P*rahins; Toth. Zd.t X.G. Fedotoya. PURPOSE: This booklet is Intended for geophysicists as well am on- gIne*ra and technicians engaged In geophysical work. COVZRAGEt This colle-~tlon of articles discusses now methods of In- terpreting electrical logging# gravimetric and seismic data, and describes industrial geophysIc ILI instruments (cementometer, per- forator, etc.). Improvements made on older apparatus (G.E., a change In the design or a perrarator for radioactive electrical logging) a" also discussed. References a company each &rtlols. POPOvo Yu- M- Inte'rPretatiOn Of TellurIc Current Observations 17 Popov, rJ- It- -NOmOgrftm for the Control of Angles in constructing Vector Diagrams In the Telluric Current Method 22 Bordovekly, V.P. COmPutln& Coefficients of Dipole Units in Cur- VXI-M-CL-F MFU54- 24 Delo!imo arevity Effect or a VevtlcmLl Cylinder of Finite 1,1:~P 26 MOlOchnIkOv, Z.1. Zvs2ustIng the Character of Oil Saturation of Carbonactous Reservoir Rocks Through glectrologgl.g Data 34 Ak!jX.rod,A,j5, Well Cementometor for Operation With a Single- _ wWrium Lot 3T Zol'tOmanp Jr-A. Substituting the Inclinometer %3h-3 and I&h_4 _ _ _W4~~rO F13~ *ut Subsequent Resealing 42 Gorton !et L.A. New Perforators for oil Wells 46 Fami-M-S., and M.P. SumeroT. Automatic RoIst 3-Itch-orr for Urge cable Loads ~ 56 change In the Design or a migh voltage Tran, former In Depth Appliance for Radioactive Logging 57 AVAIL&SIXt Library of Cong"ps 9 CA" 3/3 MM/b 12.32-;9  .14(5) SOV/112-59-5-9497 Translation from: Referativnyy zhurnal. Elektrotekhnika, 1959, Nr 5, pp 148-149 (USSR) AUTHOR: Aksel'rod, TITLE: PM &=ine~ntfor Checking Cement Distribution Around a Column PERIODICAL: PrikI. geofizika, Nr 18, 1958, pp Z10-Z31 ABSTRACT: Until recently, the quality control of cementing was restricted to determining the height of cement outside the casing. The height of cementing was determined on the basis of a temperature curve taken 18-40 hours after cementing had been finished. This method has a number of serious disadvantages, and for that reason a radioactive measurement method has been used during recent years. This method includes activating the mortar by a radioactive isotope. As the intensity of gamma-radiation is a direct function of the quantity of cement, a notion can be derived from a gamma -radiation curve about the distribution. The activated mortar can also aid in determining Card 1/3  SOV/112-59-5-9497 Instrument for Checking Cement Distribution Around a Column the quality of cementing. After the cementation has been completed, a probe with a cylindrical screen and a longitudinal slit is lowered into a drill hole. By turning the probe, a gamma-intensity curve can be plotted against the turning a4gle of the screen. This curve characterizes the variation of cement- layer thickness aroand the hole. Irregularity of cement distribution over the cross-section of the hole, which corresponds -w1,o the offset of the column axis with regard to the hole axis, is, characterized by the difference between the maximum and minimum values of the curve. The instrument sensitivity to variations in the cement-layer thickness is characterized by the ratio Imax/Imin, which depends, other things being equal, on the ratio of the total attenuation of gamma-radiation to the useful gamma -radiation; the latter values depend on the screen parameters (wall thickness, slit angle). The deep probe intended for determining the cement-layer thickness is referred to as a 11cementometer. " The cementometer comprises: a gamma -radiation indicator, Card 2/3  SOV/112-59-5-9497 Instrument for Checking Cement Distribution Around a Column power supply for electric motor that drives the alit screen, and a set of contacts. The gamma-radiation indicator is similar to a radioactive -logging probe. The most favorable results come about when the screen thickness is the greatest possible for a given size of the probe - With a probe about 110 nun diameter, the optimum slit angle is 7 50 for 1. 2 mev gamma -radiation and 300 forO.65mev. Isotopes with a monochromatic gamma -radiation are most suitable for cement activation. Isotopes with a compound gamma-radiation spectrum make processing of the cement -distribution curves difficult. Fifteen illustrations. Bibliography: 5 items. A. A. R. Card 3/3  A . $ROD. S.M. Blectronic thermometer with a geofiz. n0-23:16-19 '15a. (Thermometers). (Logging single-core cable. (Geol6&)-JquIpment Razved. i prom* (MM lltl2) and iupplies)  AXSBLIRODI S,M, 11_~ Cement meter for work with a single-core cable. Razved i prom. geofiz. no.24:37-42 158. (MIR& 11:12) (Oil well loggingo Radiation--Equipment and supplies)  tali i i.-tIV14 14 4 'jig la 3 a ail A I H-Ef - ; I 11 1 Hill. 19-11 3- :19 5t .3 At I Sc 4 via" 2 3 1 f Aj 4 Ail g's A jj~ lie all  AUTHOR: Aksellrod, S.M. and Chernyak, G.Ya. 30V/132-59-1-7/18 "'Sam F Var4- TITLE: The Dielectric Coring of Bore Holes (Dielektricheskiy karotazh skvozhin) PERIODICAL: Razvedka i okhrana nedr, 1959, Vr 1, pp 28-30 (U3SR) .4BSTRACT: VNII of VODGEO and the Azneftegeofizika Trust investigated the possibilities of using the dielectrical properties of rocks - dieleotrical petArability (S) and dielootrical losses (F-) - for the coring of the bore holes. The experimental dielectrical coring equipment, designed by these organizations and built by TsNIL of the Trust, con- sists of a device placed in the bore hole, and of a our- face installation. The device in the hole contains a measuring generator of high frequency oscillations (frequency of 10 mc) with a specially-designed capacitor attached to its oscillatory circuit. The variation of the dielectrical penetrability of the rocks changes the capacity of the capacitor, which causes the change in the frequency of the generator and in the amplitude of the voltage in the circuit. At the same time, the Card 1/2 variation of the dielectrical losses of rocks influences  SOV/132-59-1-7/18 The Dielectric Coring of Bore Holes the amplitude of the voltage between the ends of the oscillatory circuit, and to a certain degree, the frequency of the generator. Thus the frequency of the generator and the amplitude of the voltage on its oscillatory circuit are functions simultaneously of the dielectrical penetra- bility and of the dielectrical losses of rocks in the bore hole where the capacitor was placed. The frequency of the generator and the voltage on the circuit are sent up to the surface installation and registered as two curves. The analysis showed that these curves of the dielectrical coring have considerable differentiation and divide the whole cross-section of the bore hole into separate layers. There is one diagram. A SSOC JAT ION: Trout Aznuftegoofizillut (Tho A-.-,no1*togPofi-ziku Truct) VODGE0 Card 2/2  AKSILIROD, S.M.; GULITEV, A.S. 'A Experimental no.8:12-13 Ag induction logging apparatus. Azerb. neft. khos. 38 59. -1 (MIRA 13:2) 41 vell logging, Electric)  AESELIROD, S.M.; GADZHI-;IKASIMOV, A.S.; LISTINGARTAN, B.M.; PUTKARADZB, L.A. Using the induced sodium activity method for determining the water- oil contact in the Balakhan'-Sabunchi-Ramany field (Oil Field Administration of the Lenin Petroleum Trust). Azarb.neft.khoz. 38 no.11:11-12 N '59. (MIRA 13:5) (Apsheron Peninsula--Oil well logging, Tadiation)  S/169/61/000/011/029/065 D228/D304 AUTHORS: Akeellrodt S.M., and Putkaradze, L.A. TITLE: Applying radioactive methods of well investigation In the oil industry of the Azerbaydzhan SSR PERIODICAL: Referativnyy zhurnal, Geofizikat no. 11, 1961, 35, abstract 11A308 (V ab. Yadern. geofiz. pri poiskakh polezn. iskopayemykh, M., Gostoptekhizdat, 1960t 21-36) TEXT: Gamma-ray logging (GL) and neutron gamma-ray logging (NGL) are included in the rational complex of commercial-geophysical in- vestigations for all deposits. The high economic effect of the app- lication of GL in wells of the old stock is pointed out. The data of GL and NGL are used in complex interpretation together with those of electric logging for appraising the oil- and gas-content of beds andt mainly, for distinguishing gas-bearing beds amongst petroliferous strata, as well as for dissecting the profile. The application of NGL for determining the porosity is impeded by the high content of clayey material in rocks of the productive series, An inverse relation between GL readings and the porosity, for whose Card 1/3  8/169/61/000/011/029/U65 Applying radioactive methods of ... D228/D304 construction relative G1 values and core data on the porosity were used, is noted in some formations. The curve's coefficient of cor- relation comprises 0.7. Similar relationships may be used only for separate horizons. The accuracy for determining the porosity from the data of GL does not exceed 25 - 30 %. The possibility of apply- ing the method of neutron activation (KA) for sodium to strike off the position of water neutron logging (WNL) in strata with a stra- tal-water salinity of 70 - 120 g71 is established. The effect on WNL does not usually exceed 30 - 40 %. The influence of a number of well conditions on the striking off of WNL was experimentally in- veBtigated in models. It was shown that in water-filled holes of diameter 110 mm, with an unevenly cemented collar, the influence of the equipment's eccentricity does not exceed 3 - 3.5 %. The magni- tude of the effect on WNL becomes greater when the salinity of a water-filled hole is increased. The moving of the device to the wall of the hole and the use of high- and low-speed counters somewhat increase the effectiveness of the WNL determination. NA is measured by low-speed counters in the interval between 15 and 22 hours after the end of the irradiation. A similar method is used, too, when Card 2/3  ( 'AKSELIROD, S.M.; PUTKAHADZEs. LeA. Calibration of apparatus used in radioaotive logging. Razvod. i promo geofiz* m*381M-3-14 160* (MIRA 14:3) (oil well loggingv Radiation-Equipment and supplies)  AME-LIRCDp S.M. Calibration of an induction logging unit. Izv. vys. uaheb. sava; neft' i gaz 3 no.5:19-25 160& ' (MIRA 15:6) I 1. Azerbaydzhanakiy inetitut ncfti i khimii imeni M. Azizbekova.. (Oil well logging,, Electric)  ABRAMUN, S.L.; AXSELIROD, S.M.; ALIKSIM, I.A*; AWTSHELI, S.A. [deceased], BISFALCIV. D.T.--,-WZHr-iLASDIOT. A.S.;ZMIN, K.A.; LISMGLRTXN, B-M-1 ODINOKOV, V.P.; RJNAIRADZE, L.A.; SHIMWWICE~ Yu.S. Neutron-neutron pulse method for investigating wells ard results of its use in the Balakhant-Sabunchi-Ramany field. Aserb. neft. khoz. 39 no.n:9-13 N 160* (MM 13;12) (Apsheron Peninsula-Oil well logging, Radiation)  PHASE I BOOK EXPLOITATION SOV/5592 Vsezoyuznoye soveshchaniye po vnedrenivu radioakt!vnykh izotopov I yaderny" izluchenly v narodnom khozzyaystve 5550R. Riga, 2960. Radioaktivnyye izotopy i yadernyye izlucheniya v narodnom Ichozynystve SSSR; trudy Vsesoyuznogo soveshchaniya 12 - 16 aprelya 19G0 g. r,. Riga ,v 4 tomaldi. t. 4,' Poiski, razvedka i razrabotl(a poleznykh iskopayemyldi (Radioactive IBotopes and Nuclear Radiation in the National Economy of the USSR; Tran- sactions on the Symposiuri.Held in Riga, April 12 - 16, 1960.in 4 volumes. v 4- Prospecting,Surveying and Mining of Min-" eral Depozit;) Moscow, 06stoptekhizdat; 1961. 284 P. 3,640 copieu printed. Sponsoring Agency; Gosudarstvennyy nauchno-tekhnicheskly-komttet Soveta 1111nistrov SSSR. Gosudarstvannyy komitet Soveta'14-inistrov SSSR po ispo."zovaniyu atomnoy energii Eds. (Title page): N. A. Petrov, L. 1. Petrenko, and P. S. Savitskiy; ed. of this volume: M. A. Speranakiy; Scientific ed.:. M. A. Speranskiy; Eyecutive Eds.: N. N. Kuzlmina and A. 0. lonell; Card. 1/11  Radioactive Isotcpes and Nuclear (Cont.) SOV/5592 Tech. Ed.: A. S. Poloqina. PURPOSE : The book is intended for engineers and technic'.ans dealing with the problems involved In the appll~atlcn of radioactive ieotopes and nuclear radiation. COVERAGE: This collection of 39 articles is Vol. 4 of the Trann~~c- tJxo of the All-Union Conference o~ the introduction of Radio- active laotopeD and Nuclear Reactizno in the Natit-nal Et~~nemy of the USSR. The Conference waa called bv th, nauchno-teklinjoheskiy komitet Sovet MinistroyS.33R (,Stat-e Scientific-Technical Committee of the Council of 14-inisters f the USSR), Academy of S-,icnaer, USSR, Gosplan SSSR (State Planning Committee of the Council of DLinlPter3 of the IT::Sill. Go-u-tar,3tver- nyy komitet Scveta 14iniatrov 335R po avtomatizatsil I maablno- stroyeniyu (State Committee of the Council of bllni5terB of the USSR for Automation and Machine Building),and the Council of Ministers of the Latvian SSR. The reports summarized In thio publicatiorl'deal with the advantages,.prospects, and Card 2/.11  Radioacf,-ive isotopo and Hijelear (Cont.) WT/5592 development of radioaotive methods uaed in proupecting, sur- veying, and mining of ores. Individual reports present the reoults of the latest scientific research on the development and improvement of the theory, methodology, and technology of. radlometric investigations. Application of radicactive methods in the field of engineering geology, hydrology, and the con- trol of ore enrichment procoaBca is analyzed. No personalities are mentioTxd. There are no referonoes. TABLE OF CONTENTS. Aleksoyev, F. A. Prozent State and lkituro Prospects of Applying the M'athods of Nuclear Geophysiab in Prospecting, Surveying, and 1 4,11ning of Minerals Bulashovich, Yu. P., G. H. Voskoboynikov, and L. V. Muzyukin. Neutron and Gamma-Ray Logging'at Oro and Coal Depozits Gordeyov, Yu. I., A. A. Ilukher,and D. M. Srebrcdol'3kiy. The Card 3/11 5 19  + Radioactive I3otopea and Nuclear (Cont.) SOV/5592 IQ.-aydarov. Certain Methods for the Interpretation of the Con- plex Gamma Spectra in Analyzing the Activated Sar.Dles of Rockz -3,72 Yrikubovich, A. L., and Ye. 1. Laytsev. Plant of the 'Neutrr-n7l Type and Its P03F~ble Utilization for the Ana.Ly:3!s oP the Material Com.-co,11.1on of Rocks 0 Yakubovich, A. L., and V. Yu. Zaleskly Roentgenoradicvetric Method and Equipment for Aecelerated.A;alysi.3 of the Chemical Oc,mponlflon of a Sub3tance -.87 Narbutt, K. I.j R. L. BarInDIcly, and 1. S. SmIrnova. A;:pli- cation of Nuclear Radiation in HoentgenoBpectral Analyaiz "98 Abranyan, S. L., S. 14. Aksellrod, and L. A. Futkaradze. kp,~U- cation of Radioaci1TO--X3vtOPZ7-.nd Nuclear Radiation for the Inveatigation of Boreholes In Azerbaydzhan 201 Shnurman, 0. A. -Experience 'With Radiometrlo Investigations Card 8/11  LISTENGARTEN, Boris Moiseyevich; red.; SHTMGELI, A.S., red.; 14IRKISHEVA) SO) tekhn. red. (Practice of the Oil Fiold Administration of the Lenin Petrolewn Trust in using radioactive methods in oil-field geology] RadioaktivrWe MetOdY v neft3promyslovoi geologii;- opyt IqpU uLgninneft'n. Baku, Azarbaidzhanskoe gos. izd-v6$ ""' "0 P' (Azerbaijan--Oil well luggingo NIRA 5:2) Rad=_  AKSWROD, S.M. Scale for induction logging curves. Izv. VY8. ucheb. zav.; neft' i gaz 4 no.3t23-26 161. (K= 16 s 10) 1. Azerbaydabanskiy institut nefti i khimii im. M.Azizbekova.  ,,"AKSELIROD, S.,M, ~ __ Analysis of the operation of the Induction logging tool while adjusting to resonance the netuor', of the receiving and generating coils. Prikl.geofiz. no.30:206-214 161. (MIRA 14:10) (Electromagnetic' prospecting)  AKSELIRODI S.M.; SOKHRANOV,.N.N.,, nauchnyy red.; KRAVCHENKO, M.D., rgd-.-TBORLTSHKO, T.L., red.izd-va; SWAWVA, T.M., tekhn. rod. [High-frequeney methods for.st-u4ying boreholes; induction and dielectric logging]VyookochastotnVe matody isaledovaniia okvazhin (induktsionnyi i dielaktricheskii karotazh). Moskvao Goo oltekhizdat, 1962. 31 p. (MIRA 16:2) f0eil wall logj~~g' Electric)  Ave D, D.M ; ONELYAR, X.M*; SARKISOVAp Ye.Ab AMEMAPP-1-- Charts for calculating the effect of the well and the pe=eability zone on the results of measurements in inductivi loggin Aserb. neft.khos. 41 no..702-14 JI 162& 1 &Z 1602) (Azerbaijari-Oil well loggingv Electric)  AKSELIRMP S.M,; DANEVICH; V.I*; HELIK-SHAKMAZAROVy A.Me Theory of nuelear mgnetism logging. Izv. vys.(Ucheb. zav,; nefts i gas 6 n0-093-98 163. MMA .1637) 1, Azerbaydzhanskiy institut nefti i Ichimii imeni Azizbekova. (Oil well logging) r  -kKSF,LIROD,,,,-., t9.14.; AKHUNDOIY, A.M.; TER-GRIGORYAN, yu.N. I New method for dotermining the point at which the pipe is frogen. Neft. khoz. 41 no. 11;14-18 N 163. (1-11*RA 17:7)  L 230St-6; 7W7 R ) /IzTr-.4- /u7C (t ),/Fry, I ~N k A P40 i9bUkl Izv Set I" ~i ABSTRACT: The determination of trie impul lmppci,~;nrp Oeen soived for a-n emitter in vacuum. ard "fierpfc,re f- s Of I-he 6ectri-il Darameterc -)f ~'J 1- Cc,d 1/ 2  L 2305M555 ACCESSION NR. AP4039609 is -nihedfif--i in an infinite ht -nogene-us and i-t--i- -dium of viven ASSOCIA I'TON- None Cord 22  AKSF3-19,QD-., 8.1,11,; 13MAY1,0VA, W~ele-trical properl--L~s of wat-r-eatura~,,~ n,~kc. lit-ftegaz.gec"".. I geofi-2. nc.7.127-29 16r (MIRA 113:8) .'s 1, Tr,.ii~~Il ~lAznpftegeofizLka',',  L"~~7ja�~~6 tWt (I )/FCC GW _ACC NRt AP6005276 SOURCE CODE: UR/0413/66/000/001/0009 009 INVENTOR: Aksellrod, S. H., Danevich, V. I Ismaylov, A. Kh.; Menk-Shakhhazaro A. M. ORG: none J. TITLE:. A signal standard-for nuclear magnetic coring equipment. Class 5 No 1773M SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 1, 19S6, 9 TOPIC TAOS., nuclear magnetic resonance, -earth science instrument, earth magnetic field p rospecting "STRACT4 This Author's Certificate introduces a signal standard for nuclear magnet-- ic coring equipment which may be connected to the measurement system in P'lace.of the. pickup coil. The standard is independent of the direction of the terrestrial magnetic field with respect to theraxis of the instrument and proportional to the intersity of~ this field. The device is made up of 3 identical toroids with mutually perpendicular ayes. The internal cavities of these toroids are filled with the working substance. UDC, 621.317.44 550.83 Card 1/2   ABASHINA~ V.I.; AKSELIRCID, S.Ss; RUTHOVSKIY, G.Mo,- SMIRNOVA, K.A. The SM recording spectrophotometer, Zhur. prikl, spekt no. 2.-182-186 Ag 165.  1_20h11-6 _ J (c -_ _/ D. i -1 P ~ D~ ~j ACC NRt AP6029881 SOURCE COM Ul 56/000/015/0043/0()43 rod Sh S _4:LrLska AUTHORS: Tomashevskiy, F. F.; Lamedman, E. M.; Aksel OryA W. ve Pe I Du15_n6_va__W. R6_zovskfy___V_ I M.; Jjasha ORGt none TITLE: Nonlamellar negative electrode of an alkaline iron-nickel.,b~a~tter Class 210 No. 1843oo Camounced by plant I'Loninskaya Iskra" (Zavod "Loninakaya 1skra'T SOURCE: Itobret prom obraz tov zn, no. 15, 19661 43 TOPIC TAGS: electrodep battory, potassium compound, ironp nickel ABSTRACT: This Author CortJftcate presents a nonlamellar negative electrode of an. alkaline iron-nickel battery. After reducing the iron oxides free of impurities, thr electrode contains hO--70% of me tallic iron in its active volume. To simplify the technique of its preparation 'by eliminating the,operation of fusing, the potassium base is added to iron oxides before their reduction. Specific weight of the potassiu base is 1,40--1,48 g/cm3y and its amount is 0-5--5%- SUB CODEt 10/ -Card SUBM DATEs 10Sep65 Pj5e222  AKSELIROD V.A. inshener; SMOLYAR, A.A., inzhener. 9 -Self-unloading trailer D-258 of 12-15M3 capacitY. Mekh.stroi 10 6.5:14- 19 My 153. (MLRA 6:6) (Automobiles-Trailer&)  ROSDIOVA-AMELOYANCHIK, N.M.; AKSELIROD V.D?- TATARSKAYA, R.I.; AB - 0 KORENYAKO, A.I.; VENKSTERN, T.V.; Guanylic ribonucleaPq of actinom3roetes. Dokl. AN SSSR 157 no-3:725-728 JI 164. (MIRA 17-7) 1. Institut radiatsionnoy i fiziko-khimicheskoy biologli AN SSSR. Predstavleno akademikom V.A. Angellgardtom.  AKSELIROD, V.D.; VENKSTEERN, T.V.; BAYEV, A.A. ....... . ., lon-exchange chromatography of ollgonvelpo tides in a ribonuclease Ir ydrolyzate of s-FWA. Biokhimila 30 no-5:9c~9-1006 S-0 165. (MIRA l8t:LO) 1. Institut radiatsionnoy i fizilc.-khimicheskoy biologii A14 SSSR, Moskva.  ABROSIM(nrA-AMELtYANCHIK, N.M.; TATARSKAYA, R.I.; VENKSTERN, TN.; AU9WAQDj,X-JL..i BAYEV, A.A. Specificity of guanyl ribonualeage from ACtJnoVces. Dlokhlmila 30 no.631269-1276 N-D 165. (MIRA lgsl) 1. 1natitut molokulyarnoy biologil AN SSSR, ~bskva. Submitted May 129 1965.  ' i "" .--, MA '. A1.14.. I wl~wj 'T. . - 71MV P Factory Managonjent Competition for excellent accomplishment of each production operation. Leg. prom. 12 no. 7, 1952. 9. Monthl List of Russian Accessions, Library of Congress, November 195~, Uncl.  AKSELIROD, V.S. -------------- 11'ressed samples of infrared spectroscopy. Opt. i spektr. 8 no.5:721- 722 my 16o. (spectrum, Ififrared) -1 (KnU 13:9)  SOROKINP N,G,; LKq~-41ROPA-v S A--S , New developmd~" in the dispatching systems of clothing factories. Shvein.prom. no-5:20-21 S-0 162. (MM 15:10) (dlothi* induetry-Equ~#ent and supplies)  GaRSMOV, G.S., Inshener; A~MIROD, TsoIs, Inshenere Heating concrete n0,9:4-6 S 055. aggregates at place of storage. (Concrete) Strol.prome 33 (KLU 9:1)  AKSELIROD, Yevsey Zelikovich., inzh.; GODYNA, A.K., inzh.., red. [Pre9troaged reinforced concrete trusses having a 30 x. span with unanchored reinforcement; practices of the Kaunas Plant for Reinforced Concrete Elements of the Lithuanian Ministry of Construction and of the All-linion Scientific Research Institute for the Management of Rural Construc- tion Operations] Predvaritellno napriazhennaia zhelezo- betonnaia ferms. proletoxi'30m so sterzhnevoi neankerovan- noi armaturoi; opyt Kaunasskogo zavoda zhelezobetonnykh konstruktsii Mlinisterstva stroitellstva Litovskoi SM i Giproorgselistroia. Moskva, Gosstroiizdat, 1963, /+1 p. (MIRA 17:9) 1. Moscow. Nauchno-issledovatellskiy institut organiza-tsii, mekhanizatsii i tekhnicheakay pomoshchi. stroitel'stvu.  ADMIROD. Th.-- Automatic blocking on the 54,-5-5 crane. Stroitell 8 no*5:24 My 162. (MMM 15t7) 03.avW *O&anik- ','es. eprokhivi6tftY. (Crenest derrickep etc,--Safety Measures)  5 (4), 5 (2) 3/064/59/000/07/021/M AUTHORSs -Kasatkin, A. Go, Doctor of Technical B005/BO01 Soiencesy Professory Popov, D* Me, Akeellrod, Yu.-V. TITLE: Heat Transfe hrough the Walls of the Spiral Cooler Under the Conditions oY Bubbling PERIODICALS Xhimichaskaya. promyshlennost', 1959, Nr 7t pp 622 - 624 (USSR) ABSTRACTS The authors of this paper investigated the heat transfer on absorption of sulfur trioxide in concentrated sulfuric acid (98% HOW for the preparation of standard oleum and on absorption of sulfur dioxide in a solution of ammonium sulfite- biBUlfitS. In both cases, cooling spirals were fixed to the sieve plates of the absorption column. Table 1 shows the characteristics of the apparatuses used and the working con- ditions on investigation of the absorption of SO and S02- - The temperature of the cooling water was measurel when entering and leaving the cooling spiral; moreover, the consumption of water (kg per hour) and the temperature of the bubbling layer Card 1/3 at the plate were measured. This temperature was considered  Heat Transfer Through the Walla-of the Spiral Cooler S/064/59/000/07/021/035 Under the Conditions of Bubbling B005/BOOI to be constant at all points which corresponds to a complete blending of the layer at the bubble plate. The heat transfer coefficient K was computed from these values. The coefficients of the heat transfer from the cooler wall to the cooling water (c",2) and of the heat transfer-from the bubbling layer to the wall of the cooling spi i6al (OK-j) were also computed., The respec- tive equations are given in-the paper. Table 2 show.P the results of the experiments and computations. It appear that the values of K are very high and reach 950 kcal/M21jour ~~ C. Since the heat trAnsfer'through the cooler walls under A conditions of bubbling is considerable, the same apparatus can also be used for the cooling-of hot liquids. In connection with Itj the hot liquid is conducted through the cooler; the bubbling layer is cold. The evaluation of the obtained resul.ts showed thato~2 _j!n._Ucreases from 1950 to 6500 kcal/M2 our C at increasing t ar- I r velocity of flow of the cc-Wing wa r.o(I remained constant in the investigated range 75f bubbling' gas velocities 0.85 - 1-35'p/sec) and was 1200 kcal/m~oursaft on an average. This means that the total heat IfThnaf_9 c'efficient must be Card 2/3 e 0  Heat Transfer Through the Walls of the Spiral Cooler S/064/59/000/07/021/035 Under the Conditions of Bubbling B005/BO01 constant and indel3endent of the gas velocity whenv(2 is given- Table 3 showFW7%tmparison of the value forcK, obtained by the authors with the results obtained by other authors (M. E. Aerov and others, Ref 3P K. N. Shabalin and I. G. Blyakher, Ref 2p M. Ye. Pozin and others, Ref 1). The comparison provea the above assumption thatc