SCIENTIFIC ABSTRACT KLYARIELD, B.N. - KLYATSKIN, I.O.

S A. A-- P a A A-.:- 0 t. ACC NIto AP6013121 Sounax 6/004/0714/an 'AVrUW t "Nast Ab X, Ltuwlaoi" , M t "Us" TITLXt A -su"^*Ae bollow cathode L"m 4#, IMO 714-1n9 TOPIC TA*Bt~ hellust meout STS0002turr"t density 'gas: discharge gas' -dieehaft* pl"W~, 4t ASMM i~i viii ftes in US, an ,pr#eftij, fjft~,%90 j.,ja.j* ~"thorm 41soover*4 a mw Ar at typo7~t Slow dis- ebarv vbich tb"9 SUIW"0600 slid' in vhkb the o&tW* curt t density a" reach th cylindrical #Wsh&ped StMdex 50 A/40. so ftt , , a were 9"loyedl the disasters atd Ifteths (or -depths) of at least 11 "" of 9 WhicW"ri it the order of 6 ca., 7M disehargei i vers pulsed (puloo'langth SO-100.00c) to' avoid excessive hest'n Transition frou the dense glow Alsobar" OM toialmlogy isAbst of B.N.91yarfol 4, L,O,Owmm, "d A.S.Pokrovskmys-ftbolOwk -(ZW1j 360~1040 19" /av.; Abstract AP6023126/)) to the Super- don" d1e*h*rV**6"S 81814119d by a xUrp dm$o of the elgSt botentimi3aw bicrom" of the currents to #pit* of, tho Aft VoteAtifilt'and high ourents (typical valued an _~7 100 A at 300 V).and the low negative resistau" of tho or4er of -0ol-chat li"e, MIL j&2$ Lcom  ACC N14., APSOMM 'discharges were Win tel: W, am the Oi lbodo. Clow'svenly "Yored Me 4 of the hallow -44thod* k" tri"Atiii: to thio':Iaro d4sobarp was anted by the Appear- anCeof aathodi.4pota a'G4'G0-4'oi niod. ty- tutthOr -d"rease, of -the potential &W of the cuf t;; ~ It has 'not I!b"%' possible to obtals -Superdense Slow discharges with plane oleatrodese - ; pbotox"Ohe --ot the, -interior of the cylindrical cathode shoved that during the sup4rd#aso d0sobst" ~ the" Is a se"ral wAlliastor thick layer next to the cathode surf sq*~~withln --ihioh: them plosee" glows 'pore brightly than in the re"Inder of the region withiniho c osthodso ",, It is ofteiUded'thst the cathode fall r4uw is. "870 thin O.Wox) and *UVA.O,Ifttl~ a.fti,ftUW)*r al to*& leaving the bript luminous region In the,dir6ation if thO.cathodilWthe-husbar of electrons enteringit. Is 146da-1 of the oc several unItso'gh"U.'em thi value rresponding ratio In ordIaM,1glow discharges )*!,,two 00thode current density attainable iw a cathode.spots an44ransition to - an Ara, 411"firsee' XV-40'. sumeted, ftat", iig;MC carre, t densities RUM be achieved an MBS slo", '8M DATJgt,- -SdAv#U MIGO, 00 On AM' on- RV Ide  SOV/124-SB*2-2021 Translation from. Referativnyy zhurnal, Mekhanika, 1958, Nr 2, p 75 (USSR) AUTHORS., Rozenberg, M. D. , Zinovi yevs, L A.,,, Klyarovskiy, G. V. TITLE- Hydrodynamic Calculation Methods Re:ative to the Recovery of the Gas Content of a Petroleum. When the Gas Occurs in Solution (Metodika gidrodinamicheskikh raschetov dobychi poputnogo gas& pri rezhime rastvorennogo gaza) PERIODICAL- Tr. Vses. neftegaz. n. -I. in-ta, 1957. Nr 10, pp 257-265 ABSTRACT: Presentation of a calculation method relative to the recovety of gas appearing in deposits In dissolved form, starting from the pre - scribed (time) rate of withdrawal of the petroleum: the proposed method employs the petroleum- balance equation and a condition which connects the. mean petroleum saturation within the reservoir and the mean pressure, which,varies as the recovery process pro- gresses. This condition to obtained as a result of the numerical integration of the relationship between the values of the averaged petroleum saturation and the pressure. as supplied in a wor), by M. D. Rosenberg ( Rosenberg, M. D. , K raschetarn istoshcheniya Card 1/2 neftyanykh mestorozbdeniy pri rezhime rastvorennogo gaza. (On _3~  SOV/lZ4-S8-Z-ZOZJ Hydrodynamic Calculation Methods Relative to the Recovery (coat. ) the Calculations of the Depletion of Petroleum Deposits In the Presence of Dissolved Gas). Tr. Vses. neftegaz. n. -1. in-ta. 1957, Nr 10, pp 250-256; RZhMekh. 195S. Nr 2. abstract 2020). The authors provide a numerical sample calculation for the determination of the recovery of the gas and adduce concepts relative to the veri- fication and correction of such calculations with reference to production- me Squ reme nt data~ V. A. Arkhangellskiy Card ZIZ N  KLykqovsxly, (;. Ve Cand Tech liol -- (dies) IVW the problem of obtaining , samples of I layer petrol*4 in cases of regime .s oo-ineated with the manifestation of dissolved gas*" Most 1950., lb pp (Min of Iligher Education US.A. Mos, Order of labor Red Bitnner Petroleum InSt im Acrilwilcien 16 Me Gubklri)# (KL, 62-68# 102) 46.  SRANIOINO 8#N,j ONMIMN , T,P*j. ILTAROVSKIT, 0~1* 1'reparing oil reserves for exploitation. Osol. nefti 2 so.6s62-65 is 158, (NMA Us?) I. (Patrolfts soolomr)  Xw~Lwvomxly, G.V. Iffect of constant properties and as"Itift of fro* pa on oil flow in a dissolrod-Vo pool. Trudy MI 12:176-M 158, (KIU 220) (Oil roser"Ir ongineoring)  XLYAltOTS11T, G.T. - VispUmenut of disosbod-S" oil by ps fron a fro*-gu capo Trudr MI l2t'194-206 138. (MIRA 120), (Oil reservoir onessering)  ILUROTSVYI GOV41 ROZINAMO X#D# j Kidrodynamic problem on the production of oil from pools with free-CU cap, TruV MI IW07-221 058. (MM 120) (Oil reservoir ongtaaertnC)  KLYAROTSKXYg O.T. Obtaining actual resorveir-oll samploo Isolased In a layer fros oil containing diessIved gas, ?rv4 1111 12071-191 058. (Km U:)) 7p  ILTAROVSKIT, G.T.1 OVOMITWXO, T.F. Programing the development of flowing wells. %ft-khos,, 38 no.5:34-39 My 160. (MIRA 13:8) (Oil fields-Prodnetion methods)  ROUXM=s MoDol SINOWIMAS lpA,; q;~TEA a *T* ir--- . Mothod for a calcoUtlow of o"Ingboad gas roomry in dlsxoolv~" &Ives* Troo Un no*10&257-M 157o (MM 14t6) 1 11 (Oaso lktumi)  FAMIYEVo R.D.o kand.tekhnorAuki I~L SINTAGOVSXIYg I*X.j lash. Method for wurate evaluation of produoible reser"s In solution gas drive. Nauch. sap. Ukrnilproakta no.903-% 162, (MBU 160) (Petroleum productlon)  VAZHITOV# 0.0.1 SULUNUV# S.A.; ONOPRIYMO, V.P.; KLYAROVSKIT, G*V. Additional soctionalization of certain areas of the Remshkim field, Nefts khos* 40 no.lOs28-3i 0 162. (KERA 16M (Romahkinor'ogion-Petroleum production)  KLYAAOVSKIY YENY.Ot V.P. -.1-- 0 -G.V,j LYWNKO, V.D.; MUXHARSYIY, R.D.1 ONOPP.I Efficiency In canverting a well off to a mechanized form of exploitAtion under conditions of predominant Aflow productto~ Neft.khos, 42 no,407-1*2 Ap 164. (MRA 17:9)  KLYAROVSKIT, G.V.; SKRIPNIK# V.A. Developing a pool with water drive of gaseGus oil based on a study ct the rol1na oil field, Neft, 44 get. prom, no.31 39-41 JI-S 164. (MIRA 171l2)  KLYAROVSKIY,Y.X. Chowaoteristlas of sagnetIte in coaglomorrotos of the gas River region In Gornsys Shorlys (age of ItIboss plutonle rock). T" Gor.-gooLinstsSep.-SIMILAY 3882 noal3s7-15 153. (KIRA M12) (Kas Valley-Kagnetit*)  ILYAROYSXIY, V.X, Azinite from the depotits of Tellbes. Obshahestya 82, 62-4 053. (CA 47 no.170597 153) Zopisid Toesoyus. Mitoralog MIA 6;4)  Notbod of photographing a whole microssation. Zap-Tses.ulus ob-va 83 no,31274 '54- ?ill) 1. lap.-Sib. filial Akadeall nauk SSM (Photograpby-41cientifto applications) (Xineralogy)  ILTARDTSUY, T. N, Structural oonfttions determining the occurrences of ska=-ore formtloas of the Tmir-IfellUs ftlon In GorWa Shorlya* Trudr Gor.-geal.inst.sap.-Sib.fIlAl SM 00-1713 8 156* (NUA M33 (Toftr-Tallbee rsgioA(Gormp Oborlp)-4re deposits) (Tmir-lellbea regloa(GornWa Shorlya)-Amme)  . I - I ~ , J, , ,-.%-,W KLYAWTSKrY. T.M. Iffeet of pos .tmgmtio solutions an Iran regrouping In taffe* Trudy Gors-Stololustssapo-Olb.fIlAl SSSA no.l7s7l-78 156. (MPA 23:3) (Iran)  Boron conWolng one of ths ToMm4khtleaskao dopoelt In ghorim by- -vast, tlU AN WU mo;100.43 157* (=A 11 Upadno-altirskly flual AN Ssm, (GormA shorlys.-Im are@) (Borste*)  )~ k -I, ~ Re V:~Ik, *. / ILTAXOTBUTO Tom, Principal romilts of work by geologists of tbs western StUrian Brwwb of the AaMeow of Sciences of the U,3,2,,R, lsv* vost, fil,, AX S85R no.lOt52-59 157. (Km 1011l)-l- 1. Ups,"o-Sibirokly filial AN NO. (Maria. Wastum-4sology)  sit 1111.4 is v Jill  TORSIN. Alsksandr Mikolayevich; DOILIVITSTS, Toypaly Yedorovich; ?RtMWUOY,o Anstolly lustinavicho SHMOMMOTA, Mire Yakovlovw; SMKMOT. A..V.. red.isd-va; (Radiofrequency me* qwotrowtorl theory, design and construction] Radlochastotnyl mee-Moktroustrl tearils, reschat I konstruirovwde. Koakwo. Isd-vo Almd.nank SM, 1959, 71 p, (Km 12112) (Nave spectromtry) (Radlofrequency spectroscopy)  0 Vey* Ilinth session of the CamAttea on the Determination of the Absolute Ago of G.-ioloalcal Fortationo of Uio Dspu-tzmt of Coologleal and Googral4doal Sciences of the Acado,.y of Sciences of the U.S.S.R. Geol. i gootizo 101143-145 160. WRA 14S2) (Geology# Strati~rarhic)  ULM, 1.1h.; XUARMXns VA. 94 Genetio oJLassiffoation of lroj:~-ors sbow in soutbom central Siberia. TrW~r Inetopoloi goofisoSibootdoU WAR no*4&43-59 160, 1 (Siberia,, Westerar-Iron ores-Classifloation) (Km 1317)  FREMD# G.M. Absolute ago or Upper Palsozoic and Mesozoic volcanic rocks in southern Dzungaria, Trudy tab. paleavulk. Kazakh. goo un. no*2t 190-199 163. WRA 17til) Io Institut goologli i goofitiki Sibirskogo otdolonlya kN 5M#  DMITRIYEVv A.ff,j ZYXOVv Sol,; KLYAROYSM# V*Mo; SHCHERBAXOVP YU.00 .. -,-- I -, Q~--- - e - ~ Hsu data on YASOZoie Iffftous aotivIty and RbomliZatiOn I in the Gorqy Altai md the Nusnotok Alatau, DAL AN SSM 153 no#4,903-905 D 163. (KM l7s 1) I, Institut pologil i goorisiki SibIrskogo otdoloniya AN OSSRo Prodstavlono akadsmikom V,S, Sobolovyn,  BELOUS, at. nauchn. aotr.; KAZANSKIY, Yu-P,; VL911N. V.V.; KLYAROVSKrY . M. KU2119TSOV, V.P.; HIMAYEVA. I.V.; VOZIIILOVO V.I.; !MDERZM, EX,j AKAYS-V, M.5~,- BABIN, A.A.; BMDNIKOV, A.P.1 GORYUKH111, Te.Ya.; NAGUISKIYO M.P.; PIVENO, N.M.; HAKAHOV, G.Ye.; GEBLEH, I.V.; 9-IOLYANINOVO N.M.- aiOLYMIINCIVA, M.; YUSHIN, V.I.; DOYAKO!I-OVA, N.D.; REUPOV, H.14.j KASRTANOV, V.A.; MLIBUI", A.V., SIMIOV, A.P.1 GAW~ASllt A.A.) BYKOVt H,S~p DDROD111', L.V,; ITCHKOV, L.F.; KUCHIN, M.I.; SHAKHOV, FX., glav. red.; SMAKOVSWA, LJ., rel. (West Siberian Iron oro basin) 7APMno-Sibirsk-.i zrAlezo-.ud- iqi basseln. Novosibirsk. Red.-Izd. ottlel Slb~,~.rskogo ot4- nila AN SSM , 1964. 447 p. OURA 17:12) 1. Akademlya nauk SM. Sibirskoye otde)eniye. Institut geo- logil I geofitiki. 2, Institut geoiqgll I geofizikl Sibirukogo otdeleniya AN SSSR (for Belauss Kazansk:,y, Vdovin, Klyarovskly, Kuznetmov# flikolsqeva 'I Novozhilov, Sendarzon). 3. Inatitut gornogo dela (for Akayev). 4. Novasibirakoye goologicheakoya upravleniyu Ministerstva ge~llogii i okhraM nec.- SS2 (for Babin, Herdnikov, Gorpikhin, lingoroklay, (continued wn next caid)  BELOUS, N.Kh.--(contInued),. C&rd 2. Tomakiy politekbnlcheskly Institut, tfrir Smolyanimy, Smo-1yaninova). S. Sjbjrrki~ :.41;-tir:k~- ioslodovatel!akiy institut goolegil, I nogo syrtya(for Yushln# Wyakeno-n, Rezqx~v, Ksahtanov, Gollbert). S. InstiLut ei~,,ncviki sellckog,, Ahoxytystva (for Gamash), 7. Sibirskly mete I.Iirgi Oxrkly Init'Itut (for Bykov, Bo.-c-din, 8. Tom:-.k%y inz. nc;rrc,-sIrIi tell institut (for Kuchin). 9. kq S= (f~r Shakhov).  KILYAW10-M, -1.11%; CMAYKA, V.118 Ifev fluta an the correlation and age of U; the Ignrkn-Dimkban ragion* Goo]@ I georizz. no.W'19-10 164 (1!1.?A I e S2 ) 1, Inutitut Geologii i geofiziki SIbIrskoto ott-leletlya AN S3S% flovoolbirsk.  DISTANOV, E.G.; KLYARMSITO V.M.; KOVALEV, I-R-j PERTSEVA, A.P. Age of a lox msUl aluerall"tIon in the Salair ore field* O*oI, rude mostorothe, 6 no*5x94-97 3-0 164. (KMJ% l7sl2) 16 Insti-tut geologil,Ijeofisiki Sibiraltogo otdolenlya AN 8=9'-    ~wf "'f I ;I tii fin  KLYAROVSKIY, V.M.1 XMIYUK, V.P. Age of alkali rocks In the eastern part of the Eastern SqAn Hountalne, Dok1. AN $M 162 no,2s4O5-4O7 ?V 065. (KMA 1815) 1. Inntitnt geologit I geofitiki Sibirskogo otdoltniya AN MM. lubmitteA January 13t 1965.  Yi'kt I( ;-1 Cl"."!~V, A4 VA. j,ro(,(iai Of [Trudy) t f,'Oflflzo Sib* otd, Aj; n0.3,):63_74 165. 18o)  ENITMIEVO A.H.1 DOILINITSIN,, Y*,F,; WAROVSKIYO V.9.1 PERTSEVA, A.?, gas of nitrogen 13 an an internal standard in detarzining the quantity of radiopnic argon, GookhImila nn,7074-879 - 1114 (w RA is , n) 1, Institut geologit 1. goofizlki Sibirskogo otdolenlya AN SSSR, Novosibirsks Submitted March 12, 1964.  ZIMAI((YfA,, 0. P.p student IT karsal IZMWUTSKIr, A. D.0 student IT Dsvi66 for regulatim the s*rowdriver. Pat' i t. kbes. 6 n0.9134 1626 25 120) 2. StroltellnV faWltet Wookovskago institute insbeneror transporta* (Ullroads-Too2a and Umlements)  wmIIjjm"xw AVIOMOV iiq~oviug ifie qmlity of oanmA eauliflower, Kona. I ov, pro&,* 12 sogs ,, s?. - - - - ~ ~ . ~ (MM lost) 1. lk"A*Utallwy sayod.Tposoymnogo nauchno-Iselodo.vatellotfto. Instituta kenservW I ovesbahasuabillney promwahlemmett. (C&uUf lo"r)  WASHCHITS11T, LN, t UUMNA, A.Y. Unrovessat to the technique of the production of stewed applas. Ions# I ovo pro*& 13 ftoa3115-18 Mr 151. (MIJU 11:4) 1. Biryulawshy sksperinentallWy konservVy savad (for 11yashchitakly). 2, Twopsan a&uahso-1*aladov*tol1s"y lastitut konsomay I avoshohesushilincy prow4rehlennosti (for lassonove). (Apple)  Oswiva mMov utabro"o Kom* I oro prm 13 noo'?SIO-U A 158. (Kim Ut6) 1.  ILTASMMTMT~ IsNa - Using the M sensing machine for sealing $10 83-1 cans, Xow. I ovo prom# -14 ao.IW21-22 0 159. Oaju i2m) loBtryulevskly tons mg.. savods (&Zag ladustry--Squipmeat and supplIes)  Y.X*.;. PIvrKVIW* Tq. j SAMMADVA, A.N. -..MTASIICHM=& low* Machanited production line of fruit *ad berry J%Ices with pulp added, tons. I oveprome 15 n0-4122-13 Ap 160# NTU 13t6) thetitut V.rodo- vollitresno mashinostroyeslys (for Oreyber, Petkavicb)a 20 f8ontraIr. va sawhoo-IseledovAtWoMy Institut kosterv- soy I avoshchavushillsoy prowyehlonnotti (for Bamponava). 3, Diryaloveldy konservvjy savod (for 11yashchitakly). (Prult Mae*)  UMOROYA# Aol*; OYABRCHITSKlY, LK, Oooseberry jtdoe with pdp added. Zonsol ov,pron. 15 noo5tl7-19 my 06 o. . (NIU 1319) lo TOontrallnyy nauchno-loolodovateliskly Institut konsermy i ovoshcheoushillnoy proWshlemosti (for Samonova), 2. Brlyumkly konservnyy sayod (for Ilyashchitekly), (Gooseberries) (Arult Juleem)  IMLOUSCVO ?*or*,, Inabal YLODWWO VOTOO Imsbol LAMO Weap.-remistant hard f"ing of iniction drodg* parts which deteriorate quickly, NBM.strolo IS w*746-30 A 1619 (KMA 3As7) I* Imcbm-imalsdovatellskiy inotitut tokboologil. masWimstroYeAln (go C4*1^bLwk), (NAM facing) (Dredgim 2"himary6--xvip"At am NUPP2106)  VASILIMAt A.4,; KLYAaRITSKAUt A*Lot kaMemod.nauk;. MANITAP M,D,# I Urbaqhaftlabin awAeat of tht blood of U-afflo coutrallerst Uge I sm, 25 no* U47410 D 160* (MM UM I* Is Nookovokogy prodokay aWtarno-opideMolociaheakay stantsilo (UMN Mu=) (MOCUSIN) I (TRAMO POUCZ-DIUAUS AND MIM) a  ILIA51104.~ -dots, (Odemehi ulo Podbellsker.0a d*6* kY914) Xrrorm in the diagnosis and ther"ay of nAli#.m%nt uncrplosus of the ceaum, YoutoWir, So no.5199-104 W 158 (NMA 1117) 1" Is g"pitallnoy Wrurgichoskoy k1lulki (say* - prof@ A.0. Sounovskly) Odmakogo meditainskgo, Institutm im, V.I. Pirogove i Odeaskogo oblmstnogo onkolorichsakogo dispanvere (ClavW vrach - NoSe Movikova)o (ONUM, neopl,41,266 diag, A ther. orrore Olus))  5myly- 1, -___WA . ]L- legults of the 4stormInation of prlmry production In the AtlAntlo Oe"n, Dold*AN SSSR 133 n0,41951-953 Ag 160. (JUM IND to Institut okomlool AWmIL nauk SWRe Predstarlono "dsaikm D.I.ShohorbWwWa. .(AtUntle Osaaa-fttoplaaton) 4 1  jhl---~-t ~ ~jr roportot nW,~dtW, ani mAms It-rtrfbutd4 At th4 coumil for U* Uplcration'*C flo 2-10 oot (ftutl'Ort not at Chi  SORUKINj Yu.1.1 JUAVITORN, L.B, Primary production In th* Atlantic.Ocean. Trudy Gidrobiol. *b-va llt265-284 461, (MIRA 15d) 1. Institut Okpanologii AN S=p Moskva. (Atlantic Ocean--Phytoplankton)  IELYASHTMP Primary produatim In the Mantle aid Bmtbern OW&M amordiM to the datis od;b"tod durljW the fifth AskUrcuo crulso of the diesel-olootric obip '0b1.0 Dokl. AN SSSR 14 no.5:1204-2207 D 161. (NM 14122) 1. ImUtut Glosamlotil AN SMR. Prodstavlono akadmAcu A.L. Xursanona. (Atlantlo O*o&tk--MqUpl"kton) (AstwoW rqgicw-PkrUVI&nktob)  Sp&Usa intaml&Uons betwon pW*plokton aW fish" la ths tropl*4 vaters of the AU&aU* Osion, Tufty bets eke=* 58 1620 - I"= ISM) (Atlantic Oassor-ftytopUnkton) (AtIAOIC &VAn nY* ft"I  vz ~.~mmp ~v Lt& Dlatow on the Alp of wWom in ths rar Zutern a*"& Trao Lwt,, okoans 58,314o-3U 162, 1 (MM IS (hauls Cast*-vules) (Pacific Omm-Diatoms) ..... ... . .. It'll a  XLYASHTORINO.L.80 - , Obsorvat.ions on "nlines ( ru-40moo Pisoms) of.the lurlIP TOIA"ds. Trudy, Inst, okean, 591104-109 162a 1, a SSSR* (MU 16M)  ZAY7SEVA, G.11.; KLYASH7". L.S.t XMILI, I.A.; AGATOVA, A.I. study or the fres amino acids and amino a-ld coopositi-m of the protein of Asotobacter vinslAndil ohiring synchrcna4s do- velopmeni V-D 163 (KnU 18il) v., Mikroblologils, 32 no.6t961 I* Blologc-pocbvwmyy fakuLltet Moskovskogo gosudarstrannogo univerelteta Imeni M.V. Lmenomova. I  KLYASIMPIN, L.B. PrImery production and phosphates In the AtlantIc Ocem, Okeenologlla 4 no.2011-312 164. (MRA 170)  OA 164  GORKIN, V,Zj KLU-SHrOJURs LA, Siqdo wthod for the preparation or tta manometric liquid for vork with Varburg's apparatus, Lab. delc. no.lt W59 165, (MIhA 18%1) lo tAboratorlya blokhWi am1nov I druglkh axotistykh oonovanly Instituts, biologichaskoy I maditaWkoy Wall AMN SM, Moskva.  GCILKINO Tozol xmmsxiyo N.A., IL KOKISSAROFAv R.T.1 44you" UVA o GM tVFi T.A, ouwtrato sposihoity a Who uid OmMasse DIOUWI& 29 actli "-% A-7 '64., '' (KIM M22) Is lmtltO blologlah"kay I modltsinakay khlaii ANN SSSR 1 I=titU'k lkh4-JL.prirWm*h soy"inoniy, AN SSMj, Hookm, Submitt" April 28# 1963,  URM-AGAYATj NA61 XLYASHMAUjIt~.1 RUDINg T. U, Aqueous system of potassium and sodius nitrates and chlorides. Zhar, neorg, khIm# 9 no*Ut2639-2644 N 164 (HIM 1811.) 0  XLYA3F,TCF-','.YY, I . A. WYALMOPYTY, 1. Aa ultriestleation of the procens of =,eltine, nortol elec- trocorundum In connection with the deyplo;vent of a contirewis proce-sa of producing It** leningrad, 1955# Mu Hl&er Education UZR. letingmd Order of --'~ labor Red Banner Technolof,4c*l Inst Imni tonIngrad S*vlote (DIssertation for the Degree of Candidate of Technical Sciences) SO: Wahmn WtoLjq' So, 47# 19 Nov-,mber 1955a Fioncow,  8/193M/000/00%= 1/40 13 A004#001 AWTHORSt Yukolov, Y*,A,, RegovskIZ, A,S, nngg=&-~ .A %I. MM The Melting of Elsotroco un from a Bauxltehgglomerats PERIODICALt Byulleten' tskhniko-*kor&om1ch*skoI informatsil, 1960, No. 9, pp. 6-8 In 19.99 the Zaporozhokly zavod abrazlvnykh Welly (ZZAI) (Z&POIV- zh've Plant of Abrasive Artial a) Introduced an an Industrial scale the melting of aleatrocorundum from a bauxite a W omerato, prior to which the Plant together with the VNXIASh carried out Industrial tests w1th the agglomerate m6de from Hungarian bauxite, The agglomerate represents a sintered porous Owe without any hydrate water or moisture, In comparison with green bauxite, the slatered bauxite possesses the following advantagest no melt ejections from the fUrnace, a reduction of the specific electric power consumption by 12.5% and of the bauxl consumption by 1$, a considerable decrease In dustiness of the plant shop and, consequently, improved working conditions. Based an the test results, an agglomeration shop was equipped at the Plant In December 1959, yielding 156,000 tons of bauxite agglomerate per year. The bauxite Is crushed to a granularity Card 1/2  S/ 193/'60/000/tog/W I A 13 A004 /AW I The Melting of Klectrocorundum from a Bauxite Agglomerato of 15-0 M, the AX anthracite, used " fuel, to a grain size of 3.0 W. 7-W of anthracite Is added to the crushed bauxite and both materials are mixed &M moistened. Then the charse lv!gtered in the ~5TM (UZ7W) agglomeration machine having an absorption area of . The following technological parameters are established for the sinterl" prooomst height of choge layer on the agglamora- tion belt - 220 mm, average vacuum before the exhauster - 750 its water column, Igniting temperature m 1022D-1,2500C, specific capacity of the agglowratIon machine, - 0.41 ton/m 2.hour, travel speed of the Agglomeration belt - 1 .5-2.0 it/min. After the sIntering and cooling, the bauxite agglomerate, is crushed to a granularity of 150-20 mm and Is conveyed to the foundry. 'The authors pre sent a table of the composition of the bauxite agglomerate, state the basic parameters of the melting process, and point out that the specific electric power consump. tIon could be reduced by 14% &in** sintered bauxite instead of green one has boon used, which resulted in saving 22,376,000 kwh In 1959. The por-hour-output of the fumaces grows by 1%. The authors report that this now and important process has also been adopted by the abrasive-manufaoturing plants at taningrad, Chelyabinsk aM Tashkent. There Is I graph ArA I table. Card 2/2  IOUNWO S.A., xALT81my. Tel&S SAMITIKITo A-As L RAT36 Ao Js PWWK Ve Be X* eleatisocorwAm from U=Ite agglawratoo Prob exerge U noolOs26-18 0 160o (XIU INU) T "mom== -dm IU F ISM M M WIM, 11 -4 r,_ 71, 1 f, ? 737 IM  .;LT%SHTORNrr, X.I. Interaotion In the system IrCl 909 2 Yk JkCl IkOf 290 ghtwo saarg, khts, 2 w.llt2649-2651 v o5?. (Nlu 1113) PoUsslum oompouMe) (Sodium cooWunds) Matems (Chemistry))   ILTASHTWIT Pwo~~ProductIOO Of MU91110 potalmium &W potameturp-modium alloys 4* uming the remotion 1=4- No . Ik(X+ C Zhurs prikl, khli6 v* 31 40,5168"89 my 158. (MIRA lli6) (Potesslus-sodl= alloys)  AUANIORS 301/00-32-2-17/56 TITLEt, Direct Electrochemical Synthesis of X02 (Pryamoy alektrc- khimioheskiy sintea.10 2 PERIODICAM Zhurnal prikladnoy khInii, 19599 Vol XXXII, fir 2, PP 337-342 (USSR) ABSTRAM For the direct electrochemical synthesis of X02 potas*ium, m"l- gas was subjected to anode oxida%ion in a solution of potassium bromide and liquid azmoniao At the same time the potassium solution in ammonia at the cathode was oxidized by molecular oxygen# An electrolytic cell with mixer (Firure 1) was used for a thorough mixing of the electrolyte with oxygen& The ;reoipitat ed K02,w4s removed from the alectrolyzer by a tap. It was filtered and then washed by Lnmonia. Figure 3 shows the lovice used for filtering and washing. The density of the unoic current used in the electrolytic proce3s was 10 A/dx2o tho current consumption for 1 kg KO 500 Ampere-hours# the Card 1/2 consuzVtion of electric energy for i kg X02 5 kw-h, the out-  ~0 Direct Electrochemical Synt%u'~ L)r. ?"02 Put Of X02 per 'A Z2 of anode 2 ka/h. There are 4 diagramet 2 table3, and It non-Soviet roferencos. A'-'SOCIATIONs Donetskiy inductrialInyy Inatitut (Donets Indu3trial Inatitute) ISUBMITTEN Tuly 26j 19,14 Curd 2/2  S/153/60/003/003/011/036/XX B016/Bo5e /Z 17 91r 0 AUTHOR: Klyashtorny Ho I. TITLE: solubility of th4 K-Na Alloy 1~i the Syatp,2 KCI - KOH - NaCl - YaOH PERIODICAL: Izvestiya vyssh1kh uchobnykh 2avedeniy. Xhinlya I khimichookaya tokhnologiya, 1960, Vol. 5, No. 5, pp. 408 409 TEXI: The author reports on his study concerning %he utilization of KCI in the mixture with KOH at the production of tho K-S& alloy on ths, basis of the reaction: KCI + KOH + 2N& o NaCl * N&OH + 2K. Compared, with KOH + Na - N&OH 4 K, the advtntage of the system proposed lies in the substitution of the expensive KOH by the cheaper KC1. On the basis of the phase diagram of the system KOH - KCI (Ref.2), the author states that this system can only to used If the solubility of the alloy K-N& in the system XCI - KOH - N&C1 N&OH to not greater than thq solubility of this alloy in the system KOH N&OH. Otherwise the far too great looses of alkall metals would render the pro-csod system uneconomic. Card 112  86147 Solubility of the K-N& Alloy in the System 311-316010031003101110361XX KC1 - KOH - N&CI - R&OH 30! 61B058 In his study, the author determines the solubility. The experiments *or# made In an apparatus consisting of two tples,~opedtubes. Lijuld re~ (in mole%: 40 XCl , 60 KOH) and solid sidium metal were put Into the Inner tube. After 20-30 m1n, portions of the salt malt (aboit 400 C) w^re conduated through the liquil metal. After 4rawling off the reaction mixture, the metal could be wall separated from tho sol% molt owing to its greater specific weight. The author thus attainei an equilibrium metal-melt. The results are tabulated. The author concludes therefrom that the solubility of Na-K in the system KV - KOH - X%Cl - N&OH at an initial content of 40 mole% of KCI and at 5500C., lies between 0.51,; and 1.25% and is, thorefore~ not higher than th,~ solubility of K-Ra in the system YOH - VaOH (1.22%). There are 1 figure, I .able, &n4 2 r-)f- erences: I Soviet and I US. ASSOCIATION; Donatskiy Industrialinyy Institut; Katoidra. obshchey khimli (Donets Industry Instit-itel Chair of General Chemistry) SUBMITTED: Octobor 31, 1950 Card 2/2  B01 6/B059 AUTHOR: Klyashoorn TITLE; C-7nittions for FtrT-1rg ~,, k L1j!;,.1 F,.Ir &*. t),,e Ve:7iprozal Actisn of C.A~rt-cwit-,- 1110 %ni CO, PERIODICAL: Izvestlys Yjash'ikh uchebt~ykt~ khimizheskayft tekhnclog.1ya, 11)6O`,qv0. 111. No. 10, pr. 494 - 49( TEXT: Thq authtr reports on his sfu4y ~!,f #.hti skbvnrp',.cn of at-- husl4ity an4 tba H20 - CO? gas mixtur~t by crystals ~~f potasslum --arbstlate. He , alfa%os that tbo liquid phase on the salt wirface already devel-)ps at. a water ~,ontert of 0.1 tn 0.% In the salt. Lut *.hij --only happeni *her. '),o rel ative humidity of th- gas --%I r mi ,a hiehar than 'Air humidity ivqr a saturated soluticn. Thts prj-~-,Ioas 11a 4xpressed oy equA- tinn k(h h) `1), boing -.bq sm-unt ~f wator ibs,~rbed bj a unit if sirfaoe wl'hir. a unil. cf tim-, k fatp of wa*.qr vaptr, air hum.!J~,*,y ~n A -ini a Cari 1/4 171 AP  Conditiona fo: the to.-ming of % Lijail Film at the Rs'~A'P:0041 Aotion of B 0! 6 X0 5 Carborato With If 20 and CO 2 pc,int -,,f tbF, csrbonutq. Ve itu*h-i a4 atva, h:)wovk~~, th%'- al. b >h tte for--&t-*nn t,4 a liqu.14 film must not always b~. Th- acrpttcn m"Chantem of H 0 and N110 i3 ty tvtj fv-t1,-&-. 2 2 k, a) by the fnrmitg Qf r,~ry3tall,'ric qril b) 6y Th-? exiatpn~,,a of a lijuld fll-w is rv% f)r h">t' arl'i L20 ) 1 - THn filt., only ij,pearg wh--'n !rA -,S,4!Lne4,;0 r-vt co'~) 1- .1 a v th t~c' ..nr. MOrf- SIOWly th&n *Y"'- 11,10 1 sba-:~rptliur. i:f wrtt-ir prri,j-(.d 1~fie fe,11cv1r'g ty granul-%ted, av~--Iri"d f!art~7-riatl~ 104 ..r I , -1D 2 !Na - 94'.5% in ahnor In Fig.l. Th.- .1r.-ar i-qinitr. ;)f (g11OO ~~"M n the tio.-% provne th" ^f a f.i. is, th-i -7f k (sniff1clent (~P' &*~#orptlon rats of V~Vefl Wla In r I prove this unamblgu~,iely, Th~6 ik!ith-)r flatix.--in~vl k 'Or. tho basts >f the at~v,rptirr. ratrp nf ty t!%" c4rd 41/4  Conditions for the Forming of a Liquid 8/153160/005/003/026/o36/xx Film at the Reciprocal Aotion of B016/BO5e Carbonate With R 0 and C 2 02 For this purpose the absorbent was spread in a thin layer betmeon filter paper which was soaked with a saturated X,CO 5 soluticn.. k was :altulated on the basis of the known values q, h a and h (equation.1 ). Table I shows the results of the experiments at 250C and &n air humidity of 65, ??, and 100%. From the k values whtzhagreo in all thy#* the author concludes that in this case h is the relative air humidity over a sallurated solution and that a file from saturated solution has formed. The crystalline hydrate Is covered by a file of saturated soluiion. The author concludes therefrom that the water absorption by K c0, proceeds faster than the formation of 'the crystalline hydrate. Concereing W% ab- sorption of water and C02# the author raises the question, how suoh more water in absorbed than would correspond to the stotohlosetr1o ratio. A liquid file cannot develop when the amount of water absorbed corresponds exactly to the stoichiometric ratio. The experiments of 1~ 2, and 4 hre duration showed that waier is absorbed at a greator ratic than tho stoichtowetric one* at, 300C, a relative husidity cf 106~ and a P.Ontont Card 3/4  0/153160/003/004/025/040ttX B020/B054 AUTHOR: KU&shtorny H. 1. TITLE: Amalgamation Process to Produce Potassium and Sodits PERIODICAL: Isvestiya vysshlkh uchobnykh savedonty. Khtsiy& I khimiohookaya tokhnologiya, 1960, Vol. 3. No. 4, pp. 691 - 694 iEXT: The author briefly Interprets.some results of his investigation of the process mentioned In the title for the production of alkali metals, and rotors to the basic possibility of obtaining alkali metals with sinimum mercury content directly In the refiner. He conducted his experiments in an electrolytic coll (Fig#i). The anode surface was 19.6 om2 , the current density at the anode 1560 als2, the tharge 16-55 g of 10% sodium amalgam. The experimental results art given in Table 1. The experiments showed that the protection of mercury from oxidation was ensured with a minimum alkali metal content In the mal- gem (0-0125~). This permitted the test to be carried out In a cloted Card 1/2  Im4gamation Process to Produce Potassium S/153j6O/OO3/OO4/O25/O40/XX and Sodium B020/BO54 circuit and In a device calculated fir 20 &1 the schomo to given in Fig.2. Table 2 shows the results of experiment& for the productio3 of astallic potassium conducted at a current density at the anode of 2500 &/z2j and at the cathode of 3500 &/m2, an amperage of 20 a, and a potassium content in the amalgam introduced Into the refinor of 0.12 - 0.15~. The alkali metal was dissolved In HNO 3 (10), and the mercury content determined by tttration with ammonium thiocyanate. Metallic sodium was produced In a similar way. There are 2 figures, 2 tables, and 3 references: I Soviet, 1 US, and I Czechoslovakian. ASSOCIATION: Donet:kty industriallnyy institut, kafedra obehohey kht mi (Donets Industrial Institute, Department of General Chemistry) SUBMITTED: October 30, 1950 Card 2/2  KLYASHTDR"T, &LI-02MEWYEV, D.I. Sorption of vator vapors by the 142CO3 - Mac)H sistax. 2btL-.prikl.- Was 35 no.3s676-679 Jfr 162. (KIU 1514) 1. Kafedre obshobey Mali Donstskogo polltakhnictieskoto Instituta, (Water vapors) (Sorption) (Sodium earbonates)  VITOSHINSKArA. R.I., bibliagraf: GUM, 1.7o, bibliograf; SHNITM, LAo, btbltogmf: GLkZMVMTA, Ye.A.1 WASIM A.S SOUVW' . .-NNOLJ S.P.. doictor goologo-nineralonade, F to: Mmy. ma., "nd- btalog.nUte r64.1 MMIN, So$., rad.W-va,- GMYAo OoA&j takhaored. tGealogical literature of the U.S.S.I.: a bibliographical year- bonk for 19$4] CIonloglohoskals litenturs SSSR; bibliografichaskit ashogodnik sa 1954 go Moskva# Go*, neuchno-takhnolsd-vo lit-ry pa goal. I okbrane nedr, 1"?. 185 p. (WA 12SI) 1. Moscow. Yesnotusnaya geologichaskaya hibliotaka.  VITOr)HINSXATA, N.I., bibliograll GXKKKR, I.T., bibliogref-, SMIXYM. R.A#q bibliografl GL=OTSXAYA, Ye.A*, bibliogre : - -Or*-','-blbliograf; SWITXV, $.?,, doktor polog" asrologe rod,: OMIOT, N.V., knod,biolog.asuk, red,; ITANOTA, A.G.$ tokba: red a Nologies, litorsturs in the U.S.S.R.; bibliographical year-book for 19333 Goologichooksia litersturs SM.- bibliqcmf ichosidl ashagodnik so 1955 g. Moskva. Goo.nauchno-takhn.isd-vo lit-ry po goologil i okhrane nodr, 1939. 333 p. (KIRA 12:11) 1* Moscow, Yeasoyusnays goologlohaskgya biblioteks, 2. Tesso- yususym goologiahosksys bibliotake Too soyusnogo goologicheekogo nauchno-isoledovatellskogo instituta.(for Vitoshinsksys. Ookkar, Shnoydore Olaskovskayso Klyashtorn"). (Bibliography-Osology)  OKLAMIKOV* A.Po XLYASHT09UYY* 3.0. Archaeologioal oxdAvAtions in the central tars-lum. Trudy VSM - 461 284S-292 161. (MM l4sll) - (Kara-lum-Antiquities)  K:.YATIS, B.D. "kYiblsms nf t~e soommics end organIsiti-in -,)f soml-fres nutria-rAlsi:4 in the LWH." ~baoov VoterInary Academy, Ybpoow, 1496 (Dissertatinn for as Degme of Candidate, In Acrtaultural aclewe.) Sqj Knizhnaya, latopial, go. 180 1?56  KLYATIS, Grigoril Tukovlevlchj* kGrwia, tekhn, nau! -, - - 1 -.1-1 ~--- - ~~ (Plastic retalftlng structAiresl forelp technolorjl Ile- sushchle. konstruktivit 1z plastmasol ientibethrVi opyt. Moskva, Stroflzdat, 1965. 61 p, (MIRA 18:S)  I=Tls Too" fl" h"noting vach1wry. Trskt. 1 #*11 khoxm&A 31 noo6t2A,-26 Je 161# (MMA us;) (Flu poessaing asehin"7-Tootins)  KHATLIS, a.A., kand. takhn. naukl KLYATtS, L.N., insh. Sam thoorstioal problow oonoorninj flu gaUm"ro, Mobb, I olsk. mates oellkhose 21 no.3#52.54 1638 (MM 16.18) 1, Vessoyu%W rAuabno-Issledovatellskly InatItut I'm (for KMYIIS 2s sashlmlo"tsllnaya stantalya (for "tls~: (nax.&r"stlng)  XLYATIS, a I'-- - OMI-W ualooding and plitog owhinst Sakheyrove, 33 no,707-0 ii 159, (NIU 12$11) 1v& 1. Ukralmokays rambimlopytateltmWa stants-T (Sugar b"to) (Loadtvg and unloodl;g  JMTATIS. LX.0 Ingh, Oar mobineq for barwastiva flu it m"rets et&ps. makho oil', bosp. 11 aoo6s24-26 Jo 060. (NIU 13121) (Flu-Ibrvestiag)  L.M.0 insh.; PJBDXOBTLUW,,V.M. Topult flax hwv"ting machims. Trakt, 1 soltkhomahe 33 no.2130 F 163, (WRA 1613)  AVILOT, Glob; ABROTAN. B,A.: QULYArM, F.I., doktor b1ol.nauk; ZIVAXOY# go$.# profol MLIZM. IJo, tand.takho.aaak; YADIVYINO L,Lj VAAMIO L*$ kaod.takha."uk ------------ ts*thmght transference Possible? Opinions of mmtst scientists. fast. oil& 35 so# l2t286.23 D 160. (KEU 13t22) (Thought transference)  KLYATSKIN# I., inshener-poUmnik Our raUonallsoroo TyLl onab,Sov&Voor,SJ.1 21 no,5:91--93 Vr 063L a (KM 14:8) (Ru$L&-ArW-?u*l) I _-~.  .. ILYA lar-444~1 - Badiatlon of Antemda, IMlotekhallm 8 noo4s3-12 A-4 �"* I (NM 21:6) 1, Awdylto%'Vy obUs Jkuohno-tokhMabookop obehahostva ra"otokh- aw I #V&21 Is* popon, (UUo-4Aatouw~)  't A.. -1. USSR/Electricity Card 1/1 Author t "takin, 1. G.t Aetive Hooerp VM1 Title s Electromagnetic systems of units Periodical : Radlotekhnika 91 3-10P Jan-Yeb 1954 Abstract i Examines Wo basic systems of unitst the WMA (meter,, kilogram., second.. ampere) system vhich Is now and used In tlectricity,, and the 006 (PUBS, system - centimeterp gram., second) vh1ch is used to physics; discusses their, originp writsj defectsj and proposos a universal systems The latter uses practical unitst e.g.p charge In coulombsp current In Axteres.. potential to volts# energy in joulesj, etc,, and can be converted to the Cos system* Institution i All-Union Scientific and Technical Society of Radio Engineering and Electric Cowwaleatfoos Imal A. S. Popov (VKMIE) Submitted December 12p 1953  /Gj U=7ftsics TMX tf UnAl YD-916 card 1/1 Pub 153-25/26 Author I "takinj Title problem of unique systes of units in electrodywaice Periodical : Zhur. tekh. fis. 24* 1,356# &l 1954 Abstract : letter to the editors Suggests parameters and equations which would as valid In several types of desIgnatims. Institution Submitted May 15P 1953  card 1/1 Pub 90-10/12 Author Klyatskinj 1. G.j Active Xftber,, VKRIX Title A Universal System of Units. A Reply to a lAtter Written to the 961tor Periodical Radiotekholka 100 ?h-77, Jon 1955 Abstract I In the preceding article (PP 72-73) In the sum issue Is" the abstract preceding this onelp 0* Ps Abrummicb to respons* to the present writer's earlier propwal for a new system of unites discusses the most cosmonly used systems of electromagnetic units and indicates the possibility of the eQnstruction of a new system called "universal" which preserves the principal advantages of the MA system without any ofits deficiencies# The present writer states that certain objections of 0. P. Abramovich against the system are clearly caused by obscurities in the writer's earlier article In vhIch the problem was expounded too briefly. In the present article the writer believes that he gives the necessary Out- fications. Institution: All-Union Scientific and Technical Society of Radio Zng1u*erIng and Electric Comaunications Iseni A. S. ftpov (VNCRIX) Subuitted  ILTATUIN, 1.0., doktor tsk~nlchssklkh nank. professor (Lealagrad) Univerval- system of *loctrovognetic units* Rektrichostvo W.7161-62 A 156. (MM 9110) (NIectric units)  K 31o0. doktor tokhnichookikh nauk# profsesors Hourich Hertol on the 100th amalversay of his birth. BlektrichestTO no.3s7O Mr 057# (an 1014) 1. Uninaadskly elaktrotakhnIcheakLy lastitut U6 Bonob-DMovichas (Herts, Ifelarich ladolphq 1837-1894)  2291 ILUTOW , I*G# , R*Su2ar Xmber bf the Bolentifto- PA N MKI-Bodets for RadloteohnolM and glectrio Oommication Systews Aog~MOY 0 th TrMt Neinrich Rudolf MWZ. - On the Ooossion of his WO Birthday (00=11th Rudollf aorta. 1100-10" go anva rosmisming Russian) PUICDICAL4 UdiotakhrAkat M?t Vol 12t Nr 2, pp 3-410.3.3.2.) Rocelvedl 4/ 1957 Revieweat 4/ 1957 ANTRACTs The history of the theory of the elootmapatio fleld,la discussed mg it Is said that It =a left to to flow out that the slaotro"Smetio fluctuations in Us vamm or in air do not Pipe- MAto mommUnsomall but with the velocity of light and that this prapaption Is at a wave obarzater, There follow a short Uto bistory of , " I describim bm I 1 0 In the omrs* of Me am- perimentas disomr*d the wt. obamoter of the eleatramapetic field. He also sumesdod to prov that that# waves polarize line- arly &A are reflected and reftotod In the am* nmer " II&M waves. It was MM Aa was the first to show in what manner wo* met be carried out on mter- and decimeter waves, mg be constrao- ted the first trommissim- &M r*"ivim sets. Zvery mdern antemm is atill today oamputed as an infinito wmber of IMM-61- poles. It further follow rrca the theory of MM that the voltaV of the electric field In an electromagnetic wave decreases lo-' Card 1/2 OEM.' M W UN I W  --7 1- V-jj~- --1 PUSS I BOOK UPWITATION SOV/-4001 Uningradaidy elektrotekhnichosidy lnstltut svya%I in. M*A. Bonch- Bmoviaha Sbornik studenchosidkh nauchnyUh rabotp vn, I (Collection of Stu- dent4olentiflo Projeat.sp Nr 1) lAningrodo 2959. 87 P. 5W copies printed# Additional Sponsoring Agenoys'. VW. Mir4storstvo svMi,. Maps Zd'os~~ 7.440 skiA Professor, Doctor of Technical, Sciences; Klyst Rasp, Seeretarys ix, Wron6v,,'Xng1nesrj Tach. Zd*t Tow 0 Oal lohinskayal orl Wards , LOO. X-lysteldn (iteep. Ids za I (ROO ~Professor Doctor of Technical Sciences* O.H. Sapronov po ih aT searetw~vj Znglneer HOPS Dolukhanoys Professor& B*F* sidyj, Staftntp- *A* Gollan Snonserp Zola Prokopoylohp Inaneers Xhs 1, Chemej tmoents Yfo'Uzwovsk1y,, Docent, I,N, Metter# Docent# S.M. xeymwo. Maentp Sol#.,--Tikh*nov lnsineer,, I.N. Fcaichev,, I.K. .Bobrovsksyap~ fteentp and D., .N. SUVIv7o, Docent. -PURPOSIt ?Me colloation-of.artiales was published In order to Oard 1/4  S/ 123/6 1 j/OW/W7A21/O26 A004/A104 AUTHORSt Klyotakin, X.O., Zayosdnyy, A.M. TMXt Ways of utilizing electronic computers in communication *ngineering MZWICALl Reforativr4y zhurnal,, Mashinostroyonlys, no. ?A 1961, 10, abstract D93 ("Tr. UnIngr. alektrotekhn. In-ta svy&zI , 1959 (1960), no, 7, 10) TMCTs 'The authors point out that nearly all problems in radio *aginoering can be solved an three types or specialized computers, 1) computers for linear problems affecting the harmonlo apthesis w4 harmonic analysis. 2) computers for the solving of parametric.and nonlinear problems carrying out the summation of linear combinations of any Integral functions. 3) computers for the solving of nonlinear and correlation problems, solving nonlinear differential equations on a digital basis. There are 3 references. 4 0. B&Oh1n (Abstracter's n6tes Complete translation) Card 1/1 77