V LIITJiR. A.V.&-MjLMAQLAX" SYROKYATMIKOV, I.A.1 VOZNSSANSKIT, A.S. YASllJ9K0. P. I.; JAUPKAN. P.P.; TXRKAN, L.A. ; VINOGRADOV. N.P.; ANTOSHIN, U.N.; AIJKSANDROY, B.K. ; USPROKIY, B.S.; CASSON, I.R.; KHRYPITS, K.B.; DRUTSKIT, Y.F.; KRACHKOVSKIT. H.N.; POPOV, P.A.; CHBLLDZB, I.K.; IrLIARXTOV, S.N.-, KOZLOV, K.D.; BERLIN, V.Ta.; SARADZHAV, A.1h.; GGELDZITJCVICH, I.S.; PAN, V.P.; DORMAN, S.K.; LuBimsEly. L.A.; UL'TAMOV. S.A.; GRUDINSKIT, P.G.: WiSHINSKIT, U.N.; MMOIAWKO, V.M. Kilrhail Ki"ilovich Karpov. Xlek.sta. 27 no.10-62 0 '~6. (KLRA 9:12) (Karpov, Michail Wichailovich, d.1956)  /" ~ I ~ ~ , GHIZHOV, D.G. s KOGTZY. G. 1. -, LAVRANS11KC. K.D. ; SPIRIN. S.A.: NKIRASOV,_ A.X.; IVANOV, M. 1. ; UFAM, M.Te .; GRISHIN, I.K. , KWTIN. 97T-.-,-70PDV, V.A. . ZAGCFLWNIKOV, P.I.; MOTOV. P.N.1 KAZ'MIN, A.V.: FOMI^.H37, G.I.; MSHOV. P.1.; MISHCHERYAKOV, V.I.; YlFRXMOV, S.G.; LEVIN, I.S.; LITUCHZV, L.I.; ULKIN. M.N.; OBOLOIlKov. M.I.; BAT1111IN, B.A.; OURITANOV, B.P.; KANATOV. P.I.; KOKORIV, Z).V. litkolal Alakeeavich Andr,)ev. llak. Hts. 27 n,).I~:62 0 ' c,6. (Andreov, Nikolaj Aleirseavicn, IR97-19~,6) (MLK'A 9:1?)  105-9-1/52 AUTHORS Nekra a or A.Jd.,kngineer, Groys fe.S.,,~rigineer, Zelikin W.L., Engineer, Turetakiy V.ye.,Engineer, Man1kin L.A., Candidate of Technical Lciencon. YiTLE The Transmission System Stalingrad Hydro-Llectric Station-Donbass. (Elektroperedacha postoyannogo toka italingradakaya ',LS-Donbass - - Russian) PEItICDICAL Elektrichestvo, 1)57. Nr 9, pp 1 - lo (U.S.S.R.) ABSTRACT The line still under construction will connect the Southern energy synten with the Stalingrad hydro-electric st;)tion. In the case of a flood the energy will be transferrea from Stallnrrad to the Don- bass and during seasonal fluctuations on the iol6a it will be ar- ranged tho! reverse direction. The noaiinally fixed power is 75o k1w. Four billion ko will be transferred in both directions yearly. The length of line it, 470 k1l, the voltage is 8oo kV. The operation- (And experimental reo,lts of the d.c.line Kashira-14oacow were of great importance for projecting. The desigi) and operation of the power line is give%. It is an eight-bridge scheme with earthing of the center of the d.c.part. The average rect.,fied voltage of eacn brid- ge is loo kV. '~ingle-i~hase transformers of 82 1A;7A were selected fur this purpose. A riet-speed-control is planned as well as shant-val- Yes for the liquidation of' operatlunal breakdowns. The change of direction of the energy transmission is arranged by means of a net- control and without any switching in the main system. The descrip- Card 112 tion of the insulation as well as of the ov-rvoltage protection,the  105-9-1/32 The Transmission System !Aalingrad- Rydro-Llectric Station Is -Donbass. basic equipment of the transformer substations, their arrange.~ent and the power line itself, which is constructed as open-air trans- mission-line, is given. Finally the technical economic indices as well as a comparison with an alternating line are given. 1he d.,;. line is cheaper by almost 3o~ and has loases which are 2,-) t.mes lower, The Stalingrad-Donba8B line costs 0,9 Kop. per 1 kWh The technical exonomic indices are practically the same in both casows. There are 4 tanles,lo illustrations and 9 Slavic references. ASjOCIATION Technical Direction of' ILES.-Scientific Research Institute for D-'- rect-Current.- Moscow Transformer Factory. (Tokhnichoskoye upravleniye MES.- Nauchno-issledovatellskiy institut postoyannogo toka.- Teploelektroproyakt.-Moakovskij transformator- nyy zavod.) SUBMITTED Janu ry 18, 1957 VAILABLE Libr:ry of t;ongress. Card 2/2  fv 4-M. Tecbnteal data on Soviet nwly designed ad plemed sqwrposemeter Stem turbines and auxiliaries are given in the artticle, "Certain SUM- Wies of Technological Progress in Power Engineering," by A,--M, Nekresov, e r _R at I cons chief, Engineering Administration, Ministry of at-ctric Pow USSR. The three cylinder steam turbine FVK-200 is designed to generate 200,000 kw at steam pressure of 130 atm, temperature of 5650C and back pressure of 0-035 atm. The three cylinder steam turbine SVK-200 Is de- signed to generate 200,000 kw at steam pressure of 220 atm, steam tempera- ture of 6000C and back pressure of 0.03 atm. Preliminary work has been done toward the construction of a special stand for testing the disconnecting switches, commutation devices and transformers for their thermal and dynamic stability. This stand will have provisions to test switches and equipment for voltages from 6 to 400 kv at various operating conditions, using test current power lines or surge generatore. Powerful short circuiting up to 12 million kv can be obtained with the aid of surge generators, md v@ to 25 million ky with the aid of o3stbatic netwrka.  IV,E,S 8 A 5 1) PAsearch md investigation carried out by the Pover Engineering In- vtitute, Academy of Sciences USSR, the All-Union Planning Trust for Steeik- Electric Pover Stations, Substations, and Furnaces, the AU-Union Electri- cal Engineering Institute and the Scientific Research Institute of Direct Current have led to adaption of 660 kv as a next step in increasing the volta.a,e on long-distance ac power lines. Experimental models of current transfor- rs and disconnecting svitc.,ies have been built for this voltage and are now in process of testing. The design of a building to house transmission equipment for Boo k-'r dc electric power from the Stalingrad Hydroelectric Power Station to Donbass has been comnleted. (Elcktichesklye Staataii, fic 1, Jan 57, YP 6-10) (U) 64rd  YNKRASOV. A.M.. Inth. Forty yenra of Soviet power enpineering. llek.stm. 28 no.11:11-20 N IS7. (mij" 10: 11) (Power engineering)  A. M. .";r..rk lone In Lne. -,cyvl~- --~ Hlzh-V~ j.C. ,-- -r Tr;,;.s- missi in" pf,p-r read (z)y a nubsti tu'.e) at U c- Intl. rnv~-,r C,~;tr-rw;ce, ( --r ')4-V., AI~M-A')'ME Natinnal Frw-r Confrjr,-.-~,ce,) Bosto,~, - % '~ct  h7S.RASOV, Lm red.-, ROKOTYAN. S.S., red.; BRMIDYNBLIRGSLATA, E.Ta.. red.; 11 VORONIV, K.P.. takhn.red. rvoig., Hydroelectric Pnw-~r ,ta*If)n - Roscow llong-di:tancm transmission line] Dal'nIRJR AlAktrnverodsicha Volzhsknia GES imont V.I.Lenins - Moskva; shornIk Ptatei. Mosk-va. %a.anqrg. ird-v-, 19~q. 4P" p. (MilL, 11:12) (gloctric llnns-~ vqrhnhd)  Translation from: Referativnyy zhurnal AUTHOR: Nekrasov. A. &&.. Loshak, B SOV/1 12-59 -1 -8 Elektrotekhnika. 19 59, Nr I, ? I ~ USSR) 0. , and Steklov, V Yu TITLE: Forty Years of Soviet Electric Power Engineering PERIODICAL: V ob. : Energ. str-vo SSSR za 40 let M.-L. . Gasenergoizdat, 1958. pp 7-33 ABSTRACT: Bibliographic entry Card I/ I  Ali D I  Po e r t.'~ t i L2 - 01 F,)- er it  A 'ov cc, ca  a-T L, Ul Z) Ot jo :Tn. a 7 n )'1 1. 1 T T T T, :7 I_] ri f" ',Oj T T. OT', -z)TJTI !DTz)S V  AUTHORS; Krzhizhanovskiy. C;. M. Veyts, 4- 7'1/~' V. I., Baum, V. A., Gorushkin, V. I., Nekraaov, A. M., Markovich., 1. X.. Tolstov, Yu. G. TITLE: V. I. Popkov, Corresponding Member of the AS U3SR (Chlen-korr. AN SSSR V. 1, Popkov) PERIODICALi Elektrichestvo, 1958, Ur 4. pp. 94-94 (US3R', ABSTRACT. On the occasion of his 50th birthday and his 25th qnniversary of scientific activity. Valeriy ivanovich Popkov was boin in February 1908. His activity as engineer started in the Dzerzhinskiy works in 193C. In 1932 he worked at the All Union Institute for Electrical Engineering and began with the elatozation of lightning protective plants for energy systems. His main activity was devoted to the problem of aorona discharge. In 1934 he began a great work at the ENIN of the AS USSR concerning the investigation of d. c. corona. In the ccurse of this he elaborated Card 112 the theory of dipolar corona and experimentally  V. I. Popkov, Corresponding Member of the AS USSR determined a number of Importamt physica' , parameters in this f leld. In 1',-448 hf~ be:amp Dr. of ,',~rhn, i1 Sciences Rnd Director of the Group for 'he Inve-,tigaticn of Uorona Discharge at the Institute for Power Engineering of the AS USSR. Under his direct c~,argp the research works on the corona are coordinated in the various institutes of the Union. He wrotp IC 9clentific works. In 1953 he became Correspondinv xombpr -f th,- AS USSR. 6ince 1951, he has been First Ii- D"rq--t-)r imipni of the Institute for Powpr Engineering Krzhi-zhanovskiy of the AS USSR and rresiient of the Department for E.'ectrical Power k,rigineeriniv of the Scientif lc Couct 1 (Tjrhenyy sovet Ther,t arf, I f i~~,jre AVAILLBLE. Library of Congress 1. BiograptW Card 212  3(6) PHASE I BOOK EXPLOITATION sov/1996 Nekruov, Andrey Nlkhaylovich Razvitiye energetiki SSSR v 1 -1965 godakh (Derelopient of Electric Paver in the USSR from 1959 to 1965) Moscow, Izd-vo "Znmiye,6 1959. 31 p. (Series: Vsesoyusnoye obahchestvo po resprostranoniyu polltichosiLikh I njLuchWkh Inaftil. Seriya IV, 1959, vyp. 8) 45,500 Copies pront*d. Sponsoring Agency: Voesoyuznoye obshchestvo po reAprostronen1yu politicheakikh i nauchnykh znmiy. Scientific Ed.: V. Yu. Steklov; Ed.: T.F. IslankIna; T*eh. Ed.: L.7m. Atroshchenko FURPOSE: This booklet in intended for the general r*Mer. COVKRAGE: The author survey@ the stages of develoWnt of electrification in the USM. describes the present state of the &lactrtc power balance and d1scusses electric power planning for the 7-year perlod 1959 1965. So personalities are mentioned. There w-e no references. Card 1/3  Development of Electric Power (Cont.) sov/1996 TABLE OF COWrENTS: Development of the National Econamy and the Electric Power Balance of the USSR 4 The Present State and Development of Electric Paver (General Statistical Data) 6 Fuel Balance and Utilization of Power Sources 8 Stem-turbino Power Stations 11 Thermification 18 Hyd.roelectric Power 20 Atomic Electric - power Stations 22 Interconnected Systems and Electric-power Networks 23 Card 2/3  Developsent of Electric Paver (Cont.) sov/1996 Capital Investments in Electric Paver and Building of SlectrIc Paver Stationn and Netvorks 29 AVAILABM Library of congress JVIPP Card 3/3 9-31-59  NOVIZOV, I.T.; PAnARKO, A.S.; SMIWIDV, M.S.; C41ZHOV. D.G.; UVHNUMM, X.D.; 110ASM, A.M.; RMT. M.P.; TXRASOV, W.U.; ZHINWN. D.G. UGONW. I.1.; IWITRITRY. l.r.; DRORTSM. A.Z.; TIRKWT. T.3.: SAPMHNINDY. 7.V.; 3ORMT. A.A.; RAIWI. V.P.; DAMVSXIT. U.N.; %CGOTIN, N.A.; PITROV. A.N.; MELINIKOV, B.V.; IATTSH. D.I.; IDNIT. F.P.; DIDT IN. P.Te.; 3011DAFSV. I.I.; GUM39M. D.L.-. FDWAYW, K.M. Ollge Sergeevne Kalashnikove; obituary. Blek.sta. 30 no.2:95 IF 159. (KIRA 12:3) (Kalsohnikovs, Ollga Sergesvm. 1914)  ARAKCHNIST, A.A.; HEMIN, S.P.; ESLTAVSKIT. V.A.; KOLOTILOV, A.R.; NOWIrAIVY. 3.I.; HOMBOTO A*X.; IAVUIMNKO, K.D.; POLZNTSV, X.I.; MDZHMBTVZ=ff. A.?.-# SATANOVSKIT, A.Ta.; SIITT. P.O.: SPINIMNOT. K.A.; CHEWSHEY, F.S.j SHUNNO-SHUBIN, L.A. Savva Mikhallovich Zherbin; obitumT. Zlek,sta. 30 no-2:96 F 159. (KIM 12-3) (Zherbin. S&., Klkhi%llovtch. 1901-1958)  USTADIKO, A.Y.; IUCHMIfKO, V.A.; PATLEM, A-S.; GRISHKAHOV. 1.A.; IrROUN, V.S.; SHASHIKN, Z.A.; TRYMOOT. K.T.; SMMOV. M.S.; CBIZHOT. D.G.; NOVINDV. I.T.; ROSOW. R.P.; ASIDCMSUT. A.B.. 9N,* ILIATHMMEO. K.D.; TARASOV. N.Ta.; GADDARK. I.A.; LW. SoZo; AIMANMOV, A.P.; MOMIN, I.V.; o: (SUOT. loll.; 806NIN, L.A.; BJUAWT. A.A.; NATMUSHII. I.I.; INTUSHN. N.V.; ACHUSOV, D.I.; ZJSSO. G.A.; DROBTSHW. A.1.; PLATONOV. N.A.; ZHIMOIN, D.G.; PROWSLIDIV, V.F.; MISTOV. T.S.; SAPOSDION. 7.V.; XASATKIN, N.V.; ALMANDRDV, M.Ta.; IODTIUVSKrY, D*G* Fedor Georgievich Imoginov; obituw7. Ilek.sts. 29 no.8:1-2 Ag 13 8. (MERA 11: U) (Loginov, Fedor Georgievich, 1900-1958)  NIPOROZHUTT. P.8. (Moskva)-, BILYAJEOV. A-A. (Kooky&); RUSSO. G.&. (KoGICTS); I KILOSIATUIY, " OROVOT, A.A. (Kooky&); NELRASQV. 'k.K. (Moskva); N.A. (Moskva); IOKMTAN, S.S. (Moskva); WGOI, V.I., itzh.; TS"MRAVA, a.K.. insh. (g.Boksitogorok) Principal trends in over-all electrification. Blektrichestvo no. 11:87-90 N 16o. (KIRA 13:12) 1. Mosenergo (for Hasgon). (3lectrification)  KARi,VAY, N.M., inzh.; NEKlUtSOV, A.14.. ja,?~. Power engineering of the U.S.S.ii. in 1~,c,, tra f_-s- year of the sevpn-ypar plan. Diek.-ta. 31 ao.-:5-9 AP '6o. (MIRA 13t 7) (JilectrIc power Tlantu)  ZRILIN, V.G., Itnh.; NEKRASOV, A.M., inzh. Specifications for thermal power plants to be built in the period from 1959 to 1965. Elek. sta. 31 no.6.-8-24 Je 160. (PIRA 13:7) (Electric power plants)  NEXRASOV, A.M, inzh.; RYAZANOVF F.A.Itnzh. 7bermal electric power pl&nta from the beginning of the plan of the State Comaission for the LIectrificat'on of Russia t,-, trp Fresent. Elek. sta. 31 no. 12:5-9 D 160. (MTU 14; ~) (Electric power pl,.nts)  ICY. IJLAV, -.11 ., lnzl.; .. - I. . - ~1~ Accelerating 1:,r. . -(.r ulowt-I& powur w4j!-rlc~r-Ax P14w, a". Telilcfmergeti)m -(~*. .. - fvj. (Ilowfir ongineerir,:)  VINSF'IY G.S. inzh.; NEKHASOY A.M. insh. ULE P P I -A - 9 Problems concerning the future development of thermal electric power plants and electric networks. Elek.sta. 32 no.4:2-9 Ap 161. OCJU 14:7) (Electric power plants) (Electric power distribution)  SIRCKrATNIKCYV, I.A.; NUMSOV, A.M.; IEBEDEV, A.A.; KOSMIKO, M.P.; -V' NEMW.0 L.R.; "f-LiU~, D.V. ; KAMENSKIY, M.D.; USOV, S.V. PMSZP I.V.; ULYAWOV, S.A.; FAZTLOV, M.P. Professor N.Y. Shchedrin; on his seventieth birthday and fortieth annivermury of his educational work. Elektrichestvo, no.1:94- 95 Ja 162. (MIRA 14:12) (Shchedrin, Njko1&i Nikolaevich, 1891-)  MWASOVp ".Ij inM.; SEMINOVSKIY, G.V., insh. Problem concerning the further development of electric netvorks and increase In the quality of voltage. Elek. sta. 34 no.3:2-7 Mr 163. (MIRA 16:3) (Electric pmer distribution)  ?"OROZHNIY, P.S. (Moskva); HELYAKOV, A.A. (Moskva); RLESO, '~.A. (Mosiva"; SUROVOY A.A. (Moskva); YEMRASUl, A.M. (Moskva); ROKOTYAN, ~.3. (Moakva~; MJLOS1AVSK1Y, N.M. (Moskva); .5YROMYATNIKOV, I.A.,' doktor tekhn. nauk, prof. Principal trends in the realization of over-aU electrifiration. Elektrichefitvo no.gt77-82 Ag 163. (MIRA lfslO)  ALEK,IZIIKD, G.V.; SYROHYATNIKOV, I A*; NEKRASOV A.M.; KRIKUWHIK, A.B.; RABINOVICH, S.I.1 CHUS& ,P.P.1 CHEOIRP A.M.; BULGAK07, N.I.; BRITCHUK, V.V.; WOKINII E.A.; PANOV, A.V.; SAPCZHNIKIN, A.V.; SAGALOV, M.I.; VOM'OQTfl, I.D.; ANTONOV, I.A.1 KALMCHENKOF I.S.; KRAYZ, A.G. L.Ke Shnitser; on his 75th birthday. Elektrichestvo no.11:87- 88 N 163. (MIRA 1~:11)  IIEK;45011, A.M., red.; ~qjyC(Npj , s. S. , red.; 1141KOLAYEVA, V.11. , i-nd. [ 500 Kv. lonp-dintance power trimsy. Ission lines I Dal I nie clektroperedachi 500 k-v.; sbornik statei. Mo!;kva, lzd-vo "Energila," 1964. 3~O p. (P I ~~ 17: ")  HIN -'Y , i, F Ili( N, Yll vall, "I  S"",ENGAUZ, YOVIYOTIly O3karO*%-lCfi; ~;F,FJ~ASCV ? A . " ~ _ ' " : . ; '. : . - - - I A , - N . y red. [-.he fuel-yower -ri,,ince: , trt, mair. ajitki.4.-i rli~- :"..: , . ~,- _j,ikh f3tl,l,r.. !-I ..~.vi. , I z, i - v ., " Fr.t, rg I i , , " I" .. . , . . (!. '. A . ~  ALFY,'3F:TENKO, G.V.; BORISFNKO, R.I.; VOY770DIN, I.D.; DRCZDOV, N.G.i KRAYZ, A.G-; MAN'KIV, E.A.; MAYORFTS, A.I.; IIFKRASOVI A.M.; NAYUPKOV, I.S.; PAVLFNKO ' A.S.; ROKOrTAN, 3.3,; 30911XV, A.A.; 3TRWYATRIVII, 4,A.; A.V.; SARKISM, M.A,; VPRffTCHFT?l, D.S.; CHRTIN, A.M. Sanuil IsaRkovich Rabinovich, IqOS; on his 60th birthday. Elektri- chostvo nn.6t% Jm 165. (MVIA 14:")  MIMS DK*vdwv, A. 1. (ftinew); Neigramv. As (ErWinser) OROS now 0 TIM$ Continuaw-flow Production sistliodst the.basis of pmes construction -'SOUWXs Moll-ridwoldys atentaiiAno. 109 19659 2-8 TOPIC VA"s rebWorced concretes concretes electric power plants construction .AWVjACTj In-thle artlolog printed as a subJect for discussions ,the authwo state that the oontinoaus-flow method of constructions 'Inighich work proceeds at different stages In different sootIons ofa construction project, with work crows for each of the stages iprogressing from one end to the other of the project area as .11they complete their particular stages of construction at each lindIvIdual arsa$ Is the soot efficient, allowing savings of time I Ion the oxter of 25-SOX over the method of completion of all stroation on oni. section before moving to another. With Increas- Ing else of the power units being construotodg the available l 'transportation oreates a bottleneck In construction when the PoInglo-r1ow's or one-pass system of contimAous flow construction Is usods thereforeq in power unit construction Involving units LO-Lover 100 Nw eapactityg it. b-actooss necessary to go over to a 002  L 24P464-66 ACC Mls APG023W4 0 ,dual-flow method# with two sots of constructlon*to&us irosressing' ~frozi one end of the construction area to the other. This requires Itcareful, plann, to assure that the second tam will not have to .illwalt for completion of preliminary Work by the first toomp sot- 'tIng of conarotop stoo In the programs of Its operations,, The ;usage of modern oonstruation toohniques and materials Is asson- 'tial to good planning,, although It Is noted that some modern ma- torlalog, suak as precast reinforced oonoretog are unsuitable for josd-bowknktr~ of Me above-ground portIons of the stations in's-inr *'a-meo OrUe orte h"2 3 figwes. [JpRS] MM COW 23j, 10 SM DAT91 naw  60OW78 SOURCE ODDEs 65-M/Wo/m/0090/0091 AUTHOR: Neporoshnly, P. S.1 Finog"ov, Ta. 1.1 lAvren*nko, X. D.; Vesolow, N. D.; �ftyinykhq A. 1.l Sapoahnikov, F. V.1 Sordyukov, X. P.1 Chuprakov, N. M.; Nekrasav, Borovoy, A. A.1 KotUevskiy, D. G.g Stek1ov, V. Tu.1 Kulebakia, V. S.; Bogdanov, X. P. J ~r ORG: none TITLE: Pttr Ivanovich Voyevodin, SOURCE: Elektrichestvo, no. 3. 1965# 90-91 N)PIC TAGS: electric engineering personnel, political personnel ABSTRACT: P. 1. V0 M ODIN died on 25 November 1964; one of the oldest bolshovik-Leninists, he was a member of the GPSU already in 1899. fie fought in the early battles of the revolution, was imprisoned and nent to Siberia In 1905. After the October Revolution he became an economic ad- viser to IAmin on matters pertaining to Siberia and the entire Soviet Union as well. He was active in planning #nd organizing GOELRO. In 1921 he was assigned to not up tho now Russian cinema industry, later he turned to the problems of electrift"tions spreading Imnin"s ids", publishing books and periodicals an the subject* He was the first Soviet editor of "Elektriches0o" mW then the editor of "MaktritgatsUs." He pwtioi- 112 MCs 621.3U  ACC Me AP6001078 pated in the International Power Conferences in Berlin 1990 and in Belgrade 1956. His entire life was devoted to faithful service in the interests of M* COMW 964 he we &L4 awardo the Oider of,Lmtiq m0 - Aft Partyl Iq I nwed a He" of 5mlaist labor. Orle. art. hwi I figure. 490MI SUB ODIM 099 09 / SON DAM (6tl  2 2 d) EW'(' 1) CC NWV~012999 SOURCE C&i-t-UP-f0-10-5T65/- rA 000/006/OM/0090 AUTHCRi kleksayonko, G- V.; Borisenko, No I.; Voyevadin, I. D.1 Droadov. N. Go; Krayz. A. Go; Man1kin, E. A.; Flayorots, A. I.; Nekrasov A* Me; Nayashkov, 1. Sol Pavleinko. A. S.i Rokotyan, So 5.1 Sobolev, A. kir-iii~- 1. A.1 Sapodmliwv, A. V.1 Sarkinov, Me Aoi Chernichkin, Do Sol Chertin, A* No ORG: none TITIZt So 1. Rabinavich (on the occasion of his 60th birthday) SOURCE: Elektrichostvo, no. 6. 1965, go TOPIC TAGSi electric angineoring personnel, ele-3tric transformer, hydroolectric power plant AB3TRACT: The c1def specialist of transformer building of the Gosplan Otate Planning Corodssion) USSR. Sandl Is"kovich Rabinovich vas born in 1905 in the town of bortsoglebsk of the Voronezh Oblast'. From him student years at the Gosudaretvemyy clektromashinostroltellnyy tnstitut (State Machin*-build- ing Institute) he already showed interest for power transformters. In the early thirties he designed the first types of domettc Soviet 110 and 220 11V transforwaral in 1939 he becam the chief designer of the Moskovehly trans- formatornyy savod (Moscow Transforwr factory). In IS46, he conducted the desipt OW oomtrwtion of I lghtnlr4-veel @tent trmeforimers; during 1949-19%, L cwA 1.12 --Me 421-3240%)-  L 2.2594-6-b ACC Wo AA0129" he headed the design of the 400 kV transforwr equipmnt for the Volzhskaya hydroelectric power station - Moscow power II Ir ; his subsequent work on the 5W kV equipment earmd his the Lenin prise . I lfrm 19W, he has been working at the (looplan USSA. Be to also-@ m~mWr of the editorial board of the jourvol Blektridnetwo (Electricity)* OrUe &A* h", I r1go", rime m Cm I ]a. 09 / WN Dm I  Subject U33R/Electri-Ity Card 1/1 Pub 27 -y, A, N. S-r )m, tn' kov Authors N e kra p,9 0 ye Gla.7unov, A . Ivan1shchenko, F D , Ven1kov, and others A ID P - I . A Chi I M A Sirotirse", L. 1. V. A. , Ct.e~.verlc~~E-,,ko, A. N. Title Professcr A M Fedoseyev On His '--(jth Birthday and 25 years of Sclent1fic, Educational and EngineerJng Activity (Current News) Periodical Elektrirhestvc), ~~i, Ag 1954 Abstract A short blograpKlcal sketch and a Jes-r,-,t1,nn -;f scientific actIvIty Is given. Institution Not given Submitted No date  14ASLMIKLTV, YooA.; A. ':.I- , ~ . P, Generation ~jid :T , b--,,' w Lor. in Large McIth. ve!3~ie~s. ?rib. i tayn. oicip. ~ q, . , ,.! - T , . S-0 163,  NEY?,ASOV, Ale4wand .5-azZ.-yevich, kand. tekhn. nauk; YAKUSHEIVA, 'CH, I.L., red. V.A., inzh., nauchn. red.; KROMIC514 (Framod buildings with wa-ll filling of local builairw materials] Karkasrwe zdaniia 9 zapolneniom sten me3triymi stroitelInymi -naterialamd. Mo:ikva, Stroiizdat, 1964. -Y I . (MlhA 17i~)  IV A 0 41 J I !1-11 - &I fill I UP, It A litI L A) jil ( 1 1111 '1 1 f I I lit A  J~A ilia", at  s/o94/6:/000/001/001/007 E073/E335 AUTHORS: saw- A-S and Sinyak. Yu.V. TITLE! Comparison of the Specific Consumptions of Electricity and Gas in Heating Processes PERIODICAL: Promyshlennaya energetika, 1961, No. 1, pp. 4 - 9 TEXT; The specific consumption is determined for insulated holding furnaces of the conveyo5 or pusher type with specific loading rates of 150 - 2202kg/m hour for norma lization annealing and 40 - 70 kg/m hour for annealing, gas cemen- tation, etc. A comparison is made for characteristic hourly rates of gas furnaces and electric resistance furnaces of equal productivity per unit of floor space, Induction he ng has not been considered. In gas furnaces recuperative ai ~t%e 'Wa ting to 400 0C was applied if the required temperatures wore 600 0C or0higher. On increasing the air temperature to 1 000 - 1 050 C a furnace efficiency of 38-42% can be achieved in the case of non-oxiding heating. Preliminary Ca rd I/ %  S/01)4/61/000/001/001/007 E073/E335 Comparison of the Specific Consumptions of Electricity and Gas in Heating Processes analysis has shown that for determining the eftictency of utilimation of electricity and gas for heating purposes it in sufficient to consider the following main technological procesBesi Card 2,  s/o94/61/000/001/001/007 E073/E335 Comparison of the Specific Consumptions of Electricity and Gas in Heating Processes Temper- Heating and Approximate ature, soaking time relative aux- t, 0C 6, hrs iliary times Tempering low temperature 150-350 1-3 0.2 high temperature 350-650 1-3 0.2 Annealing 700-900 3-6 0.3 Hardening and normal- isation annea ling 850-1000 1-3 0.3 Carburisation 900-950 6-10 0.5 Heating to the forging temperature 1100-1250 0.5-1.5 0.1 The comparison in made solely on the basis of heat consumption and not on the basis of Costs, i.e. the electricity consumption in kW/ton is compared with the consumption of natural gas in n03/ton of material to be heated. The use of the derived relation is illustrated on the example of heating a cylindrical Card 3/. t  S/094/61/000/001/001/007 E073/E335 Comparison of the Specific Consumptions of Electricity and Gas in Heating Processes component to 1 000 0C in gas and electric furnaces. The authors recommend that electric heating be introduced starting from the higher temperature range of 1200 - 800 0C and then in the tem9erature range 600 - 200 0C. In the temperature range 600 - 800 C gas heating is more efficient from the point of view of heat consumption. The proposed relations enable evaluating in the first approximation the changes in the specific heat consumption as a function of the temperature and the heating time and revealing the separate influence of each of these factors on the specific heat consumption. The divergence between calculated and measured values of heat consumption varied between 2.9 and the calculated values being lower in every case than the measured values. There are 5 figures, 2 tables and 5 Soviet references. Card 4j If  KUZNETSOV, Yu.A.; KAKAhGV, A.A.; ~~:-:LENVYFVP L.A.; A.F.; NEK;~ASCV, A.S.; Ti'-'ETY,"~, N.I.; RAKAROVA, A.S.; KA?TCV, Yu. Z.er)', Yi,. P. ; H. ILEY, L. 3. T W. ~"i VA, L. A. ',t7-j.':EYU:CV.,YAYA, G.V. ; YFrIPOV, L.T. L''. Al"AYFV, A. ,jhDAYEV, L.S.; -,A!,' ?A i%r,. ; Y ~.A. Ll -1/PD, T.E. ; .*,V,"XC'-'. '. ,; IN', 1 .1 . KNUVALEML, Z.T . ; KliAl 'YA,;';VA, N.%*. 31F~AR7S.Eh,-j, A. I lilKOINGV, A.1 ; .;TkiI?c'V , I-A.; JW'Yl~ ]I;, L-1. ; i ."t il 11 M( % li.N.; THOSHINA, 5.11-1. ; , ; JVEIL01', K., . ; jUYAROKOV, :;.V.; TAYAY,-Vv'lLl, M.K.; "~-11-!AUFLVA, N.I.; KHA~'JLEV, V.Ya.; KGSIT:LE-~, A.A.; KI: A, L.I., red. [Vpthods for u~-irw Ple, trur.1c corqvtorr In the oi *'!,Iza- tior, of lower crq~ineerlr.,- cal~-ulationsl, Metody Irinenerdia el.,,,tranno-vychisli*-(-i'ri,ykh mnO-n ~rl ~q-- f-nerge- Ilicheskikh rasct~ptov. :'(-)skva, Nlauka, 1'46t- 31~ 1. Ar:tideriya nauk S.'>'Sit. ~-bi:.r.-Tye jtcie~ n4ye. skiy institut. ~n, Al .;,;3E (for Yei--ntly, v  NEKR AWIV, A.B.; KURGANOVA, M.A. Problems concerning the comparison of principal networks for the electric power supply of industry engared In high-towporature operations. Obshch energ. no.4:18-28 '61. (KIRA 14:8) ~Slectric power distribution)  KUZNETSOV, Yu.A., In7h.; 14ERENhOV, A.P., inzh.; MELENTIYEV, L.A.; NEVRASOV, A.S., kand.ekon.nauk Usinp electronic calculatinr machines for analyzing the optimurn struct!jre of :t ~.romisinF rower balance. feploenergetika ~, o.~,: 3-10 My 162. 0"iRA 1 1. EnerF'-ticheskiy institut Sibirskogo atdeleniya ~N SSLA. 2. Ghlon-korrpFpondent AN SSSR (for Kelent'yev). 'Pow, -r resources)  1-1-11-1 W1 I MERXNKOVY A. P.1,_NEF.RASOV, A. S.; NEKWOVA, 0. A. Determining the efficient sorting and utilization of fuel by the method of linear programming with an electronic computer. U901' 37 no.10,42-46 0 '62. (MIRA 15:10) 1. Anergetichaskiy institut Sibirskago otdolenlyn AN SSSR. 09lectron digital computers-Programming) (Coal-Classification)  VAZOVER, Ya.A.; NEKRASOVI A.S.; SAVELIM, V.K. Future geography of the fuel-power econmy of the U.S.S.R. Vop, geog, no.5'1:22-38 162, OURA 15-10) (Power resources)  tokhnichookikh nauk. Precast foundations for 2-3 story buildings. low.takh.i pered.op. v strol. 18 no.6:8-10 Je '56. (WJA 9:8) (Fm=dat i on$)  NEKHASOV, Aleksandr Semenovich; -71NYAK, Yuriy Vladlmirnvl,,h: .71".~ ~11 Fc-,,ri.,;!Ac n:11-cto )*,' JOle-- `1~7 hen ass- 1IL9 ) "~C)T.Omlk,i .-Tlfjrt~u t i K i j 1"), . 0 !": , 1. , :",v ~, . ' 1'... 4' - v : I P, p!"t I . I ?,. [ . I -  "r "0 -"' KUZNETSOV, Tu.A., kand. ekonom. nauk 104RASOV, A.S., kand. ekonom. naukr NIKONOV, A.P., kand. ~5~5' r-,'----- Use of mathematical modeling techniques in the comparison of composite wW separate power distribution networks. Elek. sta 36 no.406-67 Ap 165. (MIRA 1816)  'A V I NOR 6616 ~91100 .%to %Ail. I I#4`1114j"I r If UOIIJV VJ4 01 In-18 J") 1.u1w)q,, o,.. I %M,- Aju..1 & tuncufjd(~ J.Z...11 'I .qj n aj,V,(jajpAIj awwqd pontm u~, siu--wtj so atuav jo amnsas -trino po" SON A llgf;l Alaf '".rwowp; r 00 U.'"ov -jv-gq-.7 av; jo RoAlqw j0 0 0* '91JI416*11 V 'y PUIF AOCUAI",14 0 00 :66 00 0* 00 00 00. 09 1153009 0.1 'i.-, T~ Is a 04 0000 0 00 0000000 00006  i'V Wme -Aug- t,4.4.' A- i  USS/Chealstry - leopropyl Alcohol Apr 49 Choulstry - Alualnua Stlioates, as Catalysts 02~ovlag From Synthetic Isopropyl Alcohol," A. S. Seltrasov, B. A. Krentsell, Petroleum Iast, Acad Sci UM 1 5 pp ~~-Iz Ak,gauk: SSM, Otdel Tekh Nauk" No 4 W" tAntlor has doveloped Layroved method of removing ad- MaLitures (polyizarto hydrocarbons, dIlsopropyl other, axylen and sulfur coVounds) from Isopropyl alookol, using al-- silicate catalyzers. Losses of alcohol throughout experiment varied froa 1.5 to 2%. Devico contains a dropping tube (fitted with a dripcocir), a M 4 5 /49TI3 UM/Chealstry - Isopropyl Alcohol (Cootd) Apr 49 Wbe filled with the catalyzer (in an electric furnace) , a collector, a Tishchenko vial, and gas holder. Subm-Itted by Acad S. S. Waaetkin, 6 Oct 48.  NEM SOV 14 S. P1, 67AOT47 MWA%mletry - Alcohols Kay 49 Mar, Dileopropyl *Catalytic Dehydration of leopropyl Alcohol Into Dileopropyl Mar.," A. S. Nekrasov, B. A. Krentsel', * Pp *Zhur ObeMb Ode Vol XIX, No 5 Teopropyl alcohoi me dehydrated at i6o-1700 in the vapor pbow over an alunino-silicate catalyst into dileopropyl other with a yield of 40-50% for a s:Ln- gle operation, and accompanied by a not more than 9$ yield or propylaw. SubuItted 14 Feb 48. IM 67/119T47  lizimAsovo A. S. ANA. V" I A pr 1954 V"Ti, LUbricant The Wdri(k. p0 ymepts Jon tec Ice b I .-;. L!~.Y' r4dy 71~17' A70, fknd Aw, 1~4 - - T'6 - Wy'~. IS.';. .1 Iff-VII-W- vs tr,b 2-1."arni was .111, the Win 'A ~ifh a high vetane na. The 3 i~jtrnfl rl~Wnld 4 1 25% butidieve and 1-27c rthylenp and propylene ju impurities. Attempti to rrmjw (lit butadwne -ith ind,ne or IICI here lnuu~i%ifuf Ille 'alni'sts tr.'d ~rrr WOO phmphnric -Arid on pufo~ro turrirf -ir wi arliYated C iLs a rar"" (1wo- rtio-33 I i b~ -ighti, pho,.phmic w,,i kith a Of Wt '18 C(L(POW,. '41 5 x II.P0.1 and heady phosphmse A azid The lant ai made fr,~ ktt~lguhf and I)yrnphr^- plimic acid The -"e arri-4 out at Ml,- r2r' and 2-5 atni k]) thf ~tAjVlt% g-e the tame resulti. 11,,e pn-iu,t bou,d o,~r th, r4nX, 14 365' -ith &5% ) I bel- ZOO' The fr2riton b,,IIInI at 20-200" coft- ~031)n 131-180% 'if morr of unsaid canlr-J- 4-12~ aromatic conitids , and 1 V7, naitlithen,i and par.ihn. 'The ortane ,,,, for Cn- f-qt~- "s 79 sufflcwfft to 'Irct'ase the ~"' -,:,t "11'aid. romvi, 0) 34-75% did not ClIftir th- - ta" - 'NUArAirAt- that pAymeritatt~ h., tIrl, ,r-,jj-..,j kfv-t--~,,vv-n U the butadien., rrsults o(mid b, In-ph P ~Avr-  NUILAWV, A. .3. V. S,. Hodionow, A. K, huzhentsova, A. ). %ckrasov, N. 7%. )1e1 'nikov "Acaderaician Seryey Semonovich Nametkin" (187U.-I950), Zhurnal Ohshchey Khimii, Vol. XX1, No. 12. 1951 Pp. 2101-2146 LxLracts available discussing Nametkin's work in the fields of (1) Nitration of Hydro- carbons, and (IV) Plant Growth ~,tlmulants and Herbicides. 1he portion of the artirif. not Included Is chiefly a review of Nametkin's work on terpenes and essential oils. '-)0: & 4-2') LA7  lrfqr,lUSOVt A. S. awals" 0816 Yth carov (Chm;- eld utohmilm d Tel. Mew- pp. Apt. 10 0 IM  RM-41M WEI MW Kti~ A i: Ar fted qw we od tW OdOmd 'dw am pf I od _wn_ 1k Will Mm.d J,4~ opww 4rv  1. A. S., K;'.. N-, - 1' , :~. A. 1-1. 1~1 Jj-,l (6cr." 4. Hylimcarb:)n.-a 7. "Che- ical utili,-.-,,-ion ' e, its, .." .. .. I.", .. 7 . . r..... - 1, ftevie,ied ~)y r.azanr,~~iy, YA. ". J ' . . '. , '. ,, ~ () . Montht L I s t -, r Russ I an Ac~--ss i,)ns , 1. 1 ~ r--Lrl f, I . . ~: :, . I . I ..'. I . .  LUKIYANITSk. V.G.-, HIRKH OV. A.S.; TOPCHIYIV, &.V.. akademik. Determination of organic wulfides by the tethod of potentiometric titra- ,- tion. DokI. AN SSU Q0 no.6:1043-1044 Je 15). (KLRA 6:6) 1. Akademiya nank 555R (for Topchlyev). (Sulfides) (Volumetric -nmalysis)  At 'T4. ~f, UTZ - ft-'Mlloorit Eta With lw 00), Ot dow not tva Ckpidly deempd. by, 94100 Itesube fee the jwkW S"i It W- Of US 9. of tbi dieulpts, to, tM thlophane Ang by him' del OR .;X*Ith ACO ago or Aa;O or B law- tw jrhm used an the entemd the tad rftctbm": UNU.. With 4M wct4kK!4 In the J;flo I .7&Acn wag jonuM.. pit.1 f=109 10-2 VACAN and 40 ml. CjH# 6 km of AcPh Q-9 IT K.. 7, W4  Am Mg- At k lot AWINAm Md.. b-aw A ft -Am 1 4- d iold li"W'd SIA 9. will, 7=- 77".  14- 54 .49 ilOW --Zauk 9"A law 2;; Z 901 1 td Wfate so d&Wv" 11C dibstr bhthak w"w. 6-mww. in,-. IV OAK. lia., ct t" offac It I V- r- umtulrl NW~ MW~Em  .... ... .. .... OL Z&~ YAM. orv 5 wmp&. vil - ----- Ia: thefs bleads 4vith xromtic wlvcuts was 6 JA jr, Zx7pilm-- wkb its kwre3v. its ui*L wt. _1V dkulfide. Woo a. phthme. 'This tale is - Ni t rbi I& suW. but (dr creffe dm id Ind. mu' ads to lacm iV- f- 1m Ia. of Cfav; am b=uft Im sfifiKhak length does not have thb effect. Chaing al ried KdPorqtiou. SUMCS we ad-, twe de~, sa4 tbbpymn It ku adsodwd Mbed lMdtf thaff dboW tboA ditbboyria.. ThUnsphtheme is ubmbed usom tham ftj%jjpjSjQjd $WfKft (Cf. lf&tt= Ov~  R3  f?AL.i-i.A mi 'AL- qg~~,:u V-6  Pat '0V ~xw k 41- -4- _ehlorimt 21/39 "I-~334 JWw' 1955 4rinatioi.et.44twe m4 nonww at teVeratures close that t1w Cl selectively dis- it.of-~the hy&og6k'in mwM position. Puring chlorins- ipt 9 mch higher than the boiling Cl displaces the hydrogen des, the P at'. ftraC 064tifte'. Shis. hydrogen atems were found to be bw 114 ii, 9. The eff3ct of temperature temperature r mWlained. Seven sit forthm, USA mA 1 German (199-1953). Free" 1 USMO 0-4mmen 9ftnch p  #4 Sao P~.Omft, petr. Iwo M~'j hm  V chlorination JA ftbo-,22-- A& I Galaninaj R. S., and Nskrasov, A. S. iAs Activity of bydrogeA atme of various orientation during the chlartnatiom of C, C '-alkanse Dak, M SSM 100/4, 701-703, Feb 1, 19M V 13q~erluental data are presented regarding the thermal chlorination of C6 - 09 a-alkanes. A close relation was established bet%4*n the degree of Cl utilization and temperature and between the hydrocarbon surplus MA ".00 'contact Ure of. the reagent$ The reeetion temeroture am rouid.4c be one of the factors affecting the rate of reaction as well the orientation of the Cl sitow entering the moleculee The effect of ts"erature fluctuations on the rate of hydrogen atom substitution by C1 atomm is txplairwd.. It was found that a reduction In tempersturo betl6w-the optimum point is followed by a reduction In the activity of Vximma bjdrogen and on, incr*sse in the activity of secondary oneso Five referencesi English 'CL936--i 1953). Tables 1 drawing. .3 USSR and 2 .01ititution I Academy of Sciences. USM , Petroleum Institute -V raiented, bya Academidian A. V. Topchlev# :une 1. 1954   Jilt )(English ir"4.w ~  ass= #04AMUFAM OW dq4- f6i 0d WoM4 at o I Ott A*14 of dWt takation of C'Ins 10D% at 200- III T14 Yield of b U.9 WIMM th, LIF ibA mmft fad& ut - t FA ("d fod~ imt6ft w tob "t $Pam Acint 2& L/I. VIM.Itmul Of Ono- the m Oil- -Ctoff*Cleb~ I*j RM Pconday ch uluvity of pftuy M, NI;4 VP -L,Z 79 ,t-j 41 o S wo  UIRASOV, A.S.; PTITSTNA, N.V. Aromatic hydrocarbons from kerosene fraction of Crimean petroleum. Trudy inst. nefti. 10:74-91 157. (MIRA 11:4) (Crimes,--Kerosene) ( Hydro car bo no )  HNKRASOV, A.S.; KARICHVA, V.N. Catalytic addition of hydrngnn chlnridn Trudy Innt.nefti 12:276-290 '58. (Ethylene) (Hydrochloric acid) to ethylene in the gas phase. (MIRA 12:3) (,'atalysis)  G&LIPERN, G.D.; KARICH&VA, V.N.i NEKRASOV, A.S. Selection of adsorbents for the chromatographic separation of concentrates of sulfur compounds and aromatic hydrocarbons. Khim. sera-i azotorg.soodsod.v neft.i neftooprod. 3&219-226 160. (KMA 14zO 1. Institut neftelfbimicheakogo sintesa AN SSSR. (Adoorbento) (Sulfur organic ecmpmxrAs) (Hydrocarbons)  . . 1 11 . I I I I : -. - ~ , ~ . i I , . . - . . I . I . - . . . ..- - I . . . , ,. . I I .  L 06103--~ 7 INT (Ij aW CL NR, AP6019515 SOURCE CODE: UR/0362/66/002/002/0174/0182 AUTHOR: Kagan, B. A.; Nekrasov, A. V.; Tamsalu_.,_ R. E. ORG: Leningrad Hydrometeorological Institute (Leningradskiy gidrometeorologicheskiy institut) TITLE: The influence of horizontal turbulent friction on tidal fluctuation uA sea level SOURCE: A14 SSSR. Izvestiya. Fizika atmosfery I okeana, v. 2, no. 2, 1966, 174-182 TOPIC TAGS: hydrometeorology, turbulent flow, ocean current, ocean dynamics, ocean tide ABSTRACT: A study is made of the influence of horizontal turbulent exrhanve oti Lidal fluctuations in the level of the Y(-11(,w Sea. It I.,; e,,tablished that a (onsider- ation of the horizontal turbulent exchange can be used to Introduce a vonsiderable degree of correction into calculated tide levels. Consideration of horizontal turbu- lent flow will not, however, lead to a bask. change (n tidal phenomi-na calculated for the Yellow Sea. Analysis of the results shows that the amphldromi( 1whirs ,I Ihe waves are displaced toward the center of the basin when horizontal (,irhtiletit r~x,haog,, is considered. This causes the amplitudes of tide In the central portiong of the basin to deCTUa8e, while tidal amplitudes at the northern And southern ends Increase. Card 112 - - UDC. 551.466.7  , (X-1 01 - ~j -1 ACC NR, AP6019515 Horizontal turbulent exchange causes a smoothing of transverse curvature. The In- fluence of horizontal turbulent exchange leads to a reduction In the effect of depth variability. Orig. art. has: 5 formulas, 6 figures,and I table. SUB CODE: 08/ SUBM DATE: l1May65/ ORIG REF: 005/ OTH REF: 007 r . Card 212 _7' ~  ACC NRi C CA~ Monograph UR? Mill, Mi,,.hail 1,contlyevi"; NokrazOv. Andrey V.ailmirovich; Braverman, Aleksan(ir Samoylovich; Grodko, :./,v Naumovich; ipykand, Xatvey Abramovich Helicopters; design and cot,ntru-t,on. v. 1: A- ,-iynFu%1ca (Vertoletyl- canchet I proyektiro,inn1ye, t. . : Avrk,)11 Jnamlea). w, 7zd-vo "114"hinoetriyenlye". !966. 4',4 p. illue., bli,lio. Frrata slip 4600 copies pr.nteA. TOPIC TAGS: helicopter, aerodynamics, rotary wing aircraft, helicopter ro-')r, hell- copter rotor blade, mechanical vibration, helicopter design PURPOSE AND COV'ERAGE: -Inis is Book One of a three-booX sprles on he.icopters. Book I.-o is on Vibrations and Dynamic Stabillty, anti Book 7nrl-e lo on 7ne book Is Intended for engineern of desien '.,ui,eaus, Fcllentlf~c wcc&ers, and for fellows and Instructors of higher educational in5t11_%;t1ons. :t -tin also ",,r: 011 use to engineers of helicopter-buildiW, p-riz-As tini fi.udtfnLi-, aerodlynamics and helicopter stability. Many pvrLs of the booe. will also 1~e usf-l'u, to flight and techaica.1 personne"L in helicopter flying unit,;. The bfj,)A i'scuraes tho course of helicopter development, princli)ie6 of ti.olr deslixii, i,r,! the"r pla-c waong other aircraft not requiring airports. Varluus theori'?o _)r, rotors are covered, along with methods for determining their aerodynamic -hrkracteriatllcG, including: the pulse theory of an ideal rotor and its application to the energetic method of calculation; the classic theory, In the case where numerical integra- tion methods are used; the vor-tex theory; and methods of experimentally determin- ing a rotor's characteristics during flight testa and in wind tunnels. There is a Card 1/4 ____UDC_629.135.4.533.6~ooi.i2  ACC NRi Am6o32642 detailed discussion of the varlous methods for the aerodynamic calculation of the helicopter and the theory of rotor flutter. Methods are explained for calculating flutter while hovering and In for-ward flight. Special attention is devoted to the calculation of friction in the hub's feathering hinges and to the transmission of b:nde vibrations through the automatic pitch control. Experimental research on flutter is described. The authors express gratitude to engineers F. L. Zarzhevskaya, R. L. Kreyer, and L. G. Rudaitakly for their help In pre- paring the manuscript, and to R. A. Mikheyev for his review. There are 42 references, 55 of which are Soviet. TABLE OF COMM= (Abridged): Foreword - 5 Basic symbols - 5 Ch. 1. Lines of helicopter development and basic principles of their design - 7 1. Development of helicopter building - 9 2. Helicopter as compared to transport VTOL'a and STOL'8 - 21 5. Basic design principles - 37 Ch. 2. Rotor aerodyamico - 47 Theory of rotor development and methods of experimentally determining its characteristics Coed  ACC NRi 2. Clasnl- '~,,,ory of a rotor vit.,, btraie connection. General case. Curvilin-11- motion - 56 Rotor theory It. Classic rotor theory. Numerica" tbeory - 174 5. Vortex rotor theory - "'.0 6. Experimental determination3 cr cbaracteristlc6 of a rotor 237 7. Quality and the propulsion co-fl'i-itnL of rotor efficiency - 255 8. Calculating rotor characteriGtici foc iiovering and vertical flight (Propulsion theory of rotors) - n,65 Ch. 5. Aerodynamic calculation of helicopter 1. Basic equations for the aerodynamic calculation of a rielicopter 2~-':,j 2. Helicopter aerodynamic calculation by the ,1'-'/Yaroshenko method 293 3. General method for the aerodynamic calculation of rot&ry-winged aircraft - 301 4. Helicopter aerodynamic calcu~atlon usin,,, concepts of rotor quality and efficiency - 325 5. Helicopter aerodynamic calcu-ation 'Ly forces method - 545 Ch. 4. Rotor flutter - 351 1. Basic ai3sumptions and pe-culiaritio7s5 of approach to flutter calculation - 352 2. Flywheel flutter of the isolated blade axial flow around the rotor 358 3. Calculating friction during flutter - 376) 4. Rotor flutter with relation to the transmission of blade vibration through the automatic pitch control - 382 L92!~d 3/4  ACC NR, AM6032642 5. Flywheel flutter of the rotor in forward flight - 391 6. Calculation of flutter7considering blade flexure and torsion - 396 7. General method for calculating the flutter and torsion in a rotor in flight -.418 8. Experimental studies of flutter - 433 References - 449 SUB CODE: Ol/ - SUM DATE: 04maz,66/ CIRIG REF: 033/ am MP: 009/ I-Cord 4/4  KOLYANDR, L.Ya.; PTISTOVIT, Yu.A.; SORKIN, M.M.; NFKIL45OV, A.14.; HUHNO, S.I. Discussing the article "Removal by adsorption of carbon digulride in the preparation of high-purity benzene" by V.E.Priwilov, A.P.Kolesov, V.Z.Sokolov (*Koks I khImiia," nc.2, 162) and of the article "Preparation of sulfur-free benzene from pure benzene by means of chemical purification methcxis ("Koks I khImiin," nc,.3, 162) by V.E.Privalov, T.A.IAroslavskayR, N.Iffi.Cherkasov, and I.A.Levantovich. Koks '. khim. jb4. (MIRA 1":4) 1. Ukrainakiy uglpkhimicheskiy institut (for Kolyandr, Pllqtr)V-it). 2. Elagleyskiy koksokhim-icheakiy zavod (for Sorkin, Nekrasov, Kikhno).  NRKRASOV, B. Return to earth. Nauka i shyttia 12 no.9:5-6 3 162. (JURA lbil) (Astronautics)  . 1, ~ 1.r ~ - , I " , I , . . I  ACC NR, 27003005 (A) SOLRCF CODE: UR/04!3/66/6C,,,1' INVENTOR: Nekrasov, B. B.; Polyushkov, A. G.; Badikov, G. 1. ORG: none TITLE: Starter system for an aircraft en:~ine. Class 62, No. J.W1nC(:d by Air Force Engineering Academy im. Prof. N. E. Zhukovskly (Vcknno-Voza....,njya (4zhenernaya akademiya)] A SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 1966, 112 TOPIC TAGS: aeronautics, engine starter system, hydraulic pump, hydraa,ic equipment ABSTRACT: An Author Certificate has been issued for an aircraft engir--- starter system comprising; a hydraulic pump and motor connected respecEivL:,-/ It, tne engine and generator shafts; pipe line system with a coupling for connecting L, t.-,e aircraft ror airfield hydraulic power system. In order to maintain the rotation of the generator shaft in the same direction at the transition from start to power genera- .~-~'-'-tion regime, the pump and motor are connected by ronduits to the input coupling ,,!.successively, though the itry section of the pipe system is provided with check and bypass valves (see Fig. 1). Orig. art. has: 1 figure. Card 1/2 UDC: 629.13.01/06  ACC NRj A?7003005 Fig. 1. T ;,I I - Generator shaft; 2 - hydraulic pump; I 3 - hydraulic motor; 4 - intake connector; ~.~j T T - check valve; 6 bypass valve. 5 -j SUB CODE: 04/,/OUBM DATE: llSep64/ Cord 2/2  ACC NR~ AP7003004 ~A ) C )DE: jlt,( ! !NVEINTOR; Nekrasov, B. B.,- Polyusnkov, A. C,.; BaCiKCv, G. 1. ORG; none T Class 62, 18'j-, Starter sys,:em for ar, aircra~'. e2gine. by Air Force Zngineering, Academy in. Frof . N. E. Zhukovseiy (Voyennc-, inzhenernaya akademi,ra)] SOURCE: izobreteniya, promyshlennyye obraztsy, tovarnyye znaei, 1,. 1966, 111-112 TOPIC TAGS: en&ine star~vr sisten, hydraulic punp , :,y equi?mer.L ABSTR&T Author Certificate has Lssued for & h7draulic sz-. i b t t,7. for aircraft engine zomprising: hyi~raulic pump and compressor co;-..-. T- 0 t .11 V engine and generator shafts by means of a bear drive; brake rnecha-- t~-.c ;rnera- tor shaft; and pipe line system with couplings for connecting to Or Z,.r- field hydraulic power system. in order to boost the power duri-.,.,, --~.e operation, the pump and motor are connected in parallel to the Ou2 Ing by means of a three-way valve, though the conduits interconnecting t:.~ and motor are provided with cutoff valves (see Fig. 1). Orig. art. has: I f,F,-e. Card .1/2 LrDC: 629.~3.01/36  AtC-& R-.~~M-OYO 0-4- ff nj tj Fig. 1. I - Hydraulic pump; 2 - hydraulic ---,or; 3 and 4 - gears; 5 - brake meci.-".-,,.s-.-; 6 and 7 - couplings; 8 to 11 va"VLS. SUB CODE: 0~jj)/3PUBM DATE: llSep64/ Card _ 2/_2  Pd~. k4:.. 77u:=7nm W. tj- f6 1L -V4, or ~j~ * , r -: , 11 7, W" cone*= th*' A~,-,..N Pi~ lif  Stir Ot - W-1 Ile Ps; s: f.2 Rf T i f i rl 6'r ;F,