SCIENTIFIC ABSTRACT NOVIKOV, N.Y. - NOVIKOV, P.I.

NO-71-K-Ow -H -ispirRnt. Vic -Aw~~ Use of *hot" presses in the drier part of pipermakin,- ind piperboArd- making cachines. R= Prom. 32 no.4:11-14 Ap 15-. (K12A 10:7) 1. Leningradekly tekhnologichaskly Inatitut im. V.H. HolotovR. (PotpercRklng mmchinery)  NOVIFOV, N.Ye., kand.tekhn.nauk Table rollto of the par^r.,")elrg ;vicrilnq. ',rulf LTIT"'-,-? no.8- 135-13" '(A . 'MIRA (Papermaking machinerj)  ROVIKOV, N.Ya., kand.tekhn.nauk Inve3tigating the perf-,=arca of pre3s 7riv,,'y T-TiTSBP 212-217 162. (~fl RA 16: 10 )  NOVIKOV, N.ye. Pneumatic cc;nv,~ying in wordpilp. and pu,-.4or in,~ intr-r-ri. 7r-rJy "; I ;, LTITSBP no.141i2i.-128 '~,4. X ~-A 18:~)  tioviKov~_.~,ik.o,j.a.y..XIDV&enlyevich; LEVTOV, Molsey Vullfovich; ilWDOISKlY, A.I.,, red. [Mechanization in the finishing shops and warehouses of finished products of woodpulp industry enterprises) 11,ekhanizatslia, v otdelochnykh tsekhakh i skladakh go- tovol. produktsii tselliulozno-bumazhnykh predpriiatii. Moskva, Lesnaia promyshIcnnost', 1965.. 236 p. (MIRA 19:7)  NqVIKGV,- 0. [Novykov, 0. ] I .vdne of the futmm., Nauka i zhyttia 12 no.l:~6-28 Ja *63. (RIRA 16:3) 1. Direktor Donetskogo Cosudarstvennogo instituta. proyektirovanlya shakht. (Donets Basin-Coal mines and mining)  KANSIRADZIII. A.I.. kandidat tokhnicheskikh nauk:.NDYIEOV. O.A., inzhoner; SOKOLOV, L.G.. inzhener. Technical and economic effectiveness In the use of low-alloy steel@ for the construction of dry cargo freighters. Sudoetroente 22 no.10:27-30 0 '56. (9LRA 10:2) (Ships, Iron and steel) (freighters)  KAKSIMIJ)ZI11. A.,qturRhiy nanchnyy sotriulnik; NOVINOV. U.,mlwInhIjv nauchnvy sotnuinik; JOKOW1. L..mIatIshj:7 na,1cTjny7 gut ftfir Addition,al allowances for wear and corrosion in desl(~ninp low- alloy steel hiLI19 for transport ships. Hor.flot 19 no.3:12- 16 Hr 159. (141HA 12:4) 1. TSentral'W ruturhno-iasledovatel'okly inBtitut morekogo flota. Ofulls (Naval architecture))  ZAKAKHOVSILAYA. Aleksandra Grigorlyevna. Prinimal uchastiye NOVIKOV. O.A., inzh. AL~MSAbMGY. L.A., red.; SARAT-17, B.A.. tekh-ri.red. tFixed assets of tw nerchant marine] 0snovnye fondy morskogo tr-dasportnogo flota. Koskva, lzd-vo *Korskol transport.0 1960. 157 P. (141RA 13:9) (Kerchant ships)  NOVIKOVO O.A. Ifethods of determining ship amortization periods. Trudy TSIIIIW no.29:3-15 160. (KUU 15: 11) (ShIpa) (Amortization)  Z&HAKHUVSKAYA, A.G, , kand.okonomicheskikh naLLk; IIOVIKUV, O.A. I, Resultij of revaluatinf,,7 cirgo arxi harbor st:nrice fleet3 of the morcluint marine. 1rWy I'SU11W 7 no.37:70-80 161. (.'-UPA 15:3) (149rchant marine)  I; U: : K C ',~ . I 'I - . , - , , , - .-: , T~j- , '. r I - - ., r, 1 11 M - ',,13 1 ~ 1. r 1 :,; ~: , . - -. . . !, ~li ".1 1 - - . I : 7 1- : " -. - , , , : 1~ r ~ " :7-,- - : r, .- - - --, ,R-,A- of C~ :- p. ... . . ;. . , ". . . ;I i " I "T T, , , '' - ." - .  KOVIKOV, O.A, Deteruining the econovic efficiency of modernizing merchant ships. Trudy TSNID(F no.4300-38 162. (MIn 16:2) (Kerchant ships.-Cost of operation)  acm.w~ TURETSKIY, Lev Solomonovich; Nk- VIK( 7,_ ( lfg Ai~ ~K,--rdrovich; - VTJLlFSON,$M-l. , red. ; KSBOFuNf~7A, Ye. F. , r-e-&. izd-va; TIMMUOVA, Yoj.A., tek)-,r,. red. [Amortizaticn of capital assets of' the merchant. marine] kmortizatsiia osnovnykh fondov morskogo transports. Moskva, lzd-vo "Vorskoi transport," 190. 12l p. (MIRA 16:7) (Merchant mnrine-Finance)  NOVIKOV, G.A. Methods of determining and the order of applying new standards for amortLiation deductions on merchant transport and auxiliary service ah'-ps. Trudy TS?111MF no./.8-3-24 163. (MIRA Y: 8)  1~" 31  EPR/c~WP(k)AwP(z)/EWT(d)/Ev.-r(m)AwP(h)/Ew (b)/T/EWA(d L 42277,65 P )/EWP(L)/E-WP(w)/ Pf-4 ~LM/JD BOCK XYPWTrATICH S/ Uaks ImUhi. Alsksandr Isaaktwicht Wavikov, Meg Alsksandroyiehl, SO-Koloy I&T LqL-!;3 in ahlp;xilding (Nizkolegirovannaya. stall v sudostrayenii) LenITIO. Crad) lid-vo *Sudostroyeniye", 1964.~ 299 p. LIlueb, bibllo*., tables& 19C* copies printede Reviewars: Carididate of Technical ScUnces Tas To torotkino c' "hw -ZngI;near-G*,,- vikovekill Editor: E. 1. Liaok; Technical editor: Yu. He Horovenko'"; Proofreaderat A. F. Andrishora, 0. F, Dusheva- TWIC TAM:' high strength steel~)~ low alloy steel, ship hull FURPOSIt OD GOVERACE: This book vat intended for staff memberm at scientific- i maearch organizations and deaJgh bureaun within the shipbuilding ind-astry; it may- be useful also to students at shipbuilding vuzeB and faculties. The techni- cal and econmic f~sasibility of using steals with elevated strength in marine 93Upbuilding is investigated,, particularly f,~ctors affecting the utilization of :fcr the strength and durability"of these stealso questions of oetting tji~ndsk:rdq '14-4+n nn the armlient4nn ^r jL+A*Im am A oftinatim  L 42277-05 AU5W9938 their strength characteristics. Great attention is directed to the weight o f variation of the hull and of the individual bull elements with the application of -iteele rith different mechanical properties, and to the establishment of a metho- dolory for agaluating the economic feasibility of using high-atrength stealo for the hulls of transportoo The authors have incorporated the results of their re- reor(;h In the period from 1956 to 1963 at the TS?11W xWer tha direction Makelm-adthi, and express their gratitude to their coleagues at T3N11VF L TAO Bar.~ -! sitc, D..,A, Berezhnykh. P-z,.gF, YAAx-.4Q1ghanzr-, 1. T. Cbevashevskay 'k-LIVI-MR& _a, and A. owledgid tefully are ta it-okovaya. Others whoae stesiatqnce Is ackn 6TO Korotkin, G. S. Chuv~ ~qak4,, and Gg V,-Rqyjp( T'11- TA131E W CWTEMs Foreword 3 Ch, lo~ The practice of applying stools of elarated strength In transport ship- bu 134 ing - C.". 2# Factors affecting the feasibility of applyinglow-onoy steels 11) Clio 3, Setting standards for the strength of the hulls of traniparts 47 rd- 2h Ica  L 42277-65 0 Cht. 4. Satting'standards for the fatigue durability of ship hulls 101 Ch& 5* Selection of type of steel for the b"Ic longitudinal braces of a 1=21 Ch, 6, Effact of the strength characteristics of hull matarial on the basic tochnical-operational characteristics of ships 169 Ch4_7 , - Method oloj7 -at dateraining-the--e-conomic--f-ea-aibility of spplying steels of elevated atrength - - 2V If Cho $a Economic feasibility of,applying steel of elevated strength 252 Appeudix 275 erature, .295 SUS_P= II Us Um SUUr=r 23J4164 NR F" SN1064 OTHER:034 Card 313  K071KOV, O.A., mAyor; VIST.CV, ON, Influonce of control on the cA"city of n q,wiing system with rejections- Mor. sbor. 47 no.903-37 5 164. (MRA 18,7)   L 07325-67 T - k- - -_ ____ ACC NR, AP6018900 /V SOURCE'CODE: UR/0375/6Q000/002/0034/0039' AUTHOR: Novikov, 0. A. (Candidate of technical sciences; Kajor) ORG: none TITLE: Analytical method of estimating the effectiveness of uncontrolled systems SOURCE: Morskoy abornik, no. 2, 1966, 34-39 TOPIC TAGS: queueing theory, randoin proceas, military science, fire control equipment ABSTRACT: Tile solution of many problems, such an warding off an aerial attack and a , - torpedo-boat attack, is associated with determining the most efficient method of con-, trolling fire power, with an estimate of the effectiveness of various systems when centralized control Is disrupted or with Independent action of the firing facilities. In this case it is assumed that each target that appears is fired upon by all three firing facilities since their commanders do not know about the action of each other and that each target is in the zone of action of the firing iacilitic.9 for only a limited time. Such systems are mass servicing systems with a limited expectation time, which the author takes into account when developing his analytical method of estimating their throughput. It 13 assumed that a Poisson flow of orders is fed into a system consisting of n identical instruments in unit time. The handling time of each order by the instrument is a random quantity distributed by the exponential law. Control of the operation of the instruments is organized so that tile arriving order Card 1/2  -1, 97`5-67 M ACC NRj AP6018900 is handled by all free InSLrumentg if there are any at a givvn moment. If all Instru- ments are occupied then the order "stands" In line, the waiting time in which is limited to a certain period, after which the order will leave the line unhandled. The waiting time will be considered a random quantity distributed by the exponential law. In this system the process of the change of its states is Markovian as a consequence of the assumption of the Poisson character of the flow of events. On the basis of this, equations are compiled which characterize the probability of the states of the system. The proposed analytical method yielded completely acceptable results which makes it possible to use this method when solving many very important applied military, problems. Orig. art. has: 10 formulas, 2 tables, and 1 figure. SUB CODE: 12,19/ SUM DATE: none 2/2 Card  IDIROHOTA, TS.S. , Inshoner; MOVIEDY, O.T., lazhemer. Welding of tube ends to and plates using the HM-54 machize. Sv&r.pr9Izv.m*.l2:17-19 D 155. (KIaA 9:2) 1.7meseyuca" aauchne-looledavatel'skir Institut avtogennoy ebrabetki metallov. (Pipe-Welding)  A7   NOVIKOV 0 F end NOVIT.71:7, I. C on c e r n I i ig t he uze ne , Te r-rin ic:; I n S c I e n t i f i3 e r-,:- - r. o..d~ " cnc Production by Lobcralucries if the InEtitute." Pr,cee-d11-.f"; -f Inft. ;"TAdem nnd Ricrobi~l Im. Gomrleya 19514-5~- Feroonnel Identified oz Participrnt-s fi~ Sv,~sl' :z.3 ~,f tl.c ~'cicrtffi,: Ccu:.--.1 Ifeld by the Inotitute DirIng l()')4. lj,:3t. ~7"~Ildem rl,,,d im. (,,~;a;i~leyn MIR ;0' "Um lill"( . 11 j0,  KHARLAMOVA, K. 11. , kand. tekhn.nqiik; MORKHOV, M. I. , kfind. takhn. nauk ~ 11017-IKOV-, ---O.P., inzh.; KORYAf~INA, V.V., inzh. Purification of nickel and copper plating -lectroljl~es by the separation method. Khim.mash. no.2123-26 162. OERA 15:~) (Nickel plating) (Copper plating) (Electrolytes)  XIJZTn,. Y.A.; NOVIKOV, O.P. I -!b Now methods for ourifying suspensions in the manuffactare of sugar. Sakh. proco. 32 no. 7133 J7 158. (141RA 1143P (Sucar manufacture)  KUTSEV, S.S.; KUZIU, V.A.; NOVIKOV. 0.P.; BORISOGIXESKlY. B.N. Comparative test data of industrial and pilot plant pnrifi- cation of difflision juice.Sakh.prom. 33 no.7:76 J1 '59 (MIRA 12:11; (Suear manufacture)  ZUYKOV, V.Ya.; IVAIIOV, A.I.I.; Z.13.; ]:,K C14:1KOV O.P. j POTKOV, G.A.; Y-;,D:M'OV, A.Ye., red. .- SzIlwix", red.'-- SJUVALDVA, 11.3., red.; WREA, G.V., red.; Ye.A., tekhn. red. [Liquid seprators for the food industry; harti ook-catrJoglule- parptor-y zhidkontrye c;lii. ~,ishchevoi pro!y~,,hlennostl; kfitaloc_ ,;pravochnik. Mloskva, 1962. 86 p. (rl I u" 15: 10) 1. I-loccow. TSentrfillmly institut, nruchno-tckhnl.cho.-.):oy irifCr7m- tsii ruishino3lroycniya. 2. Voeso,,-uzny-y naiiclir.c)--liql~!,.,ovatol',ikiy i oksperimentallno-konsti-ul~torski--~, institut T,;-o(.ovollst,v(,nno,,- r.ashinostroyeniyn (far ZvykOvp Ivanov, ",riot al 1, I.ah.Arova, Novikov, Fotkov). (Separators (Mchines))  ALEKSANDROVA, T.A.; NOVIKOVY O.V.; PlIkYAN, G.A.; GEVORKYAN, Kh.D.; BABYSHEV, I.V. Forsterite refractories from Shorzha dunitea. Orneupory 28 no.113493-494 163. (MIRA 16:12) 1. Vaesoy-uznyy inatitut ogneuporov (for Aleksandrova, Novikov). 2. Sevanskaya geoloprazvedochnaya partiya (for Piloyan, Gevorkyan, Babyshev).  78 MKO) JD/W/IU/J tp(v P~q COM q UR/0413166/0001001/001710017 INVMOR: Xoskfilenko, N. 1Y ; Novikov 0. K.- Pavlov, V. V.; GArlbov. G, k':- khogleLIX, V. S. ZhUhLas-, G. H.; Shur, E. A. ORG: conm TITLE: Continuous mill for rolling aluminum strips from liquid-me-ts Class 71 No. 177395 j< 14 '#Y' t. r-ik SOURM ItobretenLya, prosyshlennyye abraztsy, tovarnyye zaakl, no. L, 1966, 7 TOPIC TAM: aluminum, aluminum strip, aluminum strip rolling, continuous rolling, rolling will, liquid metal rolling ABSTFAM This Author Certificate Introduces a continuous mill for rolling aluaft stries fro* liguld metgl The mill comprises a continuous casting machine with a sold formed by a natal belt and a wheel, a raw strip guiding stand. a planetary m and a finishing stand. In order to synchronize the cssting and tolling rates, the 621.771.237.064  L 14531-66 ACC N14 AP6005279 0 continuous casting machine in driven by the lower roll of the guiding stand by ans Fig. 1. ContLauous mill 1 - Ladle for molten,aluninum; WMI 2 - mold wheel; 3 -'metal belt; 4 - guiding stand; 5 - planetary stand; 6 - loop foraer;* 7 - finishing stand. of a metal belt (see Fig. 1). Orig. art. has: I figure. (WW] SUB' CODE: 11, 13/ SUBM DATE: 06Kay63/' ATD PRESS: lylrlr Z  NOVIKOV, 0. T&. 'InTestigation of the Extinguithing of Are@ In Switches.* Cand Tech Sci, Leningrad Polytechnic Inst iment K. I. Kalinin. Kin Higher Education USSR. LamiWal. 1954. M. No 1. Jan 55) Surv~7 of Scientific and Technical Dissertations Defended at USSR Higher Educational Institutions (12) SO: SUM No. 556, 24 Jun 55  e r D raz- ll~ ri Z R o a Card  A c e Phase I r r r ~,r cut 01;  A Dl- -i a u r (Chair of Electric .-ar  I c: T  NOMOV, Oleg Yakovlevich, kand. tekhn.nauk; MIKHSTEV, N.I., red.; DURASOVA, red. (Improvement of high-voltapeg switches nnd their drive meChanismal Modernizatsiia vysokovolltnykh vykliuchatelai i privodov k nim. Kuybyshev, Kutbyahevskop kntzhnop izd-vo, 1962. 76 p. (MIRA 16:3) (Electric switchgear) (Electric cutouts)  DONSKOY9 A.V.; ZHERDEV, I.T.; ZOTOV, V.P.; KURATOV, S.M.; _~QY1MV,- .).Ya.1 OKOROKOVF N.V.; PATON, B.Ye.; SI50TAN, G.A.; SVFYCHAHSKIT, A.D. Stepan lvanoftch Tellnyl; obltuary. Flektrichostvo no.1:93 Ja 163. (MIRA 16s2) (Tellnyl, Stepan Ivanovlch, 1990-1962)  I NOVli~(,V, 1). A., Ciind Tech 3ci -- (di8s) "bajic frict-,Ollai l'orces, ari(I resistaixe to tlie motion of' blivled loop trt~e cow, 106(j. JE, DD; aitn ch,,r-t-s; (""ini --try r.,f' ar.,i Ltco:. ,nrj in! i z;t rducatinn kSFSR , Lenir;i.-rnd ( r(ler of' Lenin ~orf--stry Fr,~- Academy im S. M . Ki rov ) ; 206 cop i e s ; f'ree ; ( KL , e-b-ou , I ~` 7)  I P.A. N OVIKOVY Fri,,~tion in the vcrk of t-,e knif,3 blades of a loc~p--ty-p,3 1-1='blng saw. Nauch. trudy LTA nc.96:113-113 161. r~GRA 1'7, 3)  GRIGORIYEVA, A.S., kand.tekhn.nauk; NDVIYOV, P.A., inzh. Harvesting machinery for the Virgin Territory. &Mledlelle 24 no.608-64 Je '62. (KRA 15:11) 1. Vsesoyuznyy institut mekhanizatsii sellskag:o khozysystva (for Grigorlyeva). 2. TSelinnaya mashinoispytatellnaya stantsiya (for Movikov). (Virgin Territory-Harvesting machinery)  UOTIXOY, P.A.jinyh.; SOYA. Te.R., inzh. - -1 --N-4ice for meRsuring swelling ground nressure. Shpkht. stroi. no.12:21-22 D '57. (MIRA 11:1) (Soil mechAnics) (Pressure gRuges)  -_9 /19 I r Volchok, V., , :"ov i ~ov , i , AFn or, in eers . ............. ,TTI.E: Younters for the !nnt-illntion of ;refntriratpd '..e- T InforcpJ -onrretr? ',~upp,rtq in Horizontal Vininor !.orvings (Yropeuklnd(,f,i~ I ],,y(% vc).~vofienlyn mt,,,rnny zholo.-,ototonnoy ~,repi v ororl,-.on lrtl'ny~.h gorny~.h 1 7ekhanizatsiyn ~:;azrOlykh rat-t, Nr pp "ifferont types -)f lupport mountors for mechanizing the in- stn1l,ition of prefHbricnted reinforced concrete 3,,jpp:jrts in horizontnl mininp workings ivere devised t,y tho V.9rsoyu,!nyy nauchno-isole,lovatel skiy institut organizat9l I I mekhani- zatsil qhak~)tnogo stroit(~,l'stvR "the All-'Inion 'centific- lip-gearch Institute of -rpmnlzati-n and Vechanization of Yine Bu I I ri I r; F - Vq I Ih:, -hese mounters will cut do%n I n b o r costs and T~echnnize the instg1lation )f girders a n~ ~,' -, i - slabs used as suppnrts in mine pelleries. There ar,: adjustable, rollir,F, suspended, t-. --vcie-type 'velosipelnyy', nnJ w9 n t ry - tyne mounters. 'he n~~uqtit:e type Is lesirned mairl for "ard 1/~ the mechanized :iftinq nni Instg1ling of pirdo.rq in one track  ~~ - '1 11 ljlr,-- FI-1- _9/19 Cupport ~,'ounterq for tne :ns*a. !a *ion of ref.-itr: cr. te-4 rf~rce~ -or:c rete upportc in !orizontal Vining 1-~riingq rn e ries I t c o ni 1 a t 9 n f'i metal I ic support--d 1y two metal 1 ic props , eqr~, equi pp(~! wl th a winch . Th(~- girder In lifted 1) '.- the two winches and Fuiled into plare, 7 h Q s e erectors were tested in the "Frasnopol 'ye-I'lubokayn" and "Pelorechensk.xiya" m1nen ( the Voroghilovgrad CAlant ' and found sntisfrict-ory f,,,r the simplicity of its construction and its efficiency, more complicite~ rolling mounter is designed for the erection of supporting walls and girders, but as it obstruct- the passage of trolleys, it is recommended for use in mine chambers, "t was tested at the Yine Nr '.,-,C o' th- Fnrapanda basin. The suspended mounters, c,)nstructed at the Novocherknsski,; znvod imeni Nikol'skowo (the Nov3cherkns!-~k Plant imeni an4 tested at the "'herkassknya-._-IPvernayrC' ';r 1 Vine I'VoroshilovFrad ~Iast '' is dc~.qlgng?d to install wall supports and wirders in one-track galleries without ol)9tructinp t~e pagnapp of trollr~yn. "hp bicycle-t.pp (vP'o~,ip-!nyyI mo.nter, tested at the Jubokaya" Mine, 1,.i also lesignpd "or orie-trick gnl~eries. ,ard The portal support erectnr, testod pit tne same mine, is le-  7"i ill-, 11-A _~ 19 :,,jpport for t'ne I nq t:. . L,t of 1 r t r I c-i t,!! ;-Pinforce~ ':oncr- I,, !,upports in Horizontal '.'Ininv 91Fned for two-trlick. v%livrieg find can Install Itirger tvpes of reinforced concrete slabs. Detail,-d descriptionn of n'll thege types are 7iven No fins' d4-cisi,)n or, the se.-Jil pro- dliction of any of thesf, tl,,,,p,,r, hats yet been reachel . 7he re a re ' pho t r, 9 1. Mining engineering 'Indergrourd structures 3 Reinforc,!,-l conc:-P*.e--App lic at I Orl, rd I  r. 41007-66 ~Wr (1)j T IJP(C)--AT/V33 ACC NRs AP6018729 SOURCE CODE: Ult/0057/66/036/006/1040/1048 AU'r1f0a: Z010t0trubov,I.M.; Xisolev,V.A.; YovIkov, Vu.K.; Ryzhow, N.V. i Tolok, V. T. JORG: none TITLE- A coaxial plasma gun In a longitudinal magnetic field SOURCE: Zhurnal tekhnicheskoy fiziki, v. 36, no. 6, 1966, 1040-1048 TOPIC TAGS: plasma gun, hydrogen plasma, contamination, longitudinal magnetic field, ABSTRACT: In an effort to improve the purity and the uniformity with regard to velocity, density, and total number of particles of the plasma bursts from a coaxial ,plasma gun -;~ the authors investigated the influence of a loq&_!,tudinal magnetic field' on the performance of the gun. It was anticipated that the rotation of the plasma within the gun, due to the Lorentz force on the radial current in the longitudinal magnetic field, would improve the azimuthal uniform y of the current sheet. The dia- coters of the inner and outer stainless steel elect j dos .10f the 70 cm long coaxial gun were 3 and I ca, respectively. The gas (0.1 cm of hydrogen) was admitted through six openings in the Inner electrode near Its center, and the gun was fired by the 20 kV discharge of a 12 microfarad capacitor. The plasma gun was located in the uniform portion of the field of a 1.4 a long solenoid. The atagnotic field rose to Its maximum strength of up to 9 We In 28 mIllisec and subsequently decayed exponentially with a time constant of 72 ullllsec. The processes taking place within the plasma gun .- CQ,d 1/2 UDC: 53 -.!1  L 41007-6(' ACC NRI AP6028729 were investigated with the aid of a magnetic probe and by recording the discharge current, and tho plasmas ejected from the gun were Investigated with an external magnotic probe, a spectrograph, a photomultiplier, a nonochrometer with the aid of which the intensities of different spectrum lines were displayed on an oscillograph, and a thermal probe. The rather Involved processes that took place within the gun are discussed at &one length. The rotation of the plasma gave rise to a magnetic trap within which a considerable portion of the gas was confined. Two plasma bursts Sicro usually produced butynder some conditions It was possible to obtain only one burst containing some ; x 1 6 particles at a density of 2.4 N 1&13 cm-3 and novlng with a ,velocity of 3 x 10 7 cu/sec. The purity oLf the plasma bursts Increased with increasing longitudinal magnetic field strength; at a magnetic field strength of 6.4 We there 'n 'o were no lines due to electrode materials in the a ctrum, a d the lines due to carl a, pe oxygen, and nitrogen were considerably weaker than In the spectra of plasmas produced without the magnetic field. It to concluded that with the aid of a longitudinal ~r.agnetlc field oas can obtain from a coaxial plasma gun pure high energy plasmas free of slow and contaminated tolls, but at the cost of Ineff1clont use of the energy stored in the capacitor bank. The authors thank O.M.Shvets, and Ts.F.Volkov for discussions cure and criticism. Orlg. arto bast 3 formulatt ah ft a. SUB OODJC1 20/ VJ= DATZ: 26&prGS/ ORIG. Rut 0"/ OTS RZF3 002 a hs ard 21  I ' - T *~ ( rl ,' ' .A . It - f *' p r! t 0 4, o I mn t j on ) ~ ~, h ~ I'" I v - , 1. t, I j., ~j - ,A * - a T 1, 1 -,:1 ~; ~, - f. r "In ~; 1, " i I i , -'~ !~. -lt- -1 `-i '' - ,,.,,ir)rt PT-iPn~-,,-~d at '~' I t :1 "I w , - " R t' -9 Ji i r,~~ 101( 1 3 K , ') I f )  2'1':')'5 1 5/1170/61, "00 410 1 O/Oc /()19 4+0 AUTHORt Novikov, P. A. TITLEs The sublimation of bodies moving in a vacujc, PhRIODICALs 1nzhenerno-fizicheokiy zhurnal, v. 4., no. IC, lcin', TEXTs Heat and mass tran3fcr was -~xpt-riz~pnt~11.'y on naphthalene balls. Experimental apparatus: A small table is mounted to the axle of an electromotor in a vacuum chamber. A 10 =n thick naphthalene ball is suspended on q 8pring balancf- which Is attached tr, thic- table. 'N h en the motor rotates the table, the centrif ugul forcc, of the naphthalcne ball, will expand the spring balance. 0-411r.,~ tc o .ibl imnit ion , tht:, oxpans lin of the balance will more and more decr(,as~, d"ring the exFt-,r4:-~nt. or. t~ e basis of the decrease in expansi-,n anA )f the initial -,ind final wpi~~nts of the ball one may draw conclusions or, iantlty of suclim3te, -on the sub limat ion rate, and, -,orLjo jiv-,rit 1y , -,i the cuf!f f ~c i entg )I heat ara mass transfer. Datat Presi3uro In tne vq(,uum (!t.amb,,r 0.07 - AU I= fig, telaper- ature -200C, velocity of thk, oulls -4~ to 50 IMILXIMUM number of revolutions per 5ccondt 4 -juILA--j rjri, r,~nder(-d Card 1/3  AM 2,"r. W0-10 14 tTun a EFFzc,r OF BODY VELOCITY ON HEAT ANDMASS TRANSFER IN VACUUM (USSR), P A. IN: Teplo- i massoperenos, tom 11: Teplo- I massoperenos imicheskikh prevrashcheniyakh (Heat'&6drmsstransferv.2: ffi~at pri fazo-;kh and mass transfer during phase and chemical transformations). Minsk. Izd-vo AN, PSSR, 1962. 215J22L S/862/62/002/000/023/029 The: mechanism of heat and mass transfer In the pressure and velocity ranges from 742 to 0.07 mm Hg and from 1 to 50 m/sec, respectively, has been in- Vest1gated experimentally by using a specially designed installation and a test body consisting of naphthalene deposited on a textolite sphere 10 mm in diam- eter. 7~_ anibient tarperature and the temperature of the test-chamber walls were maintained constant at 20*C. Measurements were made of the total pressure in the test chamber, sublimation in't-ens,ity, temperature of the evaporating surface, partial -vapor pressure on the body surface, partial vapor prCssure in the ambient medium, and body velocity. The results indicate that at body ve- I locities up to 10 m1sec a considerable increase in sublimation intensity takes crx'& 1/2  AM IT" 990-10 14 'Juac =-Z= OF BODY VEL40C= CCOtLt#dJ 6/86216210021000/023/02.9 place. However, a further increase in velocity has little effect on sublimation. Under forced convection the maximum sublimation occurs at a pressure of p 1 mm Hg. At p < 1 mm Hg the sublimation intensity decreases, a*n d at p 0.09 mm Hg it becomes independent of the veIlocity. In the pressure range frozrn 4G to 0.1 mm, Hg the process of heat and mass transfer in the boundary layer takes place as a result of molecular and turbulent diffusion. Zefallowing are rp, - ~* 1% n--.e boundary layer bna sLblirrafing,body repre:~(~ aprihcioal cliffusic,n resistance to heat and mass transfer. 2) In a moving sublimating body the thickness of "he boundary layer decreasee. and at a certain velocity it be-:omcs turbulent. which results in an increase of evaporation 'intensity. V? Sublinnatior. represents a gradual process with unequal probability for trans- -formation of partleles to va-por. Molecules are combined and leave the crystals only at definite surf~,-,ce points. This is indicated by the riddle surface of a test body. 4) UrAt:r. conditions of intense evaporation the mass transfer occurring in qublimatiun hat; a profound effect on hydrodynamic conditions in a vacuum and affects heat-trans-fer intensity. The study was made atthe rtistitute of Power Engineering, Beloeussian Academy of.Sciances. [AS) C&M 2/2  C r.;I,. r. :;,;1 3 j r tin3 r w su o I ',m't t i n c) im z r-, n r r. K. z ri 1,i n ~i v no 47 -0v in provi ~s p-:~-r No v 1 F Zh no 19t a F I ~y -13 of hoat and 7-.Fintj r I r, t :-, e, s i i In m a t j r) n nap ri ' t'a 1 ene un(. - r ) I -- ii,- ip atmo~3-)neric pre t (7 cone; i t i on-, I :r. I 3sure) and wi th e~ tner ,i * it r e 3 u I L i n F *' r Dru t ~, e s e 9 k; i ~ o s ;i r n it - r 'orcpi convi r n . ". " r. 1 1 r n-. * r ri n ~; :'o r mc c -,,in i szs are ~ i t i n v,i i ii n o , 03 c t; on s o f p r(~ s.3 re in tt.o r~,nge of atmospheric c. r, u I it t ri r, r, 1 ty j .9 wenK , tne r anre , s - ran43 fer-re-, by mol ecular I ~ f'.' ,n ;iri k-)nvor t i on. e e x p o r m e r, a I r u G u i t3 for "rep r a n o. crinv,~c t i fm can tto c v i Nu 0 C f r t n e r i a e o f f 9 r, c r v c i n N u 0 i? v G u 7 + ~U- find )7 n Be twe ',0 an,' 0. mm HF  ;,'-,-h,inio,7, of hrat Fin'. T,7,s, i ~ J, as prejo,'iT t 7 % x ,7. ;in,, m,Ls - t r an s e r arac 0 c 1 ,~A QX':~arl~" r, (-, hy ! r -), Ij r, amn i c 9 -iv i c ,) n i~ -I S o n th o p e n u w% , c ri t n p s ', ;i ' c. o f ,i r r e -a o r, tne suustQncs? chqni~t,!i. i ri~ conv r on ~s? ;,,u, P/ p .~x p P/,q c w r c n c n 7 x Z) ;, r. ~:-,o Iranafer cnar-ic r i o . ny p r ti qu r e r tw,~ r-, . e C'i I a r- V 0,10 C n 1 -,5 'N r, r n C I J C rF' te i,.ruc* an:- P --3 C D M (_1 3 7, it n . e9 K. n o 7, r r s p c, nd 3 1.7, ~ 7, a r. "I., e m s - x c j -.r;inf o r - :,.v 7~,) i~r -- r c o n., 3 . n ~j, n r,,. n r, o rn r, t: n -n;,,q-i ri r, e r.7 r. lir. V'1 r I r., n :..,v3~i is pro-,,s,--, of 1 3 n -o; 3 1 1:, 5 t o ,,I, I a g n s 1A ~- s a r, c 2 5 n"t -~is- ~,.-n~ch t:;e motion u:- t,~ r r k-, bj r) 'i i z 1 t r, im c lies emitted froir, the ,jurfac(- c)'- Ho I i,4 . 7ne re Carr,  :4 L, c r, i~ r . sm o 0 A T 1 (~N c:~es.!c i r.3 ti tu t ;,.; !JS6R MinSK jower n c! c r-i n ns t i t u ' e A3 36 R , Min s k U B~I'. j April ll~, Card  r AUTHOHj Novikov, P. A. 5/17 62/005/012/007/008 B104YB186 TITLEt Effect of the radintion component on heat trannfer in vacuum sublimation PERIODICALs Inzhenerno-fizicheskiy zhurnal, v. 5, no. 12, 1962, 80 - 83 7"'XTo It is sought to examine how the radiation component in the genoral heat balance affects heat and mass transfer in the sublimation of a spherical naphthalene body at different pressures of the surrounding medium. Radiant heat increases monotonically as pressure decreases, while the total heat flux changes in a complicated way. Under the given experimental conditions the radiant heat flux was 30 - 50 % of the total heat flux. I (T4, - 7-4. .) -- , I(T., + A T)' - r,, .1 - A T(47~.. + 6T"' A 7' 4- + A P). is valid for vacuum sublimation with small differences between the temper- ature TrT of the vacuum wall and the temperature T,,, of the surface of the material to be sublimed. AT - TCT - Tq-M * It follows that with Card 112  3/1 70/62/00~/01 2,/007/0'-)8 `ffpct of the radiat:on component . . . BlA/B186 smal! AT the ralirint heal, can be described in tile form qjj - CI-4 AT. At pren!Vircn hetwoon 760 inl '~-' mm IiF., aA remains almost uncharii-,~~d (--2), at prvssur(.,.q bol,)w ).1 mc. 11g, the ujl is timaller by 7 The experimentn showed that, in vacuum, 3ublimatian heFit tr~tn 'zfer is scarcely influenced component. "here at all b.% the radiation is 1 table. ASSOCIATIONs itIl B33H, g. Minsk (Power Englne,~ring Institute itbi BSSR, I'llinnk) SUBMITTED: June 21, 1962 Card 212  C 8837-66 Ewr(d)/Eyr( I )ZE lip n(ml./EVACT I 10W.- wAm ACC NRc A.T509-7197 uR/dooo/65/000/000/0118/0122 QVI V- -~' AUTHOZ: lovikov,--P. L.; Smol'sklyt B. K. (Profesnor) ORG-* Institute of ffeaCalni'Wass Transfer, AN BSSR, Minsk (Institut tepio- L naskoobwens 19 BSSR) TITLS: Invest1gation of the distribution of the temperature field between parallel malls duridg sublimation under vacuum conditions SOUROS: AN BSSR. Institut teplo- I masooobmena. Teplo- I massoobmea tel a okruzhayushchey gazovoy aredoy (Heat and mass exchange of . bodies with the surrounding gaseous medium). Minsk, ffauka I Zekhnikat 1965, 118-122 TOPIO UGS: heat transfer, distribution, sublimation ABSTRLCT: The temperature fieldrwas Investigated for three cases of heat and mass transfer.: 1) horizontal arrangement of plates (upper position of the heating plate); 2) horizontal arran ement of the plates (lower position of the heating plate); and 31 vertical arrangement of the plates. A. figure, based on experimental data, ehc-4s the distribution of the temperature between parallel plates for 11pure" heat transfer, at total pressures of the surrounding medium :! P , 'I t I temperature Card  L 88V-66 ACC NRs AT5027197 from 30.6 to 533 newtons/m2. The distance from the heating surface, y, was 0.02 motors between plates. When the surface temperature of the heating plate was NOOK the thickness of the thermal boundary 2 t layer was 0.015 metera. With an increase In the temperature of the heatinG surface to 3370K t sigmat Increased to approximately 0.017 meters. With a further increase In temperature up to 360 and 3730.Kt the thickness of the thermal boundary layer bridges over the distance between the plates, and exceeds a value of 0.02 meters. Thus, In the given pressure Interval, the thickness of the thermal boundary layer is a function only of the temperature of the heating surface. Another fieure, also based on experimental data, shows the temperature dis- tribution between parallel plates when a phase transformation (aub- 11mation) to taking place on the aurface of one of the plates. The subliming material was lee (H20). The total pressure of the sur- rounding medium was 30.6 nowtoas/m2. The subliming plate was at a distanoo of 0.02 meters from the heating plate. The temperature of the heating surface was varied from 315 to 3630K. Analysis of the curves shows that with sublimation of a substance under vacuum con- ditions, the curves for the temperature change between. the objects being lnvestlqated obeys a more complicated relationship than In the ease of 11~ure heat transfer. Grig. art. has: 3 figures. 2/3  L 8837-66 ACC NKo A SUB 00BR: XE, GO, TD/ SUBM DATE: 02jta65/ ORIG REP: 000 O7H REP: 000 ! 1 6) (S..")  ,76T AUTHORt ORG: None NovikoVe P* A* SOURCE CODE.- UR/0000/65/000-/000-/009'7/0104, 3 ,e"ITLE: Effect of the rate of vIbretion of a body an heat and mass transfer during sublimation under vacuum conditions SOURCE: AN BSSR, Institut Mae toolo miinp Voprosy nestatsion; ,arnogo, perenona tepla I massy (Problems of nonststionary beat and mas .transfer)e Minsk, Nauka I takhnikas 1965, 99-10k TOPIC TAGS: beat transfer, mass transfer, vacuum sublimations vibration effect i .ABSTRACT: The Investigations were made over a wide range of frequenoles from 20 to 150 cycleav with a vibration amplitude from J1 to 18 mms and at a total pressure of the surrounding medium from atmospheric to Oal MM 1Hge The temperature of the surrounding medium was bald constant at a level of 180a. The vacuum chamber was a cylindrical vessel 420 = in 1diameterg equipped with covers and an observation windows The vibrating body was a naphthalene sphere with a diameter of 14 mmo The beat trans- ,ter rate between the subliming body and the surrounding medium was  L im5-66 ACC MR, AT6001767 Idetermined by the sublimation rate from the body under investleationo The sample was fixed In the vaeuum chamber on the thin obeft of on elec- tromagnetic vibratoro The temperature changes In the subliming material were daterminqd with a special alcohol thermometero The amount of sub- limed material was determined from the weight difference of the body before and after the experimento Results are shown in two figuraso The first shows the sublimation rate an a function of the mean squara vibra- tion rate of,tbe body# at different pressures of the surrounding mediumo The asaond shown the coefficient of convective beat transfer as a runc- tion of the vibration rate of the body# at different pressures of the surrounding madiumo The experimental results Indicate that the affect of vibration of t on the sublimation rate and on the rate of con- vective hett t1' gLgnLfia&nt only with high emplitude vibrations A partioularly appree a Is effect is noted in the ease when the (impli- tude of the vibrations exceeds the characteristic dimension of the sub- liming bodyo OrIge art* bast 3 figures* SUB CODEt 20/ SUM DATEt . 026ep65/ ORIG REFt 002/ M RW: 001  ACC h1ts AUTHOR: _&LUQ A*; Smollskiye B, M* OR(;: None TITLE: The mechanism of beat and mass transfor with vibration of a subliming body under conditions of free convection in a rarefied gaseous medium SOURCE: AN.83SR.0 Inatif,32 toolo- I masoobmana, Voprosy neatptsion- arnogo perenosa tepla I massy (Problems of nonstationary best end mass transfer)o Kinsk, Nauka I takhnike, 1965, 105-111 TOPIC TAGSr beat transfer, mass transfer, convective beat transfers vibration effect ABSTRACT: The experiments described In the article were carried out under steady state conditions with free convection. The total pressure of the surrounding medium was varied within wide limits fj?p-76 to 0.'l MM Hgo A f I re shows Ltheg ndence of the beat GiY ,A~- rate on the vibration refus of the subl:91*9 body for different pressures or W26 Ub 1jg surrounding medium, The frg-ure represente & plot of tbo Russelt number (9u) against the vibrational Reynolds number (Re#)* At total pressures n) -2/EW(m,)/F.TC(m) IEW9 (1) w/65/boa/doo/oio.-;/om  - -I-.- I - j L 12u6-66 ACC NKI AT600:LT68 of the surrounding medium froze atmospborle to 50 mm Hg# the sections of the Ku Meg) curves for volues of Re- above the critical value lie par- v allel to *a b others This means that# in thin pressure interval at small sublimation rates, mass transfer dose not exert any considerable affect an transfer of matter in the boundary layer* With a decrease In the total pressure below 50 mm Hg, the angle of the slope of the curves to the abscissa decrstaes# approaching zero at a pressure of 0o1 Mm Ng, At this pressure of the surrounding mediums the beat transfer rate no longer depends on the rate of vibration of the body* At valuen of the vibrational Reynolds number below the critical# the Nusselt nunber prec- tioally does not depend on the Reynolds number* With an Increase In the vibrational Reynolds number above the critical value, the beat transfer rate Increases sharply. With a decrease In the average rate of vibra- ition of the body below, the critical value, the beat transfer rate approaches that for conditions of free convections The results also Indicate that the rate of heat ond mass transfer processes accompanied by vibration depends also on the direction of the vibrations with res- pact to the direction of movement of the gas, If the 71brating surface Is perpendicular to the direction of movement of the gas$ the boundary layer may be destroyed# which leads to an Increase In heat and mass transfer rates* If the direction of the vibration coincides with the direction of the movement of the gas flow# the bounduT layer may not be Cmd  Nits AT601T68 destroyed but merely reduced In thickness; In this cess such a strong Increase In the beat and mass transfer rates will not follow# Orige art* beg: 3 fIgures* - J;UB G()DEt ZO/ SUBM DATEC 023op65/ ORIG REF: 000/ OTH RW* 001  '- if) (f2 q (n L 4087c-,,--',6 ACC NR- AT6021844 SOURCE CODE: UR/0000/65/000/000/0220/0228 AUTHOR: Novikov, P. A. (Candidate of technical sciences) Y ORG! Institute of Host and 10,093 Transfer AN BSSR,-Minsk (Inatitut teplo- i TITLE: Characteristics of beat and mass transfer Ith sublimation In a rarefied gaseous medium SOURCE: Teplo- i massoperenos. t. III: Toplo- I mossoperenos pri fazovykb prevrasbobeniyokb (Host end mass transfer. v. 3: Heat and mass transfer in phase transformations). Minsk, Nouke I tekbnike, 1965, 220-228 TOPIC TAGS: convective beat transfer, mass transfer, beat of sublimation ABSTRACT: Experiments aimed at clarifying the effect of gravitational forces on host end mass transfer were carried out in vacuum In a specially built unit. The vacuum chamber was a cylinder with a diameter of 420 mm and a b:iight Of 350 mm, The test samples were plates 23 X 23 mm made of the subliming material, which was either naphthalene or Lee (H20). The surface of the plates made of the Card 112  ACC Ne- AT6021844 subliming material was placed parallel to the heating surface, which wash In the form of a plate 100 x 100 mm. The surface temperature of the plate heater was maintained constant with an electric current, and the pressure In the vacuum chamber was maintained constant with a vacuum pump. The rate of sublimation was determined by the loss in weight of the sample after a fixed period of time. The experimental data are shown in the form of curves giving the dependence of the sublimation rate on the temperature difference between the parallel plates, and the temperature distribution between the plates. The amount of heat expanded In heating the subliming sample, with a change in the total pressure, was determined by the formula: AT AT ap Q=GCI- = GCP - (2) AT AP Air where a T is the change in the temperature of the material, corresponding to t change In the total pressure & p for a period of time ti-r . Orig. art. best 3 formulas and 4 figures. SUB CODE: 201 SUBM DATEr O9Dec65/ ORIG REF: 002 2/2  r T, ort tt'. r  c a K4 5 A I  SOVIKOV, P.A. right against Weiaxannism. Korganism, and Kendelism in Russian zoolog7. Trudy Inst.ist-est. 5:93-144 '53. (I(LPA 6:7 (Z**I*gy)  NOVIOT PSA. Davelopmnt of the zoological section of the St. Nterebure Kunut)m~r. Tt-udy last. ist. est. i takh. 14002-352 '57, (leningrad-Zological museums) (KIRA 11t4)  Faun i!-tir- PrYJ z,-),oFporrArJ c--t' rr - a r--~ in -!ur~ - T half of ",h,- ,,,,.n 7rntur7. 1-Aly -n3t . lFt, 294-304 ' ~:l , (Zoolorical rp,-;F-arc~)  MOVIKOVp P.A. Zoological studies of A.Chamisso and J.Fr.Eachscholtz during 0. von Kotzebue's voyage around the world on the "Purik" (1815-1M). Tru,'Y Inst.ist.est.t tekh.40048-282 162. (MIRA 15s9) (Kotzebue, Otto V)n, 1787-1846)(Eachacholtz, Johann F-iedrich 1793-1831) (Chamisso, Adelbert von, 1781-1838) (Zoological r~search~  NOVIKOV, Pavel Aleknandrovich, prof.; ?;A[:I,:QV, :~,-rjruy VtivIovich, *~i6r'.-Jf Pff F6T7,F-JffV,-* L. P, , red . (Zoologyj Zoologiin. Moskva, Vysshain shkola, 1965. 45P p. (MliLA 18.7)  D., ;Ili.Un .. r. ", . ~ - I - , . I , 1'. .1 , , ~. D. 1 '.!. A. ):,. !d L. * -, ~: IJ , W! I ,, ~ 2 - -,, , ~ 1 1 : :. --I~- , ~ ~.: ~, - :- , :.f~ - :. I . " -.. ~_. "I 7~~ TTmnBactLQlib -'," tht ipll-H* '-'Unfer"afi- Ci 'he-micty-/- Ksc AB-19 >AB-17 7- AB-27 (the anion exchanger AB-17 was studied in ,~,the reference cited). Substitution of styrene by acenaphthylene increased the ratability of the C-N bond. Exchanging the -N(CH ) group for -N(GH 3 3 2)202020" i group had no offoot on the radiation stability of the resin. The deterioration of ~,ion-exchange properties of resins after their exposure to reactor radiation ia !attributed to the following causesi deamination, dealIqlation, formation of water- !soluble compounds, deactivation of active ion-exchange groups, decrease of basIcIfq !leading to a retardation of the ion-exchange process, decrease in the swelling ability, decrease in the surface area caused by the absorption of radiolysis oduats. The author thanks A. D. Pashkov f ; t : pr CV _4a ioa-exchange resin speciaena. 'Orig. art. bass 9 tables# 7 graphs and 1~ eqiR f6na. :ASSOCIATIONt Gosudarstwerm,77 komitat po iGpO ovamiyu atomnoy enargii SSSR (state .Committee for the Uses of Ltomio Khergy_SSSR ;r titut ato=oy energii In. I. T. aia-t.a.va (Tz~w~ 9 nr e r emayr 4. 0 SUMITTED s 00 ENCL: 01 an Come IF tKO REF SOV# 007 OTHEPs 010 Card 2/3  IL 2agg.66 'ACMSION NRs AT5W2120 01; c CHI- t% CH x - 4'1~ Qf2ctff AB-21 AM9 , - .:. * Fig* 1 IM7 LCO!4-3/3  L ?005o,,6~ EPY(c)/FPF(n)-2/~L*.-iT(m)/~7PA(bb)-2/T Pr-4/pa-4 AEDIC (a)/AEDC (b),,-' a"756D/SSD(a)/AYWL/Ar)D(p)-3/EGD(t)/ESD(ni) MI ACCESSION NR: AP4049535 S/0089/64/017/005/0349/0359 A' THO'~S: Afrikantov, 1. 1.; Mordvinov, N. M.; Npm~ -cl ---kh, 9. G.; Sle-rzg-uk, A. K.; Khlopkin, N. S.; Tsarev, N. M. 71~LE: Operating experience with the atomic installation of the Lenin-" ice DIgAk= SOURCE: Atomnaya energiya,.v. 17, no. 5, 1964, 349-359 .~,,PIC TAGS: nuclear power system, reactor shutdown, reactor start nuclear propulsion ABSTRACT: The icebreaker covered some 60,000 miles since its com- ..7.issioning, of which 40,000 miles,were in ice. The reactors operate at present with their second fuel charge. Each reactor delivered from its first charge 430-490 thousand MW-hr of thermal energy in more than 11,000 hours. The average,yield was.13,000 MW-day/ton of Lranium, with the maximum reaching 30,000. The reactors operated Card 1/2  L 20052-65 ACC M-SION NR: AR4039377 ki of compressors in the experimental engine ZDN- & (65 hp at 1600 rpm). The design In- corporates a RUTA type compressor and an Ebeshpekher gas turbine compressor. A nomo- gram was plotted for combined operation of the compress,.)rs at typical spneeds, I.e. 1600 and 1000 rpm. Efficiency cumulates ir parallel coupled compressors, wh!le for tandern coupling It depends on the point at which the tutal resistance line intersects with dic corn- prensor curve. It is shown that the gas turbine compressor exerts significant resistance to tlio flow of air at low load levels and begins to operate efficiently only above engine loads which hisure compressor speeds of 10, 000 rpm. Up to 60% of the. pressure generated by * gas turbine compressor is lost at high load levels to overcorne tke resistance offered by * drive aottiated compressor. Air should be channeled to bypass the drivo actuated com- presaor-irt the- SUB CODE I PR ENCL: 00 COrd,  KCMM, V.A., Inch ; 11OVIKOV, P-r-, Inch.; SKATYNSEIT. V.I., kand.takhn.nsuk Kanufactire and use of line-clay-sand produ--te. -iliul. stroi. takh. 15 no.6:12-15 Je '58. (MM 11:6) 1.Trest LI skhimpr oms troy (for Vedor. Novikov). 2.Nauchno-leeledo- vatel'skly institut stroitellnykh konotruktail Akademil strottelletva I arkhttektury USSR. (bluilding blocks) (Silicates)  J~:- NOVIKOV. P.; MROV. I. N 3ni nf or col r, Ir c t -,-, - - ~ --, r , - -, '. --.-I ',f 0!1!catl~ ':la7. Str-,'. 1 -1 mt. 3 no.11-1-10 :i (KIRA !~):IZ) l.Upravlyapi0ir~iiy "LliAlATpromstroy" (for flovlk-ov). ( 'l,ty ) (,] 1, 1 1 -ites )  moymov. P.F.; HOMR, V.A.; SXATMSXIY, V. I. Land. tekhn.naak Production and use of clay-ailicate construction elements In large-panel construction. Strol. cat. 6 ao.10:3-5 0 160. (MIRA 13:10) 1. Rachallaik kombinata Luganakkhimstroy; chlea-korrespoodent Akademit stroltelletva I arkhitaktury USO (for Irovikov). 2. GlavVy inzhener kombinata Luganakkhimstroy (for Keder). (Sard-lime prodii-t3)  HAHAKIZI A M, kand.tekhn.aauk,--.'TDVIKOV, P.G. kand.tekho.nauk tde;easled) Use of multipurpose structures with interchangeable parts in foundries. Konstr.i tekh.mash. no.l:U&-120 161. (MIRA 15:2) (Structural frames)  ZAYTSEV, Vladluir Semenovich; TR't)FEYEVSRlY, Aleksandr Antonovich; ?&VIKOV, Petr Grigorlyevich; DAVYDOVA, Yu.F., red.; KUDRYAVTSEVA, O.V., tekhn. red. [The second phase- the CPSU in the stniggle for the build- ing of notcinliaml Na vtorom etape; KPISS v borlbe za postroenie sotsializma. Moskva, lzd-vo "Znanie," 1963. 72 p. (Novoev zhizni, nnuke, tekhnike. I Seriia, no.15-16) (MIRA 16:11) (Com-unist Party of the Soviet Union) (Russia-Economic conditions)  NOVIKOV P.I. ExImrt evalimt.1m, of tlin (1:0-,w.Acn of othyl idechol' distritx1tion within thn organlam, in a medicolegal portmorten, -t~--Fimlnmtion. Sud.-ined. ekapert. 6 no.3W-17 JI-S#63. (MIRA 16:10) 1. Kafedra sudel-moy meditsiny (zav. - prof. V.M.Smollyaninov) Il lbskovskogo mnerlitsinokogo 4r..,ItitUta imeni E.I.Pirogova. (iUjTOPSY) (AILOHOL U; TO, BODY)   1. NOVIROV, P. I. 2. Tissp (6o9) 3. vf,ite-,rieh - Wl-~Ite Sen 4. On th--3 presenro of whitefich from ti,e B 1tic See in the western pnrt of the White Sen brain. I,.-.v.K8rrTjn.fjj.0 56jR No. 1, 1951- 9. Monthly List of Russian Accessions, Library of Congress, June -1953. Unclassified.  90.7147ii?.14 ~,- -~. -, , " -4- - I Migration of the Komi salmon (Salmo aRlar). Trudy Kar.fil. AS SSSR no.5:141-147 156. (W-aA 10:7) 1. Karellskoyeotdolenlye Vsesoyuznogo nauchno-lasledovatellskogo Instituta oxernogo I rechnogo rybnogo khozysiystva. (Komi River--Snlmon) (Fishes--Migration)  AT,TUKHDV. Konstmntin Al"ksaysvich; '41KIL~YWVSKAYA, Aleksandra AlekR&ndrovna*. 19WIDMITAW)V, Fettakh Baktrovich; HADEMIN. Vastliy Mikhaylovich; &; _-F-ALKNICHKO, Zinaida Georglyeyr PANKRASHDV. A.?.. red.; SREVCHNIHM, L.T., tekhn.red. [Fishes of the White Sea] Ryby Belogo aorta. Petroeavodsk. Go@. iscl-vo Karel'skot ASSR, 1958. 161 p. (14IRA 12-2) (White Gea--Fishes)  AMKSAIMROV, B.M., nsuchnyy sotrudnik; ALKKSANDROVA. T.N., nouchnyy sotrud.nik; BELTATEVA, K.I., nauchnyy sotrudnik; GOFa-MNOVA, Z.A., nauchnyy sotrudnik; GORIETIVA-PMOSEVA, L.I.. naruchnyy sotrudnik; GORMMVA. L.M., nauchnyy sotrudnik; GULTAYNA, A.M.. nBuchnyy sotrudni1c; D14ITRWO, Tu.S.. nauchnyy sotradnik; ZABOLOTSKIT, A.A., nauchnyy sotrudnik; HAKAROVA. Te.F.. nauchnyy sotrudni1c; HOVIKOV. P.I., nauchnyy ootrudnllc; POKROVSKIY. V.V., nauchnyy sotrudnik; SKIINOV, A.F., nauchnyy sotrudnik; STEFAIIOVSKATA. A.F.. rwuchnyy sotrudnik; URBAN, V.V., nauchnyy sotrudnik. Prinimall uchastiye: BALAGUROVA, K.V., nauchnyy sotrudnik; VICB&R. D.G., rwuchnyy sotrudnik; POTAPOVA, 0.1., nauchnyy sotrudnik; SOKOLOVA, V.A., nauchnyy sotrudnik; FILIMONOVA, Z.1., nauchnyy sotrudnik; POPMO, L.K.. nauchnyy sotrudnik. ZYTSARI. N.A., red.; FRAYDIN, I.T., red.; PANKRASHOV, A.P.. red.; .%MVCWiQ490. L.V.. tek)m.red. tLakes of Karelia; natural features, fishes, and fiaherlesJ Ozera Karolil; priroda, ryby I rybnoe khoziaiatvo; spravochnik. Petroza- vodak, Gos.izd-vo Karel'Bkoi ASSR. 1959. 618 p. (MIRA 13:8) (Continued on next card)  AI.V.SANWIIOV. B.H. -- (continued) Card 2. 1. Russia (1917- R.S.F.S.R.) Karollskljr eironomicliesirly admi- nistrativnyy rayon. Soyet narodnogo khoUsYstys. 2. Kar,3'11sicoye otdoloniye Vs~soyuznoeo nauchno-issledovatel'skogo instituta ozemogo I rnchnoto rybnot-,o khotyi3yetva (for Aleksandrov. Alakeandrova. Be- lyayevo. Gorbunoyn, Gordayeva-Pertseva. Gordayeva, (hilynyova, DmItrenko. Zabolotalcly. Wtknruva. Movikov. Pokrovskly. Smirnov. Stafanovskaya. Urbim). 3. Xarel'skiy filial AN =R (for Balagurova. Veber. Potapova, Sokolova, Fillmonova, Popenko). (Xarelia-Lakes)  .11OVIKOV, Tetr Ignatlyevich, kand. biol. nauk,dots.; FILEVCNOVA, D.S., red. [Flahao in tho bodlos of wator of Arcl.angel Province and their commerciaLl slmificance] Ryby vodoemov Arkhangellskol oblasti i iY promyslovae machenie. Arkhangeltsk, Severo- Zapadnoe knizhnoe iza-vo, 1964. 141 p. (MIRA 18:7)  NOVIKOV ..PLLx._SlMHKOV. P.L.; rRLDHAN, H.I.; KISUEV. V.Z.. inth., =;ZZ=A. ,)tvetetwenoyy red.; L3ZHUZIA, red. izd-ye; EMKIND, V.D., takhn.red. CZLL-127 interurban motorbus; Instructions for operation] Rezhdu- gorodnyl avtobus ZIL-127; instruktsila po ekspluatatail. Rogirva, GoB. nauchno-tekhn. izd-vo maiihinmitrott. lit-r7, 1957. 233 p. OLRA 11:5) 1. Hoskoveki7 avtomobillnyy zavoil. 2. Taroalavskiy ovtoravod ,o obtomobill- (for flovikov). 3. Unchallnik hylro nvtohufiov Konkovskop nogo revodn inenj Likhnnhevn (for Klaelev) ( Ho t orb us ea )  SOV/123-19- 6-~ 22 - I Translation from: Referativnyy zhurnal. Mashinostroyenlye, 1959, Nr 15, p 430 (U,3,)h V7!0,R.',: Novikov, P.I., Reznikov, M.N. TIII~LE. Modernized Engines of the Yaroslavlf Engine Plant 11FRIODI,"'AL. Yaroslavsk. prom-st' (Sovnarkhoz Yaroslavsk. ekon. adm. r-na , iY-, Nr 8, PP 28 - 30 AB37'P.A-I', The Yaroslavl' Engine Plant manufacturing two-cycle high-speeci diesel engines of the Y&AZ-204 and YaAZ-206 type has developed a number of measures for a fundamental modernization of diesel engines bUllt ir; series. The average speed of four motorcars which, in comparison -~ similar cars with serial engines, possessed several mod1fica-,onL; was during the guarantee tests increased by 2 - 25%, while the averap7e z,,,, consumption was reduced by 3.5 - 18%.