SCIENTIFIC ABSTRACT VERESS, S. - VERETENNIKOV, A.I.

VEMS, S. ; VEGH, G. Modem pregnancy care record card or general health record booklets. Orv- heti-1. 105 no.27tl293 5 J1164  I'mms, b. '. I. I Modern drug t.. -alrj '! obsolete Fori-nt-prices. Orv. II-etil 105 4 no.17:812-813 26 Apt64 -lk  x h -, r 14  V19WS, Sandor MmminationB with Richardson's pregnancy test. Wgy. noorv. lap. 21 no. 4:240-242 Aue, 58. 1. A Szegedi Orvostudomanyi Wetem Szuleazeti es Nogyogyaozati klinika- janak koslemerTe (Igazvato: Bntizfalvy Janos dr. egyetemi tanar) (PREGWCT TESTS Richardson's color reaction for determ. of urinary free estrogens. evaluation (Han))  VERESS, S. On a fom for mf.,dical reco-d!i. 952 My 17 164.  of 0 it " to or -A J6, a 6r0 A 1. "U A 't #A 00 Os 0 M I ' l ._ nW VAIM 11 C A ow ATA drwlwiw into Ow oat" vaostalosef, t v 3! zoo 51 102 I r * 1 :, 0 @1 1 * 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 4 00*0000*00000000000**O ~O 0 0 0 0 0 0 0 0 0 0 0 0 0 00 0 0o: 0000000000TOO000*04  VMESS I Z. Glittering glass object3o po22ge EPITOANYAG. Budapest, Hungary. Vol. 11, no. 7, July 1959o Monthly List of East European Accessions (EVJ), IP- Vol. U, No. 9p September 195~ Uncle  No. ro ILt  industrial bt;rners- 2~'~S. (AsneiU,t-M Stiirltif 31 i w-In r) L-1 7ol. 7, lio. 7, July ;.crfthly licil of i-,3zter~ "'c1. !~'ovembcr 1"1'9 ::Ilea .  ~; f p  BRUCHER, Erno; S2ALAYp Sandorp dr.p egyetemi tanar; VFRESS Zoltanne, intezeti onallo laborans Linkage of quAdrivalent uranium U/JV/ on humus substances. ATOMKI kozl 3 no. 1:11-15 161. 1. Magyar Tudomanyos Akademia levelazO tAgJQ; Magyar Tudomanyos Akademia Ateminag Kutato Intezete igazgatoja; "ATOITI Kozle- manyok" felelos szorkentoje es falelos kiadoja, Debrecen (for Szalay).  HMIGMY/General Bio1oCZ(. Genetics. B-4 Abs Jour Ref Zhur - Biolor;iya, No 1, 1957, 220 K. Author Vereshsh, Chorba. Inst Title Derivailo--ri---o-f--H-:~brid Seeds in Vegetables. Orig Pub Bukarest' Mezo6azdasaf!i es Erdeszeti Allami KonyvkZ,-ado, 1955, 65 l-, ill., Abst No abstract. Card ig  -0 10 -A 0$ 40 c soll- t ow *06 o off Sol I too 41"Nody, f8 40 10 di. 9 0 0 01*9 40 so e0 #0 00 0 0 e 0 0 foe -t v a 0 a 4 3 4 0 0 0 0 9 0 0 0 0 0 a 0 0 0  7 ~mo a ~o~ a d ~b~ 74-Co 00 ** 0 i ~ ;% ), . 1, u It4f, 7,. W*lIv otal1w with -of#' d~wu~11(141- W4.1co ll~l I." IV it IV41-1 a'n t. llmm-. thr Ortu'"41,61 at., I, 00 1 IV ri-i" "WtKI. at km&T W"VI.. 00 of .00 so .or E:9 -00 00 so .1 fAl Is 0 0 ft a 4 0 0 0 0 * 0 0000 q 4 00 040 00 0 a e 0 0 00 0 0 a000 0 . 0 000 0 0 000 000 e0 0 0 0 40  VERESTETSKIY~ V. B. PA4OT83 Jan 106 Nrucus "Few Neutral Particle," V. B. Berestetskiy, li Pp "Priroda" No I Author discusses his opinions on data which he fovnd 'n an article by Groatzinger, Kruger, and Smith, Review" Vol-XVT-T,- No-1/2,, 1945, In which th-ey--deserlbo~-~tbAir-dlocovery--of-A_4it.#Irto--unlm(Am i~eutral parb1cle. BrIefly d1so"Oes acme of-the Obar- aoteriatIce of this nev particle. TP.  v w W-W It " w " I'll It'. 1, ILI. IL,, a IL 0 C got _A =avow 'I ba" $A eipw 40. wfmlp- ;Coo **a Roseumig Its 44 Q# *0 0 )COO see _CLAS' ;see loom vl.~914.4 woo -r-(-lr-T--f -T- I --f-.~fli so a 99 All A I a lw 4 1 11; 0 e 0 * 0 0 0 0 0 0 0  VERESFUNOV, N.G. New equipment for coal mines. Bez.truda v prom. 6 no.1:17-JE -a 162. (YIRA 15:1) 1. Glavnyy inzh.Dongiprouglemasba. (Donets Basin--Coal mining machinery)  39232 9 (,04,00 S/218162,!027/003' ! 5 101811218 AUTHOR: Yel'tsina,'N. V. and Vcresotskaya, N. A. TITLE: The ctfect of dcoxyglucose on tumor cells PERIODICAL- Biokhimiya, v. 27, no. 3, 1962, 452-457 TEXT: The product Deoxyglucose ~ ATP + hexokinase � APP t 2-dcoxyglucos-6-phosphate does not undergo any further metabolism which may result in a gain of ATP. Thus, glycolytic phosphorylation is arrested. Under these conditions, only oxidative phosphorylations is feasible Hawever, the ATP formed by mitochondria can also be trapped by the hexokinase which in tumor cells is loca,ed on the surface of mitochondria. In the presence of deoxyglucose the two types of phosphorylation may be eliminatLd. The addition of 2-dcoxyglucose to tumor cells of various strains (Saidcl hepatoma, cancer of rat ovary, Ehrlich carcinoma) resulted in a disappearance of ATP, decrease in ADP and accumulation of ANIP. The sharp decrease in the ATP/ADP ratio w;-,s due to a marked decrease in the concentration of inorganic phosphorut in the mitochondria, and depletion in ATP used up in the phosphorylation of 2-deoxyglucose. -his led to a complete cessation of oxidative phosphorylation in tumor cells. On the other hand, deoxyglucosc was al- most without any effect on oxidative phosphorylation in normal liver and kidney sections It was misumed that the difference in action of deoxyglucose on tumor and normal lissuc was due to the different activity and location of hexokinasc in bot]. kinds of cells. Treatment of tumors with deoxygluco;c could be attempted Card 1/2  The effects of... S/218/(2/027/003/004](K)S 1018/1218 only after elimination of thecompetetivc action of glucose. Treatment of tumoss with deoxyglucose should be attmcpted by regional perfusion of the antimctabolite, with the exclusion of glucose from the tumor tissue. ASSOCIATION: Institut e'ksperimemal*noi i k,inicheskoi onkologii Akademii mcditsij-skikh nauk SSSR (institute of Experimentel and Clinical Cancer Research Academy of Medical Science USSR, Moscow) SUBMITTED! October 9, 1961 Card 2/2  FRIDMO. Ya.D.; BARRAYEV, S., Dzh.; VWMOVA, R.A. Stability of mixed silver halides in solutions. ZI=**naorg.khim, 7 no.2:305-311 F 162* OKIRA 15:3) 1. Akademiya nank Kirgizakoy SSR. (Sil-7er halides)  -- VERESTSRAGIN) N. K. "The main traits of the formation of '.erioi.*aljna of flolar---tic in . " report submitted for the 7th Intl Cong, Intl Assoc for Quaternary Resear2h, Bou~.der & Denver, Colo, 30 Aug-5 Sep 65.  - (Veterinary Surgeon, Rerezovoru&k Agricultural Colleze. Poltava ~META.q 1. A. p 6blasti) Treatment of young rabbits infected with infections stomatitis with biomycin Veterinariya vol. 38, no. 10, October 1961, pp. 81-89,  VERET~- (Marine steam and gas turbines) ~Sudovye parovye J gazo- vye turbiny. Izd.2., ispr. i dop. v;oakva, Transport, 1965. 359 p. (IA IFLA 18 -.6)  of enc~-:)l-lalitts In thin fofl of the Ylh-abarovsk recion." p. 61 D,,-!3yatoye So,,rfrh,7hini.,re no prr:?zitol:)~Ichesilm problecrtr i priroinooch-,ovy-a bol~,Znyn--M. 22-:'~, Cktyalciryn- (Tentli on Froblemc an,.l D,j3~.,-js,~3 .,,Itli ~', nci ~2-29 Octolber 1959), Vog,-,ov-Lenin~~r.--I, -.c,-idf.-my of llAltr-l Scipnceq USSR an1kcrde.V. of Scionces T.753h, No. 1 2114 pp.  MISTA, L.A.; KANTFtR, V.M. Studies on tick-borne encephalitis of nutritional origin in. Khabarovsk Territory, Vop. virus. 5 no. 2:199-204 M;0-5 160, (KMA 14 14) 1, Khabarovskiy institut epidemiol9gii i gigiyony i kafedra nervnykh bolemey Khabarovskogo meditoinskogo instituta, (HILK--MCROBIOLOGY) LkHABAROVSK TERRITORY-ENCEPMITIS)  VM=Ap L.A.1 SUSHKINAt L.H. Some results of a stu4 on the laectivity of imodId ticks by the encephalitis virus In the 9,.:!ther-'3 areas of KMbarmk Territory. Vop.viriqu. 5 297 Me-Je '(60* (MIRA 130) I*' Dabarova '4 nucbw-*-Ims1rdcv&t*1 fakir inaUtut spideniologii i gigiyany. (KHAWMU TEMMM-12CWHAMIS)  YMMTA, L.A.; MIYEVA~ WO Detection 0.1 complemen-t-fixing itntigen In hemorrhaec-ferer vith renal syndrome. Vop. vints. 10 no.3j'-175-240 Xq-Ke 165. (MIRA 1817) 1. XhabaroTskSy Institut epidemiologii i mikrobiologii.  VEMTA, IL..E.- (Veterinary Surgeon, Cbadyr-Lugansk Raion, Moldavian SSR). "Bicil-Lirx" against fowl cholera." Veterinariya, Vol. 37, No. 9, P. 53, 1960.  VERETA, L.Ye., veterinai ny-.; vrach (Oliadyr-Lungskiy rayon, ltoldavskoy T-- Bicil-lin in chicken cholera, Veteriparlia 37 no.9:53 S 1610. (MMA 14-- 11) (Bicillin) (Chicken cholera)  :4--1 - - ---- - - "Simplified method of gastrogmphy," Klinicheskaya Meditaina (clinical Medicine), Vol 32, No. 12, December 1954 (Moscow) RAga. Comments K-3443, 27 MAY 55  VERETANOV, 1. 1. "Apparatus for procedures vith thin gastric tube," Klinicheakaya Meditsina (Clini- cal Wdicine), Vol 32, No. 12, December 1954 (Mscow) Riga. _-_-Comments K-3"3, 27 I-IV 55  POPKOV, Anat4Dliy Vasillyevich; VERETE, A.G.p inzh., retsenzont; RU.KAVIMMIKOV, I.V., 'In-Mij -,P-e teenzentl SOFRONOV, Ye.P., nauohn, red..; VASIL'YEVA, N.N., red.; NIKITINA 1'.D.1 red.; ERASTOVA, N.Vk; tekhn. red. (Fundamentals of 17drodynamics] Osnovy termodinamiki, Le- ningrad, "Sudostroenie," 1964. 181 p.- (MIRA 1'1:3)  25(2) YHr"BE I BOOK F.~FLOITATION SOV./2722 Verete, Arnolld Grigorlyevich Sudoyyyo paLrovyye turbiny (Marine Steam Turbines) Leningrad, Izd-vo Morskoy transport, 1959. 406 p. Errata slip inserted- 5,000 Copies printed. Specialist Ed.: V.T. Laptev; Ed. of Publi0ing House: Z.S. Frishman; Tech. Ed.: I.P. Kotlyakova. PURPOSE: This textbook is intended for students of niq ine mechanics. It may also be useful to students of institutions of higher education and to marine mechanics taking courses to improve their skill. COVERAGE: This,textbook for the course., Marine Steam TurbLnes, deals vith constructions of mcdern marine turbiie plants and the i)mdamentals of thennal processes in steam turbines. Thermal. and const,:uctionsl design, basic information on the operation of marine steam turbines,and the working principles of r- ine gas turbines are discussed. The &ithor t-hanks V. 1. Zaytsev, V. T. LaptBv, and L.F. Pershikov, for their assistance in describing the automatic control of turbine units and in the forruLlation of design examples. There are 24 references: 23 Soviot wid I Rnglish. Card 1/12  Marine Steam Turbines TABLE OF CONTENTS: Preface SOV12-[22 PART ONE. WORKING PRINCIPLE AND CONSTRUCTION OF MARDE IffIRBINE I-MITS Ch. I. Working Principles and Layouts of Steam Turbines 5 1. Impulse and reactive principles of active forces 5 2. Characteristics of steam turbines as heat engines 7 3. Single-stage impulse and reaction turbines 7 4. Working principles of steam in single-stage impulse -;'Urbines 9 5. Impulse turbines with pressure stages i0 6. Impulse turbines with velocity stages 11 7- Compound impulse turbines 14 8. Multistage reaction turbines 15 9. Combination irq)ulse-reaction turbines 17 10. Classification of niarine steam turbines 18 11. Brief history of the development of the steam turbine and its use on ships 19 12. Characteristics of steam turbines 24 Review questions 26 Card 2A2  Marine Steam Turbines SO'1/27;2 Ch. II. Constructions of Basic Parts of Marine Turbines 27 1. Concept of marine turbine gear units ani basic parts 27 2. Basic parts of marine stmam turbines -)g 3. Turbine housing 30 4. First-stage nozzles 42 5. Nozzle chambers 46 6. Diaphragms and intermediate nozzles 48 7. Rotor-blades and guide (stator) blades 53 8. Rotors 65 9. Packing ?7 10. Journal bearings Fe 11. Thrust bearings 94 Re view questions 104 Ch. I II. Operating and Regulating Marine Steam Turbinos 105 1. Stop valves and speed governors 105 2. Devices for regulating constant operating conditions 122 3. Regulation of marine turbine power 125 4. Steam valves 127 Re view questions 131 Ch. IV. Transmiabions for Harine Turbines 133 1. Designations and basic types of transmissions 13~ 2. Basic parts of gear trains 13 Cnrd 3/12  Marine Steam Turbines SOV/2722 3. General layout of marine transmissions 141 4. Couplings 147 Review questions 152 Ch. V. Condensing Arrangements 153 1. Purpose and functioning of condensing installationei 153 2. Distribution of tubes in tube sheets 155 3. Constructions of basic parts of condensers 160 4. General arrangement of marine condensers 167 Revi ew questions 171 Ch. VI. Auxiliary Systems for Marine Stear Turbines 172 1. Lubricating system 172 2. Sealing alstem and system for pumping steam from outer packing r ngs IP2 3. Preheating and blowdown systems 187 Review questions 189 Ch. V11 . TZA Control and Measuring Devices 189 1. Instruments for measuring temperature, pressure, and liquid level 189 2. Tachometers 190 3. Instruments for measuring power 191 4. Instruments for measuring axial and radial clearancts 192 Card 4/12  YArine Steam Turbines SOV/2722 Review questions 197 Ch. VIII. General Arrangement of Marirje Turbines and Turbine Cfear Unite 198 1, Min turbines 198 2. Auxiliary turbines 211 3- Filmst-steam turbines 215 Review questions 219 Ch, IL Hointing Devices sZd Shaft-turning Devices 220 1. Hoisting devices 220 2. Shaft-turning devices 222 Review questions 223 PART TWO* FUNDAMM(TALS OF THE STEAM TUREM THEORY Ch. X. Conversion of Steam Energy in the Nozales of an Inlividual stage 224 1. Determining steam velocity in adiabatic expansion without friction 224 2. Change in cross section along the length of the nozzle 228 3. Critical pressure and critical velocity of ateam 229 Card 5/12  Marine Steam Turbines. BOV/2722 4. Designing nozzle cross sections without consideration of losses 231 5. Process of steam expansion in nozzles with consideratIon of losses 234 6. Designing nozzle Cross sections with consideration of losses 235 7. Expansion of steam in the diverging part of the nozzlo 236 8. Determining nozzle dimensions 239 Review questi6xis 240 Ch. XI, Conversion of Steam Energy on the Rotor Blades of an Individual Stage 241 1. CoLstructing velocity diggramc 241 2. Energy losses in the passages of turbine grids 244 3. Selecting velocity coefficients 248 4. Calculating losses on rotor blades of an individual atag~ and constructing 'their enthalpy- entropy diagrams 21L9 5. Discharge velocity losses 252 6. Blading work. gular equation 252 7. Blading efficiency of an individual stage 254 8. retermining rotor blade height 259 Review questions 260 Card 6/ 12  Marine Steam Turbines WV/2722 Ch. XII. Inteam&l and Mechanical Looses in Marine Turbines. Efficiency of a Turbine Unit. Steam Discharge 261 1. Classification of,losses 261 2. Losses caused by insufficient height of nozzles 261 3. Losses from vet steam 262 4. Losses from friction and ventilation 263 5. Losses from p!xtial steam islet 265 6, Losses from leakage in packing diaphragms 266 7- Losses from leakage through radial blade clearancee 267 8. Internal efficiency of an impulse stage 268 9. Meahanical losses in turbines 269 10. Mechanical and actual efficiency of turbine units 271 1-1. Effi6iency.of turbine inLtallationa 271 12. Determining steam consumption in turbines 272 Review auestions 273 Ch. XIII. Fundamentals of the Theory of a Turbine With Velocity Stages ?75 1. Conatructing velocity diagrams 275 2. Blading efficiency of a turbine with velocity stage3 277 Card 7/12  Marine Steam. Turbines S()V/2722 3- Pr"e~_-tlng the process on enthalpy-entropy diagrams. r .,etermination of efficiency 279 4. Raltirilk-rov velocity-stage whioals vith a lov degree of reaction 280 5. Determining height of nozzles and blades 2,82 Ch. XIV. Fundamentals of the 71$ieory of a Turbine With Pressure Stages 283 1. "Maie process of steam expansion in a turbine 283 2. Utilization of discharge. Blade efficiency 284 3. Recovered heat 266 4. Characteristics of multistage turbines 288 PART THREE. THERMAL DESIGN OF ST1!AM TURBEW Ch. XV. Design of Single-stage Impulse Turbines 291 1. Design order for single-stage turbines 291 2. Design example for single-stage impulse turbines 292 Ch. XVI. Designing Tyk=bines With Velocity Stages 298 1. Design order for turbines with velraity stages 29-3 2. Design example for valocity-stagc turbines 300 Card 8/1.2  GO11/2722 Ch. RIII. Desii~--ir-q, M-jltistagli, lmp,ilse With Pressure Stages 306 1. Design 4 ,- Order for turbinea with pressure stages 50 1 2. Desijpi caample of an impulse turbine with pressure stages 308 Ch. XVIII. Design of RP&ction Turbines 319 1. Denign order for reaction turbines 319 2. Design example for reaction turbines 325 PART T`OM. STPUMIM DEMN OF BASIC TUIRBI" KLEMMITS Ch. XIX. Blade Design 337 1. Design of blades for bending 337 2. Deaigmof blades for tensile strength '4X0 3. Design of disk rims jy~ Ch. XX. Shah Design 342 1. Freliminary de81gU of rotors 342 2. Checking shaft dimensions 343 3. Critical r.p.m. of a shaft with one disk 343 4. DetermLl-ning criticel r.p.m. of a mmItistage rotor 346 5. Example of designing a rotor for a critical r,p.m. 347 Card 9/12  Marine Steam TlurbLn-~s SOVI,-(22 6. Approximate mr-thod of determining critical. r.p.m. of a turbine igiL~-ft, 351 Ch. XXI. Disk Design 357 1. Derivivg the basic equation 352 2. Desigm of disks for constant thickness 353 Ch. XXII. Diaphragm Design 358 PAAT YXII-7. MAMRT~ANCE AND OFERATION OF TUMM INSTALLAMONS Ch. XXIII. Basic Ope-rating Principles for Main Yhrine Turbines 561 1. Preparing turbinp. installations for operation 361L 2. Stexting turbines %2 3. Mainted-nance of turbines during operation 365 4. Switching and shutting down turbines 368 5. Keeping turbine installations ready for operation 374 6. Preparing tu-rbJme installations for shutdown 375 7. MaintainAnce of turbine instaUations during shutdom 376 8. Inspection of turbines 3117 Ch. XYIV. Fandaw.,,~-ntals of Operation of Back-pressure Turbines in C=hIY.,nd Turbine and Pinton-engine Installations 379 Card 10112  Marine Steam Turbines SW/2722 Ch. XXV. Fundamentals of Operating Auxjliary Turbines Review questions PART SIX. BASIC CONCEM OF ARRANGEMENT AND OPERATION OF GAS TURBINE INBTALIATIONS Ch. XXVI. Cycles of Gas Turb�ne Installations 1. General Information 2. Cycle vith combustion at constant pressure 3. Methods of increasing thermal efficiency 4, Closed-cycle gas turbine installations Ch. XXVII. Constructional Schemes of G~Ls Turbine Installations 1, Marine gas turbine installation of t:.e Kirov Plant 2. Gas turbine installation of the jAuris" tanker 3. Gas turbirie Installations of Liberty-type sitips 4. Gae turbine installation with free-piston gasifier Review questions Bibliog3ra_#W CfLrd 11 /12 383 385 .387 387 387 388 392 394 394 395 399 401 402 403  Marlne Stef- Turblnes . 9 AVAILABLE: Library of Congress SM/272? 001329 Card 12/12 1-14-60  P.P., raurtln. red. flarino r..o-,tf--r IIaril-n; Of oilovye ustanovki; joornik lektsii, Mookva lz!-VC/ "i-'ar-skoi transport." of ll~lat er,,glrl~!er- ilify] Osno,,rf toplotekhrliki. 1963. Ll. P.  FAYVUSNE;VICH, Vladimir Mikhaylovicb; KOVAL', Nikolay Androyevich; Georgiy Geor 4-e-.-.4cb; M= g' KARANUSHKO, ?.D., retsenzent; SHADRIM, Ye.V., retsenzer-t; LIJBOCHKIN~ B.I.,v red.; SANDLER, N.V., red.izd-va; KOTIZAKOVA, 0.1., tekhn.red. Doiler o~eratorls manuallUchobnik kotellnogo mashinista. Le- nirgrad, -zd-vo "Morskoi transport," 1962. 505 P. (1, fIRA 1~): 11) (Boilerag Marine-Habdbooks, manuals, etc.)  KOYAIXT, Aleksandr Petrovich; IMEZIN, H.K., kand.takhn.nauk, rete6nzent; VERM, A.G., Inzh.-mekhanik, reteenzent; SWrROV, S.A., nauchnyy red.; NIXITIIIA, R.D.. red.; XCUTOROVICH, A.I.. tokhnored, (Repair of marine engines and mechanisms] Remont suiovykh mashin I makhanizmav. Leningrad, Gon.soiusnoe izd-vo sudostroit.pro- myshl., 1959. 253 p. (KIRA 13:5) (Marine engineering) (Ships--Kaintenance and repair)  VIRSTI, Arnolld Grigorlyevich; GUSZY, M.N., Imudidat takhnicheakikh nauk, w"'Womot retsenzent; MARMOT, IF.A., redalctor; PSTMON. K.K., I.ekhnichoskir redaktor (Repair of ships' shaft lines) Remont sudovylrh valoproiodov. lanin- grad, Izd-vo #Korskoi transport,* 1955. 124 po OdPji 9:10) (Ships-Asintshance ard repair) (Shafts and shafting)  VERET-l" A- U. sport, 1910" - 'T~ ). (~,-'-4771) The repair of ship turbiner, !~.onkva, !-'orskoi trin m75i.06  VERKIE, A. G. Remcnt sudovykh t,trbin. 14.cskva. Mzrskci tr:~nsrcrt, 272 r. Illus. Repair of marine turbines. DLC: VK/31.V46 SO: Manufacturing and l6echanical Engineering In the Soviet Union, Library of Congress, 1953.  'f/ < Indl-6TE, A u 7 -.421 Re,-,r)rlt qi.Ldovy!,h turbln:-y',Ih uctranovok of rj,.j~ turbiz;on) LeraLcrr-A, . V4 Vodtraiisl-dat.. 1954. 239 P- illus., djatr~-, *-Irlus-  VMTE, A.G.; VIRZHBINSXIT. M.A., redaktor; VCLCHOT, K.M.. t0haicheekly redaktor [Repair of ships' turbines] Remont sudovykh turbi=ykh ustanovok. 2-s,perer. izd. Leningrad Goo. izd-ro vodnogo transparta, Lenin- gradekoe otd-nis, 1954.. 23~ p. [Microfilm] KRA 7:10) Oteam turbines-Repairing)  N)L 1578-66 r; ~-jI A, T AM5024287 BOOK EXPLOITATTON 611.125+621 ~38 L Gr igor yev ich Verete,,.,~; Marine steam and gas turbines (Sudovyye parovyye I gazo,ryye turbiny) 2d ed.. rev. and ent. Moscow, Izd-vo "Transport," 196i. 359 p. illus., biblio., fold. charts (in pocket). Zrrnts slip inserted. 5 0 ) 0 0copies printed. TOM TAGS: steam turbineo gas tur -bi'ne, turbine design, engine tur- bLne system, marine engine, marine turbine PURPOSE AND COVERAGE: ThIG textbook is intended for the marine- mechanical departments of maritime schools anti corree-ionde 'to the program of a course on: tl?larine, steam, and gas turblnes." it may also be used by shlp'q m e c h a n ! c s t a k i r g fl u a I if ica Inn-friprove- ment courses and by students of achools of higber educatfon. The book describes in detail tvie design rf -nolprn marine isrbineq And t~ sf, r. rt h L, f u n,ii Tn e r,t7e i f t h Pr hr r-, aIc Au I a - q e A-1 r a e CIEs pn laicula- E tons of certain turbine par And basic Lnformation (,n mstri-e- Card 10  AH5024287 steam turbines is also presented. The basic working processes, construction, and operation of marine gas-turbines are briefly re- v i owed .Thig 9econd, revired edition contains new ciapters on equipment for constructing and servicing gas turbines, -TABLE;OE-COIITENTS: PART 1. Principle of Operation and Construction of Marine Turbine- Units -- 3 Ch. 1. Principles of operation and construction of steam turbines -- 3 Ch. 11. Design of the basic parto of marine turbines 22 Ch. III. Toothed g earingland couplinj_ 85 Ch. IV. Control and safety systems of marine turilines 101 Ch. V. Auxiliary devices and systems for marinas turbine units 122 LCGrd .2 / 5  AH5024287 Ch. VI. General arrangement of marine turbines and gc.ired- turbine units -- 149 PART 11. Basic Stean-Turbine Theory Ch. V11. Steam-energy conversion-in nozzles of single st4ge 172 Ch. VIII. Stean-energy conversion to the rotor bladei--of a turbine stage -- 189 Ch. IX. Internal losses and the relative tnternal efficiency of a turbine stage -- 217 Ch. X. Basic theories of multistage turbines -- 225 PART 111. Fundamentals of Steam-Turbine Catc-ilations Ch. X1. Thermal calculations of steam turbines -- 247 Ch. X11. Concept of the design calculation of turbine parts -- 258 Card 3 / 5  L 1578-66 AM5024287 _H~A_tateilan.,~e a d Servicing- of-Turbina -Units ting the main marine-t-irbines Ch. XIII. Fundamentala of opera 269' Ch. XIV. Operation of auxiliary turbines and exhaust-steam turbines -- 284 PART V. Basic Concepts of the Construction ana Operation of Marine Gas-Turbine Units Ch. XV. Gas-turbine-unit cycles -- 299 CX. XVI. Means of increasing the inlet temperature of working gases -- 299 Ch. XVII. Deqign,t_~nd operating featurea of gag-turbine com- Ponents -- 304 Ch. YVII-.. Auxilinry ayatems of gap-turbiie units 324 Card 4 y 5  AM5024287 Ch. XIX. Flow diagrams. layouts. and arrangement-of marine gas turbine units -- 329 Ch. XX. Basic concepts of gas-turbine units with free-piston gas generators -- 347 Ch. XXI. Basic aspects of marinp pan-turbine unit opei*atlon 351 Bibliography 355 S i_' B (_ 1) D E :r R OTHER .0 0 IJ ~~ '~ I", , , T - F I :" " ,, q r F.) 5N C) R 1 Y0 i -,Card 5-/5-j  ONISHCHENKO, Mikhail Kirillovich, stalevar; PONITUN, Grigoriy Ironstantinovich. stalevar; STVANINKO, Nikolay Aleksandrovich, stalevar; VXRXTRLINU, I.Y. inzhener, radaktor; ISIANKIR, T.F.. redak-tor izdat7eruTY-W"."ft- iz.=J. 131MOY.EVA, F.G., takhnichaskly redaktor [Our experience with a rapid oxygen steel making process] Kash opyt skorostnogo stalevareniia a primensuism kisloroda. Moskva. Izd-Yo NZnanie.* 1953. 23 P, (Yeasoiwaos obehahastvo po rasprostrunanitu olitichaskikh i nauchnykh snanii. Ser. 4 no.6) (KIBA 9:7) iorofilml N 1. Ordena Lenina zavod "Uporozhistal"I (for Ontshchanko, Pometun, Stepananko) (Steel-Ketallargy)  ~iktA p N 7 #010(of-1 - t is ia ; , i ood Iowa d6Wmdb"2"uA b so papadi"d to tm dew, a umo-ke O 0 w e0ectsamobwo . Ago amid stmin bavw ibl oll kmaln of mad4le age exh Ung The lnpd k.jx 4 lwdwG cc ftntwod. I view %ms was$ -4 1414t) .10 am. 461 U 0 AV 0) 0 0 0 *]o L k a A L a A .- - f -T -C-44 lee 14 0 Z = oo Rod 6 COO 00 c0 6 IL G. R. SO)* -o* so 0 xo* IAV We* it; of 0 is e 0 0 0 0 0 0 0 0 0 0 00 0 0 4-0 0-0 0 06 000  VERLIELINIKOV, P.U.t bri&Ldir Device for filling slotted storaga battorica with the bmttery solution. Elok. J tepl.tiaea no.7:12-13 J1 163- (mim 16:9) 1. Akku=lyatornoye otdeleniya dopo Irkutsk II Vostochno-Siblrskoy dorogi. (Electric locomotives-3atteries)  VERFULINIKOV, F.U.0 akkumulyatorshcbik Charging station for storage batteries. Elek.i tepl-tiaga, 5 no-4: 14-15 Ap 161. (MIRA .14:6) I* Depo Irkutsk II Vostoohno-Sibirskoy dorogi. (Storage batteries) (Railroads-Repair shops-Electric equipment)  TERErMCHET A. Establish a unIfied order for the preparation, preeervation, and correction of navigation aide. Mar. flot 22 no.10:19-20 0 162. (MIRA 15:10) 1. Upitan tankers, wDzerabinek" Chernormorekogo, parakhodstva. (Nautical charts)  VMTENNIKOV, A. Iveryboi* fulfills the normo Prommkoopo 14 no,6:27 Je 160. (MIRA 13:7) 1. Inetruktor otdola orgmassovoy raboty i kadrov prom3oveta Mordovskoy ASSR. g. SaranBk. (Saranak--Me.nufactures)  X ERE~jE.NI',TFr,7,V, A. 1. "The Problems of the Measurement of the TrasGient Characteristics of Photo-Multiplers," A conference on Electron and Photo-Electron Multiplier; Radiotekhnika i Elcktronia, 1957, Vol. II, No. 12, pp. 1552-1557 (USSR) Abst: A conference took place in Moscww during February 28 and March 6, 1957 and was attended by scientists and engineers from Moscow, Leningrmd, Kiev and other centres of the Soviet Union. Altog-:!tner, 26' papers were read and discussed.  A. 1. 7. Y~~ TIME: A 20-Cliannel Time knalysiur for Ulie llj!l,~,ction of li-_-utrons, by Time of Fli-lit I'Mothod Vr 0 T,10 nr~~r d1ya Selelctsii bystry!L'-i noy'Urol)-ov po P`_`-`~ODIUL: Pribory i E`speri-,:~,nta, 1,5') 11'r 5, pp (UOSSR) AB..;TRACT: The multichannel ti_!,.1e an~i1y.-;,--r,, now available ,.,iay be divided in-to two groups. In the first Eroup are the so- called "chronotrons" (Refs.1-6). The -malys-rs in this ;~i~Dup have a practical resolvinE; time of 10-9 sc!c and tliej .,ieas1.trc tir,_- intervals -,.-lith an acciLracy of 0.25 :: 1P see. The second group of analysers j.nvolvc!s circ,,iits trans-Corm time intervals into pul:;e al:inlitudes (Ref.j. 7-12). The s~acond _=-ouD has the advant_-.~;os that. (1) 12,_cdi's are relatively sini,,,le, a larL;e nu.--bel- of L U c~iannels is possi 'ble, (3) it is nosrible f;.) 3'UU(L7 in detail j)artf~ of the ncuuron si-)~~ctrum. by'-oi-)cratin~, aith the a-r.lituclo only and -,,-.ithout claan-j.n~c, the tui:-ae Clio rac U-:-,, is, t ic;_; of Vi- sche.,.ie . A 20-c.!M-7-mel time ~,.aaly_,,(,,r is in  SOV-120-1`4-3-10/33 Df A 20-Cli~~w el TL-e An,-,j.ly-::. J T L o fFlicht I,Iethod cwl the presont pa-,-,er whicii is based on the basic circuit --iven - ~j - (R:-! f . 10). T11r; 1) vie-Uson aj,d Iwo, tho i.e. it works inder-ondently of the ot' t,~c irj~)ut pulsos. This dIj.3EI',vanf;a--c is novi re:~ovcd b.7 t h --- i n t ro - duction of additional CiIICLIj_t eleldorLt~;. Th,-, co~.,,-)letc circuit of the an.,ilyser includinC; the valuer. of the ployed is shown in Fi;- Vie -oractical reso'-vil -- Li:.~c of the analyser is (1-5-3) x 1P) -see and 'Uhc st-labill' ty 0.1 cha:anel ed-es is 0.5 -x 10-9 3~~c. The calibra-~i~)n curve of the analyser is shown in Fi,,1.4-. TI I e curve is a .Iot of ai;i~)Iitude vs delay bet,,,Icen Duises. The calibration curve -linear in the range (2-30) -_ -9 w I s 11 10 . Aj an i tirie distribution obtained with neutrons of a Source is shovm. in Fi,--,.rD. Yu. S. Zamy_-,tni_n "d Yu. I. Ilin arc thanked for advice wid assistance respecfAvely. 3. G. Basistov and N. V. Cherepnin supi-Ilic!d spcci-aens of n.:n-i Card 2/3  3OV-120- 58-3-10133 A 20-Chayincl. Tii~e Analyser 1"or tlic Selection of Ncutlrc,ns by t-he, Time of Fiic,,,.t 1~ - Valves$ L. G. Tf-,yteyzen, A. G. Bcr'A:ovs.I-iy and 1-;. ~J). X.,Ar_brJ_'__OV sup )licd 0~)eci:ac~ns :)f ne".. 1IoiU-w_IUI'.-Ii!)liOr:3 arld 1'. 11. 13rlyuy~!-.r 'aT,,0 Gy. F, Oupplic,(! spocirion'm of larz-0 ~j Therf~ are fi~-ures aad 14 reforenocs, of Yplich 2, 50vi~", 1 1 It a 1 ian and the rcjL En-lish. SUBLIMED: August 92 1957. 1. Time-interval cot.Liters--Design 2. Time-interval counters--Applications 3. Timing circuitL--ApTlications 4. Neutron spectra-.--Ana_1ys:i,- Card 3/3  BI 1 3YBOI 7 AUTHORSi ~Vsretennikov, A. I., Averchenkov, V. Ya., Savin, M. V., Spekhov, Tu. A. TITLEi Gamma Radiation Occurring in U238 Under the Action of Neutrons of the Energy 14 Me r1 PERIODICAM Atomnays, energiya, 1960, Vol. 8, No. 4. PP. 361-363 TEM In the neutron interaction with U 238 the spectrum of gamma radia- tion was measured in the range of from 0.4 to 2.8 Nev and the gamma quantum yield per interaction event in three samples. The measuring apparatus (Fig. 1) and the measurement process are described. The mean ganuia radiation energy is 0.98 Mov. The energy resolution in measuring the gamma-spectrum was ~' 30% with E'r - 662 kev and v 15% with Era 2.62 The mean number of gamma quanta per interaction event i for d - 2-85 barr.:j is 6 + 1.2. The authors thank Yu. S. Zamyatnin for.discussion and V. G. Kokoulin for the preparation of the stilbene crystal. There are 3 fl.gures and 4 references: 3 Soviet and 1 English. V/9 S/08 60/008/04/06/009  VERETENNIKOV) A.I.; AVERCHENKOV, V.Ya.; YEGOROV, A.G.; SPEKHOV, YU.A. Amplifying units for recording short pulses with an Ovicillograph. Prib. i tekh. eksp. 6 no.2:104-109 Yx-Ap 161. (MIRA 14:9) (Amplifiers (Electronics)) (Oscillograph)  VERE,rENNIKOV9 A.I.; AVERCHENKOV, V.Ya.; SAVIN, M.V.; SPEKHOV, Yu.A. Gamma spectrometer with an organic scintillator and a Una selection of gamma rays. Prib. i tekh. eksp. 6 no.2:42-46 Mr-Ap 161. (MIRA 14:9) (Spectrometer)  32992 3/641/61/000/000/0"/,/03.7 B108/B102 AUTHORSs Averchenkov, V. Ya.,.Veretennikov,__A,._,I.__ TITLLs Integral cross sections of U235 and Th 232 interaction with neutrons having energies of 2 - 8 Mev SOURCEt Krupchitskiy, P. A., ed. Neytronnaya fizika, abornik tfoscow, 1961, 258 - 262 TEXTj The neutron cross sections of U235 and Th232 svecimens were deter. mined by meauuring the time passing until the neutrons reach the detector The latter was connected to a 50-channel time analyzer with the new 6W2211 (6Zh22P) thermionic tubes. A steady-flow neutron source'of Po-B(: wasused. Measurements were made with and without specimen between souri-1 and detector. Moreover, the random coincidences were mefLSured with an additional delay of 75 millimicroseconds in the detector channel. The integral neutron cross sections were calculated with the formula 6 - ' lnE(N. - N )/(Ilx - N t nx bo bx)] where n denotes the number of nuclei per CM3 of the specimen, x - thickness of specimen (cm), NO, 'Ibo' 'xV Nbx - Card 1//  32902 S/641/6 1/000/000/019/033 Integral cross sections B108/B102 counting rates of neutrons and coincidence background with and withoul. specimen. The results for Th 252 and U 235 are shovin in Fig. 2 Corrr-~~- tions for elastic scattering have been introduced. Yu. S. Zamyatnir, is thanked for discussions. There are 2 figures and 6 referencei3: c~v i and 5 non-Soviet.. The four most rocent rererQnces to publications read as follows- Bloom S , D - Phys . Rev 251 (19)';,,; Progress in Nuclear Energy, ser. I, v, I, London, Pergauicn Pre3s, O'Neill G. K. Phys, Rev,, 25- (1954), Rev. Sci. Instr., 26-, "(35 (195r,"; Ref, 6j Hughes D. , Schwartz . Neutron Cross Sections , BM,, 11 , f Card 21V --)  1 8/089/61/011,/002/007/015 BI 02/B201 AUTHORS: Ver t nikov, A. I.# Averchenkov, V. Ya., Savia, M. V. ---_!eT, n_ u emend TITLE: Meas e of the time distribution of gamma radiation in u '8~ wood by the method of delayed coincidences PERIODICALi Atomnaya energlya, v. 11, no. 2, 1961, 177-180 TEXT: This paper -presents results of mtasurements of the time distribution and the energy spectrum of gamma quanta from a point source, which were scattered in wood. Little has been published on this subject so far. The time distribut on was determined at distances of 200 cm froa. the point source. A Co~O source (0.12 pa) emitting pairs of gamma qi;anta was fastened to wood; the scintillation detector 1 which record(id the instants of emission of quanta was placed close to the source, and its pulses were fed to a time analyzer. The second scintillation detector 2 was 200 cm awayJ from the source, and likewise transmitted its pulses to the time analyzer. ~- The distribution of time intervals between the two pulses was recorded. The solving time of the time analyzer was 21 - 2-3 ggsec, and the mean quantum enerS7 was about 1.25 Mev. The time distribution of gamma radiation in wood Card 1/ 6  S/08 61/oil/002/007/015 Measurement of the time distribution ... B102YB201 is a function of the cross sections of Compton scattering, of the photo- electric effect, and of pair production. The time distributions in materials with similar atomic numbers may be assumed to differ only by a scale factorl this fact makes it possible to estimate the distribution in aimilar light materials from that in wood, The geometrical experimental s4tup in ahown in Fig. 11 it was so chosen because it imitated an infinite medium beat. Scintillation plastics and photomultipliers of the type 43Y-33 (FEU-33) were used for gamma recording. The block diagram of the meacuring arrangement was as follows; deteatcr 1 detector 2 Fig. 2. shows the time distribution of gamma radiation, av recorded by ~ ~ me me detector 2 (Curve 1)1 curve 3 shows anal zer 'anal zer the bLokground of random coincidences. lineear 1 The zero point of the analyzer time m Ji mplifier a cale was determined according t~, the ear - middle of curve 2 of 7-y coincidences se pulse minLtor without wood but under otherwise height --- equal conditions. Is may be seen, anal z or !analyzer t anamis- G~js the time dibtribution of gamma Card 2/6  S/069161/011/002/007/015 -.MRasurement of the time distribution ... B102/3201 4' radiation in wood covers a period of 20 ;Lpsec at a distance of 200 m rom the point source. The maximum is shifted by about 1.6 ppsec toward the zero point, which co'rresponds' to a prolongation of the quant-im path by about 1-5 mean free paths. The mean time of delay of.quanta is about 6 ggseop and the half-width of the distribuiion peak is about 7 opsec- Curve 4 (Fig- 3) was obtained on the assumption that the mean jamma energy is -'100 kev in case of great delays, and 0.8 Mev in case of the most prl~ able delay time. The true time distribution is likely to be found between. curvesi'l and 4- Fig. 4 shows the energy spectrum of gamma radiation at a distance of 200 cm from the source. Ya. B. Zql1dovichj Yu. S. Zamyatnint and V. G. Morozov are thanked for discussions'. There are 4 figures and* 12 references: 6 Soviet-bloc and-6 non-Boviet-bloc. The two most important references to English-language pablications read as fellows: L. Spenser, .U. Fano. J. Res. Nat. Bur. Standards, -4-6, 446 (1951); G. Whyte. Canad. J. Phys. .96 (1955). SUBMITTED: December 29, 1'~60 Card 3/6  IMS S/120/61/000/002/005/042 E032/Ell4 AUTHORSt Veretennikovs___A,I*# Averchenkov, V.Ya., Sevin, MOV.1 and �_P-iiiio'v*_ Yu.A TITLE: Gamma-spectrometer using an organic acintillator and time selection of SaU=4 rays PERIODICALs Pribory i tekhnika oksperiments, 1961, No.2, pp. 42-46 TEXT: A description is given of a gamma-spectrometer which can be used to select gamma-rays with a time resolution of about 1 nanosec. The spectrometer incorporates a plastic scintillator, and the energy resolution for cs137 gamma rays is &bout 25%. With a sodium iodide crystal the time resolution iv abou 4 nanosec and the coincidence counting efficiency for CoL gamma rays is 90%. The use of ordinary scintillation gamma-ray spectrometers in the study of gamma-rays produced under the action of fast neutrons is complicated by interference from the primary and secondary neutrons. However, if the primary neutrons are accompanied by, say, alpha or gamma rays, the gamma radiation under investigation can be separated from the interfering radiation by the time-of-flight method. 'Suppose that the Card 116  21395 S/12o/61/000/002/005/o42 E032/Ell4 Gamma-spectrometer using an organic scintillator and time selection of gamma rays recording apparatus and the specimen under investigation are located relative to the neutron source, as shown in Fig.l. In this figure, C, is the detector which records the accompanying alpha, gamma etc. emission and C2 in the detector designed for measuring the gamma-rays from the specimen. The distribution of time intervals between pulses from Cl and C2 reaching the time analyser is shown in Fig.2. Fig.2a shown the time distribution of primary neutrons and gamma rays arriving at the specimen, Fig.26 shows 'the primary neutrons and gamma-rays from the specimen and Fig.20 shows the secondary neutrons and gamma-rays from the .specimen- -An can ba soon from Fig.2, even w th a cont nuous primary neutron energy spectrum, it is possible to separate out the gamma-rays produced ~n the specimen by the primary neutrons by a suitable choice of tj and 42- In the present paper this type of gamma-spectromoter i& discussed in terms of an example in which the Samma-rays produced iu various specimens by 14 Mev neutrons are inVestigated, A block diagram of the spectrometer to Card 2/ 6  21395 S/12o/61/000/002/CO5/042 E032/EI14 Gamma-spectrometer using an organic scintillator and time selection of gamma rays shown in Fig-3. The neutrons were obtained from the d(T, n)He4 reaction. The instant at which the neutrons leave the target in recorded by counting alpha particle& with a plastic scintillator, as described by the present authors (Rof.2s Atomnaya *nergiya, 1960, No.4, 361). The gamma-rays are detected by a atilbene crystal mounted on a 4?-3Y -33 (FEU-33) photomultiplier. Pulses from the 12th dynode of this photomultiplier are amplified by the amplifier Y6. With the key n2 in the closed position, these pulses reach the 50-channal kicksorter through the linear gate F. r, 2. With the key t1l in position 21 the gate 6112 is controlled by pulses arriving from the output of the time analyzer. By introducing a delay tj into the gamma channel, the working conditions of the time-amplitude converter can be chosen so that pulses due to gamma-rays and neutrons from the specimen are delayed x-elatkve to pulses due to the mlpha p&vticles. An & result, the alpha-gamma coincidences at the output of the time analyzer have a greater amplitude than the alpha-n coincidences. Card 3/6  22395 S/12o/61/000/002/005/042 E032/EI14 Gamma-spectrometer using an organic ecintillator and time selection of gamma rays The integral amplitude discriminator A5 transmits only the alpha-gamma coincidence pulses to the gate 6112 and this ensures the separation of effects due to neutrons from those due to gamma- rays. The time distribution of the coincidence is recorded by the same amplitude analyzer with the key il'i in position 1. The time analyzer has been described in detail by the present authors (Ref-3: PTE, 1958, No-3s 48). The remaining designations in Fig.3 are said to be "self-evident". The gam;.ta-spectrometer can be used to measure gamma-spectra appearing in a given time interval, e.g. in the study of time correlated processes such as the emission of gamma-rays in fast-neutron induced reactions. There are 6 figuxes and 7 referencess 4 Soviet and 3 non-Soviet. SUBMITTEM May 6 196o Card 4/6  I ZAJ77 S/12o/61/000/002/oo5/042 Gamma-spectrometer using an ..... E032/EI14 OSpa,yett .. " . ~.,. I ~. -riw- -P~ffp Fig. 1 Card 5/6 a Fig. 2 I f -M  21395 S/12o/61/000/002/003/042 Ganuna-spectrometer using an ....... E032/EI14 r------ 7 ------------ 'c", - - V )(im Um Y, cropacmu yj 6fl . . Cje-a i Oncee, y I #JpFepum yz CAOPOCMU yj L AZ nc.s4 rn.Z Card 6/6  et Y790 tiWa s/12o/61/000/002/019/042 E192/E382 AUTHORS: V er et q=.ika_v A*I., Averchenkov, V.Ya., Y~_gorov, A.G. and Spekhov, Yu.A. TITLE: Amplifying Units for the Oscillographic Display of Short Pulsas PERIODICAL; Pribory i tekhnika eksperimenta, 1961, No. 2, pp. 104 - 109 TEXT: Two single-tube amplifiers suitable for high-speed pulse oscillographs are described. The first amplifier is based on a tube with a cathode grid (sometimes referred to as a Itspace-charge tube" or a "tube with a virtual cathode") which is capable of producing high anode currents when its auxiliary (cathode) grid is pulsed with a comparatively high voltage amplitude (up to 100 V). The circuit diagram of the amplifier (with somb.auxiliary circuits) is given in Fig. 1. The space-charge tube is (o*~Ionc). (6Zh2OP2) (this is an experimental tube). The amplifier is designed for the pulse repetition rate not exceeding 10 p.p.s. The operation is as follows. When the amplitude of the input pulse is about 1 V, Card 1/6  MOB ST12o/ft/ooo/oWolgA42 Amplifying Units E192/9382 the thyratron (shaded tube) is ignited and a pulse is applied to the cathode grid of the space-charge tube (the righthand- side tube in the circuit). This pulse has an amplitude of about 150 V and its flat top has a duration of about 0.5 gs. The investigated pulse is applied to,the control grid of the tube 50 nanosecs after the appearance of the voltage at the cathode grid. The voltage appearing across the anode load of the space-charge tube is takert by means of a cable (type PK-50 (RK-50)) having a length of 1 m and is applied to the deflection plates of the cathode-ray tube. The anode.- grid characteristic of the space-charge tube is linear over a compratively large range of currents so that at the supply voltage of about 800 V a current in excess of I A can be obtained over the linear region; the slope is about 33 mA/V. The gain of the amplifier is 10 and its bandwidth is 90 Mcls, which corresponds to the rise time of about 4.:5 nanosecs. A high-speed amplifier can also be ba3ed on a secondary emission tube. A circuit of this -type i:3 shown in Fig. 5. The secondary emission tube JI (= L) in the Card 2/6  s/12o/61/000/002/019/o42 Amplifying Units .... E192/F,382 figure is normally cut off by a negative-grid voltaE:e of about 10 - 20 V since its anode dissipation is only 2 Wo The reflection plates of the cathode-ray tube are connected to the anode and the dynode of the tube by coaxial lines (type Tj M-3)), which also act as the delay lines for the signal. The difference in the electric lengths of these lines corresponds to the transit time of an electron from the dynode to the anode; in practice, this amounts to about 10 cm (this is choAen experimentally). The triggering circuit of the oscillograph is usually connected to the input to one of these lines through a resistance. The secondary emission tube can give a pulse current of up to 7 A with a slopeof 100 mA/V at'the anode supply voltage of 1 000 V and dynode voltage of 3 00 V. The deflecting voltages of about 700 V can be obtained from this amplifier. The bandwidth of the amplifier is about 200 Mcls, which corresponds to the rise time of 2 nanosecs. The gain of the system is 12 - 16, depending on the anode voltage. The circuit of Fig-5 is designed for the oscillographic display of the pulses derived from scintillation transducers Card 3/6  Iva S/120/61/000/002/019/042 Amplifying Units .... E192/E382 (counters). In this the pedestal of the pulse is applied to the lefthand-side portion of the circuit, which is in the form of a two-stage amplifier. This provides the nccessary lengthening and then limiting of the output voltage. The pedestal is formed from the pulses derived from one of the dynodes of the photomultiplier. The amplitude of the pedestal applied to the control grid is about 3 V. The line havIng a delay of about 60 - 70 nanoseconds is included in the investigated signal circuit which dolays the -signal for the duration of the pedestal-forming. The authors make acknowledgment to S.G. Basistov and G.V. Lulcoshkova for supplying the samples of now tubes. There are 8 figures. SUBMITTED: May 27, 1960 Card 4/6  Airiplifyin- Uiii-'V-,-. o -jogs 'I SM (5t s/ln-o/61/000/002/019/042 Af Card 5/6  Anplifyin~; Unit's .... Arde .0aftak If/on A. G/6 r;/12o/61/000/002/019/o42 I -l as  \1 i k i J - ~ - 1V/q I V ", N!)N - VInTINNIKOTP A.I.; ANISIMOV, S-H- " __---r~rove land records. Zemledelle 6 n0.1:83-84 Ja 158. (MIRA '11:1) (Omsk Province--?arm management)  somm 140 ~ A)  .- . -V ~03TMM.M-_-,