SCIENTIFIC ABSTRACT KLIMOV, N.I. - KLIMOV, P.K.

ILMOVO N.I.,v kRad.tekbn.nimkj MUMARI, V.0.1 inah. A 12 x 1#5 so slab vith lsterally drown out reinforcement. TMy NIIIM no.27413.= #62. (KMA 15 19) I -(Prestressed *=cr*t*)  ;I I I I., , Ii-f k 4 III. -,*. - "30:u pruLL=') In the "'Ll iitiv- ~X itu:i'l-~;-." 1. illy g Flara"w" :;f,jlt~! 11 .1-vill 11, fi. f~~r 1.~; r-,o't Of CI,It'4IrI,IIA) OC PhY.JICO~IflUIO'UAJCAJ SIOjt!TICa.,3,) 13 L - IoLo-Intj No 1.81. 26 11mini-er . ~L~ -  V /Vz SUBJECT 19881/1UTMUTICS/Ramber theory CAU 1/2 PO - 628 AUTSOR WHOV to If TITLE "P *rest ons of some number theoretical funotionso PSRIODICAL Doklady Aks.dolauk J.LIL 16-10 (1936) reviewed 211951 By combination of the,elementary method of selberg with the usual analytic method the author obtains son* partially now# partially improved estimations, @*got 16 Lot %(k# ujox) be the number of those pr1m* numbers In the Interval (h#h+x) which belong to the series kx+l# (1#k) a 1# &ad possess the property it that also the numbers 1p+U11 ,#1p+%n_,j&rs prim* numberse Then for ajN29 k 0 (z In uiff 0 (Inox) the estimation 111Z 14 x Z,(k,u,tx) 4 T1 (I + 0 k lef p I )a p is valid# where W (p) in the number of solutions (with respect to n) of the congruence  XUTHOR% BOV/IW,58-2-13/20 TITM Isolated Prime Numbers on an Interval (Isoltroyannyys prostyyo Chisle na Intervals) PERIODICALs Isvestiya vysshikh uoh*bnykh savedonly Xinisterstva vysshogo obrazovant.ya SSSR, Xatematika, 1958, Nr 2, pp 154-162 (USSR) ABSTRACTs Theoreat Let x-/.3- 2, 0,69 4z 1/0 # 9 a40 + Z , fVO abritrarily 77 smallp I 4k - O(InCx)t C - *oust# Y a Y(kz) - W(k) 'A 2 k toTX7 where C;J(x) --,P oo for x -oco . Lot (9, x I k, 11 PY) denote the number of prime numbers of the series kn+l,o (11,k) a 1, on the interval (0#1+3t) being y-isalatsd (p is y-isolated if lp-qj> Y for all other prime numbers qIt holds x + 0( ,p(k)ln(R+x) f(k)ln(N+x) Theorsas to every a there q41sta an i so large that in the interval0(1108+z)t O*RAxl/'w p of the series kn+110 (illk) it k a O(In x) there appear Umbers one after another, being y-isolated, where r2w 1. 1 0 W (1) --P Card 1/2 for :t.+w k (j(j) , whior  Isolated Prim* Numbers on an Interval SOT/IW-58-2-13/20 Them# two thsorses and * tuther ono ors still turther gentralised by the Introduction of the notions of the (hty)-distant Isolated prime numbers. lefinitiont Lot BI and 92 be sets of prime numbers. pMe 3 1 is called (boy)-distant Isolated with respect to B2 If there exists no P(2) d Z2for which h-Cjp.(')-p(2)j4h+y. There are 12 reforenosso 5 of which are Soviet, I French, 3 Osman, 2 Italian# and I Dutch. ASSOCIATIONiSaratovskiy gosudarstvonnyy podagogiahookiy institut (Saratov State Pedagogical Institute) SUBMITTEDs October 14# 1957 Cord 2/2 OF M WW RV ,t- PUT -  AUTHORs r1IMOT, N.I. OW/42-13-3-3/41 TITM Combination of the-zlementary and the Analytical Method In the Theory of Numbers (Kombintrovaniye sleaentarnoso I analitichookogo metodov v toorii chisel) PERIODICALs Uspekhi Matematiohaskikh Nauk, 195e, Vol 13# Xr 5, pp 145-164 (USSR) per contains the proofs for the author's ABSTRACTs The present pa, announcement ftof 211 published In 19569 a short introductory chapter with nwh historical data and an extended list of references. There "a 29 references, 16 of which are Sovistp 5 German, 5 Enelisho I Italian# I French and I Norwegian. Card 1/1  w M5 pw ul~ IA  KLI AN I To --~ --- , /1, Prowpecting for anthcphyll' ,tN-AdbAst,)d In rmlroltem Yarciis. Hat. p0 cool. i pal I-skap. Sev.-Up, RSFSR nc,,"s184-.'.69Ao f t-Z * (KItA 17--~ ~,C)  fp AP5025773 SOLWCECOMI M/0286/65/000/017/0055100. ~_-AMOR 17 V.- si-- Af.~ ! - Dos., vons TITLEs An AVtOldid "JA9i'," d4i!l~.O U, Reg I9yulu W t Ah so t' Izabiv to .%nakov no. 17o -1965# 55-SO 0" ~It'd ma wh Cb _60itdoi _._tL; rtiffaial 1~1_ with IS CA~d an elastic ustorialo .Thi Soared: $**Ueas In'ths, rom of-two specially 1h - fixed with r"O to '066 O'by a tie boltso that the foot cm be adjustedIO. beeli of vaxifig height. -~ e1boi -is eqUpped with an elastic too section and hu a hinged plate with anotch which takes the cylindrical head of a screw futemw Into the UDCs 615.477.22 Cma OUG IMIII WO/ run COM AWN A" i 26W_ 41 NN IFIff IN ISM  ,-338r,. K Fislolo,,-"i ZheludoichnoCo, Pishchovarenlyn Severnoro Ult !---o. ~oov. Z-ootel--hniya# 1949, No. 6. of 32-36. 50. Letopist Zhurnallnykh Statays Vol* 45p ~bskva# 1949  i . ~ - T . . , I . - KLTMVI IN. M.-I - 41 t4 1 - i~!: I., i-~ I j t~ .1 1 , 0, 36801. KhlorelgidratMy Mark*s Ulp Sevemykh Oloner, uterilm~"s 19490 go* 220 c. 34-36 SO: lotopis' Zhurnallmrkh *Jtatoy.Vol. 509 Moskyal 1949  Osnovy amtomli i fiziologii call 9koIhozyaystvenny),h rhivotnylrh (Principles of Anatomy and Physiology of Fars Animals). Femerovo. 1951. 40 Pages. Alto In the Latvian largtwe. U-5235 R M 0  mlmv~ N. H. KLIMVJ N. H.: Fundamentals of matoW and physiology of agricultural anima'~t. Frutme. Kirgiz ftat* Publishing Housep 1952. 64 pages with illustrations. Price 90 kopeks, 3,oO7O copies. In Kirgizian Language.   KLI Fundamental of anstosW .&ad ptqsiology of agricultural animals. utsks tsk State Publishing Housep :1953* 72 pages wIttk illustrations; rice 80 kopeksj h#000 copies. In iskutsk language (Yokutak';SSR Xidstry of Agriculture, Adminstration of A ricultural Propaganda Three-Year tootachnLeal courses, freshwin year of!M!T.IVM. Sot Veterinarlyal 301 11.1 November 19531 Uncl. TABCON  Ssuoua peoullaritles of secratory &W motor functlons of the: st~ch la roludsers, Ifislol, sho Mil 39 no*406"? Atly-Aug_ 1933, (OnM 25s I) Is Departmat of MWelology of the All-Vnion lutitute of BzWimvUl TetorUary SWAUsq Xiosawo  KLINOT. N.M.. doktor b1ologicheskikh nauk. '101-~4~-~ Treatment of gastrointestinal diseases In newborn calves. ToterInarils, 32 no,7186-69 JI 155, (KM 819) (ALUMMY CANAT#.-DIMUUS) (CALM-DIBILM)  USSR/ftrm Anirnals - Cattle 77 Abe Jour Rer zhur - sioisp no 15, 1958, 6M4 Author X%dMvtsov,,- AA#, Klio*Yf NSMO List All-Union Institute of Zxpertmental Veterinary Medicine Title 24-Hourly and. Seasonal Rhythrdelty of Certain Physiologi- cal. functions of Righ-Prodwing Owe of the Kost Brood Orig Pub Tr.,Vses. In-to eksperia. vaterinaril, 1957,, 20., 238-250 Abstract On the basis of experimats carried out at the broWing farm Khravoyevap it was established that the average 24- hourly qwntlty of rations coast=ed by a cov fluctuated vithin the littits of 00 to 102 kg., the amunt of voter Intake from 106 to 11.1 kg, the quantity of excreted faces from 18 to 46 kgo vith a frequency of defecation from 13 to 19, and the amount of urine from 13-5 to 27 liters, Card 1/2 23 -  - r.  rumove dcktor blolqlouoldkb mukl KAIAMDTj AsO## kudovaterturnykh IUT2=. Yb.P.. aladshly m*ucbnyy Sotradnik rwif leation Of hog, cholwa 'Viru br Ems of glectrophoreall, trwy VIIN ag 1195-201 1590 (XMA 13tlO) (Hog cholwa) (Mectropborsels) ~~gjm  11MV. NoN., daktor biolftlebaskikh sauk Isportanas of tiochamloW In Ue developsat of vetwiwy scienose Trudr YIN 23:U4-123 159o (KIRA 13310) 1, Tooso lostitut skoolon, Wlnoy voterinaril. (laterinary medicine)  -- KLDVVp_ X.M.1 BUTRIMURD, V.P. I VSWIIH, A.S., prof.; LIT0VCh%bIWj G.K.; KOLDBOVO G.M.; KOZHKVNIXOV, Yo.V.; ALIKATEV, V.A.; KRUROVO V.S.1 KUMVt A.P.; GRlGCRIYZVI Te.P., red.1 WZINj M.A.,, red.100]MVICH9 M.M.p. tokbe. red. (Animal husbandry) ZhIvotnovodstvc. Moskva, Sellkhosgiss 1959. 477 (MIRA 160 (PB;aok and stockbreeding)  GO". Tax*, Lash.$ Not insh.; DANILOV. V.I., Lush.: MIATBXIMI Revir to the Inquiries of our roadars. 21*k. I tepl. tisp no. 9144 8 160, (NEU 13M). (Railroads-Signaling) (Diesel locomotives)  GRINIOv V.Ae, lx&h.jJMDVVj N.S.,16 Lash. Blooking devios of the brake system of loomoUves, Elsk L topi Uaga 6 no.11M-27 1 #62. iKMA 16;1) (tiocamoUves) (R&Unads.-Brakes)  0 M-01 V.A. t insh.1 KLDWVt X.X.o insb. .............. Improvement in the dosip of No.222 engineer's brake vulva. Ilsk, i topli tlap 6 no*1016-7 0 '(9. (KMA 15:n) RaUroads-Brakes)  KOVRIZHKIN, H.P.1 SHOVSKITO Yu.V., insb., Insb., retsonsent; YZLIKMT, Y.Ts., r*d.j USENNO, L.A.p tekhn, red* (Analysis of the vork performed by the locomotive onginser based on Us recordings of the speed counter tapes] Kontrall raboty mashinista lokomotiva po skorostemernym lentam, Mo- skyap Transibeldorisdat 1963 128 p. (MBA 16s?) (LOCOMOUVOS-Braksal (~;cordlng instruments)  MMOp V*Aop LvAq KLDW N.V.# insh* Doyle* for signaling the braking operation of a otop4alvv and fulty perfammos in the broke systm of a trains nek i tspL tUp 7 mosl$13~--14 1& 963o  insh.1 CORN. V-X.9 in2h,j SEKWVt N:S mashinint-instruktar; 24LIE"tXDt O.F.; MURZIN, L.O.1 REMZNNIKOV, S S KESARIVO A.P. Answering readers' queries, Elek, i teplo tiaga 7 no.9t4"5 S 163. (MRA 16tlO) it Depo Lobnya Mookovskoy dorogi (for Semnov). 2, Zamestitell glavnogo revisors. po besopasnostl dvisheniya Miniaterstva. putay soobehahaniya (for Budlko). 3. Nachallnik otd*la.toplotekhniki Glavwgo upravlenlya lokomotivwgo khosyaystya Ministerstys puter soobahchonlys (for Hurzin). 4. Vachallnik otd*14 truda i larabotnoy plitty Olavnogo upravleniya lokonotivnogo khosraystva, Hiniaterstya putay soobahchenlya (for Keearev),  TERRM,, VAj, insh.; MZHINI 1,1*9 insh.1 LEVITSXIYI A-L-v inzb.l retsanzentj MOISSM# G.A.0 inzho., reteenzent; NOVOSELISM, B.S., insh*j reteentent; DENISDVA, T.V.j. inzh.p retsemntj MWEV, A.S.# Insh.j ret"ntent; DZRAVAKIffAN# T.V.9 insh., retsentent; BOLOSHAKOV, A.S,, inzh.,, retmment; SWHMMCMICH, O*S,, lnzhop retsenzent; p4M_R.N..# insh*p retsenzent; KHARLAMOVp P.010 imb., retseumt; VILICHINSKIY, V.L.,, inzh.,, retsenzentj KONOVAWV, S.Ye,p insh,p retsenuntj MAKHM09 V.P.j Inabop retvenzent; TURCHUX0, I.?.# inzh,l reteenwnt; POLEKRA~ A.M... inth... rivi.; MFLINIWV, V.Ye*p insho, redo; KHITPWAp N.A.p takhn. red. - (Handbook for the diesel locomotive,operatorl Spravochnik xa~ shinista teployoza, lzd,2., Ispr. i dop. Mosk-val Transzhol- dorizdat, 1963. 4?9 Pe (MIRA 17:1)  KUMDVt N,N.0 insh#l ZAVITAWVO GeN.1 KMZIN# T,,G* Answering readerst queries, Slak, I toplAlaga no,SAO Ag 163. (Nm 160) 1. GUYW t~Wmlog po aytotormosan Glavnogo uprav2snLya lokcaotivnogo khospystva Ministarstya putey ooobsbehanila (for ZaTlyaloy), 2, Pachialnik otds2a to-Plotakhniki Olarnogo upr&v2s" 2ok=otlynolo kbosysystva Ministerstys, putay soobdpimnlya (for Martin). (No mibJ*ot ~Aadings) "Ri Ti mV pv~  GKINIO, Y.A.0 Lnxh*; tinzh* -J- Rubber psokUj'aup for conditioma No*222 brake val". Sloke L topL tiags. no.7t6 Jl 1639 (MRA 16:9) (Looemotives-Brakes)  IMo V USSR Diseases of Form Animals. Diseases Caused by Baoteria and Fungi Aba Jourt Ref zhur-i3jologiya, no 1958o 74195 Author s KlimoVp No P* Inst %Sol obtiflo-Researoh-Institute of AgricUltUr* Of the For North Title ITreatment of Nearobaoillosis In Northern Deer. with Maxim= Doses of.Sulfanilomldo Drugs OrIg Pubs Byul, nouahno-takhn. inform. N.-I. ln-t s.kho Krayn. Sevorap 1957,, No 3,p 28-29 Abstraots With the use of oulfadinop stroptocid album, pbthalozole, and sulfantrol in doses or o.15 to 0.17 grams per kilograms good results were ob- tained. In the beginning stage of necrobacillosiop Card 1/2  Category : USSR/Ceperal Problms - Problms of Teaching A-3 Abs Jour : Ref Zhur - MIM) Xd 1) 1957, No 68 Author Klimov N.D. 'A Title Experience In the Organization of Production Field Trips for Physics Students. Orig Pub V A. -. V powshch I uchitelyu - So 2. MLdymkar p 1956) 4-U Abstract So abstract Card 1/1  ,41111t J~ W~W'W*_WITATIOM ~~PHAS~i 412 Koebeley, re4or redorovieb., and KlImov, Nikolay Berge7evich Obshchays, tokhwlogi a reziny (Ofteral Techno101W of Rubber) Nollwv,, Gookbialsdat, 19514 W p, 8,,000 copies printed, Ed.: Tevstratov, V, V,j Toth, Zd.: Lurlye,, M, S. PUMMIC: The book is a Uxt-book for students of hl&Ur chemical and teawleal schools (vuzes) and can.be used by engineers and technicians working in the rubber sad "ad Industries, This book Is the second edition of the text- book "Te&w1ogy of Rubber" (re"W and mWlamented), It consists of 4 parts. COVEPME: Part I deals With colloiwo chamical" "teal* MA techoologioal properties of rubbers and rubberlike polymers used in manufacture of rubber. Part n describes the basic Ingredients of rubbed mixtures, and discusses present-day theories on the effect of vulcanization accelerators wA mastleators,, and the reinforcing and aging of rubber. Part M contains a description of the basic technological processes of rubber productions preparation of natural rubber and of ingredients of rubber mixturss,, mastication of rubber,. prepara- tion of rubter mixtures,, methods of nDldlng,, vulcanization of rubber products* Cardlam  General Technology of Rubber h12 Considerable attention Is devoted to recent technological astbods of rubber manufacturlngp webanIzatlon and autmation of manufacturing procasses,, assembly of equipment end use of eontintwus processes, Part IT, dascribes the basic principles for oosipmuiding rubber mixtures used in asnufacturIng various articles., Parts I# U and IV we written by To To Kosheley, Part M Is written by ?. To. Kbeholer in collaboration with No So Wwro The ~&Ahdrs thank the following scientist@ for their assistance: S. V. Baray, To To Ymtratoy and the staff of scientific researeh.instItutes of rubber and tire Industries and A, Do Khsovp Doeont of the lAmIngred Instituto of Tedwoloty (Ioningradskly tekhwloglaheskly InstItut) and also the faculty ambers of the rubber technology department at the Moscow Institute or Fine Chmical Technol- ogy (Moskovskly institut tonkoy k Julcb*skoy tokhnologji). ftere are 226 referencest 88 of vb1ch we Soviet (including 11 trawlstions), 121 Migileb,, and IT Geraan. TABLE OF CONTENTS: Foreword 9 Introduction 11 Brief historical revie4 13 General description of rubber mmufacturing processes 26  ADTHORSt' - Kosheleyp.7o Pe and Klimove X* TITIXt GerAral %bber Teohnolo~VO~bso Iya t~ekhnologlyg) PgraODICAM Kauchuk i Roslt*,, 1958,, Ir 0. pp 39 - 40 (USSR) ABSTRAOTt This to the sooond edition'of a text book first ""b~ lished in-1951 - favourably revieved by A. Kusov. PubliZerst Goakhimisdate 1957. Card 1/1  nnov. Ness takhn. nauk. Ottilook for aro reatifterm and sootmloal rect1florse Roksrlobontvo 00.220-9 D 156. (NM 1113) 1. 1"equou" olektrotokhulchookly Inotitut In, Isaias* (Blectria ourrout reatifiers)  110-9-3123 AUTHOR: Butsqev 7.I*l Klimov N.S. Sakovich, A.A. and Stepanoy,fi.P., Oandidates of TITIS: High-voltage Rootifiers/Invertore for Direct Current Power Transmission. (Vysokovolltrsyyo rooblazovateli dlya per*- 13 dachi onergii postoyanoym tokom MIODICALs. Vostnik ABSTRACT: Brief reviews of the main stages of development of high- power high-voltage mercury valves at the All-UAion Thermo- toogdeal Institute. The first stage concerns the lashira- Moscow experimental transmission line. The second stage includes high-voltago valves of intermediate power and the production of single esperimental installations. The third stage concerns high-power, high-voltage valves suitable for practical high- voltage d.c. transmission systems. High-voltage rectifiers have boon under development at the All-Union Thermo-technical Institute since 1935. A number of the principles then evolWd, Including single-anode construction, a sectionalised anode system, and oil-cooling, are still used. German experience with d.c. transmission wa's notable for the fruitful work, directed by G. Dobko, on the development of mercury-are rectifiers for 150 A (;&rdi/5 max. and 120 kV max. Joint work with the Scientific Research  110-9-3/23 High-voltage Rectifi6ro/Inverters for Direct Current Power Transmission, Institute for Direct Current (NIIPT) using the Kashira-Mogeow experimental transmission line, showed that equipment for d,c, power transmission should be considered as a complex whole. In this e-xperimental system, great difficulties were encountered as a result of instability of valve characteristics and a number of specific properties of high-power, high-voltage, rectifier circuits. The valves are subject to back-fire break-down, loss of control action of the grids, low of excitation, flashover of anode insulators, and over-voltages on the auxiliary electrodes. There were also difficulties arising from system disturbances such as over-voltageo, high-frequency oscillations and current surges. Por example on the Stalingrad-Donbas line, where the normal voltage on a valve should be 65 kV, calculations show that during over-voltages it may reach 250 M Considerable diffic- ulties arose as a result of free oscillations which app~Lred in the circuit during ignition and extinction of a valve. High- frequency oscillations, which caused sevemeradio-interterence and damage to the anodes were suppressed by special reactors. Low- frequency oscillations were more difficult to suppress, and damper circuits consisting of capacitance and resistance are being used for this purpose. At first, the Kashira-Moscow line uard2/5 operated with one bridge having three series valves in each arm  110-9-3/23 High-voltage Rectifiers/Inverters for Direct Current Power Transmission, and later with two bridge,circuits connected in series, one having one valve per arm and the other two. In designing the Stalin- grad-Donbas line, It Is proposed to use a sub-station circuit consisting of eight bridge circuits in series 'each for a voltage of 100 kV and a current of 9W A. In all, there will be 192 valves working ae converters and 32 "sbunting* valves. At full load, each,&lve will handle a power of 7-5 NW. A serious problem was the control of individual circuits from the auxiliary supply panel which was solved under the guidance of Candidate of Tech- nical Boiences I.L. Rubinahteyn. Control is effected by means of a light ray acting on photo-resistance calls which operate relays. For development work, the All-Union Blectro-tachnical Institute (VNI) has constructed equipment for making static tests at up to 200 kV r.m so, surge generators and a high-power equivalent for testing v;lveo under rated conditions. A jcge test install- ation with a transformer group of 120 MW has been constructed at one sub-station. questions of valve design are then discussed. A aeotional drawing of a high-voltage valve is shown In Fig.l. The distinctive feature of high-voltage valves is the anode system and different methods of sectionalising the anodes are shown in Fig.2. It is usually advisable to extend anode sectionalization Oard3/5 to the discharge space, and different types of screens are shown INN  110-9-3/23 High-voltage Rectifiers/Inverters for Direct Current Power Transmissione in Fig.3. Other anode constructions are shown in Fig.4; Fig,4th shows an anode design developed by V.D. Andreyev. SeveAl types of valves developed in the All-Union Mectro-technicalInstituts are illustrated in lig.5 (photos). The main relationships of voltage division between the intermediate electrodes of the amde assembly were established during the investigations of high-voltage valves. 1hen the valve works as a rectifier, the negative voltage drop occurs mainly in the gap between7the anode and the first anode insert. When working as an inverter the positive blocking voltage lies very largely in the space between the insert furthest from the anode and the uppw grid. Develop- ment of rectifiers proceeded alongside theoretical and physical investigations, of valve strength, curreht distribution in the anode and voltage distribution in the anode assembly, ignition effecis effects during failure of operation and during heavy overloaas. In the investigation of physical effectsi pDbe methods of vapour density measurement were very useful. Graphs of the probability of back-fire for the valves BP-1 and BP-3 as functions of cooling temperature are shown In Fig.6- Isboratory results have been confirmed by data of 12 000 hours tests on. valve type BP-3 in the experimental transmission line. (;ard4/5 Valves type BP-4/2 and BP-9/3 are intended for the Stalingrad-  110-9-3/23 High-Voltage Rectifiers/Inverters for Direct Current Power Tramsmissiono Donbas transmission line and have passed a wide variety of lab- oratory tests and the results of the first high-power tests confirm the satisfactory operation of the valves in approximatoly their normal working conditions. In the light of the exWrience gained, development is likely to compise:. valves of greater power for higher voltages and currents, which will be combined with improvement in manufacture to improve reliability! valve designs which will ensure great vacuum-tightness, enab ing the manufacture of pumpless valves or, if necessary, to provide internal devices to maintain and restore vacuum. Two new types of pumpless valve are shown in Fig.7, one for 150 A max. and the othor for 900 A sax. with reverse voltages of the oAer of 100 - 120 kV max. There are 7 figures and 5 Slavic references. ASSOCIATION: All-Union Electrotechnical Institute (VEI) SUBMITTED: April 23, 1957- AVAILABIZ: Library of Congress. Card 5/5  I ty-, ~.j V 1UTHORS, butayev, Yo lot Candidate of Tochnical 105-58-5-1/28 Sciences# , Candidate of Technical Boisncsv~ Xostrov, $ 1P*$ Candidate of Technical Science*, Sakoylobt A# A*, Candidate of Technical Sciences TITLIts A High-rover High-Voltage Valve (Uoshchnyy vysokovolltnyy vontill) PZRIODICALt 141ektrichestva, 1958# Nr 5. pp, 1-7 (USSR) APSTRACTt At first a surval of the d#velopuent of the high-voltage valves abroad and at home is given. In the USSR such works were carried out in the laborateries of the YZI (A. go Larionoyl so T* Xrauz 1937# N,, 3* 111mor 1938 - 1939* X. 1. Oaltdin 194o). After the war high-voltage valves and control boxes for the first test-d.-o.-trunk line from the hydroelectric plant Kashirs, to Moscow war# elaborate& Theme works were sainly performed 1n.ths Scientific Engineering OffIce of the foraer Ministry for Xlectrical Industry under participation of important German ap,scialistso as 0. Dobket R. Khelstere# and others. 30 valves of the card 1/5 typp YR-1 were produced by this office and partly by the -7-1-71 __7 T., F-5 -,e  A High-Power High-Voltage Valve Card 2/5 105-58-5-1/28 test works of the VEX during the second half of 1950. 1950 - 1951 12 valves of the type VR .3 for a MaxInn of 300 A and 130 kV more produced in %no VE1. Sino#1952 works were started on a valve for a maxim= of goo a and 130 M These works are shortly described uoro, 1) The problem whether the valve is to be constructed as single-anods- or multi-anods-volv*, was solved In favor of the single-azode type. it was shown that the difficulties In connection with the discharge toncentratior. on a small cross section tar. be or6roome. 2) The number of the Insets was selected In a way that the advantages ore relatively great and the disadvantages are as samal &s possible. The tests were carried out with 15 (valve ty Kesayov), 5, 4t 3. 2 and I insets (constmotion 'by Androyev). 3) The problem of site and density of these insets is finally to be cleared In the plant. 4) The materials were investigated, 1951 - 1952 a special vacuum- -technological equipment was put into operation, solitary toot stands were established tup to 1000 A and 160 kV, pule* circuit up to 350 kV). The construction of the valve essentially differs from those used 'An industry. Then  ,A Ulgh-Vower High-Voltago Valve 105-50-5-1/28 fnl'ovs a deacription of.such a valve of the type VR,)/3 for 900 A and 1,140 M In 1952 25 sanples of different power and different types were produced. The electric strength of the ralve is high. In static toots it stands 14U - 160 kV withoat an exterior divider. The investigations of the mariury vapor took place aocording to the probe mothods, which had been elaborated in the Laboratory for gas discharge devices at the YZI* The electrical testa at full amperage and voltage were carried out with the Oquivalent scheme constructed tr. the VEI for walaally 1000 A and 160 kV, and valuable data were obtained. An extraordinary phenomenon was determineds At positive anode-voltW and normal operation of all excitation anodes and note no lighting of the principal anode took place at high voltage. At. Ion voltage this phonor-"-n was not observed. Shia fact lo explained by the occurrince of negative potentials. In investigating the overload capacity it was found that also at 15 000 A within the rnga of varkI4 tomperatures an Interruption Card 3/5 of the current does not occur. Then the voltage in the  A High-Power High-Voltage Valve 10511-58-5-1/20 aro drops to 700 - 000 Y, For the Purpose of energy investigations a teat stand for 120 UVA was built at the Moscow Institute for D, C, The results of the first test series showed that 900 A and A countervoltage jump ef 50 kV no disturbances oizurr9d at the valves. At 900 A and 90 kV countervoltage jutp the valves do not lead to an extinction of the excitation urc. For the transmission line from the Stal'Ingrad hydroalectria plant to Donbas# (the voltage between the poles amounts to 800 kV and the amperage in the 11ne to 900 A) the YEI proposed an eight-bridge-scheme. The -voltage of each bridge amounts to 100 kY. Tho scheme was accepted by the expert commission. Here two valves are connocted In series Into the bridge armt mazloum counterioltago 61 kV, countervoltage JUMP 34 kV, maximum amperage 900 A. - The work for the valve was performed at the Laboratory for High-VoltW Rectifiers at the VE under participation of the Laboratory for Oas Discharge Devices, anS of the Laboratory for Physical Investigations at the Institute, The samples of the valves were produced by the electromechanical test plant of the Card 4/5 VEI. The porcelaln- and ceram!c products were produced by the r M2427- ~v 7-73 _Tf  A Righ-Power High-Voltage Valve 105-58-5-1/28 "Isolyator" porcelain plant and by.the Institute of the GIIII. No Po Stopanovt No P. Saving No K. Maslennikovq 1. Do Shkolin# A. A. Pertsev, V. So Crigorlyev# A, A* Tiaofeyev, Ro 1. Grigarlyeva, V. V. Bazhenov, 1. V. Blondp As A* Iyanov, Ye* P. Shmarins, and others directly,, and actively partioipat*d In the work. there are 12 figures., ASSOCIATIONs Vsosoyusnyy slaktrotekhnichookiy inotitut in. Lenin& (721) ( All-Union Institute for Electrical Engineering imeni Lenin) SUBMITTEDs Xovember 5# 1957 AVAILABLMs Library of Congress 1. Electron tubes--Development 2. Electron tubes-USM 3. Electron tubes--Test results 4. Electron tubea-Applications Card 5/5 5. Tranamisaion lines--Equipment  AUTMRS; Shekhtman, X#G. , Candidate of Tec."ical Sciences, 105-5a-5-2D/2S Aksellrod, UA., HnSineers ButAyeys F.I., Candidate of Technical Sciences, 9-14--- 1612s , andidate of. Technical Sciences, Levitskly, K.K., Engineer TITLE: On the Prospects of Employing D.C. Tranamisaion in the U33R (0 perapektivakh prizatneniya elektropertdach postoyannogo toka Y Sovetskom Soyute) PMODICA1s Slaktriohestvo* 1958, Nr 5, pp. 81-83 (USSR) ABSTRACT: Coments on the article by H.U.Mell gunov, Elektrichest"t 1957. Nr 2: I,) This is a ooment on the article by I.F.Polovoy in Elaktrichestvot 1957, Nr 5*A nunber of error3 Is criticized. The ratio between the costs of an A.C. substation and a D.C. sub- station are assumed by Polovoy as amounting to 0,5# According to data published by Toploelektroproyekt It Is 0,557-0,580 &M go- cording to those given by the Institute for Direct Current it Is 0.76 (taking account of the fact that valves are produced in the Card 1/3 factory). Doubts expressed with respect to the possibility of  On the Prospects of Employing D.CaTransmission 105-58-5-ZD/26 In the USSR covering motive (idle) war are unfounded because the reoti- tier plant has a oos if a,* 0.90 - 0.95. Polovoy does not take power losses in COMPIRUSAtIOU devices into account. He "sums the specific costs of the tntufom-er plant or D.C, substations to amount to 36% of the Substation costs. According to Teploelektro- 'proyekt they amount to 26%, and according to the Institute for Direct Current aW the All-Union Institute for Electrical Engi- neering - 1% Acoording to experience gathered in connection with the line Kfishim hydraulic station - Uo3oow, and acoording to tachnioal, oonaitiona the life of valves between two repairs amounts to 15 000 hours or two years and not one year. 2.) Oritioism of the article by kelIguncy. It in wrong to declare that the costs of D.C. - anid A*C. substations including devices for the increase of st&bility are the saw already at the present stage of t rans form r-engineering , that in the case of long-dis- tanoe tmnamission no intermediate output Is necessary, that by means of the mercury valve grids the intermediate substations can be reliably disconnected from the long distance line. Advantages Card 213 and disadvantages of a D.C. line are enwerated.  On the Prospects of Employing D.C. Transmission 105-58-5-2Q/28 in the USSR The atomic electric power plants will only supplewast existing power system, and hydraulic power still r ins the most inex- pensive type of energy. The large valves for 130 kV and, 300 A developed at the All-Union Institute for Electric Engineering will render M*ttsumission more economical. For high power transmissions of from 0*75 to 6 million ki over distances of 900 km and more direct current offers great advantages, There is I table. ASSOCIATICKs Nauohno-issledovatel'skiy institut postoyannogo toka (Scientific Research Institute for Direct Current) Vsesoyusnyy elektrotekhnichaskly institut im. Lenina (All-Union Institute for Bleotric Engineering imeni Lenin) Teploslektraproyekt AVAILABLIt Library of Congress 1. Direct currents--Transmission--USSR 2. Electric power plants --Substations-Effectiveness 3. Atomic power plants--Applications Card 3/3 4. Power plants-Economic aspects  AOTHORj Xlimovt M. so$ candidate of Technical Sciences TITLE: Trends In the Design of Pfult1phass Transformers and Generator Transformers (Putl voidantya mnogofasnykh transformatorov .1 generator-transtarmatorov) PERIODICALt glektriohostvot 1958# Nr S# pp. 5o-54 (USSR) ABSTRACTs Three mothodso by which a multiphase, transformer can be produced, are described* 1) If In a throe-phase transformer with two identical secondary windings the Input terminals of ons, group of ph&**# to connected with the output ter- minalo of the other.group# six voltage* are obtalnetdp with a phase shift of 60 from one to another* If sit phases of the secondary windings are connected an shown by figure 20 a eft-phase transformer with a closed winding to obtatn*d* In order to produo* a twolve-phas* transformer# two such throe-phase transformers each haying two necondazy windings are required* A six-phase transformer Is recommended in oasess *her* it Is necessary to reduce the jump In back voltage# The use of multiphaso transformer* offers considorable ad- Card 1/4 vantage:i in large-scale plants, as it Is possible to reduce  Trends in the Design of Multlphas* Transformers an4 Generator Transformers the number of transforstroo 2).ThIs method to oleo based upon the six-phase transformer# In order to obtain a 12-0 24- and 40-phaso transformer each phase of the secondary winding to divided Into 2o 4 and 8 parts$ respoctivoly,lf, for oxamplot R,48-phast polygon to devired, a supplementary winding is connected In series, with each phase of the secondary winding. Thi- winding Is mounted on the core of the supplementary a transformer, the primary voltage of which to shifted by 90 with respect to the voltage of the main transformer* Throe single-phase transformers are required to form a 48-phass transformer, A multiphase transformer connected according to this method can be recommended for special plants with small and sodium power, if.& great number of phases to d*str*d from a three-phase supply., 3) This method is based upon a now principle. Normal single-phase and three-phace trans- formers or* used# They are fed immediately from theatator windines of the k,4ro- or turbogoneratorst the FXF of which have a phase Pbift with respect to each othtro The secondary windings of the transformer are connooted to forz a closed Card 2/4 multiphase winding* Multiphase transformers of this type can  BOY/lo5-58-8-10/21 Trends in the Design of Vultiphase Transformers and Generator Tr4teformers Card 3/4 be use& in oameso where the consumer to fed by individual generators and *her@ It is necessary to have small pulsa- tions of the rectified, voltage and an almost sinosoidal cur- rent In the supply 11n#. Ily employing an odd number of phases (9# i5t 21) a number of important advantages and in parti- oular a reduction of the pulsations of tho rectified voltage can *us achieved* This Is most easily obtained by a trans- former designed according to the third method. Transformers produced according to the second method have a consumption of copper and sto*l# which in higher by about 5 - 10 1C than that of transformers produced aooording to the first or third method* The principle employed in the th!rd method can be made use of in the production of high-power turbogeneratorse The principle of a multiphaso transformer was proposed by the author in 1940 (Rot 4) and described in the dissertation rd (Hof 5) in 1951-1952* The patentK-847 was submitted an March 3 1954a There sre 11 figures and 6 references, 3 of which are Soviet*  SOT/105-58-8-10/21 Trendelin the Design of Multiphase Transformers and Generator Tram forsere ASSOCIATIM Teasoyusnyy olektrotekhnicheskiy institut im, Ve to Lenin& (All-Union Institute of 916otrical Engineering Imeni Vo I* tentn) SUBMITTSD: September 12t 1957 1, TrAnsformerS-DesIgn 2. Transformers-Operation 3. Transformers Pbovelcal Propertles "W"I A-0,61.  AUMORS Irms FIRIODICALs ABSTRAM Card 1/ 4 121SOVO X#S. (Cand.Toch'Sol.) SWI 110-M-10-2/24 A multi-phas* rectifier with mercury valves. (11nes4rfamyy proobrasevatelts rtatnymi vouttlysal) Yostalk SlektroproWshleanosti# pp. 4-11 (UM) The use of high-volUp 4.a. transmission nocessitatoe the develop"At of high-voltago reetifieriaM inverters. So far, three- phos* bridge-oircult rectifiers asployLag high-voltage nerouryvalves have been developed with this application in aind. Nowevorg sub rectifiers be" son fundamental deftetes during *arrout cementation two of the thro6 transfenier phases us shortodl ander certain conditions,, exteaction of the asetting are can reverse the operation of an invertorl there are various troubles with current and voltage wave-shapos, fte reasons for the increased probability of 16"k-ftrot In high-voltage aor4W valves art not fully wdorstood# but a mobanift is suggested. ibis article cousideri multi-phase rectifiers spratIA4 in eambination with high-"Itago mercury valves, and with their ~r transforme windings connected in a closed ring (similar to the windings of a d.a. machine). If the windings are someoUd so that the vector diapsa to a closed hexagons as shown in Pig.l., thou at any instant the sum of the #.n.flo. in the circuit is zorej thus current Gan flow via two symmetrical parallelbranches, as in a d.e. s"hino armaturs. The nusbor of ph"** *as easily be Increased to  A multi-phaso rectifier with mercury valves. SOV/ lio-38-10-2/24 twelve. A sah"atio airealt of a six-phus rectifier Is given In PISA.# and the aerr"uding "star disgran in Fig.3. This tiroult off arm a4vantagoo for use with higb-voltage mercury valves in 6 and 11-0ass variants. During mwroat eamotatiou only a =all proportion of the minding to shorted. "w reverse voltage wier normal operation to much redused and the operating conditions far the high-voltage uoro=7 valve are considerably easier than is the normal three-phase bridge circuit. By way of example, salculations are then made of the loading data for a tw*lv"hasel 100 hTf 900 A rectifier. In partioularp calculations are side of the "gle of mrlapt and of the pmftr faster, also of the voltage* on His valvva under rectifier and lnv*rt*r conditionst and so on. iWatifters employing th* proposed six-and twolvo-phaso systentst are then compared to a three-phase bridge-eiresit rectifier. Formlso are given for the phase voltages in the three oases. In 'the throe-phas* the rectified voltage In about the sow as the phase voltages In the six-phase. case it to about double$ and in the twelve-phase *&#so four times the maximmin phase voltage. It Is shown that twice as may valves are required for a six-phase rectifier " for a three-phase bridge rectifier, having one valve in cash uu. Howsm. the valve current Is halved, and so is the rovem voltzge-applied to the valve, If in the three-phase eircalt the voltage on saab Card 2/ 4 valve Is halved by alv*ys using two in aerls.A the current through  A xulti-phass rectifier with mercury valves. SOV/110-W-10-2/24 then Is not halved. The twelve-phase rectifier required 24 valves rated at 75 A and a maxima back voltage of 101 M It then gives 900 A output. Par the son output# the three-phase bridge circuit uses n valves rated at 300 As and a back voltage of 105 M Men a high power-output to required, the construction is simpler with a twelvo-phast eircult. With the six-md-twelve-phaso circuits, unlike the thres-phass circuits extinction of the excitation are does not rovers* the Inverter conditions. The problem of high4requency oscillatory processes is inch lose to the six-phaso circuit than La the thre#-phaset and in the twelv*-pbxse circuit there to hardly any problem. The voltage wavo-fors In transformors and generators to such better with multi-phaso systems. Other advantages of the aulti-phase rectifier are described. It Is concluded that althovo multi-phaso rectifier eircuits are very promising in bigh-voltago d.c. traumissiong practical trials are still necessary before final conclusions can be reached. Valti-pbaso rectifiers may also prove Card 3/4  A multi-phave rectifier with nor4ury valves. WV/110-56-10-9/24 useful for nodl=~-and lov-voltage applications, particularly vhon a UrSe ausUr of valv*s Is conveaient. Th4ro are 6 figures and S literature references (Soviet) SUMUrml januaryt 13, 1958. 1. Reatiflere-Performance 2. Inverted rectifiers-Performwwo 3. Eleatrio circuits-Peribrmance 4. Thyratrons-Performance 5. Eleotrical networks-Equipment Card 4/4 -  SOV/110-59-4-1/"3 AUTHORM Vollno7, Yu.F. (Engineer), 11imov...N.S. Oard-ldate of Technical Saiem,,!-is) and Tof-gorkint Yu.P. trwiginear). TITLE: The Probability of Bank-Fires in High-Voltage Heraury Valves (0 -faroyatnosti obratnykh zazhiganiy vysoko7o1'1*nyk.h rt,;tnykh ventiley) PERIODICALs Vest-nik 2laktv.,pr,.i%ysh1*nnas'.-i, 1954),,Nr *+, rp 6-14"AUSSR) ABSTRAM This artiole desazibes invastigations on high-,,roltage meroury val-4as with vario--vi types of anode .-on-9 trio tim In order to stud7 the Influerioo :X the rave.-si -f4ltac* and rata of fall uf ano,O" tra:~.-ent on tha p4mbabIlity of baek-fires, The tes" wera mad4 using tho imp*~Av4 circuit Shown In Flg I ard the advantag*3 and disadrantag4s Of this airouit are tfriefly disn3svd, Tba tf tatk- f1ring is not yet ftilly -ando:3ttA but the m5st a.~a-spt,016 thooryls that vhiih attritut9s formatim of a ait-hoda 9p'. or- tLe aa)de to auto-oleitronlo Ardssi,)n fr,,m thi amdo surf&-,ts. Variots exr1anations are offerad ab,!:,Ut the prooesses that otoLzr during taok-fi.-Jng ar-1 t~:* thrss dIfferent typbs -,f arv)da that w-irs *-teAt Ir. the -mlves t9sted reflec', this dtfferonze of Card 1/6 Valve VR-3 h&s fc;%~r intA.-madiate ela---trcUs ir. tt.3 form of truncated zomos, 7alvs,YNO-15 has fifteen !ntarrtodlats  SOV/110-59-4-3/23 The Probability of Back-Firas in High-Voltage MartriryValvas electrodes made in the form of d4SC3 with ooaxial apertures, the three upper sleetrodes YArs torminals brought out through Insulators. Valve VR-3a has only cne intermediate elootrods, The aonstruction of -4alve YED-15 was suggested W. I.G.Kesayev and the constru--itior, of valve VR-3a was suggested by V.O.Oramovskir arA V,,D. Andrayev. All the valv*3 are designed for a baak-vtoltage of the order of 100 - 130 W, a mean oarrent of 100 A,anA are intended for series-eanneotion of two or three valvas in the am of a bridge airmdita The valve3 wore , described in detail in Vestnik Blektropromysh-14mosti? 1957, Mr 9. The test procedure is deso&-ibed, With the impulse airaiit the anode current decay time eAn be varied by altsrir4 the amount of inductan.,e in the oirouit. Sinae the val-:es do not got hot during impulse tests it is ne*essary to heat thqm first. The instrAmantation is described. )(saswaments of the distributi,= of baik voltage bete4an the intermediate *leotrodes were made vith a hnak Voltage of 110 kV and a do(:a7 rate of 1.8 x 10, A/see.) the vcI"tags d1str4bution ~rir7es ara Card 2/6 given in Fig 3, On valve VBO-15 nearly 70% of Vne baak voltage drop oaxirs on tho first thres -1Ant~rmM.!&t'-#i  SOV/110-59-' *-3/2,3 The Probability of Back-Fires in High-4,71tage MerTi:-y 7alves Card 3/6 sleotrodes. On Valve VR-3 thv moasurements were made vith throo rates or current, deavay, the d1&,tr1bution.nf taisk voltage tetwasn the intermadiata ele3trodes is very une-;en and 85% of the baek *toltag& falls on the gap between the anods and the first Intermedlats v!ejtr:)d9* 7he masom for the unviramess of voltagg.d1stributlon ar* briefly disyisse!. In -.ar;e VR.-_Ia abz1at half th4 bask voltage drop ocours bstw*4n thq ancde am: the intormedlatq eleatrods. The prDbability of bmak firing vas thon studied. Two faqtors govorn the probability cf ba,* firinp the.magnitude of the taak 7oltage and tLe arx-de mirrent demy rate, Us anode ts-arrent decay ratq was controllad Vy varying the rjirwiit induatar.,~e for dlifftrant values of taok 7oltage, During the test3 the ratq of 7150 of back 'roltage vas 300 -- 500 k"I/d.9groe with ar. Ln4kA c ta r- *6 of 65 mH, It vould take too I-,ng to obtain back-fire stati3tios with normal loadings or. the valve and, therefore, appreolable overlo&js wire used. Tie baek-firs prcbabilitr I test reszlt's for 'ralve VEO-15 ars g.&'-Wa:7t n Fig Ir. An expUnation or th6 shape of the c-ar-tes is cf"Grei. A back-fire r7obabillty jurvo tor va.1-7e VEC-15 as a flxnotion  SOV/110-59-4-3/23 The Probability of Baok-Flros in High-Vc1tago Msrcary Valves of back voltage for high anode-vurrent dour.rata is given in Fig 5, SW!ar results were also obtainod r.-a valves VR-3 and "-3A, The test results were used t) derive an empirical formla for the inrluenas of the back voltage and of the rate of =rent de!3ay on the proba- bility of ba:k firing for a oonstant value of mer.(=Y vapour pressurg. The expression is-In good agreement with practice for cooling water temperatures of 20 and 21+OG but at 2600 the batsk voltage has more offe.,3t. Under practical operating conditions the mercury Avapour pressure corresponds to the temperature of 20 - 2V4 0 spg,3ia'& tests and calculations established that when the voltage dro on valve YRO-15 is Increased from 90 - 150 V the progability of back-!iring is increased ~)y the power of 11 and 4en the a-.rrpnt decay rate is inoreased from 2,6 x 100 t~D 13 x 100 AAso the probability of ba-A firing is increased by the four,'.-,h power. Thus the beck voltage has a imxoh greater effect than zhe rate -.f ar-*,I,* curront decay ovvn when this latter is hi&.. Current oscillograms Card 4/6 taken during back-fires are given in Fig 60 It is claimed that the anode aarr int ee,.:ay rate has littli inflTion;:ft on  SOV/110- 59-4-3/23 The Probability of Baok~_Fjreg in High-,10.1tage Xercury Val-rea the probabilit7 of baak-fire because the zer=-y -apour pressure In high Voltage valves Is w:zah lever than in lov voltage val7es, Thtreforoy for a given anedo urront decay x0ate the concentratien of remanent 6harges is wueh lower in Me.-'roltage valves. The applicability vf Vis test results to normal operating conditi-jr-3 of high voltage valves Is t?.-,9r. ounsidarod. In the to3ts th# rate of rise or bacA vcltags -"s soma 5 - 8 tizes higher tUn In praotioal ver.,!oe t--At the rate of Influence of the various fautors is pr.-bably w;t.;h the sea* Ir. both tas*s, It is ocnaludol that 6mplriaal formula* derlv*4 from tests on low voltage -valyes oanr-ot bs applied to high vcltage valvest Other things !Aing eqiall tho protabilit7 of baok--fires oaa;rring in high voltage meraary valves depends mainly on the ba,3k voltage &nd tt, a =_*ah lesser Card 5/6 extent on the ancde ourrarA, do-4ay Mto, Those conolusions cA-mot 1,9 extended t-, all dvalgrs vf high  SOV/110-59-4-3/23 The Probability of Back-Firts in High-Voltago Mercury Valves voltage mercury valves and they are probably inapplicable to high voltage valves in which there is a large umber of gaps in the anode system between which the voltage is distributed urtiformly. There are 6 figures and 6 references (1 govieto I Inglishl, 4 German). SUBMITTEDt September 8l 1958 Card 616  80) A)JTBORs Candidate of Technical Soleness (Not ow) Klimov# 11, 0 TITLIt Means of Improving Commutation Conditions In Direct-current Machines PARIODICALs Slaktrioh*stvo, 1959, Sr 8, pp 78-80 (USSR) ABSTRACTs- When improvements of commutation conditions are desired, the main problen encountered is that of eliminating sparks forming at the trailing edge of the brush. The commutation condition* of direat-ourrent machines can be alleviated considerably# If commutation Is effected by rectifiers (Nam me"U"Mis ariffisaft i e known for Nr 54332t 1936). A ntimber of circuit arrangements &r this purposeg two of thiah are presentod hersi the on* was sug- gosted by Ye. L. Ittlager (fig 1)9 the other has boon designed for a direct-ourront machine with a commutator. If rootifier commutation to used# considerable ov#rcomautation Is permissible, When commutation has boon completed the ourr*nt is interrupted owing to the valve action of the rectIfier connoet*d with the trailing oomautator segment. The circuit of the short-circuited station is interrupted by the rectifier OVOA before it is inter- Card 1/2 rupted by the moving commutator segment. If overaustautation oc-  Means of Improving Commutation Conditions in Direct-ourront Xachines. ours under rated loadt the aaohin* will spark when short- circuitod# but will not show flash-over. ?his commutation method was ohtok*d with a I~ kv. 220 vo 1,000 rpm direct-our- rent &&chine$ using the alroult-diagran shown by figure l.'The osaillograne recorded showed satisfactory results. This article was written under the supervision of Academician 9. 1. Bhonfor in 1938- At that time publication appeared to be premature as no suitable rectifier equipment was available. The manufacture of nesioonduotor rectifiers with high operating currents offers prospects of Introducing this method in the near future. ?here are 4 figures and I Soviet reference. SUBUITTEDs February Ili 1959 4  85103 8/10 60/000/009/004/009/XX DOI 8058 2Y AUTHORs Klicov, No So, Candidate of Technital Sciences TITLEs Power Convertor Prom A.C. Into D.C. PERIODICALs Blektrichsatvo# 1960# No* 9# pp. 29-34 TEXTs Thisisthe description of a current convertor proposed and experi- mentally chocked In 1936-1941 (Refs. 2,5). A six-phase current convertor for 10 kv with an output ot 100 kv v&s built at that times In the course of further devolopmento ooncrete ways were shown for the builling of poly. phase transforcur aggregates. The dIfficultios In building power valves develop mainly because a high voltage to applied to the d1schargo gaps which are subjected to a pratonlzation, In the current convertor under discussion the air Caps (at 5-10 &t&) a" not lon1tod, since the *orona stago'of the discharge to lacking at air pressures of tore than ~ at& and voltages which are lower than tht discharge voltagt (Rot. 1). The principal circuit of the current convorter is shown Ir. Fig. I and its code of operation to explained, The current converler consists of a,trans. former aggregatot a commutator Installation, and valvos. Since 1938, Card 1/4  Power Converter Prom A.Co Into D#C, 85103 3/105/60/000/009/004/009/XX MOM commutator Installations for 100 kv God nore have been built and partially tested# Commutator installations of.the collector type (Ref. 3) with rotating drum electrodes (Refs 5) and commutator installations with a t,~: k arA fcre-h movement of electrodes are the best developed ones so far. As an example a commutator installation with back and f~)rth movine electrodes Is described (Fig. 2). It was developed by Ve Khorlen according to data by the author and represents a further development of the authorts Sosilm previously described (Ref. 6). Advantages and sh~:rtc,3mings of both com- mutator instal'lations are pointed out* While the insulation of current carrying parts presents difficulties in the collector type, the Instal- lation with electrodes moving back &n.1 forth requires a more complieatol drive, Nevertheless, preference suet to given to the second type, since the Insulation of the current carryIng parts can to sImply solved h9r#6 Such commutator installations, built during the last years. with 8 Saps and without prolonization have a break-down reslotanc* of 300 kv. It is pointed out that commutator Installations with 'Aiqut4 electrodes have also good prospects. The problem of the olosIng perlo4 of the aloetrodes Is studied, and a circuit for increasing the ilosing period of the eloc- trodes Is given In Fig* 4, Sealed mercury-are rectifiers .)r sezIconductaf Card 2/4  85103 Power Convertor ?row A,C, Into D,C, S/lO5j6O/OOO/OO9/004/009/XX B012/BOI-S rectifiers are used as valves. Sealed msr,~,vry-aro reztiflera for 15 kv inverse voltage and a mean r*ctifiei current of 100 % (Ref, 7) are &I- ready developed at prosent6 They may be manufactured In s*rjoso At present, such rectifiers are also devoloptd for 15-30 kv and 700-500 a. Itla pointed out that no exquisite voltage gortroihae yet been developed to In the case of current convertors with high-voltage worc-iry-arc reotiff*rs, The advantages and shortcomings of the current cetvsrter described or* finally listed. The advantages arto.l) HIgh break-down resistance, since the air gaps are not icnizedl 2) no are develops in the commtat,)r in- stallation at a maximum load of 150% of the ratod V41,40, S,Mee ComaUtation Is achieved by means of volveso 3) the permanent voltage applied to the valves is 6 to 12 times lower, and the voltage applied for a short time at strong regulation is 4 to 8 t1mos lover than the rated voltage. The design of the maroury-aro rectifiers eanthertfort b% grostly simplified and semiconductor rectifiers can be used respectively; 4) since practically no misfiring occurs In moroury-are rectifiers of excitron de4ign at a voltage of from 15 to 30 kv and misfiring is entirely atsent in sent.. conductor valves, "ttltlng* owing to misfiring can practically not *,,cur at 0,111 5) since the jumps of the Inverse voltage are red-iced by 4 to Card 3/4  8510) Power Converter From A.10. Into D,C.' 8/105/60/000/009/004/009/XX B0121DO59 8 times, It In not necessary to I-Apprevs high-frequency oscillations* The more complicated and expensive transformers and the existence of moving partus are mentioned as shortcomings of the current converter deserited, There aro 6 figures and 7 Soviet references. ASSOCIATIONt Vaesoyuxnyy *1ektr*tekhn1ch9skty in8tit-if Ia. Lvnina (All..Union El~ctr.oteckn1,.!al lnotitdt# Imeni Lenin) SUBMITTEDs January 6t 1960 Card 4/4  -UIV0292/6 AUTHORs Buts!"Y. F, 14 (Candidst~ of technical soiencesh N (Oandi&t*14- 41J', S' 4 -of technicZ '~oi omen 11 pottvfim A# 6~4stne A,Jpvineerh -St..^ 'technical sciences) none -T ITLEs Do in hiih-voltio;'pavor reatifters oplent IJ!- SOURCE s lJoIct"WItImikis A965,P'22-24 -.TOPICTAGSI direct Merow reawl or ABSTRACTs The Te~aA-Whbass J"i1jid"jon line is senUy being put Ikto - Pre q)erstiono' This +AM be the n6st pow~'d-o tranwAssion jim in the worIA0 sendinf 750 MW of pover at 8OD'kv over a. distance of ro%h2r 500 km. ~ The transmission system uses a thr"-phl" siett-bridge network with power recU. flors which Operate &t & oxbm.vdt&p of 130 kV &nd &,Mxinm can-ent at j .900 upso. The eight-bridge system,,v sod the AII-Qdork *Order of IAWAI 'Electrical Ald"arlig. 1, TAMiU0 IGs the following WE)= 7- 77. Ig Aages over the four4ridge oircuito 1) *en individwa bridges in the sy#tM 'fall, the trwwdtted p~. is maintsin6d by current overload on the bridges I remaining inopentiont 2) the work load on the equipeent is lighter In r. gency conditions, and two reotifters can be series-oormotod in sub arm of the bridge to raft* the itorkload by, Incressliw the maber of ~roftiflere frM rd c' UDQI 62123U.65,001.11 c 7 F.-% -S RM  'W ACC Mks 06003276 72 to 96; 3)'ihiif ii0rate the voltage awlied to the su~- outs remAining in ti d exceed the nosd:" value, whas in the Opm W. 0604wt f b d h l our- ri wioe the rated value in this type of e "Itso is. ge systmt ' emergency In Varlow foreign. biO"Olltap d-O tranodsvion Unes ww tion wA, beift plarmd. matior*d wA their. parmatere are gi"n, !the advances -vade In high-o4tep power rectifiers since 1940 are discussed* .'Work van, begun on the rectifier wing used in the Volgograd-Donbase wyetm In- 1952 at the All-fton Asitrioal: wirawring Institutes 'rhavarious p Involved in the devel6pont, wA vonstruction of this dsvIco an disousseds This aWs-anode pool wAt osUid the VR-9 Switron) is now beiq was- produced at a [t ~ factory -in Nbscowe The overall dimeralons of the rocUfter aft 6 X 242 ~ X" joh 16 A' Oomparism of the VR-9 ftitrw idtb if the Wedieh-wde reo ifisrs:40ad. ii~,W -A A A (rhaind do 'bansitission 11in t 3hWS that the SWiat.bj 0 OWW rectifier is up to modern require- ments with rsspsat~ td-Aiduli 6*a6tft4#Uoe wA construction* Orig, art, hass 2. figmeso EJM] ism IA"j. - r4m mm WS Ow SUB Cm 1 108 09 OM Ws 002 -D .~~2/2  - WX919--n-v-p- Quartz ca.11brator for Umlng the receiver or the Zh&3 trannittor-raceiver not, Avtom,, telm, I sviazl 9 no,12s35 D 165. (Y-M 1911) 1, Stmhiy radloinshener Kaluthskay distantaii Moskovskoy dorogi.  ELIV'OVI 0. r. "Errors 5 of the Astronomical Universal Instrurent in reternina- tion of Astronomical Points by Methods Based on the Itinciple of.Yoamw- ing the Zenith Distances of Store,, and Their Investigation.* Cand Togh Soi, Moscow Inst of Inginews of Geodesy, Aerial lbotography and Carto- graphy, 24 Doe 54# (VK# 3.4 Doe 54) Survey of Solont1flo and Technical Vissariationa refentled at USSR Higher Iducational Institutions (12) SO: Sm. No. 5569 24 3un 55  V-T -"- T).-?I UP; che3ki,-h prunr4tov sposoIALmis osnovannymi na j-rIntsi;.e ize-ronly zer..itrqkh r-a-5stoyanly svatilj i ikh i-saledovanlyot 1954 19 a. 20 sm. (Y~-7o vyssh. otmzovanip =11s lbsk, In-t inzldnorov Eculezil, a"mfoton ye--!-..ki i kartogmfli) 100 akz, j. to. (54-54C6r) ZO: KnizIA:r, LeA Vol., 1955 T un i. &, ~, , m ISMI RIRIE  ILINDY, O.D. nd.takhosmuk %IN Tables for wrldvg circular curve@# fransp.strole 9 noolo16l 0 159* (HIM 1312) (Rall""g- Ourveying)  ILINDY, O*D.. kand,tekhn.rAuk; MDXWV. Yu#V*, aspimnt Oscillation of the axis of eight In theodolites during focuss- togs Trudy M11GAIN no.36:i5-62 159, (KIRA 13:4) 2. Kafedrs, prikladwy geodesil Mookovskogo Instituts Inshe- narov goodesit, asrofotoswyo*1 I kartograftio (Theodolites I  ZUUMSOV, Bergey Mikhaylovich; CHASMHIN, S.Ao. lash*-geodesist, retsen- sentt-XLIXQL O.D.. kand.takhn.nauk. retsensent: KMTITET, U.S., 4otsontj, retsensent; MCHM, 0,,P,. dots*nt, kand.tokhnonsuke, retsensentl LXMW. N.L. doteent, rationsent: MMOV, O.Y., dotsent, retsensentl GRIGMIM* TeWoo Insho-Coodesist. rateensent; PUNW, AsYsi lush,-goodesistg retsensentl BILIXOT. Ye.1r,. dotsent, rede: MOKIWO, P.I., red.lid-va: RMNOTA, T.T., takhn.red. (Osodetla operations In the design and construction of hydraulic structures] Osodesicheskle raboty pri prooktirovenli I stroltellsOo 91drotekhnichaskikh soorushenlis Nook-wa, Isd-vo goodelit-rys 1960s 17) pt (MIRA 1389) (Hydraulic engineering) (auveying)  n.. kand.takhn.nauk NJILbles for laying out curves of narrow-~ (750=s) milroms' by IOA#8bch#gIov$ W4*hdomov. Reviewed br O.D.111mov, Tramp.strols 10 wo5tL61-62 W I .(U (KIRA6 1313) (411roads-CurToo and turnouter begloTe I*A* (ndosov. 4)  ILIMT, O.D.,kand.takhmnauk Freclelon of *hort-raW lovolovg, Trudy MIIQAIK no*4001-0 160. (MIRA 13311) 1. Kafodra prikladmoy goodesil Moskovskogo Instituta Insbensrov goodesti, serofotos*y*Wd I Wtografito  01~D-, kandotokhnaauk Warged vesssions of the Bnartment of Applied Geodesy of ttw Mosoov lotituts for 14ginews In Geodesy, Atrial Photogsphy, end Oartogrsphy. 12rudy NIMAZZ no.41sq5-0 160.- (NINA 13 t2l) (Ow"T'ins)  S/53Y60/000/041/005/005 D034 D113 AUTHORs Klimov, O.D.# Candidate of Technical Sciences TITLEs Enlarged sessions of the Department of Applied Geodesy of the MIIGAiK SOURCEI Moscow. Institut inxhon*rov goodexii, aerofotoewyeaki I kartografii.Trudyt no- 41, 1960, 95-96 TEXTs During the 1958-1959 academic year# three enlarged sessions more hold at the Department of Applied Geodesy of the MlIOAiK for the purpose of read- ing and discussing reports on the development of geodetical engineering. At the first session, hold in November 1958, Docent G.P. Levchuk lectured an "Highly-accurats geodetical work duiing the installation and checking of ex- tensive automatic lines". gis lecture was based on scientific research cos- pleted at the Department of Applied Geodesy together with the Department of Geodesy, and conducted during the installation of the guiding rails of a conveyor for grinding and polishing glass at Gust-Ibrustalinyy and Saratov. The lecture dealt with the checking and mounting of the guiding railesand a Card 112  S/557/60/000/041/005/005 Enlarged sessions of the 404 D034~D113 new type of microlevelouporior to earlier models in that it afforded better protection against temperature changes and was equipped with an Indicator, etc. Data was also presented an the sinking of the conveyor foundations in both of the abovementioned towns# During the second session, engineer VA* Staroduboy, representing industry, reported on *Laying out of a structural not, using methods of short-base parallactic polygonometry and geodetic , quadrilaterals without diagonals". By combining both of the above methods the first of which was developed.by Professor A.S. Filonenkop and the second by I*V. Zubritsklyt expenditure was reduced by three times. During the third aesalon, P.1 brayt, Senior Scientific Co-worker of the N11 oanovaniy I fundamentov iNII of Substructures and Foundations) reported on "Measurements of deformations of hydropower structures In Czechoslovakia". The lecture dealt mainly with instrumentation and methods applied for detecting structur- &I cracks and tilts* In conclusion, the author comments on the success achieved in this first attempt to combine scientific theory with Industrial practice. kSSOCIATIONs Moskovskiy institut inshenerov goodezii, aerofotos"Yeaki I kartogratii (Moscow Institute of Geodesy, Aerial PhotogTsphy and Cartography. Card 2/2  0 Vop dotamt kmd*tddmonmmk ibis# th# "olplo:of autoodUlmtion in SWOUS "trctmima iwd'ooodotb ImUsafetso IffeTnAlabobouvol POW &*rcfo nO#41 27-37 162* (MM 16s2) 1, Mmkovskly imtitut Inamwoy goodoaU# aomfotoolynki i kartopam.  'ACC No, AP6035832 ~A, A4) _SOUAdt _66DIfi-VA/6 _WX 61-ObOd ~0=5;0_3_1/0_037 INVM-4TOR: Bliznyukp us K.;_K11Mov&_.0 -V,a Libman B, Ya.; Troitaklyp V'. H.; nokhlov, P. S.) Dotsevo Os V.; Kaiutskiy,'L. A.; Baym A. Lj ! Verhainin, P. V,; Mandellbaum, Ys. A*j Varshavsklyp 8, L,; Heignikovp N. No Oft none T:ETLE: Preparation of derivatives of trim and tatraphosphorio acids* Class 12, No, 187019 SOURCE: Izobrotenlya.. promyshlennyye obraztey, tovarnyye anaki,0 no, 20, 1966, 37 TOPXC TAGS*. 9h.Md Q -M, 1 1441 W I alkyl trithiophosphate,, alkyl tetrathiojhosp~it_ I "r" 61 , 4*,*) %. rI *.tu "4.% ABSTRACT: 1. the proposed method for the preparation of derivatives of tri- &n4 tetrathlophosphoric acids of the gessral formu- la$  R,AP60391:032 (where R IS a lower alkylg 11 to & substituted alkyl or aryl, and X to 0 or S)p physiolosLeaIL7 attiVe compounds with low toxicity to mammals are obtained by tre&tIUS dl- alkyl,trithlooblorophosphates with alcohols* mareaptanst or thlophanols In organic Solvents in the presence of RCI acceptors$ Preferably.tertlary sulasof lips] EWA-50; CBS NO- 141 S1UB CODEs 07/ SUBM DATEs'2QW65 card2/2  GORGHWAt T*A.; Ea Laoducing ability In mole-poar hytrIds, Blultumucho-tokhe informoTM noslill-12 156. (Xim 22: 1) (Roduotiont Chalmd) (Apple brooding) (Pew brooding)  h'. 4 / M, 0 V F. __D. ,.=R/Gonoral BioloGy. aonotice B Abe Jour Bet lhur-sioli$ No US 1958# MU? Author i filimov Inst -- Con fir-al Gonatics Laboratory imoni I. V. Hichurin Titlo t I'lintor Rasistanoo of lomo Znzynae Orig ~`ub DyUl. n-auchno-tokhn. inform Teontr. -,jnat. la- ' bor. 1-., Ij V, %liohurina, 1957, vy-o. 3, 50-55 Abstr-ct The author dotarminad tho poroxidaso Activity in avolo-poar hybrids and ontAblishod that ro- poltud orossinS of Via first pniration of hybrids,with southorn nears loads to a sozo- whAt.docreawj in -iintar risistanco of tho so- cond gonarati6n, incrossing at tbo samo time paroxidasa -activity, The first xnvi tho vigota- tive gonarations Are hiShly wintor risistant and no difforance botwoon thom miy ba observid Card 1/ 2  I IMO Vi r, -1~' AUTHORSt belyayovskly, N.A.9 Xllmov,.f.l. 132-58-4-16/17 r1TL9% Conference on the Generalization of 9xp*rIences-GaIned in Conduating Geological Surveying and Prospecting (flabocheye soveshchonlys po obobshchentyu opyta provedeniya geologi- cheskoy Oylakl I poiskov) kEH100CALt hasvedka.i.0khrana Nsdr# 1958#Aor 4# pp 61-b3 kUjSR) ABSTRACTi Called by the Ministry of Geology and Conservation of Mineral Resources, this conference was hold In Leningrad from 25 Yebruary to 1 March 1950. More than 220 delegates from various organivations of the Ministry, the USSR Academy of Sciences and the vuses took part In the conference. Approved were plans for geological surveying projects and geophysical regional works elaborated by the Xinistry. The necessity of Improving the qualifications of the geologists-surveyore and prospectors was brought to attention. A330CIATIONs Mintaterstvo goologii I okhrany nedr SSSR (USSR Ministry of Geology and Conservation of Mineral itesources) AVAILABLEs Library of Congress Card 1/1 1, Geological surveying-USSR 2. Geology-USSR  VERUHCHAGIN, V.N.1 !VANOVp Tu.A.; NUATEVSIM# N.Aop g2ave rode; AU21Mt A.Lp redtl M1OCXt1Mf A.V,p red.; ZATTSZVp LLP red, I DOVp P.I. del XRMO'V,* Isle# red,; LAXXINj AA*p rod*l OCmj V,N,,, rod.; 7ROMIKOVA, X.Tass red, lsd.,uj 11 "A~NWA9 T**S*$ tekbno red, (Instruction for compluiot aW preparing for publication a geological map at a scale of 11501000) pupplement to Us instruction for orgazising and conducting geological surveys at a scale of ls5OtOOO and 3.t25.,0003 Instruktaila po mosUv2o- ni:iu L p*lgotovke k isdoadiu pologlabeskoi karty woobtata li5O 0001 dopolnenle k instruktaii po organizataii i pmiriod- stvu goologasOemobEgU rabot masshtaba lt5O 000 1 1t25 000. Moskva# Goageo2tokhWats 1962, 41 pe (MIRA l5t6) Is Russia (1923. U.S,S.R,,) Ministerstyo po2ogli i okhraW nodr.  SHMERS 1,F,I- Lt !L'P-K- Modified pulmonmT circulation following the Introduction of adronalIne and vasopressin as a factor in the development of pulsonartedems. Pat. fislol. I skop, terap, 8 no.4tlg-23 Jl-Ag 164. (MIRA l8s2) 1. Laboratorlys. fislologil "getatlynoy nerynoy slots" I nervnoy trofiki (Zsv,- prof. A.V. Tonklkh) I kabinet "nt- gsnodispostiki (say, P,K, KUWT) lnstltuta fisiologil Imeni Pavlova AN SSSRO Leningrad.  POPOV, M.M. IKMOV I P. X. Uso of anglocardlography in physiological *xWimentm. Blul. okep. b1ol-i md, 30 no.IVIOS-210 D 160o (KIRA 34il) 1. Is toril, no fisiologich"kikh problem (say. - akadendk KI.M.-Bykov d*G*aI*d)y)"IrA~titUtA fisiologii dmni IsP.Pavlova Akadeeii nauk SWR VA. ftrj%. ZOGMIOGRAPHT)  'L#-X.N.j ~#2 ~.kwA.md.mauk ?"W"s of tM own* of pmumonia during tho innusam opidmic of 1959. Boys mode 24 not 101" 0 160, (MIRA 13 t22) I* Is U"psytiaMokogo L rentgamlogiabookogo ot4olailya - polikliniki I laniagmdakogo mdiUijwkogo inatituta (Slamy vrach - kand,,abdo navk A,,M, Sbukhtimat nauohmy ruko"ditell - doktor md. muk %.I. Tolubsym). (FNMNIA) (Immau)  KLIMCV, P.K.t POPM, N.M.1 SOLWIM# H.A. Motor funation of the p1l bladder In intraysnous cholegmpby. Trudy Inst, fisiol, 9192-86 160. (MIM 2413) 1q thboratoriya navrofisiologichaskikh problem (saveduyushchiy - X;14.BYkoy [docessed)) i laboratoriya fisiologii pishchevw4miya (saveduyushohiy - M.SolavOyev) Institute fisiologii in.I.P.Pavlovao ,(CALL BIA MI-MIOGRLMY)  KLIMOVP Pox.) POPMf memo Motor *hanges in the pstraintestinal. traot fonowing trwimatio damage to the oistooartlaular apparatus (radiographia investisation). Trudy Inst, fisioL 91227-231 160. (MM Us 3) is laborstorila na"wrof siologichaskikh problem (sayoduyusbahiy - K.M.Bykov) wtituts f siologii in, I'P.Pavlova. (AZIUMITIM A)UT04Y).WOUM AND MWLIRS) DIGESTIVE CMAH&QUDIODUM)  K-LIKOT P.K.1 PGMp N.M.; SOLOVITWv CA, Motor funotion of the gan bladder In &auto radiation gifts$& (radiograp1do Investigation)* Trudy last, fisiol, 9s232-2* !60. (Mlft 3Asl) 1q laboratorlys nevroflsiologichookikh problem (savedurisbohLy - KIM.Pykov (de#asod)) I Laborstcr#a fislologil pishobevaronlya (OaveduyushchiY - A.Y.BolowlywO Instituta fistologii In. I.P;Pavlwm. (G= 100MM) (UDIATION BICE=)  POPM M. M. KLDVV P, 9, X-my kymgraphy a methad for tho pk-ftiological study of the gantrointestiml traot. Biul. okop. blol. i mod. 3(1.0.531 U0.38 120-123 Mr 162. (MM 1514) 10 Is laborstorii nqyrofialologichss~dkh uroblv% (sav. - skadomik KIM.Bykov (doce"ad)) lutituts, fiziologii imoni I.P.Pavlon (dir. alldemik KABYkov Ldeamsed)) AN SMO Wskva. PrWstavlersa Wcademikom V H.Chernigmakim. ismuPH) (ALDUTARY CAIWR&DIOMAPHT)  39192 S/241,110007/003/003/003 AUTHOR: Klimov. P. K. 1015/1215 TITLE: Functional changes in the lymphatic system following acute radiation sickness together with osteo-articular injuries PERIODICAL: Meditsinskays radiologiya, v. 7, no. 5. M. 43-48 TEXT; Experiments were carrW out in winter time on male. sexually mature rabbits weighing 2-2.5 kg. The methods or study or lymph circulation, the technique of traumatizing the tarsal bone of the posterior extremity and the dosage of irradiation are such as to show that irradiation together with osteo-atticular traumata brought about marked lympathic changes: dystonis of lymph vessels. impaired permeability. and retarded passage or contrast lymph. The disturbances in the lymph flow atte also more marked in the combined lesions (radiation sickness together with trauma). than in trauma or radiation sickness alone. There is I figurt. ASSOCIATION: Laborstoriya neyroliziologicheskikh problem (zav.-akad. K. M. Bykov (deceased) Ins- titute fiziologil Imeni 1. P. Pavlova AN SSSR (Laboratory of nevrophysiological pfoblems, Dir.-Academician K. M. Bykov (deceased). Institute of Physiology imeni 1. P. Pavlov. AS USSR) SUBMITTED: Slay S. 1961 Card III  X-MOVI PAO runational changes In the lymphatic system in acute radiation sickness in combination with traumatic lesions of the ostsoarticular apparatus. Med,rad, no,545-48 162. (MM 15:8) L Is laboratoril noMfislologlebeakiM problem (save - akad, K1H* Bykov (deceasefl) Inatituta fisiologii Ineni I.P. Pavlova AN SWRO LWUTICS) (MMATION SICMM) NES-WOUNW AND INJURM) N  hnotional obanges in Vw pstrointestinal tract in patients vith peptic ulcer of the stomach and duodenal bulb after Ingestion of cabbage juice (X-ray study). Torap.arkb. 33 no.8s28-32 161. (mm 1511) 1. Is laboratorU fisiologU pishchavareMp (sav. - prof. A.V. Solovspw) Ustituta, fisiologii Imea I.P. Ptylaft AN MR i polMiniki I ladngradekogo meditsinskogo institute, PEPTIC U=) (ALIXMOAFJ CANAL--RAMOGRAM) CTAWA JUICSS-PHYSIOLOGICAL I"