SCIENTIFIC ABSTRACT VOSKRESENSKIY, V.A. - VOSKRESENSKIY, V.V.

VOSKRESENSIIIY,- V.A.; SHAKIRZYANOVA, S.S. Increased strencth of polvvinyl chloride in the presence of a small a.moitnt of plasticizern added. Izv.vys.ucheb.znv.;khIMJ klilm.tekh. 6 no.41643-646 163. (WRA 17:2) 1. Kazanskiy inzhenerno-stroitellnyy institut. Kafedra, khimii i labora- toriya modifikataii polimerov Instituta. organicheskoy khimii AN SSSR.  YOSKRESENSKIY, V.A.; ATAMANOVA, V.V.; BYLIYEV, V.A. Effect of low-moldcular weight liquids on nome polymeric compatible systems. Zhur.prikl.khim. 37 no.1:145-149 Ja 164. (FJRA 17:2) i; 7~777777777  VOSKRESEN,SKIY, V.A.; KOZLOV,, L.M...; KARASEVA, M.V. Some nev types of plasticizers for polyvinyl chloride. Zhur,prikl.- khim. 36 no.6:1300-1303 Je 463, (WIA l6s8) (Vinyl compound polymers) (Plasticizers)  ALEYNIKOV, A.I.; BAKLUSHIN, I,L.,- VEKSINO I.N.; VOS, SENSKIY,,,Y.A.; W_ ~ GONCHAROV., O.M.; LYULERKOV, V.I.; SHIROKOV, V.N. Investigating the throw mechanism of a charging machine on ferroalloy furnaces. Izv. vys. ucheb. zav.; chern. met. 6 no.6:204-208 163. (MIRA 16s8) 1. Sibirskiy metallurgicheskiy institut. (Metallurgical furnaces-Equipment and supplies)  2 AUT H ORS iVockresenukiv 7 A. f Eos I av 11. M. t Karasova_, M. V. TVLEs Some nev pLagiol;Irs for SWR=Et '"'burnal prikladnoy kbinit, v. 36, no. 6, 1963, 1500-1305 TOP1-' TAGGt polyv"ylchloride, plasticizer, nitrocampounds ABSrRACTIs The ertudiee of a plasticizer'a effect on polyvinylehloride of some nitrocompounds and their derivatives show that !t does not- depend equally on the cho-mical etriicture of the plaqtlicizerp, and occars only Fifter reach'Ing & cha:.r. 1 eni-'-',. -, ELrd tl'.at Eii ng cllz~-rs nave a ar-al " cns,. stency w'. tr T c - y-m e rtray ~,7e stiff fi.--a and have az-~ incIlInation for migration to the surface dur1mg storaETe and explol",ation. It has also ocen diown that a plasti- cizer of linearitructure w-ith insignific&nt sidt furcationa and plasticizer of the furcative structure with long side chains combine well with polj-Tinylohlorlde, the7 d,-r.'t havc* a tendency t.-vards mi~~attor. durIng storage and &ive maximum ~-'P-;;t I T" -f~act vi th sufficl ent ly tlgt etabi 1.1, _~Y tavarda water and gae,?1ine. ~-r't na-I k sa, "I- Card  VOSKI'lls'"JISKIY, V, A, VO-SM-ISENSKlY, V. A.-I'llistory of the beveloprRrit of A,-oric.-C-tric Pl~!51~..ns in Runsia and Ule Min Hirt-er Ee;l,-!catic-,n Droer of' Lenin Aviation Tn,,t inomil Sirrr) 0,6z'i,~n1kirize. (DIsrertatiorl for the I)cj.-j,rjc, of Crindirlite In Technical Science) 50 Knizhanky letopist No 21 lgr6  Ny d  VOSKREBBITSKIYt V.A. engine performance In conditions of the 34treme North. Kolyma 21 no.2:32-34 7 139. (KIRL 12:7) IsGornoyeupravlaniya Magadanskogo eovnarkhoza, (Russia, Northern--Gas and oil engines)  ~ - ~,"w * . '., , .. I,- -i ~ , - , . -- I I - - r"', '. z. - " -, ;'' , - - 1, Z -, - -, . " . -, ~ -ill, . - - '-_11 . _ , , - ':,~: ", - 1~ ~,~ - 6, IV ~ -, . ,. - . V,~ ~ 4 'k" - i~s, : :,: ~ ~ : . - -, -~Ii ~ i, , ~11,- - ~~ , ", . - - . "I __;:Q   VOSXMMISKIY, Y.F., inzh. Analyzing damages to line bar inBulators in the German Democratic Republic. ergokhoz. za rub. no.5-.47 5-0 159. (KmA 13:2) termanyg Ust-Electrio inaulatore-and insulation)  VOMVIZIO-13M, V. M. VOOVIMENSKIYj V. Yj. -- "Maom Transform4tion In Alloyo and Asometo of RecryntaUlzation Omnnoct,3d wM, The:-,,3." Min Ifigher Eduoatinn U3SR. Fioscow Aviation Tmchnologtcal Inst. yy)--c-nw, 1955. (Dis3irtation for the De,-vree of Candidate in TecLnical Sciences) Sl: Knizhnaya Jetopis', 1956, pp 102-122, 124  VOSMESENSKIY, V.D., Engineer "How to Peonir Cracked, Heavy Mqchine Tool 13odp." Stanki I Instrument Vol. 15, No. 1-2, 19114. BR 52059019  VOSEMBSENSKlY, V. D. , Engineer BE-52059019  _. vOSKRZ4NSKIY,_V.F* if Renewing and checking puncture-type cutouts for transformers. Nnergetlk 4 no,10:38 0 156. KU 9; 11) (Ilectric cutouts) I  VOSEUSINSKIY, V.F., inzhener. Method of checking socket contact spring2 of the YM-133 2witch. Blek.sta#26 no*1203 D 153. (MA 9:4) (Blactric switchgear)  ~VOSKRWM- rY, Y.F., inzb. .1 . 4. In reference to Engineer I.G. Koroviakov's article. Blek.sta. 29 no,5:73-74 M7 158. (JURL 12:3) (Electric circuit breakers)  VOSKF4CSZMI'f, V.7., inzhener. Eliminating defects of VXG-133 circuit breaker insulators. Ilek. eta. 26 no.3:58 Mr 155. (MM 8:2) (Electric circuit breakers) (Bleatric insulators and insu- lation)  TOSppjWMjj,_Yf7.t insh, Periodicity of general overhaule of TUG-133 cutout$ located at 21ne junctions. Inergotik 8 n0-7826-27 ii 060.1 (Blectrio cutout*) (MIU 1318)  TOSMSZNSKIIL YLL, lush. I KOROSKOVA, T.P., Insh.; UTMN, I.S., insh.; PITROV, T.M., lush. Review o f F.D. DoroWnIs artiole "Are line separators nooemsaz7?* Ilek.sta- 31 noo3:91-93 MY 060. (NM 13:8) (Blectric power distribution) (Ilectric switchgear)  4~ < L~ I v VOSMSEITSKIT, V.F., inzh. Using moist insulating oil in certain cages. Energetik 5 no.9:22 '57. (Electric switchgear) (MIRA 10:10)  6 11,11re e~s "I'VIIIN S/K / Y. / '47- VVjKRME%SXIY, 'V.F. .,-Inzhener. L Joining copper lesda with alumitum busbars. J1 157, (Electric contsictors) Slek.sta.28 no.7:91-92 (MLIPA 10.-9)  VOSKMENSKIY, V.F., inzhener. Experience using oil-filled transformer leads. Zlek.sta. 28 no.8:75 Ag 157. (MIRA 10:10) (Electric transformers)  OSKqf--SEN-~Ki~, V-F. Subject : USSR/Electricity AID P - 1533 Card 1/1 Pub. 26 - 29/36 Author Voskresenskiyp V. F., Eng. Title Elimination of imperfections of insulators of circuit- breakers of the VMG-133 type Periodical Elek. sta.. 3, 58, Mr 1955 Abstract The author describes the faults occuring in the above circuit-breakers as caused by imperfections in the structure of the insulators. Institution: None Submitted : No date  VOSKMIMITs T,r., inzhener, Investigation of SP-110 stidk: insulators# Bleko sta. 27 no.lo.-38-39 o 56. (MIRA 9: 12) (Ilectric insulators and inxulation)  VOSKIMSINUI!, V.7., inshener. ---- Lead-in defoots of transformers built by the VEX firm. Inergetik 3 no.3*26 Mr 155. (nU 8:2) illeotrio transformers)  1 , VO.-) YDC"'J:~' NIJKly, 7, ,,, 2. ussit (6oo) 4, Electric Croles 7. Testing czible itiqul&tlon. A--b. aner6;. 2 no. 10 , 1952 9. Monthly List of Russian Accessions, Library of Congress, J"uLxy 1953. Unclassified.  Subject card 1/1 Authors Title USSR/Electricity AID P - 2927 Pub. 26 - 24/32 Bazhanov, S. A. and V. F. Voskresenokiy, Engs. Device for measuremenf-'oFf"t"Mem angle of d'-1electric losses Periodical Elek. sta.. 7. 56-57, J1 1955 Abstract The authors analyze the design of the different measuring devices built according to "GOST" standard specifications. Four diagrams illustrate the expla- nation. Institution None Submitted No date  C-, f~D AID P 4067 Subject USSR/Power Card 1/1 Pub. 26 - 25/33 Author Voskresenskiy, V. F., Eng. Title Controlling springs in the winding box of the VM-133 circuit breaker. Periodical : Elek. sta., 12, 53, 1955 Abstract : A short article on over heating of springs In circuit breakers and on their possible control. Institution : None Submitted : No date  ID AID F 1940 Subject USSR/Electricity Card 1/1 Pub. 29 - 20/31 Author Voskresenskiy, V. F., Eng. Title I nrerxcfsw~ trn Thneel W1 leu 4a Wd. s-e "o f t h e V E M t r a n a f o r m e r s Periodical : Energetik, 3. 26, Mr 1955 Abstract : The author refers to a note published in this journal No.5, 1954 concerning some deficiencies of trans- formers produced by the VEM plant. He points out a similar fault, explains its origin, and recommends some preventive measures. Institution: None Submitted : No date  VOSKRESENSKIYj V. F. "Testing of winding insulation of electric machinery)" (impulse tests are being applied for rotary machinery. Some of the problems in this field are still not clarified). Industrial Powero 7th edition, 1952.  VOSKRESEKSKIY, V. F. Vosstanovlenle Izoliataii I remont, vysokovol't kh vvodov fRecorditicnIrg, insulation and repair of high-voltage lead-ins:7. Ebskva Goserergoizdat, 1952. 74 P. SO: Monthly List of Russian Accessions Vol. 6 No. 9 Deoember 1953  Electric !!otors Testinr v of the ro;l in-mulation of lele'ric motors. encr~., 9, Pjvient5:te tentin, monthly List of Rucsian Accessions, LD)rary of Gonr,resv, Octuobar 19152, 1.71GLAf:I'IF:n-  Inductors Insulation, Electric 7ob 49 "Defect In T"o PNB-35 Inductors," V. F. Voskrevenskiy, X. P. Tyagunor, Ingineere)1/3 P "Zbk Stants" No 2 Bofors to iusulation testings, conducted by high- voltage laboratories, during which subject in- ductors vere rejected. Discussiss various do- facto and empbasizes necessity of improrring con- struotion. "B 41A9T18  Reconditionin- of Insulation cnd RepUr of ";i---h Voltaile Wuhlw!s (Voostanovlerdve !z- olyatnii i remont v.1sokorolltynk-li 1,rvodov') 'jooenorgoLl..'t, 19~~2) YI: JIL.-~e3. This book --'cscribc3 various tq.es of [d--,h-voltaCo bubhings.. Special feziturC3, shortcomirv,s, and various nspects of repair work are disc~Xsed, inrludiji,', repair of the porcelain of linin.-s, restoration of the conducting covering) reinforcement of procelain, varnishing of bakolite parts, and refillin,.- buohin-s irith narAic. The L U book also describes nethods- for restoration of the insulating properLiez of busilLnz by drying, disassembly, and asser-,bly durir.,, repairs; the e1inination of def,-,cto 1.n leads; tests during repair3; and restoration of InsulatiriC parts of apparatur, (in-ucr- ior insulation of circuit breakers; -arts of Deion CrIdL;, and ot'hers). The book is intended for wor?nen at electrical repair sl.-Lops and laboratories of power installations who are en-a.-.-ed in rep,7ir and reconditionin" of ins-'LL-ttion. SO: W-30262  Eloatric Leakage Error in measuring leakage. Rab. energ., 2, No. 7, 1952. 9. Monthly List 2f Russian Accessions, Library of Congress, October 1951 Unclassified. . I -- A  UNR/Eie etricity Motors Jul- 2 "Preventive Testing of Inter-Turn Insulation of Elde-tric Motors," Engr V.- F.'Voskreseriskly Prom Energet, No 7, pp 14-16 Discusses principles of pulse testing as applied. to inter-turn insulation of motors. Advocates fur- ther research on pulse testing to resolve outstand- :ing problems and further industrial adoption of it .to clarify advantages of different procedures. Men- ti'ons plant use of pulse testing by elec industry and pcrjer - s~stemb incluaing Mosenereo, Sverdlovenergo, as well as production of instrument SM-1, designed at VEI, by elea industry'. 248T51  V;OS =SNSKIY-,V-.F.p inth. ,~-K C~angeB in "Electric tranisformer3" of the new "Repulations for operating electric power plants and electric networks." Enerretik 9 no.7,30-31 JI '61. (MIRA 14:9) (Electric transformers)  VOSKRESENSKIY. V.F., inzh. Operation of el6atric paver Bystem under oolled conditlom. Elek, eta. 32 no*4:90-91 AP 161, e , OUM 1-4:7) (Electric power 4jetribution)  5DJEK/Y' V, 67-1-18/20 AUTHORt Voskrosenskiy, V. G. , Engineer, Consultant TITLE: Answen to Letters to the Editor (Otvety chitatelyan) To Comrade V. N. 011khovik; Shchekino, Tulz, Oblast Nov. 0l'*,hovik4V.N.R,.jhchekino, Tul'skaya obl.) PERIODICALs Kislorod, 1959, , N. 1, P_:~- 45 - 45 (USSR) ABSTRACT: Question: Why does a better self-purification take place under conditions of wallar differenceg of te-iperatlarc at the ,cold ends of th3 re.~;enerator ? Answeri '-'lie air in the re-snerator is cooled by *oot blastinal with it -.iat3r and carbon dioxide, which deposit on the co- verin,3, are separated. 1--ediately before the beCirnin,-, of tbe cold blastin,; thr) te.,.ipcra.t,,irn of tho re~;enerator cover- inC in alrioit the same --A3 tho air t,)mpornttivi at the end of the hot blait. 'The nearer the tomperature of the baCkflOW t;as is to the te-irperature of the coverinj the more intensely the sublimation of the components take3 place. 1,1oreover, the hi,rher tbis te:-iperature ic, the smaller becOM03 t1-e difference Card 1/2 of~tea-;~eratiire bet-ap-en forvard- ond bac%flow current at the  67-1 -1 -3/20 Answeisto Letters to the Editor. To Comrade V. 11. Ollkhovik; Shc~c':ino, Tula District cold end of the reSenerator. As at a smaller difference of tomue rat tire a at the cold end cf thev-~,,,enerator the deposits pre;ir4tatcd there are ta',er away nore thorou~;hly by the backfiow current the 113elf nuri f i cation" canin riorn tliorouf:h. The conovItant h.~rp JircO3 hia readorla attention to thf,, faQt that thJo -.,n'-,y rofero to kleposit3 .)f humidity and CO The deposits of cry3talline nature*havc to be exnlained 11~ different ruethods t-!d it is recorimc-nded to the reader to take mnro 4etailpd data on this fr-.:-, t:ic~ book I'App.-ratu,., azie, 111achincr,, of Ox.-~-,cn Planta" by the All Union Scicntific Rcucarch inStitUtO fi~r 0-1"";en 'L-Whine Buil-dim- ~-.n(' from thc vror'~-s by V. P. G-JtOV "-0117,13tal bl, ,t-*.on cf iL&.ticr. and Su Air Co,-,Torc-nt--c-7'7p,;,-I;--Ctures) in Recerel"t-tors" and by S. Ya. Gcrrh "Lcy, Teu.rexat--=3 CoolinCII. AVAILABMi Library of Con,,,ress 1. Air-Purification Card 2/2  VOSK~XSENSKIY, V.F. --------- -- Necessity for conducting hydraulic tests of the tanks of VVN-110 air-filled switches. Energetik 11 no.5143 W 163. (MIRA 16:7) (Electric switchgear-Testing)  3/oai/62/000/018/026/059 B-1 77/B1 86 AUTHORSt Gorokhov, V. 5&9 dalovt B. S., Zhuravleva; I. N., -Vo:3'Kresen- i G TITLE% .Air-separation plant SP-5(BR-5) designed by VNIIKIMAUh PERIODICALt ,Referativnyy zhurnal'. nimiya,' no: 18, 1962, 339f abstrnet 18K67 (Tr. Vses. ni.*-i. in-ta kislorodn. mashinostr., no. 4, 1961, 3.- 25) TEXTs A flow diaGram is given, together %-Ath'a description of the sub- 3 assemblies, of the BR-5 air-sep3ration plant, having an outPut'of 5000 in 02 per hour designed to produce low-purity. and high-purity oxygen with extraction of a krypton concentra.te. The separating unit works on t1le principle of a single low pre3zure, vaith expansion of part of the air in a turbo-e;cpander from vhich it iz led into th~ central section of the upper column. The tripleblast principle prevents the rc'g~nerators freezing. The plant i*b cquipped with remote-control and telemete(ring instruments. [Abstrncter's notet Complete trannlation 'Card 1/1  GOROIG.OVJI V.S. P inzh.; SALOV, B,S,, ir-zh.; ZHURAVIZIA, inzh,; . BR-5*air separation apparatus of the All-Union Scientific Research Institute of Oxygen Apparatus and Machinery. Trudy VNLIMIASH no.4,-,3..2r, 761. (MIRA 15:1) (Gases--Separation)   'it 0"f-f-tqjIqI #I A jo~ 6166 ~01160 ofs fIftf"if AW "C*ffl it mail I Appotolue for Isivelift up Abivull wis1#1161 9mch So , 1 19A 4 f P ? 1 V 4 H 10 0m frWit- . is" . 41% h 1 , , :0 00 t A RITALLIONSICA1, tIVINA1649 CLASSOKATICIN 14" all. I I W -is l,- 4 At V v 11- U 0 AV 041 an W-4-mult ism No a I so AA I tow@ oviormodso )I 0 0 0 0 0 0 0 0 0 ejo 0 0 0 0 0 0 0 0.0 0 0 0 0 0 0 0 0 o 00 1.00 .00 see .00 400 400 lie 0 boo too  . VOSKRESNIISKIY, V.I.; YAYZULLIN, F.P. , Some metW~of electrolrtic deposition of metals on plastic substances. Uch.sap.Kaz.un. 116 no*5:69-72 '56. (MLRA 10:4) le Kafedra fizicheakoy khimii. (Electroplating)  I V 411 5 /< ~? P 5 " -115.,~< ~j 'Y' ~, ~) VoSKRASEN3KIY, V. I. (Prof.) method," "Concerning the tracheotovq in anirrals according to Prof. V. K. Voskresenskiyls SO: Veterin iYa 30; (9). Sep 53 Veterinarian, Krannoslobodsk Zooveterinary Technical School, Mordovian ASSR  VC.SKRI- M_ ,.e,,Kly V. K. Professor, Doctor of VeWrinary Sciences, 'oowterinary Institute, Ceorglan 55R. Trach--,otcpy withr-ut the c&mula. Source: Veterinariya; 25; 6; June 1~%8; uncl TABCON 0 0 0 0 0 0 0 0 0 0 9 0 0 9 0 0 0,  0t 0* *0.: *0 4 00 'Of a. L 4&"ALLWICAL UfCRATM CLAIWV*TMW 1"m livi-11111* If" MAT 1.105, oil, at; inuinfial VIASSI 4" 0" all I of a 0 a 9 a U w At 10 al; t"t 4, 0MOR-18- o i4*CS-444 e-0-0-0-0-ce 0 0 0. u 0- 0 0 C.060 a 0 0 0 000 0004 Osseo 0 I dt- 1~*a - 0-4  " I I! I I I , 3 1 * A w 7 . - ..' I 1 0 71 ". A L, L 0 0 It 44 -11 N 'A 1 - - 10 4 . 0 0 00 0 0 MIsv@lL,.O C I*anog dstoses. V. K. VWA - 2of !bo KdatformAtim at " ~ _,p _kd t T -06 0 , ~ "y4taffela 4iftUt 7 -00 of ths Wto W Shwmhato rock ."ll doposild M A X1 0 Uthalow ised mlostolov of As Kalam MOO l ottsiqf.tiko Ns Nwo N. Awogilef4o aml Ivillf l -00 0 Moo, W. Gohy m4to I'mm. Afohmfow 3. N-,, :1. 140 ivo. l. loills. owl . l gild it 111111koodlifir 44 'M gwlrtrlkl.% lar litcludmi. M. llo.-h 00 0 ;00 so 600 l 1 3FOO 16 rmot '190 '100 ., 41. ti 8 IffroAlkst tiattlottatico ale 0 #m 41 4A4 0 0 e 0 9 9 0 0 0 0 0 00 fee* 0 0 9 0 0 0 0 0 0 0 0 0 0 * 0 0 *.%o 0 0 0 0 0 0 0 0  , . . i~# 25147. T-03IMSENSMY-, V. V. i I-MR-T, A& Imhenero-GeoloZicheskie uslaviya llckotorykh Uchastkov poyr"v r. "Iny 11 SO,-* A Molotova. Uchon-Zaplold (':olotovskly Cos. UN-T Im. Gorbkogo), T. iv, Vyp. 4, s 89-103. -- Bibliogr: US 1,,azv. SO: Istopis I Zhu.-ml Statey, No. .10, lllo3cow, 1,048  VOSFM SMKIY, V. F. 25408. VOSK-r-5-1:11MY, 7, K., K-MMS-N, A. M. i IRUCIVII, I. V, G lina der. Ustb-Tui Dobryanskogo rayona Holotovskoy oblasti. Uchen-Za-is~m (Molotovskiy Gas. UN-T imi. Gorbko-,-O), T. r1. yyp. 4, 1948, s 105-U.-- Bibliogr: 6 Nazv. SO: T8topis' Zhurmal Stritey, No. 30, lloocow, .11~',48  U 4;4 tjA jilt nAn It bjen js.vnm-nll JIB J45 Is At is it v .A -A. _P_ 9 K-S __L_ 9--L P-404--ps.1Z A C404#j DO Itit-', ~e 0 ',A oo is 1 46 '00 is .40 * 0 0 V, U,-. Vogovism" and T. K. Dolir Waing - PM. In it, 0 M. Resserch Food led. (LenuWarl) 2. Ko. 2, 23 a I Dobminina. 1144. 440 !..-The tewithrily of o6ybmn oil 00 00 00 r 41gul.-Saybeen milk 6 niside by ~klag 2 ht*_ and to Oxidation and its liquid con"istrist-Y at Cadinary, tgmpft~ -00 n y "ou tbor ' lil hdyin4; looser Kinking gives Water fat are olistACICS to its successful u" in clsoculaite recipes; 00 IMM. . in cam. producd-1 so t )r% stable emulsisin. I tint theft diffik-ultiei crin lie overcome and the prw- *0 0 e0 A the material ousy be hulled fie wholetbeens. thormStIlY ftworteni" in Witter a kost I hr. tbtn coke from filleritts wylierin milk can tic used to vmd aid -0 0 d and him inchm9late monsi(. TrIoNwrnma4abylilcosi- 00 tkkuw with water and efflulisitLed M least 30 min. P$%- Vast TO 6 Substitute MG& ley 00 00 teita"tion is at so, lot 13 min. U. Soybean crew. I'll is I taken IMtIO1 and With '90 wc=*4tJo4 sunflower lisid. 31-4-boytmesin crimus can be ism-it by "t"OUS by -vrd oil. noth types ad product 1.40 911 Uty. 7-Irtbods of prrpa. use described the Witter content of the emulsions cc by ervereling The V, "=X, La. IN 7 ftiiylan -milk residue ca; 1,00 vallk; the Incirre-0 In tat contest may be Over 9-- be sweetened and 14wded with residues Iturn jagn (of Y 1 40 =the milk and 4-A!-t, In the crestm. Tbendarous ag ui&nuf. to make a juisd quality pk filling. e. g.. Ii.0 00 of wylions Is *A. In Iflo and Ht#O, va;aUk Trith ru IRI liatts rach n( apple -butiff rmlilue, sugar and soy 0 So istesim. unit reduces lichiling soln. Its N content Is no- tir" relIdur. VI. stm~ M44b4*4 fair $07. Certain; robebly the C- PIS- Talk$ in lics-Is of differ"t beanswithauW. I.A.0tsc.-gardandICA K tiks 0 , cwuupo. U1. S"b*m NWYMG and Unit "tivil- NJ. rill-A.-YU. Preanniag soybean-tan' restsiste ;ollr 00 00 V N. V. Novotel'tiov. 161d. 34-40--ou7bd- COUtAill use io saakfall cracksirv. 1. A. Otiertard and H. K. 00 oxidaw, pgotesse and ureaw. but tests dA not -TW tbt Kistle". Ibid W-413.-Dry r"Idue from "bean milk go 0 1 any lipase. The mUk must bit PutcurkW lit m.nul. is jult siable I* starsiv and Is sensitive to beet; A00 00 is 00 2 %?"IT108 min. to Inactivate the enlyined: at the U"W but with a final maliture, cuutcut of 12.9-13% It ha. ,ow -.00 Iscidity it may be t several days, but nut lonla be- kerving quatitko. It can also be pfesecv*4 with 3% &it. IF cause Of IMCIrrial ~Ia e. TV- UMLRS Brut Pev" C40M lactk- arid it circuni%tsm-ci wvrwit the added exist, .00 0- 0 I ~. trM soybean milk In "ti. awtst. i.S.'". K Itilisre F. Smith 400 I 0 00 100 f sic" 4- U is AT -0 is 0 P to it 49 K i1 41 9 of it ZI it (N4 &0 is "4 4 N a I is 44 .0 is a 1 1 0 0 0 0,0 0 0 0 0 0 0 4 0 0 0 a 0 a 0 4 0 0 0 0 o 0 0 0 0 0 0 0 0 0 0 6 0 0 0 0  TOSMSINSKITO V, me r-1 Accessory pancreas and its importance, Khirargila, Moskva no,7:69-70 July 1950, (CIAG 2011) l' Of the Surgical Faculty Staff (Head - Prof. V. M. Vosk- r:senskiy), Tomsk Medical Institute imeni V. M. Molotov (Direotor -- Prof. S. P. 11iodkevich).  VOSKFMBMKIYI T.H. Ligature of the iliac vein in spontaneous gangrene. TostAhir. 70 no.2:32-35 7 050. (CIXL 19:3) 1. Head of Department of Yaculty Surgery, Tomsk Medical Institute imeni V.H.Holotov  V. M. 2, uM (600) 4, Medicine 7. Acute pancreatitirij hoskvaj, Medgiz; 1951. 9. Monthly List of Russian Accessions, Library of Congress, 953. Unclassified.  vWMEnXTY-1 V. it. Heart - lJounds and Injuries Remote results in sergery of gunshot wounds of the heart.,, Khirurgiia, no. 1, 1952. 9. Monthly List of Russian Accessions, Library of Congress, may -1951. Unclassified.1 2  YOSMMSKIY, Vladiair Mikhaylovich; LOTYSHHV, I.P.. red.; KHLOBORDOV. V.I*-, te 3n.red. [YeYek Ilealth Resort] lCurort Bisk. Krasnodarg Krasnodarskoe knizhnoo lzd-vo, 1960. 34 p. (MIRA 14:2) 1. Glavvrach kurortuoy polikliniki. g. Myek (for Boakreamnakiy). (MVYSK--HEALTH RESORTS, WATERING MACIS. WO.)  YOSDZSEIIsxry, V.H. .. -"' Treating hypertension vith Ionized air, Top,kur.fizioter. I leche fiz. kul't 23 ne.41370-371 JI-19 '58 (MIRA 11:8) 1, Is pollidiniki kurorts Toyak, (HMRMISION) .(AIR. IONIZM--TMMAPMIC USE)  . MARKELOVI 9. V. j YAXUTO"ITCH,, V. V., NOSKRESVISKIY, - V. N. Dynamometer for '-Chin-.Sheeted Lattices. Steel 5, 185, 19h5-  ---------- 0373.96 BOOK EXPLOITATION Makulov, 0, Z.; ~Baysh., L. 0.; Brusteyn., L. I. j Vos)To Hirzabekov, Go 0*1 Nesmelov, So V,; Nemirovskiy,, A, Doi Pavlovskiy.. A. No; Shendler., 1U. It 'Devices for control of pressure, mpera. outlay and quantity of material level, te ture, Secondary devices and multiple control machinery. v2 (Pribory* kontrolya davleniya,, raskhoda i koli2hostva veshchostva., urovnya,, tomperatury*, Vtorich- ny*p pribory* L mashiny* mnozhestvennogo kontrolya, Kn, 2)j Moscow, "Nedra", 1964, 870,p. inus., biblio.,, index. Errata slip inserted, 5,9300 copies printed. iTOPIC TAGS: pressure measuremorrt, manomster, diffmanometer, flowmeter., level measurement,,, temperature measurmWt.,, therroccuplelther;%al expansian., electrical ~resistanco thormorAter,, current ratio measurement, electronic computer .iTABLE OF CONTENTS [abridged]% :Foreword - 18 i8ootion I Instruments for meaum-ing pressure and rarefaction (G. 0. Mirzabskov)  037196 AM4 Ch. 1. Introductor7 remarks -- 21 ~Ch. II. Instruments for measuring atmospheric pressure 24 ~;Ch. 111. Differential tuba.manometers -- 30 th. IV. Floating diffmancmeters of the D? type which show and record with an electrical contact device - 42 'Ch. V. Ring diffmanometers 64 Ch. VI, Bell diffmanometers 80 Ch. VII. Membrane diffhanometers -- 87 iCh. VIII. Draft gages, pressure gages and membrane draft-preasure gages 132 ,Ch. IX. Manometers, manovacuuzeters., and vacuumeters with a tube spring 149 Manometers Ch. X. !Ch. XI. Electrical manometers -- 201 'Ch. XII. Auxiliary equipment - 207 Section II Instruments for measuring flow and =ount, of liquids, gases and vapor ~Ch. XIII. Classification of instruments, Units of meamwe (A, N, Pavlovokly) 214 Ch. XIV. Moasuring the flow of liquids and gasoo fwm the flow rate (L. 0. Baysh)-~ 220 Gho XV. Moasuring flm by the method of a variable drop in pressure L. 0. Baysh) 225 'Card.  AX4037196 Ch. XVI. Special instances of measuring fl(rd b7 the method of a variable drop in pressuro (L, G, Bayah) -- 241 'Ch. XVII. Design of contracting devices for meamwing consumption by the method of a variable ch-op in pressure (L. 0. Baysh) -- 260 Ch. XVIII. Instrumenta for measuring flow by the method of variable drop in pressure (L. 0. Baysh) -- 287 Ch* XIX, Auxiliary equipment for measuring flow by the method of a variable drop in pressure (L. 0. Baysh) -- 299 'Ch, XX. Handbook materials necessary to calculate the normal contracting devices 'by the method of a variable drop in prossure (L. G. Baysh) - 326 Ch. XXI, Flo*wmeters with a constant drop (A. N. Pavlovskiy) - 345 Ch. M1. Liquid and gas gages (A. N. Pavlovskiy) - 355 Instm-rierrtus for measuring the level of a Uqui .Section III d (So V. NPOMelov) .Ch. XXIII, Floating level measurers -- 368 Ch. XXIV. Hydrostatic level measurerc - 439 Ch, XXV, Electronic volumotric level measurers -- 451 Ch. XXVI. Radioactive indicators of level -- 459 Ch. XXVII. Various level measurers - 472 Section IV Instrumenta for wasuring ~nd regulating temperature (Vo No Voskresen- skiy and V. A. Nikitin) Card  I * , * !Ax4037196 'Ch XXVITI. Instruments for measuring temperature based on thermal expansion 487 iCh: XXIX. Electrical resistance thermometers - 502 'A. XXX. Thermocouples - 525 ':Ch. XM. Radiation Pyrometers 540 ,Ch,, XXXII. Auxiliary equipment 549 Section V Secondary instruments 'Ch, XXXI11. Magnetoelectric measurers of current ratio (Yu, I, Shendler, V# A* Nikitin) -- 555 ;Ch. XXXIV. Pyrometric millivoltmeters (Yu. I. Shendler) -- 566 .Ch. XXXV. Automatic electronic leveling bridges (Yu. 1. Shendler) - 575 ."h. XXXVI. Automatic electronic potentiometers (TV. 1. Shendler) -- 638 :Ch, XXXVII, Inductive telemetric system (L. N. Sergeyev) -- 697 ,Ch, XXXVIII, Differential-trans former system of transmission (0, G, Mirzabekov and L. N. Sergeyev) - 708 Ch. XXXIX, Ferrodynamic system of transmission (0.'G, Mirzabakov) -- 741 ~Ch. XXXL General elements of secondary electronic instruments (Lo 1, Brusteyn)- 752 Ch. XMI. Pneumatic system of transmission (G. G. Hirzabekov) - 773 'Section VI Syste;w of control and regulation with high-Dpood electronic machines :for centralized auto=tic control and regulation of opginearing processes (G. Z. ;.Card-4/5  fAM4037196 'Ch*XXX)=. Designation, operating principles, circuits, and classification of systems of control and regulation with electronic computers for centralized control and replation of engineering processes - 786 ,Ch. L=III. Circuits and design of basic functional blocks of machines for I centralized control and regulation -- 796 ,Ch. XXXX1137. Control-information and control-information computers -847 'SUB CODEs EE., F? SUBK M EDs 300ot63 NR RV SM 045 ;MMI 007 DATE ACQt 06Apr64  VOSXRESKNSKIY, V.N. Piston-type matut motors. Priborostroania no.6:28-31 is '56. (HLRL 9:8) (Kazut--Xeasurement)  MMLOVI V- V- ;YAKUrOVICHo M.V.; VOSIMMISUISKIY V-11. L -- Dynammeter for Thin-Sheated lAttices Steel 5, 185, 1945  WO =,Vj V. T ; YAKUTOVICHI M. V.; ~;. ~i.. Dynamaaeter for Thin-Sheeted lattices. Steel 5, 185, 1945  4 1 1 fA I 11: is 14 Is 16 if to to a 11 x ts _ - - 4 A 1. 3L. V WA)C. r. A. 94ciric WsWfim d Wkm. IT-Ax. Id. n 1*4.). 1t"411,11,141.17 m; a I'A'", (11). 3vul), 1 00 V taita. isto A rosativerhensive survey of, tbo wafusus inettmPlor, circuit 1-y 1, aplarpittis for riecorie wrWine 44 Ierrm, iinit nirm-fernou- %tirrii it ?r efinfisetp. ' 4 Ase.. sislit rvainl4ra owl satt*("wy skipt defrill1wr *04hiss, HrsIr,pnw4 i1twittititu itifitri. Anmauni alunsinit4m lt%,n, stut vhnmitini q4ttialt *Its. A munisin inov allovs, *I" Istvt uOd"I ky im-ans of Orcift, dwh&". nipi tvo ' 13V A.C. or d.c. 63~. Wu" or wirs, 4- it to" arld"I wilift tho 6.1 n-#"I1# s" iiitws.,stagrv , (1) by finit thickening the c V totw-weldrtl bwel"W'f dischargiv, 00 sit"I t I It 1wn mrsving out the wthlin- ol *rist Ion Isrp1ser. bwattritatilsofthe dt-haru~ in th-;~ ,perathstia has tAm mijits1^1 Atestriling fis, the thaimetrif 4 It., .1w III IMIrr I., istA121101" It- -41.0" 4 300. T1- *I.-VO #1WO-I IA un MIIROIJ~ hw 041itso .,f slitinlowtunt wirr. sshl,h 1144 1'. 1- .1.4- I.Y 11W U.1141 bolt whimit w4hiki. 09 T Led Its 144 OCIAL4,996KA1. LifillitiAt (CASSIVOCA11434 98- Islayj -10 M., 13-1 W1 ~1 I AW 0.0 AS& U It AV -0 1% .1;p1pirwat anNit a of st a 1 94 0 0 0 0 as 40 0 0 a 0 0 0 0 0 0 I : 0 se 0 0 0 411 0 * * 0, [a-*- a * * 0 0 00900 0 0 0, 00 .00 gas .00 40e goo asds coo see !goo 040 seem go  LaCa'-RnA MMICA Sec.1 Vol.10/9 Oto-Rhino-Laryngo Op V6,SXF r.~ V, 1654.VOSKRESE,NSY,YV.P. Leningrad. *The role of Intralabyrinthal p~-e`ssu ~- ~he development of deafness in cases of efo- sclerosis (Russian -text) VESTIV.OTO-RINO-LARIING. 1957, j (22-26) Illus. 7 The electric potentials of the cochlea of cats were studied. It is concluded that hearing deteriorates with increased intralabyrinthal pressure. A review of the literature suggests that lowering of Intralabyrinthal pressure would improve hearing in otoselerasis.  VOSKRESZNSKIY. V.P.,kandidat maditsinskikh nauk Role of Intralabyrinthine pressure in the development of deafness in cases of otouclerosis [With summary in English]. Test. oto-rin. 19 no.1:22-26-ja-Y '57 MU 10:4) 1. 1z kliniki bolezney ukha, gorla I nose, (zav.-xasluzhanny.V dayatell nauki.prof, K,L. Xhilov) Leningradskogo sanitarno-gigiyanicheekogo meditain Okogo Instituta. (LOYRUITH, physial. pro wire,role In develop. of deafness In oto:elerosis) (Ru) (OTOSCLEROSIS, ph7stol. role of Intralabyrintbine pressure in develop. of deafness in) (Rus)  RHILOV, X.L., prof.,xaoluzhenW dayatel' nanici; YMOTAY%vt V.Gs, prof.; VOS)GUIMMY, V.P., kand.med.nank In memorY of Professor Nikolai Aleksandrovich Pautov. Vast. otorin. 21 no.3:114.-II5 Hy-Je '59. (miu 12: 9) (OBITULMS Pautov, Nikolai A. (Rus))  V. P. Voskresenskiy, V. P. "Acute inf1r,-nation of the postperitoneal cclular tissue in children." Gorlkiy State Medical Inf:t i-leni S. M. Kirov. Gorlki-y. 1956. (D-Izs--rtz~t-ion for the Degree of C,-mdidate in Medical Sciences). KnizhnaZa letopisl No. 21, 1956. Moscow.  ve 5,e 112-6-11833 D Traaslati(,n from: Referativnyy zhurnal, Elektrotekbnikat l957tNr6,p.7 (USSR) AUTHOR: Voskresenakiy, V.V. TITLE: Fundamental Principles of Design of Transient-Phenomena Models for High-Voltage DC Systems (Oanovnwe' printsipy postroyeniya modeley dlya izucheniya perekhodnykh protsessov v ustanovkakh elektroperedachi tokom vyvokogo napryazheniya) ABSTRACT: Bibliographic entry on the author's dissertation for the degree of Candidate of Technibal Sciences, presented to the All-Uaion Electro- technical Institute imeni V.I. Lenin (Vsesoyu=yy elektrotekbnicheakiy institut imeni V.I. Lenina), Moscow, 1956. ASSOCIATION: All-Union Electrotechnical Institute imeni V,I. Lenin (voes0yuznyy elektrotekbnicheWdy institut imeai V.I. Lenina) Card 1/1  VOSKRESENSKIY, V. V.: Voskresenski,v, V. V.-- "Basic principles of the construction of model% to study transitory processes in DC high-voltage alectric-p(mr transmission stationse" Ydn Electrical Engineering Industxy USSR. All-Union Order of Lenin Electrical Engineering Inst Imeni V.' I. Lenin. Yoscad, 1956.~ (Dissertion for the De.7ree of Candidate in Technical Science) SO: ntzbm= I-etMAQ I# No 279 1956. 140SICOW.- Paees 94-109; 111.  9(4) SOV/1 12-59-5-9890 Translation from, Referativnyy zhurnal. Elektrotekhnika, 1959, Nr 5, p 208 (USSR) AUTHOR: TITLE: Simulating FUgh-Voltage Mercury Valves by Means of Thyratrons PERIODICAL: V sb.': Mezhvuz. konferentsiya po primeneniyu fiz. modelirovaniya v elektrotekhn. zadachakh i matem. moaelirovaniya, M. , 1957, pp 39-44 ABSTRACT: Experimental investigation of dynamic volt-ampere characteristics of actual high-voltage mercury-arc valves and thyratrons has led to the conclusion that a noncontrolled mercury-arc rectifier can b-- represented, within a wide current range, as an equivalent EMF of about 30-50 v which is equal to the arc voltage drop. A coatrolled mercury-arc rectifier can also be represented by a certain counter-EMF. Differential resistances obtained from the rectifier dynamic characteristics and from the imitating thyratron differ considerably from each other and cannot be simulated. However, it is possible to neglect this difference without impairing final accuracy. An experimental verif-cation of characteristic transients showed that the mercury-arc rectifier can be simulated by a thyratron. Card 1/1 1. T. R.  110-3-3/22 Au" 'IMPS: Vookroscjir~;-'iy~ -V.V. , Candidate of Technical Sciences, "Travin, L V. , BnEinc era. TITIE: Grid Control Arranj%ci,',~ents for a Model of High-voltage Direct-current Trapsmio3ion (Ustroystva setochnogo npralileni.ya modeli cloictroperedachi postoyannogo tolca vysokogo napryazheniya) PERIODICAL: Vestnik Promyslilennorti, 1958 Vol 29 No-3, pp. 14 - i8 ZUSSR). ABSTRACT: h"xtenaive use is beinG made of models to study conditions o-r hi,-h-voltar,.e d.c. transmission. The hiizh-voltav'e valves are Simulated by thyratrons and the grid control arrangements must ensure successive ignition of the thyratrons in the correct sequence. The basic principle of operation of the system of grid control is that at the instant when the negative locking voltage applied to the Orid-cathode space oT the f3yratron unlocks, there is applied to it the positive voltage of a control impulse. The main properties required of the grid control device for the ir..odel are listed. The article then describes a thyratron capacitor system of grid control with Deaking transformers. A block diaGram of the two- impulse sy5te;l of controlling the model is given in Fig.l. T'ge Card 1,3system consists of six channels with phase displacement of 60  110-3-3/22 -rol Arrangements for a Aodel of High-voltage Direct-curr~%-~' Grid Cont Transmission electrical. The operation of the circuit is(tscribed. By including the primary windinGs of the insulatinG transforrers, as indicated on the diagram by dotted lines, it is possible to obtain on thS grids of the *model thyratrons four impulses dis- placed by 30 eleotrical. Oscillograms shorting the voltage wave shape at input to and output from each block exe attached to Fig.l. A schematic dia-ram of the control systeil of the model is given in Fig.2. Protective arrangements are briefly dis- cussed. In principle, the main thyratrons can be controlled directly fron. the pealcinr, transformers. However, curvature of the impulse wave front does not exceed 4 - 5 V per electrical decree. The main disadvantages of control systems using peaking trans- formers are: high inertia; the difficulty of usinG separate (per phase) regulation of the extinction voltagesof the thyra- trons on the inverter; and the impossibility of alterinG the vjidth of the control iraoulse without changinG the circuit. The article then describes the electronic systiem of grid control which obviates these defects: a block diaeram is given in 1,'i-.36 it, too, consists of six channels vith phose displacement Card2/3 o?'160 electrical. The main olements of each channel ar-e  110-3-3/22 G?:-1_d Control Arranf~eEents for a L7odcl of RiCh-voltaCe Dire c t-curi-4:- j_t T.?arL-iutission described, A scheza-~ic diagram of the first channel of the control system is Giver- in eig.4 and explained in the text. The electronic control circuit ig without inertia and ensures operation over the ranf,-,e of + 60 electrical. These circuitz are not limited to zodols an7d- are applicable to the control of ionic instruments in other fields. Their use with crystal triodes should increase reliability and life. There are 4 figureso ASSOCIATION: All-Union 13lectro-technical Institute V s e S oy u z ny ly .elektrotEkhaic.heskiy institut) BUBIA'ITTE D: May 15$ 1959 AVAILABIS: Library of Con6ress Card 3/3 1. Transformers (D.C.) 2. Thyrotron5 3. Transformers-Models  YOSKRESENSKIY, V.V.; LAUMM, X.S. lee systems of grid control of a model of d.c.,power tranamlssion. Nauch. dokl. vys. shkoly; puerg. no.2:199-206 158, (MIRA 11:10) 1. Vessoyusnyy elektrotakhnichoskiy institut imeni Lenina. (Electric lines--Models)  VOM=MSgIyq VOV.; STUKACHEV, A,V* ,-~~Mcdol in~gbl 9 ~~,rojt age mercury rectifiers by means of thyratrons. Nauch. dokle vys. shkoly: anerg. no.2:213-218 158. (MIRA 11111) 1. Veasoyaznyy alektrotakhnichookiy inatitut Imeni Lonina, (14ercuo-arc rectifiers) (Thyratrons)  VOSKRF-SERISKlY, V. V. Cand Tech Sci - (diss) ODcamination of Transistox- izedo 1 Linearly Changing Direction Generator of U* Fantastron 7.4fpew Kievs 1960., 14 pp (Kiev Polytechnical Institute) M, 47/60,, 102)  VOSKMZ?ISKIY, V.V., kand.tekhn.nauk; BARAKAYEV, Khj., inzh.., TRAVIN, L.V., Ph701cal model for the d.c. transmission 87stsr from the Stalingrad Hydroelectric Power Station to the Donate Dasin. Elektrichestvo no-2:28-35 r 160, (MIRA 13-5) 1. Voesovuznyy elektrotekhniche#kI7 Institut, imeni Lenina. (Electric power distribution--Direct current)  86795 S/142/60/000/003/010/017 E192/F.482 AUTHOR: Voskresenakiy, V.V. TITLE: Investigation oPWAPIrransistor Phantastron Generator PERIODICAL: Izvestxya vysshikh uchebnykh zavedeniyj Radiotekhnika, 196o, No-3, PP-370-375 TEXT: A transistor phantastron circuit producing a linearly varying voltage waveform was analysed*by Y61~2vlev_(Refol). However, the author did not take into account t" 'constant component of the input current which is one of the main destabili7Ang factors in the operation of the system. A generalized phantastron circuit is shown in Fig.1, where C represents the feedback element. A'constant current component of the input current flows through the resistance R (see Fig,l) and produces an additional voltage &-op which reduces the effect of the source E on the charging of the condenser C The voltage across the condenser can be expressed by-- U 0011-ze, E0-(Xt K (E - I R) (1) c jWR Card 115  86795 S/142/60/000/003/010/017 E.192/E482 Investigation of a Translator Phantastron Generator where 11 is theAnItial current In the system, g is the input conductance of the amplifier and., K is its gain, while a is defined by 9 (2) KC The quantity E-OKIM is defined by the penultimate equation on P-370. The non-linearlty coefficient for the circuit is expressed by Auc gR (3) E 3K& gR + K(l E where = Um/E. The operating time of the phantastron.is expressed by Eq.(4). An actual transistorized phantastron circuit Is shown in FIg,2a. This can also be regarded as an oscillator with a capacitive feedback. The input of the amplifier is the emitter-base terminal of the transistor nTl, while the output Card 2/5  86795 S/142/60/000/003/010/017 E192/E482 Investigation of a Transistor Phantastron Generator termi.nals are the collector of nT2 and emitter of nTl. The operating period of the system can be expressed by Eq.(6) and its non-linear coefficient is given by Eq.(5). The parameter h2l represents the current gain of the transistor n Tj . The flyback time ot the circuit is approximately expressed by Eq.(9). The instability of the charging time of the capacritor is due to the changes of the collector current IkO of the transistor MTV The non-linearity coefficient can be expressed by N - U2 min - IkORH (11) Ek where U2 in + U is the voltage = Ulki i at the m collectors of m n k2 min the transistors nTl and nT2 at the end of the condenser discharge. From Eq.(11), it is se en that IkO increases wit h rising temperature, while is reduced and so iB the charging time. It was found experimentally that when the Card 3/5  86795 5/142/60/000/003/010/017 E192/9482 Investigation of a Transistor Phantastron Generator temperature of nT2 was increased to 600C the instability was of the order of 10%. This deficiency can be eliminated by connecting a clamping diode to the circuit and by connecting the load resistor RH to a different supply source Ekl which should be higher than the voltage E Such a compensated circuit is shown in Fig.2b. It is advisabye, that a silicon diode should be employed so as to obtain a high reverse resistance at high temperatures. An increase in the stability of the charging period can be achieved by connecting a germanium diode to the base of the transistor 11TI. The reverse current of such a diode increases with temperature and compensates the decrease of the initial current. If the transistor rIT, and the germanium diode are chosen in such a way that the reduction in the initial base I current is equal to the increase of the reverse diode current, the current flowing through the resistance R at the beginning of the charging.process will be constant. Fig.4 shows the graphs illustrating the charging period instability as a function of temperature for the circuit of Fig.2; Curve (a) represents the Card 4/5  86795 s/142/60/000/003/010/017 2192/9482 Investigation of a Transistor Phantastron Generator instability of the circuit with the clamping diode alone, while the second curve gives the instability for the came when the compensating diode is also used-. There are 4 figures and 2 Soviet references. ASSOCIATION: Kafedra radiopriyemnykh ustroystv Kiyevskogo ordena Lenina politakhnicheakogo inatituta (Department of Radio-Receiving Devices of Kiyev "Order-of-Lenin" Polytechnical Institute) SUBMITTED: March 6, 1959 (initially) January 9, 1960 (after revision) Card 5/5  S/110/60/000/011/005/012 B194/E484 AUTHORS: Voskreserlskiy. V.-V,, Candidate of Technical Sciences Lind KhuTly~_M Candidate of Technical Sciences TITLE: The Use of an Electronic _Ln~t_eirE!j~~qroType WIT-5 (IPT-5) and a Physical Model to Investigate Transient Processes in ti.c,. Transmissior)4 PERIODICAL: Vestnik elchLropromyshlennosti, 1960, No.11, pp.48-53 TEXT: The practical possibility of constructing 200 kV transmission lines has been demonstrated by operating experience with the Kashira-Moscow line which ronaiienced operation in 1950. The equipment on the line is briefly d6scribed. Normul operating processes in this transmission line are now sufficiently well understood. the greatest difficulties were encountered in overcoming over-voltag'es on individual parts of the sub-stations that resulted from various transient phenomena, It was accordingly necessary not only to investigate the main steady state -and transient processes in the transmission but also to be able to calculate tliem, Accordingly, in 191~'Ij a physical model of the Kashira-MoBcow transmission system was conaLructed in the All-Union Electro- Technical Institute, a schematic diagram is given in Fig.l. Card 1/4  S/110/60/000/011/005/012 E194/E484 The Use of an Electronic Integrator Type tinT-5 (IPT--5) and a Physical Model to Investigate Transient Processes in d.c. Transmission The number of rectifier bridges in the model was double that In the original, the scale factors for current and voltage are 1/100 and the impedance scale is 1/1. The full scalo mercury valves were represented by gas thyratrons type Trl-.5/3 (TG1-5/3) and the other equipment is briefly described. The circuit for each test is made up on a swItchboard and there is a centralized control panel. A photograph of the model is shown in Fig.2. The model was used to repeat investigations of norm&1 and emergency operating conditions previously made in the Over-Voltage Laboratory of the All-Union Electro-Technical Institute and also on the Kashira- Moscow Transmission Line, The model was able to reproduce the main conditions of d.c. transmission with sufficient accuracy. However, for all-rotind study of transiont procesftes in the system, particularly with alloweince for control devices, it is necessary to combine the methods of physical and mathematical modelling. For this purpose an eleLtronic Integrator type IPT-5 was tised and, for convenience, it was arranged in two mobile units, The main components are illustrated in FiS.3. The process of switching a Card 2/4  s/lio/60/000/011/005/012 E194/E484 The Use of an Electronic Integrator Type MIJT-5 (IPT-5) and a Physical Model to Investigate Transient Processes In d.c.Tranzmission rectifier on to an open circuit line with and without allowance for non-linearity of the smoothing reactor was Investigated and also switching of the rectifier on to a line loaded by an invertor. A diagram of the model used for these tests is shown in Fig.4a and the equivalent circuit in Fig.4b. The circuits are briefly described. If allowance is not made for non-linearity of the characteristics of the smoothing reactors all the inductances of the circuit are united into one but when the non-linearity is allowed for the inductances in the two halves of the circuit are separated. The process of switching the rectifier on to an open circuit line is considered and Eq.(l) is derived for the transient process, The structural diagram to represent Eq.(l) on the integrator is given in Fig.4B. The curve of voltage as function of time obtained by solving the equation on the integrator is given in Fig-5a which also gives the experimental curve obtained on a physical model of the transmission line. Agreement is good. The difference between the curves at the end of the process is due to the circumstance that non-linearity of the smoothing reactor was Card 3/ 4  s/ilo/6o/ooo/on/005/012 E194/E484 The Use of an Electronic Integrator Type 141IT-5 (IPT-5) and a Physical Model to Investigate Transient Processes in d.c. transmission not allowed for. In order to allow for the non-linearity of the reactor the approximate curve consisting of straight line sections shown in Fig.5b was used and a system of equations (1) was formulated for each section of constant inductance. In considering the process of switching the rectifier on to a line loaded by an invertor the circuits of Fig.4a and b were used. The system of Eq.(2) is given to represent the case, the structural diagram for solving these equations on the integrator is given in Fig.42. The process calculated by the integrator was compared with test results and the envelopes of the damping curves of voltage on the transmission line are given in Fig.5B. The processes under consideration were also calculated analytically and comparison of the results of the calculation with those obtained on the integrator shows 'that the error of the integrator is 4 to 5%. It is concluded that transient processes in a d.c. transmission system can be calculated with sufficient accuracy on an integrator whether or not allowance is made for non-linear elements of the circuit. There are 5 figures and 2 Soviet references. SUBMIMD: February 8, 1960 Card /  85079 s/144/6o/ooO/009/003/007 E041/El35 LUTHORS; Alekseyev, K3. and VoskregaDsklX. V,V_ (Candidates, of TechnrCX1-T6_i_e_nc9s)__' TITLE: Increasing the Accuracy of Stabilizing Systems PERIODICALs Izvestiya vysshikh uchonykh zavedeniy2 Elektromekhanika, 39600,*No. 9, pp 62-72 A TEXTs, A frequently occurring practical problem is that of maintaining or altering the position of a massive object mounted on a vibrating support, -PDirect stabilization is of limited use when the moment of inertia of the object is large. Indirect means are usually inaccu-r-a-t-e-but the present proposals give better results. The basic concepts are due to Academician V,S. Kulebakin. Fig. 1 shows the main features of a stabilized plat m with an electrohydraulic actuator. The pick-offs measure absolute angle (1) V~ and absolute velocity (3). The control valve 1+ controls the flow of oil to the torque motor 5. The vibration Input to the support is represented by a(t) = a... -sin c.)0 tj where %max is the amplitade and V*b the circular frequency of oscillation. The operation form of the complete system equation Is Card 115  85079 S/144/60/000/009/003/007 EOI+1/El35 Increasing the Lecuracy of Stabilizing Systems M (p) + I P2-cL = I (TO-P + 1) P (4) 0 0 ko where M. is the stabilizing torque3 10 the moment of inertia a'-out the axis of rotation, F = l/ko is the coefficient of viscous friction in the relative motlon~ p is the angular displacement relative to the base. Fig. 2 is ablock diagram of the control system. The advantage of the hydraulic actuator is ita/ low inertia and friction. The error transfer function Is ()(p) - (bopl+ + bip3 + b2p2 + b,p + b0p H - 11 ~ (P) L~ -9 (5) M(P) ao.p5 + al.pl+ + ap.p3 + a 3P 2 + a4p + a5, It will be seen from the values of the a's and b's that the inertia and drive torques have a. similar influence on the choice of the poles in the transfer function but have different effects on the choice of zeros, The acc;urany of stabilization depends on the value of &5. k simplified form of Eq. (5), neglez;ting T and g is,. Card 215  95079 b/144/60/000/009/003/007 E041/E13 5 Increasing the Accuracy of Stabilizing Systems H(P) = Tn.Tl.p3 + (Tr. + T1)p2 + P (6) To.Tl-p3 + (To + Tl)P2 + (1 + VK)p + K where K = a5 and P is the ratio of the angle and velocity pick-off sensitivities. If the denominator of Sq. (6) is put in the Vyshnegradskiy form of Eq. (8) then A = 2,5~ B = 3 for quick damping of the translent,with no overshoot. If it is assumed that j> 29T the transfer function for the open loop is The'maximum attainable value of K, with 300 phase margin may be found from Eq.(18). Fig. 3 showsboth K and we, the cut-off circular frequency, versus To. As To increases tio reaches an asymptotic value of 60 see-1. The fall-off in gain as To falls shows the difficulty of accurately stabilizing a low-inertia object. Fig. 4 shows the dependence between the amplitude of the characteristic of the error transfer function, Eq. (6),. and the ratio of the moments of inertia of drive and object for c.) = 1 see-1. As the ratio increases the dependence of stabilization error upon it becomes less. When w > 5 sec-l the Card 3/5  85079 S/14V60/000/009/003/007 E041/9135 Increasing the Accuracy of Stabilizing Systems effect is different, as evidenced by Fig. 5, where frequency is the independent variable and four values of ratio are taken. Fig. 6 shows bow an additional feed, 'through Wx(p), of the input dis.turbance could avoid stabilization error. The modified transfer function is T!-~Tlp3 + (Tr + Tj)p2 + p _ Kkl Vf(p) H(P) = e(p) ;. (23) a(p) ToTjp3 + (To + Tl)pP- + (1 + yK) + K The denominator is,the same as before. The condition for zero error is T T-1 p3 + (T,-1 + TJ)P2 + pp(Tr,..p + 1)(Tlp + 1) ve(p) = -=1 - (24) ko-kl ko.kl This condition Is difficult to satisfy because: 1) there is no perfect differentiating circuit; C2) -Uhe system constantsappearing in the expression are in fact slow variables. Kxperiments have been. carried out, however, using Card 4/5 PZ  '15079 s/144/6o/oOO/009/003/007 EO)+l/El3 5 Increasing the Accuracy of Stabiliz..--Lng Systems k4~.p (25) T2P2 + Z j.' , T -p + 1 Fig. 7 shows the resulting error function for three values of kb. Fig. 8 shows oscillograms of stabilization error with (6), and without (a), the additional oorrection. It is shown that for a sinusoidal disturbance of the support the simple form of correction can be adequately designed. There are.8 figures,and 5 Soviet references. ASSOCIATIONs Moskovskiy stanko-instrumentallnyy institut Moscow Institute of Machine Tools and Instruments) lekseyev, K.B.) N Nauchnyy sotrudnik, Vsesoyuznyy elektrotekhnicheskiy. Card institut (All Union Electrioal Engineering I,ns-titute) Mskrosenskly, V,V.) SUEMITTEDS April 9, 196o  ,VOSK=nSKIY, V.V., kand.takhn.nauki KMWAXOV, V.V., kand.takhn.nank Use of an electronic 1PIk-5 integrator and a physical model in the study of transient processes in the transmission of d.c. pover. Vest. elektroprom. 31 no.11:48-53 R 160. OCMA 13:12) (Ilectric IaOtwOrk analMrO) (Transients (2lectricity))  VOSUME?LSKIY, V.V., kand.tekhn.nauk. Study of the stability of the contrcl system of a main d,c, po-.jer d1stributIon system. Test. elektroprom. 32 no.3:64-70 Mr 161. ' (MIRA 15:6) (Electric power distribution-ldrect currelt)