SCIENTIFIC ABSTRACT ANDRIANOV, V.M. - ANDRIANOV, Y. Y.

ANDRIMIOV, V.M. Problem of selecting the most economical raw materia-1. for pyrolysis, Khime i tekhe toplo i masel 8 no.7.44,-48 J! 163. (MM 16-.7) 1. TSentralInyy nauehno-iseledovatellskiy ekonomicheskiy institut Gosplana. RSFSR. (pyrolysis) (Gasoline)  I - - 1~ ~a-f~;,,-_~-,-',,W~- , vir-1- - - -- . I . - - ANDRIANOV, V.M. Effect of the degree of the yield of light petroleum products on the level of the optimum capacity of petroleum processing plants (discussion). Khim. i tekh. topl. i masel 9 no.2:42-48 F 64. (KMA 17:4)  SOV/24-58-5-8/31 AUTHORS: Andrianov, V, N. and Shorin, S. N. (Moscow) USFAWWWWW'P I W TITLE: Radiant Heai__i&ch&nge in a Current of Radiating Medium (Luchistyy te~loobmen. v potoke izluchayushchey sredy) PERIODICAL: Izvestiya Akademii Nauk SSSR, Otdeleniye Tekhnicheskikh Nauk, 1958, Nr 5. pp 46-53 (USSR) ABSTRACT: In high temperature heat exchange devices heat transfer by radiation plays an important role. In a number of papers (Refs 1-6) this problem was considered assuming a uniform distribution of temperatures and velocities over the cross-section of the current; V. 1. Pukhov (Ref 5) does assume uniform distribution across the cross- section of the speed but not of the temperature. The present paper presents an attempt to solve this problem taking into account non-uniform distribution of velocities and temperatures over a cross-section of a current of a radiating medium in the case of cylindrical and plane channels. The corresponding differential equation is solved under the assumptions that the medium is purely absorbing the scattering coefficient equals zero, and the r;aiant heat transfer Card 1/2 between elements of the medium within its volume can be  SOV/24-58-5-8/31 Radiant Heat Exchange in a Current,.;QX Radiating Medium neglected. The absorption coefficient of the medium is assumed to be constant. Explicit expressions are derived for the above two cases and the results are summarised in five graphs. There are 7 figures and 8 references, 6 of which are Soviet, 1 German, I French. SUBMITTED: February 18, 1958 Card 2/2  AIMRIAMV, V.11., kand.tehhu.nauk; SHORIN, S.K.. doktor telthn.nauk Investigation of beat exchange in the gas-combustion chamber. Teploenergetika 6 no.4:62-67 Ap 159. (MIRA 12:3) 1. Inargetichaskiy institilt AN SSSR. (Combustion research)  AMRIANOV, V.N. Now data on the Permian stratigraphy of the central part of the westorn Verkhoyanok Ranges 14at.po geol.i, pol.iskop.lAk.AS3R no*5&51-57 161o (MM .150) (VorkhoyanBk Range--Geology,, Stratigraphic)  ACC NRv -T63/000/001/0091/DD91 AP6005028 sawi CODE: UR/6165 AUTHOR: Avvazf~mn. V. G.; Aleksandrov, B. K.; hadrJ=ox*J_4JN,,; Beschinskiy# A. A.; Budzko, I. A.; Zhim6rinp D. G.; Krasnov, V. S.; Kruzhilin, G. N.; Kulebakin,, V, S,J Listov, P. N.; Markvardt, Ko G&I Markovich,, I. N.; Popkov, V. I.; Styrikovichs MP Ao ORG: none TITLE: Frofessor AndreZ Georgiyevich Zakharin. SOURCE: Blektrichestvog no, 11 196% 91 TOPIC TAGS: electric power engineering, electric engineering personnel ABSTFACT: A short biography of subject on the occasion of his 60th birthday in November 64- A. close disciple of Krzhizhanovskiy, he now heads sector of general methodological problems and forecasting at ENIN (Institute of Power Engineering imeni Krzhizhanovski ), and power engineering section within its scientific council* In 1927-1932, worked in designing and construction of pawer stations and industrial power installations in the Trans-Caucasus. In 1932# having graduated as electrical engineer from,Tbilisi. Polytechnical Institute,, he switched to scientific work at All-Union Institute of Farm Eleotrification, and,at ENIN since 1944, Became candidate of technical sciences in 19371 dootor,,.in 1948. Subject is credited with working out the inethods for designing efficient and economical regional and local power systemsp utiliving local power resources and coordinating them with the power grids* He participated in studies on electrification, through 1980.0 and on I Card 1/2 UDG: 621.~I:(Os,75-5)~..  ACC NRs AP600,5028 0v the application of mathematical methods to solution of problems concerning.fuel-p6wer, balance. In recent yearsp he has been concerned with linear programming., and long- term prediction with computer techniques. He authored 'about 80 scientific works#, including monographs, textbooks and handbooks, and has been editing all MIM publi- cations. Is active in CEM commissions and_G_0*ELAKSS3R.. devoting special attention to coordination of scientific research in power engineering. Has been awarded the Order of the Badge of Merit and other decorations. Crig. art, hasi -1 figure. SUB CODE: 09 SUBM DATE: none (00 2/9  -,-ACC-NRt -~-.AP6W~0-01- -7 CODE: UR/010576576MjfW6l6o9l7569l-~------- S(X M AUTHORt Aridrianov, Vo_Noj Budzkoo,le A*; Venikovo Ve Aol Damin, A. V*;. Gorodskly, Do Ael Zakharin, At Go; Krasnov, Ve Sol Levin, He So; Listov, Pe N Markovich, 1. Met Hallnikov, No A91 Nazarov, Go Itj Razovigj Do Vo; Snirnovo Be Vo; Stepanov, V, Nei Syroqjatni~ovo Is Ael Fedoseyev, As Met Yakobs, A. Is ORO: none TITIE: Doctor of technical sciences, Professor L, Yee Ebin (on the occasion of hii. 60th birtbdiiy SOURCE: Elektrichestvo, no. 6, 1965, 91 TOPIC TAGS: scientific personnel, electric network, 31ghtning. ABSTRACTi Professor Lev Yefizovich Ebin, 60, graduated in 1928.from the Kiyevskiy elektr'otekhnicheskiy I I.na.titut (Kfyev Electrotechnical InstituteY Between 1929 and 19361, he worked in the Donenergo sy tem and published varioubi- original papers on lightning protection and groundin:.devices. From 1936 EBIN works at the Vsesoyuznyy nauchno-issledovatelOsUly Institut elektrlflkat-~l ,sit seltakogo khozysystva (All-Union Scientific Research Institute for the Electrification of Agriculture) where he heads a laboratory. In 1937, tie -6efended his candidate's dissertation and In 1951 his Ph. D, Thesis dealing with studies of the nonsymmetrical operating conditions of electrical net- works and of statfonary,aind nonstationery electro-thermal pro;esses In the Card 1/2 -621.31  P I  WW ACC-NRt -AT6006905- SOURCE CODE*- URIOO00165100010001010310110 AUTHOR: Andrionov, Ve N, S' ower Inatitutelm, Go M6 Krzbizhanovskiy (Energ ORO: P etiobeskly institut) TITLE: Radiative beat transfer In a flat layer of a moving medium SOURCE: Teplo- I mossoperenos, t* II: Teplo- I mossoperenos pri vzeimodeystvil tel a potokemi zhidkostey I gazov (Heat and moss tronsfen v. 2: Heat end mass transfer in the Interaction of bodies with liquid and gas flows), Minskj Nsuka I tekbn1ka, 1965, 103-110 TOPIC TAGSi kadiative beat transfer, combustion temperature ABSTRACT: The article presents an analytical solution said to be applicable to layer type combustion in an anthracite furnace, The Initial energy equation has the following formr dly q4 + d1v q'lc 0. For the one dimensional, base of a fiat'layer, the above equationocan be simplified as f6llowst d6, (2) dx dx Card 1 2  --ACC-W7--~-At~ 6006905----- 0 The results of a numerAcal oalculation are presented graphically. It isl evident from the curves that the combustion temperature of the fuel in the layer drops only slightly from the theoretical combustion tempera- turo., FoS a change in the temperature of a radiation absorbing surfaoe from 2003 K to OoKp the temperature of the oombustion layer drops by only 8%.& Orig, art* bast 23 formulae and 3 figures. SUB CODEt 20/ SUBM DAM., OgNov6.5/ ORIG REV.- 002/ OTH REFI, 004 card 2/2 nst  USSR/Engineering - Generators, 'Synchronous Oct ~ 49 ~4otore, Wind-Driven -stability of a Synchronous Generator in a Power Ittvork When Uperating From a Wind-Driven Motor," V. N. Andrianov, Cand Tech Sci, Moscow, 7 PP "Elektrichestvo" Vo 10 Article was prompted by ctrpearance of wind-driven motor D-18, constructed --y VIM-GUBMP (awarded a Stalin prize). At a spe%ed of 42 rpm (wind velocity of 8 meters/sec~,, the motor generates 28.5 kv power. Shovs theoretical-.y thaT a synchronous generator (SO-25/6 or 35/6) can operate stably in a systeni 150T33 USSR/Engineering - Generators, Synchronous Oc-C 49 (Contd) wben driven by such a motor in regions where average yearly wind velocity is around 6 meters/sec. Deter- mined minimim wind velocity at which stabi3lty can be maintained. 15OT33' IS  'Wind I-Dr -C. ::.,*Parallel Operation of a Wincl-Driven Electr Station With the Power Network," V. V, Catd Tech Sci, Moscow Inst for: zation and Electrification of Agr imeni )(blotov, D. N. Bystritskiy, Engr, All-Union ,~Iust for Electrification of Agr (VIESXh) 011ektricbestvo" No 5, PP 8-12 Describes expts conducted at exptl vind-elec %,~jior4er station (VES) of the Zaporozhlye Affiliate 189T17 ,,,V8SR/Electricity Power StatIons, XSY 51 Wind-Driven (Coutd) lei of VIESKh in Avuchronization and paral 'operation of a wind-elec power station wiit.'the submitted 13 Nov 50. n.e~tvork 18W3.7! 24 " N Co I =>  USSR/Electricity - Wind-Electric Jun 52 Power Stations Power- Regulation of a Wind-Electric Power Ste- cm tion," Cand Tech Sc i V. N. Andrianov, and Engr A. 1. Pokatayev, Moscow "Blektrichestvo" No 6, pp 19-24 Cites results of exptl operation in 1951 of wind power station using wind-powered motor type D-18 at Zaporozh I ye Af f iliate of All-Union Inst f or Electrification of Agriculture in parallel with regular power system. Constant power output (ie, constant torque of vindynill) was successfully man- tained under increased wind velocities by use of electromagnetic,, clutch between windmill fan and synchronous generator, although dissipation of heat from clutch presents problem. Submitted 28 Jan 52.  - ANDRIANOV, V.N., kandidat takhnicheakikh nauk; 11XKZSTITIV, G.F.. inzhener. lIffectiveness of the combined operation of a wind power electric plant and a hydroelectric plants Who i elek,9911khos, no,4;65-70 AP '53- (KM 6-25) 1. Moskovskiy institut mokhanizatsii i elaktrofikatsii sel'skogo khosyay- stya tueni V.M. Molotov&. (Wind power) (Hydroelectric power stations)  % I , ;q T )% )~ 14 11, - I .- - I I  n 1i -I I J"C 1 i I lYL: V, V - j I - 4MR ZWOVSKIY, G.M., VEYTS, V.I., YEMINOV, M.G. ANIIR -V.j1.' BUDZKO, I.A., SLZONOV, N.A. Doctor of Technical Sciences A.G.ZaWhartn. Elektricheatvo x'.,--;: 84 F'55- (MLRA 8: ?': (Zakharin, Andrei Georgevich, 1904- )  mit wind-pover elsktr~q s nsuh.-takh. inform. po al (Illootrio 100 kilowatt capsoity. no.b42-44 156. ' (KM 10: q )  AMDRIAIJO-!V..J6&uw4oktor tekhnicbeskikh nauk; BYSTRITSKIY, D.F., kandIdat ~~ a MV k1kh nauk. --taknniches Wixtiveness of oporating wind power plants in conjunction with I*-droolectric power stations. Trudy HIM KH 3:78-89 '56. (Power plants) (NM 10:8)  -Ajja_WqV, V,,L.,. doktor tekhatcheskikh nauk; t F ak michaskikh nauk. Wind power engineering 87-89 0 '56. Blektrichestvo no.10: (Km 9:11)  'r -7 i 112-2-3079 Translation from; Referativnyy Zhurnal, Elektrotekhnika, 1957, Nr 2, P. 78, (USSR) AUTHOR: Andrianov, V. N., Bystritskiy, D. N. TITLE: Jointly Operating Electric Heat and Wind-Motor Power Plants of Practically the Same Capacity (Sovmestnaya rabota teplovykh i vetrov kh elektricheakikh stantsiy prakticheski ravnoy mo6hchnosM PERIODICAL: Tr. Vses. n.-i. in-ta mekhaniz. 8-kh., 1956, Nr 22, pp. 146-167 ABSTRACT: A study has been made on theA -18 and 1-a -18 type wind- motors and a heat power station with a stationary internal combustion engine. To protect the wind motor from mechanical overloading, it is necessary to install electro- magnetic slip-rings or a wind-actuated moment regulator. It is pointed out that in view of the different.principles of control, as well as to the different capacity ratios of the internal:-combustion engine electric power plant and the wind-motor electric plant, it is necessary to take Card 1/2 these precautions to protect the wind motor*from mechanical  AMMIANOV, Y.N., prof.-. MOMININA, N.A., assistent; HISHARINA, Ye.A., JLO"UYvwkhn.nauk; MIKONOT, L.V., doteent; ERPRINK, B.1.',.prof... reteensent; GUMOVICH, A.A., kand.takhn.nauk; GILIMAN, Te.A.. red.; VOZNESRNSKIY, A.B., tekha.red. [Electric machines-, instructions and assi nts for students specializing in the electrification of agriculture] Blektricheakis mashiny; metodichaskie ukazanila i kontroltnys sadaniia dlia stu- dentov apetoiallnosti "olektrifikateita sel'skokhoziastvennogo proizvodetvo.* Pod red. V.B.Andrionova i A.A.Glebovicha. Kdakva, Moak. in-t mekhanizataii i elektrifikBtsii sel'.khoa., 1958. 56p. (MIRA 12:2) (Electric machinery)  ANDRIA11211JANAwodolftor tekhn.nauk; BMSENRV. Ye.Ye.. inzh.; BYSTRITSKIT, knnd.takhn.nauk; GRICBENNIKOV, A.F., k!3nd.tekhn.r;auk; G3WSOV, H.A., kand.takhn.vmk;Z0YW, V.A., kand.tekhn.nauk-, KLIHOV, A.A., kand.takhn.nauk; KORGIV, Y.F.. kand.tekhn.nauk; KI]DRYAVTSEV. I.F., kand.tokhn.neuk; KUIK. H.Ye., kand.tekhn.nauk; HAZAROV, G.I., kand. takhn.nauk; OLHYNIK, N.P.. inzh.; OSICTROV. P.A., kand.tekhn.nauk; PWSOSOV, A.H., inzh.; POPOV. S.T.,1inzh.;PRISHCH3P,L.G., kand. tekhnenauk; PCHELKIII. Yu.N., inzh.; RUBTSOV, P.A., kand.takhn.nauk; RUNOV, B.A., kFmd.tekhn,,nauk; SAVINKOV, K.P., kand.tekhn.nauk; SAZONOV, N.A., prof., doktor tekha.nauk,- SERGRYEV. A.&., iazh.; SKVCIRTSOV, P.P., kand.tekhn.nauk; SMIRNOV, B.V., kand.tokhn.asuk; SHIRUOV, V.I., kand.tekhn.nauk; TYHINS 'KIY, Ye.V., inzh.; URVACHEV, P.Ne, 1--and.tekhn.nauk; SHTRURHAN. B.A., inzh.; SHCHUROV, S.7., kand.okon.nauk; RUNOVA, L.M., inzh.; VOLIPOVSKAYA, D.N.. red.-, NIKITINA, V.M.. red.; BALUM, A.I., tekbn.red. [manual on the use of electric power in agriculture] Spravochnik po primeneniiu elektorenergii v sel'skom khoziaistve. Moskva, GOB. izd-vo sellkhoz. lit-ry, 1958. 606 p. (MIRA 11:5) (Blectricity In agriculture)  MMOOTANTSEY, Y.T., kand.takhn.nauk: TURASOY. T.Y., "nd.takhn.nauk; ALULCR, Sh.M., kand.takhn.nauk-,,,A!gqgAM,,_,,!,Y., doktor tekhn. nsuk; ASTAFITZT, X.N.j kandetakhn,nauki BUDZKO, LA..~skademik; BYSTRITSKIY, D.N., kand.tekhn.nauk; TRYALIS, B.S., kand.tekhn. nauk; GIRSHBIRG,-Y.Y.. inzh.-. GORMMOY. Ye.M., inth.; GRI- CHSTSKIT, B.Ta.* Inah.; ZAKHARJ1N, A.G., doktor tekhn.nauk; ZLATKOVSKIT, A.P,j kand.tekhn.nauk; IOSIPTAN, S.G., insh.; ITSKOYICH, A.M., doteent; KAlaWN, B.H., inzh.; KTITKO, M.N.. insh.; KORSHUNOY, A.P~, inzh.; LEVIN, M.S., )mnd.tokhn.nauk*, LOBANOT, T.N., doteent; LITTINICNKO, A.F.. inzh.; HERKILOT, G.F., insh.; PMHATKA. P.Te., kand.tekhn.nauk; PRONNIKOVA, H.I., kand.takhn.nauk; SKIRNOT, B.Y.. kand.tekhn.nauk; FATYU- SMMO, S.G., inzh.; KHODNKY, Y.Y., inzh.; SHCHATS, Te.L., kand.takhn.nauk; XBIN. L.Te.. doktor tekhn.nauk; ERTIN, I.A., kand.tekhn.nauk; SILIN, T.S.. red.; SMYANSKIT, T.A., red.; BALLOD, A.I., takhn.red.; SMIRNOYA, Te.A., tekhn.red. [Handbook pertaining to the production and distribution of electricity in agriculture] Spravochnik po proizvodstvu i r9spredeldniiu, elektricheskoi energii v sel'skom khoziaistve. Koskva, Gos.12d-vo selikhoz.lit-ry. 1959. 900 p. (MIRA 13:2) I.Tsesoyusnaya akademiya seliskokhozyaystvennykh nauk imeni T.I.Lenina (for Budzko). (Rural electrification)  8(0) SOV/105-59-3-26/27 AUTHORS: dzko, 1. A., Suzonov, X. A.) -4~ ~ri~no~~B~U _ Skvortsov, P. F. TITLE: Stepan Artemlyevich Burguchev PERIODICAL: Elektrichestvo, 1959, Nr 3, p 96 (USSR) ABSTRACT: This article has been written to celebrite the 70-th birthday of Stepan Artemlyevich Burguchev. He was born in December 1888 and graduated from the Moskovskoye vyssheye tekhniches- koye uchilishche (Moscow Technical Col-leed) ' as an Elec- trical Engineer in 1919. While he was still studying, he took part in the planning of the project and in the con- struction of the first regional power station "Blektro- peredachall (at pret~t3nt GRES im. Klassona). After leaving the -~ dollop ., he supervised the efforts directed towards the electrification of agriculture in the Moskovskaya oblast', of textile industry and linen ware Kombinats in the Vladimirskaya oblast' and the planning and the constrijetion of the sub-stations in the Podmoskovskiy ugollnyy bassein (Podmoskovskiy coal Card 1/3 basin). He collaborated in the establis'llment of the firat  Stepan Artemlyevich Burguchev SOCV/1()~,-150'-.7-26/27 agricultural Yaropoletskaya elektrostnntsiya im. Lenina (Yaropolets power station imeni Lenin). Under his super- vision the elect~.ified section of the first staUe of the Moscow subway and the Dneprovskiy alyuminiyevyy kombinat (Dnepr Aluminum Kombinat) were built. During World War Il he was engaged in work concerned with the dectrificantion of industries evacuated to the east. He is a member of the section of electrification of the Nauchno-tekhnicheskiy sovet Ministerstva sellskogo kho"Vaystva SSSR (Scientific- Technical Council at the Ministry of Agriculture of the USSR). Since 1923 he is besides his activities as an engineer also engaged in scientific and pedagogical work at the Vseso- yuznyy elektrotekhnichoskiy institut im. Lenina (All-Union Institute of Electrical Engineering imeni Lenin), at the Moskovskiy elektromekhanicheakiy institut im. Lomonosova (Moscow Institute of Electromechanics iizteni Lomonosov),and at the Moskovskiy institut mekhanizatsii i elektrifikataii sellakogo khozyaystva (IMoscow Institute for the Mechaniza- tion and Electrification of Agriculture). He is one of the founders of the scientific discipline of the "Production Card 2/3 and distribution of electrical power in a-rioulture". He U I  Stepan Artemlyevich Burguchev SOV/105-59-3-26/27 is the author of many publicationB. His book 11 Electrical power stations and sub-stations in a.-riculture" (1958) is a systematic work which gives a general aspect of experience U gained in many years. 1953 he was awarded the Lenin Order. There is 1 figure.  ANDRIaOV, V.N., doktor tekhn.ua*; BYSTRITIM, D.N., kand.tekhn.nauk,, X.F. , inzhe Dynamic processes In %be operation of wind electric power plants in an eleotrio systeme Nauche trudy VINSKE 4:207-225 159. (HERA 13: 11) 1. TSentrallnyy aero-gidrodinamicheakiy institut (for Vashkevich). .(Wind power)  AIMUIAIW, V.N.;.BYSTRITSKIY. D.N.; KRAUSP, V.R.; FAITIKIII, V.T.; rZOMLOVSKIY, a.A.; ZAK, I.G.; LEVIU, M.I. Automation of small mobile electric power plants used as temporary and reserve power supply sources in agriculture. Sbor. nauch.-tekh. inform. po elek. sellkhoz. no.6:34-39 159. (XIRA 1319) 1. Voesoymnyy nauchno-issladovatellsk-iy institut elektrifiloataii sel'skogo khozvaystva (for Pechkovskiy). 2. Saratovskiy . mekhanicheskiy zavod (for Zak). 3. TSentralinyy dezinfekt- sionnyy nauchno-issledovatel'skiy institut (for Ievin). (Ilectric power plants) (Ilectricity in agriculture)  ANMIANOV, V.X - oktor tolchn.nauk; BYSTRITSKIT, D.N., kand.takhn. aPANIKIN, V.V., insh, Automation of mobile diesel electric power stations. Mekh,t slak.sots.sellkhos. 17' no.5:33 159. (MIRA 12:12) 1. VoesoyuxWy nauchno-iseledovatellekiy institut elektrifi- kataii sel'skogo khozyaystva. (Blectric power plants)  ADDRIANOY,.Viktor Nikolayevi.oh, prof.-, BTSTRITSKIT, D.N.; YOROPATEV, Nolo; DRUZHIMINA, N.A.; HISHARINA, Ta.A.; NIKOKOV, L.V.; HIKITINA, T.K.* red,-, PROKOFITIVA, L.H., tekhn.red. (Practical studies of electric machinery in laboratories] Labor&- torno-praktichookis saniatiis po alaktrichaskim mashinam. Moskva, Gos.isd-vo sallkhozolit-ry, 1960. 250 p. (MIRA 13:6) (Blootric machinery-Study and teaching)  PHASE I BOOK EXPLOITATION SOV/5321 ,Andrianov, -Viktor Nikolayevich, Dorian Naumovich Bystritskiy, Konstantin FetrovicE Vashkevich, and Vladimir Rafailovich Sektorov Vatro-elektricheskiye stantaii (Wind-Motor Electric Power Stations) Moscow, Gosenergoizdat, 1960- 319 P- 2,000 copies printed. Ed. (Title page): V.N. Andrianov, Professor; Ed#: V.A. Orlov; Tech. Ed.:. K.P. L Voronin. PUPJ'0SE: This book is intended for power engineers of various specialties for engineers engaged in designing and operation of wind-driven electric power stations., and for students and agricultural workers in the field of rural electrification. COVEIME: The authors describe vind-motor direct-current and altemating-current electric power stations of various capacities. The following are discussed: design and utiLization of stations; problems of control-system statics and dynamics in isolated stations and in those connected in parallel with a system cara4o  8/105/60/000/05/25/028 B007/BOO8 4RqXA--Yj#, Astakhov# N.V., Gubenko, T.P., Kostenko, M.P., AUTHORS: 4njEL Larionov, A.N., Lopukhina, Ye.M., Petrov, G.N., Somikhina, G.S., Yuferovp F.M., Chilikin, M.G. TITLE: Yu.S. Chechet,(Deceased) PERIODICAL: Blektrichestvol 1960, No- 51 P- 89 TEXT: lyuriy sergeyevich ChnhieJt Professor at the Moskovskiy energetieheskiy institut (Moscow Institute of Power Engineering), scientist and pedagogue, and an expert in the field of electrical micromachines, died on February 26, 1960. He was born on February 2, 1894- He studied at the makhanicheakiy fakulltet Kiyevskogo politekhnicheskogo instituta (Department of Mechanics at the Kiyev Polytechnic Institute) from 1913 to 1919. From 1919 teaching activity in Odessa and in Moscow. In 1923 he graduated from the elektrotekhnicheskiy fakulitet Moskovskogo vysshego tekhnicheskogo uohilishoha (Department of Electrical Engineering at the Moscow Higher Technical School). He published about 40 scientific studies. From 1931-1942 Director of the kafedra elektriche- skikh mashin (Chair for Electrical Machines) at the Moskovskiy institut Card 1/2  Yu.S. Chechet (Deceased) 8/105J60/000/05/25/028 B007/B0O8 mekhanizatsii i elektrifikataii sellskogo khozyaystva (Moscow Institute of the Mechanization and Electrification of Agriculture). From 1942 until his death he was Professor at the kafedra elektricheskikh mashin Moskovskogo energeticheskogo institute, (Chair for Electrical Machines at the Moscow Institute of Power Engineering). At the same time he directed a chair at the Voyeano-inzhenernaya Krasnoznamennaya akademiya im. Kuybysheva (Military "Red Banner" Engineering Academy imeni Xuybyshev) for a number of years. He took hie dootorls degree in 1940. He wrote his dissertation on "Theoretical Principles for the Designing of Universal Mioromotors" ("Toorstioheakiye osnovy proyektirovaniya univeraallnykh mikrodvigateley.11). He was a Deputy of the Mossovet (Moscow Soviet of Workers' Deputies) and holder of the Order of Lenin and a number of medals$ as well as Chairman of the Section Electrioal Machines of the MONITOE. There is-1 figure. Card 2/2  A NDRIAN P ID~IA~NO _Y~H_ doktor takhn. nauk, prof.; SENENYAK, Yu.A., inzh. [Efficient electric drive for cream separators] K voprosu o ratsionallnom elektroprivode molochnykh separatorov; nauchnoe soobshchenie. Moskva, Otdel tekhn. informatsii VIESKha. 1962. 41 p. (MIRA 16:11) (Cram separators-Electric driving)  ANDRIANOV, V.N., ; SEMENYAK, Yu.A., Use of a calibrated d.c. motor for derivation of mechanical charac- teristics. Prom. energ. 17 no-3:12-13 Mr '62. (14IRA lz~1:2) (Electric power distribution) (Electric machinery)  AMRIANOVt V.N., doktor tekhn.nauk; DISTRITSKIY' D.N., kand.tekhn-o-nauk PulBe otart of asynchronou-s'"shoet.;~aircui't6d,mators. Mekh. i olok. bots. selikhos. 20 no-ji46m4l 162".1 (MIRA 15:7) 1. Moskovskaya'soliskokhoi~myetvenn'aya akademiya imeni Timiryazova (for Andrianov), 2. Vaesoyusnyy nauchno- issledovatejlLk,i~ institut ile.ktrifilmtoii sellskojo khozyaystva (for Bystrits 0190tric motorso;Induotion)  ANDRIANOV Vo Nqs_dpktor tekhn. nauk; GORIN,, Ye. I,,, inzh. Cartaizi features of using synchronous electric motors In agriculture. Mekh. I elek. note. sellkhom, 20 no.6147-50 t62o (MIU 16 s 1) 1. Moskovolm-ya sellakokhozTaystvennaya akademiya in. K. A. Timiryazeva (for Andrianov). 2. Vaesoyuznyy nauchno-issledo- *atellskiy inatitut elektrifikataii sellskogo khozyaystva (for Gorin). (Electric motors, Synchronous) (Electricity in agriculture) 'k.  ALUMR, Sh.M.; ATIDRIANOVI VIV.; BUDZKOI I.A.; BURGUGHEV, S.A.; ZAKHARIN, A.Gs; NAZAROV, G.I.; FRISHCHEF~ L.G.; FOYARKOV, M.F.; RASOVSKIY, E.I.; RUNOV, B.A.; SKVORTSOV, P.F.; SEYGEYEV, A.V. P.N.Listov; on his sixtieth birthday and the thirty-fifth anniversary of his industrial,, theoretical, and educational work. Elektrichestvo no .11:94 N 162. (MIU 15:11) (Listov, Petr Nikolaevich, 1902-)  ANDRIMOV, V.N.0 doktor takhnizauki SEMMYAKs, YU,A,p inshe Choice of electric motors for driving milk centrifuges, vest. elektroprom 33 no.9:29-33 S 162* (M RA 15:10) (Cream separators-Electric driving)  ANDRIANOV, V.N.I. doktor tekhn. nauk; BYSTRIISKIY, D.H., kand. tekhn. nauk; PANIKINJI V.V.I, inzh. Automatic control networks at mobile diesel electric power plants with contactless elements. Mekh. i elek. sots. sel'kh02. 21 no.308-43 163. (MIRA 16:8) 1. Moskovskays, sel'skokhozyaystvennaya, akademiya imeni Timiryazeva (for Andrianov), 2, Vsesoyuznyy nauchno-issledovatellskiy Institut elektrifikataii sel'skogo khozyaystva (for Bystritakiy, Panlkin). (Diesel electric power plants) (Electricity in agriculture)  ANDRIANOV, V.N., doktor tekhn. nauk; CHERNOPYATUV, N.I., Jnzh. Expediency of the use of single-phase electric motors in rural networks. Mekh. i elek. sots. sellkhoz. 21 no.5-.42-44 163. (MIRA 17:1) 1. Moskovskaya sellskokhozyaystvennaya akademiya im. K.A, Timiryazeva (for Andrianov). 2. Chelyabinskiy institut mekhanizatsii i elektrifikatsii sellskogo khozyaystva (for Chernopyatov).  m ANDRIANOV, V.N.; BUDZKO, I.A.; BURGUCHEV, S.A.; LISTOV, P.N.; PETROV, I.I.; --FOYARKOV;-'M.F.; SKVORTSOV, P.F. G.I.Nazarov; on his 60th birthday. Elektrichestvo no.9192 3 163. (MIRA 16:10)  ANDRIANOV V.N. I-----------,Jv--,.-'I .,; BTILGAKOVA, M.D. Middle, Carboniferous age in boundary, layers of the Tiks and Verkhoyansk series of the Rharnulakh Mountains in the lower Lena Valley. DokI. AN SSSR 162 n0.12155-1.57 My 165. NIP-A 183 5) I. Institut geologii Yakutskogo filiala Sibirskogo otdeleniya AN STIR, Submitted Janu&ry 9, 1965.  KOCHON't, O.D., kand. med. naik; A iLlk-I KURITSYNII I, S.N.J, kund. med. nauk Dermatovenereological service in Gorkly Province in conrection with the publi.c health reorganization. Vest. derm. i ven. 38 no.10:73-75 0 164. (MIF-A 18:7) .1 -1-vullerologicha'skly 1. Gorlkovskl- kozIllic . stitut (direktor - hand. mod. nauk O.D. Kochura) I-11nisterstva ln ,,dravookhraneniya MUSH.  -AX BTSTRITSM~ D.N.,, kand. _9ArAffqV., V.N.,, doktor teklin.nauk, prof. Noskv&); te)dui,-i*uk (Moskva) Start of squirrel-oaRS induotion motors from an autonomous power supply unit* Elaktrioheetvo no,lOs46-52 0 165, (MM 18tlO)  ANDRIANOV V.P.., inzh.; DMALALOV, G.G., lnzh.; TOLSTOY, V,V.~ inzh. TransmiBslon of dftta to a railroad computer center. Avtom,, telem. i.sviazs 9 no.WO-15 Ag 165. (MIRA 18:9)   77-  TULUPOV, L.P.,9 kand.tekhn.nauk; ANDRIANOV. Y,,P-,-!inzh.; BUYANOV, V.A.., inzh. Organization of remote-controlled transmission of information to the computing points of railroads. Vest.TSNII MPS 20 no*3.-57-61 161, (MIRA 14:5) (Railroads-Eleotronic equipment)  S/12o/62/000/001/047/o6i E039/E485* AUTHORS: Danilov, I.B., Andrianov, V.P. TITLE: An electrical indicator for the tuning and testing of ifo.rlcing piston engines PERIODICAL: Pribory i tekhnika eksperimenta, no.1, 1962, 183-185 TEXT: The apparatus ddscribed permits the continuous observation of the indicator diagram of a working piston engine on the screen of an oscillograph, without the addition of a probe to the working volume of the cylinder. Instead of measuring the pressure in the working volume directly, the distortion of a part of the engine was measured, by means of a resistance strain gauge, at a point where the deformation was proportional to the pressure in the working volume. In this particular case, a. stainless steel tube which strengthened the cylinder and va ve case was used. The strain gauge consisted of a grid of constantan wire, 40 mm long with a 0.5 mm pitch mounted on a paper base, and had a total resistance of 300 ohms. The gauge was fixed on to the stainless steel tube by ineans of adhesive 192-T and its sensitivity, measured by applying a static pressure Card 1/2  An electrical indicator ... S/120/62/000/001/047/o6i E039/E485 to the system, was shown to be 0-3fl/kg. The influence of transverse oscillations of the tube was reduced by using two strain gauges mounted on opposite sides of the tube. The signal from the strain gauges was amplified and displayed on an -30-7 (E0-7) oscillograph. As it was necessary to amplify very low frequencies, the frequency-characteristic of the vertical amplifier was modified. Taking the amplification coefficient at 3 to 10 c/s as unity, then at 0.3 c/s it was 0.7. The horizontal time base was taken from a generator mounted on the crankshaft of the engine. As the engine worked at speeds of about 300 rpm, the cathode ray tube of the oscilloscope was changed for one with a long afterglow screen. Photographs of the indicator diagrams obtained are included in the paper. The method was found to be reliable and convenient. Acknowledgments are expressed to P.L.Kapitea for the idea of the electric indicator and to L.N.Shteyngayz for the construction of the, generator. There are 4 figures and 1 table. ASSOCIATION: Institut fizicheskikh problem AN SSSR (The Institute of Physical Problems AS USSR) Card 2/2 SUBMITTED: June 1, 1961  A.P., doktor tekhn. nauk, prof.; TULUPOV,-I,.P., kand. tekhn. nauk; KRYUKOV', N.D., kand. tekhn.nauk; GUNDOBIN, V.N., inzh.; VASILIYEV, G.S., kand. takhn. nauk; GRISHIN, M.S., kand. tekhn. nauk; MOROZOVA, K.N., inzh.; ROZE, V.A., inzh.; LEVSHIN, G.L., insh.; BERNGARD, K.A., doktor takhn. nauk.. Prof.; BIKCHENTAY, M.A., inzh.; BUYANOV, V.A., inah.; ILOVAYSKIY, N.D., inzh.; MUKHAMEDOV. G.A., kand. tekhn.nauk; MIROSHNICHENKO, A.P., inzh..--ANDRIANOV. V.P., inzh.; BUTS, V.D., inzh.; KAZIMY, A.A., inzb.f HTNETEV, U.r., inzh.; DYUFUR, S.L., kand. tekhm nauk; USTINSKIY, A.A., kand. tekhn. nauk; MIKHAYLOV, S.M., Inzh.; NESTEROVj, Ye.P., kand. tekhn. nauk,, retsensent; LIVSHITS, V.H., inzh., retsenzent; PREDE, V.Yu., inzh.,-red.; VOROTNIKOVA, L F., tekhn. red. (Control of transportation processes using electronic digital computers) Upravlenie perevozochnym protsesaom 9 primeneniem elektronnykh tsifrovykh vychislitelInykh mashin. Pod obshebei red. A.P.Petrova. Moskva, Transzheldorizdat, 1963. 207 p. (MIRA 16:8) 1. Chlen-korrespondent AN SSSR (for Petrov). (Railroads--Management) (Electronic digital computers)  ANDRIANOV# V. P. " insh. ----6O'-Mp&-r'j:nj-the methods for increaoing the fidelity of informa- tion transmission, Vesta TSNII M 22 no.3:54-59 163. (MIFLA 16: 7) (Railroads-4ommication systems)  ANDRIANOV, V.P., insh. Coordinated chamoteristics of channels for data transmission. Vast..TSNII MPS 2.4 no.208-62 165. (MIRA JSt5)  DIBROV, V.Te.; HIRONOV, I.K.: KHCLI, F.I.; ANDRIANOV, V.T.; LEBEIEV. A.P., doktor geologo-mineral.nauk, otv.redt; INSHM SUY, A.I., red. isd-va; RYLINA. Yu.Y., takhn.red. COeology and diamond potential of the southwestern Siberian Platform] Geologicheekoe stroenle i almazonoanost' iugo-zapadnoi chasti Sibirskoi platformy. Moskva, Izd-vo Akad.nau,k SSSR, 1960. 96 p. (MIRA 13:4) (Siberian Platform--Diamonds)  ANDRIANOV. V.V. Conference of medical workers of the Mari A.S.S.R. Zdrav. Ros.Yeder. 2 no.1:47-48 Ja 158, (MIRA 11:2) (HARI A.S.S.R.-PUBLIC HgALTH)  ANDRIANOV, V.V. Changes in the nervous system in the cerebral form of vibration sick- ness, Uch. zap. Mosk.nauch.-isal.inst.san. i gig. no.7:52-56 160. (14IRA 15:2) (VIBATIOP-MSIOLOGIG'AL EFFECT) (NERVOUS SYSTEM)  ANDRIANOV, Vasiliy Vasillyevich; red. Naab [our Cuba otnoshenii, 1963. 102 AFaUKRUK, P.L., red.; YEPKK.*VA, drug Kuba, Hoskva., In-t mezhdunar. p. (MIRA, 17:2)  ANDRIANOV, V.V.; KONYUKHOV, V.V.; NIKOLOTOVA, A.S.; TREYY,.AN, V.V., prof. Some data on medical service and the incidence of diEease with temporary disability of workers and emplo~rees of the Ryazan Combine of Artificial Fibers. Nauch.trudy Riaz.med. inst. 2308-44 163. (MIRA 18:12) 1. Wedra organizataii zdravookhraneniya i istorii meditsiny (zav. kafedroy - prof. V.V.Treyman) Ryazanskogo meditsinskogo institute. imeni akademika I.P.Pavlova.  ACCESSION !'-M: AP4000400 S/6294/63/001/001/0050/0055 AUTHORS: Sy*chev, V. V.; Andrianov, V. V. TITLE: Effect of gravithtional factors on specific heat measurements cv near the. critical point SOU!kCEE: Teplofizika vy.*sokikh temperatur, v. 1, no'. 1,. 1963;.50-55 TOPIC TAGS: gravitation,. specific heat, beat capacity; critical point, physical property, thermodynamic property ABSTRACT: In view of the lack of either txperimental- -or theoretical -published data on this subject, the author considers a hypothetical calorimetric vessel placed in a thermostat in Vnidh critical tempera- ture i~" maintained. Although 11--he pressure variation along.the.height of the vessel is very slight, near the critical point this variation causeg a noticeable variation in density of matteri so*that the cri~Cical state of matter is attained at some.section of the vessel Ccrd 1/2  .ACCESSION NR: AP4000400 i,n such a-way that the position of the cross section in which the- criti~al state is realized varies from the uppei point of the ves- sel to a point on its boltto-m in accordance with the'different values of the specific volume of the matter averaged over the' vessel'. The effects due to agravity are calculated on the basis of this model, and it is suggested that a precision experimental study of these Dhenomena would be'of great interest. Original article has: 7 for- mulas and 5 figures. ASSOCIATION: Nauchno-is-sledovatellskiy institut vysokikh temperatur Temperature Research Institute) SbMITITED: - 27Apr63 DATE ACQ: 13Dec63 EkLi 00 SOB CODE: AS NO -REF SOV: 003 OTHER:- 001 Card 2/2  1, 1_429~-a_65_ EEC (b)-2/EPF(c).IEPF(n)-2/Ej?R/ErdP(J)/EWT U-A(d) Pc_4/Pr_4/PB_4/Pu-4 RAE-14(C)/IJP(c) GG/R1,i/ir,i/J:)/J1G ACCESSION NR: AP4049130 S/0020/(14/159/001/0060/0062 AUTHORi Sy*chev, V. V.; Z;inkevich, V. B.; Andrian(i, V. V.; Al'tov, V. A. TITLE,. Discontinuity of the critical a-c current value in passing through the lambda-point of a s ergoq ucting soleaoid 9 UP_- _ _4__ - .- SOURCE: AN SSSR. Doklady*, v. 159, no. 1, 1964, 60-62 TOPIC TAGS: superconductivity, lambda point, sul!rdonductive solenoid, AC superconductivity, critical current discontintAty, helium immersed solenoid ABSTRACT: The factors determining the critical :urTent value in superconducting solenoids were studied experimer dally by establishing the behavior of the critical current value as 0 t temperature was reduced. Network power at a frequency of 50 cp6 was used in, measure- men Ls . The coils were made of 65 BT (a multi-, mponent Nb- -TS-based alloy developed by the Central Scientific Reaaa7 --h Institute of Forrous Metallurgy) superconducting wire 0.25 mm in that -ter, "vinifle-)O' ,_;boated !-o a diameter of 0.30 mm. The experiment t1 arrangement per- mitted lowering the temperatures in the cryostat to 2K by reducing the helium vapor pressure in the chamber. Thret types of solenoids Card 1/3.  were investigated, Type I bad 6200 turns with inside and outside diameters of 16 and 45 mm respectively, and a coil height of 35 mm The value of the critical current density remained constant in thi solenoid. down to a temperature of about 2.17K where a sharp upwar jump occurred Th solenoids of types 11 and III were wound on a polyfluoroeth;len form of 55 mm high and having an axial hole of 6 mm in diameter. Solenoid 11 had 5000 turns, its inside and outs diameters were 16 and 39 mm, and it was 35 mm high. Solenoid III 2700 turns, inside and outside diameters of 1b and 29 mm, and a height of 35 mm. The measuretEents revealed that the value of crit current density rises sharply with smaller solenoids. The results obtained point to a strong dependence of he critical current valu -helkuv,-Ajhto the inner zone of the an the penetration of the liquid winding. Helium vapors In that zone apparently do not prevent the inflow of the liquid. In any case, the results obtained cannot be satisfactorily explaiLied solely by changes in heat conduction from surface of the solenoid during the transition through the lambda p Orig. art. hast 3 figures*  ACCESSION NRt A?4049130 ASSOCIATIONi Nsuchno-Iseledovatellskiy institut vysokikh temperatur Moskovskogo energaticheakogo inatituta (Scientific Research Institute of High Temperatures, Moscow Power Engineerl-n-g-Inatitute) SUBMITTEDs ISJunb3 ENCLt 00 SUB CODEt EC NO REP SOV: 000 OTHERt 004 ATD PRESS: 1,136 Card 3 3'  -AFDUZ7638 lip ke V -6/ A 165/001/007376 AUTHOR: Sychey. V. V Zenke.vic V. B.; Andrlw2v, V. V. 0 ~-r ' ") T7 M, ORG: OcIentific-Reaearch Institute High TeTReratures (Nauchno-issledovatel'sidy Institut vysokikh tomperatur) TITLE: Inductance of a superconducting solenoid SOURCE: AN SSSR, Doklady, v. 165t no. 1, 1965, 73-76 TOPIC TAGS: superconductiv#y, superconducting alloy, magnetic induction, solenoid ABSTRACT: Earlier determinations of the Inductance of superconducting solenoids led to contradictory results and transient processes In superconductive magnetic systems could not be explained by the existing ideas concerning the inductance of superconducting solenoids. The present authors carried out experiments using a test solenoid with 11 0 2 tttr f Nb 33%Zr wire 0. 2 min In diameter. The wire Is Insulated by vinffleN K=.s M'.Wiie coatings. The Inner diameter of the windings Is 16 mm, the ourer 51.5 mm, and the height of the solenoid is 37. 5 mm. The coefficient of filling of Vie windings by the superconductive material Is 0. 525. The critical solenoid current is 11. 6 acorresponding to a maximum field at the center of Vie solenoid of 32 k0. The first series of tests dealt with the solenoid carrying a weak AG current component (I ma, 80 cps) superimposed on a DC current component. In the second set of tests, the solenoid carrying a prescribed DC current was disconnected from ths Card 1/3 UDC: 537.312.8 + 538.532  Acc NRi power supply by vacuum connectors and t-hen connected across a discharge resistance (I ohm) The results are shown In 'Fig. 1. Computer calculations of the energy of the magnetic field I L I 41 V 9 10 Is kOe Fig. 1. Results of the measurement of the Inductance of the superconducting solenoid.. Curves 1 and 2 correspond to the first and second series of tests, respectively. within an appropriate magnetic field and the measured value of the total solenoid Inductance at liquid nitrogen temperatures yield a value of 0. 97111 for the external Inductance of the para- magnetic solenoid. This Is !.n good agreement with the experimental results. The article con- cludes with a discussion *of the possible reasons for the differences between curves 1 and 2. I Card 2/3  10245-a ACC N% AP5027838 The paper was presented by Academician V.A. KIrHlIn, 9 June 66. The authors thank V A, Anqv and V* 0.1 Manuylov (who prepared the computer program) for their help during tfiTe investigation F. F.-Ternovskly for discussing the results. Orig. art. has; 3 formulas Ire and 1figure. 1081 SUB COD M DATE,. 08Jun65 OTH REV: 002 ATD PRESS ~`M qe Card 3/3  SYCHFV, V.V. (Moskva); ZENKEVICH, V,B. (MoSkVa);_jjgKjTtjt4()1,1 V V (Moskva) I I -, , . Investigation of the transition processes of a superconducting solenoid with inductive protection going normal. Izv. AN SSSR. Energ. i transp. no.1:100-106 Ja-F 165. (MIRA 18-4)  L .5~922_65_ ACCESSION MR: AP5012436 UR/0281/65/000/002/0117/0122 A TIJOR. Sychev, V- V- (bbscow); Zenkevich, V. 13. Noscow); Andrianov, V. 43 p_ t Mofs cow, V. TIILL: ne influence of the protective loop resistance on the transition of a superconducting solenoid to the normal state SOURCE: AN SSSR. Izvestiya. Energetika i transport, no. 2, )965, 117-122 TOPIC TAGS: semiconductor solenoid transition, impedance protected coil, super- conducting coil, coil voltage surge, superconducting system resistance ABST ACT: In an earlier paper (Izv. AN SSSR, Energetika i transport, 1965, no. 1)" the authors presented the results of an experimental study of the transition of a superconducting solenoid to its normal state for a constant value of the resis- tance within the protective loop. The theoretical study of such a process was carried out earlier by M. W. Dowley (Cryogenics, 1964, v. 4, no. 3, p. 153) and P. F. Smith (Rev. Sci. Instr., 1963, v. 34, V. 368). The present paper reports results using the same inductively protected solenoid but for various values of the resistance of the secondary loop . This auxiliary copper coil, whose circuit is closed through the external resistor, reduces the beat liberation and surge of voltage within the superconducting moterial during the transient proces6. Ra- ,Card 1/2  L 55922- 55 ACCESSION KR: AP5012436 sults in the form of graphs cover 1) the time dependence of the current within the primary loop of the superconducting solenoid, 2) the time dependence of the voltage surge along the normal section of the solenoid accompanying the transi- tion from the superconducting state for various values of the secondary loop re- sistance, 3) the changes in current within the secondary solenoid loop, 4) the dependence of the primary resistance on'the addittonal resistance in the second-; ary at the-instant of time the current within the superconductiag windings drops to 3ne half of its initial value, 5) the maximum voltage surge as a function of th2 resistance of the secondary, 6) the portion of the magnetic field energy consumed by the secondary, 7) changes (in time) in the heat liberation power within various elements of the system, and 8) the maximum values of heat libera- tion within various elements of the syGtom as a function of thE! added resistance.' Orig. art. has: 10 formulas and 8 iigures. ASSOCIATION,. None SUBMTTED: 200ct64 ENCL., 00 SUB CODE: EE NO REF SOV, 001 anTER! 002 cje~- _7t  L~V 47, 1/-F4-vk io 1 j A,- ji),rity-RM 1 ACC UR 6-2 -'NR: _70569105~i___ SOURCE CODE: AUTHOR: Sychev, V. V.; Zenkevich, V. B.; Andrianov, V. V. ORG: Scientific Research Institute of High TMperatures (Naiichno-isaledovatellskiy institut vysokikh temperatur) rITLE: Intrinsic magnetic flux in a superconducting solenoid v~ SOURCE: AN SSSR. Doklady, v. 169, no. 3, 1966, 569-572 ,e TOPIC TAGS: solenoid, superconductivity ABSTRACT: A new method is proposed for studying the magnetic properties of a supercon ducting solenoid in view of the incomplete and contradictory picture of the behavior of a solenoid in a self-field. The magnetic history of the solenoid may be described by using the concept of the total magnetic flux (magnetic linkage) of the solenoid T. This quantity is the sum of the intrinsic 11. and extrinsic 4' fluxes of the solenoid. 11 e In an infinite solenoid the extrinsic flux is independent of the intensity of magneti- zation in the coil and is linearly dependent on the current I flowing in the coil, Te=Le1, where Leis a proportionality factor which may be called the extrinsic induc- tance of the solenoid. It is found that the factor Le for a solenoid of finite length Card .112 UDC: 537.312.62  lip(c) 'TGA";'/jr' L ~'V!436-66 W (m) /:-;4P(k)/9,.T(e)/7.1P(t) /ET I ACC NRs AP60M389 SOURCE CODE.. UR 1-66~5-/ "Ti-69 /002 /03 16 /0 319 r) AUTHOR: AndrianoK,_Y~*_4.; Zenkevich, V. B.; Sokolov, V. I.; Sychey Ve Ve TUVEa, V. A.; Fedotovo L. N. 4 ORO: Scientific Research Institute for -High Temperatures (Nauchno- issledovatellskiy institut vysokikh temperatur); Central Scientific Research Institute for Ferrous Metallurgy im. I. P. Bardin (TeentraIT-Z nyy nauchno-iscledovatePokiy institut chernoy metall-urrIki-L) TITLE: A superconducting solenoid from a three-component alloy generating fields of over T5j 000 Oe SOURCEi AN SSSR, Doklady, v. 169, no. 2, 1966, 316-319 TOPIC TAGSt superconductivity, strong magnetic field, niobium alloys ti"tanium alloy, zirconium containing alloy j -50AX-VOID ABSTRACT: A superconducting magnet has been constructed which gen- erates magnetic fields of more t4n 75,000 oe using.v"e made from an alloy of niobium-4(65%), titaniumig15%), and zirconlu-n-l(about 9%)p the remainder being lAther co-m-p-o-n-e-n-G selected for their metallurgical properties, The critical temperature of the material is 9.8-10K, Because of its relatively low brittleness, the 0.25-mm oods copper- plated wire could be drawn by standard methods into four-kg coils Card 1/2 f Cqrj !2Lj_, UDCs 537.312.62  Fvel Abstracts Vr,~~3,790.' RMISTAMM OF COOLIND WMR SPMT DEVICM. am to MaY 1954 ev, C.9. * (Clekr.; Sta. jPWS4;, soQ, Oat. 1993;Va. -j7;,A Results are presented of "et and " tests ot'various types at sproalar, Steam Raiiing owrisd out on an expwimental ocaling tmw In order to sMploo*m existing - and*SteaM 84ineo Info-vation on the re?!BULMO of air novezient Jn apray devion. B.E.A-  KArL&N, R.i4.. inzhener; UZIPIN, P.I., inzhenera.--~=-A.U.. Testing VOS-2 rotating casing and chain pnmps. Sellkhozmashina no.10:7-10 0 '56. (MLRA 9:12) (Pumping machinery)  Following the example of IU.M.Vecherova; competition 4or the highest operating effiriency of equipment and labor productivity at the Glukhovo Cotton Combine named after Lenin. Tekst.prom. 22 no.4!4-5 AP 962 UUM 15-.6) 1* Sotrudnik redaktaii gazety "Znamya kommunizmall. (Noginsk(Moscow Province)--Cotton manufactwg) (Efft';,,.erc:;., Inau-tria!)  ANDRIANOVP Ye.Aj KUGELO, Soo Insh, Information. Tekst. prom..23 no.600-99 Jo 163. (MIRA 3.6t7) 1. Sotrudnik redaktaii Noginskoy gorodskoy gazety 'ZhaaWa kowunisma" (for Andrianov). (Textile inftotry)  VOLOSHIN, A.I.; BOGOYAVLENSKIY, K.A.; AKNTYRCHENKO, A.M.; TURIK., I.A.; ZHIDKOJ A.S.; LYALYUK, V.S;; GABAY, L.I.; ONOPRIYENKO, V.P.; STARSHINOV., B.N.; BABIY, A.A.j SAVELOV, N.I.,- Prinimali -- uchastiye: TORYANIK, E.I.; VASILOYEV, Yu*'S.; SILDELI., T.I.; SENYUTA$ V.I.; BONDARENK02 I.P.;*AMSTISIAVSKIY, D.M.; ANDRIANOV G. N. I UMAKHOVSKIY j M' "; SERGUEV A MUMOWN, M.0.1 IVONINt V.K.; TSDML, G.I.; SENIKO, Gale.; KONAREVA, N.V.; SOLODKIY, Yu.L.; LUKASHOV, G.G.; TARASOV, D.A.1 GORBANEV, Ya.S.; SUPRUN, I.Ye.; TIKHOMIROV, Ye I.; KONONMQ., P.A.; PROKOPOV, V.N.; GULYGA, D.V-.; PLISKANOVSKIY, S:T.; PONOMMA, K.Ye. Effect of the length of coking on coke quality and the performance of blast furnaces. Koko i khim. no.121-26-32 161. (14IRA l~:2) 1. Ukrainskiy uglakhimichoskiy institut (for Voloshin., Bogoyavlenskiy, Akhtyrehenko,,.Turik,, Zhidkop Lyalyuk, Toryanik, Vasillyev, Shemell). 2. Zhdanovskiy koksokkilitheskiy zavod (for Ghbay, Senyut6:., Bondarenko,, Amotiolavskiy, AY~FlAnov., Sergeyevp Zamakhovskiy, Lyukimson, Ivonin, TSinb&1J. 3. Ural'skiy nauchno-ionledovateliskiy institut chernykh mstAllov (for Onopriye~ko, Starshinov., Babiy'. Senliko, Konarevia, Soloakiy). 4. Zavod "Azovatalln (for Savelov, Lukashov, Tarasovp Gorbanev,9 Suprun., Tikhomirov.. Kononenko, Prokopov,, Gulyga, Pliskanovskiy,, Ponomareva). Coke) .ast furnaces) M  ANDRIAROV, Ye.j., inzh.;YARIZOV, A.D., inzh. Slectric rmltimotor drive of the 3-2005 excnvator. Stroi. i dor. mashinontr. 4 no.lltl3-15 N '59 (MM 13:3) (Xxcavating machinor7--Blectric driving)  A14DRIAIIO Inab. Manufacturing electric mquipment for excavators intentod for use under butaid tropical conditions. Stroi.i dor.maahinostr. no.7:32 Jl 159. (141RA. 12:11) (Bxcavating MIC111nery)  IV UM N - JA 9 d Zt uv Fg I T. rl I t IA I A I J2 5 i s I I  YAMNSKAYA, D.A.,, inzh.j BAZILEVSKIYY V.G.-, -Jnzh.;--KOSOVTSEV, I.S.--j- 91zh.; -ANDUMOTI.-lal. Irqproved electric drive of the M005 excavator. Stroi, i dora mash. 6 no*3; 9-13 Mr '61. (MIRA 14;4) (Ebcoavattng machinery-Eleatric driving)  VEZELKIN, V.F.; ANDRIANOV, Ye.I.; DUDOV, L.V. Over-all MOChaniV~tion of the shop for initial wool processing. Biu'.tekh.- ekon. inform. Goa. nauch.-issl. Inst. nauch. I tekh. inform. 17 no.306-58 164. (MIRA 17:9)  1qAJ,~D)II-111-1 NUV 109-9-8/15 ATITMRS:Rzhevking K.S'. and AndrianoTt.. Ye TITLE: Compensation of Transistor Amplifiers (Korrekt8iya usiliteley na poluprovodnikovykh triodakh) 74iRIODICALr Radiotekhnika i Elektronikat 1957, Vol',*P Nr 91 pp.1157 - 1169 (TJSSR) ABSTRAM. A rounded emitter amplifier stage is considered (see Fig~.21-- It is assumed that the internal resistances r -rk and r~ of the transistor are independent of frequXe; but it is possible to take the frequency effects into accout, by shunting the ooAllector resistance rk by a capacitance Ck and by assumirg that the current amplification factor is approximately given: C9 OLO (2) + j where o)kp is the out-off frequency for m . The load impedance of the amplifier consists of a resistance % and Card 1A a parallel capacitance C11 -. In order to simplify the  109-9-8/15 Compensation of Transistor Amplifiers. rl + r rK WKp r t "H rK where r r. + r6- It is shown that the frequency ben& of the amplAier can be extended by : (1) employing a nertive feedback in the emitter of the transistor (see Fig'.4), (2 connecting a number of transistors in parallel' or (3) oonnectizg an inductance in series with the load r6istance. An expression for the gain of a feedback compensated ampli- f ier is derived (see Eq'. (15 )) and the condition for the max- im) flatness response is found. Expressions for the gain of an inductance compensated amplifier are derived for both the above cases (see Eqs'. (30) and (36)) and the conditions A of the maximum flatness response are determined. An experi- mental investigation of the compensating methods was carried Card 3A out on a SovietnlA transistor which has f., of 190 ke/sect  TROITSKIY, N.A.;ANDRIANOV, YiI.A. Resnirntor7 disorders in bronchial asthmn. Terap. Arkh. 30 no.4:3-11 Ap 158. (MIRA 11:4) 1. Is gosy)itallnoy terapevticheakoy kliniki (dir.-mrof. N.A. ,o inatitutn imeni I.P. Pavlova. Troitskiy) RyazRnskogo meditsinskor (ASTHMA, -nhysiology, rasp. (RUB)  ANDRIANOV, Yu.A.; DANDUROV, M.I., prof., red.; BICIIIKASFIIILI, T., red, iz&-va; DZOT3211DZE, Sh.,, tekhn. red. [Problems of the mechanization of quarrying operations in rail- road transportation) voprosy razvitiia mekhanizatsii karlerov zheleznodorozImogo transporta, Tbilisi$ Goo. izd-vo "Sabehota Sakartyelo," 1960. 153 P. (MIRA 15:6) 1. Chlen-korrespondent Akademii stroitelstva i arkhitektury &SSR (for Dandurov). (Quarries and quarrying-Equipment and mipplies) (Railroads--Construction)  Qjp~~~ur:IE_!j!e~kEsandrovich; TSAGUH1YA, Alekf3andr Viktorovich ........ 1'1~. [Mechanization of construction and road operations] [Fekha- nizatsiia stroitellnykh i dorozhnykh rabot. Tbilisi, TSod- na] 1964. 258 p. [In Georgian] (MIRA 18:7)  .185 9) 1 S/081/62/000/010/079/065 B166/Bl,4 if AUTHORS: Andriano v,-)N._F., Burova, I. K., Budnevskaya, S. Ye. TITL---': Rubber compounds based on chlorosulfonated polyethylene PERIODICAL: Referativnyy zhurnal. Khiniyat no. lo, 1962, 656, abstract 1OP399 (Vestn. tekhn. i ekon. inform. N.-i in-t tekhn.-ekon. issled. Cos. Eom-ta Sov. Min. SSSR po khimii , no. 5, 1961 31-34) TEEM To protect rubberized textiles from natural and ozone ageing they are faced with chlorosulfonated polyethylene (I) which is -,.,10 times better in this respect than nairite or butyl rubber. I is characterized by hiah resistance to crack growth, good wear resistance and endurance under multiple bending and satisfactory oil resistance. Sufficiently plastic compounds are 4; ot by using 10-15 parts by weight plasticizers or 5 parts by weight HK (NK) + 5 parts by weight plasticizer.- The vulcanizing- group (in parts by weight) is; S 0.25, captax 2, diphenyl guanidine 0-3- To prevent scorching I is treated on cold rolls (40-5000and is cooled immediately after blending. Fillers (particularly white carbon black) Card 1 //2  S/OSY062/000/010/079/C85 Rubb.~r compounds based on ... B166 B144 improve the technolo~-ical properties of the compounds and the heat resistance of the vulcanization products but they affect the wear res.stance adversely. The optimum amount of filler is 30-50 parts by weight. A coating 0.2 to 0.3 mm thick vulcanizes well onto a nairite rubberizinj compound. Operational tests have confirmed the.high resistance of I coatings to ageing and wear. [Abstracter's note: Complete transla- tion.] Card 2/r-  - It ANDRIANOV, Yu.F.; BUROVA, I.E.; BUDLEVSKAYA) S.Ye. Preparation of chlorosulfLonylated polyethylene rubber mixtures which are near resistant and not susceptible to the aging in light and ozone. Kauch. i rez. 20 no.8:9-11 Ag 161 . (MIILA 14.8) (Rubber,, Synthetic) (Polyethylene)  ANDRIANOV, Yu.F.; BUROVA, 1.14; GURIYEVA, L.S. Self-vulcani zing S-112- rubber adnesive for the gluing of rubberized materials made from butadiene-nitrile rubber. Kench. i rez. 23 no. 3:49-52 Mr 164. (MIRA 17:5)  L 9082-65, Off 6a)/VF(c)/M/)WP(J) P044/Pr-h/Pa-h AFM RM/WW S/0138/64/OOD/OD3/0D49/OD5V ACCEMION NRs APhO26369 i AMOTGe Andrianov, Tu Fe I ~VAS ~I.K. J~ Owl yera" L - 8. %,U-vo1*ad1diWrubbWq&-*i W-C-&hi amehtlM robber akrA'?ub watgriaU vW9 -f roiC- butsdions AlTr rubbers -49-52 6WWRt K4nehuk L revinai not 3P 1964~ TOPIO TAGSt. rubber, butWWw--a"- v -i4bet, SH 40, resin,, rosin M42't Mira- naL-its channel-earban. blaeks, sino oxidep athylacetate, rubber cenert ABMR=i Cemant 0-12 was developed to ~~te the vulcanization step, t~" avoiding tha defects C(marated during vulcanizatJon. It ig coaq),ounded of a SKH-40 rubber fr-action (containing chlorinated nairit, chanrwl carbon black, zinc oxide, a softener and a hardaner) and of UO of rosin FH-12 fraction. The mixture is dissolved in ethylacetate to form a 20-22% solution. This liquid cment Ohould be used witlAn 16-18 wurs. Samples of fabrica coated with vulcanizod. butadieno- nitrile vere glued with this oemmt either to each ottiw or to eteel or duralumino and the adheadve strength was determined by several techniques. It was found that the adhesive atranFth inarewed with time and that after one day of aging the vulcanized rubber broke, while the ament Layer hold, The cenent proved to be Card V2  L %082-65 AGOWSION NRt R 4026369 stable at tmpsrattwas of 70D ard -hW lm"raion for 1-10 dVv of 0.12 emenW b-e..-AInna-rdtriIo-=*baI vpm4-me-o in hu-91 T-1, gesolirm-bansene, wA the Sasol3ne brar-A u-4M in the mamiferture of galo-ghe-9 pr"vpxi Vin cam nt to be b-table) and the %rihosive ertrongth un&ffmtod. Orig. art. tLari 6, t,4&dw, ASSOCIATIM none K7r, L I X~ SUB CODE I W NO REF WV- 000 OTIM 1 000 Cord 2/2  L' - .AH4038590 I .Safronovs Lfrared BOOK EXPLOITATION 0 1 Iyevlev.. D. S. TUe P9; ~i!n7t (Infrakrasnaya tekhnika v 11 technolog7 in space 19639 133 P. inue-S, biblios 8,000 copies printed* koemose), Hoscovj, S/ TOPIC TAGSt infraredp infrared communication, infrared missile detection, infrared ground reconnnlsance~ infrared anti missile missile, quantum mechanical generator PURPOSE AND COVERAGE: On 4 October, 1957, the Soviet people, with the launching of ithe first earth satellite, opened a new epoch in the history of human progress -. ~the epoch of the storming of limitless cosmic space* In a short time our country !,achieved great successes in the interests of all peoples of our planet* 7here is :reason to say that in thefuture the investigation of space will proceed at ac- Icelerating tempos. Mankind can enter the attack on space only by concentrating all !knowledge and experience of the preceding development of society at a high level, lAmong other new types of technology in conquering space., an important role goes to 'infrared technology which, along with radio and radar engineering, can be used for :;observation and communication in space. Also, as considered abroad, it can be used 0 solve a number of military tasks for examples for early detection of baII4 tio tr.pe ts , In the for the destruction of militaryabjects, a,P.,,,~ for guidance,, and 1  AM4038590 i i The description of the use of infrared technology in space was written from the dati. .of the domestic and foreign operk presa, The book is intended for the officer awf ,of our armed forces. :TABLE OF CONTENTS (abridgedli ~Introduction - 3 'Ch. I, General uae of infrared*technology in space - 7 Ch. II. Specifically military use of infrared technology in space - 93 iSUB CODEs DC., GMj NG SUBMITTEM 29Kay63 HR REP SOVs 020 ',OTHERs 025 DATE ACQI OW(aA 2/2  SAFRONOV, Yu.P.; !ERIANO , Yu.G. Experimntal study of the scattering indicatrices of water fogs in the short-wave infrared part of the opectrum, Izv, AN SSSR. Ser. geofiz. no.22:1866-1868 D 163. (MIRA 17Q.)  L 39323o-65 9-IT(d) / EWT(M) / EWPW IN41'(c) / DJAW / 9-IP(v) ACCE'SSTON HR: A.P5007680 -NP(b)/:-UP(1 VEWA(e) Pf-4 JD/IU/EM AUTIM~S: Andrianov, Yu. Ye.; Lebedev, D. V.; Oveyannikov, B. 11. ~V -- %, \ ~ (6- TITLE: A method for strain testing small specimens at a temperature up to 1600C in a vacuum SOURCE: Zavodskaya laboratoriyal v. 31, no. 3, 1965, 367-369 i~ TOPIC TAGS: vacuum chamber, material, material gtrer.Eft , metal deformation, vacuum, -plastic deformatl'oylastio deformation/ MM 0. 2 machine ABSTRACTi A te--cinique -of -strain- testing -miciospecimens under vacuum (or it inert gas) at temperatures up to 160DO 16 deserib2d. The method employs the IRM-- EH_0-2 I- D material testing device described by V. P. Konoplenko and D. K. Vinogradov (Y3`-v3R-skaya !A-tboratoriyat No. 1, 1959). The basic machine parameters are: maxirmlm load oapac.,ty ICYX kS, d1rect loading; scale dirisions I)-2(Y,), 0-400, D-600, 0-800, and 0-1000 kg; maximum temperature 1600C; vacuum pre3sure I x 10-4 mm Hj; defoima- tion rates I and 2 =/mi-nute; automatic diaf.-am recording; deformation scale 45:1: required potential at maximu test temperatire ' kilovolts. The machine permits measuri,-W, several strese~$arameters. Figuri! I on the ~Inclosure gives the definition of the variables describing the size of a teat specimen. The optimal size of a test specimen was considered to be that size whLoh allows the closest approximation of Card 1/3  L 39323-65 ACCESSION NP9 AP5oo768O the test to atandard conditions and allows the use of the recording devices for dpscription of mechanical properties. Tests were performed to find the optima'. spoc,.m,-n dimensions, and concrete recommendations nidp for specifirat-,on of contro', Pjid measurement during Uie testin,:,. "esu,~,L; 1nd-.ca1.(- that, Lhe prescribed methods sa-,, in complete accord with the stand&rq testing routi-nes pre- S=,.bed in GOST 149-1-61. Orig. art. has; 3 figures. ASSOCIATION: TsentrallrWy nauchao-issledovatel'skiy institut chernoy metallurpi in. 1. P. Bardina (Central ScAemtific Research Institute of Ferrous Metallurgy) SUBMIMIM: 00 ENCL: 01 SUB -,"ODz;: W NO REF SOVt 002 OTHMs 000 ~'Card 2/3