SCIENTIFIC ABSTRACT BUTARA, S. - CR.S.

POZARI Hrvoje, prof. dr. inz.1 BUTARA, Slairko, inz. (Kraljeveo) Productivity of th4 Hydroelectric-Power Plant Kraljevac and its role in the development of eleotrification of Dalmatia. Energija Hrv 3-1 nool/2:19-25 162. 1. Blektrotahnicki fakultet i suradnik Institute ze elektroprivredu, Zagreb, Froleter-skih brigada 37 (for Pozar). 2. Hidroelektrana Kraljevac (for Butara).  PIXTHEY, B.D.; BUTM~TA,.-". Modified postapilatory treatment in fungus diseases. Vast. van. i derm. 30 no.4:53 Jl-Ag '56. (MLRA 9:10) 1. Iz Chebakoarskogo respublikan2kogo kozhno-venerologieliankogo dispansera. (SCALP--DISFAASES) (HAM, R3MOVAL 0?)  1,1! il f , Januoz P I TA F! alld T-0011-Itf, of prophy-tacti-, gloerological exar.,.'- -ItAr"11.5 Of fev,~'Lle hidlistri.al workers J-n Lodz in "Idrow. 5 Je 165. Fub',Ij-czne rio.3:191i-203 I Ochrony Zdrowia Akademii Medycznej ;IodzJ. (Kierownik: dr. mled. J. Indulski.).  BUTARDJ, 11. S. 37436, Kratkiye itogi raboty po sozdani," novoy porody, ovets Izvestlya Akad. Haul:. Kazakh. SSR, '010. 71, serlya biol., VYP. A vrkharomerinoo. 5, 1949, 5- 10-57. SO: Ieto-pisl ZhurnalInykh Statey, Vol. 7, 1949  BUTAITM, N. S. 37437. BUTAIRIN, N. S., F-51KOV, P. A. i DZHrIOM37, L. TS. Sra-initellpaya produktivnost' ovets apkharomerinos i drugikh tonkorunUkh Dorod. izvestVa Akad. Hauk. Kazakh. SSR, No. 71, seriya blol., VYP. 5, 1949, S. 58-64--Biblio,-r: 8 nazv. SO: Letopis' ,'.hurnalliVkh Stqtey, Vol. 7, 1949  BUTARIN, N.S., kandidat biologicheakikh nauk. - Significance of remote interepecific hybridization of animals in Kazakhstan. Vest.AN Kazakh.SSR 10 no.6:55-60 is '53. OGR& 6:8 ) (Kazakhotan-Hybridizat ion) (ITybridization-Kazakhattan)  -N. -,J 6 Agriculturm .0-tock rp i sd, n g Card j /1 1 Pub. 123 7/13 -Authors 3 %tnrin, 14. S.'- Yeolkav; Hilr;takiyo D. M.; and Bagrovskaya, N. K. Title 1. Experiments.in-~attenlng medium-type hybrids from wild boarB and domestic-sows an a non-conenntrated type of feed Ferlodical S. Vest. AN Kaz. WRo 11/2, 61-66, Feb 1954 Alistract t -The belief in the use of concentrated feed in fattening hogs is held to be erroneous and extensive data are collected from experimentation with different kinds of kybrids and different kinds of feed. An analysis of these data shows that even more pork is produced with the less concentrated feed at a great saving of outlay. Ten Russian references (1943-1951). Tables, Institution t .... Submitted t see*  i~UTAP -kaim Agriculture Stock breeding Card 1/1 t Pub. 123 - 12/17, AuthO" Butarin, N. S.; Yes1kov, P. A.; Miletskly, D. M.; and Bagrovskaya, N. Increasing the productivity of sows of large white-stock by means of double mating with different boars. Perloalcftl Vest. AN Kaz. SSH 11/1, 105-109, Jan 1954 Abstract An account is given of controlled.experimentation with the crossinF of -sows with a single boar and with several boars, with Qomaparative figures of the number of offspring andAndividual weights at various periods. Eleven Russian references (1940-1953). Table. Institution : Submitted- :  BUTARIN, U,S,; YNSIKOV, P,A.. D.H.; LI. V.A. So.-,* res-alta -f experinorts I n f894ing modified lard-cakine rttions to hybrid swinp. Vqst. AN Yaralen. SSR 13 no,M5-99 Mr 157, and fuvdi-.4,r ntuffs) (MLTiA I C: 6 )  BUTARIN. N. S. , LOGINDVA, N. V. , LOPYRIN, A. I. , GIGINEMMILI, N. S. , RANKHIMOV. A. A. "An attempt makirg creative use of the Mitshurin method of remote hybridization for the purpose of the selection of agricultural animals." reported at Conference on Problem of Heredity and Variability. held at Institute of Genetics, AS USSR, 8-14 Oct 1957 Vestnik AN SSSR, 1958. Vol. 28, No. 1. pp. 127-129 (author Kushner, Kh. F.)  BUTARIN, Nikolay Savvich [dece-hoed]; ISENZHULOV, A.I., kand. bicl~- mauk ' otv. red.; ALEKSAI!DRIYSKF- , V.V., red. ; SHEV~HUK, TJ., red. [Remote hybridization in animal husbandry; argali Mlerino sheep and liybrid swine] Otdalennala gibridizatslia v zhi- votnovodstve; arkliarorerinos i ginridnaia svinlia. IGma- Ata, Nauka, 1964. 209 p. (MIRA IS.3)  BUTARIN, N.S. (deceased BOLISHAKOVA, Ye.V. Change in the wool cover of crossbreds in developing the argali 0 Merino sheep variety of Kazakhstan. Izv. AN Kazakh. SSR. Ser. biol. nauk no.2:60-65 163. (MIRA 17:10)  BUTAROV, 1. N. 250,21 K. P. D. statsionamoy chasti pri uti-lizatsii tepla, vykhlopnogo para pakovozon, izvestiay Tomskago. politekh. in-ta Kirova. T. LXVI, vyp. 2, 1948. s. 51-56. SO: Letopis' No. 34  BUTAYEV. B. N. "Pharmacological Investigation of 'Paranion.1 a Now Synthetic Preparation With an Action Similar to Thht of Gurare.7 Cand Med Sci., Inst of Experimental Medicine, Acad Med Sci USSR, Leningrad, 1953. (RZhBiol, No 2, Oct 54) Survey of Scidntific and Technical Dissertations Defended at USSR Higher Educatiba4l Institutions (10) SO: Sum. No. 481, 5 maY555  A C; T-0 YF- V, ~3 ~ /7? - USSR/Pharmcology. Pharmacognosy. Toxicology - Analgesics. T-3 Abs Jour : Referat Zhur - Bialogiya, No 16, 1957, 71675 Author : Buts, ev, B.M. Inst Title : The Effect of Paramion on Decerebrate Rigidity and Morphi- ne Spasms of the Tail. Orig Pub : Byul. Eksperim. Biol. i Meditsiny, 1956, 42, No 8, 55-57 Abstract Tests were done on 19 cats. The animals were decerebra- ted above the vestibular nucleus, than tied to the table in a way that the fore-extremities remained free; they stretched upwards due to arising rigidity. Intravenous administration of parazione (I), in 30-250 Y/kg doses (not affecting the breathing) produced relaxation of rigi- dity, the forelimbs bent in the joints and fell towards the body. In 1-3-~ hours the rigidity was gradually rees- tablished. In mouse tests the abdominal introduction of I in 0.1-0.2 dKlkg abolished the morphine induced tail Card 1/2 - 23 -  LT5SR/Pharmacology. Pharmacognosy. Toxicology - Analgesics. T-3 Abs Jour Referat Zhur - Biologiya., No 16) 19571 71675 spasm (in 21 out of 24 mice). An analogous effect is observed in pyrolaxone administration (in doses 20 times the I doses). Iz laboratorii obshchey farmakologii (zav.-chlen-korrespondent AMS SSILR prof. V. M. Karasik) otedela farmakologii Instituta elisperimental'noy meditsiny (dir.-chlen-korrespondent, A14N SSSR prof. D. A. Biryukcyv) AMN SSSR, Leningrad. Predstavlena chelenom AMN SSSR V. N. Chernigovskim. Card 2/2 - 24 -  COUPTRY : USSR V CkT-TjORY : Pharmacologj and ToXci0l0gY- Cholinergics AM. JOUR. : RZhBiol.,, 140. 1 1959, 110- 4502 AUIROR p9tayev, B. M. DIST. TTTLE On t~s Antagonism Botween. Prosorine Lloostig- mine/ and Paramion Zn-loso-3,4-diplianyi'.,ioxane-bis- ,"Urimethyl-ammonium Todid07 ~ORTG. PUB, t 11rarmakol. i toksikologlyE,, 1957, 20, No 6, 60-61 ABSTRACT : Subcutaneous Introduction of proserine (1) into frogs in a dose of 2 mcg/g prevents the depres- sion of the dorsal reversion reflex caused by paramion (II) administered in a dose of mcg/g, or accelerates its restoration by ten times. Under the influence of the previous subcutaneous injection of 1 (0.05 mc&/g)# poisoning by 11 develops more-slowly in mice, and the number of CARD- 1/2  WIN I 7 C )~C- ~o- ~m P,-/--, Z5.7 A-rli,Rl -Butivev) - ~! T ~' U Cholincimimptic effect,- cf certpi-n S", YJ R", 1, sByiilloten' ohsL)E~nrw.-,.tpl'nL-Y i Atsti&ct: 'Lests with paramion and pyrolaxon corare-I ik-- demors,~a*ed t~iat ,iese compounds can cause coritractior! of tor.1" M,8c,e of ~ I~og stowch. C-ig. art. h'af 2 fL,-7~:-P~ A -cSCC !-AT! N iY-q-f'ed-rp- farma AfWA SUBMTEDi 04Feb63 ENCLi 00 SUB GODE : 15 No Rly SC)V l W3 OTHER 1 001 I!FP.S Card !A  BUTAYEV, D. A. It Investigation of t he Straight-Axial Intake Pipes of Watef Turbines'. It Thesis for degilee of Cand Technical Sci. gub 9 Oct 50, Moscow Order of Labor Red Banner Higher Technical School imeni N. 9. Bauman. Dissertations Presented for Degrees in Science and Engineering in 1111oscow in 1950. From Vechernyaya Moskva,, Jan-Dee 1950.  BTJTAYBV. Davlet ABlanbekovich; KAIXYKOVA. Zinaida Alekseyevaa, PCDVIDZ. Iev Grigorlyevich; POPOV, Kirill Nikolayevich; ROMMSTVBIISKIY, Sergey Nikolayevich; YANISHIN, Boris Ivanovich; KUXOIMVSKIY, I.I., professor, redaktor; NEKRASOV, B.B., reclaktor; FRIDKIN, A.M.. tekhnicheakiy radaktor [Book of problems in hydraulics for mechanical engineering schools] Zadachnik po gidravlike dlia mashinostroitellnykh vuzov. Pod red. I.IAukolevskogo. MoBkva, Gos. energ. izd-vo, 1956. 343 P. (MLRA 10:1) (Hydraulics-Problems, exerciseso etc*)  SOV/124-58-7-7653 Translation from: Referativnyy zhurnal, Mekhanika, 1958, Nr 7, p 45 (USSR) AUTHORS: Podvidz, L.G., Butayev, D.A. TITLE: The Effect of ff'e_8Vrre Wf-'~r~---urved Draft Tube on its (Hydraulic) Efficiency (Vliyaniye formy izognutoy otsasyvayushchey truby na yeye koeffitsiyent poleznogo deystviya) PERIODICAL: V sb.: Gidromashinostroyeniye (MVTU, Vol 71). Moscow, Mashgiz, 1957, pp 25-36 ABSTRACT: Set forth briefly are the results of an investigation of curved draft tubes of axial-flow variable -pitch- blade water turbines conducted for the purpose of improving their efficiency charac- teristics without the necessity of changing the height o~f the draft tube. The investigation, in various modified forms, was made with a model of the hydraulically effective section of the turbine on an air-turbine stand. To eva~iuate the characteristics of the draft tubes, their efficiency was determined by measuring the flow through them with spherical pressure -measuring heads placed in their inlet sections. Two experimental units were constructed: one to investigate the draft tubes in an untwisted Card 1/2 axial flow, the other to study them under the real flow  SOV/124-58-7-7653 The Effect of the Shape of a Curved Draft Tube (coni.) conditions existing behind a turbine rotor. Of all the various types of draft tube examined, most efficient was found to be one with an elongated hori- zontal diffuser and an enlarged outlet area. R.P. Vorontsov 1. Axiall fio,,.- t,~.Ibine~:--E,ficlen,-,; 2. Axi!i'. f1m. i.-,rbines---.est, --esul-us 3. Pipes-Applications Card 2/2  BTJTATEV, Devlet Aslanbakovich; XALKYKOVA, Zinaida Alekseyevna; PODVIDZ, Lev Grik6iz~b'vich'l- dotsent; POPOV, Kirill Nikoleyevich; RO=STVMISKIT, Sergey Nikolayevich; TAMISHIN, Boris Ivanovich; KUKOLEVSKIT, I.I., prof., red. [deceased]; VORONIN, K.P., tekhn. re d. [Problems in hydraulics for mechBnical-anginoering institutes] Zadachnik po giaravlike dlia mashinoatroitellnykh vuzov. Pod red. I.I.Kukolevskogo i L.G.Podvidma. Izd.2., perer. i dop. Koskva, Gos.energ.izd-vo, 1960. 44o p. (KIRA 13:11) (Hydraulics--Problems, exercises, etc.)  BUTAYEV, D.A... kand.tekhn.nauk; OBOLENTSKV, Yu.P., inzh. New power for testing hydraulic turbines at the hydraulic laboratory of the Moscow Tqchnical College. [Trudy] MVTU no.100:148-154 t6O. (NIRA 143'4) (Moscow-Engineering laboratories)  KRUTOV) Vitaliy Ivanovich; KALISH, G.G., doktor tekhn. nauk., prof.,, retsenzent;.BUTAYEV, D~A., kand. toklm. naukp red.; YELISEYEV, M&Svp red* W', A.Ya., tekbn. red. [Analysis of the operation of automatic control systems] Analiz raboty sistem avtomaticheskogo regulirovaniia. Moskva.. Gos. nauchno-tekhn. izd-vo mashinostroit. lit-ry, 1961. 178 p.!, (MIRA 24:10) (Automatic control)  BAYBAKOV, O.V.; 4!LAYBVj,-D.A.; KAWYKOVA, Z.A.; PODVIDZ) L.G.; MMIYANSM, L.P., red.; BORUNOV) N.I., tekhn. red. (laboratory course in hydraulics and pumping machinery] La- boratornyi kurs gidravliki i nasosov. [By] O.V.Baibakov i dr. Moskva, Gos. energ izd-vo, 1961. 248 (MIRA 15:2) (Hydrauliesi (Pumping machimery~*  ..i~ :- ; Z*,~' -, ~ -I,:. -.*I-- !74'~m; I ~  0 -00 0 a -0-67-0- * 1 1 * - I IWM I 1 4-1 a #' A !!V of o;4 00 *0 04 a 00 4 SM& sumb =WWy SMA". F. I 00 9 SAMINICLS, V. L. Am EMN=P, L L-DolkAism itsmimis.-A mn%vy ofI v*mx mtMm and *AOM s Illith Patkt" Rowan dom . p Mow MCUIWL CanKnx&ioft 00 3 data wah cranqmailpmal Ihocludio* agm, of dw go tbou-nmemoKk Wabor. an NPOW(L A. L logo S L A NITALLURGICAL MCNATLOC CLAISJFCATICO t INIGNO -I- Mtvl~gi. 03 0 3 U S 1 0) 0 o 0 0 0 0 0 0 0 0 v a -04 d a 41-1 0( na VJIAII GIC Gov Lit *1 iKa 0 0 's 're 0 .40 -so -0: a, 0 s .1 Cob 0 wee Q* a lase Ae too no* lie*  11 9 a loo a b v a 11 11 w to m to '1 . A -1- L 'Is mn wkb ww V&d. iv I* Ot Oddo, of -f t-kd& Da-M F L Am Aa=DK 11-16 (N-.. 'W) 'm IMMU1114 WM6=d in I%k WIOYI bvwkf4w ms'" tj. w-d mpbt'on 's ad*vW bY "U'UiN th, 00, A.L. 00 '00 A 41 4 a at 010 .800 =00 moo coo r to 0 ZOO 2see roo ZOO so S a - S L A M411FALL&I GICAL "TE ATURE CLASSIPICATIOPI 00 goal; 11.1031Y. 1301, 03.1119 Ito At viiiii-OK a.. Iii a, Kurt ItOCKLOM Ila Iw 0 0 0 1 v N II  USM/Electricity - Rectifiers Aug 49 Grid Control "Grid Control of a Single Anode Mercury Arc - Rectifier," F. 1. Butayev, Cand Tech St:1, All- Union Elec Ena Inst imeni V. 1. Lenin, 1 3/4 pp "Vest Eleitro-Prom" No 8 Before 1945 author's institute produced RMNV-200 x 6 rectif.Xers without grids (see* "Blektrichestvo, No 11, 1946). It was then decided to fit a'.gridfbr control purposes. Des&ibes difficulties I . encountered and how they were overcome. Subjett rectifiers have been installed in two projects NO 2/50T7.1 USM/Blectricity - Rectifiers Aug 40 Grid Control (Contd) (plt head gear with DC motor andmblling mill with AN induction-drive motor) and are working satis- factorlly. Includes six d1agrams. 2/50T71  USSR/Engineering - Rectifier, Mercury-Arc Sep 49, "The Influence of Ionic Currents on the Stability of Excitation Arcs of a Mercury-Arc Rectifier,", 1. Butayev, Cand Tech Sci, All-Union Elec Eng Inst imeni Lenin, 2 pp '!Elektrichestvo" No 9 One reason for extinction of excitation arcs of mercury-arc rectifiers is ionic current flowing during nonconducting period from plasma of main arc to excitation anode. Studies were made of dependency of ionic current on various factors. Points out that shielding excitation anodes 153T50 USSR/Engineering - Rectifier, Mercury-Arc ~ep 49 (Contd) (vith AC excitation) results in decreased ionic current. Includes illustration of rectifier ,cylinder, and diagrams. 153T,50 7-4 -2  1. MUM, F. r. 2. USSR (6oo) 4. Technology 7. Valve electric drive. M8 skva, Gosenergoizdats 1951. 9. Monthly List of Russian Accessi-ons, Library of Congress, Januarys -1953. Unclassified.   v~ , 4 -\~ - -* , -I- 'T. TUDITSKIT, S.B., kandidat tekhnicheskikh nauk.;BUTAYBV, F.I., kandidat tekhnicheskikh nauk. - WW=WWW___*_ Single-anode pumplese mercury-are rectifiers with uninsulated cathodes. Vast. elaktroprom. 28 no.1:38-42 Ja 157. (KM 10:4) 1. Vse9ovuznyy elektrotekhnicheekiy institut Im. lenina. (Mercury-are rectifiers)  2~ 110-9-3/23 .AUTHOR: Butawyev Feio~ Klimov, H.S., Sakovich, A.A. and Stepanov,N.P., ~~ es of-Technical Sciences. TITLE: High-voltage Rectifiers/Inverters for Direct Current Power Transmission. (VyBokovolltnyye, b.azovateli dlya pere- dachi energii postoyannym tokom3reo r PERIODICAL: . Vestnik No.9, pp - 8' ~- 14 (USSR) ABSTRLCT: Brief reviews of the main stages of development of high" power, high-voltage mercury valves at the All-Union Thermo- technical Institute. The first stage concerns the KaBhira- Moscow experimental transmission line. The second stage includes .high-voltage valves of intermediate power and the production of single experimental installations. The third stage concerns high-power, high-voltage valves suitable for practical high- voltage d.c. transmission systems. High-voltage rectifiers have been under development at the All-Union Thermo-technical Institute since 1935. A number of the principles then evolved, including single-anode construction, a sectionalised anode system, and oil-cooling, are still used. German experience with d.c. transmission was notable for the fruitful work, directed by G. Dobke, on the development of mercury-arc rectifiers for 150 A (;ardl/5 max. and 120 kV max. Joint work with the Scientific Research  110-9-3/23 High-voltage Rectifiers/Inverters for Direct Current Power Transmission. -Institute for Direct Current (NIIPT) using the Kashira-Moscow experimental transmission line, showed that equipment for d.c. power transmission should be considered as a complex whole. In this experimental system, great difficulties were encountered as a result of instability of valve characteristics and a number of specific properties of high-power, high-voltage, rectifier circuits. The valves are subject to back-fire, break-down, loss of control action of the grids, los of excitation, flashover of anode insulators, and over-voltages on the auxiliary electrodes. There were also difficulties arising from system disturbances such as over-voltages, high-frequency oscillations and current surges. For example on the Stalingrad-Donbas line, where the normal voltage on a valve should be 65 kV, calculations show that during over-voltages it may reach 250 M Considerable diffic- ulties arose as a result of free oscillations which appzLred in the circuit durin-ignition and extinction of a valve. High- frequency oscillations, which caused seveieradio-interference and damage to the anodes were suppressed by special reactors. Iow- frequency oscillations were more difficuli to suppress, and damper circuits consisting of capacitance and resistance are being used for this purpose. At first, the Kashira-Moscow line Uard2/5 operated with one bridge having three series valves in each arm  110-9-3/23 High-voltage Rectifiers/Inverters for Direct Current Power Transmission. and later with two bridge circuits connected in series, one having one valve Der arm and the other two. In designing the Stalin- grad-Donbas line, it is proposed to use a sub-station circuit consisting of eight bridge circuits in series, each for a voltage of 100 kV and a current of 900 A. In all, there will be 192 valves working as converters and 32 "shunting" valves. At full load, eachialve will handle a power of 7.5 MW. A serious problem was the control of individual circuits from the auxiliary supply panel which was solved under the guidance of Candidate of Tech- nical Sciences I.L. Rubinshteyn. Control is effected by means of a light ray acting on photo-resistance cells which operate relays. For development work, the All-Union,Electro-technical Institute (VEI) has constructed equipment for making static tests at up to 200 kV r.m.s., surge generators and a high-power equivalent for testing valves under rated conditions. A Irge test install- ation with a transformer group of 120 MW has been constructed at one sub-station. (;uestions of valve design are then discussed. A sectional drawing of a high-voltage valve is shown in Fig.l. The distinctive feature of high-voltage valves is the anode system and different methods of sectionalising the anodes are shown in Fig.2. It is usually advisable to extend anode sectionalisation Oard3/5 to the discharge space, and different types of screens are shown  110-9-3/23 High-voltage Rectifiers/Inverters for Direct Current Power Transmission. in Fig-3. Other anode constructions are shown in Fig.4; FiS.4zh shows an anode design developed by V.D. Andreyev. Sevenl types of valves developed in the All-Union Blectro-technical Institute are illustrated in Fig.5 (photos). The-main relationships of voltage division between the intermediate electrodes of the anode assembly were established during the investigations of high-voltage valves. When the valve works as a rectifier, the negative voltage drop occurs mainly in the gdp between-the anode and the first anode insert. When working as an inverter the positive blocking voltage lies very largely in the space between the insert furthest from the anode and the uppw grid. Develop- ment of rectifiers proceeded alongside theoretical and physical investigations, of valve strength, current distribution in the anode, and voltage distribution in the anode assembly, ignition effects, effects during failure of operation and during heavy overloads. In the investigation of physical effects, 1mbe methods of vapour density measurement were very useful. Graphs of the probability of back-fire for the valves BP-l and BF-3 as functions of cooling temperature are shown in Fig.6. laboratory results have been confirmed by data of 12 000 hours tests on valve type BP-3 in the experimental transmission line. Gard4/5 Valves type BP-4/2 and BP-9/3 are intended for the Stalingrad-  liO-9-3/23 High-Voltage Rectifiers/Inverters for Direct Current Power Transmission, Donbas transmission line and have passed a wide variety of lab- oratory tests and the results of the first high-power tests confirm the satisfactory operation of the valves in approximately their normal working conditions. In the light of the experience gained, development is likely to compise:. valves of greater power for higher voltages and currents, which will be combined with improvement in manufacture to improve reliability; valve designs which will ensure great vacuum-tightness, enabling the manufacture of pumpless valves or, if necessary, to provide internal devices to maintain and restore vacuum. Two new types of pumpless valve are shown in Fig.?, one for 150 A max. and the other for 900 A max. with reverse voltages of the o3ier of 100 - 120 kV max.- There are.? figures and 5 Slavic references. ASSOCIATION: All- Union Electrotechnical Institute (VEI SUBMITTED: April.23, 195?.- AVAILABLE: Library of Congress. Card 5/5  ) -,Y~ 1 " /71 I La- " , nd.takhn.nauk; KLIMOV, N.S., kand.tekhn.nauk; - UA&VVILUIn, A., kand.tekhn.nauk; STEPAROV, N.P., kand.tekhn.nauk. High voltage transformers for transmitting d.c. current. Vest. elektroprom. 28 no.9:8-14 S 157. (MIRA 10:11) 1. Vueeoyuznyy elektrotekhnicheskiv institut. (Electric transformers)  NBYW, L.R.; TOLSTOV, Yu*G., doktor takhn. nauk; PIMOV, V.P., kand. tekbn. nauk; POSSE, A.V., !mnd. tekhn. mvk; SAKOVICH, A.A., kand. tekhn. nauk; kand. tekhn. nank; MELIGUNOTO N.M., inzh.; SONIN, M.R., Inzh, [Long-distance high-voltage direct-current transmission] Peredadba energii postoiannogo toks, vy8okogo napria*Eheniia na dalluie ras- stoianila. Pod red. L.R. Heimana. Moskva, 1958. 64 p.(MIRA 11:10) 1. Russia (1923- % S.S.R.) nauchno-tekhnieheekiy komitet. nauk SSSR (for koymws). (Bleetrio Sovet MinistroT. Gosudarstvennyy 2. Chlon-korrespondant Almdemii power distribution)  AUTHORS: Butayev, F. I., Candidate of Technical 105-58-5-1/28 "3_0_3e_ffUe`s,KliM0V, N. S,, Candidate of Technical Sciences, Kostrov, M. F., Candidate of Technical Sciences, Sakovich, A. A., Candidate of Technical boiences TITLE: A High-Power High-Voltage Valve (Moshchnyy vysokovol*tnyy ventill) PERIODICAL: tlektrichestvo, 1958, Nr 5, PP. 1-7 (USSR) ABSTRACT: At first a survey of the development of the high-voltage valves abroad and at home is given. In the USSR such works were carried out in the laboratories of the VEI (A. N. Larionov, S. V. Krauz 1937,, N. S. Klimov 1938 - 1939, M. I. Galldin 194u). After the war high-voltage valves and control boxes for the first test-d.-c.-trunk line from the hydroelectric plant Kashira to Moscow were elaborated. These works were mainly performed In the Scientific Engineering Office of the former MiniF-Iry for Electrical Industry under participation of important German specialists, as G. Dobke, R. Khelitersq and others,. 30 valves of the Card 1/5 type VR -I were produced by -this office and partly by the  A High-Power High-Voltage Valve 105-56-5-1/28 test works of the VEI during the second half of 1950 1950 - 1951 12 valves of the type VR 3 for a maximum of 30,) A and 130 kV weme produced in ine VEI. Sin3e 1952 works were started on a valve for a maximum of 900 a and 130 kV. These works axG shortly describect liere, 1) The problem whether the 7alve is to be constructed as single-anode- or multi-anode-valve, was solved in favor of the single-anode type. It was shown that the difficulties in connection with the discharge concentration on a small cross section car, be o-,7-1roome. 2) The number of the insets was selected in a way that the advantages are relatively great and the disadvantages are as small as possible. The tests were carried out with 15 ~valve by Kesayev), 5, 4s, 39 2 and I insets (3onstr-,;.otion by Andreyev), 3) The problem of size and density of these insets is finally to be cleared in the plant. 4) The materials were investigated, 1951 - 1952 a special vacuum- -technological equipment was put into operation, solitary test stands were established ( ,up to 1000 A and 160 kV, pulse circuit UP to 350 kV)I. The construction of the valve Card 2/5 essentially differs from those used in industry. Then  A High-Power High-Voltage Valve 105-58-5-1/28 fol'lows a description of such a -alve of the type VR -913 for 900 A and 130 U. In 1952 25 samples of different power and different types were produced. The electric strength of the valve is hiGh. In static tests it stands 14U -- 160 kV without an exterior divider. The investigations of the mercury vapor took place according to the probe methods, which had been elaborated in the Laboratory for gas discharge devices at the VEI. The electrical tests at full amperaSe and voltage were carried out with the equivalent scheme constructed in the VEI for maximally 1000 A and 160 kV, and valuable data were obtained. An extraordinary phenomenon was determined: At positive anode-voltage and normal operation of all excitation anodes and nets no lighting of the principal anode took Dlace at high voltage. At low voltage this phenow-nnn was not observed, This fact is explained by the occumnee of negatl~je potentials. In investigating the overload capacity it was found that also at 15 000 A within the range of working temperatures an interruption Card 3/5 of the current does not occur. 'i'lien the voltage in the  A High-Power High-Voltage Valve 105-58-5-1/28 are drops to 700 - 800 V. For the purpose of energy investigations a test stand for 120 UVA was built at the Moscow Institute for D. C. The results of the first test series showed that 900 A and a countervoltage jump cf 50 kV no disturbances occurred at the valves. At '000 A and 90 kV countervoltage jump the valves do not lead to an extinction cf the excitation are. For the transmission line from the Stalingrad hydroelectric plant to Donbass ~the voltage between the Pales amounts to 800 kV and the amperage in the 1-1-ne to qUO A) the VEI proposed an eight-bridge-scheme. The voltage of each bridge amounts to 100 kV. The scheme was aocepted by the expert commission. Here two valves are connected in series into the bridge arm: maximum counter-,poltage 61 kV, countervoltage JUMP 34 kV, maximum amperage 900 A. - The work for the valve was Derformea at the Laboratory for High-Voltage Rectifiers at t6 VEI under participation of the Laboratory for Gas Discharge Devices, and of the Laboratory for Physical Investigations at the institute. lilhe samples of the valves were produced by the electromeohpnical test plant of the Card 4/5 VE1. The porcelain- and ceram-le products were produced by the  A High-Power High-Voltage Valve ASSOCIATION: SUBMITTED: AVAILABLE: Card 5/5 105-58-5-1/28 "Izolyator" porcelain plant and by the Institute of the GIEKI. N. P. Stepanov, N. P. Savin, N. M. Maslennikov, 1. D. Shkolin, A. A. Pertsev, V. S. Grigorlyev, A. A. Timofeyev, R. I. Grigortyeva, V. V. Bazhenov., I. V. Blond, A. A. Ivanov, Ye. P. Shmarina and others directly and actively participated in the work. There are 12 figures. Vsesoyuznyy elektrotekhnicheskiy institut im. Lenina (VEI) k All-Union Institute for Electrical Engineering imeni Lenin) November 5, 1957 Library of Congress 1. Electron tubes--Development 2. Electron tubes--USSR 3. Electron tubes--Test results 4. Electron tubes--Applications 5. Transmission lines--Equipment  "d AUTHORS: Shekhtman, M.G. , Candidate of Tecl-Lnical Sciences, Aksel'roa, 1,11.11. , Engineer,_21~~~ Candidate of Technical Sciences, Klimov. N.S. , Oftndidate of Technical Sciences, Levitskly, K.K., Engincer TITLE; On the Frospeots of &plcying D.C. Traw-wiission in the USSR (0 perspektivakh primeneniya elektroperedach postoyannogo tc)!-,a v Sovetskom Soyuze) PERIODICAL: Elektrichestvo, 1958, Nr 5, pp. 8-1-83 (USSR) ABSTRACT: Coments on the article by N.E.Mel'gunov, Elektrichestnro, 1957, Nr 2: 1.) This is a comment on the article by I.F.Pclovoy in Elektrichestvo, 1957, Nr 5. A number of errors is criticized. The ratio between the costs of an A.C. substation and a D.C. sub- station are assumed by Polovoy as amounting to 0.5. According to data published by Teploelektroproyekt it is 0.557-0-580 and ac- cording to those given by the Institute for Direct Current it J_s 0.76 (taking account of the fact that valves are produced in the Card 113 factory). Doubts expressed 5-ith respect to the possibility of  On the Prospects of Employing D.C.Transmission 105-58-5-2G/26 in the USSR covering reactive (idle) power are unfounded because the recti- fier plant has a cos if = 0.90 - 0.95. Polovoy does not take power losses in compensation devices into account. He assumes the specific costs of the transfomer plant of D.C. substations to amount to 36% of the substation costs. According to Teploelektro.- proyekt they amount to 26%. and according to the Institute for Direct Current and the All-Union Institute for Electrical Engi- neering - Irp. According to experience gathered in connection with the line Kashira hydmulic station - Moscow, and according to technical conditions the life of valves between two repairs amounts to 15 000 hours or tvri years and not- one year. 2.) Criticism of the articla-, by 1:el',gurov. It is wrong to declare that the costs of D.C. - and A.C. substations including devices for the increase of stability are the same already at the present stage of transformer-engineering, that in the case of long-dis- tance transmission no intermediate output is necessary, that by means of the mercury valve grids the intermediate substations can be reliably aiqconnected from the long distance line. Advantages Card 2/3 and disadzantages of a D.C. line are enumerated.  On the Prospects of Employing D.C. Transmission 105-58-5-20/28 in the USSR The atomic electric power plants will only sup lement existing power systems, and hydraulic power still remains the most inz!x- pensive type of energy. The large valves for 130 kV and 300 A developed at the All-Union Institute for Electric Engineering will render D.C.transmission more economical. For high power transmissions of from 0.75 to 6 million kill over distances of 900 km and more direct current offers great advantages. There is 1 table. ASSOCIATION: Nauchno-issledovatellskiy institut postoyannogo toka (Scientific Research Institute for Direct Current) Vsesoyuznyy elektrotekhnicheakiy institut im~ Lenina (All-Union Institute for Electric Engineering imeni Lenin) Teploelektroproyekt AVAILABLE: Library of Congress 1. Direct currents--Transmission--USSR 2. Electric power plants --Substations--Effectiveness 3. Atomic power plants--Applications Card 3/3 4. Power plants--Economic aspects  I BUiAYEV)-.F.T,# kand.teklm-nauk; KLIMOVI N-S,j kand.tekhn.nauk; PERTSEV, A.A., inzha; STEPAJIOV, N.P., kand.feklin.rauk Developnents in the field of high-voltage p(ver rectifiers. Elektrotekhnika 36 no.11!22-24 N 165. (~ITRA 18:11)  ACC NR: /EWT (1) SOURCE CODE: AUTHOR: Butayev, F. I. (Candidate of technical sciences); Klimov, N. S. (Candidate of techn 16-61-6hces); Pertsev. A. A. (E er),- Step ov, N. P. (Candidate of technical sciences) 0 ORG: none TITLE: Developments in high-voltage power rectifiers .SOURCE: Elektrotekhnika, no. 11, 1965, 22-24 TOPIC TAGS: direct currentp electric power transmission, mercury rectifier ABSTRACT: The Ieningrad-Donbass transmission line is presently being put i~nto operation. This will be the most powerful d-o transmission line in the world,, sending 750 11w of power at 800 kv over a distance of roughly500 k;% The transmission system uses a three-phase eight-bridge network with power recti- fiers which operate at a maximum voltage of 130 kv and amaximum current of 900 amps. The eight-bridge system, proposed by the All-Union "Order of Lenin" 'Electrical Engineerimp Institute imeni V. I. Lenin, has the following advan- ,tages over the four-bridge circuit: 1) when individual bridges in the system ,fail, the transmitted power is maintain6d by current overload on the bridges remaining in operation; 2) the work load on the equipment is lighter in emer- -gency conditionsj and.two rectifiers can be series-connected in each am of the bridge to reduce the -cork load by increasing the number of rectifiers from  .:L 23770-66- ACC NR, AP6015276 .72 to 96; 3)' when- 'separate rectifiers fail,, the voltage applied to the ele- .ments remaining in operation does not exceed the nominal value) iddle in the :four-bridge ". stem the voltage is twice the rated value in this type of -emergency. Various foreign high-voltage d-c transmission lines ncnt in opera-' Aion and beiM planned are mentioned and their parameters are given. Some of 'the advances made in high-voltage power rectifiers since 1940 are discussed, Work was begun on the rectifier being used in the Volgograd-Donbass system in 1952 at the All-Union Electrical Engineering Institute, The various problems, involved in the development and construction of this device are discussed. This single-anode pool unit,, call6d the VR-9 Excitron, is now being mass- produced at a -specially built factory in Moscow. The overall dimensions of the rectifier are 1,9 x 1o2 X 3#4 me A comparison of the VR-9 Excitron with 'the Swedish-made rectifiers used in the English Channel d-c Transmission line' shows that the Soviet high-po.w.erl mercury re.otifier is up to modem require.- ments with respect,to electrical characteristics and construction. Orig. art. has: 2 figures# [JPRS] SUB CODE: 10, 09 -SUBM DATE: none ORIG REF: 002 OTH REF - 002 Cc d 2L24  AUTHOR: TITLE: Butayev,, (Kiev) S/103/63/024/001/008/012 D201/D308 The effectiveness of optimum coding of primary meter scale in pulsecode telemeteri.ng PERIODICAL; Avtomatika i telemekhanika, Y.' 24, no. 1, 1963, 92-96 TEXT: If the primary meter has a linea~r scale, the optimum scale co,ding of this meter in pulse-code telemetering of the output may, ri~sult in a considerable reduction of the overall telemetering er- r(~r. The optimum distribution of coding combination is derived 'as a n i h a-ct-on of the distribution of probability of occurrence of t e f primary meter indications. An expression is given for the minimum telemetering error for a given probability distribution. The.error reduction depends on the form of statistical charact eristics"of the measured variable and has to be determined individually for every 'measured variable. A circuit diagram for coding combination distri- bution is given for the case when the primary meter produces the -output signal as a sequence of pulses, the number of which varies Card.1/2  S/103/63/024/001/008/012 The effectiveness of ... D201/D308 k4e as'the measured variable.-!' the output is either a long pulse or a phase difference it may be transformed into a number of pulses by slicing to a time scale and hence into the code of the required combination distribution as shown. There are 3 figures and 1 table. SUBMITTED: April 10, 1962 Card 2/2  0 L 11387-65 WTOVEED-2AWP(l) Pg44/Fk-h/Po-VPq-J4 It-Mile) MIRD ACCESSION NR: AP4046110 S/0302/64/OCO/003/0026/0028 AUTHOR* Butaye n q-A-~andidate of technical sciences); Roma*l, ari V. S. T L'E: D,giMT'~,quare-root extracLors SOURCE: Avtornatikai priborostroveniye, no. 3, 1964, 20-28 TOPIC TAGS: root extractor, square root e3dractor )6(--, ABSTRACT: Twc- experimental models of digital devices for extrac-ing square roots, a paraUel and a series, are briefly described. A squaring unit compares the souares of 1, 2, 3, etc. , numbers with X in the equation Y - C V X. The root eytractor it; rlesig:ned for a binary code- The parallel version is recommended for a functioning :irne of not over a few tenths of a second; for a ionger time. -,no 'table. Block diagramB of both series version is more su'. mocle15 a:- or-.g. art. bas: i: figures, 8 formulas, and 2 tables. A-'-,SOCIATION: none 5 ILT-B -X,41 T T E D: 0 '71 - NO Ri~F SOV: '02-  BUTAYEV, G.M., kand. tekhn. nauk; RWASPIKAN, V.S. Improved unit for the solution of the equation of consumption. A'vt. i prib. no.4t42-45 O-D 164 (MIRA 18:2)  1 00080-66 'ACCEWION NR-. AR5013615 WO'271/6/OOO/OO4/i6*1'4jB0 14 681-142.644.6 iSOURCE: Ref. zh. Avtomatika, telemekhanika i vychiBlitellnaya tekhnika. Sv od~~ tom, Abs. 4BI10 ;AUTHOR: Bat ev, G. M.; Romashkan, V. S. TITLE: A method of functional discrete conversion ;CITED SOURCEt Sb. Ustroystva i elementy prom. telemekhan. Kiyev,, 1964, 79-83 TOPIC TAGS: function generator MANSIATION: A digital-analog-type function.generator operating by the method of :piecewise-linear approximation is described. A circuit diagram of such a generator I ~yielding Y*KlnX, where K = 21.80, is presented. Increments in the coupling factor !between the argument and function variations are programed by a matrix which is 1controlled by a function-value counter. The generator is intended for data leorreetion in a coded telemetering system and is built with semiconductordevices. IFigs. 2, tab. 1* SUB CODE: DP,0 F-C ENCM,00 cam 14-1k  L 6437-66 E16T(1)/EWA(h) :ACC NR; AR5014354 SOURCE CODE: UR/0271/65/000/005/AWA6~i SOURCE.- Ref. zh. Avtomatika, tolemekhanika i vychislitelinaya tekhnika. Svodnyy tom, Abs. 5A329 :AUTHCR:,Buta 4omashkany V. S. TITLEt Pulsed converter of code into instrument reading 'CITED SOURCE: Sb. Ustroystva i elementy prom. telemekhan. Kiyev, 1964, 83-87 iTOPIC TAGst pulsed converters, pulsed reading converter .;TRANSLATION: A converter of*code into average current is described, in which the .-Code ofa parameter is converted into square pulses that have a constant height and; a duration proportional to the code. A continuous train of such pulses arriving I With a definite periodicity is applied to the coil of a moving-coil permanent- Magnet instrument; this pulse train results in an averaged instrument reading .which is proportional to the relative pulse duration. The figure shows a functional; diagram. of the device with i converters of a 6-digit binary code into the average :current. Code telemeter signals, according to their addresses, are successively. distributed from a central register to individual output registers whence the 1 Cord  L 6437-66 ACC NRs AR5014354 curr ent signals are fed to the indicat- ing instruments. A common pulse generator is connected to two trunks. From these trunks, square pulses of F/64 frequency from the output A and the pulses of F frequency shifted by I 2F froin the output,~ are applied to the convert The pulses are taken from two collectors, too, of a multivibrator. Between each two (D pulses in the channel A, 64 pulses in L the channel B are located. The parameter- 'From a ss, value in an inverse binary code is e er transferred, according to its address, il cod A to an individual register when the pulse AIR haki"Cr +",1~1, A  TOPIC T-PGS.- pulse reaux-xence frequency  - -1-- --- - . .. .... - ~.-- - -- --- ~- . - ~ I 7 ,: , ~ " .- ~ ~ ~ --. . - , . I . ~ I . . - .(') : . -- -I  ~71 a p r E-  2099L-60' G. ------ L ----IJP(c BDIG ACCESSION NRi AP5014006 UR/0119/65/000/005/0027/0028 621.3-042-15:621-314 (Candidate of technical sciences); Shchedrov, N. I. (Engdee~ AUTHOR: But v G M TITLE: Angle-to-code contactless converter with ferrite sensing elements SOURCE: Priborostroyeniye, no. 5, 1965, 27 28 TOPIC TAGS: angle to -ode.converter, contactless converter ABSTIMCT: The deveb~pmaat is reported of a new angle-to~-raj-~,rjdu converter in which the on-off swicching is effected by copper-foil begment~ passIng -hrough the gap of a very sensitive ferrite core. The sensing element comprises a transistor and a 3-winding ferrite-core transformer connected to form a rionsinusoidal-wave oscillator. Insertion and withdrawal of the copper segmax.~ rb-alt in starting and stopping the oscillations, with the oscillator functioning z, -a low-resistance switch. One sensing element is required for every digit of Ln-f c3nverter. A wire-saving.time-sequence 50-cPs-supplied circuit is env?saged fox- zransmitting many-digit signals to a receiver. An experimental model -)f the converter was C.,d 1/2   1, 3635-66 hW(d)/W(l) IJP(c) BB/GG ACCESSIOM IM: AP5021440 W-142.9 4UTHORs Butayevp G. M. TITLE: General digital unit for squaring and for extracting square roots :;SOURCE: IVUZ. Priborostroyeniye, v. 8, no- 4, 1965, 63-66 TOPIC TAGS, computer arithmetic unit I!) :iABSTRACTi Adigital unit which . performs the functions of squaring and extract- 'ling aqua:r-e roots and which contains a binary code summator and a delay multivibraton ~Iis presented. Squaring is accomplished according to the algorithm (K + 1)2 2 + ,&(2K + 1). The number K -to be squared is supplied to a counter register as !sequence of K pulses. At the i-th pulse the number 2(1-1) + 1 is formed in 9, istorage register and is added to the sum of the results of the previous i-1 steps. !Thus# at the conclusion the 00=t9r register contains ithe number Kand the summatoi- K2. To obtain the square root of a number, the logical inverse of the number is- 1 d in the storage register, and the above procedure is followed until the vaoant! ~~cftl 3J Card   278'14-66 E-WT(d)j:'WP(c)/T1FWP(y)jF,4P( )JEWP(h)JEWP(l) "Rr. -AP 6007594 UR/0119/6676667662766 SOURCE COM, 12/0014 AUTHOR: Basov, V. 1. Engineer); ButayQvj G'* M..(Candidate of technical sciences); Melik-Askarov, A, G. Engineer); f-o-nomarev, A. 1. (Engineer);-Ro-mashkang' V. S. -(Egi-n--iie-r ~;Tap"~,.~I. (Engineer) ORG: none TITLE: Coded telemetry system for concentrated plants SOURCE: Priborostroyeniye, no. 2., 1966, 12-14 TOPIC TAGS% telemetry system, telemetry toohnique ABSTRACT: Fifteen'quantities are telemeasured and seven two-pos-Ition-indication signals are transmitted; also, deviation of any quantity from its normal measuring span is signalled. In addition to indicating instruments and signal lamps, the dispatcher station has a digital printer and a specialized computer. Three frequency channels transmit 1, 0, and change-quantity signals. A number protection in the interrogation cycle of each paramete- is provided, as well as a protection against---- missing or breaking up pulses, The system is designed with semiconductor devices only. These characteristics are claimed; frequen#es, 4400, 4600, and 4800 CPsl transmission time of one frequency signal, 10 millisec; interrogation timia of one parameter, 130 millisool basic error, � 0.00 or less; line attenuation, 3 nep; tolerable supply-v,-,age variations +10 -1,Wlo The system has been tentatively put 'in operation at the Dzerzhinskiy Metai~~gical Plant, Dneprodzerzhinsk. Orig. art, has, 4.,figures and 1 table, SUB CODE s og / szmm mATEs none PRIa. REF: 005 card 1/1 UDC: 691,3 8t654,931  ACC NR. AP6010290 SOURCE CODE: UR/0103/66/000/003/0148/0152 AUTHOR: ButMev, G. M. -(Ordzhonilddze) lo ORG: none TITLE: A circuit for the conversion of binary code signals Into current signals SOURCE: Avtomatika I telemekhanika,, no. 3, 1966, 148-152 TOPIC TAGS: circuit design, digital analog converter, coupling circuit, binary code, com- puter technology J~v ABSTRACT: Pulse code -time-cur'rent converters are being rapidly developed and may be considered among tho most promisingNmeans of coupling discrete and wialog data processing devices. The converter described by A. K. Zavolokin (Preobrazovatell chislovykh velichin v clektrichesldye. Avtomatika I telemeldianika, vol. M, no. 2, 1960), in particular, possesseE the important feature of correcting Its own reduction errors. However, when the requirement of time-parallel processing of several code signals Is imposed, Uie Zavolokin converter be- comes complicated. The present author Introduces a circuit of a simple pulse code-time- burrent converter for the parallel processing of 16 code signals (see F ig. 1). The circuit is intended for the output of code outputs X1, . . a I Xi, . .. , X,, to the indicators 6!-, ~ #.. j all oil s of the control panel. Ench channel of the converter contains a counter cireUit of n + 1 LC.rd UDC: 681.142.621  L 2625846 A~CC NR, AP6010290 Ir P'q MV P 9;6 art.P I P JI 1 4 Y. I P, P 11 r 0. -~T r0 -.B1 T~: _~ppu In Fig. 1, Block diagram of a converter of 16 binary code signals Into code signals. PS - pulse sensor; MV - multivibrator; P1 - pulse counter; Aj switches of input Yy Cti - M-24 microampere meter. C,rd 2/3  L 2625B-66 .F-ACC NR, Ap -- 6010290 triggers, n of these triggers form the pulse counter P1, tuid the (ti +1) th tT i g g .,or Tr 11" separated inputs and is connected by these inputs to the busbar B, and to the cutput of P1. The second busbar B2 regularly feeds the outputs of all counters PI the frequency pulses ~ from the niultivibrator MV. A comparison of the,Zavololdn circuit with the circuit described in the present article shows that the latter is more advantageous in time-parallel processing of several code signals, The Zavololdn circuit Is mostsefficient in processing single code signals. The circuit described (Fig. 1) was constructed on the basis of semiconductor devices and, after passing tests, operated for more than 800 hrs. in accordance writh technical speciffem- -tions. Orig. art. has: 13 formulas and 3 fIgures4 [081 SUB CODE: 09 SUBM DATE: 11Sep64 ORIG REF: 002 ATD PRESS: Card 3/3  SHCHFaBANI, A.N., akademik; BUTAYKV, O.A.; FUMIAN, N.I.; TMNTIYEV, R.F. Automatic methane indicator for gas reducer plants and compressor stations of main gas pipelines. Gas. prom. 4 no.4:42-45 AP 159. (MIRA,12:6) (Gas, Natural--Pipelines) (Gas detectors)  BUTAYEV, O.A., IVANOV, ,.K.- KROSHKO, A.?%; MASKFITICH, V.D, investigating gan pipelines as radio wave guides. Gaz. p-om. 7 no.6?43-48 162. M RA 1? ~, 6)  BUDKFR, S.B.~, BUTAYEV, O.A.; LEYDERMAN, M.I.; MELAMED, S.S. Using gear pumps for transporting liquefied potrolewn ga5es, Gaz. prom. 10 no.9t19-22 165. (F,,RA 18M)  gum Pill.  A 1 1 , - POOMM APO poortovits Weil go 00 A 1"Cro"sootare newt CA No:' no ftftdm in v"Mr., V. ftwoova, X-Aft%w" and J. cht. colopi" R#Ydws off WAL*) At P.49"r*v 54mom U.S.S.R..* 4A M IWIK 193& lo Gorw%~Tbe mon-datectiou of a minimum in the WWWty of osdialon f was Hg dischajo w prmm b jmdw%fty inowumd Is discussed to mbboo to vffvcb of addWoo at an bxUffoomi gas. such a& wwo oboiervad 004 in Cd low Abstmot ON (19W)). In Ng + A the tatansity in the vb%W go 0 &A n""ft coadmat and then id% od mpkily, in H# + Ne a VARIMM OcCM *" b Abarpoo with vWy Ut* Me; wA as in tM fto cd Cd. A is ouve offackWo thain Na In HS, jw in Gd. Wore must be om- -Joe xWelruble robb-ptim- of On vWb1a triphotis in a bw-poessura diKMW. a Thb b vedAe"qPabsorption weawromerats by a mhver-or auuxommA. ago #00 tift-MeJAd W US 4WIMIN at 10-1 mm. The abmnpdm of A43M L# (> Of %) ctom& tMt of A66K wWh exceetb that of MOW, 8770 and ,too 6710. Tbow NO Mbsorptkwo somd tbooo, In a holmonum dirAarg% ' see Will expidn thi devikatioms W tM okwwd intensity MUm of the Visible ireia eg Mks. W. see be* so* -LUM"AL !low firtallav. ovv Got aw a.. As U 0 AT go is 0 dP4 0 0 0 o 0   P;( h- PA!:! 1 cir rxcrT.,*r, AT-IM P- A _JW PFFSSI~Rl_ l' rF!CRkR(-.E r ALF, 111 At- 11 tip, to lo,, ~t,.l 1 tL.. r 11T' 1, 10 lw~~j,!3 amp it of dlicli:ir" wtro fai- froin the alake at tempi.-ral"irr It I.-! t%.t th- th, atomi N,11-em Lkr lEvela OP. cxr.,tvFi,d it, tht I -ezi-S -.NL-h P~._-. ~,s  - - - - - - --- - - - j- -WWWW - IUTA Pb.VVIUI.' Z. Movic4finkin. 1917, 12, 09 0o 0 shape of the, line 1 U58 A. tinjittvql 00 by a high-promwe quartz H vapmr tam at 10- Go go 2 r 20 atm. in me"iurd. The 111no phows sefff-reverml 00 WhIA diminWhm with in"vW" in Pressure while I Ito lW44plontu alki Ohio lurrImm" 1%P 13111101141119111 d, -If-revortsil at high 1xvAtAure is diffamni fnim 111m at low pressure. OutWitious favourabla for revormal g am discussed. J. A. 1). g: . j go ! "t 00,3 00 09 *0 00 see ;C., 'fov stIALLUNGICAL UTf#A?4,*9_CkAjjfPKAI1OM --r-1 . .... IF U 11 AV It) it An I 1 4 0 64 A) a 0 jP It 0 It It 00 Ad W At It U RIt n It 61 KLO n I INA dAO 00 & 0 Go o! 0 000 00 0 0000 0 0 0 0 0 0 : *1 9 0 0 6 0 000000 0 so 0 go go 96 AD a III a &I& age *sea**** 0000'. 09 0 00 0 *so*** 0 *so * 0 so  *31 a 4 1 6 1 0 0 to 11 it is 14 is % ty w It it 1-1--L-Ai- A& Lee 00. 00. 90 go a lee atom a 00 V. YAORtx- .00 00 S. "Gem". rewl. MO. .00 of. this vul.. 00 14,V wi=WW# the absorptim in the dwoharr =00 lba).-By the levels 03P #0 wbillils WPM Unw,"d coo at thew thr" levib Pais detamul the cog j too available catc. re"Ilta Are diwum-TO.. See MA..' age -00 got 1 T kc tp U 'A AV It ft V, -TV I C" 1, it 0 of a it it , . " ' 1 1.1. 000 00 64 0 0 410-00 090 9 0 * 0 0 0 00010 0 0 60 Go* 600 4 ~ 0 0 0 0 o 0 0.00 00-09 000000 0 00 0 0 00 0 0 & 0 & 9 0 0 0 0 0 0  0 ; ; ; 0 0 0 0 '00 0 0 0 0 0 -6-0-6-6-w I & 1 4 9 N 11 11 it Ad Is 16 11 11 TV " 1112 31313 knall loll u 13 140 It I? is "t 41 1. -1. .1 - L M N Q UR U 4 of r 00 At portkwW tothesect, root of thedmiroucimm. W F. Rathmann coo =00 COO ago J, zoo zoo- , zoo _ see -see CIO* &IN-II A OtTALLUP(,ICAL klTFPtAIVRt CLASSIFKATteb, t Z roo --s- .114 1, l . i so 13 u 11% -0 l 4 a I W 0. 9 #1 a T cm t? 0 it to It 11 It u r( a ft ii 0 0 0 0 0 0 0 0 0 0 f, Ia 0 0 f 0 0 0 0  J3 b 26 x 1; 3, V 11 W b it I. Al C A I I I I S a till Ism III& I? is " SO 1 .4 A -A I _k it a V I 1P L AA 0 4X tt It Optical Investigation of a inetal-vopor digcbArge V -00 Cumulative excitation of Attomm in a low-pressure mercury _69 discharge V. A. 1`0116~11111. 1: 14111.14-%a 'ItIll 1. 1-g -00 Viij,1k, Z. 13, 31, -00 I I. I'llu '-fl, 11 4.1 moill, Ia Ou. 411". millaw, lo 111.41 0 1 han"'ll ~Vtll, I" IIV 'N'llal I'm III 111,- 111, If the 'hyli'm r ... 1, (1 G:fg4 M. Fratiq 00 j ~90 00 Oi o 00 2 Zoo J t10 0 S.-SLA IIIIALLVVC.K~L WIMOLItt CLASillItC.11C. to 0 "0 0 ti,- 7- Z- U 1g 0 It Dt K OF it 11 a K it It W 1k a 7 1 '40 0 0 000 0 a, 0 40 a 00 40 0 0 00 of 00 0 0 0 a 0 0 0 0 o 0 0 0 0 00 000 00 0 0 *1019 010 0 0 0 0 0090000 000010 0 9 0 0 00 0 & 0 00 & 0 0 000 0 gs 0  Wo 000 0 00 0 *o a 070-10-0-0 WWW w T " a It It :1 D a jo n 1, 's Q- A I z AIL to .it 00 00 be is a P"Yot L-WS" F&brikaut- BKU- "'a 00 1. A. Th, BA%Atxa '" I (IWO); cf. A pk:r- 4. 125 =1d-111 Q lof tb~'d- -lug Pent". 7-If the line 2337 A- In I Art Wthod of uudu j&ikd study of r0Al*1kO3dOt,",,' j-3&Mp-).t3dlffc:v, X, .. 11=00 fig dkicrCT, 13utro'60~ 10- #t~W. fig). The Otwtv"' jll. prewrts , .6 slight "yMxneWo which 6 due to Minute the body Of Curv" show a _Mbwwmt Sdiatim it tion of the he tM CUrM, pboog, bed Iron, t v Frog s Metrics] !! roe Fpcolte ol tM tube, ILM density 0; Mrepating fW distriblitim a' flow 00 curves within the tubt The varktiOns a' The 00-41 -difirl'tiltIng dclssity -rv"- . I go 0 ,an be obtained by ,a with the tht-t" o0z cornWUM of oj;paved cur between dillu.ilul Of zoo ,,jcaWw b.,,d on We SEA TIAt analogY call I` """ a* 0 photon and of atOgn showed th& llul,~Allnl C"c" WdT up to 'k Cettaln limit. 200 we tie 0 I A SITAMWGICAL LITtRAIUME CLASSIFICATIGII we 40 ~CI J, F 1 N 'M 5 C 3 t V-1 0 ana: An 0 U U IV 00 is Ev tv to Eq 61 It 4a it a K a it It KLa n 0090 0 0 0 0 01:0 0 0 0 0 0 0 0 * 0 0 0 a 0 :10 0 0 * * 0 0 0 0 o *Is 0 0 0 0 0 0 9 0 0 0 0 0  ec4T T T 7 i Ik p 5 5 u n 1 r X= Mxi !F U M a is v a 0 4.1 6: M 0e jij~ Oso's 1 . -00 pa"I ti'l t .1 f. 0111~fists .1& -0 0 .00 W fil hod" 7 lumbWEXOM 0( walwlibm wfth I mn, 15% of Be + 1% Of Ilk "d n1l of Be + 2% Of of Mn =00 . . irradiated vrith bgbt from low- 04 capOkLry (medium- H - almd with jsosocbr~xsatiwd 2637 A. b 0 = OU - ar limp. d" tMt "W. is Actwated ofectively by Sab IUD A. "d SU? JL, whil"t Z~He lumduu- 7 of roe y we Im qmAthv to as formw &M than with 2% of Mn arc -00 L J. J_ affected only by the latter X 2 roe 41 0 # ' too SITALLt;PGKAL L"ERATWE CLASSIFKATION 4 1 C)- 0.1 ) - 11M It' 3C. 1 . 4 1 9 j U AV 00 0. U a FW 0 PO I N 64 5 J3 0 ~1 W.0 n Ofto 0 0 N p o 0 , O 0 6 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 of s 0 0 0 0 0 0 0 0 "M 6  -W Dwulft of raftuan In a sea d1wham. 1, A llul.Ar,Aj- \14 listwinlAn. and V. A. I'Anikant fifull. .4 .j %, 1. 1-lr~ S , 1941. 8. 25-96J.- lhftcr~n,rs t"--u diffultm, 11MAving partirl~ and phi,tons are qli%cu%m~l, and a turthtwl A taking lAwton dillumun 111tO ACCOU"t in tho 111-tv ,( tadlmwt, frou fa* dochair" is outhood I I It  & 9 0 0 0 9 0 W-0-111-a 47511.1 1 11 1 4 P 1 0 4 It A -11 -A _4_1j 00 11 00 4 go I doe f 00 to Go 19 tt 2 to I I lit 40_140 0111)(114 Romnant todiation of a iflachallito lit a m(ItuIv of ole, 00 AU4 arton. F. lluclury, 41141 V. Fala'"i'l curl vxr 11~10 2 1tw5) 9 .00 . 4 It 1. ', Ali, , . A qtuwu probe with lwaincoltmot willemilt Nexcril is Will, .00 (luced Inflo tile di-ellargr lubc. Part of the screen ran Ile .00 VoVvMl by a filler transparent to line 2.N17 A. siol j4h. olimbing line Ml A. The diltin-ol the little wa-31 noll tile voltrot II'M and I Illoll. lot the title. KSIA.&tul2.%37 AAmira-1 "lilt pre-ute in acco"Woct with the thel'Ay. In a lllixl~ of lliz slid 4 tum~ A the ratio U decreased 2.7 timesailbocelectr,"v tetup. (measured with lAnginuir probes) de"vLea froin ISAXII to 13.000'K. Tile ratio decreases also when the 00 curtortit is ratiltJ from 0.35 to 3 snip. This inattributed t,, 0 tile incivaso of 31137-A, rwitatfoo toy secNond"ry pr'ftv.-W~ 111VISIVIIIN Into(olikillf olhillo, go pet s Ait-It A AI1A%tVRGKAL LITINAIVRIF (LASSI]PICA111011 "'Of Ka 114111 Platt IT6914.1.011 1 0 0 0 01; ; ; ; ; 0 0 a 0 0 0 0 0 0 0 0 0 0 0 00 0000090000 OA-r-lo-edo 1:0 0 '.0 di 0 hn i I a old a q w tool j 1% 6 1 e 0 0 0 0 a 0 a Wwo 0 0 -0 -0-0-0 0 0 godit A  11 it No 14P *o4gli it it V I AA j A V V t 41411 using 4 1 1 - V , Some problems in ttuoreacent-lam development. F. A. Ilularve. V, L awl A. Fal-tilooil I like.-leir1l, Ifl.l. 4.1 the V 8 S N 1. 116,11 '14ad " 1 1, H.A'. S., si,. pAy A munmaiv. A,,-oidmg Mt IPM). .00 to COU I" in 19VI-44the 11glint, t -60 are Nually i"ponsiblec for the rxellation of tlu~wrtit 1-Mir". The oplintuill atilt. 44 flu"10*V11t Itial'-fistl , 1 -00 ,The l"istillw-4 11.1%1. k 41w.1 1. In'.%*7 1111g. C111- q 1l V h 9 l l )/ .00 0 0., otolu . - J - a ( ,- y ,. ( %larw 11_ 1% the Wighttira-A a Wyri al-cl, doo ing the ultraviolet radiation a, and as the relative 1wits =00 0 0 of the materials in the mixt. and K, suid K, their ab- corff. in the ultraviokt. ThLi forututis ha.3 only zoo 141-1-rolibilate value. In tmnt Russian laulp, the flu-i- 00 j-,ders air Zu Ile agicate (activator INN) ati.1 S14111041 Jilltiblitit-41 :so 004 iloo so '-I;roo :00 400 A! zoo J; ,,c0 0 ~--Oo so t I 0 0 t1i Net ;so V% AT 43 1%; -A t 0 NA 0 1 w 24 S As a 3 S ,a:, 0 0 0 9 0 Ole 0 0 0 0 0 0 0 0 0 0 0 6 0 0 0 Ws 0 0 0 9 0 0 9 0 0 0 0 0 0 0 0 It ' 0 0 0 0 0 0 0 0 010 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 le 0 0 0 0 a 0 0 0 0 0 0 0 0 i  Dec. 1946 TRmInescence IaMP5 "Xxcitat~on of Tminophore in Luminescent lamps," IP. A. Butayeva., 6 pp "Zhur Tekh Fiz" Vol MY No 10 During experiments for constructing the energy- &iatribution curves for luminophore compounds the author noticed a change in the spectral cur-~e form when there vas a change in the light sourge. The author investigated the role of the 1849 A line, &:uring the excitation of Itminophores in a tube, determined the filtration coefficient in a tube by 33) -2.6T89, sics (C ontd) Doe 1946 amsuring the brightness of various luminophoree in intrious apparatus with or without filters, and the Sensitivity of a1uminescent lamp to the 1849 11ine. Sibmitted at the All-Union Electro-Technical In- stit-ate, laboratory of New Sources of Light. ID 26T89  USSR/Physics Sep 48 Spectrometers Spectrum Analysis "The Influence of the Parameters of Discharge on the In~.ensity of R�sonance Mercury'Lines of 1,850 A and 2,577 " F. A. Butayeva, V. A. Fabrikent, All-Unicn Electrotech inst ImenJ V. I Lenin, .0 pp "Zbur Tekh Fiz" Vol XVIII, No 9 Investigates effect of current, vapor pregaure, and arigon gressure on Intehsity of 1,850 A and 2,537 X lines, using vacuum luminescence 32/49TiO5 (Contd) Sep 48 spectrometer. Intensity Of 1,85o line increases linearly with current, while noticeable deviations from linearity are observed for the'2.9537 ?, line. Working conditions of luminescea~t lamps cOrresl)CMCI to maximum Intensities of the two resonance lines of mercury. Submitted 5 May 48. 32/49T105 Ca  Um mar/Ayr 49 lamps, Fluorescent -influence -of Discharge Parameters Upon tb6 Thtensity or Lines (1,850 ina 2,537 Angstrbms) -In Flubresoent LUTS, " P. A. Biitayeva, V. *A-. Pabrikant, All.-Union glee Eng Inst imeni V. I. Lenin, 4 pp "IZ Ak Nauk SSSR, Ser Piz" jV*1-~XIn,7,WoI2 Using a vacuum monoebromator vhicb permitted separate observation of subject lines, author studied influence of discharge parameters (current strength, pressure of mercury vapors, and pres6nee of argon) on intensity, of these lines, and relative 4214,9T86 =R/Pbysice (ContdN) Mar/Ayr 49 sensitivity of luminophore to light of these.two - wave lengths. 42/4,9%66   ~ E-~~ -- I i- I - E - -I- 'i - -1: ji~': !I".' O~il! ~ I " m  VUL:FSON' K.S.. prof.; GLRBVICH, H.H.. prof.; MESHKOV, V-V-, prof.: NUMEDAR, R.A., prof. YUROV, S.G., kand. takhn. nauk; SOKOLOV, M.V., Prof.; BIBMWAN, L.M., kand. tekhn. nauk; , _!.A., kand. tekhn. nauk; IVANOVA, H.S.. kand. tekhn. nauk;-SUSHKIN, N.G., kand. tekhn. n&uk. Valentin Aleksandrovich Fabrikant; on his 50th birthday. Svetotekh- nilm 3 no.12:24-25 D 157. (MIRA 11:1) (Yabrikant. Valentin Aleksandrovich, 1907-)  SVBJECTi USSR/Luminescence 48-4-24/48 AUTHORS: Butayeva F. A, and Fabrikant V.A. TITLEi Sensitivity of Luminophores for Luminescent Tubes to Ultra- violet Radiation of Short Wavelengths (Chuvstvitellnost' lyum- ineatsentn kh lamp v korotkovolnovom ul'trafioletovam 12lUchenM PERIODICALt Izveatiya Akademii Nauk SSSR, Seriya Fizicheakaya, 1957, Vol 21, # 4, pp 541-543 (USSR). ABSTRAM The relative sensitivities of tube luminopbores to mercury lines of 1,850 and 2,537 X were directly measured. A specially designed vacuum monochromator was used. The brightness of the luminophores at their excitation by the 1,850 and 2,537 1 lines was measured by a photomultiplier. Table 1 in the article gives data for the ratio of sensitivi- ties of these lines. Table 2 gives results of calculations of the quantum yield. These data indicate quantum yields exceeding 1 at the excitation by the 1,850 A line, The ratio of sensitivities depends on the type of a luminophore. Card 1/2  48-4-24/48 TITLE: Sensitivity of Luminophores for Luminescent Tubes to Ultra- violet Radiation of Short Wavelengths (Chuvstvitellnost' lyuminestsentnykh lamp v korotkovolnovom ul'trafioletovom izluchenii) The article contains 1 figure, 2 graphs and 2 tables. The bibliography lists 3 references, all of which are Slavic (Russian). INSTITUTION: All-Union Scientific Research Optico-Engineering Institute PRESENTED BY: SUBMITTED: No date indicated. AVAILABLE: At the Library of Congress. Card 2/2  21(9),24(U) PHA44. ; EIJOK LXFLOITATIO' Sol; Ptzicheakiy inatitut Akademlya nAUK SSSR. Inaledovanlya po ek3perimentallnoy I teoretiCneSkOy fizlke; (abornlej (Studies on Experimental and Theoretical Physics; Collection or Articles) Moscow, I,d-vo AN SSSR, 1959- 304 P. Errata . lip Inserted. 2v3OO copies printed. Md.i 1. L. Pabelln3kiy~ Doctor or Physical and Mathematical Sci- ences; Eds. of Publishing Huse: A. L. Chernyak and V. 0 .Berkgauc, Tech. Ed.- Yu. V. Rylina; Cotmission for Publishing the Collection 1Z_ In Memory of Origortya SamuLlovich Landaberg: 1. Ye Ta=ns ; .; (Chairman)p Academician, M. A. loontovich, Academici P. A. Raz ulin, Doctor of Physical and Mathematical Sciences; S. L. Mandel'ahtatat Doctor Of Physical and Mathematical Sciences; 1. L. Pabelinakiy Doctor or Physical and Mathematical Scie"es; or Physical and Math F. S. Landaberg-B~ryahanskayap C&ndidate ; of omatical Scl*nces; and 0. P. MotulevLch Secreta~ry), Candidat ( Physical and Mathematical Sciences. PURPOSEs This book is intended for physicists and researchers engaged in the study of electromagnetic radiations and their role the structure and composition of materials. ~ ___ _ _ _ in - tAvest1g&!4!1g _ _ viiw7 re 1 c h _EOVWikGZt The collection contains 30 articles wh investigations In apectroacop7, sonics, molecular optics, semi- conductor physics# nuclear physics, and other branches of physics. The Introductory chapter given a biographical profile or o. s. landaterg, Pro fessor and Head of the Department or Optics of the Division or Physical Technology at Koecow Uni- t varsity, and reviews his work in Rayleigh scattering, comba etc. No personalities are sis or metals l l ana , Cases, spectra y mentioned. References accompany each article. Bazhulin, P. A., V. T, Malyahev, and M. M. S ehchinskl The Vork of 0. S. rm-daberg-rfrthe Field of Molecular K;.CtMso47j7 Fri140;jZ:Z,ff 18nd A' Investigation of T-ana- form t1lon ;Xbs..es. n. an Act vated Discharge Cenerator Opera ting Under Conditions of Low Arc Currents 27 Y n' 1. M. Kuznet- he I; T~ On", or Is itbn oerie Dlalkyl- -Y0lOh*z&n* on the Basin of a Combined Scatt* ring spectrum 43 Andreyev, x._ Standing Sound Waves or Large Amplitude 53 Bazhulin. P. A. and A- I qokalavaka". Investigation of the R61-aTfc-n of the Width or Combined Scattering Lines to Tem- perature 56 Buta ao. P_ A. and V,_A--EA1rIkAnt. A Medium With Negative Xffirpr rricient 62 V!AdIzI=,k1y. V. V. Nuclear Tr finsitions In Nonapherical Mucle-- 71 Optical Proportion or Substances In the ltreoua State so Vul, B- M., V. S. Vavllov and A. P. Shotov. The Question of --rz __ In -_~'~c Ion AVIOn _S4m1con4U1Vdrr- 95 Vul'f8On,,.11,,S_ Me- Methods Or Increasing the Errectiveneas - 't ;To 100 F Glnzburg, V. L. and A. P._Ie anyuk. Scattering or Light Hear Tra-naxiioyn of the Second Type and the Or1t1caj Curie Point 104 X"kovlch, M. A. Irradiation Or an Elastic Wall Vibrating - Under thi AitlOn Of Statistically Distributed Forces 117 Lavin, L. M. The Dimming of LIght by a Cloud 121 .!~az Ing .M.-A-Z.. L-j"Indall-ghtajand V=,G. Koloohnikov. The Broadening and Wi-liftlng of the Spectral Discharge In Plasma 128 Mslynhev. V. I., N- murtill. Investigation or the Hydro- VFfi-Wn_d_1n SN27nee6 Whose MQIeculeB Contain 7*o jjydi-oxyl Croupe 13k  BUTAYEVA, F.A. kand.toklin.nauir Role of the 1850 A. line in the output of fluorescent lanpa. STatotal-thnika 5 no-7:17-20 Ji '59. (MIRA 12--9) 1. VoesoyuzrW7 svetotelthnicheekly instib.A. '(Fluorescent lamps)  BUTAY-,'V, G-M., kand.tekhn.nauk; LUGHENITSER, I.A. Digital computer for the solution gas-flow equation with automatic correction for pressure. Avtom. i prib. no.1:45-49 Ja6-Kr 163. (MIR4 16:3) 1. Institut avtomatiki Gosplana UkrSSR. (Flowmeters) (Electronic digital computers)  BUTAYEV, G.M. (Kiyev) Efficiency of optimal codiag of the primary meter scale in pulse-code telemetering systems. Avtom.i telem. 24 no.D92-96 A 163, - - (KMA 1~zl) (Telemetering)  ZUAYET~ M ~L~ Butayeva, M. "Thn une of bone and mi-.2t mea.1 in fccdJn[~ hc2lthy 2nd ill children," Trudy Azer'baydzh. nauch,isssled. in-ta okhrany materinstva i ril2denchcstva i -)cdiatr. 1c;,fedr Azerbayfth. mad. in-ta, B21cu, 1010, P. 155-0, 01-iesnic it, Azerbaijani). SO: U-3736) 21 May 53, (Latopis 'Zhurnal Iny1ch St;etcy, No. 1.71, 19119).  BMYJrVA, R,S, - . Iffoot of the nutiltios of pregaimant mms on fetal developusat of the offorrince Ift4 bot, morf. sUv. noo'22t235-242 157. (min n:4) 1. Xeskoveldy wootekbMaheoldy Institut. (Name-Neding and feeding stuffs) (7stus)