SCIENTIFIC ABSTRACT SUKHANOV, B.I. - SUKHANOV, N.

i~ - I , , I I ~ I ) ; ~.r -a ;I , , - -. I:_ , .! , 1, , .: :~ I . : -/ ~ "", .! -35 ~ -;. ~ + 11, 41 Cl 165. ;',!-ETRA 18.-!C,)  'SOV-11" 0- 53-3-2 5/33 AILYTHOR3:;,~alkiell, G. TITLE: A Pulsed High Frequency Ion ;3ource (Impul'snyy vyso.'-~ochast- otnyj istochnik ionov) PERIODICAL: Pribory i Tell-chnika E_'-s,7,?e--i-nenta, 195,31, Nr 3, -0-,) 100-10-1 (U033R) ABSTRACT: A high frequency source in which the discharge is excited usins a h.f. oscillator is described. The extracting poten- tial applied between the anode and the probe is also obtained from a pulse generator. The construction of the source is shown in Fig.l. The envelope is made of rrl,-3 while the L) extracting electrode is of an aluminium alloy and the anode is aade of ~~raphite. The shELOe Of the channel in the probe is sliown separately in FiS.l. The high frequency oscillator works on two GI?B valves. Voltage pulses 5 kV in amplitude and 8 -usec long are applied to the anodes of the valves. The voltage pulses are obtained from a modulator including a hydrogen thyratron. Since the average power applied to the ijlas-.na does not exceed 30 Watts no special cooling is nece- ssary. Tiie transit time between the boundary of the plasm a and th-- probe7corresponding to a final protor. enerCy of 1.-0-30 "-,eV, is of the orriLer of 0.1 jisec. Hence if the Card 1/3 ~Ytracting oulse is shorter than 0.2-0.3 lisec the focussing  SOV-120-5;13-3-25/33 A Pulsed Hi~,ri Frequencj Ion Source of ions becomes much worse an,J t'he output clirre-P-13 rapidly decreases. Vhen the width of the extracting '-pulse is 0.8 psec tific width of the current pulse at the tar[~-at is 0.5 1-18o'c, It was shoun experii:ie.atally t',.'Iat tl,,e ener.-y of the protons does not chanz~e over the duration of the extracting pulse, Fi,c.2 sliows t!le ma--:nitude of -',--4e ion current obtained from tkie source as a fanctLan of the Dosition of the extracting -oulse relative to pulse which exWes the plasma. Tlae pro- Lon current is proportional -to V where V i~~ the magni- L-ude of the voltage pulse applied to the source. The opti- mum -,-.re~.isure in the source is 10-2 mm Hg. When the diameter of the aDerture in the probe is 3 Twa the gas consuinDtion is 50 cc/hour. At the SEUne time the vacuum pump (pumpin speed 500 lit-res/sec) maintains a vacuum of 1.5 x 10-~M, Fiz.4 shows the out,--,ut -;.u-reat as a function of the square of tae diameter of the aperture in the probe. The relation is approxinately linear. The content of atomic ions is 80- 90%. The difference in t'lle current for protons and deuterons Card 2/3  SOV-120-158-3-25/33 A Pul_~ed Freoaencj Ion Source i.,-3 I 0/~. The source tliV,310, CLIrrent --)ul-4e~; of 100-200 M-4, each, t~ie leri,~~th of -aach, )ulse being 1 jisce arid Ule repetition frequenej 10) see'L. V. Yu. Ge,vrilov is thran'-~-ed for 'ais help. Thore are 4 fi;zures, no tablo,-, and 4 references, of wiL~ich ~ are En6lish and 1 Soviet. SUBMITTED: September ?, 1957. 1. Ionic currents--Sources 2. Pulse generators--Equipment 3. Pulse generators--Performance Card 3/3  I S/12o/687AO/004/005/028 6~_' 6) 9 E032/E4i4 AUTHORS; Malkiell, G.S. and Sukhanov, B.I. TITLED A Pulsed Neutron Source PERIODICAL: Pribory i teklinika eksperimenta, 1960, No.4, pp.46-50 TEXT~' A descri.ption is given of an accelerating tube producing pul es of 14 8MeV neutrons. The pulse duration can lie between 10-9 and 10- sec.. and the repetition f7requenc s 500 Cps. The Ainstantaneous neutron flux in a pul.-;e is 1012ineutrons per sec The neutron tube employs the high-frequency fon source described b;, the present authors in Ref.4. This ion source gives instantaneous currents which are considerably greater than in the usual fqc~ontinuoustl hi-gh-frequency sources. The use of a pulsed high- frequency sourse enables one to obtain a large instantaneous neutron flux with tubes of relatively sn2all dimensions and weight. Thus., when the ~:.urrenc at the target is about 40 m.A. and the total ion accelerating voltage is 180 kV, of which 30 kV is applied to the high-frequency source and 150 kV is applied to the target, the neutron output when the D + T reaction is employed is 10-1?- neutrons/se,~, One of the biggest difficulties in the design of high-current acc~clerating tubes is the divergence of the ion beam Card 1/8  87366 S/12o/6o/ooo/oo4/005/028 E032/E414 A Pulsed Neutron Source c.aused by the Coulomb repulsion between -the beam particles. In the design described in the present paper.. this is obviated by placing the target at a relatively small distance from the source. This is shown schematically in Fig.l. Ions from the source slit are passed through deflecting plates to which a pulsed voltage of up to 10 kV is applied. When this voltage is not applied to the plates, the ions do not enter the accelerating gap and hence the length of the neutron pulse is determined by the length of the pulse applied to the plates. A zirsonium-tritium target on a tungsten base (14 mm diameter) is used. The second variant of the tube is shown in Fig.2, In this design a window for inspecting the focusing of 'ha beam at the target is provided. All the supplies are derived from four pu.16e gt~;nexators triggered through delay lines from a master -generator (500 r-PS). The latter is in the form of a conventional square-pulse generator which develops 200 V ar-ross a 150 ohm load at 'Iwo independent outputs, Pulses at output II ~an be delayed relati-v-e t._i pulses at output I by ! to 6 .,Lsef-. This arrangement supplies ~he following pulse -D1 tage-z (1) 8 kV pulses 5 long wh1,_h ~-e applied to the Card 2/ 8  S/120/60/000/004/005/028 E032/E4i4 A Pulsed Neutron Source ion sottrLe generator, 22) 40 kV pulses I ~Lsec long for the ion soutce am shown in Fig.1 and 3, (3) rectangular pulses 10-8 to lo-, s e C .having an amplitude of 10 kV which are applied to the deflecting plates, and (4) 150 kV accelerating pulses 2- 3 psec long. All the generators are based on the circuit shown in Fig.4, Neutron beams produced with this tube have been analysed by the time-of-flight method, using a 20-channel time analyser, A description is given of the circuits employed in conjunction with the neutron detector and the forin of a typical neutron pulse is shown in Fig.7 in which the time (psec) is plotted-along the horizontal axis, Fig~8~ 9, 10 3how typical neutron spectra for neutrons leaving 6 cm thick lead and graphite plates. In the case of Fig.8, the target wat simply surrounded by a lead plate and the detector (stilbene) received the primary neutrons. The flight path in these measurejuents was 5 metres, In order to reduce the background due to direct 14 MeV neutrons., a copper rod 60 cm long and 25 mm in diameter was placed in their path, In these measurements the flight path was 6 m and the i-esults obtained are Card 7/13  8-j)S6 S/120/60/000/004/005/028 E032/E4jL4 A Pulsed Neutron Sour,~e shown in Fig.9 and 10, Here a polystyrene-.based plastic sointillator, was used as the detector (400 cm3). A collimator was employed to reduce the background, The lower curve in each of these graphs shows the background level, A correction was made for the np cross section and the threshold of the detector, The tube has been found to be satisfactory after prolonged experiments and tests, The ion source has a lifetime in ex:-ess of' 300 hours. Acknowledgment is expressed to N.V.Popov for assistance in the measurements. There are 10 figures and 11 references; I Soviet and 3 nort-Soviefi.. SUBMITTED~ November 26, 1958 (IilitiollY) June 14, 1959 (after revision) Card 4/8  A Pulsed Neutron Source -- ~01 0 - (j 0/000/004/005/023 E032/F,4i4 Rtf Puc. 1 Fig.l. Card 5/6  673-Y'S S/12o/6o/ooo/oo4/oO5/028 E032/E414 A Pulsed Ncu Card 6/8 Fig. 4. + Zt,  A Pulsed Neutron Sourc-- d.7ld? 20470 /sag loco 'fro 0 419 441 a4? as1m,ax, 0 ags all 4I.$ 414. 43 1 1 TJ7 .7-7 15 1 47S Z5 Nil - Pb 5ej b qL74 OIf Puc. Card 7/8  A Pulsed Neutron Source *aa ^o/6 A~ W~, 5/028 ,11~L O~dtfo/004/00 E032/E414 df?ldt C J 0 * a.7ZNyce)r R12 a15 al OFO a J a 74, QOY I 2 NJ$ Pue. Card 8/8  SUKHANOV, B.I.; RUKAVISHNIKOV, V.G. Inelastic scatterinp of 14 Hev. neutrons on sodium, iron, nickel, and lead nuclei. Atom. energ. 11 no-4:398-399 0 '61. (MIRA 14:9) (Neutrons--Scattering) (Nuclei, Atomic)  SOV/122-59-3-12/1+2 AUTHOR: %LkhanaX#_~~andidate of Technical Sciences TITLE: New Electric Hoists with a Lifting Wire Rope (Novyye elektrotali s kanatnym tyagovym organom) PERIODICAL: Vestnik Mashinostroyeniyaq 1959, Nr 3, PP 39-43 (USSR) ABSTRACT: A series of new electric hoist types developed by the Central Design Office of the All-Union Scientific Research Institute for Lifting and Conveying Equipment (TsKB Veesoyuznogo Nauchno-Issledovatellskogo Instituta Pod"yeinno-Transportnogo Mashinostroyeniyat VNIIPTMASh), is discussed and illustrated. 8 hoists in a range of capacities between 1/8th and 7.5 tons, all with a lifting speed of 8 m/min and various lifting heights, are specified in Table 1. The weight per useful hp is plotted in Fig 1. In hoists of 2 and 3 ton capacity the weight per hp barely exceeds 100 kg, shown to compare favourably with leading German and American makes. The hoist mechanisms are designed for a five-year service life. At J-ton capacity and above, two-speed lifting is achieved by a two-winding motor. The low speed winding Card 1/2 can be over-loaded 15% for 3 minutes. Up to J--ton capacity, contactorless starting of the hoist motor is  SOV/122-59-3-12/42 New Electric Hoists with a Lifting Wire Rope carried out with a push-button direct-on starter illus- trated in cross-section in Fig 2. Deeper ressing of the button connects the high-speed winding. 9 models of hoist carriages are offered as sho-#m in the chart reproduced in Fig 1+. In some of the variants, the lifting rope drum is the hoisting motor stator casing. There are 8 figures and 3 tables. Card 2/2  BALAKHONOVS, V.N., in7,h.; SUKIHANOV.-MOR inzh. Telephone commnications during the sinking of shafts excluding the reception and 'zansmission of outside noises. Trudy KuzNII- shakhtostroia no.1131-40 163. (MIRA 17t8)  -arl of 1~00k,,: i, 1-lin of ati ~ann-er !I-';!,.(,,,, Technii-lal 1,.osco. oruer of Red r for Derree c)f Candidate of, Tec',--nical Knizhna-,,a 2", Jimc 1955, .,o--co";  SUKIWIOV, D.K.,kand.tekhn.nauk Now electric pulle7a with hauling ropes* Yest.mashe 39 no-3:39-43 Mr '59. (Pulleys) (MINA 12:4)  , - , , . ~. I t K~rns tarit I., su K i ~!tll I k 'k L-m-i tek"Li, - lia"llic , red - 1.10 ce j. r. m-D-no r a I i v e y J. P.- 9 0. I!-,A 18. trar, s 0!, Leiiin.-~rad, 19(:J-. 40 P.  SUKHANOV, D. V. Sukhanov, D. V. - "The problem of the peculiarities of the temperature cycle of the lowlands and forest gladess" (With a foreword by Ye. Rublhehtq~m), Trudy Glav. geofiz. o-,servatoril. Issue 15, 1949. P. 3-74, - Bibliog: 10 Iter-w SO: U-5240. 17. Dec. 53. (Latopis 'Zhumal Inykh Statey, No. 25, 1949).  SUIXANOV,D.T&., kandidat takhnicheakikh nauk; IVANOY.Y.I.. kandidat tekbai- redaktor; POPOVA,S.M., tekbzLicheakiy redalctor [Using rotary pumps for viscous liquids] Rabota lopastnykh nasosov na, viazkikh zhidkostiakh. Moskva. Gos.nauchno-tekhnAzd-vo mashino- stroitelinoi lit-ry, 1952. 32 p. [Microfilm) (MRA 9:3) (Pmping machinery)  I i I / , I I x , - A .t I -WT ~,.Zlkr raai~ M- meM.;M RMR40 - -  S1121161100010651004100~ D040/Dll2 AUTHORSt Kudinov, V.A.9 and Sukhanovq E.S. TIVPLE~ The effect of the cutter edge shape on vibration in machine tools PERIODICALt Stanki i instrument, no. 51 1961t 24-25 TEM., The--article gives the results of an investigation at ENIMS on the s'f*.zt of the cutting edge shape on chr-tter. The experiments were made .1", W.I..'__ different cutting edges (shown in Figuret with a IR62 (1A62) thread -.-it-'Cing lathe and blanks from "45" steel 115 mm in diameter and 550 mm longth, attached by one end in a three-jaw chuck, while t!% other thrust 6gainst a rotating center. The cutters were tipped with P18'(RlB) steel ax.d provided with an 80 clearance and 80 auxiliary clearancep and 450 ai..-id".11.ary angle in plane view. The main top rake and angle were zero, i.e r~ub~erfs top was made 'flat, so that all the cutting edges were in a plane passing through the axis of the machine centers. The chatter re- ,Lztamce was 60-75% higher with a two-step edge and 125-140% higher with a ~hrep-step edge. The optimum c dimension proved to be 1 - 2 mm for A  S/121/61/000/005/004/005 Thm eff6nt of the cutter edge shape... D112 DOW --itters with a main plane angle 20 - 40 0, and 2 - 4 Mm for outters with a 10 - 700 angle. The -formula used for calculating the length of the cutting edge ritepsII and III in the figure) was; Kt);m + a coaq .sin T w!~ie-p K Ls a coefficient = 0-7 to 0-81 tbm T- the cutting depth limit; 0 ri.~.meziqion shown in figure; main plane angle (was 45 in experiments). TriA step I length was chosen for a 6 mm, cutting depth. The edge tip radius .1i. all cutters was 0.5 mm. The durabill -ty of the stepped cutting edges was nt'l-r below normal, for each step works as an independent cutter with its main ~Lnri aux1liary angles. The chatter decreasing effect of concave and convex '.ur~ting edges was the same as of stepped edges (varied between 20 and 140% .-wo6- nhatter, depending on the point of contact between the cutting edge wnT4pieca and on the shape of the cutting edge), The-con-cave shape was eff,!!otive than the convex, and both proved equivalent to the stepped, -'-ha at-apped shape is simpler to produce and takes less ti:me to regrind. G:~-Do-ve-s on the front and rear edge side had only slight chat t er-daziping f J'P, ~-, i1_9 and 5% respectively) and affected the cutting life because of  The eff(Yot of the (.,utter edge- 3/121/61/000/005/004/005 D040/D112 curling arA jamming of the chips in the grooves. The conclusionis that if chatter starts in cutting, it must be eliminated by using cutters with a stepped cutting edgev without changing the cutting speed and depth. There is 1 figure. Card 3/4 V  SIJKHILNOV, E.S. Investigating the effect of mmltitool. turning on the vibration proofness of a lathe. Stan, i instr. ;.+ no,6:11-14 Jo 163& (MRA 16:7) (Latheo-Vibration)  SUVIUNOV. G. (Khaftnskiy rayon, Primorskago kraya). ....... 7irst school reserve. On. nat. no.10:21 0 158. (MIRA 11:10) (Maritime territory--National parks and reserves)  137-1958-3-5070 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Dir 3, p 87 (USSR) AUTHOR: SuXhanov G I. TITLE; Stamping of Large Components From Heavy Steel Sl-eets (Shtampovka krupnogabaritnykh detaley iz tolstolistovoy staii) PERIODICAL: V -.: Kuznechno-shtampovochn. proiz-vo. Leningrad, Lenizdat, 1957, pp 177-192 ABSTRACT: A description of cold-drawing operations on hydraulic presses, drawing of complex shapes on a sheet-drawing press model LGS-2, methods employed in the stamping of closed-shape products, and the stamping of drawn cups (shells) with subsequent final drawing to size. Ye-L. Card 1/1  250.);18(5) PHASE I BOOK EXPLOITATION SOV/3382 Yekimovl, Konstant'in Kona t,arlk. inovi -h, Vladimir Drn.1triyevich Makrinov, and Georgiy Ivanovich Sukha,,-.Gv Izgotovieniye pokovok pod kovc-n-hnymi molotami i pressami (Hammer and Press Forging.) Mos-C.civi, Mashgiz, 1958. 120 p. (Series: Blbliotechka vyp, 4), 7,000 copies printed. Revlewer4 B. 0- Bange ., Engineer, Ed~ (T-itie page): P. V. Karnnev, Candidate of Techr-isal Scier.,-es, Dc-:~ent; Ed. (Inside book): G. T. Obolduyev, Engineer.; Ed, of Publi6hing House: I. A. Borodulina; Tech. Ed,~ 0. V. Spera-riskayai Managtng Ed. for Literature on Machinery Manufacturing (Leningrad Divis~on Mashgiz)- Ye. P. Naumov, Engineer. PURPOSE; Thl-3 book is In'l-er-ded for engineering and technical I personne., of forge shops and can also be used by engineering studenl"-s, Card. 1/5  Hammer and Press Vorging SOV/3382 3. Drop hammer dies 13 4. Temperature ranges for forging and cocling regimes depending on brand of steel 5. Characteristic features of forging nonferrous metals aiftd alloys 15 Ch. II. Examples of Expedient Drop-:6rging Processes (a. I. Sukhanov) 22 6. Making forgings with reduced allowances and laps 23 7. Production of ferrous metal forgings 35 8. Production of forgings using gas cutting and electric welding 39 C~, III. Mechanizatinn of Drop-forging Operations (11. K. Yekimov) 47 9. Conveying equipment and devices for oharging and removing metal from furnaces and delivering it to hammer dies 47 Card 3/5  Hammer and Press,Forging SOV/338-r- 20. Conveying equipment and devices In press-forgIng .104 shops 21. Mechanisms and equipment for press forging lo8 22. Examples of planning equipment and organizing work in press-forging shops 118 Bibliography 122 AVAILABLE: Library of Congress VK/mrJh Card 5/5 4-27-60  SIMIAHOV, G.I., inzh. Technival conference on d.c. machines. Vest.elektroprom. 31 no.3: 79-Po mr l6o. OGRA 11:6) (Blectric machinery-Arect current)  OBOLDUYKV, G.T.; PETROV, L.N.; ZUJW&IOl", G.I.; KAMNEV, P.V.j kand. tekhn. nauk, red.; BULGAKOV, B.S., inzh., retsenzent (Hamering and press forging] Kovka pod molotami i pressami. Moskva, Mashinostroenie, 1964. 206 p. (Bibliotechka kuz- netsa-novatora, no-4) (FIRA 17:1-2)  3T,TKH.57'lMl'TY f~. Fl. Bearings (Ilachinpry) jTe,,,~ deViCe for -rindina 3pherical surfaces of bearing rings. "odshipnik, No. 2, 1952. 9. liNITHLY T-IqT '-F ACCa~SSICN3., Library of Congress, April 1952. Uncl.  -~, ~- i ',- - 1, -4i - -- 11 \ " , . ~ L,- , C- I , -,, - SUMNOV, G.K., inzh.; LICVITSKIY, M.I., inzh. : T~e Bratsk Hydroelectric Power Station. Gidr.stroi. 26 no.11: 47-56 N 157. (MIRA 10:1,U/ (Bratsk Hydroelectric Power Station)  IZVLIKAMOV, V.V.; SUKHANOVA G.N.; BULICHUK, D.D. Increasing oil recover7 by means of electroosmosis. 1zv. vre. ucheb. zav.; neft i gaz no.8:6347 158. (MIRA n: 10) 1.Ufimski7 neftyanoyrinstitut. 091ectroosmosis)  Fit CILOV , Bcr,-,' Kilz I in I ~-`n G. -K. I r,? -,I. 2,' c-nore',e -h~ of, L ., I - -1 , - dn:is; pract-1--es in the cc~ns-,ruiction ~f '-draullic stnictures 4-n foreign countries] Reg-ulirovanie tempera- turnogo rezliiira betona pri sooruzhen-li p~-)tin; iz opyta stro-itellstva oidrouz2ov za rubez~.oi;.. Nosirva, Energlia, 1964". 167 p. (MIRA 18:2)  DEVLIDYOV, V.V.,- SUKWOV, G.N.; BULICHUK, D.D. Calculation of oil recovery in flooding according to reservoir thicknesses. Izv. vys. ucheb. zav.; neft' i gaz 3 no.8:53--57 160. (MIRk 14:4) 1. UfimBkiy neftyanoy institut. (Oil field flooding)  SUKHAWv, I. (Telets); STRELICHMOt V., shofer (Bryansk); KUZMSOV, A- Readers' suggestion. Za rul. 17 no.11:20 N '59. (MIRA 13:4) (Motor vehicles)  SUKHANOV, I. M. SUKHANOV, I. M.: "Investigation of the stability of a thin-walit,-d hous- ing to the effect of axial forces." Min Higher EducatfLon Ukrain- ian SSR. Kharikov Construction Engineering Inst. Kha:7'kovs 1956. (Dissertation for the Degree of Candidate in Technical Sciences). Source: Knizhnaya let02181 No. 28 1956 Moscow -- - ---- -I- IJAA%Ai Ufa&$ 7W0 WV4 6,21.7  ACC NR: AP7004253 behavior of the tape transported at a rate up to 50 m/min by a special variable- speed mechanism; the tape length accommodated up to 150-350 :frames. The above experiments yielded these findings: the bin height should not exceed 500 mm; not over 10 m. tape per 10 cm, bin width should be stored; 1 dmg,Df side wall should correspond to 1. 8 m tape or less; bin lid is necessary; there is no essential relation between the tape speed and the bin capacity; the bin size is reasonable (5OOx5OOx36 mm) for tapes up to 35 rn long. Orig, art. has: 2 figures* !SUB CODEE: 09, 13 / SUBM DATE: none Card 2/2  POROMOV, F.F., prof.; NALETOV, A.V., (deceased]; Prinimall. uchastiye: SKOVORODIN, N.M.,assistent; GRECHISHNIKOVA, G.D., starphly-laborant; KROTKOV, A.N., veter. vrach; SUKRANOV, K.M., veterin. vrach Importance of the biomycin-vitamin concentrate in a combination of measures for ridding farms of infectious atrophic rhinitis of swine. Sbor. nauch. trud. Ivan. sellkhoz. Inst. no.19: 155-159 162. (MIRA 17:1) 1. Kafedra veterinarii i zoogigiyeny (zav. - prof. F.F. Porokhov) Ivanovskogo sellskokhozyaystvannogo instituta. 2. Nachaltnik Ivariovskogo oblastnogo veterinarnogo otdela (for Naletov).- 3. Uchebnoye khozya~ystvo "Vasillyevokoye". Ivanovo (for Sukhanov).  8io; SOV/112-59-2-2907 T:r izi..4 11;4. t ionh-Om- Referati-vnyy z1hurnal Elektrotekl-mrika, 1959, Nr 2, p 91 (USSR) AUTHOR- Sukj-~arr)v, L. A. T-TTLE- S-*=i.~Iatirig Large ower Transformers (ModeH:r,,1!-a:t '%ye mc-shcEnvkh si-',ovykjl- t ran qf!~,. --,- --matc-rov) PERIODICAL- Tr . k4ezhvL7zcvsk. nauchno-tekhr.. konferentsi'. po dal'nim elektroperedacliam, 1956, SektL- 3. L. , 1957, Dp 44-54 ABSTRAGI': PhyFical simulators are used for IaL-orato-ry investigation of electrical syste--ns an-d their componente Two ty-oe-E o.,;' of large power fratiif-Or.rners are used: (1) geometi si-mula.tors that provide a ~, rn;.-Ia:~`-ty ot e,ectrcniagnetlc fields; tl~tese are intended for 41~ive.itigati.-,ig wave p~--.encme-na in xindingg a7vi %-,~-her pe~~nomena in the structural mernberF; `2) tl:~,i-t re-,rcd-,.-.ce th-~ f-.---~~damental ph.e-nomeaa,prily in terms of tilme; these are -ased when an electrodyna-mic syEtem containing a trar.,3former is 9-imulated. Ir... the latter case, the similarity of transformers Card I 13  SOV/ 112-59 -2-2907 SjmUIat4_-)g Laige Power Tra.-n9f-.:,:z--_rners s ex_D:t,eqqed as a. Zeliti7ze--m-~t equa` Llty of the folll*wing qwLntities of the ~3;-nu2--it-jr and ',he cxigi:.,..aI,: winding electrical -_-epistance ro, short-circuit "osses Pk-, n-~-_`.-)~~d Io5ises Pr-, windirlg reactance, and no-load characteristics. Lo,,t,7 ej-ecttomagnetic !Dad_~ngs are assumed ff-~r the sirnu-ator in order to obtain ,-.,)w w~nd_;Ilg Hcix&-ever, with a small -Ii.-ransformer capacity and low e-ei_tIr._)In3.vFi:I-_-,.. `.--a_e-.-_-_-_aIS ~,+he case of the short-circuit voltage Uk ~E -.7ery lmw -7. to raise b,~-thhiZ-,' an 1 'om w; dings are specially or. ~Ee ccre-~- s~;. tl~at their re.:;j:j-jaq sets up an additional Jea.kage fjLx.. AP a be designed, the 3,n electrod~7_am_;c ~~nodal c.--' a systern are built in two ty,t~ez: a ~n vL"h. ezli;3.3. relati've Pj,, bLt with nonsimilar no-load Oia~-acteri,-nicF, model aids In stability of electric 'r9temt2; a -M-Ael wih r. -.1-lad characteristics but iv-_-eYJ.a' relat;_ losser PIK' The foa-m-ulae deterrni.~Mg ~najor dimensio.ns of the Card 213  3 13 ks, lq4t 1140 t 6'e ~t)e 02, s 0 -it c7 t, 0~- O-Z'19 'J." clo er, 4 ct'i ON t,N c1 19 49 9 t I e A?. C.j 0 e& .10 - es S r0 e 6e e eQ? 4,6,1 1p e 'oj~, ~b, .9t o ell Or t4e se -,'Oct TO tt, "I'll 'R -, '04 -10, J'4& C' to ~?-& -'~j 'Die oole of th r0 S9 el, 0 0 te Ct. C J0,0 0 r0 02. ect & 0.1. L% eQ? clit 31 o a r J.9 4b c' 6 4% 0. Qto 4eQ, qoi la "? ~% 0.~ the .,0,t cq,~? o t &,i 4~7 P.- ea e~~t .1 the ect  =GMIUL SWIMERIM, AUTHORS: Sukhanov, L.A. and Urueovp I.D. (Lenii*,,rad). 24-4-2/34 TITLE: nvestigation of the movement of a rotor of a synchronous ;alient pole generator in the case of asudden three- phase short-circuit, (Issledovanie dvizheniva rotora $Jnkhronnogo yavnopolyusnogo generatora pri vuezapnom trekhfaznom korotkom zamykani1). PERIODIUL: "Izv. Ak. Naukj Otd, Tekh7. Nauk" (Bulletin of the Ac. So., ' 'Technical Sciences bectiont IM, No.4, pp .5-13 MSR). ABSTRACT: Calculation of the dynamic stability by methods generally used does not take into consideration the braking torques produced by the super-transient and aperioclic components of the short-circuit current. Investigations of this problem by Kazovskiy, E. Ya. (Elektrichestvot 1954, No-7) Ohowed that these moments affect appreciably the acceler- 4tion of the rotor during a short-circuit near to the ter- inals of the generator. The aim of the work described n this paper was to woxk out a sufficiently general and i ecurate analytical method of determinatJon of the changes ' n the speed and the displacement angl of the relative T e ovement of the rotor in three-phase shoit-eircuits, tak- Card 1/4 Trg into consideration a number of important factors, e.g. the speed and displacement angle components caused by the ' ' 4dditional momentf eq.(2 .79 the pulsation moment in .5), p  MKHANOV,L.A., Cand tech Sci -- (diss) "Llectric4o machines and transformers in ail electrodynamic model of a power syotem.11 Len 1958, 18 pp (min of H;gher Iducation U&SR. Len Polytechnic Inst im M.I. Kalinin) 150 m ies (KL, 50-58, 126) - 85 -  - S-UKHANOV, L.A., inshener. A transformer for a miniature power system. Blekt:richostvo no.4: 82-84 AP '57. (MlRA 10:5) 1.Institut elaktromekban4ld Akademii nauk SSSR- (Ilectric transformers)  K Y 41 BOBROY, Y.K.; YoRoNoy, j.A.; GUMOV, I-I-; IYAROV, V.I.; KARPOV, G.V.; KAMUELTAN, T.Te.; ~WMOV, Y.T.; SIROTKO, Y.K.; SIRTT, U.S.; SUKH"OV, L.A.; 1JRUSOY, I.D.; FRTISOT, T.T.; FOMINA, Te.N.; KOSTINKO, M.P., akademik, red.; DCIKATCY, P.S., red.izd-'Ta; SMIRNOTA, A.Y., tekhn.red. [Blectrodynamic modeling of power engineering systemaj Zlektro- dinamichaskoe modelirovanie energeticheskikh sistem. Pod red. H.P.Kostenko. Moskva, 1959. 406 p. (MIRA 13:2) I.-Akademiya nauk SSSR. Institut elektromekhaniki. (Electric networks--Electromechanical analogiets)  gig; Asia 31 a PV t' All a a a3g t. 4t AS 11 j; jai  PHASE I BOOK EXPLOITATION SOV/4172 Akademiya nauk SSSR. Institut alektromekhaniki Sbornik rabot po voprosam elektromekhaniki, vyp. 3s Energetficheakiye sistaw, elektromashinost-royaniyag alektricheskaya tyaga, avtomati,airovannyy elektro- privodp avtomaticheskiye i telemakhanicheskiye sistemy.. e'Lektrosvarochnoye oborudovaniye (Collected Papers on Electromechanical Problem, no. 31 Power Systems, Electric Machinery Construction, Electric rractiong Automated Electric Drives# Automatic and Telemechanical. Systems, Electric Welding Equip- ment) Moscow Izd-vo AN SSSRp 1960. 314 p. Errata slip inserted- 5,000 copies printea. Resp. Ed.z V.V. Sidellnikov; Ed. of Publishing Houses I.V. Suvorov; Tech. Ed.t R.A. Arons. PURPOSEs This collection of articles is intended for scier~ific and technical personnel. COVERAGEs This book is divided into sections according to the title. The, scien- tific articles are preceded by a brief biography of Academician M.P. Kostanko, Lenin Prize LAur6ate,'Director of the Institut elaktromekhaniki AN SSSR (In- stitute of Electromechanics, Academy of Sciences USSR). References 4ecompany most of the articles. Card 1113  Collected Papers (Cont.) SOV/4172 Sirotko, V.K., L.A. Sukhanov and G.M. Smolin. 3.5 kva Trant3former Model 81 The article contaiiss:~a~~etailed description of the MTO-3-5 transformer designed at the Institute of Electromechanics, Academy of Sciences USSR. Investigations on the power system electrodynamic simulator of thi, Institute have demonstrated the adequacy of the simulator. Sukhanov, L.A. Additional Short-Circuit Losses in Simulator Synchronous --6e-neratore Vi-th Nonsalient Poles 89 The author describes the causes of additional short-circuit losses and seeks ways of reducing them. From experimental data, he concludes that in a correctly designed simulator generator with nonsalient poles additional short circuit losses could be reduced, but no's below 0.4%. Orurk, I.A. Rules for Regulating the Excitation in Synchronous Generators 100 The author refers to the works of M.P. Kostenko and I.D. Urusov which established the fundamentals of rules for regulating the*excitation in synchronous generators. He oxamines certain additional problemsp in particular the operation of the machine in a zone of artificial stabili- ty. For this, he uses approximate equations for a synchronous machine expressed according to the Lebedev-Zhdanov method. Card 5/13  '-- -SUKHAVQV9,- L.AA Leningrad) Use of an electrodynamic model for studying a 2000 km. tvo-net- work 600 kv. a.c. power transmission system. Izv.AN SSSR. Otd. tekh. nauk Energ. i avtom no.1:35-40 Ja-F 261. (MIRA 14:3) (Electric network analyzers)  SUKHANOVp L.A.j kand.tekhn.nauk (L4ningrad) Approximate calculation of the effect of additioiAl moments of hydroelectric generators on'the dynamic stabilit:r of electirc power tAnsmission. Zlektricheetvo no.2:91-93 T 161. (KIRA 14:3) (Hydroelectric power stationo)  SUKHANOV, L.A. Use of a model for studying the voltage distril-ution in a long balanced 600 kv. electric power transmission line* Sbore rab. po vop. elektromekh. no.6t160-165 161, (MIRA 14:9) (Electric Dower distribution-Models) (Electric network analyzers)  SUKHAROV, L.A. Effect of forced excitation on the motion of a rotcr at nonsym- metrical short-circuits of the salient-pole generator feeding an electric power Aystem via a transmission line. Sbc.r. rab. po vop. elektromekh. ro.6:180-187 161, (14IRA 14:9) (Electric power distribution) (Electric generators)  .S-UKHANOV, L.A. (Leningrad); FETISOV, V.V. (Leningrad); SIDSLINIKOV, B.V. (Leningrad) Methodology for calculating electromechanical transient processes in multiengine systems with consideration of nonlinear character- istics. Izv. AN SSSR. Otd. tekh. nauk. Energ. i %vtom. no.3: 73-83 Ny-Je 162. OCRA 15.6) (Electric machinery)  R;AA Results of the use of an electrodynamic network analyzer in otudyUg a large 4,c, power transmission system with two support compenoatore.Sbor,rab.po vop. elektromekh.no.8 s6O.,.,(A. 96 M MMM- 1011:11 (Electric er distAbution-Alternating current) (Blee e *eW*rk analyzers)  SUKRANOV, L.A. Calculation of the inductive reactance of the leakage of the windings of model turbogeneratorso Sbororabopo vop.elektrom~kh.no.Ss296-301 163. PCM 160) (Turbogeneratora--Windings)  VOLKOVA, Ye.A.; KAZ(jVSYIY, N.M., doktor- L,3khn. nauk; W'13130V, G.V.; SAFAP0111 G.M.; ST-IF-HAMN, L.A. Calculation of the transient processes of synchroro-is machines in faulty operation by using electronic di.,7-Tal computors. Elektro- tekhnika 35 no.7:11-15 16.1,. (MIRA 17:11)  RE  L 13348-66 ET,-IT (1) /ET 0 (f /WG /M (h) TT/AT F-A-C-C NR, A T6_000_058 SOUR ------ GE CODE: AUTHOR: Sukhanov, L. A. ORG: none iO 6A-5/6 UR 000 TITLE: Calculation of the magnetic circuit of a cylindrical-rotor utuipolar machine SOURCE: AN SSSR, Institut elektrornekhafilk.l. Elektrichaskiye mashiny; issledovaniya, voprosy teorii i rascheta (Electrical machinery; research, problems -.i theory and design). Leningrad, lzd-va Nauka, 1965, 279-292 TOPIC TAGS: generator, magnetic, circuit, circuit esign ABSTRACT: Considerable difficulties arise in the -design of some elements-of the modern cylindrical -rotor unipolar gene rator!;5~d'e'te rminati on of the rotor magnetic state, ring-pole leakage fluxes. and kindred points has been only roughly treated in modern literature (P. Klaudy, El. und Maschinenbau, 78, no. 3, 1961; Y. Poulain, Bull. Soc. Franc. El. , no. 23, 196 1). The present article offers more accurate techniques foi calculating the magnetizing force required for the rotor (allowing for the istrong saturation due to the load current flowing in the rotor) anti the leakage Ca;-d I / 2  L 13348-66 ACC NRt AT6000058 factor of the field winding (a formula for this factor is developed which neglects the field-coil curvature). The current spreading in the rotor drum is analyzed, as is the magnetic field in the rotor steel under load conditions. A design formula for the rotor magnetizing force is derived. Orig. art. has: I figures. 43 formulas, and 1 table., SUB CODE: 094111 SUBM DATE: 011,4ar65 ORIG REF: 002 OTH REF: 004 Card 212  SIDEL'NIKOV, Boris Viktorovich, assistent; SUKIIANOV,, Lev Aleksandrovichl kando tekhn.nauk, starshiy nauchnyy sotrudnikjo, YUSHCMKO,- Anatoliy Grigorlyevich,, imb.; FETISOV, Viktor Vladimirovich, lcand.tekhn.nauk, dotserst Analysis of transient processes in a Wo-speed induction motor with a choke in the stator circuit and intermittent power supply. Izv.vys. ucheb.zav.; elektromekhanika 8 no.6:644-654 165. (MIRA 18:8) 1. Kafedra elektricheskikh mashin Ieningradskogo politekhnicheskogo instituta (for Sidellnikov, Fetisov). 2. Institut alektromekhaniki, Leningrad (for Sukhanov). 3. Leningradskiy politekhnicheskiy institut (for Yushchenko).  L 14053-66 SE11 T (m) /DIP (w) /EPF (n) -2/T/DIP (t) /?JP (z ) /ap (b) IIP(c) JD~W.11flW1JG1 ACC NR: AT600057 DJ/GS SOURCE CODE: UR/0000/6i/1300/000/0267/0278 AUTHOR: Sukhanov. L. A.: Bobkovt W Safiullina, R. Kh. ORG: none TITLE: Current collectors with liqui(Lmettal contact for acyclic machines SOURCE: AN SSSR. Institut elektromekllgWj~L_ Elektricheskiye mashiny; issledoiraniya, voprosy teo_rii i rascheta (Electrical machinery; research, problems in theory and design), Leningrad, Izd-vo Nauka, 1965, 267-278 TOPIC TAGS: electric generator, liquid metal, slip.ring, direct current, electric engineering, friction loss ABSTRACT: The author discusses various mechanical losses in homapolar dynamos with current collectors based en low-melting alloys. Current collector designs are di- vided into two basic categories: 1. ~-he ring type in which the 01annel between the contact surfaces is completely filled with the liquid metal; 2. the jet type in which contact is made at individual points- around the circumference by a thin pres- surized Jet of liquid metal. The advantages and discidvantages of each of these Card l/.2  L lh053-66 ACC HR: AT6000057 tylls.are discussed. Tests of a mearcur)r jet contact shov a resistance of less thf 10 for a linear rotor veloci-Y of 150 m/sec, a current of 100D amips and mechani- cal losstis in the jet of about 750 w. The authors describe the centrifugal ring contact in horizontal and vertical homopolar machines. Electrical losses in this type of current collector are analyzed. Consideration is given to the fornation of a contaminant layer by the iriteraction between the liquid metal and the surface of the current collector rings.~k Experimental data show an increase in equivalent per sistance with time which differs for various metals. It is found that nickel 211 '