SCIENTIFIC ABSTRACT KONONOV, B.P. - KONONOV, I.V.

30089 S/057/61/031/011/004/019 B104/B108 AUTHORS: and Sarkayan, K. A. TITLE: A high-vacuum plasma source PERIODICAL: Zhurnal tekhnicheskoy f iziki, v . 31 , no, 11 . 1961 , 1294 - 1297 TEXT: An experimental device (Fig. 1) for producing plasma by mixing electron and ion beams in a vacuum system with a pressure gradient is described. In the tubes AB (d = 4 cm, 1 - 1.1: in) and KD (d = 1 cm, 1 = 1.5 m)(Fig. 1) a pressure gradient is produced by continuous inlet of air and evacuation., A system of coils generates a longitudinal magnetic field of 200 - 10OOoe. The electrons emitted from the cathode move toward the anode A, and ionize the gas in the anode region. The ions produced in the anode region move in the opposite direction. When the space charge of the electrons is compensated by the space charge of the ion flux, current increases and the capacitor C is rapidly discharged. At this moment, the plasma density in the high-vacuum region reaches a maximum. The plasma density was measured with h.f..-probes., The maximum plasma 12 -3 density was higher than 10 cm . After the end of discharge the gas Card I  A high-vacuum plasma source 30089 S/057/61/031/011/004/019 B104/B108 pressure was measured with an MH -5 (MN-5) gas-discharge nidnometer. `Uhen voltage was quickly changed from 1 to 3 kv at a pressure of 2-10-5 mm Hg1 the time for initiation of the discharge in the manometer was 200 psec. The gas pressure increased from 2*1o-5 to (-1-2).10-4 mm ffg. This may be explained by plasma recombination. 'The experiments showed a delay be- v;;een the beginning of discharge and the moment at which the discharge current has reached its maximum valued The delay of current development depends on the discharge-capacitor voltage and the pressure gradient in the anode section. Results are illustrated in Figs. 4 and 5. In the capacitor-voltage interval of 10 - 16 kv the ion velocity (9-104 cm/sec 35-10 4 cm/sec) is a linear function of voltages The authors thank Professor M. S~ Rabinovich for interest and advice~ There are 6 figures and 9 references: 6 Soviet and 3 non-Soviet. The three references to English-language publications read as follows: P~ Reynold , H. M. Skarsgard. CERN, 59-19, 1958; E. R, Garrison, R. H,. Dawton, I Electr. and Control., 5 , no. 1, 29 - 32, 1956; E. R. Garr4son. Phil~ Mag., 3, no, 35, '1318 - 1325, 1958. C ard 2 X~l  97 '//,Z 0to, F 3a C) S/109/60/005/010/020/031 B033/1,-,1115 AUTHORS: Kononov 8 P and Sarksyan, K.A. ''TITLE: Some Special-Fea~tures of a Gas Discharge With Oscillating Electrons- PERIODICAL: Radiotekhnika i elektronika, 1960, Vol-5, No-10. P1).1717-1719 TEXT- The article gives.the results of experit~ental and thcor*tical investigation into the gaseous discharge potentials between an internal spiral electrode (anode) and an external cylindrical electrode (cathode). This construction was used'in a kV-and diode for rectification of 50 c/s a.c. voltages up to 2 curx-ent values up to 30'mA. Graphs are produced of the forward and reverse striking voltages'(0.1 to 10 kV) versus the gas (air) pressure (10-2 to 1 Im, 11g) and the reverse-to-forward voltage ratio Uo6p /unp M~everse/Uforward) is also plotted. Difference in the reverse and forward striking voltages is explained by the fact tbat, with forward polarity, the'electrons can perform oscillatory movements under the action of the electric field. This leads to increase in the length of the electron path Card 1/4  21597 s/lo9/60/005/010/020/031 Some Special Features 1',033/E415 arid to a corresponding reduction in.the striking potential. Despite tile fact' that this method of rastrn~nj-,jg the electrons La less effoctive than the magnictic field method, nevertheless, in a nuniber of cases the absence of the magnetic field is a definite advantage. Assuming that the pitch of the spiral h is less thari the diameter. of the spiral d, then Ureverse can be calculated by the formula Bp1O Apl* In- In (1+ where A and D are constants; p is the::, gas pressure; to = (1) d)/2 (distance between the electr'4odes, D being the diameter of the cathode cylinder); y is the Townsend surface .. N. emission coefficient, which depends on p and U. There is agreement between the experimental data and the calculated results for values of Y = 10-2 to 1 as shown on the plotted results, but with values of p and U where y, is greater Card 2/4.  s/iog/60/005/010/020/031 Some Special Features E033/E41-5 than 1, other discharge t-,iechanisms (coronary d~ischarge etc) I begin to appear. Eq.(1) does not apply to Vforward because the oscillating electrons create addition-al ionizition in the discharge, gap. Taking this into account, Uforward is given by DD~18 In +1 UrIp A it- nD4 Iii t + 10 ~Fp where in is a coefficient of non-hothogeneity of ionization the discharge volume; n is the ratio between,the diameter. of the wire of the spiral and h. With values ofi V A = 50 B 1300 1 = 0 .7's 109(1'+ 5; cm mm Hg' cm nun H g Y the formula gives results which agree with the 'experimental results. There are 3 figures and 5 Soviet references. ASSOCIATION: Fizicheskiy institut im. P.N.Lobedeva AN SSSR (Institute of Physics imeni P.N.Lebedev AS USSR) Card 3/4  n L~7. , ,_ I'Uzi VTV~i Vr---rT ~t TV 14t, A1100 (1140dvs, I*SA) B104/B20,5 AUV ORS: I Ixononov,-B: P., Rukhadze,-.A. A., and Solodukhov, G. V. TITLE: The electric field of an emitter -in a -ola,sma located in an* external magridtic. field PF,R.IODICAL: . Zhurnal I tekhnicheskoy fizi-ki, v- 31; no- 5v 1961, 565-573 TEXT: A study has been made of the electric f ield in the neighborhood of an emitter in a plasma located in' an external - field.. Measurements were done with the use of two antennas' ana a single h-f probe. The electric f.1eld of a point dipole can.be described by E k (kd) e1kr 27c2 k j where r is ' the radius vector of the observa-tio n -ooint. Neglecting ion Ypotion and particle'collis-i~ns, the tensor e (w) can be written as ij g, ig 0 e 0 (2) .Card 1/6 0  The 'electr c ielk. 'where CH In moo SirO5 ~11 B104/B205 In an appendix, it is exaotly shown that a W nP11 > E. = 0, W .1 P) 92M t2 (3) E, =E, = 0 nPj1 LL < 0. holds at r1oz and d It oz', while E, M E, 0, -10- (4) ell (W) is valid for r";1, oz and 'd oz. In these relations, Eo indicates the ami)litude of the electric field.of the dipole in a vacuum; Ez and Ej- are the ammlitudes of-the h-f field in the P1 'asma. -In the'case of weak magnotic fields ((z., ~w), (3) agrees with (4), and E.L/Eo as a function of Card 2/6  22777 The electric field... 5/057/61/031/005/006/020 B104/B205 density becomes infinite at one point. At W =we the electric field in the plasma as a function of density becomes infinite with the exception of Ito oz, T.Loz and 0He >G), where resonance is absent. The field strength E as a function of the fiell strength of the external magnetic field is of great interest with a fixed plasma density. These properties of an electric field in plasma have been studied with the aid of an arrangement shown in Fig. 3. At a pressure of 2.10-2 mm Hg (air), a gas discharge was produced between two electrodes in a glass flasi 4 mm in diameter and 18 mm long. Transmitting and receiving antennas were inserted from both sides (spacing: about 3 mm). The antennas were made of coaxial cables. In first approximation, the transmitting antenna constituted an emitter which could be considered a dipole oriented along the axis of 10 -1 the oable. The frequenny applied was M- 5-7-10 seo , and the receiving signal vas amplified and conveyed to an oscilloscope. The solenoid generated a magnetic field of 7000 oe in the discharge tube. The authors studied the resonance of an electric field at small plasma densities, which had been produced by a discharge current of about 1 ma. Card 3/6  22777 S/057/61/031/005/008/'020 The electric field ... B104/B205 Fig. 8 shows the electrical diagram of the single h-f probe. A comparison between experimental and theoretical results indicates that, In accordance with theory, resonance will occur at E 2(W) '0 only if the dipole moment of the emitter has a definite orientation with respect to the magnetic field. The experimental density required is slightly different from the theoretical one- This is due to the varying Input resistance of the antennas, which complicated the experiments considerably. The authors further examined the possibility of measuring the plasma density with the use of a single h-f probe. This method is based on the dependence of the resonance of the input resistance of the dipole on the plasma density. It could be shown that this method is applicable to both isotropic and anisotropic plasma. There are 9 figures and 6 references: 4 Soviet-bloc and 2 non-Soviet-bloo. ASSOCIATION: Fizicheskiy institut im. P. N. Lebedeva Moskva (Institute of Physics imeni P. N. Lebedev, Moscow) SUBMITTED: June 6, ig6o Card 416  ~~ft~4/F_0_*Fab-4- AT/1JF(G) ACMSIM Mt n300304 9/005T/63/033/OCrT/0835/0638 AVMR: Kmonov. B. TME: Inveatiantion of the proteiff of -plasma. conmrottalon In an opposedt-fiel& -aspetie trap SOMM: zht=ai teichac6sko~- ftziklt~ voo' "t no. It 2.963# 63~438 TOPIC TAM: opp"e4-fiela, -mapatie trap, ftep4a-field acufto=tjon, magnetia trap, maEmetic mirror, plasm, containment experiment,'plasma, density Investiga- tion, plasma,stability..plewma, i-esearch ABSTRAM: The cOutall=rM time of =1& 71asma, -has been -studied experiment&UT as %'function ortt* change in sign of compression forceis, acting on tix4 plasma. Data -on- the Wtial. density distributioz and Iminescence of plasme Place& In a;rIlSed =Ped-field conflg~ration "re obtal tied. Udrogenarlhellum.at, 1-2 x W5 = 9g vere used; field. frequency was 6 x 104 cps and electron u~. Perature, 10 ev. Probe signals an(t 1=inosity photogiaphs showed that plasm* was held by the magnetic field. ~ The maxl= containment time of 50 Pea vw reached after the magnatic field period was increased to 200 pea an& the r--e-- otter containment time remalmed constant, it is. concluded that constant. Card'.1/2   P-V-,r( I )/M-( k) /EPA Sp) -2/F PA -2/FRCt/T/EV-C (b) -2/FWA (m) -2 Po-4/Pi-4/ R' C 1 1 -. - -1 : - 'OCI/0047/0053 A", - ~ I - j ~- I T P(C; A: AUTHOR: Kononov, Be P, lj 7'TT-E: Resonance interaction between a plasma bunch and an-electro- magnetic wave in a waveguide _U-4_~- SOURCE; '~Zhu' ita&7te h aheskqi7 ----- ----- TOPIC TIGS:_ plasuma dace-terAitidn, wave-gutda, plasma, plasma iriteract- -asm-a -tmeh-,- 1V -acceleration. -Laa-ma ABSTRAk'7: AIn inve:#,tig*tion~-~as' b~een ma de of the reflection of- Ho- and Hl: vaves from a stationary plasma bunch of quasi-spherical torm in a ~:ircular waveguide. H0, and H,, modas,which are easily excited and can be empLayed in radiative plas-ma accelerat,Lon, were geriera-ted in a circular vaveguida 14 em. in diameter. A plasma bunch was formed -th the aid of a pulsed gas discharge in a spherical glass bulb 71aced on the axis of the waveguide. Basic measurements were performed with a bulb 3.5 cm In diameter in the 1-2 x LQ 1 mm Fg pressupe range. T!-,e calculated dependence of electric and magnetic moments on plaama density coincided with the experimental results. Resonance wave Card I / 2  L 23292-65 ACCESSION NR: AP5003235 scattering can play-ad essential tole in radiative acceleration of -When the wave is*9catterad by a relatively large plasma bunch, the "radiative friction" is large and the resonance relatively weak; however, uhen the wave is scattered by small objects, the resonance et feCL 18 Intensified considerably and can be used for increasing the effec:tveness of radiative acceleration. Orig. art. hast 4 figures and 1 formula. [JA) ASSOCIATION: none SUBHITTEDt- 16-Feb,6 ERCL: 00 SUB CODE MEIEM No REF SOV: 005 GTHERt 004 ATD PRESSo. 3173 -- -------- Card 212  t'no6o-6-5 Vt(d)/E34T(1)/E?1G WAPA (sp)-2/TFC (k-)-2/FrC--h/SPA (-'r) -2/rnc (t)/T/ ltR~C-D, -2MIA (TO -2 AT ACCESSION NR: AP5003236 5/0057/651035/001/0051/0055 AUTHOR: Kononov, B. P.; Sarkayan, K. A.; Silin, V. A.; Tsopp, E-6 I IT LE P-lasmi acceleratton~\ with the aid of an electiomagnetic It type wave in a circular waveguide SOURCE: Zhurnal tekhnicheskoy fiziki, v. 35, no. 1, 1965, 51-55 TOPIC TAGS: plasma, plasma acceleration, plasma bunch, circular waveguide, electromagnetic wave ABSTRACT, The accelerationof plasma buncheg with the aid of a strong electromagnetic It, I wave in the decimeter range in a circular waveguide has been experimentally investigated. The plasma was generated by a source with a pressure drop. An external magnetic field was used to confine the plasma bunch. The experimental setup consisted of a superhigh-frequency generator, a plasma source, an accelerating wave- guide with a focusing magnattc field, and measuring devices -~jqhe generator produced single 1.5 11w pulses of 10 usec duration. An Hol wave from a rectangular waveguide was transformed into an H I I wave in a circular wavagulde. The pressure in the waveguide was 1-2 x 10-6=Hg. Card 1/2  L 23060-65 ACCESSION HRt AP5003236 6 The m ea s a r a m e n .ts qhowed thatduring a radiative plasma accele-' ration the ions acquired different energies. The character of the interaction of the wave with the plasma depends on the relationship of--tim,- et&ant- vavor_ -and the- -Langmui7 --osdi- -1 -6unch:-- a 7p- the x m -C04.0 f WiLn-the 6 __A*- -wave, mth. -ti ------ f- - -Zhi herent erae od-ta I a e~6 -.:A cF o, a -- ac _ n&-: qrce:--_ __Pro tional to the number.-af~electrons in the plasma bunch. It is suggegtati that ions vith engeries of 50 kev and'-hig~e-r appear at; a result of reso- nanceacceleratian of plauma bunches of small effective size, Such bunches can appear during plasma decay. Orig. art. has: 5 figures, [JAI ASSOCIATIONt none SU2MITTEI)t 16Fab64 No REF SOVt 006 ENCLt 00 SUB CODEt NIC, EM OTRERt 002 ATD PRZSSt 3173 Card Z/Z:. 1 .1 : .. I- I ~ L:  ~ - ~ -1 , - ,~ - I ---.- - I ~ T~ i '. k i- .1 -, -T- -~ Ta j 1 j-4 JY ( C AP5003998 Ya De 11: e R. Gekke)r, 1. I A. Kononov,_~,E_.-; -ptn, n A :-'eraction of P LA Ur d t t!czromagnet I c Wave ALomnaya energiya, v. 18 no i ;)b5 j TOPTC TAGS; plasma clot, plaRma clot acceleration, plasma clot rad.1-itive acceleration, It sub 01 wave, It sub 'I wave xd with 10% krypton to a total it pressure an the order of 0*1 = Hg. The chamber was in direct contact with the sli of a DFS-6 vacuun diffrectim spectrvgraph. High speed photographs of the pmcess, taken with an SFR camenru. indicate that the gas is ionized during the first half- cycle of the magnetic field. During the secord and several subsequent half-cycles the plasna experiences sh*k cwVre~sion accompanied by intense luminescence. 'Me  4  r rT2 /nna'i Irr, 9 /018/00r,/o 973/0g25~~' 3h-,-arn S, - L. Pe d o,--. Lebedev. TITLE; Lai b o ra t o r yreprodud-tion ol" the s h o r twavelength aection -of the solar spectrum SOUTICE: Optika iapektroskopiya, v. 18, n,). 5, 1965, 923-925 r-PIAGS: Sola-r corona, stolar plasina, solar spectrum, solar UV high temperature plasma, controlled thermonuclear r-a,tion Lnt---,r-Pst, In this c rompted by V~-- P I CI S'O ren s iD or, dn ig lines is necessaryt theLle spectra about the chemical composItUoriz a~ri p::'Y',: 14.3a C, Card  ~-etween rOn electrocie, thus SDP~, t h accuracy be Prezze'..'. 3e:- Fe',771, anO R. Tousey for supplying the SO -ELL Oj~ 4',7 .. cut-ilcation.1 Orig. art. has:  Card  XLUAMOV, L.D.;__QPAqFA_S.Z.; SHA=A, R.Kq ZARKRIU..-H.M. Trobl -of -n&4k&&L"tLoa,- . stwWardization of . personnel and expenditure of materials in.wimicipal electric +aver distribution networks. Trudy LIEI Doe5l%236-262 164. (MIRA 18:3.1)  63SR / Diseases of Farm Animals. Diseases Caused R-1 t by Bacteria and Fungi. Abs Jour: Ref Zhur-Biol., No 2, 1958, 7286 Author : G-A-Kononov Inst : Leningr-a-d-7e-TErrinary Institute Title : Cha-2acteristics of the Microflora of Bursitis in Large Horned Cattle. Orig Pub: Sb. rabot. Leningrad. vet. In-ta, 1956, vyp. 18, 27-33. Abstract: Upon bacteriological examination in 77 animals acute and chronic serous and sero-fibrinous bur- sitis, which ran a clinically aseptic course, were discovered, mainly of the pyogenic cocci, in the bursa of 36 animals. In seven cases of serous and sero-fibrinous bursitis, brucella were Isolat- ed. Pyogenic microbes, present for a long time in a serious or sero-fibrinous ettusion, did Card 1/2 USSR / Diseases of Farm Anitals. Diseases Caused R-1 I by Bacteria and Fungi. Abs Jour: Ref Zhur-Biol., No 2, 1958, 7286 Abstract: not produce a suppurative inflammation. The author recommends, in the treatment of animals with clinically aseptic oozing bursitis, the taking into consideration of the findings of the bacteriological examination of the ettusion. Card 2/2 4  KONONOV, G.A., kand. veter. nauk; POLYAKOV, P.Ya., red.; BARANOVA, -- ' "-- =.., tekhn. red. (Concise marmal for a veterinary feldsher] Kratkii spra- vochnik veterinarnogo felldshera. Izd.2., perer. i dop. Moskva, Sellkhozizdats 1963. 599 P'. (MIRA 17:1)  K02FONOV, G.G. Role of American capital In the revival of the militar7 and indnetrial potential of Germany during the period of partial stabilization of capitalism. Trudy &TIFF no.20sl2l-135 '59. (MIRA 13:12) (GermaW-Pareign economic relations-United States) %., I . 40.  LBBFXU. Nikolay Nikitich. Prinimal uchastiye KONONOT, G.K., inzh. BARANOT& A.N*q red*;.-SMYGIKA, A.I, -- . rad.Tz--(r-~, BONJIM0. K.B., takhn.red, Eftgineerlng geodesy; geodetic operations in city planning and construction] Inshenernala goodesila; goodesichaskie raboty pri planirovke i stroitel'stva gorodow, Nookwa, Izd-vo ipodes.lit-ry. Pt,5, 1960,, 181 P. (Km 14:3) (earveying)  KOSHEVATSF-!Y, T.S.; NOLYCHEV, V.V.; RONGNOV G.N.. vetex-inarnyy vrach Sanization, measures during tuberculopla in cattle. Veterinariia 41~60131-33 Mr 165. (MI RA 1814) 1. GlavW veterinarW vrach GhuWevskogo proizvodatvennogo upravleniya Khartkovskuy oblast! tfor KoshevatsIdy). 2. Zave- ftyushchiy Pechorskoy velorinarnoy laboratoriyay (for Kolychev). 3, Pechorskaya veterinarnaya laborator-4ya (foil Kononov).  - -- I'Leptospirosis in lambs in the polar region." Veterinariya) Vol- 37., No- 8, 1960, P- 31 Vd, D v, - Pec" M, - ~~ V-4 - &-t~a L A, G~ Iq S S ~  -L-UU55U--0T----zffrkxf ACC NRt AP6034053 SOURCE CODE: UR/0346/66/000/01110042/0045 AUTHOR: Kolychavy V. Vs. Kazanovskiyp Yes S.; Kononov, Go No 41' ORG: Izhmo-Pechora Scientific Research Veterinary Station (Izhao- Pechorskaya nauchno-iseledovatellskaya vaterinarnaya stantaiya) TITLEt Experimental toxoplasnosis of reindeer SOURCE: Vaterinarlya, nos 11, 1966, 42-45 TOPIC TAGSt animal disease, tozoplasmosis, reindeer, veterinary medicine ABSTRACT: Wild reindeer were Infected by various routes with strain Rt-131 toxoplasma. Pathological and histological changes vere then ob- served.. Temperatures generally reached their maximum during the third day after infection and animals whose'temperature reached 40-41C died, Breathing became rapid and hematology correlated with that of domestic animals* In general, the laboratory strain was more virulent for these animals than a strain Isolated from members of a wild hard* Orige art* heat 1 figure, JW.A, 501 SUB CODEt 06/ SURM DAM none, '&rd UPC$ 6l9a6lGs993sl92T09Z#9;636*294  KOLYCHEV, V.V,, veterinarnyy vrach; KONONOV, G.M., veterinarnyy vrach lAptospirosis of calves in the Arctic. Vetorinarila 37 no.8:31-33 Ag 160. (MIRA 15:4) 1. Pechorskaya mezhrayo=aya vetbaklaboratoriya Komi ASSR. (Komi A.S.S.R.-Leptoopirosis) (Galves-Diseases and pests)  -- KONONOV, I. The Baltic and International Maritime Conference is 60 years old. Hor, flot 25 no.10-43-44 0 165. (MIRA 18:11) 1. Ekspert Vsesoyuznogo obMyedineniya "Bovfraklit".  KONONOV. I.; DAVYDOV. V. Share technical knowledge with the masses. Hast.ugl. 9 no.7: 10 JI -i6oe (MM-13:7) 1. Oekretarl partorganizataii shakhty No.40 kombinata Vorkutugoll (for Iononov), 2. Predeedatell profsoy-uznogo komiteta shakhty No.1 nKapitalfnayau kombinata'Vorkatugoll,(for D6vyday). (Coal miners) (TechniCAI education)  KONONOV. Ivan Anatol!yavichy-1885-1959 [Roads to Calvary of the Russian Navy; an historical sketch and sea stories] Pati k Golgofie russ1wp flota; istorichesk-Ji ochark i moralde rasekazy. liew Yorkg Zambezbnaia morskaia bibliotaka, 1961. 161 p, illue, , fold.map. (MIRA 1515) (Russia-History,, Naval) (Tsushima, Battle of, 19105)  KONOVOV, I.A. Determ * ng the depth at vhich to fix anchor bolts. [Trudy] KI can. no*51:68--74 162* (MIRA 16:2) (Machinery-Foundations)  KONONOV. I -podpolkovulk; KMOV, LaPe. mayor, Training pilots prior to flightp.under difficult conditions, Test, Vozd. 71. 39 w.4:48-52 Ap 15?j (nu 10:9) (Flight training)  ZAKIRDV, R.A.: TWHIN. A.D.; GOLUSHKO, H.L.;IOWNDT, 1.06; ff AKISHIT, I.Ge Nr prospedta. ZbIIe4c6m..khoz.'9 no.1:3-4 159. (MIRA 220) 1. Kintstr kowuraltnogo khozyaystya Bashkirskoy ASSR (for Zaktrov)o Z-- avedWusbbbly Khabarovekta kreykomkhosom (for Teremin). 3. laveduyu- jbqbjk AMurskim oblkonkhosom (for Golusbko). 4. Nachal2nik plawvogo otdola Kurganekogo oblkonkhoza (for Kononov). 3o Zaveduyu6bchiy Mirma sklm oblkowkhozom (for Kjakishev), (Municipal services)  KONONOVP I.P.* inzh, Increase in the operational reliability o.f motm jenerators for driving duet supplying units. Snergetik 9 no*3:16-18 W 061e (KERL 14:7) (Boilers) (Rotary converters)  " . i n zi~. ?ZONONOV) 1.111.9 Flle-ctrjcal heatIng of a river water intake system cf a fibat and FaleArl-- Fc-,isir flant. Energetlk 12 no.ll.'s70-23 N 164 (MIRA 18s2)  PRIVALOT. Leonid Nikha.7lovich; XONOROT. VIJI ID, L.G., red.; XONiMOVICH, AX~--U ,khn. reId.; LZVOC.HKIXA, L.I., tokhn.,red, [Documentation for the repair and modernization of'sups'] Illokumentatmila d1la remonta i modernizatoli midov. Leningrad, Gos,sol~inoe Isd-vo sudostroit.promyshl.., 1959, 97 Pe (kRA 12:7) (Ships-Maintenance and repair)  KONOTIO zb, Protection of the flexible connections of generators against atmospheric overvoltage. Energetik 10 no.7:21-23 JI 162. (MIRA 15:7) (Lightning protection)  AID P - 3773 Subject USSR/Electricity Card 1/1 Pub. 26 - 15/29 Author : Kononov, I. V.,Eng. Title : Execution of tackle works with the help of a metallic mast Periodical : Elek. sta.,~~ io, 48-49, 0 1955 0 Abstract The author describes construction works of hydroelectric power stations where metal masts were used for tackle work. Two photographs. Institution None Submitted No date XONONOV, I-V-, inzh. Nov electric level control instrument. [Hauch.trud7l UIMUSha 2:133-144 16o. (KMA 14: 1) (Liquid lWel Indicators) (Blectric instramnts)  USSR/Soil Sci,)nce Physical and Chemical Properties of Soils, J-2- Abs Jour Ref Zhur Blol,, No 9, 1958, 39010 Author Kononov, I.V, Inst Title A V~Wtho Mr4tion Control During the Study of Water- r-ameability of Sollfi. Orig Pub 11ochvovedeniye, 1957, No 3., lo6-log. Abstract The described method is as follows: the examined sample of soil with an unknown filtration coefficient is installed over a second sample, the filtration coefficient of which is known beforehand. A part of the general pressure H is lost during filtration in the examined sample and another part h ~ in the control sample. It is possible to obtain experimentally this loss of pressure (H - h) by observing the marks of water levels in piezometric pipes. To cheek the accuracy of water filtration through the sample, it is necessary to calculato the loss of pressure in the Card 1/3 8 -  as r KONONOV, I. V. Cand Tsoh Sci -- (diss) "Study of ix= ion- /YyjdNl-l --pMM dwoMm In irrigation aid= canals* Kievp 1959* 20 pp with diagrams (Min of Higher and Secondary Specialized Education TASSR. Ukrainian Inst of Engineers of Water Transport), 150 copies (KL, 52-59, 121 .Z(-  SOV/98-59-5-10/21 AUTHOR: Kononov, I.V., Engineer TITLE: Calculating the Process of Silting as a 1,1ethod to Fight Filtration PERIODICAL: Gidrotekhnicheskoye stroitellstvo, 195c), Nr 5, pp 35-37 (USSR) ABSTRACT: The author rejects the existing data on silting as being incorrect. The chief object of his criticisms are the two treatises of T.A. Negovskaya - 1) The Silting as a 1,~'ethod to Fight Filtration in Canals, "Gidrotekhnicheskoye stroitellstvoll, 1948, Nr 7; and 2) Artificial Silting of Canals, treatises of the VNIIGiM "Problems of Irrigation", volume XXVI-XXVII, 1952. The author -then attacks Professor V.A. Shaumyan for his recommendation to use the above-mentioned data and cites the studies of Pro- fessor Ye.M. Sergeyev on the depth of the silting process. In conclusion, the author stresses t1he ne- Card 112 cessity to intensify research in this field and thus  SOV/98-501-5-10/21 Calculating the Process of Silting as a Method to Fight Filtration develop more reliable data on the process of silting. There is 1 table and 9 Soviet references. Card 212  KONONOV, I.V., kand.takhn.nauk Arrangewnt of non-reinforced trenches. Mont. i "ts. rab. v stroi. 24 no.9t27-30. S 162. (MIRA 150) - (Excavation) -  ATaSTAROV,, X.Tj, inzh.; j,y,,~and.tekbn.nxuk G=pm-tjvq evaluation of prefabricated linings. Ikerg.stroi. nOO30961--65 162. (MIRA 16#2) 1, Stroitel'stro Kromenebugskoy gWoelektrostantaii (for Aristarmh 2,, %mcbno,+issI9dov&tel'xkiy institut4tganintaii i.mekhanizataii. stroitellnogo proiwodetwe Akadenii straitalletwa i arkh:Ltektury Ukr3n. (Precast concrete construction)  KONONOVI, I.V., inzh. High pressure ralief valves. [Nauch. trudy] ENIKYIASha 6181-104 i63. (MM 16.,g) (Hydraulic presses--Safety appliances) (Valves)  KONONOV, I.V., inzh.; SHNEYBERG, VA, inzh. Control mechanin for steari- or air-lift drop f orging hammrs. [Nauch. trudy] ENIKMASha 6:118-128 163. (MIRA 16:9) (Forging machinery) (Servonechanims)  KONONOV, I.V., kand.tekhn.naak; GOLIDGOR, V.A. Milan method of constructing tunnels and underground crossings i Transp.stroi. 13 no.9:70-72 S 163. (MIRA 16:12) . .  KONONOV, I.V.; SHNEYBERG, V.M. Mechanizing the contral.,of stow-air awaking arij forging M- chinery. Kus.-obtan. proiz,v..,4 no.1:35-37t38 Ja (162. . MIRA 1713) 46-11, . .11  , KO,NONOV, i4v -, kand. tekhn. na-ak Lowering the unrush of ground water into strip mines by building a seepage barrier. Gor. zhur. no.11:22-25 N 063. (KTIZA 17t6) 1. Nauchno-isaledavatelvakiy Inatitut organizataili i makhanizateii stroltellnogo proizvodstva, Kiyev.