SCIENTIFIC ABSTRACT KIRICHENKO, N. - KIRICHENKO, S.I.

KIRMIENKOP N. Regional differences in the ccnaumption of the U.S.S.R. population. Biulaauch. infomotrud i zar plata, 4 no.4:39-45 161. (KM 14:6) (Consum~ption (Economics))  KIRICIIENKO$ N. Grovth of private income and changes in the structure of the turnover of merchandise. Sov. torg. 34 no.40-13 Ap 161, .(Marketing research) (KIRA 14:4)  6 0 11 to q .."I 4 $!.t~Llmt CAM 0o PROC1611011 AND 01110,16-I'l OOA ; low '01 0, - !OP 4.6 i", 5 Jk A RAT111AL T.Trii 1k i0' D. ("fetallu'rrp 19339 Wo. Op pp. 76-89). (1r Luss'sn). oo ~1 T1.4 5'"Lin r first olotitiders the possibility or Incrossin. Uim o-,t-vt 00 .3f present-day blaitt-turibools, RL%i lit U.1a c(tiv.ootlo- ro.-lows or ti- previo-as work im U.e mile aii-d flio-rmv orlootlas -1" the ca-bulttiot, &oil* In bloat-furi,okooss. rho vait).or, It, coi-lo'doorls:r tLe funatloillit.r or nodern types of tuyerts, palist& out tLit destraAlIty or 1:.o -ii a 1..r Us co bustloj. tones in rro.,.t or , a Altl u&1 tuitorms so as to forii a oontinuo,~s rlitg-sbapsd oor.biistlon toric. 60 a its loods tile Author to the oonoluslon tilott oo.-,m VIA b), t OOW tuyere (the Venturi type) has a number or disadmitaCes. !.a a argests 00 , a new type of diffuser-seation tVyorot in wh1oh s"remdInr of the ao,ibustion sorm v1dowaya to loohleved by th" provIslon of on olliptictal nozzles the latter beint obtained by owittinr off tiot ~j,d oO v.9 tuyere at an anKle of 90-260 to tUo axis of tit" tuyere. I L A 1111ditiolfKA1, MR111011 CLASUPICA11611 Boom $1.411WO MO.. q 0 so toliv, dia "46#14.8 061481 ami-ob.;. sit- e U S A* pp a. 0 1, is a ; 6, :; 'a ; a a " 0 1 v I so 0 0 0 a a a a 0 9 a * a 0 0 0 a " ; 0" a a 0 a a o 0 00000 0 000 0 1 0 0 0 0 09 Iifl 9 00 OTOOGO 0 0 0 06000606040sts -00 -00 &2o -410 000 .0 190 -00 modl coo coo moo woo NO 0 690 4130 0 also. woo woo see  *all t I i t!'"ifuAr tif T f 1 rev! 7 ~ 'f 0 " 4 0 V : v a 0 a 6,1 A - w 00 A CA I eaduars (d ug bw. N. 6. 32(1941). OMO. 1 1, 324. * Cowlen-*m 0( v6st Fr f4w siftef)'r- 00 foll/ofit vi, wr adventsop~ both ItOtO thr standpeAnt brof iron-fri and sho Imrsts- cof thrif Ido. 1111kh iG 61 00 00 kast 3 rfs. too see S, 1-00 AM I I a -W 0 3 9 I lu 0 0 go go a 0 t  130-7-4/24 AUTHOR: Kirichenkog N.D. TITLE: -'dhoice of C-h-eek--ers for the Intensive Heating of Cowper stoves. (Vybor nasadki dlya forsirovar_-..;~So nagreva vozdukhonagrevat- eley) 11 PERIODICAL: Metallurg, 1957jNr 7, pp.7 - 10 (USSR) ABSTRACT: In this article comparative calculations for various checker arrangements for blast-furnace Cowper staves are made. The basic requirement assumed is the production of blast at 1000 C for a 1033 m3 standard furnace. Three var- iants are considered: simple single-layer arrangement of 170 x 150 x 50 mm brick with a 66-x 60 mm cell; the same construction but of 130 x 150 x 40 mm brick with 45 x 45 mm cells and 40 mm wall thicknesses; a two-layer arrangementj the upper having 110 x 110 mm cells and 60 mm thick wallst made of 280 x 150 x 60 mm brick, and the lower with 130 x 45 mm cells, 40 mm thick walls made of 300 x 150 x 40 and 130 x 150 x 40 mm bricks. The seoond variant is seen t9 be the most satisfactory# with a heating surface of 24'9 m per m3 of checker volume. The calculations ilso indicate that the total heating surface for the 1033 m furnace (143 000 n m3 Card 1/?  130-7-4/?4 Choice of Checkers for the Intensive Heating of Cowper Stoves. per hour blast volume) can be reduced to 19 300 M2. For the intensive stove operating con itions considered gas with a calorific Nalue of 950 kcal/mi would have to be burnt at J5 850 n m /hour and better refractories would be needed. ome general features of the variants are briefly discussed and the adoption in the USSR of improved checker arrange- merts with shaped bricks and horizontal channele is urged. Tbere-are'P.,figui-es and 3 tables. ASSOCIATION: Gipromez. AVAILABLE: L~brary of Congress. Card ?/?  KIRICHNNED, N.. Inzb. Corypetitions for Increasing the output of bleat furnaces. NTO no.1:26-27 Ur '59. (MIRA 12:6) (131ant furnaces)  S()V/133-59-4-3/32 AUTHORS: lUrichenko, N.D. and Kochinev, Ye.V. .011211G, llie;h Temper urd-Mast Heating Stoves for Blast Furruices (VysokotemperaturnySe vozdukhonagrevateli domennykh pechey) Pi,4110DICAL: Stall, 1959, Nr 4, pp 298-304 (USSR) AWTiL~.(;T: In 195/, the Central Governing Body of the Scientific Technical 3ociet3T off tile Iron tuid Steel Industry (11TO Ohm) announced a competition for the design of high temperature heatinL; stoves and air conduits for blast furnaces with a working volume of 1300 to 150C a3, capable of preheating blast to 1100 to 12000C. From the designs presented the jury selected 4 solutions which are described in the paper. (A) Proposed by !T.K.Leonirlov (Central Gipromoz). In order to obtain hiSher temperatures the use of blast furnace gas enriched with coke oven gas or the use of preheated blaot furnace gas and ai:- or air alone is suggested. 'Iwo alturrztive designs of the heating stove are pi-opoL;ed: 1) combustion of Las in the under-dome space Card 1/6 'ad 2) combustion of gas in the combustion chamber and  0 "'011/133-59-4-3/32 High Temperature Blast Heating 1.1toves for Blast Furnaces in the under-dome space. The stove is not lined with refractory bricks - the space between the checkers and the casing is filled with either cut insulating brick or stamped insulating mass. The dome is supported directly by peripheral checkars (fig 1). Recuperators for preheating air and/or blast furnace gas made from carbon steel are placed in the bottom part of the waste gas chimney (fig 2). Hot bla8t valve is cooled by evaporation. (B) Proposed by N.D.Kirichenko (Central Gipromez) Heating by a cold mixture of blast furnace and coke oven gas. The typical design is retained only with changes in some details such as: refractory lining-, checkers; gas and air conduits and equipment (valves and cold and hot blast mixer). The design data are given in table 1 and 3. Three alternative "s of checker work proposed by the author are given in table 2, the design of the stove is shown in Fig 4 and the distribution of equipment in figure 3. (C) Proposed by Ya.A-Nitskavich and V.K.Zaytsev (TsNIICbM) Card 2/6 Heating of blast to 11000C is proposed in two alternative  L)OV/133-59-4-3/32 High Temperature Blast Heating Stoves for Blast Furnaces ways: 1) single stage heating of blast; blast furnace gas and air are preheated to L~OOOC. To intensify heat exchange by a factor of 2.5 to 3.0 the velocity of the combustion products in checkers is increased to 3m/sec and of blast to gm/sec, the temperature of waste gas at the outlet from che--kers is increased to 5200C. The heat of waste gas lo used for preheating air and blast furnace gas in recuperators. The design of the stove remains unchanged except for a considerable decrease in dimensions. 2) Two stage heating of blast. The blast is preheated first in a recuperator and then In a regenerator. In the first stage the blast is preheated to 4000C so that the recuperator can be made from ordinary carbon steel. Heating to 11000C is done in a stove of the usual design with the burner placed in the dome (Fig 5). For heating blast for one blast furnace three regenerators and two recuperators (one in reserve) are used and common gas and air preheaters. In view of the high tempurature of tho waste gas the C checkor support is made from heat resistant cast iron. C ard 3/6  SOV/173-59-4-3/32 High Temperature Blast fleatint; Stoves for i-Jast Furnaces Hollow supports are cooled by blown air %,jhich after such preheating is used for the combustion of gas. To improve heat exchange the waste gas is passed through a recuperatoa- with a velocity of 2L-kt/sec and the heated air at 50m/sec. (D) Proposed by a group of authors under the direction of V.D.Pashkov (Central Glpromez) - In the scheme figure b, all t.he processes of compression and heating of the blast are united in one plant, enablinG the production of all the iwc~ianical energy required for the compression of air on the basis of heat requirements. The plant is situated on the blast furnace site to avoid transportation of air. Atmospheric air after passing the coolinG plant (Fig 6) is cooled to + 10C and passed into the first compression stage of the main compressor where it is compressed to 4-5 atm abs. After an intermediate cooling to + 2500 air is passed into the second Stage of the compressor and compressed to 15 atia abs. The compressed air is passed into a preheater and heated by the waste gas from high Card 4/6 temperature blast heating otoves, supplownted by  -OV1137-59-4-3132 High Temperature Bla5t Ifeatinp, Stoves for Blast Furnaces combustion of a solid fuel (buined in a combustion chamber for powdered fuel) where it is preheated to 7500C. Then it is passed to an air turbine w1iere it is expanded, passine its potential energy to the compressor. Then tAe blast at a temp~.ratuie of 5180C and L~.5 atm abs is passed to the hot blast Stove where it is heated to 13003C and pasued to t!,,e b'lait farnace. The top gas leaves the fuxnace at a pressure of 2.8 atm abs and passes throu3h the gas uleaning planl- where it is cooled to 30')C. A part of the blast fuinn-ce gas used for heating stoves is ae .r.assed to a at,.3r vinich is also heated by the wa-ste eassipplpmented by a powdered solid fuel. The blast furrrtr-e gas f;i-ehea!-,-zd to 6000C is passed into the gas turbine where it tran-cfers its potential energy to the compressor aLdf ivit-h -- tempora"l-ure of 4540C is then used for firinE; blast stoves. Tile air used for the combustion is also preheated to a temperature of 6000 in a heat exchaR.Ger. ior sbartinE; tph,~- installation an Card 5/6 electric motor is i;,:~Q,_7 which alsc sci-.--.s as a generator  .D '- 07/1.1-0-59-4-3/32 High Temperature Blast Heating Stoves for Blast Furnaces when the normal operating conditions of the plant are established. There are 6 figures and 3 tables. ASSOCIATION: Tsentrallnyy Gipromez (central olpromez); TsN1IChM Card 6/6  -- KIRICIZUKO, N.D. 3 Charglng arrangoment on a 1719 m blast furnace. 1,110tallurg 7 no.?:14~16 n 162. (MIM 15 - 7) 1 GoBudarstvennyy soyUSM inatititt po pro,,:.- Ifti rwani)"u w motalliwgichoskikh zavodov. (Blast Aummem-Denign and construction)  LEOMDOV? N.R.; KIRICHENK0.1 N.D. Construction and durability of a blast- , bi:irth and well. Motallurg 9 no.:L2tl3-15 D 161+0 (111RA 18:2)   I k    IW- 'i i I ~/b dj J4 ML  j A11.1 i V 4 41 V41!fl,~~ -4,- i j  3 J T - !' AQ A, j "*, -; ~- 'Y A .4, 1 Ar j  KI Q% cli E N Kol C-r- 15(2) PHASE I BOOK EXPLOITATION sov/194o Ovcharenko, Fedor Danilovich, Nikolay Grigorlyevich Kirichenko, Daniil Naumovioh Kovalenko,,' a ev c a 0 Ukrainakiye bentonityj geologlya, mineralogiya, fiziko-khimiya i primeneniye v narodnom khozyaystvs (Ukrainian Bentonitesi Geology,, Mineralogy, Physical Chemistry, and Industrial Applications) Kiev, Izd-vo AN Ukrainskoy SSR, 1958. 98 P. 3,000 copies printed. Errata slip inserted. Sponsoring Agenoyt Akademiya nauk Ukrainskoy SSR, Kiev. Soviet po izucheniyu proizvoditollnykh oil USSR. Resp. Ed.: F.D. Ovcharenko, Corresponding Member, Ukrainian SSR Academy of Soienceaj Ed. of Publishing House: Z.S. Pokrovskaya; Tech. Ed.t V.I. Yurohishin PURPOSE: The book is intended for engineers and technicians employed in industries using catalysts, adsorbents, fillers, and plasticizers Card 1/5  Ukrainian Bentoniteel Geology, Mineralogy (Cont.) SOV/1940 as well as for scientific workers at research institutes. It may be useful to the teaching and technical staff of vuzes, as well as in industrial laboratories, and Sovnarkhozes. COVERAGEt The book gives the results obtained from research work in the geology, mineralogy, physics, and chemistry of Ukrainian bentonite clays and indicates how bentonites can be used in the national economy. The first section was prepared by N.G. Kiriohenko, Chief Engineer on the Oeological Board of the Kiyev Sovnarkhozj the second section, by D.N. Kovalenko, Candidate of Geological and Mineralogical Soienoeal the third section, by A,1, Raatronenko, Candidate of Chemical Sciences and F.D, Ovcharenko, Corresponding .Member of the Academy of Sciences of the Ukrainian SSR; the fourth section, by F.D. Ovcharenko, Corresponding Member of the Academy of Sciences of the Ukrainian SSR. There are 13.1xeferences of which 110 are Soviet and 1 English. TABIE OF CONTENTSt Forovord Card 2/5  Ukrainian Bentoniteal Geology, Mineralogy SECTION 1 Geological Characteristics Bentonites Bentonites Bentonites Bontonites Bentonites Bentonites Bentonites Bentonites Bentonites Bentonites of Deposits of Zakarpatskaya oblast' of Stanislavokaya oblast' of Chernovitakaya oblast' of Drogobychskaya oblast' of Llvovakaya oblaat' of Rovenskaya. oblast' of Ternopol'skaya, oblast' of Khmellnitakaya oblast' of Cherkasekaya oblast' of Krymakaya oblast' SECTION 2 Mineralogical Characteristics of Bentonites (Cont.) S(YV/1940 9 9 10 10 11 11 13 15 15 18 Card 3/5  Ukrainian Bentoniteal Geology, Mineralogy (Cont.) SOV/1940 SECTION 3 Physicochemical Properties of Bentonitea 43 Hydrophilic properties of bentonits clays 43 Sorption and structural properties 4'( Elastic-plastic properties of bentonite suspensions and pastes 59 SECTION 4 Use of Bentonites in the National Economy 68 Bentonite catalysts and adsorbents in the petroleum industry 69 Pur1fication of paraffin wax with bentonite 72 ReclMyfing of industrial oils 74 Refining vegetable oils 7~ Drying and storage of gases with the aid of bentonites 7 Use of bentonites in foundry work 79 Use of bentonites in the manufacture of porcelain, glazed pottery and enamels 81 Card 4/5  Ukrainian Bentonitsaj 000109yo Mineralogy (Cont.) SOV/1940 Use of bentoniton in the manufacture of structural materials 67 Uss',of bentonites in the prepara",,ion of drilling clay fluids 88 Use of bentonites in agriculture 89 Purification of sugar best diffusion juice in sugar refining 92 Clarification (fining) of wines with bentonites 92 Use of bentonits in medicine 94 Bibliography AVAILABIZ: Library of Congress (TN 948 B4oq) 95 Card 5/5 TMAd 6 29-59  KIRIOMWI0. N.G. 9z"Ximm"Now"W", -1 Vegetation of the sandy pastures of Zhuan-Kuma and Its agricultural utilization. Isr. AN IrAzakh. SSR. Ser. biol. no.9:20-31 055 (m= 9:4) MuawA mmoti-BourT)  XIRICHIM, N.O. mw~-_ Vegetation and feed resources of the Usalinak Otate Sheep Yarim in Ksyl-Orda Province. Trud~, Inst. hot. AN Kazakh. SSR 3:125-159 156. - (MM 9110) (razallnek District--Botarq--loology) (Pastures and meadovs)  MICIMKO, M.G. Vegetation and food resources of the Volp-Ural swAs In the northern part of tho,C"pift IS*& region. Trudy Inst.botAN Irazakh.SSR 6:3-73 '59. (MIU 12:8) (Gtwlyav Arcmince-Ph7tolmography) (West Kazakhstan Provino:--Phytomography) (Pastures and m adows)  KTHICI OIKO, ri. (7.) Cond 9joi 011,11 (ilifin) _- "Plant ,rowth nnfl ths- fodder ronotirces of the Volga-Ural sands". Alma-Ata, 19(0. 24 pp (Kazakh Stat,- Ii Im S. 11 Mrov) (KT,, I.Io 14, 194o, 1,o)  MICHENKOI N.G. SOMO data on 016 dymnics of the aerial mass of basic plant communities in Bet-Pak-Dalp. Trudy Inst. bot. AN Kazakh. SSR 13:189-204 162. (HIM 15:12) (Bet-Pak-Wa-Plwit coz=mities) (Bet-Pak-Dala-Plant research)  XIFaCHENKO, N'G' Preservation of sandy pistureo in the northem Caspian Sea region, Izv~ AN Kazakh* SSR Ser. biol. nauk 2 no*2153-W Nr-Ap 164 (HIPI 18:2)  nracHwo, N.G. Dynamics of the aerl&l part, of vegetation in the Artemisla- Woola, laricifolls, phytoomnoole of the Bet-Fak-DLIa. Tmdy bat. bot. M Ka2akh. SSR 181113-133 164 (MIRA ISO)  KIRICEMO, I.I., Inshener (C. Chita.) for sore rapid asohanization of routine traok saintenanos. Takh. shol.dor. 13 no-3:3 of oover W 156. (KM 9:8) repair) (Ullroads-Kaintenapoe &M  r ~!,- /,/ ~,. -z- KIRICHOKO, N.1.0 Insh. (Chita). awwwovk-A -*--; - Should an exemplary section be like this? Pat' I put. khox. no.li 22 A 158, (MIRA lIrl) (Caucasum, Northern-Railroada--Kaintenance and repair)  -KIRICHEIM Nikolay IIII -ch: OWSHIN, Me., otvs za. vypusk; 7J.BORSKIT, [Ilectrical stanid for breaking In and testing ongines] Blaktrl- cheakil ntand d1la obkatki I impytanlin dvigateloi. Mookva, Ird-vo M-va sell.khos. SSSR, 1958. 19 p. (KIRA 12:1) 1. Moscow. Vsasoy-utnaya seltakakhozyaystvannaya vystavkn, 1954- (Gas and oil angines) (Blectric apparatus and appliances)  IIRICHMO, N.I., insh.; SIATIZOVSKIT, N.A.; TILIN, Repair of rails damaged by skidding. Put' I put. khos. no.8:21 Ag '59. (MIRA 13:3) l.Nachalinik Mookovskoy, distantsil puti dorogi (for Kiriohanko). 2*Zameetitell puti Hookovsko-lursko-Donbasakoy dorogi doroshn" master Moskovskoy distantsil dorogi (for Filin), (Railroads-Rails) Hookovelco-Kursko-Doubasokor nachallnika Haskovskoy distantail, (for Slavikovskly). 3.Starshiy puti Hoskovsko-lursko-DonUsskoy  53M'10, M.Y.; ZIRICIMM, 3,1* - SLAVIEDVSKIT, N.A. Maintenance of continuor rail tracks and of long welded railge Put$ i put,khoZ# 4 no.4-7-8 Je 160- (MIRA 13:7) 1. Glavnyy inzhener sluzhby puti Moskovskoy dorogi (for Sen1ko). (Railroads--Maintenance and repair)  KIRICHENKOP N.1,1, inzh.; SLAIFIKOVSKIYS, N.A. Maintenance and repair of tracks with long rails. Put' i put. khot. 7 no.6:3-5 163. (MIRA 16:7) (Railroads--Track)  SLAVIKOVSI=t K. A.1 KIRIGHWOO H. I. Characteristios of the oj;r-at-io-n-And maintenance of tz--cks with 25-meter long rails, Putt i put. khos. 6 no.10:2842 '62. (MIRA 15:101 1. Nachallnik diatantaii putip at. Moskva-Kurskaya. (Railroads-Track)  KnICH3HKO, 11.I. Powerful mineral sprin--. Priroda 41 no.7!117 J! 051. (MLHL 6:6) 1. Arqyanoko;,e otA.,,.i1eniye inatitlata Gldroenergroproyekt Yerevan. (Ar.menia-Springs) Discovers gas and mineral water in a deep well In northern Armenia. Numerous gas bubbles were found down to a depth of 42 m. At 42 m a gusher of carbonated water was struck. From 43-46 m the pressure and discharge of the gusher increased. Beyond 46 m. to a depth of 200 m. the pressure and discharge increased further, 258T75  3-y p "gg."r S i ILI Alt Sao.. !-0 t~ 195% V4110or of Io4 i1i at on: of Ag hydi6- - 4r 118 ~at Vi ht 0 Gon ructi Alabiorthe is, 9089 1949; TiiiiA4' titUtions'-.". a 64  imici-nao, 1~. 1. 1:. 1. -"Calposition and Phy.-deal argJ ltructural Propirtic-s c' the for rr;- ._;ukoa, Ln D1 D.--~f~nwled at I'ligl:ftf. afluy,31 IwAil'uticnn) IIII) CS Poly"echid'! In-M !;,!I.gc) 195", "C.: I , 9 V, J tin For De~rce of C-nalddta in '0010- ,l .lcnl --ml     IIRICMMKO 11 - Packing of loans sails. Dokl.AJI Aserb.SSR 13 no.7:763-768 15?. (MLRA 10:8) 1. Bakinskoye otdolaniye Instituta, "Gidroonergoproyekt.0 Pred*1 stavlano almdemikom Al As,irbaydshanskoy SSR N.V. Abramavichem. (Eakeagan' Valley-Loess) (Building materials-Testing)  -ov-9P-58-10-10/16 AUTHOR: --J(irichenko, 11.1., Candidate of Geological- M!neralogical Scien- ces TITLE: Construction Experience on Macroporous Grounds (1z opyta stroitellstva na makroporistykh gruntakh) PERIODICALi Gidrotekhnicheskoye stroitellst-.-o, 1958, Nr 10, PP 36-37 (USSR) ABSTRACTs The article presents a description of experience data in construction on macroporous grounds, e-g. that of the Gyu- mushskaya gidroelektrostantsiya (Gyumush Hydro-electric Plant) on the fiRzian River in the Armenian !~SR. Macroporous soil samples taKen from the derivation canal area were test- ed. Physical and 3tructural data of the tested soile are given. In 50 of 53 tests, the macroporosity indices hnve proved to -be le3s than one, (I to 0.5) necording to N.Ya. Denisov flief. i7. A reinforced concrete lining was designed _ for the derive tlon canal, built as a part of the above men- tioned hydroele~.tric plant. The Armyenskoye Otdeleniye Gi- droproyektA(Armenian Section of Gidroproyekt) designed the lining. The canal ditch with 1 : 1.5 nlopea was excavated. Card 112 Twelve (12) cm thi.-k reinforced concrete plates were put on  Construction Experience on Macroporcus Grounds 7)0V-08-58-10-10/!6 the bottom and slopiis of the canal. smeared with hot ma:jtic and covered lin" sheets. Eight (8) cm thick reinforced were then placed on top. The Above has effectively worked for the past diagram and 3 Sovie-, references. This concrete layer was with overlapping "Boru- concrete plates hydro-insulating lining 5 yesrs. There are: 1 1. Power plants--ConEtruction 2. Soils--Mechanlcal properties 3. Soils--Porosity Card 212  KIRICHENKO, Ir.l. -- -- __ ICarbonate and gypsum concretions in loose. 1xv. AN Arm. SSR. Ser. gaol. i geog. nauk 11 no.2:AJ-85 '58. (MIRA l1-.9) l.Bakinako7e otdolentya Institute, "Gidroonargopro7ekt." (Sansagan Valley--Loose)  rMCM13MD, H.I. Composition, physical and structural properties of diatomites. Voy. gidrogeol. i inzh. geol. no.17:121-129 159. (KIRA 14tl) (Diawmaceous earth)  KIPICHENKO, N.I. [Kyrychanko,, M.I.] Kindel-Rise fauna in the Saksagan' Valley. Gaol. zt=. 20 no. 3s89-90 160. (MIRA 14W (Sakeagant Valley6--Moluvkv)  KIRICHENKO N.1, Permeability of earthen dams. Uch. zap. AGU. Geo;-geo oar, no.2s5l-53 159. 14IM WO (Dams) (Soil percolation)  TIZDFLI j,.jdtpySjIEVx Ye.S.; 14OLOROV, L.A.; K014YAPOVAj L.P.; Fr-,bTUVIIKIY) K.N.; ZEI.*KGV) M.V.;.KnTCHI2jKQ.-N~NEYSHTADTj L.I.; MMAROVA, 1.7a.1 PIRTSUALAYRTILI, G.P.; KAUTKOVAj II.I.; BT-IYYj L.D.p doktor geol.-viner. nauk; BOhOVOYp A.A.,, red.; GOIFAV, T.P., red.; LARICYOV, Me., takhn. red. (Geoloey and danalGeologiia, i plotiz-Or. Pod obshchei red. A.A. borovogo. Moskva, Gosenergoizdat,(Its Vaterialy po pz-ocktiro- vanliu gidroonergaticbeskikh uzlov. Seriia 2: lzysl:aniia) Vol.2. 1962. 151 p. (111IRA 15:9) 1. Moscow. VneaoyuM7 goeudarstvum-i,%y proyaktnyy imtitut "Gidroonergoprookt." 2, VassoyuMy gosudarstvennyy plmyekt- nyy inntitut , Moscow (for all oxcept Dorovoyp Gotman) Larionov). (Geology) (Dame)  xiRicHENKO., N.I., kand.geolog.-adneralogicheakikh nauk Construction of the don of the Chir-Turt Hydroelectric Pwar Station. Gidrastroi. 33 no.W7-19 JLp 163. (MIRA 16:4) (Chir-'rurt Hydroelectric Power Station)  -~I. ~d. gvologo-minsralogic~esklkh naukt D" =ANO lu. T.9 insh.t MALTUTKINI B. V.j inch Deformation of characteristics of Chirkey limestones Gidr. istroi. 33 no.12t18-22 D 1626 (MMA 3.6tll (Chirkey Yqdrealectric Power Station-Limsetone-Testing)  KOTULISKIYj V.V.j inzh.; WINA, ON., inzh.; KIRICHENKOILII.I., kand. geol.--miner. nauk; YXITYFOVp LHOS11111P A.G., kand. geol.-miner. nauk, nauclui. red.; GLOTOVA, L.V., red.; KASIMOV, D.Ya., tekhn. red. (Soopage-proventing scroons for drms; invostientionsp design, and construction] lrotivofilltratsionnyo zaveBy plotin; iz opyta izyskanii, proektirovanlia i stroitell- stva. Moskva, Gosstroiizdat, 1963. 10,4 p. (MIRA 17: 1) 1. Moscow. VsosoyuzyWy nnuchno-issledovatellskiy institut vodosnabzheniya kanalizataii, gidrotekhnicheakikh sooru- zheniy I inzhenernoy gidrogeologii. (Dama)  BELOMAR, O.D.; ZAYCHENKO, V.Yu.1 KIRICHENKO, N.M.; CHHUN, A.B. Results of sampling In neutron-neutron logging in the coal deposits of the Donets Basin. Dop. AP URSR no.5:602-606 163. (MIRA 17:9) 1. Institut minerallny~h revirsov AN UkrSSR. Predstavleno akademikom AN UkrSSR S.I. Subbotinyrm.  I r: L f,r, ry u r -khr.. -oL., L L 'Lit-ry,  Al KIRICHENKO, R.M.; K MICHUX0 Two win~Mere spent on Knra-Kul LAkn; I%,~,.U%b.fil.geog.ob-vm no.11161-171 (Knra-Kul Inks) reminiscences of the explorers. '57. (MIRA 11:4)  KIRICHENKO, Hadeshda Yakovlayna tP~yohologioal preparation for childbirth; recommended lesson text for the instructing midwife] Polkhoprofilaktiohnsksia podgotovka beramennykh k rodsal primernyl tekst saniatil instruktora-akashorki. Kiev, Goomedisdat, USSR, 1957. Z5 P. (NMI 13:7) (CIIILUBIMR-PSYCHOLOGY)  KATSp V.I., doktor ekon. naukj KIRICHENKO, VA, kaad. ekono naukl IVANOV, Ye.A.; SAID-GALIYEV, K.G.; LUKIYAMOV, E.B.; KUSATOVA, V.A.; Pl,Y3HF.VSKIY, B.P., kand. ekon. nauk; STOMAKHIN, V.I.; KARPUKHIN, D.N., kand. ekon. nauk;.~ ~.; ZHIDKOVA, M.V., kand. ekon. nouk; ANCHISHKIN, A.Lj KLIKSKIYj A.I., kand. ekon. nauk; SOLOVIYF.V, N.S.; KWTSVOG, F.N.; VSYAKINH, H.P.; LAGUTIN, N.S., kand.okon. nauk; LEMESHEV, M.Ya.j kand. sallkhos.nauk; KOIMOV, Yu.F., kaAd. ekon. nauk; SAVIN, V.A.; TEREKHOV, V.F.; KI!DRDV, V.M., kand. ekon. nauk; ALITER, L.B., doktor ekon. nauk, red.; KRYWV, P.N., kand. ekon. nauk; LEPINKOVAt Ye,,, red.; KOKOSHKINA, I., mladshiy red.; ULANOVA,L., tekhn. red. (Growth of the social proditct and the proportions of the national economy of the U.S.S.R.]Rost obahchostvennogo pro- izvodstva i proportnii narodnogo khoziaistva SSSR. Moak", 1962. 453 p. (MIRA 16:2) (Russia-Economic policy)  KRYLOV, T.N.; VAYYEN, V.F.; ZJ1IDXOVA, M.V.; LAGUTI11, N.S.; KOAOVKI11p O.N.; KIR1CHENKO, N.Ya.,* AGABABIYAN, E.M.; KUZIMINA, Ye.l.; V.N.; GLYAZER, L.S., red.; RYABGVA, Ye.A., red.; GERASIFOVA, Ye.S.p tokhn. red. [Planninq national consumption in the U.S.S.R.; current problemsj Planirovanie narodnogo potrablenila v SM; sov- remennye problemy. Pod red. V.F.Maiera i P.N.Krylova. Mo- skvaj Izd-vo "Ekonomikat" 1964- 134 P. (MIRA 17:1) 1. Moscow. Nauchno-issledovatellskiy ekonomichenkly institut.  IAPCHENKOf M.L.j KIRICHENKO# Mee [Kiricbenkot ME.] Prolapse of the urethral =coma in a 9-year-old girl. Ped. akusb. i gin. 22 no. 133 of cover 160. (MIRA 13:8) (URETHRA-DISEASES)  A a it a a IF a III ait0a ctriber. proemm. N, H. V. 0= i I;d~ Chm. led. Mcm-c Of 9 2OP1934. No. 4. 27-41.-A detAikd math. astalysis of The pmduction of 1140. using Am tnrkiwd with 427p Ot, a shows that stmapr wW in obtained at grtwil "St. It. 161. UkIeMrr Z :0 00 rp i00 # 0 a 41 0 0 a 0 0 0 a 1 see go* goo see 16*0 tolf "00 00 noo, to so Im 00 -0 -0 0 0 0 0 0 IS & 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0  see-** sees# 0*000-weg; 0* IS it lc gr J)PArf 41 00 00 Kno"gumm o: WAYS6 Ot %6 as g( st j; X-Ir lie me" poow% *0 jF5 4 a im NNO, expadkm sd r5ftiathelPbumdmadix, r We ONOMMIS, ilkvWIW in $be r0" 't 00 -3: a" i4 tin e4sm of (M. nmml~r, ~ combeWm ut yW& a pmdwt wao&A& lb IWAwry. IL T. Sal 41 0. file low ---- --- As$ (AV C04 b u 9 AT No Is 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 :1000000000009000*000oo**o w 9 WWWWWW . . . . : 0 , 6 - WW -1 "'",10 apo '-fte 0 see goo 14 0 200 too too cloo NWW .6., 41 Md It. log -a-.; --- ;--i-i-W-i- "-d- i. 0  low I fall re 11111tuUmd it v 111 a is 40 a vamalfuujosbjonjp it 44 ro &-A- 1-0 0891-011 Salfurk add. mhrnk.-. 1-.K Riln t-A kl' Russ, ONO, as. Y). lick), 1 '411&41 44 lpill1wo KAwss with wrim is mfohni fly In"I lilts Our I.-Svilki with :o 00 -00 -00 06 -00 00 09 4.4 1,00 41 1 41, 1190 n all I I a UI- - - -ft --- I wa--i"W-e 36 0 a 0to a of a a 41 a ost a a it 114 0 0;0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 * 0 0 0 00000 ZIP' 0 0 0 0 0 0 0 0 9 0 0 0 00*.e 0 go 0 0* 0 0 0 0 0 O..Ib 0 000  a I-Ly 1 .0- 't J-0 a w 0-9 imp "Ofel 00 0 j N. F Kl*birnka adV HmIa-ki. JAW* 40r'%%1. 00 ashed in an inin 14's. 00 0 00 00 jl-'Ill~i 00 00 j 0: 161 0 0 s : 000 ~0002; *00 ;00 ASO 400 L* 0 *0 COOL .00 too w 00 ;::O"f"o;o!o4* 0 0 0 00 0 ? 10; 690400 006*000*400000000C1000000 0 00  i T i T 00.4 0 /C A/ 0 0: 0 00 ci '00 06 sit .0 .rj goo goo GOV go o *oil 1100 co 0 ISO* goo [goo use it& .4 ?Ski Kit k%tfjAjV4l CLA'sm"Alwill I a too Sit A I a IS 0 0 0 *~ol 0" 0 0 0 0 0 0 0 0 0 0 0 0 0 ol: 0 0 0 0 0 0 o o o 0 a 0 0 00 00,1000 0 e & 0 a * 0, 0 0 a -9-9: 0 -0-9 _60 0 000000 00 -0 --q : : :  9 ; ; ; ; ; ; i ; ; ; e N 111JOIlm"Is AIJ i 11 -.J, It At CA 00 0 00 eo 00 ; ; ; ; ; ; ; ; ;1;Z; P; 9-44, to * 1o 0 0 a v v . . . lot 4 'emn mllm)o sit WSJ 1.0 a A, a a Of p 9 0 a (A 0 90 4 0 lid -fil. .4 ~4141 1 Vwi .1, 4"t"111"U"a .4 Am in st",optim umv" takkat 0ow, %'f 4 At the v4po Im -,1 1y. bowsrowd Int- -417 "11 he P"W*`tP. Atlzm-ak= .( O.Vvirtated fact *-~~jmtmv Ow get# IN M1lALk%,fLK41 90#141tal (MAMPKA1,00 a as a are Joe #00 It A be 0 be 0 N, IN U 16 AV 43 11 to cl d a '0 00 0 0 0 * 00 0 0 0 0 0 0 q 0 0  A' Al I -&.I I n.. set .-P fit MAP- F? 10~ -7w watt Itad. (U. 8. 8. X) 14 1320 ,;a mid Unow '(C. A. S1, neaft on im AM A. P. SIA t231-3- t4. C. A U. 701. 06 00 u oos 0 SWO.I.. U 0 a Is 0 it It 1 14 00 : : 0 * 0 0 0 0 a 0 0 a 0'0 0 0 4 0 0 0 0 0 0 0- 0- 'roe - 0~4* A 0 0 0 0 0 0 0 0 * 0 0 0 0 Ole 0 a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 -00 .69 400 too 000 0* 1.00 Woo too  -Mao w K MC, Ulturli gpd g1" acids. -N-H. Xtrichenko. Att". lu,=J; Mdtth-31, IIWI. Addfl. to lulm. 411IM17C. A. 33,,W04) and Ruts. 46,5M (C. 1. 33, 3.5402). The I!Wfho& of the art nal patents we m xiffied In that air to fmcedthrouglotbe njeciewnoz7.$exf2-olWIatm.fovfftcla finer dispersimo *1 the liqukf and c~IaNkhffwisl of the mo%t , fsvwabk- ratim between the pw"14 Alld 11W. liquid Phg%"-  WWW . 01 Of 1 -1. ; a v -. a 11"'. 'A -$. I-* . ~ Pa, . 1 LAA I a k sit 0.0 t.9 fdoollil1 0 at. toilto 1.0994sis 0.0 ho. 14 SiVIIII7111 P Adw- *,'affecting the lllTALLWGKAt L81111411011 C%ASVFKATMN -bo U I V 0 iiiiiiiate; 0 00 0 *a gee set gee let 00 see  Jk__L_I Ilk fir I f A I &--L- 1 00 A __- - - 00 10 1 46 6-0 OtOllf-46 -088 Clil 40 The saubw d manaft dwXwe In @dIwk "M COG- w " J ]ad i NO w s # the 0*.Usee. wee. dw I lift a, NOW Soo Oow got 0 0=2 slow "-&AV ,ME Im"411, -isissi Of 4w. At. female use oil 44M off a ad F-ii TV 000::91#600000:0019041orro goo see wee wee Goo 340 so* goo gas wool  KIRICAIMOJ NOR* Chemical Abstracts: '1 g 1"00 954 Far 25 p .1.1 and Wchc 40 , P Si : 24 IQ3IM-Vt W Acidsp Alkalies and m M , A other Heavy Chemicals tr famted before the abwrp6m tone to oxWln =t= Cu to the tgultool. ratio, NO: NO~ - 1, Is un- - Suitable t ood d Int i tl f t & - ens an ve open no o pctftn o g y to"et systaus. A SWIM Irrigated tower 4eriltraw In- ftned In tuallet with the fint tower 6 gife"Ire, Data taken In 1938 from the opention of a plant with a capnity of 100 kc. at HIS04 per cu. m. per 24 hm. (w -M mUic tons/dAy av wed for computing the degree of midstion of. nittow psts in The free spave of the packitig of the first ob- abrptiou Inver. V. If. (lottschalk  00 0 00'90000000040 : : 6 a a L a a a 06 4 1 1 w 'AOL a 0 lot "0 Asti". -.11 . "t IL bloom" WIND it p Mt. A -3 :Pell) wt OMMc I *a V *MNIM = 0 -XX Vol PO kno Fee 00  OLISKIT, Leonid Adolifovich, prof.; YAnar, B.F., doktor khim.nauko otv.red.; SIRICEMO, 0.1., inzh., oty.red.; SHIVCHMO. X.A., kand.khi;.U"S"U'-k-#'-'i~d'.-f'60HONOVSKIT. I.T., kand.khlm.nauk, red.; NAKORCHIVSKAYA, V.r., insh., red.; MIPCHMMO, V*Ao, insh., red.; SOXOLOVbXIY, L.I.. red.izd-va; INYIXOVA, X.I., takha.red. [Chemistry and technology of water treatment] Xhimiia L takhno- logiit obrabotki Yody. Kiev, Isd--to Akad.n&uk USS, 1960. 339 P. (XIRA 13:?) (Water--Purification)  , I CHENKO,_OA,~KMchenkoq O.M.] _1_~I _-_ Accumulation of plastic natexial in the Kimerik iron ore basin of the Kerch Peninsula. Trudy Inst.miti.resur. AN URSR no.2%3-n 16o. (MM 15:5) (Kerch Peninsula-Rocks, Sedimentary)  YURKY Yu.Yu.; KORN11DV, N.A.;.KIRICHENKO, O.N.; LEBEDEV, Yu.S. Outlinea of the Cimerian iron ore baBin in the Boutharn part the U.S.S.R. Dokl. AN SSSR. 154 no.23355-358 Ja'64. (MIRA 17:2) 1. Institut mineraltnykh resursov All UkiGBR. Pred6tavlano akademikom D.I. Shcherbakovym.  11 TURK, Tu.Tu.; SHNMOV, Te.F.; LNBXDZV, Tu.S.; KIRICHNNIO. O.H.: SXXXXWO. H.P,, akedemik, oty.red.; ISUPOVA, N.r-.-,-tb7cW.-tdd*- - -- (Kinaralogy of iron ore formation in the larch Basin] Xineralogiia zhalazorudnoi formateii Kerchanskogo bassaina. Simferopol'. lrym- izdat, 1960. 449 p. (MIRA 13;12) 1. AN USSR (for Samenanko). (Azov Sea region--Iron ores)  KIRICHENKO, O.N. (Kyrychenko, O.M.] Terrigenous minerals in Cimmerian iron deposits in the regi?n of Kerch and the Sea of Azov. Mat.z min.Ukr. no.2:62-68 61. (MIRA 15:8) (Kerch Penin ula-Minerals) (Azov Sea region-Minerals)  ~T J-P  MILIM,A.S.; IIRI' O.O.P. Dependence on temperature for the electric resistance of ferrite@. Dop. AN URSR no.3t258-260 155. (XLRA 8:11) 1. Kharklyalkijr dershavnly unlyarsitst. PredstaTiv diyouly chlan Akadeall nauk URSR X.D.Sinallaikov (Forromagnatiss)  KIRICHENKOP O.P. Cutting torch operated with gas-aoetylene substitutes. Ma- ohinostroitall no.2t2l F 164, (MIRA 17:3)  KIRICHENKOp P.; RATANOVA, V.; SERGETEV, F.; POLCHANINOVA, G. Disinfecting grain with methyl bromide in the silos of elevators equipped with recirculating unite. MA.-elev. prom. 29 no.2s 8-9 F 163, (MIRA 16:8) 1. Kharlkovskaya mashinoispytatellniya stantsiya (for Kirichenko). 2. Voesoyuznyy nauchno-iseledovatellskiv inatitut zerna i produktov yego pererabotki (for Ratanova, Sergeyev, Polchaninova). (Methane) (Grain--Disinfection)  ACCESSION NRs AP4038435 8/0294/64/002/002/0199/0204 AUTHORSj Kiricbenkoe P. Ist Mikryukove V. Ye. (Deceased) iTITLEt Thermal and electric properties of some alloys of the rhenium- nickel system ,~SOURCEs Toplofizika vy*sokikh temperaturl, v. 2, no. 2, 1964# 199-204''4 TOPIC TAGSs nickel, rhenium, thermal conductivity, electric con- ,:!ductivity, alloy system, resistivity temperature coefficient, tem- perature gradient ~:ABSTRACT: The temperature dependence of the electric resistivity,, .::temperature conductivity, and Wiedemann-Franz ratio were investigatfed!.. '~i-for rhenium-nickel system alloys in the range from 293--1123K (the "''heat conductivity and the Wiedemann-Franz ratio were measured from I 293 to 873K). There are no literature data on the investigated al- I:: I'loys. The results are of independent intarest and are also useful L! Card ------ J  ACCESSION NR, AP4038431 two for physico-chemical analysis. Each parameter was measured by 1',.independent procedures. The various test procedures are eitherde- scribed or referred to in the literature. All the investigated al- loys were found to have relatively low thermal and electric conduc- ~$tivity. It was found that the heat transfer in the investigated .!alloys is effected by the electron conductivity and the lattice thermal conductivityo Tests have shown that the alloys investigat ed are solid solutionso Orige art* has: 4 figures and 5 formulas. ASSOCIATIONt Energeticheskiy institut im. Gs M, KrzhizhahovSkogo (Power Engineering Xnatitute) 'SUBMITTEDs 10aul63 DATE ACOs 09JuA64 ENCL: 03 i"SUB CODEs MM ~NR REP SM. Oll OTHERt 002  KIRICIMOV.P.L01 KAMIIISKIY,, A.G. (Kiyov) Further improvanent of v-,vie forms of medIcal experliso on the working capacity and tho raising, of the It-vol or uhysiciansl qualifications in Medianl Ebcp,,rtal Commisairms on w,)xIk,!rsI Disability ard Temporary Control CceinIsL31ons. Vrac!~. dvIo noj: 122-125 Je.1(4 1-793)  DERIDOVSKATAl L,F,j XMICHINKOp R.A. ~ Morphologloal and AnatoulaaMiiaoteristlas cycle of Its development. Trudy Inst. bot, 19193-159 1640 Ph;ftoolixAts lbdd,,il6O-l7l  IZL 1. A~r, NR, MbOlftll I SOURCE CODE: UR/Q4Z9/bY/OOO/UU4/U1Q7/U1UY 'AUTHOR: ;!gRatin. A. 1. Da3yberdin. V. V. Chumachenko. V. S.; Gurov, V. X.; Trubcha,- ninov,-Z. N.-, Kirichenko, R. F - Fomenko, P. I. ORG: Kba ov Aviation Institute (Kharlkovskiy aviatsionnyy Institut) !TITLE: Investigation of an electrohyArs, c source and some of its potential appli- cations SOURCE: Samoletostroyeniye I tekhnika vozdushnogo flota, no. 4. 1966, 1OT-log I TAGS: electrohydraulic effect, shock vave, electric discharge ABSTRACT: The authors describe a highly efficient coaxial electro- hydraulic source for industrial use. A diagram of the device is shovn in figure 1. The annular aluminum electrodd 3 is fastened to textolite base I by bolts. St-a-Mess steel eledtrodeJ Is fas- tened to the base Inside the aluminum electrode and located on its central axis. Noltage is fed to the, annular and central electrodes from a battery of condensers through a controllable discharger. The electrical discharge betvaen the electrodes develop& in the form of Indly1dual spark channels4' 'A schematic diWsm of the ex- perimental unit used for testing the source Is shovn in figure 2., Card 1/3 Tigurs 1  L 40702, ACC NR. Voltage from regulator I is fed through step-up transformer 2 and high-voltage rectifier 3 to condenser battery 5 with a total capacitance of 6 uf. The c~.arging voltage is monitored on electrostatic kilovoltmeter 6. The current in the discharge circuit is registered by a low- -inductance Rogovski loop with an integrating circuit connected in tho coaxial cable. The signal from this integrating circuit is fed to one channel of an oscillograph. A capacitance signal from the voltage divider is fed to the aecond channel of the oacillograph through a 75 STimpedance matching resistor. Analysis of Figure 2: 1-voltage regulator; 2- the oscillograms shows that the cyclic frequen- step-up transformer; 3-20 Kv high- cy of the discharge is 925 Kc while the induc- -voltage rectifier; 4-60 Kgdis- tance of the discharge circuit is 0.2 uh. The current amplitude of the discharge reaches 16 charge resistor; 5-2LM-aftondense .Ka when 10 Kv is applied to the condenser 0 batte ; "-96 kilovoltmeter; 7- plates. Water velocity is a linear function 'discharger; 8-olectrohydraulic of discharge voltage with the approximate equa- source; 9-D6-2 voltage divider; 10- tion W14V+l, where At Is water velocity in M/600 Rogowski loop; 21-integrating cir- and V is voltage in Ky. At a distance of 3 a cuit; 12--jK-17M double besis oscillo graph r.,A 0 PA  L 40782-M ACC NRt Ap6u8m .ifrom the source, the cross sectional are& of the vater stream is no more than three es the source. Orig. art. has: figures. SUB CODE: 13/ SUBM DATE: none/ ORIO RIF: 007 Card 3/3 M11/1  L h0782-6 FWT(1)/b ~q FWATIJER-M-1JR(c .;-ACq NR, ApwlMn SOURCE CODE: T V. V H.; Trubeha- U1HGR; Lopatin, A. jalyberdin. .; Chumachenko, V. S.; Gurov, V. A ,ninov. F.- N.; Kirichenko, H. F,i Fomenko,_F. I. ORG: Kharkov Aviation InBtitute (Kharlkovskiy aviatsionnyy institut) 1TITLE: InvestigatiQn of an 212ctroh-viragliq source and some of its-potenti&l appli- 'cations SOURCE: Samoletostroyeniye I tekhnika vozdushnogo flota, no. 4, iq66,.1o7-i0q TOPIC TAGS: electrohydraulic effect, shock wave, electric discharge ABSTRACT: The authors describe a highly efficient coaxial electro- hydraulic source for industrial use. A diagram of the device is d ne shown in figure 1. The annular aluminum electrod A2 is faste d to textolite base 1 by bolts. Stainless steel eledtrode 3 is fas- tened to the base inside the aluminum electrode and located on its central axis. Voltage is fed to the annular and central electrodes 0A i. .i from a battery of condensers through a controllable discharger. The electrical discharge between the electrodes develops in the form of individual spark channels. A schematic diagram of the ex- X perimental unit used for testing the source is shown in figure 2. Figure 1 Card 1/3  t Jn7A7_M CC N .Voltage from regulator I is fed through step-up transformer 2 and high-voltage rectifier 3 to condenser battery 5 with a total capacitance of 6 11f. The cparging voltage is monitored on electrostatic kilovoltmeter 6. The current in the discharge circuit is registered by a low- -inductance Rogovski loop with an integrating circuit connected in the coaxial cable. The signal from thiG integrating circuit is fed to one channel of an oacillograph. A capacitance signal from the voltage*divider is fed to the second channel of the oscillograph through a 75 O"impedance matching resistor. Analysis of 1 4,e Figure 2:, 1-voltage regulator; 2- the oscillograms shows that the cyclic frequen- step-up transformer; 3-20 Kv high- cy of the discharge is 925 Kc while the induc- -voltage rectifier; 4 6 dis- tance of the discharge circuit Is 0.2 ph. The current amplitude of the discharge reaches 16 charge resistor; 5-IM-5LO-Wtondoinse Ka when 10 KY is applied to the condenser 0 batte ; 6-S-96 kilovoltmeter; 7- discharger; 8-electrohydraulic ,plates, Water velocity is a linear function. source-, 9-D6-2 voltage divider; 10- of discharge voltage with the approximate equa Rogowski loop; 11--;integrating cir- tion W-4V+l, where W is water velocity in m/sec cuit; 12-OK-17H double beam oscillo and V is voltage in Kv. At a distance of 3 m, graph Card 2  h0782-66 ACC NRa AP6 efrom the source, the cross sectional area of the vater stream is no more than three tines that of the source. OrIg. art. haa.- 4 fig!ires. UB CODE: 13/ SUBM DATE: none/ ORIG W: 007 Card 313  5-66 SWT(A)/EWP(1j/EWP(t),Z&TT UP(al- JDINW A?6006"0 SGURGE COM UR/0420/63/000/003/0=/0083 AUMORSt -LopQtin, A. I*; Balyberding Vo V,; Chumachanko, V, So; F~~Z*o' V. 1.1 '499!4~)L-j Trubohaninovp To Ael Airichanko, ORG I nois . .... TITLEs Radiatechnical method f measuring the motion parameters or the blank during shoot matal staminst 7 BOURCEs Samalstostroyeniye I tekbaka Yosdushnogo rlota,, no. 3, 1965, 84-85 TOPIC TAGSt metal stampingg text instrumentation, MW instrument ABSTRAM A mostly qualitative description of a radiotechnical method for measuring the displAcementAU the die during sheet metal atampina is briefly presented. The method consists of attaching a metal Iflaaw to the die and using this flag to par- tially block the path between two ultrahigh frequency wrveguides, one of uhich serve as a transmitter and the other an detector, After calibrating the change in trans- mitted UH? energy as a function of flag position in the gap between the guides, this curve can be used to interpret the die notion (position or velocity) as recorded on an oscilloscope during a stamping operation, Any centimeter range WIF generator can be used, A sample calibration oum and a sample stamping ourve are presented with- out details or specifications as to operating rangesp accuracy, *too Orig. art* has 3 figures. 13/ SUBM DATE t none/ ORM REF t 001 " 0. CY  KIRICHENW, R.H.; KIRICHENND, N.P. $--- . 1, 1Two winters spent on Kara-Kul Lake: reminiscences of the explorers. I%v.U%b.fil.geog.ob-va no.1:161-171 '57. (HIRA 11:4) (Kara-Kul lake)  25(l) SOV/:'c_5q_5_j7/nj AUTHOR: Ktrichenko, S.I., Engineer, Fukellman, M.L. TITLE- The BEZ-250 Electrode-flolder for Welding Withovt Dtssarde'i Metal PERIODICALi Ovarochnoyo proizvodstva, 1959, Nr 1), pp 40-4-1 ~'TUSSR) ABSTRACT: The design of the BEZ ele~.trode-holder ~FJgrure 1) iq frt~-~ ~'~f one defect present In usual rod-type holderi of its kind. It contains a semi-automatic device for exeitin~, the arc, the necessary are gap is obtained, reliable conta-;t between the bottom of the holder and the article ik a~+Ieved ani the welder is protected from the f2a3h of the ar,.. It can be used with a current of 250 RmPs~ a/c or d, /c an.,, any type of electrode. Instructions for its use are given. The weldoar only needs 2-4 hours theory and 1-2 dayu practice to gut uoed to it. At one plant it can save 650-750 thouvand rubles annually, and 200 havo already been pr-,-duced. There is I diagram and I photo, Card 1/1  KIRICHICNKO, S.I., inth. Al-ect rode holder for welding without discards. Sudostroonle 25 no-7:51-52 A 159. (MIRA 12:12) (Zlectric welding-lquipment and supplies)