"SCIENTIFIC ABSTRACT LYAKHOVSKIY, D.N. - LYALIKOV, K.S."

LYAKHOVSKIY, D.N., lmnd.te~:hn.nauk; ANISIMDVA, Ye,N., inzh. Aerodynamics of square-section chamber furnaces with tangential arrange- ment of burners. Energomashinoetkoenle 5 no.2:16-22 F 059. (MIRA 12:3) (Furnaces) (Aerodynamics) 0  LYAXHOVSM, D. X "on the Distribution of the intensity of TUrblent VelOSity PJIBatlOZ2B Streams." Report submitted for the Conference on Heat and Mass Transfer, Minsk BSSR, june 1961.  . IYAK O'VS M kand. tekhn. nauk, nauchn. red.; DESHAIZT, G., ved. red.; YASHCHURZHINSKAYA, A.B.p tekhn.red. (Theory and practice of gas combustion] Teoriia, i praktika szhiganiia gaza. Pod red. D.N.Liakhovskogo. Leningrad Izd-vo "Nedra." Vol.2. 1964. 626 p. (MIRA 17:4~  SOLTACE'CODE: 'uR/ol24/66/000/001/Bo4g/B-0119: .-.U 'Lyakhovskiy, D. N. TITLE: Turbulence and mixing of air jets SOURCE: Ref. zh. Mekhanika, Abs. 1B347 ~RZF SOURCE: Teoriya i raschet ventilyats. struy, L,, 1965~ 107-135 !TOPIC TAGS: gas jet, turbulent jet, jet flow, flow analysis ;ABSTRACT: Data are given from an experimental investigation of the intensity of tur- I DU-Lence in the longitudinal component of' pulsation velocity in straight-flow and I i .1wisted,turbulent jets./ The experiments were done at low velocities at distances of i2-5, 10 and 20 diameters from the nozzle cutoff. The pulsation characteristics in -*ets of this type are given as well 'as theoretical values for the length of the mix- J !7 ing path determined by dividing the root-mean-square value of the pulsation velocity i:by the transverse gradient of the average velocity. A. S. Ginevskiy. [Translation ~of abstract] ;SUB CODE: 20 I Card 1/1 ib --J  MDCHALOV, V.A.; MATYUSHCHENKO, D.D.; KRIVITSKIY, A.A.; GLEZER, G.N.; OPARIN, I.M.; KHEYMAN, E.L.; SMETNEV, N.N.; EPSHTEYN, A.L.; GUSEV, B.Ya.; LEYKIN, L.P.; MARCHENKO, G.M.; FISHKOV, V.G.; SAPROVSKIYJ, S.V.; kYAWOVSKIY._ jj.; SMELYAKOV, Ye.P.; VAYNTRAUB, D.A.; BUDYLIN, M.M.; NOTKIN, Ye.M.; KUR, G.Ye.; ARONSHTEYN, N.A.; SUKRAREV, V.I.; VINOGRADOV, X.N.; BOBROVSKIY, N.S. Innovators' certificates and patents. Mashinostroenie no. 2: 103-109 Mr-AP 164. (MIRA 17:5)  LTAMOVSKIY, L.K., Inzhaner. Determining the basic dimensions of the steam cylinders of direct- acting twin steam-pumps. (Trudy] KVTU no-56:92-109 155.(MLRA 9:6) (Steam angines-Cylinders)  cs vk, 112-3-5327D Translation from: Referativnyy Zhurnal, Elektrdtekhnika, 1957:Kr 3, P. 39 (USSR) AUTHOR: Lyakhovskiy, L. K. TITLE: Intern4l Heat Balance of a Direct-Acting Steam Pump (Vnutrenniy teplovoy balans parovogo pryamodeystvWyushchegg naeosa) ABSTRACT: Bibliographic entry on the author's dissertation for the Degree of Candidate of Technical Sciences. presented to the Moscow Higher Technical School (Mosk. vyssh. tekhn. uch-shche), Moscow, 1956. ASSOCXATION: Moscow Hi er Technical School (Mosk. vyssh. tekhn. uch-shch Card 1A  LYAKHOVSKIY,, L.K.,.kand.tekhn.nauk Analysis of theynal losses in the steam cjr2inder of a direqt-acting pump. [Trudy] MVTU no.100:3.20-DJ+7 160. (MIRA 14:4) (Pumping machiner7) (Steam engines)  SHCHERBAK G.S.; LYAKI ,~ N -J. .9 -11. _,,,k Designing percussion drills with electric drives. Trudy Inst. gor. dela AN Kazakh. SSR 11:78-90 163. (MIRA 16:8) (Boring machinery-Flectric driving)  POPOV) K.N.3 kand.tekhn.nauk; LYt.KHOVSKIYy L.K.9 kand.tekhn.nauk Teotin direct-acting-oteam pumps manufactured by the Svessa Plant. ETrud;rl 14M no.100:99-11~-' 160. (I-IMPA 34:4) (5ionna-Pumping machinery) (steam engines)  .1]~~~~~rkov~ich;FOSSTEFITYAK, Ye.F., inzh., red.; SHILLI11G. V.A. , red. izd-va; BLUGUROVA, I.A.., tekhn. red. [Modernization of the 1336 and 133(14 turret latheslModerni- zatsiia tokarno-revoliverny-kh star&ov 1336 1 133(x%l. Lenin- grad, 1962. 17 p. (Leningradskii don nauchro-tekhnicheakoi propagandy. Obraen peredovym opytom. Seriia: MeMianicheskaia obrabotkaj no.13) WIRA 15:10) (Lathes-Technological innovations)  LEEEDOVSKIY, Mstislav Stepanoviah; qj~~HOVSKIY, L.M., inzh., red.; FREGER, D.P., red.izd-va; GMRT~, V.L-, tekhn. red. (Design of vibratinglopper feed mechanisms] Konstruirova- nie vibratsionnykh bunkernykh pitatelei. Leningrad, 1963. 20 p. (Leningradskii dom nauchno-tekhnicheskoi prop8gandy. Obmen peredovym opytom. Seriia: Mekhanicheskaia obrabotka metallov, no.3) (MIRA 16:8) (Feed mechanisms-Design and construction)  LEBEDO#PKIY, Matislav Stepanovich; LYAKHOVSKIY )L -M-, inah.,.red.; FREGERP D.P., red.izd-va,---G-VTRTS-,--TL., tekhn. red. [Construction *f vibrating hopper feeders] Komtraimvanie vybratsionnykh bunkezmykh pitatelei. Leningrad, 1963. 20 p. (Leningradskii dom nauchno-tekhnicheskoi propagandy. Obmen peredovym opytom. Seriia: Mekhanicheskaia obrabotka metallov, no.3) (MIRA 16:5) (Matalwork-Equipment and supplies) (Feed mechanisms)  LYAKHOVSKIY, Hikhail Ioakovich; SOLYANOVA, N.H., redaktor; RAKHMATULLIU, F., IM112M chaskly redaktor [A collective farm of leading cotton growers] Kolkhoz masterov vyeokikh urozhaev khlopka. Tashkent, Cos. izd-vo UzSSR, 1956. 19 P. (miaA 9:10) (Cotton growing)  t )/ET1 TJP(r,) JD 0 2D.11 31 4 SOURCE CODE: U11/0048/GG/030/Q0G/l0G2/l0G4 '.'.Z..: P.; Rodichov, G.M., Lyakhovskiy, 0:,G: Xrasnoyars"k- A-Nilytechnic Inc;tituta (Krasnoyarijkly politokhnichoskly Inatitut) '-TL": Invost"'ation, of mn Report, All-Union I _. - _ _gao.~~kc _noment-rotation in Pormnlloy !Ilps 4 Co.:-.-_'crcnco o;-, tLe 11);iysics of Ferro- and AntiAf orromagnotism hold 2-7 July 1965 n Sverd'ov r,1~7 S0;j:ZC7_: AN SS---R. izvostiya. Scriya Tizichot;lcaya, v. 30, no. 6, 19G6, 1062-1064 T.,%GS: forro;-.,a_-notic film, parralloy, pulsed magnetic field, magnetic coercive I o;:co, L;a~;retic a"isotropy G"e,-ric filolna,07 -,*-o authors investigated pulsed switching in Permalloy films of the from. the easy direction ia the plane of the film to the hard direction, al~;o in t:1.3 pIQ-'10 of the 'Lilra. TLwo types of film were investigated: in the type I quasistatia switchin.- from the easy to the hard direction was realized without ,4:o-.;ain wall di5plzcomont, and without formation of domains at all when the mngnoti- was saturated; in the typo 2 iilms domain wall displacement occurred during C,uasistatic switc~iinj but accounted for less than 10% of the total magnetization C.Izz--o. la all tha films the coercive force was nearly equal to, and in some of then was -roator than, the anisotropy field, The different treatments required to pro- dL~co type I and type 2 films are not described. In the present experiments switching Card 1/2  L 08767-67 4 w~s accozplizhod with pulses having rise timos of less than 2 nanosec. The switching z`mcsia t'--e type I Afilas were too short to measure, but rough estimates gave values for :tha dci~mpia_- constant a in the equation of T.L.G.-kilbert (Phys. Rev., 100, 1243 (1965)) viere of the order of ma-nitude of those obtained by the resonance method. 0 k' In th zypa 2 t:io svitching tire increased with increasing switching field, reached a (of zbout 1.00 nanosec in at least one 3300 A thick film) at a switching field ~approxi-atoly ecual to the anisotropy field, and decreased with further increase of tao i~-aitcain_- Afield. it is suffgested that the increase in switching time with in- ;croasiua sviitc:ain.- field may be due to inertial properties of the magnetization and to of the magnetization rotation occasioned by'the large angular dispersion! of local easy axes. Ori,-. art. has: 2 figures. SLB CC)D:;: 20 SUBU DATE: 00 ORIG. REF: 002 OTH REP: 001 bc  LYAKHOVSKIY, S.B. Theory of the working process of a sandslinger head. Lit.proi2v. no.2:14-15 Kr-Ap 154. (MLRA 7:4) (Founding)  AuthOra t Lyakhovskiy, S. B. -Title Pr,oblems of the theory of the working process of the sand-slinger head PerIcIlical i 'Liti proizv- 4, 15-17s July 1954 Abotract A st.ep-by-step description of the working process of a sand-slinger -used in foundry plants,,is presented.- The construction of the blade of a sand-slinger head and its function in conveying the charge from stage to stage, are explained. The forces affecting the batch during standstill of the sand-slinger blade, are listed. Five USSR references (1949-1950). Graphs. Institution Submitted  LYAKHOVS K. v , kand.tekhn.niti~k; I3ERESTOVMO, K.M', inzh.; ZAYTSEV, R.V., KIZI, A.M. KO, A.N-j inzh., inzh.; SIBIP Chgosing the optimum.red line oVer difficult terrain using electronic dlr~ti& computers@ Tiftsp, stroi, 12 no,2:42-43 F t62, (MIRA 15:7) (Electronic digital computers)  KLYUCIRTIKOVA, L.A.; _I~j TSEYTIN, G.Kh. Calculation of the vertical. wind profile in the surface bourd;-,77.r layer. Trudy GGO no.167:3-28 165. WIRA 39: 1)  I~Y, ~,v Publicizing up-to-date practice is the most important task of our trade unions. Sov.profsoiuzy 16 n0-15:12-14 Ag 160. (MIRA 13:8) (Trade unions) (Efficiency, Industrial)  M - - -LYAKIN, V.F.; TETEREVENKOV, V.V.) starshiy nauchnyy sotrurlnik Efficiency of advancing the stope with variolis orders of working steep seams. Ugoll Ukr. 7 no.61ll-13 Je '63, (MIRA 16:8) 1. Upravlyayushchiy Trestom predpriyatiy ugollnoy promyshlennostl Gorlovskogo rayona (for Lyakin)o 2. Vsesoyuznyy nauchno-issledova- tel'skiy marksheyderskiy institut (for Teterevenkov).  KULEZNEV, V.N.; KROKIIINA, L.S.; LYAKIN, Yu.I.; DOGADKIN, B.A. Study of the structure of mixtures of polymer solutions by the light scattering method. Koll. zhur. 26 no.4:4?5-420 Jl-Ag 164. (MIRA 17:9) 1. Moskovskiy institut tonkoy khimicheskoy tekhnologii imeni Lomonosova.  SUKHODOL, V.F.; GRABOVOY, I.A.; TALANOVp B.I.; Prinimala uchastiyeg LYAKINA, T.-V.,., ~ Content of nitrogenous substances in fusel oil. Form. i spirt. prom. 30 no.WO-11 164. - On the occasion of the 400th anniversary of book printing. Ibid.t8-9 (MIRA 18t2) 1. Kiyevskiy tekhnologicheskiy institut pishchevoy pronyahlennosti imeni Mikoyana.  _~MQYSUY, Y-N , kand.tekhn.nauk; MHALEVICH, V.S., kand.fiz.-matem.nauk; BYKOV, V.I., inzh.; ZAYTSEV, R.V., inzh.; SIBIRKO, A.H., inzh.; SHOR, N. Z. . inzh. Determination on an electronic digital computer of the most advantageous location of a red line of longitudinal section which may move freely. Transp. stroi. 12 no.4:41-43 Ap ,62. (PILRA 15:5) (Electronic digital ccmputers) (Railroads-Location)  S/i B004/B064 AUTHORS: Tsipes, L. Ya., Sokolov, A. D., Kochanova, M. K., Lyak:Lna, Z.N. TITLE: Molding of Products From Novolak Moldinp, Material PERIODICAL: Plaoticheskiye massy, 1960, No, 5, pp. 67-69 TEXT: It is the aim of the present paper to raise the efficiency of Pres- ses by increasing the molding temperature for the production of materials from novolak molding powders of the K-15-2 (K-15-2), K-17-2 (K-17-2). K-20-2 (K-20-2), K-119-2 (K-119-2), and K-118-2 (K-118-.2) types. The labo- ratory of the zavod "Karbolit" ("Karbolit" Plant) developed in 1938-1939 a procedure to render molding possible at 175 - 1850C with the molding material being preheated. Experiments with material preheated in a high- frequency field to 100 - 1100C showed that the product No, 3388/i (safety cartridge), 46 mm high, wall thickness 6 mm, can be molded a' 205 ' 215 0C, and the product No- 3308/2 (incandescent lamp socket) 26 mm hlKt, wall thickness 4 mm, can be molded at 215 - 230 0C, Thus, the time of molding was reduced without any change in strength, heat resistance, and water ad- sorption. M. G. Gurariy is mentioned. There are I tables and 6 references; 5 Soviet and 1 British. Card 1/1  ARISTOV, P.I.; LTAKISHEY. B.M. New form of silver packages. Tekst. prom. 19 no.9-28-31 S '59. (KM 12:12) J.Nauchny7 rukovoditell Ivanovskogo nauchno-iosledovatellskogo institute, tekstillnoy pron7ohlennosti (IvNITI) (for Aristov). 2.Rukovoditall laboratorii konatruirovaniya Ivanovskogo nauchno- iseledovatellokogo instituta takatillnoy promyshlonnouti (for Lyakishev). (Spinning machiner7)  LYAKISHEV, N.I., inzh.; VAVILOV, V.I., inzh. Introduction of an instrument laminated with hard alloj-s. -rer. pro=. 11 no.9:20-21 S 162. (MIRA 17:2) 1. SI-hodnenskaya mebellnaya fabrika.  133-5-10/27 AUTHOR: Khazanova, T.P., LTakishev. N.P. and Grishankova,, E.A. TITIZ: The influence of the mineralogipal composition of molyb- denum concentrates on the process of their roasting. (Vliyaniye mineralogicheskogo sostava molibdenitovykh kontsentratov na protsess obzhiga) PERIODICAL: "Stall"(Steel), 1957, No-5, 425-429 (U.S.S.R.) ABSTRACT: A laboratory investigation of the process of roasting molybdenum concentrates was carried out. Roasting temperature 600 and 650 and 700 C. Sulphur content of the final product -was talwn as a roasting criterion. The behaviour of molybdenum concentrates during roasting is determined by their mineral- ogical composition. The individual minerals have the foll.owing influence on the process: a) calcite - negative, due to the formation of stable calcium sulphates which increase the final sulphur content in the roasted product; b) chal-copyrite in combination with calcite - negative; c) quartz - positive; d) galenite - has no influence but its content is limited by the conditions of subsequent production of ferro-molybde~num; and e) feldspars, hematite, grey copper ore have no notice- able effect on the roasting process. As the results of this investigation were not considered in the standard specificatims Card 1/2 for concentrates valid at present, it is recommended that,  133-5-10/27 The influence of the minemlogical composition of molybdemim concentrates on the process of their roasting. (Cont.) after check experiments on industrial furnaces, new standards should be prepared. There are 4 tables, 2 figures and 3 -Slavic references. ASSOCIATION: TsNIIChM. AVAIIABLE: Card 2/2  - 7 I-J ce -,I i rt N r'-, wr;- 'L L ~ rmst n llt FU 1. 03, F~O 0.221-2Z3, Oi 1.62 m-u.. CaO 0.17i~-&.F~5, PI, I I FUJI Irgo 1 .0 Max 31 C"!3-7CW calcite forma stab.- su!f-tza a--Ii iI,7-aEzz tt-.c Ll c"Copyrite L-1 C-alwa~: acti in !2c a efect, jf:~, relaNpars, and h-,~nladt? !"3ve 110 D G.It  'UTHC Lyakishev, N.P. , Bogolyubov, A 1. RS: V.A. TITLE: Reduction of niobium concentrate i-,rit1a carbon PERIODICAL: Izvestiya vyzshiJ1:h ucheT--ny%h zavedeniy. C!,ernaya no.!, 1-~62, 70-1-7 TZ", T In ti"le USSR, forroniobiu--.-. is produced by t1i'le llfmrmaceiessll aluminotheri~iic method, usin- the niobiu,-.i concentrate from VishnevoCorsh ores. This ferroniobium is Copta:n4-,ja4-cd by aluminium, silicon and titanium... 7;or i)ure fcrroniobi,,~-,m e~:T)ensive high-rade rai,,r -aterials or alternative --rocesses are needed. Reduction with c-arbon enables a hiLh selectivity of reduction and a ~)urc ferroniobiuri to lie obtained fzrom rolativnly lean concentrates (vanadiu- recovery, in concentration, is J0 to 105a better). !-.I the present article the authors consic:cr some basic aspects Of the carbon reduction process: reducib-ilitN, of the concentra te (on whi ch no work has been published) reaction of carbon with thcl !'.:etallic melt and the properties of the slag. T*ne cl-ar-e in a ~-ra7)11ite crucible C, - (150 tall, 20 rn;:-, bore, to give uniform temperature) was Placed Card l/ ~ I ly~  Reduction of niobium ... E111/2435 in a furnace i.;rita a carbon-.-.-es-ist,,-incr-- tubular heater with I-acilities for continuous of the c1lar-ge to an accuracy Of 0.5 and for feedin.--in a flow of nitro--en. T'-e c'~=-c consisted of 2 to 3 ml-.i ~-)ellets made f-~om a of niobium concentrate: 29.9n,,114 + Ta)-:~'05, 03.25`1~ SiOo-, 7-52% ZrO-9; 11,4050 CLIO; 0 - co, [I'0,0' 1~- 05.005S A1--0-- 6-,j7P-%3 Foc; LI/ p 2.18" of rare e, 57 0 72" S; 0.15'~ Ci arth nietal o,-:idcs 0.0 a 0', a' -Na; 0.120/lo K; Ininus 100-mesh -raphite 9 9. US 6% C) and iron (98.0'P', Fe,,t) . The rezictin'- surface of the of the pellets. crucible was negligibly small compared ,,rith that Reduction uas, carried out in two stages: first at 1300 then at 1500 or 17000C. Charge weif,,hts "Ore 32 'to 57 (' The i--ii-xtures used urere 100 parts by weight of concentrate 10-59, 12.97 or 17-75 1,arts graphite and 15.9 or 29.0 iron poweLer. Within this ran.,"e, the reducibility (as indicated by weight loss) rises with increasing contents of iron and of graph-ite and with rJ. s ing temperature. The authors studied the solubility of carbon in Nb-Fe-Si alloy in relation to the silicon contents usin,-. a method in which fused alloys with various silicon contents were Card 2/5  S/IUP/62/000/001/004/015 Reduction of niobium ... Elll/Z435 saturated w-ith carbon at the miven te.-merature. The alic-,- were 'iade fro:'.i electrolytic iron, -Lrade ML~~IVMT-sM) niobium a:-d crystalline silicon, Vic compositions bein-- as follo,.-. -S: iron: 99.0'yj Fe niobium.: 0.031"0' Fe, 93.3%' :T',), 0.023") si, 0.11L"", 'I'1'' 0.10~/~' P13 and*0.10',"~ C; silicon: 0,95550, Fe, q3.52'/3 Si an6, 0.535', Al. To accelerate inelting and reduce oxidation, the nioijiui-, wzls alvrayz placed in the alundut-1 crucible first, then silicon, then iron. After Iieating to 17500C and thorough stirrin-, the tcml)eraturc r-educed to 16500C and a Sr-aphite Y-od was inserted for 15 r.,.illutes. 4 After hold=- for a further 10 !ainutes the charn-e ...-as ~.;Lizex quenchr;d and analysed. The carbon is shwm az a function of silicon content in Fig,5, curves 1 and 2 relating, respectively, to niobium:iron ratios of 0.6 and 1.0 The influence of the CaO/SiOo r;xcio on tile viscosity Of Si02, Ti02, Zr0q, CaO, A1203 sla.-Is, 5I.-Ailar in cowl,osition to those obtained when ferroniobium is beinZ -1produced fro.-i lean concentrates by tile carbon reduction !-:e"hc)d, 7-1*ap, --ttidied. It was found that the viscosity falls with increasing silica conteft and is least at a basicity of 0.65. The authors reco::-,.-iend a basicity of 0.65 to 0.7 for ferroniobium production by the carl)on Card 3/5 x  Sll~, rl/6 -/0G0/GG! /Go IiAl Reduction of niobium Elll~E43,5 reduction i-.icthod; they consider this method practica'AL,. There are 6 figures and 3 tables. ASSOCIATION: TsNIIChEM-'E,;T S U B'L% I I T 'PE DOctober 16, 1961 Card 4/5  LYAKISHEV, P.P.; FROLKIN, V.M. Automatic regulation of water heating. Sbor.rats.predl.,nWdr.v proizv. no.1:42-43 161. (MIRA 14:7) 1. Novo-Tullskiy metallurgicheskiy zavod. (Electric controllers)  56 AR6017222 SOURCE CODE.*- UR/0058/65/000/012/13011/BOll AUMOR-7. Aiiyev. D. -A-; Lyakishev, V. S. ORG: none TITLE: Potential on the axis of a conducting circular cylinder of finite length, neglecting the edge effect SOURCE: Ref. zb. Fizika, Abs. 12BI22 REF SOURCE: Tr. po teorii polya, vyp. 1, 1964, 19-25 TOPIC TAGS: electric _1~ itential, distribution function, charge density, eendueting eircuimp-aylUuter, edge effect/ j A13STRACT: The potential has been found on the axis of a circular cylinder of finite length, neglecting the function of the iflectric -charge distribution on the surface, when the surface density is assumed to be constant. [Translation of abstract) [NTJ SUB CODE: 20/ Card 1/1 146  02314-67 ' EWT(d)/tW-t-(-M-Y/!EViP(w)/EV,'P(V)/EWP(k) IJP(c) WVI/EM CC MRs AIR6M6551 SOURCE CODE: tm/0196/65/000/0-12/AO08/AO08 AUTHOR: Aliyev. D. A.;,.Lyakishev, V. S. TITLE: Potential along the axis of a conducting circular cylinder of finite length without regard to edgi effect to SOURCE: Ref. zh. Elektrotekhnika i energetika, Abs. 12A52 REY SOURCE: Tr. po teorii polya, vyp. 1, 1964, 19-25 TOPIC TAGS: electric potential, electric conductor, electric theory A hollow circular conducting cylinder of finite length with extremely ...thin walls has a total charge e uniformly distributed over the surface with a dS density a. The expression for the potential is taken in the form U=~ Ea-3 ' 31 PL The distance pi between the point of observation and a point on the surface of the cylinder is' given in the form of the difference between the vector-parametric equa- tion for the surface of the conductor and the radius-vector of the observation point. When the expression for p, is substituted in the general formula for the potential after integration, a design formula is derived which may be used to cal(u- late the, distribution of the potential along the axis of the cylinder for various ratios between radius and altitude. 2 illustrations, bibliography of 3 titles. Yu. Chalisoy. [Translation of abstract] SUB CODE t -Ag oq Card WC: 537-213  LYAKISH-EV, V.T.; PLATONOV, G.P.; SIIIITS-111 I A. A. , '' I Spectral determinaion of Silicon in blast furnace cast i-ron. Zav.1ab, 29 no.12:1452 163. WIRA 17: 1) 1. Chelyabinskiy metallurgicheskiy zavod.  LYAKISHMV6 .V .,0 Process and production quality control in blast furnace plants. Metall-mrg no.11:34-35 N '56* (MIRA 10:1) 1. Master dome=cp taekha zavoda imeni Dzerthinskogo. (Cast iron--QPA.11tr control) (Metallurgy)  MDRYGANOV, P.V.; MELINIKOV, B.N.; 1,YAKISHEVA..QB-.- Mechanism of the reaction of cation dyes with nitron. Izv.vfs.- ucheb.zav.; tekh.tekst.prom. no.5:114-117 162. (~ffRA 15:11) 1, Ivanovskiy khimiko-tekhnologicheskiy institut. (Dyes and dyeing-Textile fabrics)  LYAKISHEVA, O.B.; MELINIKOV, B.N.; NIORYGANOV, P.V. Studying the development of the technology for a continuou3 dyeing method of nitron with cationic dyes. Izv. vys. ucheb. zav.; tekh. tekst. prom. no.2:114-120 165. (MIW. 18:5) -1. Ivanovskiy khimiko-tekhnologicheakiy institut.  11 LYAKOVSKIXILSt--podpolkovnik meditsinskoy sluzhby; BABKINA, A.S. . Change in the time of simple m1tor reaction in students. Voen.- mod. zhur. no.3s34-35 Mr 160. (MEU 14: -1) (MOVEMEW (PHYSIOWGY))  SHPAK, Y.K.,doteent; IrABSERMUM,R.I.; LYAKSUTKINA, X.F. Observations on the lontophorests of nicotinic acid. Klin. med.,33no. 9:92 a 1.55. (MIRA 9t2) 1. 1z kafedr7 paikhiatrii (z".-"dotsent Y.M. Shpak) Stalinskogo meditsinskogo instituta (dir.-doteent A.M. Ganichkin) (CATAPHORNSIS) (NICOTINIC ACID)  SHPAK. V.H.; KARBa-NBAUH, R.I.; LYAKSUTKINA, H.F. Observations of electrophoresis with nicotinic acid. Yop.kur., fizioter. i lech. fiz. kullt. 22 no.2:34-36 Mr-Ap '57. (MIRA 11:1) 1. Iz kafedry paikhiatrii (zav. - doteent V.M.Shpak) Stalinskogo maditsinskogo institute (dir. - doteent A.M.Ganichkin) (EIRCTROPHORBSIS) (NICOTINIC ACID)   AUTHORS: Geltperin, N. I., Lyakumovich, A. G., soy/156-58-1-46/46 Listopadov, M. V TITLE: Solvent Extraction in a Countercurrent Injector Column (Ekstraktsiya iz rastvorov v protivotochnoy inzhektornoy kolonne) PERIODICAL: Nauchnyye doklady vysshey shkoly, Khimiya i khimicheskaya tekhnologiya, 1958, Nr 1, pp. 193 - 198 (USSR) ABSTRACT: Among the separation processes playing an important part in chemical engineering, solvent extraction is of great significance. It is based upon the laws of diffusion and of equilibrium distribution. Though related to each other, extraction, rectification, and absorption processes are not always conveniently arranged alike as regards equipment. In particular, rectifying and absorption columns will often be of very little efficienay in extraction. A search has therefore been made for more perfect designs, and for a more intensive operation of usual extraction equipment. Some of these types are mentioned (Refs 1-11). No exhaustive solution to this Card 1/4 problem having been found until now, further research work  Solvent Extraction in a Countercurrent Injector Column sovA56-58-1-46/46 is still of current interest. The authors have developed the*", column mentioned in the title, and have introduced it into large-scale use. It has no filling bodies, and is provided at both ends with an injector each. These, being directed against each other, serve for introducing the original solution, and the solvent (Fig 1). Under certain hydrodynamical conditions and structural dimensions, the injectors not only assure dispersion of the two liquid phases but also their thorough mix- ture by creating areas of high turbulence at both ends of the column. For testing the new extraction equipment, 4 types of this apparatus having equal working dimensions (diam. 50 mm, height 2 m) were studied. Two systems of practical interest in synthetic rubber industry were investigated: 1) a mixture of n-butylenes- acetone - water, 2) a mixture of diene hydro- carbons C and higher - divinyl ether with water (Fig 2). The experimenfal results which are given in table I show that the injector column has double capacity at a height at least 4 times smaller. Table 2 shows exDeAmental results obtained with the hydrocarbon - diethyl ether - water system in all 4 column types. Furthermore two injector columns in sequence, Card 2/4 and one column having 2 and 3 water injectors installed in  Solvent Extraction in a Countercurrent Injector Column SOVJI/156-58-1-46/~~6 series and one injector for the original mixture, were also studied. From this the maximum capacity of the injector column may be seen especially if the solvent is fed through several injectors installed serially. Capacity increases with increasing discharge velocity of liquid from injector nozzles. Optimum dimensions of the injector were determined with the petroleum - acetic aldehyde - water system (Pigs 3,4, Table 5). Large-scale use of these injector columns has fully comfirmed laboratory results, and has proven that the design based on the nozzle discharge velocity was correct. There are 4 figures, 5 tables, and 11 references, I of which is Soviet. ASSOCIATION: Kafedra protsessov i apparatov khimicheskoy tekhnologii In- stitijta tonkoy khimicheskoy tekhnologii im.M.V.Lomonosova (Chair if Chemical Engineering Processes and Equipment of the Institute for Fine'-Chemical Engineering imeni M.V. Lomonosov) SUBMITTED: October, 9, 1957 Card 3/4  Solvent Extraction in a Countercurrent Injector Column sov/156-56-1-46/46 Card 4/4 uscomm-Do-0472  SOV/ 5,,"4 AUTHORSt Gellperin, 11.1., Profenuor, Lyakumovich, A.C'. TITLE: Extraction From Solutions (Ekstra:-.:.-iiya iz rastvorov) PERIODICAL: Khimicheskaya nauka i promyshlennost;, 1958, Vol III, Nr 6, PP 725-735 (USSR) ABSTRACT: Extraction from solutions is growing in importance. There are several types of extraction devices. Shelf columns are only in- completely studied (Figure 1). The industrial types of such columns are 2 m in diameter. They have more than 100 shelves, the distance between which is 45 - 125 mm. The speed of the liquids varies between 0.006 - 0.010 mm/sec. Extraction columns with grid plates are similar to rectification columns. The Koch plate (Figure 2) used in these columns has an efficiency factor of 75%. Spraying columns are hollow cylinders with sprayers at - Ref. 16 7 one or both ends. In f __, a method for calculating the efficiency of these columns by means of the droplet movement in the dispersed phase is given. Injector columns have been pro- - posed in the recent years Z Ref. 27, 28_,7. The injectors form a fine dispersion and a zone of intensive mixing of the two--phases. The height of the column has only a slight influence in its ef- Card 113 ficiency (Figure 5). Columns with inserts have a higher effi-  Extraction From Solutions 5 -5 !4 5 ciency than the above-mentioned types and are of very simple con- struction. The inserts are mostly Rashig rings of 6 - 50 mm in diameter. The diameter of a column with an output of 20,000 kg/h in a toluol-water system is calculated by several equations and the results are shown in Table 2. The efficiency of static ex- traction columns can be increased by pulsation of their content. These columns are also filled with inserts. Figure 11 shows that the best results are obtained by a high frequency and a low ampli- tude of the pulsations. The calculated values have been experi- mentally tested in a column of 600 mm in diameter, an operating height of 12 m, and 450 plates with stainless steel grids. The rotation- linder apparatus (Figure 18) has been investigated in Z-Ref. 56:~. The coalescence of the droplets in these apparatuses is at a minimum. Figure 19 shows a rotation disc extractor de- veloped by Reman -FRef. 58_7. It is a continuously operating vertical column with central shaft on which horizontal discs are Card 2/3 fastened. In Reference 67 an extractor with an output of 450  Extraction From Solutions SOV/63-3-6-5/43 cm3/min and 5,000 rpm has been investigated. There are 14 diagrams, 9 graphs, 2 tables, and 68 references, 9 of which are Soviet, 46 English, 10 American, 1 Canadian, 1 Indian, and 1 French. Card 3/3  I.YALEKO, V.F., kand. istoricheshikh nauk Struggle of the Moscow party organization for Industrial reconstruction in compliance with military needs during the first years of the Great Patriotic War (June 1941 - November 1942). Trudy MIIGAIK no.43s75-96 160. (MIM 16:7) (World War, 1939-1945-Economic aspects) (Moo cow-Indus trial efficiency)  LYALEKO, Y.F.,,. kand. I~toricheskikh naukj MIGALIN, V.P., starshiy prepodavatell From the histmT of the development of Socialist competition at the Moscow enterprises during the first years of the Great Patriotic War (1941-1942). Trudy MIIGAIK.no-43:97-109 160. (MIRA 16:7) (World War, 1939-1945-Economic as ects) (Moscow_Socialist competitions  :YEVSE*YE-VI I.G.,* kand. tekhn. nauk,- LYALICHEV, V.S.$, inZh. i; Study of dangerouzi vcltag-es and currant3 in tra2k a !1r.=,.-- circuits in the contact network. Pvtom.., telem. 1 sylazy ~', nr.6,16-20 Je I 65o 0.1-In 18-8)  L' , G., -&ZffiVffMp*. and SAATCHYAN, L. 0., "The Role of Water Power in the Formation of Large Power System and Consolidated System in the Sov-1et Union." report preEented at the 14th Sectional Meeting of the World Power Conference, Montreal, Canada, 7-12 SeP 58.  Lyalikov, 1. S. "The P blem of heat conductivitzr of -rarmir material." Min Hivter Education USSR. Tomsk Order of I-abor Red Banner Polytechnic 3~i-%t Lreni S. 11. Kirov. Chair of Theoretical and Clonerul Heat En ,;ineering. r, (Dissertatioi-i for the ilorrec of Gindidate in Technlc~,l Science) So: Ynizhri-.Ya letopisl, 110. 27, 19506- hoscot.-. Pages 94-109;111-  ANMYNV, XOn8tantin lonstantinevich, professor, 4*kt*r tokbuichookikh nank; SNITKO, BA., professor,'doktor takhnichookikh nauk, rodaktor; LTAUKOT, B.S., polkovuik, rodaktor; LEVINSKATA, N.Z., tekhnicheekly '~"' L~;~ ram";;., [Uplosions and explosives) Vzryv i Yzr7vehatye veshchostva. Moskva, Voen.Isd-vo KInioterstva obor. sotuss SSR, 1956. u6 p. (mraA 9:5) (Uplosives)  FURS,, G.I., prof., cloktorl .;;"0V, ' A-As ' -, Wculfition of the OverheaUng *f Me w1nding swfam of Us additional resistances of electric measuring Iwtnn=ts. Iww*TPI 1370-32 165. Concise method for calculating the overheating of resistor vinding surface* of electric meaeuxdM Instmente. Ibld,j 13-a. (HIPA Iqjj)  LYALIKOVO A.S.; FUKS, G.I., prof., dcktor; LONINOV,G.D. Selection of additional resistances of electric measuring instruments according to their power rating and hull characteristics. Izv.TPI 137122-24 165. (MITiA 19:1)  LYAI,IKUV,'f A.S.; ZAGROMOV, Yu.A.; YERSHOVA, L.S. Fxperinrental data or d-!s3ipaT'l-.n prjw~.,.r of tlr~lr- resistances of electric m2asuring inst-nmenta (under conditions T of free convection). Lzv.TPI !-'i7:2,'~-28 165. (M-TRA 19:1)  LYALIKOV,A.S.; ZAGROMOV, Yu.A. 1--, Free convectionall heat transfpr in a clos,~d during the displacement of the heat emission source. Izv.-T-PI 137s99-101 165. (MIRA 19t1)  L 3299Q.,,56- ENT(J) IN-4 ACC NR1 AP60149a4 SOURCE CODE: UR/0170/66/010/005/0577/0553 AUTHORt. ~Zajt ily nlikov, As So ORG: Polytechnic Institute im. S. M. Kirov Tomsk (PolitekhniAeskly Institut) TITLE: Free convective beat transfer In a horizontal cylindrical slot with a different position of the beaFevolving elp--.st OURCE: Inzhenerno-fiziebeskiy zhurnal, v. !~), no. 5, 1966, 577-583 OPIC TAGS: convective beat transfer, tbermodynamic analysis ABSTRACTt The basic elements of the experimental apparatus (shown in a figure) were: a thin walled polished and nickeled copper foil (thickness 0.25 mm), an electric heater consisting of a thick walled polished and nickeled copper tube. The surface temperature of the beater was measured directly by thermocouples welded to the wall of the tube. The convective beat transfer medium was air. All measurements were made under strictly steady state conditions. Based on experimental data, a figure shows the change in the dimen5lonless temperature for vertical and horizontal displacement# For purposes of comparison an exhaustive table shows relationships proposed by various authors for TIM t"  L 32998-66 ACC N" AP6014984 calculation of beat transfer in horizontal cylindrical slota. Finallyp a relationship is derived which is said to permit, with sufficient accuracy, calculation of beat transfer through gas and liquid cylindrical symmetrical slots in the range of 3 < log(RaS )f4 8. Orige arts has: 1 formulap 4 figures and I table. SUB CODE: -20/ SUBM DATE: 29Sep65/ ORIG REP: 006/ -OTH REF: 005  DBb ISOV, Nikolay Nikolayevich, polkovnik; ANDREYIV. Ye.B.. geneml-mayoi Inzhenerno-tekhnichaskoy sluxhby, professor, redaktor; ,f polkovnik, redaktor lzdatelletva-, SINTSOVA, Ye.H., tekhnaleakiy redaktor [In Jet aircraft) Na reaktivnykh oamoletakh. Moskva, Voen Izd vc Ministerstva obor. SUM. 1956. 165 p. (4 -9:7) (Jet planes) [microfilm]  LYALIKOV,D.N. ( Sods considerations concerning ~'Geographic atlas for secondarY school teachers* Book reviewed by D.K.Lialikov. Yop.geog. no-37: 212-219 '55. (HLRA 8:12) (Geography-Study and teaching) (Kolosovskii, Nikolai Mikolaevich, 1891-1954)  LUKMHOVA, Yevgeniya Hikoloyevna. LYALIKOV, Dmitrii Nik laialchi ZABIROV, B.Sh., red.; ;lIfiAsn"'Onev Ut7r.1"Le-Loue -- [Columbia] Kolumbiia. Moskva, Gos.izd-vo geogr.lit-ry, 1959. 48 --D. (Columbia) (MIRA 12:9)  LYALIKOV D.N. Some problems in the agriculture of Colombia. Uch.zap.MPI vol. 121:56-86 159. (MM 15:3) (Columbia-Agriculture)  BELOVt A.A.; BELOV, Yu.D.; BEZHETSKIY, AJe.; KUTIYAYEV, Ye.V.; gALILO~~ FMROVj III.S.; SLAVOROSOV, A.Kh.; BOLDrREVAj Z.A.~ teklm. red. [Concise mine surveyors' reference book]Kratlii opravoelmik markshaidera shakhty. lloskva, Gosgortakhizdat, 1962. 416 p. (MIRA 15:9) (Mine surveying)  I I a It Q If Is to It All -a- C. S - 11 7. 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