SCIENTIFIC ABSTRACT LISITSYNA, YE. V. - LISKA, M.

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SCIENTIFIC ABSTRACT
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6", ~_ 7 1 Some Observations Concerning the Chemistry of Ferrocene SOY/20-130-2-27/69 ing action of the alcoholate is based on its complex forma- tion with ferrocene due to the interaction with a cationoid Fe-atom (see Scheme), and -on an increase in nucleophilic capacity of the C5H 5- radicals. Thus, these radicals are adapted even more to the state of the C H_ anion. As is 5 5- known, a free cyclopentadienate ion reacts quickly under such circumstances to form a nitro derivative (Ref 4), The authors produced clisulfonic acid in a yield up to 80% of the theoretical one by sulfonation of ferrocene in acetic- acid anhydride at 00 for 2-5 h. Iron cations were, however, formed at the same timed The method of producing ferrocenal- dehyde worked out by the authors in 1957-58 proved to be more convenient than the methods described previously (Refs 6-11)~ Contrary to the assertions of reference 11, ethereal solutions of forrooenaldshyde yield a bisulfite compound. This was utilized in the authors' methods Ferricinium. cation deve- loped in the reaction', and the ring was decomposed. The al- dehyde was used to prepare several dyeStUfft~ Finally, the Card 3/4 authors describe their experiments Nrs 1-5. There are 11 6 73 7 i Some observations Concerning the Chemistry of Ferrocene SOV/20-130-2-27/69 references, 3 of which are Soviet. cheskikh poluproduktoy i krasiteley im. K. Ye. Voro8hilova (State Scientific Research Institute of Organic Interme- diates and Dyestuffs imeni K. Ye. Voroshilov) PRESENTEDs September 11, 1959, by A. N. Nesmeyanov, Academician SUBMITTEDs September 5, 1959 Card 4/4 ASSOCIATIONs Gosudarstvennyy nauchno-iseledovatellskiy institut organi- AUTHORS: Lyziks, A. I.P Usltsvr'v~' Ye. V., and Shisterova, Z. N. TITLE: Decomposition of Batches by -Rwion is Applicable to Folarographle Detection of Copper,, Zinc, Lead and Cadmium (Razlozheniye navesok splavleniyem primenitelino k polyarograficheskom opredeleniyu medi, tainka, avintsa i kadmiya) PIKODICAL: Zavodekaya Laboratoriya, 1957,, Vol. 23, No. I.. pp. 20-23 (U.S.S.R.) ABSkSAGTs The authors followed the method suggested by P. M. Isakov (1) for detecting the presence of Cu, Zn,, Pb,, and Cd, which consists of decomposition of the material analyzed with fusion with ammonium aalte. The decomposition required 5 to.Tminutes~ -Specimens from different Albiic enterprises were used and were previously analyzed by other means. Ammonium chloride and ammonium nitrate in proportions of 50:50 were found to give the best salt admixture, which had to exceed the analyzed material in quantity by two or three times. The steps of the analysis are described and illustrated by tables showing: comparative results by the acid and dry methods for,, respectively, Cu, Zn, 1b, and Cd. The final step in the analysis was the polarographic detection of the metals mentioned in the fused Card ;/2 Decomposition of Batches by Fuzion is Applicable of Polarographic Detection of Copper, Zinc,, Lead and Cadmium and decomposed mixture of the specimen and the salt. 1 Slavic reference. ASSOCIATIONs All-union Scientific Research Mining & Metallurgical Institne of Non.-ferrous Metals PRISFAM BY: SOWTTIDs -~Z7 AVAILABLIs Card 2/2 LYSMD, V.I.; LISITSYNA, Ye.T. Separation of gallium from other elements by the cementation method. Zav.lab. 26 no.2:145-147 '60. (MIRA 13:5) 1. Vsesoywny7 nanchno-iseledovatellakly gorno-metallurgicheakiy institut tsvetnykh metallov. (Gallium--Analysis) PEK A. V. Methods for studying joint tectonics. Geol. rud. mestorozh. 7 no.2: 80-83 Mr-Ap 165. (WRA 180) 89-8-14/26 AUTHORt KETRIM-MOSlI.B., LISIMPIAIZ.P. TITLEt Oi the Use of Scirtillation -.7ou-n-fe-r for D*simetry. (]FjkotorM voproey, svy-izanr3p !- pri.aerienlyem .3taintillatsionnyklt schet chikov v doxime+~.:ch4akikh priborakh) (Russian) PERIODICIALs Atomnsya Energiya, iol III, Nr 8, PP 157 - 161v 1957 (U.S.S.R.) ABSTRACTs The use of a scintillator with a connected multiplier in dosi- metric devices is to be recommended. The Russian multipliers FEU-19 and FEU-25 can be used successfully for such dosimeters only if it is possible, by some means, easily to obtain a stabil- ization of voltage. The scheme with the corresponding resistance- and voltage values is given. In the case of main voltage fluc- tuations of + 10% . - 15% the multiplication coefficient remains un- chgnged (up to + I %) if this so-called selfstabilization is employed. In order somewhat to compensate the disadvantage of the small photocathode of Russian multipliers, a cone-shaped light con- ductor, which consists of several cones tilesooped into one an- Card 1/2 .other, is used. On the Use of Scintillation Counter for Desimetry. 89-8-14t2D (Ifith 6 illustrations and 4 Slavic references) ASSOCIATION& Not given PRESENTED BYs SUBMITTEDs 5-7-1957 AVAILABLE% Library of Congress Card 2/2 1 LISITYN, A.I. Features of the prelW.naz7 appraisal of rare-metal granite pegmatites. Biul. nauch.-tekh. inform. VIM no.2:7-9 163. (MIRA 18:2) 1. Ural'skoye geologicheskoye upravleniye. VOLISKIY, V.G.[Voltslkyi, VJ1.3, ktind. gollkhoz. nauk, red.; IJSIY) G.B.(Ly--yi, H.B.], red.; KAMENEO, K.A., red. [Specialization of agriculture in Gliyany District; western forest-steppe] Spet8ializatsiia sillskoho hos- podarstva v Hlinianolkomu raiani; zakhidrjyi Lisostep. Wv, Derzhsil(hospvydav UR:.,?,, 1962. 159 P. (kIRA 17:9) 1. Naukovo-doshdrWy :WAytut zemlerobstva i tvar~wytstva zakh-,dnykh rayoniv URSR. LISIVONW, L.H. Zffect of environmental factors on theawylval of larvae of the Baltic herring; Trudy VNIRD 42:152-166 ,6o. (MIRA 13:9) (Baltic Sea--Herring) R02MKO, Aleksandr Prokoflyevich [RosWco, O.P.Ij krinimal uchostiye LISIT, LYS ELysyip I.I.J. IMRT.ASHCUTSKIT, T.K. [Khriashchei-elkyl, V.X.J, red.; GULMO, 0*1* [Hulankot Malt tekhn.red. Urattening cattle with the help of the tractor brigadel Vidhodovuiemo khudobu sylamy traktornoi bryhady. lyiv, Dersh.vyd-vo sillolkohospodaralkoi lit-ry URSR, 1960. 21 p. (MMA 14:1) 1. Pomoshchnik brigadirs vtoroy komplakenoy brigody po mokhani- zataii kolkhoza "Ukraina,O Velikovradovskogo rayons, Nikolayevokoy oblasti. (for Rozhko). (Cattle--feeding and foods) GCBBj T.V. (Horb, T.V.jo doktor aellelcolchoz.nauk; TMSHCAMO, 7.r., kand.biologena4k; B01AY-ITISKIY, O.T. (Bohaievelkyl, O.T.J, kand. vaterin.nauk-, POTMIMM, M.D.. [Pot lookin, R.D..)JAL-ademik; KKIGA, K.I. CiTnyba, M.1.1; POPOV. O.Ta., kand.sellskakhoz.nauk; KHMIK,.G.G. [Hmelyk, H.H.3, kand.sellskokhoz.uauk; SHRAM, I.P.. kand.sel'skokhoz.nauk [deceased]; KOPIL, A.M.,,kand.siellskokhoz. nauk;.TMTUTIN, V.K., Icind. eel I skokhoz.nank; 30:hMO, P.Yn., doktor' sellskokhozoauk; KROMIN, S.S., kand. eel Iskokhos.nauk; ZEMLTANWITO V.K. [Zemliansligri, V.MQ, kand. eel Iskokhoz.nauk; BORISIRO, A'*)L- [Borysenko, A.K3, kand.biolog.nauk;' ZARHAMMO, V.B., kand.biolog. nauk; SMIRKOV, I.V. (Smyrnov, I.V.J, kand.biolog.nauk; MMAEUSTOVSKIT, LIN [Khrabuntovs'kyi,*I.Fj, kaud.biolog.nauk; TORSITAMVSKATA, M.N., [Trostianetalka' M.N.]. ausistent; ALMSEKO,, P.I., inzh.; VASIL'Yxv, Tasylliev, OjF.:. kand.tokan.nauk; BUGAIWO, I.I. [Malenko, is'.]. starshiypre'podavatell; TRAMOMMOVA, 0.0., kand.ekonom.nauk; BUTKO, S.D., kand.ekonom.nank; TWJSHIK, K-Q. [Telashyk, K.H.], doktor ekonam.nauk; TAROSHMO,-V.b., kand.ekonom.nauk; LISIY, I.Y. [Lyayi. I.I.], red.; MOSHOKO, T.G. [I3roshenko, T.Y~J, te 2-R.'rRF. (Handbook for zootechnicians] Dovidnyk zootekhnika. 2., dopovnene i pereroblene vyd. Tqiv, Derzh.vyd-vo sillatkohospodaralkoi lit-ry 'uRsR, 196o. 728 P. (KMA 1512) 1. Veesoyuzuaya akademiya sellskokhozyayatvennvkh nauk imeni V.I. Lenina (for Potemkin). 2. Oblen-korrespondent Voesoyuznoy akademii sel'skokhoga en_ykh nauk imeni I.Lenina (for Kniga). tystv 'n Oak and stock bree MW" DYMARSKU, Leonid Abrartovich(Dymaral Ikyij L.A.), dots.; GOLUBU, Ivan Alekseyevieb[Holubiev,, I.0.1# dots.; LISlYp red.1 NEMCHENKO, I.Yu,,.t4kbn. red. [Veterinary bygiene)Zoohigiiena. Kyivo Derzboillhospvydav UR~R, 1960. 189 p. ~ (HIFA 15:22) (Veterinary hygiene) MWSHOV, N.P. Y1, W "JOW9 Practicea in the pa.,ment of waF ,,ea for finishmg work. Transp. -stral* 15 no.4:33-34 Ap 165. NMA IS: 6) Upravlyayashchiy trest(m Sverdlovaktransetroy (for Lisiyenko). 2. NaAallnik otdela truda i zarubotnoy platy tresta Sverdlovsk- transstroy (for Balashov). NEKRASOV, K.; KRIVITSKJY, M.;~~LST)P~V~O, 3.1 KRITSKIY, G,; ROMAN, P. Heat-resistant air-entrained concrete. Stroitell 9 no.10: 5-8 0 f630 (MIRA 16:11) 1, Nauchno-issledovatellskly institut betona i zhelezobetona (for Nekrasovv Krivitskiyp Lisiyenko). 2. Ust'-Kamenogorskoye stroitellno-montazhnoye upravleniye tresta Sayuzteplostroy (for-Kritski 3 Te,6irtauskiy zavod yacheistogo betona (for Royzman 5 130-12-1?/24 AUTHORS; Kokarev, N.I.J Candidate of Technical Sciences, ' LiElanko, Y.G., Goncharevskiy, Ya.A*,and Beloshapkin, V.G.-,-Engineere. TITIZ: Industrial Testing of Open-hearth Ports with Ejection of Hot Air (Promyshlennoye ispytaniye golovok martenovskikh tachey s ezhektsiyey goryachego vozdukha) PERIODICAL; Metallurg, 195?, No.12, pp. 28 - 29 (USSR). ABSTRACT: Recalling that 3-10016 decrease in tap-to-tap time and 4-16% decrease in fuel consumption had been obtained in 1953 at Magnitogorsk by ejecting cold atmosphere air into the gas ports, the authors describe more recent developments on the ejection of hot air. The idea of the new type of end (Fig.1) was due to the Ural Polytechnical Institute (Ural'skiy poli- tekhnicheskiy institut) and provideb for better distribution of combustion products between the gas and air checkers (a by- pass channel being provided), as well as increased gas velocity. The characteristics of the design were studied with models, the results also explaining the comparatively low effectiveness of cold-air ejection at the works. The new ends were incorporated in a 380-ton furnace at the Magnitogorsk Metallurgical Combine (Magnitogorskiy metallurgicheskiy kombinat), fired on mixed (coke-oven and blast-furnace) gas and provided with a magnesite- chromite roof. The bottom area was 73.7 m , the volume of the Cardl.72- - 130-12-17/24 Industrial Testing of Open-hearth Ports with Ejection of Hot Air air and gas checkers being 160 and 93 m3, respectively. The cross-section of the by-pass channels was 400 x 560 mm, the port opening being decreased. Tar nozzles were located at the gas slag ocket ends. Studies of the temperature distribution were madelpig.2) under various conditions and durations of the various periods of the process were measured. With compressed air at 2 atm. gauge, the efficiency of combustion improved and more even re-generator temperatures were obtained. A number of design defects were found:.difficulty of ins ection and clearing of the bottom of the gaw port and its replacement; tendency of dust to deposit in the by-pass channel. In spite of these and some operating difficulties, the fuel consumption when the new and was used fell to 110-115 kg/ton in.spite of a more rapid firing (up to 33-34 million cal/hour during charging). There are 2 figures and 1 tble. AVAIIABL11 i Li'zrary of Congress Card 2/2 - --- - - - --- - --- -- - - - - -- --- - - -- - - --- --- ---- --- - - - - - - - KDIURBV, N.I.,,doteent,.kand. tekhn. nauk; LISIYZBKO, V.G., inzh. Modeling the ports of open hearth furnaces vith air ejection into the gas passage. 1xv. vys. ucheb. sav.; chern. met. 2 no.4:101-In AP '59. (MIM 12:8) lXtal'skiy politakhnichookiy institut. Rekomandovano kafedroy gasopechnoy teplotekhniki Urallskogo politekhnicheakogo instituta. (Opeu-heafth furnaces--14odels) - , ~~ ;k LISIILM~ ~, inzh.; KOXAM, N.I., dote., kand.tekhn.nauk; TRM, B.G., prof;, doktor t ekhn.nauk Motion-picture pbotograpby of the fuel oil burner flame in open-heertb furnaces. Izv.vys.ucheb.zav.; chern.mot. 2 no.8:127-134 Ag '59. (MIRh 13:4) 1. Ural'-ikij politekhnicbeekiy institut. Rekomendovano kafedroy metallur'gicbeiklkh pechey Urallokogo politakhnichaskogo inetituta. (Open-bearth furnaces-Squipment md supplies) (Motion pictures in industry) SOV/133-59-4-5/32 AUTHORS: KoJ&rav, N.I., Candidate of Technical Sciences, Docent, Kapichev, A.G LisllyenJ~~~, Samenenko, P.P.., and Tyulebayev, V:6.;-Mg-ineers TITLE: Themotechnical Investigation of Cperi Hearth Furnace JBt Noz2les Injecting Air Into Gas Ports (Teplotekhni- cheskiye ispytaniya golovok s inzhektsiyey vozdukha v gazovyy prolet) PERIODICAL: Stalt, 1959, Nr 4t pp 306-311 (USSR) ABSTRACT: The results of experiments with various types of jet leswith injection of preheated or cold air are described. The designs of Jet,no=les tested are shown in Fig 1 and table 1. Hot air from regenerators was supplied through special flues lined with refractory bricks and is introduced into the port through a special tuyere mixer, as an injection medium compressed air was used. It was found that: 1) at a pressure of compressed air of about 2-5 atm. and its consumption of 330 n m3/hr, about 1650 n 0/hr of preheated air is injected into the gas port. This amounts to about 10% Card 1/3 of the total amount of air supplied to the furnace; SOV/133-59-4-5/32 Thermotechnical Investigation of Open Hearth Furnace Jet,Nozzles Injecting Air Into Gas Ports 2) during the period when 'the waste gas is passing through the gas port., the tuyere of the injector can pass from the air flue to the gas flue about 1200 n m3/hr of waste gas; this amounts to 5 to 7% of the total amount of the waste gas; 3) the injection of cold air into the gas port is accompanied by an increase (in comparison with-~'a Venturi type port) in the flame temperature at the-first doo:c of 20 to 250C while the injection of hot air - by an increase of 40 to 500C (Fig 2 and 3). This increases the flow of heat to thhe bath with cold air by 3% and with hot air up to 8c%q (at the first door) Fig 4. Simultaneously, the heat absorption of the bath also increases see Fig 5; 4) the injection of air into the gas port leads to a partial combustion of fuel in the port and Po a decrease in the proportion of not completely burned fuel (table 2); 5) when injecting hot air the dynamic pressure of the stream of gas at the outlet from the port increases approximately 1.5 times, The increase in the dynaLli- pressure and the temperature of the flumo leads to an increase in the flame velocity Card 2/3 see Fig 7; 6) with increasing pressure of compressed SOV/133-59-4-5/32 Thermotechnical Investigation of Open Hearth Furnace Jet NozzleB Injecting Air into Gas Ports air in the injector the static pressure in the E;as uptake also increases (Fig 8); 7) with the injection of hot air into the gas port the duration of heats decreases and the productivity of furnaces increases (in comparison v,,-ith operation with the Venturi type port or with the injection of cold air). It is cousidered that the experiments should be continued in order to establish the most rational placing of the injecting tuyeres to decrease d-ast deposit-ion in the tuyeres to a minimum.. There are 8 figures and 2 tables. ASSOCIATION: Urallskiy Politekhnicheskiy. Institut i Metallurgicheskiy Kombinat im. A.K.Sero-ra (Ural Polytechnical Institute and the Lletallurgioal Combine imeni A.K.Serov) Card 3/3 18.3200 77468 SOv/1 33 -6 o- i - 29/3C AUTHORS: :~isiyenko, V. G. (Engineer), Kokarev, N. I. (Docent, (1a-nd-iTa_E_e__oT-TWnical Sciences) TITLE: Metallurgical Power Engineering. Continuous Determina- tion of Heat Absorption by an Open-Hearth Furnace Bath PERIODICAL: Stall, 1960, Nr 1, pp 89-92 (USSR) ABSTRACT: Since no data are available on the practical application of a method proposed by G. M. Glinkov, "Regulation of Temperature Conditions by Maintaining Maximum Heat Absorption of an Open-Hearth Furnace Bath," Stall, 1958, Nr 4) the authors investigate a simplified method of continuous control.of heat absorption and efficiency in a 70-ton open-hearth furnace. Other participants in the study: D. K, Butakov, P. P, Babich, G. N, Nazarlyan, L. M., Mellnikov, et al. Continuous control is even simp-,-er in mazut-fired furnaces (mazut is a petroleum residue used as fuel oil) since gas temperature does not have to be determined. Optimal parameters of temperature Card 1/9 cond~ltions were determined in melting high-alloy steel Metallurgical Power Engineering. Continuous 77468 Determination of Heat Absorption bg an Open- SOV/133-6o-1-2a./3o Hearth Furnace Bath in an open-hearth furnace provided with a new-type chrome-magnesite suspension roof developed by A. P. Panarin. Hard charge was used and mazut atomized under pressures of 5.0-5.5 atm. Finishing temperatures reached 1,690-1,7200 C. Both backwall ports were equipped with stationary radiation pyrometers sighted on the uptakes. Screens and compressed air-blowing protected pyrometers from the effect of high temperatures. Data were recorded by electronic potentiometer EPP-09, and pyrometer readings verified by.water-cooled tungsten- molybdenum thermocoupleB introduced at a height of 1.5, m from the working platform. A linear dependence was established between the temperatures of the uptake walls and the combustion products with the former only 500 C lower than the latter. By substituting conditional wall temperati~re t. for actual wall temperature tw the authors established a direct relation between conditional Card 2/9 wall and air temperatures: Metallurgical Power Engineering. Continuous Determination of Heat Aboorption by an Open- Hearth Furnace Bath 77468 SOV/133-60-1-29/30 Aelc Card 3/9 where 1550 = conditionally assumed temperature at the beginning of ipeasuring. The total heat absorption or bath surface Q I was determined by approximate heat- balance equation of the working volume: a, = BQW((l q3) + Q,~,+ QCO - Q2 Q5 (2) and furnace efficiency by "I -911r- 1 (3) Q2 B~7' where BQ thermalload of' furnace, cal/hr; q3 = heat of incomplete combustion In fractions of calorific power of fuel Qw; Q physical heat of air, cal/hr; 1 Metc'tllurgi(,,al Power Engineering. Continuous 77468 Determination of Heat Absorption by an Open- SOV/1*33-6o-i-29/30 Hearth Furnace Bath Q2 = heat of combustion products, cal/hr; Qco = heat from complete burning of remaining CO released from bath, cal/hr; Q5 ~ thermal loss in working volume, cal/hr; q, = specific heat absorption, cal/M2 hr; J H = hearth area, m2 In calculating the hipat absorp- tion of the bath the following factors were taken into account: (1) predetermined losses of compressed air; (2) penetration of cold air*into the working volume; and (3) incomplete combustion. Total heat absorption calculated according to the heat diagram varied only 8-9% from experimental data. Card 4/9 D, w6ica L Powov J-;jq-j- It ei.~r Lti,--. Cwi i.J,r-j It ci It:, Determination ol~ Ik t A b: 1 o I., t Lo,, b.- -20v I ifeat-th Furr);.ic~, I.iati, Fig. 2. Changes J.n the heat aboorption of' bath ruv- nace, eN'Iclency 1-001' temperature (t roo f.); cliecl,01, tops (t ' ); comi.)Ustion;~ checker tops products (t combustion products air (T slag (t ); and air Slag metal (t metal during melting of high-alloy steel. f1w:o Card 5/9 1, MR. RIM- 'Metallurgical Power Engineering. Continuous Determination of Heat Absorption by an Open- Hearth Furnace Bath Aj .Ii Card 6/9 - e 4 C, P 0 l O)a i C 0 - "Olkv It are WX do 77468 SOV/133-6o-1-29/30 The effect of thermal load on heat absorption and furnace efficiency as observed in six melts is showm in Fig. 3. Heat absorption,was also studied with a view to preusure under the roof and coefficient of excess air. -~ ~01 14 X XX X I 1 -1 - f 1, ///V IZ490 OW 11/09 fill I/M Ir ^ ~7 7 -5t- 0 US 00 0 0 1 , X 0 I- 0 0 2 A LI W, //#/I f2eff 1304? 11jog fjaa ri (cont) 1 0 M(Aallim-giclal. Po'wer Enjj-iwcr--Lnj,-,. CoritIntioito '1"7468 Determination. ot fk!at Abmrpt;lon 1),y an Op-,n- 1,)()V/133-6o-l-29/,:)O Ifearth Purnace Path FiE.,,- 3. Heat absovptlon and furnace efficiency vuruua theriml load durinc, melting,: chare-,ing; (b) molun (c) slag adjuotment; d o VT n; (d) pure boiling; (e) do- oxidation and alloying (a = melting at; regular temperature rateo; b = = Dame, but improved tem- pei-ature rates), r, hejt ab3orption, 1,000 Cal/ni'/hr; h t~ermetl efficiency., %; I. mazut consumption, IcS/hv. x 0 '-o< /S I 0 /S17 Card 7/9 MO Ica I'm ex AT Metallurgical Power Enrineering. Continuous 77468 Determination of Heat Aboorption by an Open- SOV/133-60-1-29/30 Hearth Furnace Bath The h1ghest rate of heat absorption was found to occur at mm water column and a coefficient of excess air of' 1.20-1.25. The authors divide the finishing period into the following stages. (1) At the initial stage forcing temperature conditions improve slag formation and accelerate the passing of impurities into slag (see Fig. 3b) despite reduced furnace efficiency (from 20 to 25%). (2) Maximum thermal load (1.2.0 million cal/hr) is maintained since metal heating occurs within the 1,690-1,7200 C range. (3) The thermal load of the standstill period Is used in deoxidation and alloying (see Fig. 3d), The thermal load which corresponds to the maximum heat absorption by the bath is almost identical in charging, melting, and initial finishing, and decreases to 12 million cal/hr during boiling. The peak of heat absorption was observed during charging and melting down (see Fig. 2). A com- parison with gas-fired furnaces shows that In melting high-alloy steel. in mazut-fired furnaces the tempera- Card 8/9 ture of' combustion products to 50-700 C higher than in Metallurgical Power Engineering. Continuous 77468 Determination of Heat Absorption by an Open- SOV/133-6o-i-29/30 Hearth Furnace Bath 200-ton and by 100-1500 C higher than in 350-ton gas-fired tilting furnaces toward the final melting- down and in the middle of the finishing period. In conclusion, the authors suggest the use of a photoelec- tric pyrometer or thermal probe which does not soil as easily as radiation pyrometers (by slag) and produces more reliable readings. There are 4 figures; 1 table; and 10 references, 9 Soviet, 1 U,K. The U,K, reference is: R. Barber, D. Meachen, W. Bateman, journal of the Iron and Steel Institute, Vol 185, P 3, March, 1957. ASSOCIATION: Ural Polytechnic Institute (Ural'skiy politekhnicheskiy institut) Card 9/9 LISIMMOt-M.9 inzh.; KORAREV, N.X.9 kmd.tekhn.nauk; KITAIEV9 B.I.; prof.. doktor tekim.nauk S-cme regularities of fuel combustion in open-hearth furnaces. Stall 21 -DWA 14:3) 1. Vrallskiy po3itekbnicheskiy inotitut. Open-hearth furnances-Combustion) Air KOWEV, IN.I.; LISIYWO, V.G. Investigating the f2ame jet in the open-hearth furnaces of the Hagnitogorsk Metallurgical Combine. Izve vyuo uchebe zav.; cherne'. met. no.2:17�-180 160. (MW 15: 5) 1. Urallskiy politekhnicheskiy institut, (Magnitogorsk--Open-hearth furnaces) ---- IAMI LISIYENKO, MA KOKAREV, N.T.; KITAYLYS B.I. Application of the laws of the aerodynamics of free'flow to calculate the length of a fuel spray flame. Izv. vys. ucheb. zav.; chern. met. 4 no~8:149-157 '61- (MIRA 14:9) 1. Ural.'skiy politekhnicheskiy Institut.' (Gas dynamics) ~Combus'tion) 7~---717717- 7, Kill LISMNKOP V.G. inzh.; KMYEV, B.I., prof., doktor tekhn.naak; KOWEV, onto, kand,tekhn.nauk Investigating elements of design of high pressure burners for open-boarth furnaces. Stall 22- no*4.'357-362 Ap 162. (MIRA. 15:5) (Open-hearth furnaces.-Design and construction) POLZUNOVp AA; KITAYEVp B.I.; DEMIDOVICH, A.V.; qg~ i KOKAHEVp N.I.; CHZRNOGOLOV, A.I. Results of research on the efficiency of a mazut flaw jet. Izv. vys. ucheb. zav.; chern. met. 6 no.10.-139-148 163. (MIRA 16:12) 1. Urallskiy politekhnichaskiy inatitut. ., V. G.; KUAARFY, N. I.; KITARV, B. --'. LISIYENKO Controlled high 3prtq, turner -VAIi f i tenting it In an op&i horty-Lh Purnue" ljw. Vy"Ja zftvs; cheryt. met. 7 nr,.'L.'2-.'1ZI-134 164 (MIRA HBO) .,~-j 9 4 1 +,_11-.. I 1. UrAiltskly poilteklinicheskly I CHERNOGOLOV, A.I.;__LISIYENKO,-V.G.; KITAYEV, B.I.; KOKAFEV, N.I. Investigating the burner flame In an open-hearth furnace by an improved method of fun radiation. Stalt 23 no. 3:276-279 Mr 1644, (MIRA 17:5) 1. Inatitut metallurgii, g. Sverdlovsk, i Urallskiy politekhnicheakiy institut im. S.M.Kirova. KAPICHEV, A.G.; J.L~ ~rNKO ~V.G,; KOKAREV, N.I.; KITAYEV, B.I.; SEWNEITKO, P.P.; MI'VIN, V.B. Investigating radiation characteristics of a flame undei various methods of burning mazut in an open-hearth furnace. Stalt 24 no.11: 1046~1049 N 164. (MIRA 18:1) 1. Ural' skiy politekhnichesl iy institut im. S.M. Kirova i Metallur- Iricheskiy kombinat Am. A.K. Serova. M, 0 -3 ~#", KOKARF,V, f1.1*;,,LISIYENKO V.C-.; KLIVIN, V.B. Investigating ~ vr-lth the use of ejection device modelB, thr-es-channel portn in open-bearth Airnacent lzv.vvs.ucheb.zav.; chern met. 8 4 -177 165o 1838) no.6,17D .1. Urallsk-ly polltekhnlch-iski3r .1natitut. LTSU, A., #zo-'l HQU9 Jo) inze Vat air filter for compreosorn. StroJirenstvi.13 no-5: 387-389 MY '63- 1. Cesks vyacks uceni teahnickep Praha (for Liska)s 2.,Statmi. ustav dopravniho projaktovani (for'Hara)ffi CIL a .. I* I- LISUp Antonin Iddrease of labor productivity by introduction of automation of molding. Slevarenstvi 9 no.3-1:4.15--416 N 161. 1. Moravakoslezeke elaktrotecbnicke savody, Vsetin. (Molding)Fomding)) (Labor productivity) 14 LISKA, Antoninj inz. Determination of the volume loss in air piping. Energetika Cz 13 no.lOt522-523 0 163. 1. Strojni fakultal Cerike vyeoke uceni techniokep Praha. LISKA, Eupen suRwm,, G:Lven Names Countrys Czechoslovakia Academic Degreest. vfD District Dispensary (Uovodna ambulancia) Dobaiz)a liation: AM Prague, Pralctiaky Leker, Vol 41, No 15-16, Aug 21p 1961; pp 729. Source: DatNLaphyleatic Shook After Administration of Procalne Pehilillin" F Ut I,16iiA, F. ; QHYLIK, F. AGRICULTURE PERIODICAL: ZEMEDELSKE ST110JE. VOL. 2, no. 3, Mar. 1959 Liska, F. ; Chylik, F. Results of tests of efficiency in factories for the produc- tion of agricultural machinery. p. 241. Monthly List of East European AccessiorV, (EEAI), IL) Vol-'8t no. 5, May 1959,Unclass. HOBST., L., inz.., dr,; LISKA F.- ZAWN, Z., inz, Assembled prestressed water-tank with 400 m3 capacity. Vodni hoop 13 no#2:75-78 163, 1. Vyzkuthny ustav stavebnictvi, Brno, SRG,GL 5; J.- LISKA, F. Experiments in the furan series. Ft.l. Coll C.- Chem 29 no.5; 1277-1281 My 164. 1. Institute of Organic Chemistry, Higher Schcol of Chemical Technology, Prague. FOFCT, Leo!:., dr. inz.; LISKA, Frantisek, inz.-, ZALMAM, 'Zbysek, --'nz. Experience in the experimentaI buildIng of n prefabrlcated prestressed water re5ervo--Ir. Inz a'.-avbv 12 -Ja!64. 1. Vyskumny ustav lnzinierskych stavleb Bratiealva, pracoviste Brro. LISKA, Frantisek - t. , .. Use of coupled screw jacks in lifting road bridges. Inz sta71ry 13 no-4-Suppl:14echanizace no.4:56-57 165. 1. Research Institute of Engineering Construction, Bratislava, Worksite, Brno. LISKA, Jaromir Danger isignals for rai2way-traCk workera. Zel dop tech 3.1 no,.4*. 212-3.13 163. WMER, R,; LISKAp J.; DOVALp P. YhUgnant neoplasms as cause of death in the Czechoslovak Socialistic Republic during the last decade. Neoplasma 10 no.3:309-321 163. 1. Oncological Research Institute., Bratislavaq CSSR. (NEOPLASMS) (STATISTIGS) LISKA, Jaroslav; BLAZU, Stanislav Operational properties of induction crucible furnaces for aluri-- imm alloy melting. Slavarenstvi 11 no.8/9:404-405 Ag 163. 1. Ceske zavody motoeyklove, Strakonice.. 5/262/62/000/021/001/003 E194/E435 AUTHORS: Liska, Jir"~; Mikula, Jiri .TITLE: Operation of.a steam-power installation v~ith combined heating using nuclear or fossil fuel -PERIODICAL: Referativnyy zhurnal. Otdellnyy-vypusk. 42. Silovyye ustanovki, no.21,-1962, 16, abstract 42.21.57 P. (Czech P~t.*cl.14h, 1/14, no.100428*. August 15,.1961). TEXT: Three schematic arrangements of 'a'steam-power installation are described and a method of operdtion is proposed using either nuclear or fossil fuel. Raising the heat content of-the steam by energy from the nuclear reactor is.accqmpanied by the utilization of heat of ordinary fuel, or fuel mixtures burnt in the t~irbine. Thesteam-power installation circuits which are' th~ amount of equipment used, and its patented are noteworthy for complexity; it coniists of' a nuclear reactor and cooling system, a two-stage axial compressor, a turbine, sys-tems of coolers, condens6ra, regenerative feed water heaters and generators. The op erating principles of,nuclear power units are.described and they Ca*'rd 1/2 S/262/62/000/021/001/003 Operation of a Bteam-power E194/E43.5 are compared with steam, gas a nd steam-air sets. 3 figures. LAbstracter's note: Complete translation Card 2/2 LTSKA) Jiri,, dr. Research and development of vapor hygrometerer. Zdravot tech 6 no,62270 t0e LISKh, Jiri, RNDr; MIKULA, Julius, doe. inz. dr. Mathematical model of heat networks. Energetika Cz 14 no.10:473-477 0 164. 1. Research Institute of Power Engineering, Prague. ODeterminatics of the Witding Coefficient in Fractioned Piteb Winding" p. 379 (Ad& Technika, Vol. 5, No. 3, 1952, Budapest.) East European Vol. 3 No. 3 1954 SO: Montl List of A444WAccession4s,, Library of Congress, marell AMA, Uncl. E, winatios of do fww tjj frdowd number at SION "goo ON od" isocisi same M 45, 32, * No' 10$ pp' 16 oflgpw)o i Tho windh* hobor Of a W" few 00 ~~[ obf number of 010" 9 c a n b Toomdool, Absto of distribOl CUM - the I sew is Ido*d Viek Vat of a Vol 0 5 100 1953 Tbd U011 f where 8 .Can t be wn a wbok number o(d* Per t=, 40 1= W nunjo-ator bf lew ftictio q - pused furtw. Tw chwd CMf Of M -with the acjgu;dilioc~_ deber- 16yes, wWft wort be ho,rever, that of a iiaw cue a& ttA bub Of occowring I Inined indMduall &W overy por the 11505t =t'7 in tho-vAuced slot sc sms- ad M - 4- tb* 0"d cas" 0( x wh1we l, is the pbjm d'--'--* radians, T. ~7,19;1 t I --- . I behmon 1,4 ~aolggi-Z* 9 .law, 4F, m m The 100th birthday of the engineer,. Dr. Engelbert Arnold. p. 287. Vol. 49 -No. 9 Sept. 1956. ELEKRMUHIKA. Budapest, Hungary. SOU=: Fast European Idst, (EEAL) Idbrary of Congress Voi. 6, No. i January 1956, LISU, J. On the notch sloping of asynchronous motors. In Geman. p. 79. PERIODICA POLYTECS41CA. ELECTRICAL ENGINEERING. (Budapesti Muszaki Egyetem) Budapest, Hungary. Vol. 3, no. 2, 1959. Monthly List of East European Accessions (EEAI) LC. Vol. 8, no. 12, Dec. 1959. Uncl. N LISKA9 Jozsef Excitation of synchronized induction motors. Huszaki kozl XTA 23 no.1/4z27-38 96o. (EFAI 9:7) 1. Lev.tag, Magyar Tudomanyos Akademia, Budapesti Muszaki Egyetem, Vi2lamosgepek es Meresek Tanszeke. (Zlectric motors) 7,T,qKA J, J0280f, dr. The 7' 56-Year-old traneormar. Elektrdi;()Ihni kq 54 mo.3 M-202. 161. LI (A j Jozek, Anz. I Tubes for connection of cable cores. Cs spoje 9 no.3:10 Je 164. ~ : - '. - -, n~,,2 E-,', ~ ~ -, ' ~ - 1 ~ -,-z ' . . . LISKA, Jiri Adhesives based on polychloroprene latices. Kozarstvi 15 no.205-58 F 165. 1. Research Institute of Rubber and Plastic Technology, Gottwaldov. LI SKA, J. r-"WOMPAWAMOR Preliminary investigations on smallpox vaccination in 1950. Cas. lek. cesk. 89 no.50:1414-1416 15 Dec 50- (CIML 20:4) 1. Biogena - National Jhterprise Factory for the Manufacture of Serum and Vaccines. (HesA-L. Micochova, M.D.). LISU, Josef, MUDr I r- Contribution to.pediatric traumatolog7. Cask.pediat. lo no.4-266- 272 M&Y 55- 1. Biogena, Praha ni. (WOUNDS AND INJURrAS, in infant and child) LISKA, Josef, MUDr. Reactivity to trichophytin. Cesk. derm. 31 no-5:276-279 Oct .56. 1. Biogena ni p., Praha, reditel MUDr. L. Mlcochova. (TRICKIPHYTOU. trichophytin, reactivity to (0z)) 'SK,,A,3-,EXC""IFTA IIEDICA SaC.16 Vol.6/5 cancur 22oi. The Irealynent (If eancer nf the skin Unscre Erfahrungen ruit der Anwendung verschicdencr Heilmethodca des 1-fautki-ebscs. UiKA T. and BALA2 V. Ki-clAbrsch.- I mt., Bratislava Neophunia 1957, 4/ 1 (53-64) '0 Acs 3 IAperiences with different methods of radiotherapy, survery, chemotherapy and combinations of these methods on 496 patients during i ().lfi- 1955 are presented. The best. results were undoubtedly found with fractionated contact therapy (Chaoul', dosage 7,000-8,ooo r., cured 94.82%. ThC Cfl*CCt of podophyllin treatment wa , satisfactory (approx. goO/',, cured). This therapy, however, was only successful in selected cases who had superficial skin cancers, mostly basal-ccll tuniours. Alto- gethcr, out of the 4( atients .)6 patients treated with different method (91-87% s 452 p. were cured and 44 (9-13%) not cured. Jacobson - Kingston COUNTRY : v,,%,, La -. CATEGORY 4 Gsne r: a 1 1-1 F- e r izj, ABS. JOUR. f RZ111fliol., No. 23 1958, No. AUTHOR rNST. TITLS Articlo C.. Frc ORIG. PUB. C&E-op.lek-ru lsskyo',,l!~r-FFk e-7 AB3TRACT Card: LISKA, J.; SANDOR, L. Skin manifestations In the course of leukaemic diseases. NeoplasmalBratiol.8 no.l.-63-70 #61. 1. Oncological. Research Institute, Bratislava, C.S.S.R. (LLVMIA diag) (SKIN pathol, KONIG, Jiri; SVEHL&, Ctirad; SPANKOVAP' Helena; MISMOVA, Miloslava; Statis- ticka.zhodnoceni LISKA, -Tiri Changes in the white blood picture caused by withdrawal of the blood speoimen.-Cavj,Lek. Cesk. 101 no.14:444-446 6 Ap 16~.. 1. Interni.katedra Ustavu pro doskolovani lekara a Vyzkmmy ustav experimentalni terapie v Praze, vedouci katedz7 a reditel Vyzkumneho ustavu doe. dr. 0. Smahel. DrSc. (IZUKOCrTE COUNT) SARI, A.; ;~q~~;JUDIN, J. Gastria melanoma metastases caused by exroderma pigmentosium. Neoplasms, 10 no.6t641-650 163.~ 1. Onkologischea Forschungsinstitut, Bratislava, CSSR, IaMy 3. dr, Ibeign of a calmlation model of heating aystems. T&avot tech 7 no.It" *64 I ~=:-A VC1 ,,,'7--C.-mcer-Xa_r&_ %I ni A-ium.yur in tht left frt-nt~j! reirien, dc--! v-'. I I Yei"~-q -van 6 law rat jw tittgan to 5, the mtmf soi - - ! I Tic. fl MA Iluliflis after opirrAtion. The p ^I -till kricill OJIM pa 0-s" I examitiation showed a IaNrc t1*41TIOUr desirtwing the Jima will second sarral verw1wac. histakigy-of the uwral tuligifKIt, Wai i&, ical, Wijjk live at the LdICA Xr, K R., I. Path. J=mat~. atTs ~,MKU Praba. *Spravne, prehl4dnute" a mylne dingnosy, Jej1ch U 0 pit~Z -0 castost a i:apoznAnim. Correct, missed and wrong diagnoses, their frequency and comparison with autopsy dv-gnoses us. LEK. FES. l9r-4, 93/14 (345-355) Tables 4 In 1,000 autopsies from several clinica the clinical dingnosis had been correct in 31.8%. almost correct in 52%. inadequate in 12.6% and wrong in 3.6%. Border limits of Inadequate and wrong diagnoses together were 7 and 31%. It ic felt thAt if the upper limit is 10%.it may be considered as an excolent result, ont.the other hand, 20% lower limit means poor diagnostic quality. Sikl - Prague 80: Xxcerpta Medica Section V Vol. 7 No. 10 ia*kk-d1kftnWIt(aaiLffUj'7ith qu ercefln., "Kaid V.P' -.-LMM (Vftkum0-&wv koW, Panenskk BrezanX, %-;Zecn.); %--I MWO a" tormation 04 a yenow color of Sn(IV) with quer":4171) in an acidie soln. wag used ior the colorizoetric detn. of Sn in brass, bronme. and corn. Cu andIn. "The-detn. is disturbed by large tunts. of Sb. BI, and,P..'. Decc4np. 0.1-1 C-sainple with a'little HCI in the p"mcc of I NaCI imd 30% II.Oj, neutralize a i the. first turbidity ll 91,~,u,,'A Ih 2-75N N1140H UtItil -1 ILCI (d. 1.04). '.4t 6, turbldity with a droo t, forms and add 5 ml.'mort of ihe a6d, mask the Cii and,fte(Ill) with vislight excess of 10%'ari. C, NH%),, udd4ml. Old solts. contg. 0.2 g. I in 100 t4;:-0'4qI% VtOll. 25 p1. 061% MOR, dil. to 60 ml, aud trt6aure'thc ahsorptio4 with a Violet filter. M. I lUdIiFkL- IV CZECHOSLOVAKIA Human and Animal-Morphology (Normal and Pathological). Nethods and Appa- ratus. Abs Xddr: Ref Zhur-Biol., No 171 1958, 79016, Author :-L-16k n. Inst :6NA~giyo Title 9ea6oni,~for':the-*Appedrdrjce of Artifacts in Frozen Tissues. Orig Pub; Univ. carolina. Med., 1956, 2, No 4, 455-462. Abstract: During the slow freezing of fixed or unfixea tissue a rupture of the cellular structures is cau;ed by ice crystals. During rapid free--- zing (-600), fine crystals appear that do prac- tically no harm to the tissue. In winter, it is necessary to avoid freezing of fixed material, Card 1/2 Li si