SCIENTIFIC ABSTRACT ANDONOV, G. - ANDONYEV, S.M.

CHETRAFILOV, D.; OBRHYKOV, Lei TANKOV, Iv.; ANDONOV, G. A case of a large solitary calcified renal cyst. Ehirurgiia (Sofiia) IS no.5t599-601 165. 1, Okryzhna bolnitsa, Fazardzhik (gle lekar St. Stancher).  ANDOR Jozsef- HETM Sandor Construction of concrete strip roads.' Erdo 11 no.10:465-468 0 162, 1. Delsomogyi Allami Erdogazdasag fomernoke (for Andor). 2. ~blyepitesi eloado, Delzalai Allami Erdogazdasag, Nagykanizss. (for Demeter).  ANW,v M. Data on the temperature of sandy soil; P. 230 IDOJARAS, Budapest. Vol. 59, no, 4., uly/Aug. 1955. SOURCE: East European Accessiona List (EFAL), LC, Vol. 5, No. 2, February 1956  SUBOI Lauzlo, dr.p foiskolai tanar; LANG, Sandor, egyetemi docens, a foldrajztudomanyok kandidatusa (Sze&ed);,ANDO,_nhal dr. j4 Report on the work of the Szeged Section. Foldr kozl 10 no-3:303-304 162. 1. Magyar Foldra4zi Tarsasag Szegedi Osztalya elnoke (for Lang). 2. Magyar Foldrajzi Tarsasag Szegedi Oo$talya tarselnoke (fW Szabo). 3. Magyar Foldrajzi Tarsasag Szegedi Osztalya titkara (for Ando).  OR ANW, Mibal7, dr. Hicroclimatical temperature variations of a sand surface under various weather conditions. Foldrajoi ert 10 no.1;1-22 161. 7  KMASI ~ K.(Hayashi, K.7; ANDO f KDIURA translator); Z~ ~..A. e.T~;Inulatorj; IEVIN,, L.Z. [tranalatorj; PASHKOVSKIY, A.A.[tranalatorl; SKIPJ40V, P.I., red.; BUKOVSKAYA, N.A., tekhn. red. [ordnance rockets and Japan; military bases are a war threat) Raketnoe oruzhie i lAponiia; voenrqe ba2q - ugroza miru. Vatup. statlia, i kormentarii, B.G.Sapozhnikova. Moskva, Voen. izd-vo M-va obororW SSSR, 1961. 246 pe Abridged translation from the Japamess. 1. Tokiyskiy universitet (for Ando). (MIRA 15:2) (Japan-Rockets (Ordnance))  ANDOWSEK, M. ANMDLJSEK, M. How to reduce construction costs of electric-power plants. p. 8789 Vol. 101 no. 6, 1955 TEHNIKA BeoCrad, Yugoslavia So; Eastern European Accession Vol- 5 No- It L956  .APOtl~,_.q~,PASMOVSKIYp 3,1 Prini-11 uohastiye: BARBOS, V... nablyudatell; MIKUY p M. , nablyudatel $,- POPA., Sh.. C Pops, S. , nablyudatel I Wintering of water birds and pome other birds in the Danube Delta in 4~58-1959. Migr. zhiv. no.3:n8-125 162. WRA 16:2) 1. Leanoy nauchrio-isaledovatellskiy institut Rumynskoy Naroduoy Respubliki. (Danube Delta-Birds in winter)  m ANDONE,--I.on Increase of salaries for oil and gas workers. Petrol, pi gaze 14 no.2:101-104 F 163. t . - - - . *- F - -r; - , 11 Z-  ANDONE, Traian Real support for studying and extending advanced methods and initiattrds of work in agriculture. Manca sindic 6 no.lOt23-26 0 162. 1. APtivist, Seotia Eoonomica, Consiliul Central si Sindicatelor,  SD4Icmcup T.j ANDONIAN, M. Nterminant faotors in the synthesis of p 0'-diolrydiphenylpropane. Rev chimie Min petr 13 no.61340-344 Ja 1u.  ration ~in] :7.cch-!rdual anr! ch,-,:Ilic~ll Li ~ t of 1'. c I  RMWM/Memical Technology.. Chemical Products and Their Application. Part 91 - Citenies. Glassi Binders. Concretes. 4 Binderej Cdiiaretbd WA Other Sili- cate BUildi4 Materials. Abe Jour: Rererat. Zhurnal Xhimiya, No 21, 1938o 71595- Author M. Andonie.. Helmut Voinea. inot Title To the Question of Preparing Acid Resisting Concrete. Orig Pub: Ind. coastruc~iilor ?i mater, constr., 1957, No 11, 6".654. Abstract: A review of vork carried out by the building trust in order to inquire into the possibility of prepar- ing acid resisting concretes by the method of treat- ing vith SM in autoclaves. The preliminary Isbora- Card 1/3  ANDONOV, D.- ARABADZHIEV, S. Dimitur Blagoev and public health. Suvrem. mad., Sofia 7 no.9:99-102 1956. (PUBLIC HNALTH contribution of Dimitur Blagoev in Bulgaria) (BIOGRAPHIES Blagoev. Dimitur)  ANDONOV, B. The public health policy of the Bulgarian Social-Nmocratic Labor Party in lmmi elective institutions from 1910-1915. Nauch. tr. vissh. mad. inst. Sofia 41 no.6:69-82 162. 1. Predstavena ot dots. Gr. Vskilov. (PUBLIC MUTH ALMINISTRATION)  ANDONOV,j G. "On the condition of industrial safety and illnesses in mining and metallurgic enterprises." p.9 (Minno, Delo, Vol. 128 no. 1, Jan./Feb. 1957s Sofiiap Bulgaria) Monthly Index of East Biropean Accessions (EFAI) LCp Vol. 7s No. 8, August 1958  KURSHEV, Iv.; IVANOV, D.G.; ROKOV, (h.l.; ANDONOV G V Preparing anuonixim chloride by beating a mixture of hard ammonixun sulfate and hard potassiun chloride. Klim i industriia 36 no.7: 247-250 164. 1. Chemical and Technological Institute, Sofia (for Hurshev and Ivanov).  AIWINOV, F. "The Vasil Lavski Prif.,,ade Fade up of Efficient YounU Yen of the Anthracite I-Ane at the State Fining Enterprises", F. 28, (I'T'71,10 DFIk, Vol. 9, Yo. 2, Feb. 1951ft Sofiya, a-.Igarla) SO: Yonthly Lirt of East Evroye8n Accessions, (17FAL), LC, Vol. 4, '7o.1, Jan. 1955, Uncl.  ATI!T)OI,OV .1 K. 661!.~o n Advpncement in DrivInj- of T`renrlrator~ 0:11lerios in Onn. Month. Mnno Dolo (Mininc), #5:92.- Soot-Oct 55  .%'T-X)'N,0V, K. Anerican Monopolies Disorganize the Ecnnomy of Canada. Kinno Delo ~'MinlnF), #5:103: Sept-Oct 55  Brief Information, Minno -)elo (Mini-nr), #5:1-~)5: 55 t 'A.Da!L~,E~ U:La'  ANDOMN, K. I- . . . I . ... ~ ~ I ~- i r4. j ~ '. - , -! I , . New Rooks: I'Ventilatini of Mines" ind 'Water Drain,3re of Mine-;" I Minno Delo (Mini.nFl, #5:10P: Sent-Oct 55  AIMMOV, F. Articles on ti-e Illninf- Industyn,-, Published in t~,e Soviet Fress. V4-nno Delo (Yining), #5:109: Sent-Oct 55  A~~,Y,!'PVIS Y. 1-nn4.rp "echnics Exl-ihited at the P7ovdiv F-I.r. Finn(- Delo Tin;nf-), L J115:110: Sent-Ort 55  UGFORGI~',V, e~fon; ANDONOV, NIL.". r E,~b-l&; in F.r:qults from ',h,3 t3tt(P..- cit :jcrT~-- t~.c n( 0,11'l.'U-1230 163.   ANDONOV, P,--IVANOV, N.; RANGELOVA, St.; NIKOLOVA, Z.; RUSAKYEV, M.; GROMKOVA) R. The use of serological investigations in studying the epidemiology of some virus infections in Bulgaria. J. h3rg. epidem., Praha 5 no.2: 146-152 161. 1. Scientific Research Institute of Epidemiology and Microbiologyp Sofia. (VIRUS DISNASES i=unology)  ANDONOV _F,; TEOKIIAROVA, M.; BRADVAROVA, I.; RAMCHOLEV, I.; SJIUMKOVP STOYANOV, N. Study of the etiology of infectious hepatitis. Vop.med.virus. no.91l6-23 164. (MIRA 18:4)  UZTJIIIIOV;G.; SHLIBLADZE BOZJOOV~S.- GAIDAMOVIrIf. Apopos ~,f' ent, ephai it J~ ti Im Rulrmria, Grupa po nevr~-l:~C,.`a nn nau~-'t8 (rukovodite'i G.Uz,.mo,.r),. Ka~~,,ira yc, nevro.iqa. Al pr ViE.9111 !a medit-3ins-ML 1!1,3* j4 S.) fla Laboia"Dr:*,-A'a za insti-tut 'D.1.1~-anovsk*o-`, Mosk--*a '~ Laborator.Ua za vIr-j~:an-' vn-qfal~i:'. 1)r,' I:IEM. S-,~!-,a (i,u.K,- voditel P.Ando-,ij;-).  ANDONOV, P. "Urgent Problems Before the Sqnitary and Antiepidemic Service. r). 3" (ZDRA7NO DEW) Vol. 6, No. 3, June 1952, Sofiya, Bulgaria SO: Monthly Ltst of East Eurorean Accessions L. C., Vol. 2, No. 11, Nov. 1953, Uncl.  "Joint Eectin, f Clinicians !tnd Epiderniolo,;i3t.s FlioNT', '4o. 5k), Dec. 1954, Sofiya,Bulgar,Z* SO: Monthly List of Fast European jiccessions, (EZd,), LG, Vol. 4 No. 5, Nay 1955, uncl.  RUSAKMV, M. [Rusakievp M.); ICMUSTOVA, T..- AMONOV) P.; PRODRtWd7., A.) I.; GRYBCHAROV, K. [Gruw ?A'CHEV, S. PMM Studleo-of the serum of some migrant birds in the presence of antibodies 04hatralizing the West Nile virus, Trudy epidemiol mikrobiol 8:139-3.41 161 [pabl.162]e*  ANDMOVY Pq Current problems in virology. Suvr. med. 14 no.10t"-58 163,  UZUNGVp G.; SHUBLADZE, A.K.; BOZHINOV, S.; GAYDAMOVICH, S.Ya.; ANDONOV P.; GEORGIYEV, L; OBUNHOVA, V.R. Am" Etiology of progressive byperkinetic encephalitis in Bulgaria. Zhur. nevr. i psikh. 64 no.3:346-350 164. (MIRA 17:5 1. Nevrologicheskaya i paikhiatricheskaya klinika Vysshego meditsinskogo inatituta (Sofiya), Laboratoriya sravnitellnoy virusologii Instituta virusologii im. D.I. Ivanovskogo MIN SSSR (Moskva) i Iaboratoriya virusnykh entsefalitov Nauchno- issledovatel'skogo instituta po epidemiologii i mikrobiologii (Sofiya).  RUDIANIA 576-312-38:576.a.093.35 i n 0 and-DUNDAROVp B., of the Institute of Epidemiology and ;logy (Institutul de Epidemiologie si Microbiologie), Sofia. "Methods for the Prepaxation of Clones of Cellular Lines on Primary Cultures!of Human Embryonic Fibrobiastq,~' Buoharest, Studii ei 09rostart do Infromiorobiglog Vol 17, No 4, 66, pp 269-273. Abstract: The authors describe a technique for prep ing clones ~f_Yiumaft abd animal cellular lineb by'growing on a substrate con- rimary culture of human embryonic fibroblasts. Since sisting of a p living cells amused as substrate, favorable conditibns are ob- tained for the 4velopment of clones over a relatively long period. The method deser bed is simple and can be used iri any;laboratory. Includes 2'figures, 2 tables and 2 references, bf which one Russian and one American. -- Manuscrip~ submitted 20 October 1965.  UssR/Virology. Viruses of TranSLIiSSive Infections - Abs Jour: Ref Zhur-Biol-, No 14, 1958, 6214o. acid, 2- and 6% fonzlin, 1- and 3r~ chlorar-ine, 0.02rA potassium bichroLnte did not cause a loss of the viruses in a 5-10 minute exposure. 51P' Lysol and 21,of sodium hydroxide did not inactivate then even after 24 hours. With room taTerature the viruses remained viable for 50 days, with 40 5-12 mos., with 200 - upwards of 1 year, in a dry condition - more than 7 years. -- G.D. Za8uldiina. Card 2/2  SHUBLAD7.E. Stvdies on the adaptation of Us-& strsin of tick-borne encephalitis virus to unfavornble conditions; Vop;virus 3 no,4S229 JI-Ag 158 (MIRA 11:9) 1. Institut virusologii imeni D.1, Ivanovskogo AMY SSSR, Moskva.' (ENGMALITTS, EPIMMIC, virus Russian tick-borne, adaptation of Ias-8 strain to unfavorable condo (Rue))  ANDOPOV, P.S. Virulence of the tick-borne encephalitis virus in chicks [vith summary in Znglish]. Vop.viruse 3 no-5:276-279 5-0 '58 (MIRA 11:10) 1. Institut virusologii imeni D.19 Ivanovskogo AMN SSSR, Moskva. (MICMALITIS, EPIMMIC, experimental, tick-borne, in chicks (Rue))  ANDONOV, P.S.; SHUBIADZI, A.K. Growth of strains of viruses of tick-borne encephalitis in chick embryo and HeIn cell tissue cultures. Vop. virus 4 no.1:94-100 ja-7 159. (NM 12:4) 1. Institut virusologii imeni D.I. Ivanovskogo AMN SSSR, Moskva. (3NICIPHALITIS, EPIONIC. viruses, culture in chick embryo & Bela cell tissue culture (Ras)) (TISSUB GUIMM, chick embryo & HeIn cell tissue culture for encephalitis virus Me))  IV USUNOFF) 0.1 SHOUBIADZEP A.K., -BWTNM, 5.) GAYDAMOVF1 -,H, B. YA-) ANDON 1, P. S., GEORGIEV, Iv. et OBOUHOVA, N.P. (Moscou, USSR) "Recherches serologiques sur lletiologie de l1encephalite hypercinetique progressive subaigue en Bulgarie" Report submitted to the 7th Intl. Congress of Neurology, Rome, Italy, 10-15 Sep 61  AN NOV, P. RUSAMVP M.; PRODRCMOV, A. A A study of the etiology of seasonal viral encephalitis in Pomorys. Suvrem mod., Sofia no.1:13-21 161. 1. Nauchno-izBledovatelaki institut po epideminologiia i mikrobiologiia. (Direktor: Vl. Kalaidshiev) i Gradaka bolnitaa, gr. Pomoris (Glaven lelcar V. Nakov.) (ENCEMUTIS EPIDE24IC virol)  ANDONOV, P.; RUSAKIIEV, M. [Rusakiev, H.) WOOMORNMWEMOf Nature and o*gin of the Bulgarian hemorrhagic fever, Trudy epidemiol mikrobiol 8:135-137 161 [publ,.1621.  LUUCHOUTV I.;- AMNOVI, -P.; MICHKOV, V.' A study of the opidesiologloal features of diseases caused by 2-wave meningoenosphalitis. lav. mikrobiol. inst. 14.0 39--44 162. (INGEPHWTIS, HPIDINIC) 11 I  BULGARIA / Soil Scionco. Soil Genesis and Geography. Abs Jour: Ref Zhur-Biol., No 2, 1959, 6043. Author : Andonov, T. Inst : 9-8-r-given.--, Title : Mapping the Soil in Bulgaria. Orig Pub: Priroda (B111g.), 1957t 6, No 4, 62-65. Abstract: No abstract. Card 1/1 Givcn N Bulr, ria Da Acxiemi C D--gree:3: not indicated not indicated SOU::CC-. Sofiap 1&-i ena, No 2,, JanPiiab 61, PP 59-63 Aj~j_ Dita: "The General Health Condition of Bulr;arian WorIcars in the Period of Capitalistic Boom (1903-1914).I1  0 a a 0 0 0 a 0 a a 0 Is 0 0 0 0 8 al V: 0 is 0 0 a 0 0 0 0 0 0 6 0 0 0 0 0 0 *1.- loll UU0101*4 )4AV6:::40l t uv oil 1. 4 v o0v 0 4p It 0 0 do, go 000- 00 00 00 gap go o w so F.,J) 1411)1110111 Implaulp All tit I-Arl 3,1", mil 1l, jp so 0 fr jjj,W M j~ p) v 1. i1fill, i..)1#Al%l 11 11-1d, Iffill-1111 IS1111111,11V xil 11A.Welikmo 1-1111 H It '114111 ': I p') J! Ym I I.9,pv. Imir I.%pul"43 r ,fill ..I", M'-% MII 90, 11 0g0 118ml-11. 0 ^Ijimpaii ,q MWIV 09 0 poll of,.) -mvillivi'l. -.1 ')1 pvIVI % 11,416 'IX A ads mv;A a into *3193 Isiq3teosib ju paql4ta ^ON so 0 c 00 00- go * o rr 'T' Alk It Al SO a A a T 4 1 1 11 5 41 If of 900 09 fe 060 Gas 0 W-W-9-0 -00 00 00 800 600 0 0 0,  Stalinskoy premit, kandidat tekhnichookikh nauk; Ila, redaktor; SHCEXDRrN, T.M., redaktor; XDUUTWVA, V.V., te~hnicheskiy redaktor (Water cooling of blast furnaces] Toprogy rodianogo okhlazhdanita domennykh pechel. Moskva, Go@. naudhno-tekhn.,izd-vo lit-ry po chernol I tevetnoi metallurgil11952. 60 P. [Kicrofilml ' (Blast furnace@) (cooling) (MLRA 7:10)  Cuohne by f)j "1 0,  ANDONIYIV, S.M., kandidat takhniaheekikh nauk; FILIPITIT, O.T., Inzhenar; POTOWS, Toove A now method for estimating the mixture of two flows in furnace heat engineering. Stall 15 no,1:74-76 Ja 155. (MLRA 8:5) 1. Giproat&ll. (Heat engineering) (Metallurgical furnace@) EUM  SOV/ 137-57-6-9606 D Translation from: Referativnyy zhurnal, Metallurgiya, 1957, Nr 6, p 42 (USSR) AUTHOR: AndqRJty, S.M. TITLE- Evaporative Cooling of Metallurgical Furnaces at Ferrous Metal- lurgy Plants. Major Considerations (Isparitel'noye okhlazhdeniye metallurgicheskikh pechey zavodov chernoy metallurgii. Osnovnyye .-p!?Iozheniya) I qA "Author's issert ABSTRACT.- di for the degree of ctor of Technical ~'"'AArgjihces, presented to the In-t metallurgiii~ AN SSSR. Gos. Soyuz, in-t po proyektir. metallurg. z-dov (Institute of Metallurgy. Acad- emy of Sciences, USSR. State Union Institute for Planning Metal- lurgical Factories), Moscow-Khar'kov, 1956. Comparative data on the engineering economics of water and evaporative cooling (EC) of metallurgical furnaces (F) are presented. EC has a favorable effect on the life of the parts being cooled, and the heat is used to advan- tage. Expressions are derived descriptive of EC: Stability of cool- in (OC); critical water flow rate (m/sec); water reqAirement (!Mhr). EC requires chemically purified water. The vapor pres- sure in the system depends upon the p6sibilities for utilization of the steam. 40 atmospheres absolute pressure is best; however, Card 1/3 existing systems maintain 4 atmospheres absolute preissure, and 10  Evaporative Cooling of Metallurgical Furnaces (cont.) SOV/13*7-57-6-9606D atmospheres - pressure will be achieved in practical operation in the near- est future. EG of blast furnaces is examined, and a new cell-type design of . coolers is suggested. An equation is presented that determines the heat loss by blast F into the cooling water. Analysis of the cooling elements of open-hearth F shows that cooling is needed only for the gas tanks, tuyares, front-wall skewback channels, and the frames of the chargin_g doors. Experimental data on heat loss by the various cooled elements (kcal/m6-hr) and equations for average heat loss by the cooled water for gas and heavy oil F are presented. A classification of EG systems with natural and forced circulation is presented. The use of steam for power is desirable at large plants only. In heating F, cooling is required for floor and lateral pipes, crown beams, and fr mes. Data on heat loss by contin- uous furnaces are available. Two heating f tces using EC are operating at the Gor'kiy Auto Plant. Experimental data and -an equation for calculating heat loss by the cooled elements of electrical F are adduced. Analysis of EC for blast, open-hearth, heating, and ferro-alloy F. and indices of the engineering econom- ics of their operation are presented. The conversion of 100 open-hearth F to EC in 1955 saved 40,000,000 rubles. The life of the cooled elements increased 3 to 10 times. G. G. Card 2/3  Evaporative Cooling of Metallurgical Furnaces (cont.) SOV/ 137-57-6-9606 D ASSOCIATION: In-t metallurgii. AN SSSR. Gos. Soyuz. in-t po proyektir. metal- lurg. z-dov (Institute of Metallurgy. Academy of Sciences, USSR. State Union Institute for Planning Metallurgical Factories), Moscow- Khar'kov Card 3/3  ANMNIYICV, S.M., kandidat tekhnichookikh nauk. 'mr'r _WWAIK On the article "Hot cooling of open hearth furnaceeff by A.I. Turin and others. Stal' 16 no.1:66-67 '56. (MLRA 9:5) 1. Giprostall. (Open hearth furnaces)  r4oo E- _77  AIMII'YNV. Sergi &XInvIgh, kandidat tekhnIcheskikh nauk; RATKOVSKIT. lurly borls6i_ich, inzhener; IPILIP'YEV, Oleg Vladimirovich, Inzhener; SHINDARITA, Klara Takovlavna, inzhaner; KOROTHTSKIT, D.N,, otvatetvann.vy redaktor; LIBERW,S.So, redaktor izdatelletya; SIXTATSKATA, Ye.K., radektor Watelletva; ANMIZV, S.F., tokbuicheekly redaktor [Evaporative cooling of open-hearth furnaces; fundamentals of cooling and principles of design] Isparitellnoe okhlazhdonis martenovskikh pechei; oenovnya polozheniia sisteuV okhlazhdontia printsipy ea proaktirovaniia. Pod obabchei red. S.M.Andoulava. KharIkov, Goo. nauchno-takhn. izd-vo lit-ry po chernoi i tsvetnoi metallurgii, 1957. 356 p. NWA 10:6) (Open-hearth process) (Evaporating appliances)  137-58-5-9095 Translation from: Referati-vnyy zhurnal, Metallurgiya, 1958, Nr 5 p 50 (USSR) AUTHOR: Andon'yev, S.M. TITLE: Evaporation Cooling of Open-hearth Furnaces (Isparj*.el'nove okhlazhdeniye martenovskikh pechey) PERIODICAL: Tr. Nauchno-tekhn. soveshchaniya po ispol'zovaniyu vtorich- nykh energ. resursov. Moscow - Leningrad, Gosenergoizda'.. 1957, pp 69-88 ABSTRACT: The following elements of evaporalion-cooling J__C) syzlellis are described: caissons for gas lines, tuyeres for injecTion of fuel oil, pivot girders, frames and crossbeams of charging doors, separator tanks, connecting lines, and regalating and metering apparatus and automation equipmeni. The following peculiarities of EC systems are examined: engineering and de- sign factors, peculiarities of the circulation in an EC system, utilization of steam from EC systems, and cost- and -production criteria. Engineering criteria for the operation of EC systems are given; maximum thermal stresses on the surface of Loni- ponents being cooled; heat lost by individual components to %he Ca rd I /Z cooling water; total discharge of stearn and the consumption ot  137-58-5-9095 Evaporation Cooling of Open-hearth Furnaces chemically purified water; specific generation and consumption of steam; length of service of components being cooled; the efficiency of the open- hearth furnace; consumption of metal and pipe lines. See also RzhMet. 1957, Nr 9, abstract 16501. Ye.N. 1. Open hearth furnac es- -Cooling -2. Evapora'.1--loii--Applicqticr-,-,-. Card Z/2  ITHORS: Andonlev,-S:.M. (Candidate of technical sciences), Filiplev, O.V.9 gineers). 130-3-20/22 Volkov, V'.F. and Sirenko, V.M. (EA 1LE: New Design of Air-Cooled Charging Door (Novaya konstruktsiya zaslonkil okhlazhdayemoy.vozdukhom)... ,RIODIQAL: "Metallurg" (Metallurgist), 1957, No-3t .]~#40* (1J*S'#Se1~*) ISTRACT: Air-cooled charging doors for open hearths are being tested at the Stalinsk Metallurgical Works-. These consist of a metal screening part and a lined plate. The 'plate is a steel box with internal reinforcement; the triple screen is made of sheet iron. In the event of failure the lined plate can easily be detached from the screen and replaced. The whole lined part is regularly replaced every month. Of two materials tested for the refravt-c--jr lining of the plate the following was selected: 70 Vt % ohromite ore (grain size less thAn 7 mm , 30% h-1-ghly calcined magz"its. (grain size less than 0.088 mm~ and 1Q of a 10% sulphuric acid solution. The external temperature of the screen was found to vary from 500 at the start to about 800 at the end of the service Card 1/1 life of lining; the correspondirg heat losses were 600 and 15 000 cal/hr. An editorial note points out that further improvements in design are necessary'. There is one diagram and one table'. SSOCIATION: Giprostall.  133-8-2/28 An investigation of the wear of blast furnace hearths and the choice of design for their air cooling system, (Cont.) coliples should be placed on the boundary of the heat re- siptance concrete, no more than 4 m from the top of the hearth. The dependence of the temperature measured at a distance of 4.? m from the top of the hearth along its axis on the wear of lining for various furnaces is shown in Fig.5. For the determination of the wear of lining on the basis of temperature at a given point in the hearth the following empirical formula is proposed: X = 1400 - T - where x = thickness of the remaining 350 - 0.1 V lining, M; T = otemperature on the axis of the h9arth at a depth of 4.9 m, C; V = volume of the furnace, ml. The copiparison of calculated and determined temperatures for No.4 ME furnacep illustrating the applicability of the above formula is given in Table 4. The wear of the above hearth on blowing out of the furnace is shown in Fig.6. A Aopogram for calculating the wear of lining in hearth from indications of thermocouples for the above furnace is shown Card 3/4 in Fig.7. On the basis of the results obtained it is con- cl'~ided that air cooling of the hearth will decrease the  130-12-4/24 AUTHORS: 4ulladon' evs, S.M., Candidate of Technical Sciences, u 'v -~-Knld Liderman, S O~no S.).Ma M., Engineers. v.~ TITIE: Plate Coolers in the Blast Furnace Stack (Plitovyyc kholod- illniki v shakhte domennykh pechey) PERIODICAL: Metallurg, 1957, vo.12, pp. 8 - 9 (USSR). ABSTRACT: The authors consider the heat-loss and cooliag problems involved in using peripheral plate coolers (horizontally-ribbed vertical plates) in the blast-furnace stack, as at the Dzerzhinsk Works, This practice was described by G.G. Oreshkin and the authors examine some of his conclusions. They disagreevith Oreshkin's views on optimal stack lines and point out that the ineffectiveness of utilisation of the increased furnace volume obtained with the plate coolers is shown by the equal performance of a new furnace with conventional stack coolinC, and with the same original volume. The authors give graphs relating the temperature of the cooler ribs to heat flow for the two Dzerzh- insk furnaces with peripheral plate coolers. There are 2 figures. ASSOCIATION: Giprostall AVAILABIE Library of Congress Card 1/1  'Working Principles and Application (Cont.) 734 installing the equipment. In addition, the author gives engineering and economic data on open-hearth furnaces operating with the new system of evaporative cooling, as well as data on the effectiveness of the system. It is stated that at present more than 100 Soviet open-hearth furnaces are equipped with the new system. In this second edition certain sections have been rewritten on the basis of experience gained in the operation of the cooling systems. As in the case of the first editlon, most of the book is based on studies made-at the Evaporative Cooling Section of "Giprostall" (State Institute for the Planning of Steel-Industry Establishments). There are 27 references, of which 22 are Soviet, 3 German, and 2 English. No personalities are mentioned. TABIX OF CONTENTS: Preface 5 Card 2/8  Working Principles and Application (Cont.) 734 Ch. II, Structure of Open-hearth Furnace and its Operation 27 1, General description 27 2. Principal elements of the open-hearth furnace 28 3. Operation of the open-hearth furnace 32 4. Water-cooled parts ~3 5. Heat losses from the cooling water 5 Ch. II I. Water Cooling of Open-hearth Furnaces 57 1. Characteristics and types of water cooling 57 2. Hot-water cooling system 99 3. Cold-water cooling system 1 4. Water-supply systems for the open-hearth shop 63 5. Quality and consumption of water in water cooling 66 6* Trea-,'.*,ment of water 73 Ch. IV. Evaporative Cooling of Open-hearth Furnaces 76 Card 4/8  Work!ng Principles and Application (Cont.) 734 15. Corrosion in the system and means of preventing it 153 Ch. V. Installation of Evaporative Cooling Equipment 156 Ch. VI. Evaporative Cooling in Operation 16o 1. General considerations 16o 2. Technical specifications for operation 16o 3. Servicing of evaporative cooling equipment 161 4. Technical records 174 5. Starting the system 175 6. Converting the system. for cooling with industrial water 177 7. Faulty operation 178 8. Safety precautions 183 9. Work organization and working-place layout 185 Ch. VII. Utilization of the Steam of Evaporative Cooling 189 1. The problem of utilizing the'steam 189 Card 6/6  Working Principles and Application (Cont.) 734 1. Consolidated capital-construction data 2o6 2. Consolidated operational data 206 3. The economic advantages of evaporative cooling in open-hearth furnaces 210 Bibliography 210 Appendices 217 AVAILABLE: Library of Congress GO/ksv 11-25-58 Card 8/8  133-58-3-2-//29 AUTHOR: Andonlyev, S.M., Candidate of Technical Sciences TITLE: _-Xii -Experience esignin~,, and Operating Evaporation Cooling of Metallurgical Furnaces (Opyt proyektirovaniya i ekspluatatsii isparitellnogo o1thlazhdeniya metallurgi- cheskikh pechey) PERIODICAL: Stal', 1958, vr 3, pp 271 - 280 (USSR) ABSTRACT: A brief review of the design features of evaporation cooling as applied to open-hearth and reheatinE furnaces as well as of the proposed design of evaporation cooling of blast furnaces is given. At present, 120 open-hearth furnaces are operating with evaporation cooling and by 1960 the majority of open-hearth furnaces will be transferred to this method of cooling. 14ain technico-economical indices of the systems of water and evaporation coolinE, of metallurgical furnaces are given in Table 1; multiples of circulation for various parts of metallurgical furnaces (checked by experiments on an industrial scale) - Table 2; thermal intensities of cooled elements in various zones of a blast furnace - Table 3; thermal intensities on the surface of cooled parts of open- hearth furnaces - Table 4. There are 5 tables and Cardl/1 7 figures. ASSOCIATION: Giprostall AVAILABLE: Library of Congress  ANDOWYEV, S.M., kand.tekhn.nauk --- ~ - Evaporation cooling of blast furnaces. Biul. TSHIICHM no-7:1-7 '58* (MIRA 11:6) . (Blast furnaces-Cooling  Sov/133/58-9--2/29 AUTHORS:Andon' x9yo 1q_ IL.(Cand.Tech.Science~l Kudinov, G. A. CTE-gineer), Filiplyev, 0. V. (Engineer) TITLE: Some New Designs of Cooling Systems for Blast Furnaces (Novyye konstruktsii dlya okhlazhdeniya domennoy pechi) PERIODICAL: Stall, 1958, Nr 9t PP 776-780 (USSR) ABSTRACT: On the'basis of a large experimental and design work (not specified) carried out by Giprostall, some new designs of cooling systems for blast furnaces are outlined. Pe 6esigns were prepared for a typical furnace of 1033 m work- ing volume. Characteristic features: Cooling of the blast furnace stack is proposed in two modificationa: 1) cooling with continuous vertical plate coolers with ring supports in each row (for supporting lining). A thin stack lining with a proportional widening of the bottom part of the fur- nace and the throat is recommended. This can increase the working volume of the furnace by 25-30%. Coolers are joined into vertical sections (four tubes are cast in each plate cooler - Fig.2A); 2) cooling with vertical plate coolers (Fig.2B) with supporting rinGs in order to give a firm oupp- ort to the lining (Fig-3). The coolers are placed in a check pattern, 24 in a row, and together with supporting rings Card 1/3  sov/133/58-9-2/29 Some New Designs of Cooling Systems for Blast Furnaces divide the lining into independent sectors. Supporting a-.ngs are placed at an angle of 5-100 to the horizontal plane so that the descending burden will prevent falling out of the individual bricks and partially fill up burned out sections of brickwork (self-linin~ furnace). The bosh is cooled with plate coolers wil F Uh ribs ig.4) forming cells which on erosion of the lining can be filled with the slagged burden materials. A specia-1,."L-shaped cooler * is .' for .,; proposed the protection of the lintel Coolers are joined in vertical sections. Tuyere cooling: the cooling space is divided by a plate into two longitudinal sections, communi- cating at the tuyere nozzle. Screw-like ribs-are welded to the dividing plate (Fig.6). In this way the apeed of water current can be increased to 1.5-2.0 m/see as against 0.05-0-10 m/sec, in the tuyeres used at present. Hearth: Some modifications in the construction of the hearth bottom are outlined (Pigs 7 8). Air cooling of the bottom of the hearth is recommenaeA. The overall cooling Card 2/3  M SOVI 133/58-9-2/29 Some New Designs of Cooling Systems for Blast Furnaces of the furnace is shown in Fig.l: A - with a thick stack lining, B - with a thin stack lining. There are 8 figures and no references. ASSOCIATION: Giprostall. Card 3/3  ............ 18(5) SOV/128-59-4-8/27 AUTHORo: Andonlyev, 06119, Doctor of Technical ociencety, _717T=Py_e_v_,__U._T_., and Radionova,Ye.A., Engineers TlTLE: Vapor-Cooling Syctem for Cupolas PERIODICAL: Liteynoye Proizvodptvo, 1959, TIr 4, pp 14-15 (US-TR) ABwTRACT: In the cource of an inten-ification of the cupola melting process of cast iron, it is very important to improve the cooling of the hou-,ing, in order to raipe the durability of the inner fireproof caping and to enlarge the diameter of the melting belt. Water cooling of the cupola melting belt is already introduced in the Moscow Likhachev Auto Plant, in the Roptov agricultural machine works , and in a nititiber of other big plantp. With a decrea-c in thicl-ie!-P of the inner caping, the conpui:iption of fireproof mater- ial is reduced, although more heat is lost in the cooling water, which meann a raise in coke conpump- tion. The specific loFPe!- of heat through water cooling amount to 14,800 kcal/t, if the inner casing Card 1/3 is mipping. They only total 1,200 kcal/t, if there  Vapor-Cooling SycteM for Cupolas SOV/128-57-1-9/270 Card 2/3 ic an inner casing. 71ith a cupola efficiency of 30it the additional coke consumption repulting from the cooling amounts to 7.5 kg/tj I-Inter cooling makes it poF?Pible to increase the dimenpion,,! of the cupolaf- and to raise their output. This cooling !--y-tem, however, is deficient in Peveral re-pectp: the water consumption is very conpiderable, which ip unprofit- able in the engine building plants; minerals are precipitated from the cooling water arid form Pediments and deposits with the result, that the houFing warpn and burns through. At the pre,-ent time the metallurgic industry mainly uses evaporative cooling. The general idea of this method in, that the heat abstracted through the cooling water is used for its evaporation. Since the vaporization heat ai.iounto to about 540 kcal/ kg, the water conpumption for the cooling is reduced to a large extent, and it ip pospible to use chemical- ly purified water which doen not caume an incru-tra- tion of boiler qcale. A project for evaporative  Vapor-Cooling Syetem for Cupolas SOV/128-59-4-8/27 cooling of a group of four cupoltia i- jupt being put into practice. Current can be F-aved with eva- porative cooling because the pumping of the cooling water becomes unneceppary. There are 3 tLblep and 2 diagrmp. Card 3/3  It SOV/133-59-6-12/41 AUTHORS: Doctor of Technical Sciences, -Pilip~yev. O.V., Engineer and Popova, Ye.V., Engineer TITLEs An Inyestigation of Ports of open Hearth Furnaces Fired with Gas with a Supply of Compressed Air and Oxygen (Issladovaniye golovok gazovykh martenovskikh pechey a podachey kompressornogo vozdukha i kisloroda) PERIODICALtStall, 1959, Nr 6, pp 509-512 (USSR) ABSTRACT: In view of the increasing importance of choosing the most suitable designs of ports for large open hearth furnaces, Giprostall carried out laboratory investigations of a number of ports on models of typical 220 and 500 ton open hearth furnaces (scale 1:20) during which the following factors were determined: a) the direction of streams in the working space and hydraulic resistance in the port of the furnace during the passage of gas and fumes; b) zone of mixing fuel with air. The experimental procedure is outlined. The designs of ports tested for 220 ton and 500 ton furnaces are shown in Fig 1 and 2 respectively and the Card 1/4 results obtained in tables 1 and 2 respectively. It was  SOV/133,-59-6-12/41 An Investigation of Forts of Open Hearth Furnaces Fired with Gas with a Supply of Compressed Air and Oxygen found that: 1) Using water models and hydrochemical oscillographic methods of investigation it is possible to establish the hydrodynamic characteristics of the flame and the quality of mixing of fuel and air as well as to determine the influence of: the coefficient of excess air; additions of compressed airi oxygen; changes in -the shape of the part and working space. This facilitates the choice of rational designs for industrial testing. 2) The laboratory investigations indicated that the designs of ports used in open hearth furnaces can be improved by enlarging the outlet (up to 50%) and supplying,in the top part, compressed air and oxygen In the bottom part; whereupon the resistance of the port decreases by a factor of 5. This permits: an improvement in the heating of gas cheekers; an increase in the intensity of the flame volume up to 50%. It will be advantageous to Card 2/4 decrease the length of the port by 30% which will allow  SOV/133--59-6-12/41 An Investigation of Ports of Open Hearth Purnaces Fired with Gas with a Supply of Compressed Air and Oxygen increasing the surface area of the bath. 3) It is advantageous to make the port lining of a thickness of 150 mm with a thermal insulation of 20 - 30 mm and metallic shell of the port of a size not exceeding 150 mm. In this way at the beginning of operation the lining will protrude 20 - 30 mm. When using metallic shell 230 - 260 mm ut a high thickness of the lining the heat efficiency decreases by a factor of two after 80 - 100 heats (Fig 3)- The following is recommended for industrial testing: a) port of a normal length with increased by 50% cross- section area of the outlet and with a supply of additional compressed air through nozzles situated in the metallic shell of the outlet. it would be advantageous to supply oxygen also (compressed air through top nozzles, oxygen through bottom nozzles)i b) a shortened port with the length of the bottom of 2000 mm with a corresponding increase in the length Card 3/4 of the bath and a decrease in its depth (by 80 - 100 mm).  5OV/133-59-6-12/iii, An lnvestigation of Ports of Open Hearth Furnaces Fired with Gas with a Supply of Compressed Air and Oxygen Using designed parameters of the port of a typical 500 ton furnace one cannot expect complete combustion of fuel in the working space, therefore, the designed thermal performance cannot be achieved without using niea~s of flame turbulisation (compressed air or oxygen). There are 3 figures, 2 tables and 10 Soviet references. Card 4/4  ,ANMNIYBV S.M.- ZHLOBINSKIY, Ye.I.; YURIYEV, M.A.; STRUGATSKIT, L.P.; V, B.V.; TSELUYKO; Yu.I.; SUVOROV, A.I.; FILIPOYEV, O.V.; KALASHNIKOV9 ?.A.; LIVOV, V.N.; SULDYIV, V.A. Evaporation cooling of rollinp-mill heating furnaces in open-hearth- furnace plants and complex utilization of secondary power resourcose Prom. energ. 14 no-1:37-39 Ja 159. (MIRA 12:1) (Purnaces, Heating) (Boilers)  77 18-3200 /3 S' OV/ 'I J5 3 -6 AUTHORS: \Andonlyev, S. M. (Doctor of Technical sciences')., 7u-dlm-7~,. iliplyev, 0. V. (Engineers) TITLE: Study of Performance of' Blas'.-, F,,-,rnaces With Stack Coolers of Various Designs PERIODICAL: Stall, 1960, Nr 1, pp 23-28 (USSR) ABSTRACT: A report concerning the 1958 inves~:igation by the Sl.-.ate Institute for the Design and Planning of' Steel Industry (GIPROSTALI), with participation of plant ersonnel of' (not iden-fie P,: three metallurgical plants' 11-L P I (furnaces IA-TD), II (furnaces IJA and 1IB), and M (furnace ITTA) .~1:43; 1-3-1386; of following volume (!P. ): furnace IA-c. IV-1386; 10-1386; ID-1386; IIA-103"; 11P-'033; IIIA-1-186. The methods of cooling I-he staolks of ",ese rul,naces iz shown in Fig. 1. The design rew-ures -if the furnaces; measuring the heat losses by s~ac;-, ivater cc)o!1nE.:; the effect of coolers on thle ~_-empera-,zre of gas flC,.,;; the analysis of furnace perfori:-.ance coolers of' var.'_ Card 1/8 ous designs; the selection of cooler's design and t..he  Study of Performance of' Blast Furnaces 141~11- 7" Stack Coolers of Various Designs SOV/133-60-1-6/30 thickness of stack lining are discussed. A recom- mended optimum design of a typical blast furnace is given in Fig. 4. The authors arrived a",-. !"-.he followin..-, conclu3ions: (1) The vertical peripheral coolers of stack, installed as continuous belts tight- against blast furnace shell, are recognllzed t-- lbe the bost- Though the stack ~Teat. losses i,;ith tllie,~,e coc.-Iors 0.."111-11 maximum burning out of' the lining) in the average are 20% higher than that in the case of .,iorizontal or "bracket type" coolers, the analysis of furnace per- formance showed no negative effect of plate type coolers on coke consumption and furnace output. (2) The peripheral plate type coolers are reliable and protect the blast furnace shell from, heating, which eliminates the necessity of external spraying (~n "he case of continuous belts, set -.-4gh-- against *fe is 4 to the furnace shell, without gaps). Their 1.L 5 times higher than ',-hat of' horizcrtal cr "t-Iraciret type" coolers. (3) The thicl--.~,ess of s-lac*.-, lininc, plate type coolers are installed, s~~cuid ',--,e reduced to Card 2/8 575 mm. (4) In the even', the coolers are equipped  0 870 It C ard 5/8 Fig. 1 (COlit',I)  .((44 5 SOVII -.- -60-1-6/--.o ,.A I 1~ 41 -41 F " ~~o ,, El I Card 4/8 Fig. I (cont'd)  -OV/1 TO "Od ;;,00- 3200- MOOP 8700 7 5.9'', Mv. Ak- Fig. 1. The cooling uystems used In stacks of investigated blast Furnaces. Card 5/8  Card c0i (,()114 SOV/133-uO-I-b  Study of Performance of' Blabt Furnaces Wlth 771145 Stack Coolers of Various Designs SOV/133-6o-1-6/36 Caption to Fig. 4. Fig. 4. Recommended design for the increase of workiniz volume of a typical blast furnace from 1719 to 1960 m3-. (1) an alternate design showinj an installation of plate type coolers (continuous belts '; (II) an alternate design showing an installation of coolers with gaps along the height; (a) axis of pipe for taking gas amples; (b) axis of air tu ere; (c) axis of slag notch; (d) axis of*iron notch; (e~ metal stock; (f) ventilating blast. Card 7/8  Study of Performance of Blast Furnaces With 7714 47 Stack Coolers of Various Designs SOV 133-6o-1-6/3o supporting shelves, the life of lining should increase. (5) Due to the fact that plate type coolers work under difficult conditions of slag hardened on the walls of blast furnace, it is recommended to cast them from the alloyedj growth resistant cast iron of ZhChKh -2,5 type. Following dimensions of plate type coolers are recom- mended: thickness of ribbed.portion of cooler--115 to 150 mmi thicknevs of the main metal part of cooler-- 120 mm. The poured-in fire clay should not occupy more than 55% of cooler's surface. For cooling of the bosh the ribbed coolers without poured fire clay are recom~ mended. The height of the rib should be about 75 nim. The ribs of the plate type coolers should have the longitudinal and transverse Blots for the relief of thermal stresses. There are 4 figures; and 5 tables.* Card 8/8  " ANWNIYZV, S.M.: FILIIIPIYRV, O,V.; ZHITOMIRSKIY, I.S. . ; Now method for simulating the mixing of fuel, air, and osygen in open-hearth furnaces. Inzh.-fis.zhur. no.1:25-29 Ja 160. (MIRA 13:4) 1. Goeudarstvenny7 nauchno--inaledovatellskiy i proyektny7 institut metallur ichaskoy proWshlennouti, "Giprostal,"Kharlkov. ?;;n-hearth furnaces) 0.  8/.117/61/000/010/003/056 A006/A101 AMAORSt Andoqlyav~_& MA Somohanko, M. S. T:1W I EXre.-40MOOS Of Use and ec6nomio efficienoy of evaporation cooling of metallurgical furnaces at USSR plants M.70DICALI Rsfar~ativnyy z1hurral, Metallurglya) no, 10, 1961, 9 v 10j abstract 10B55. ("Sb. nw-john. tr. Goo. n.-i. proyektn. in-t matallurg. prom-sti 10igraotal1% 1960, no. 2, 152 - 160) TM. I ~1.hs e~zthors analyzed the opere-ion of evaporation-oooling devices on mettI171--siloal furnaces at UBSR plants. It was established that the use of vapor saved alone > 870,000 toone Warenoe fuel during 1959. The financial savings in 19~9 for opjrei*z-,-Q. expenses arA from using vapor at the plants amounted to about 110 Mllli:~n rublea. Nevertheless, the assimilation of evaporation oooling pro-- oeeds etill very slowly. The existing evaporation oooling devioes at the pliAts are used very little. At some plants udeful parts are excha:4pd? an their bur4ing durIng t0k,.e next agmpalga is feared. It is necessary to intensify the technical oc;ixtr.A by 01proRtalt amd 1~ne control for the observation of ope'ratiorial rules and teo,*rr_io&1 epeaifloat~ions in m&'Aufacturing th~ parts to be oool&d. -OD evaporation Card 1/2.'  S/137/61/PW/010/PO3/056 Experdenoes.of use &ad eaenomio.officienoy of... A006/AI01 coolin.g units with up to 3 atm.,vrapor preavir*, the separator drums must be ale- vated to 12 - 15 m heightj the parts to be cooled bs 6o=oqteA to thelo to improv-9 their stability.. To eliminate the possibility of scale formation and slag aocunrilation the water conditions of the %y3ttm must be daily checked. The ohamioal oomposition of the boiler water is: hardness not over 1 mgeqaiv/lj al- kallnit-y not over 30 Masquiv/1) salt content 15,000 - 20,000 mgj1. Vapor pres- sure s:riould not be below 6 - 8..atm to.assure the .0a11 utilization of the steam. B. MsLatryukov [Abstraoterls notat Complete translation] Card 2/2  A.VD0118YEV, S.M., doktor tekhn.nauk Braporative cooling of metallurgical furnaces. Trudy RM cherv. met. 20:236-252 160. (MIU 13: 10) 1. Girpostall. (Metallurgical furnaces-Cooling)  -ANPQN!Xgi__~~~~dch# doktor takhn. nauk,, Frinimli uchastlyet BELAN, F.L., insh.; KAU40, Te.A.j TSELUKO, Yu.j.~ in2h.; Em- ZH=9 S.M.2 inzh.; SMWO, B.M., inzh.; FILIPIyEV, O.V., inzb.,. NOMD, V.S., doktor tokhjl'v Vkukv profs.0 retsenzent; VITSKEVICH, Te.A.., redo; YEZDOKGVA, M.L., reds ind-va; DOBUZHINSMA, L9V#j tekhno redo [Evaporation cooling of metallurgical furnaces) Isparitellnoe okh- lazhdanie metallurgicheskikh peehei; oanovwje P0102heniia. Moskva,, .Gos. nau6hno-takhn. izd-vo lit-ry po chernoi i tsvetnoi metallurgiip 1961. "7 p, (MIRA 3.4:10) (Metallurgjcal furnaces-Cooling)  AJIDONIYEV, S.M.; FILIPIYEVp O.V.; KUDINOVp G.A. Increasing the durability of blast furnace hearth bottoms. Metallurg 8 no.7:9-11 J3. 163- (MMA 16t8) 1. Gosudarstvennyy institut po provektiravaniyu predpriyatiy po proizvodetvu stali. (Blast furnaces-Design and construction)  ARDONIIEV, S.M., doktor tekbn.nauk; TSZLYUKO, lu.M., inzh.; KATSENELENBOGER, L.B.0 irtzh.; MOSTITSKITO A.V., inzh.; RUDNITSKIY, Ya.N.., inzh.; FMO, A.P., inzh.; TRUSH, V.I., insh. Investigating thermal processes in converter "caissons" and chimneys. Stall 22 no.2:173-176 F 162. (MIRA 15:2) 1. Gosudarstvennyy institut po, proyektirovaniyu metallurgiches- kikh zavodov i predpriyatiy iBessemer process) (Heat-Tranomission)  A.NDONI~qY,_A.tj.-, doktor tekhn. nauk; TSELUYKO, Yu.I... inzh.; RUDNITSKIY, Y&Jo. lnzh,; KOTEN, M.G., inzh. Lead-off of converter gases without burning them in the combustion chamber. Prom. enarg. 18 no,6:17-21 Je 163. (MMA 16:7) (Steel-Metallurgy)  AI,DCHI)5&V) S.M., doktcr TSELIYUKO, Yu.I., inzh.; RUDNIISKIY, U.N., KATSENELENBOGEN, L.B., inzh.; *,,',M-,,R3".'-AI6YI1, A.D., inzli.; MY,6RUNY-~S, 1.3... inza. Investigating experimental contours with natural circulation of water in tho chinney of an oxygen-blown converter. Stall 23 no.7:664-.667 J1 163. C-aiu 16:9) 1. Gosudarstvennyy institut po proyektirovaniyu prodpriyatiy po proizvodstvu stah i Krivorozliskiy netallurgichesIdy zavod. (Convertera-Cooling)  D V, EVI )/EWR(b)/E'WP(l) 1-?~,9-,_65 El-rr(d)/EViT(m)AWP(c)/EIYA(d)/E-','P(V)/r-2/EWP(t)/ P(k ACCESSION NR AF,4046730 BOOK EXPLOITATION Pf-4 MJW/JD/ Samarin, A. M., ed. (Correoponding member, Academy of Scioncest Steel production; handbook (Staloplavilluoye proizvodatvo; epravocbAik), t. Z., Mo3cowj Izd.vo "Motallurgiyall, 1964, 1039 P. illur... biblio., tabloa. Errata &lip inserted. 5,850 copies printed. TOPIC TAGS: stool, opon-hoartb furnace, quality control, refractory TABLE OF CONTENTS (abiidgodlil( ?Lrt 3. Thermal engineering Ch. XV. Fuel and its combustion in an open-hearth furnace (N. 1. 1 --,nov) -- 535 Ca. Mechanics of furnace gaaea in open-hearth furnaces (G. M. 554 Ch. XVII. Heat transfer in an open-hearth furnac a (S.S. Mniridno 575 Ch. XVIII. Thermal operation of an open-hearth fur6a-ce (Ye. A. Kapuati;) 603 Ch. XIX. Auxiliary thermal equipment in steel production (B. 0. Turov6kiy) C.':j/gl7  .L 1-7595-65 ACCESSION NR AM4046730 Part 9. Thermal processes Ch. XX. Automatic control and regulation of thermal processes in steel production (A. P. Kopolovich I ,A. P. Sinchuk, and M. A. j,Yov) -- 6)0 Ch. XXI. Evaporative cooling of open-hearth furnaces (S. F,_.Andee~gv) 720 Ch. XXII. 11ot cooling of open-hearth furnaces (A. I. Tyurin) 745 Ch. XXIII. Boilers of open-hearth furnaces (A.-1. "crothinakiy) -- 754 Ch. XXXV. Cooling and cleaning converter gases kA. 1. Barozhi okiy) -- 778 Ch. XXV. Supplying steelmaking shops with compressed air (G. A. Timoahko) 793 Ch. XXVI. Supplying steelmaking shops with oil (G. A. Timoahko) 807 Part 10. Methods of quality control and testing Ch. XXVII. ChGL%iC&1 analysis (P. Ya. Takovlov) 818 Ch. XXVIII. Spectral analyaii;'(H. H. Sorok mna 84o Ch. XXIX. Holtiitg and delivered7u-&U-tycontrol of stool (YI. 1. Vinograd) 851 Ch. XXX. Mechanical tooting of metals (P. G. Timo8huk) -- 868 Ch. XXXI. Analysis of gases in metals and alloys (L.L.Xunin, T. Ya. lzmanova, and Yo. M. Chistyakova) -- 887 Ch. XXXII. Determining nonmetallic intlusione and carbides (M. M. Shapiro) card 2/3 097  L 17595-65 .AcassioN NR AY,4046730 Ch. XXXIII. Defectols ?'AV. S. Tokmekov) -- 910 Ch. XXXIV. Uoe of radioactive isotopes to study the processes of steel production -- 924 Part 11. Design Ch. XXXV. Dosien of steelmaking shops (0. A. Garbuz and D. T. Martainkovskir) - 932 Par~ 12. Economics Ch. XXXVI. Technical-economic indicators of stool production (G. V. Vitin and A. ,G. Lifshits) -- 956 Part 13. Transportation, refraotoriois, oxygen, classification and characteristics of steels Ch. X)LXVII. Tranaportation (S. S. Borlyand) -- 980 Ch. XXXVIII. Refr ctories (M_.__A_.=ur4y*) -- 993 Ch. X 'IX. Oxygow(D. L. Glizmananko) -_ 1009 1 Ch. XL. ClansificatTon and charWo-toristics of Steel (K. V. Mrtyuskna) 1020 SUB CODEt MM SUB~ITTEDs 30mayA KF REF SM 279 OTHER% 0" Cofd 3/3  ANDONIYEV, S.M., doktor tekhn.nauk; FILIPIYEV, O.V., kand.takhn.nauk; IMMOVICH, D.B.; GOLIDIN, Sh.L., inzh. Evaporative cooling of cupola furnaces. Prom. energ. 19 no.3:21-26 Mr 164. (MIRA 17:4) Y,  ANDONIY,'-V,,, Sj!,~ CLAZKOVY I,-eceased]; HCHIN, KONDRAT-IYEV, Ye.H.; Ye.M.i MAKOOV, PAMOATOV.. PEATIT17, 11~1., L , I~-- t ry., 9 POKRAS, L.M.; !UCIIT.MAN, A~M., P.A.; SFFIAIJ~-AYN, F.I.,- SHKLYPE, T.I.~ Fririrml.". uchastlye~ B17RMAN, M.N., VARFALOIET-Ev, F,T.~; Rb.KNJI 14.k., WY'-~IYEXIGH, G.I.-, ISAPIRC, V,',; ALEKSEYEV, R.S. floating Martin furnac-es wIth natural gas using roformerB. IA7. pron. 9 na.1b14-1-7 164. (MA IM12)  ANDOIII-)TY.--", doktor tekhn.nauk; TSELUY-KO, Yu.I., Inzh.; RIJDNITSKTY, Ya.N., inzh.; KATSENELENBOGEN, L.B., inzb. Selection of an efficient grouping of complex installations for evaporatior, cooling and waste heat boilers for heating furnaceB. Stall 24 no.7!664-667 .11 164. (MIRA 18~1)  ANV,('-NIYF,Vp S.M., daktor takhn.nauk; TSELUYKO, Yu,,.T. inzh. Evaporative cooling of lArge holding furnnees. Prca. Pnerg. 20 no.709-43 JI 165, (KIRA 18.]2)