SCIENTIFIC ABSTRACT KOCHO, V.S. - KOCHUBEY, M.I.

130-58-2-6/21 Open-hearth Furnace Operation on Hieh-calor.ific Value Low-pressure Gas by 20 - 30% and Iiigb-pressure air being supplied to the sides of thelps ports; blast-furnace gas should still te supplied during reversals. There are 1 figure and 2 tables AVAILABLE: Library of Congress uard 3/3 1. Open hearth furnace&-Operation 2. Coal p"ppUcations  SOV/1 37-58-11-22083 Translation from: Referativnyy thurnal. Metallurgiya, 1958, Nr 11. p 36 (USSR) AUTHORS: Kocho. V. S.,, Granovskly. V.1. , Ploshchenko. Ye. A. TITLE: Heat Balances of 500 and 250-t Gas-fired Open-hearth Furnaces (Teplovyye balansy 500 1 Z50-t gazovykh msrtenovskikh pechey) PERIODICAL: 1xv. vyssh. uchebn. zavedenly. Chernaya metallurgiya. 1958. Nr 3, pp 52-56 ABSTRAC"?: 500 and 250-t furnacts are heated by a mixture of coke and blast- furnace gas with an average thermal load of 36.8 x 1010 and 25.0 x 1010kcal/hr. Th- hearth areas of the furnaces are, res i ely'I 96.76 and-74.0 m . stool (8t) production,,keing 6.65 and 6!7e3ctti7m per day and heat time 12*4 and 10.33 hours. The necessary calculations and tables are provided. The Input and a portion of the output side depend upon the batch. The fundamental heat losses of 300 and Z50-t furnaces are approsiMately Ident csl#, they consist of carry-off of heat and combustion products 1~0 and 33~6, respectively) and loss In tb* cooling *tomcat* (IZ.24W and 13.7W). The remaining losses (by radiation, through the brickwork, etc.) are of somewhat smaller Card 1/2 magnitude but they are greater In the Z50-t furnace in virtually all  SOV/137-58-11- ZZOS3 Heat Balances of 500 and Z50-9 Gsa-fired Open-hearth Furnaces casts. In accordance with the beat balances, the average unit consumption of con- ventional fuel is IZ3.6 kjl/t for a 500- and 137 kg/1 for a Z50-t furnace. The greater efficiency of SOO-t than of ZSO-t furnaces is due to the reduced heat loss per t of St, the better utilization of heat In the melting chamber, and the higher-rate of steel production (by 50-65c/'o). Card Z/2  IDcw tor tskhaeaauk# prefol *UMMIT# Veto, lush* .;;;;~jd6*Jok 10 Investigatlag b"t aWorptles ud thsrW officismair of 500 &M 250-ton open-bsarth firMees. Isve vise udho'be save; abs"onoto 06#5s65-75 * 158. (xiu us?) I,Xinvokiy palitakWobaskly lastitut. (Opeo-h"rth furucas) (&at--ftdlaUoa &ad aboorptioa)  SOV/133/,r,8-9-4/29 k AUTHORSAXocbg~ V p,Tech.Scianc Professor) Grankovskiy, V. 1.9 (Engineer I an Ploshchenko,le. A. (Engineer) TITLE: An Investigation of the Thermal Performance of a 5W Von Open Hearth Furnace (Isslodovaniye teplovoy raboty 500-t martenovskoy pechi) PMIODICALs Stal'i 1958, lir 9, pp 782-7U8 (USSR) ABSTRACT: A utudy of the thermal performnee of a 500 ton open hearth furnace at'the Voroshilov Works was carried out and a comparison of some of tho data obtained with corresponding data for 250 ton furnaces is given. The object of the in- vestigation was to obtain information on the possibilities of Improving the furnace performance as well as to obtain some design data for 700-800 ton furnaces. The 500 and 250 ton furnaces were lirked with basic refractories (mean ser- vice life of chrome-magnesite roofs from 400 to 450 heats), The furnaces were fired with a mixture of coke oven and blast furnnoe gas oarburized with fuel oil. ComprosseA air was supplied (from blast furnace blowers) to the flame. Material and thermal balances of the 500 ton furnace are Card 1/4  SOV/133/56-9-4/29 AnInvestigation of the Thermal Performance of a 5W Too Open Rear-i Purnace given in Tables I and 2 respectively, Heat absorption and the coefficient of utilization of heat were investigated, using the method of "instantaneous reverse heat balance" which is based on measurements carried out during short time intervals, The dependence of the intensity of straight heat currents on the amount of compressed air supplied to the flame - Fig,11 the do ndende,of the coefficient of utiliza- tion of beat (A) and 9:at absorption (B) on the pressure under the roof during the individual smelting periods - Pig.2; the depandence,of straight heat currents during the refining period on the coefficient of excess of air - Fig.3; the dependence of the coefficient of utilization of heat and coefficient of heat absorption o4 the thermal load, with a supply of compressed air of 4000 m2/hr, during the individ- ual smelting periods - Fig.4; the dependence of the duration of malting period oft the specific heat consumption and on the concentration of carbon after malt out at various thermal loads - Fig.51 the dependence of the duration of the melting period and specific heat consumption on the concentration of carbon af ter malt out at various thermal loads - Fig.6. On Card 2/4 the basis of the results obtained optimum therzal operating  SOV/133/"-9-4/29 An Investigation of the Thermal Performance of a 5W Ton Open Roarth Furnace conditions for the 5W ton furnace were established (Table which decreased ths consumption of conventional fuel from 125 to 108 kr,/ton at a duration of heats not exceeding 11,5 hours. In view of relatively lower heat losses per ton of smelted steel, the consumption of fuel in 500 ton furnaces Is somewhat lower (15-20 ka of conventional fuel) than in 250 ton furnaces. The uve of compressed air has a positive effect on the thermal work of the 500 ton furnace, as it permits decreasing the coefficient or excess air to 0.9-1.05. At thermal loads of 35-40 nil. k cal/hr an average 5000 a-7/hr of compressed air is required (varying the supply according to thermal loa4s during the individual smelting periods fros 4000, to 55W M-7/hr), On the basis of the results obtained it can be expected that the character of the distribution of thermal currents and heat exchange conditions in 700-800 ton furnaces under design will be approximately the same as Card 3/4  SOV/133/5a-9-4/29 An Investigation of the Thermal Performance of a 500 Ton Open Hes-th Furnace in 5W ton furnaces, A decrease in specific host losses in '700-800 ton furnaces should somewhat Improve the coefficients of the utilization and absorption of heat in comparison with .500 ton furnaces. There are 3 tabless 6 figures and 5 Soviet references, ! ASSOCIATIONt Kiyevakiy,politekhnicheskiy inatitut i zavod in, Voroshilova (143%w Polytechnical Institute and the Works im. Voroshilov) Card 4/4  90080 jrqj~,$, prof#. doktor tokhao neck-, OUKOYSXIT# V.I.# ivisho *k'-7- 'I "~~ ~- w ItItIMICS1 SnIllIll Of Jb* beat OUtPUt Of 5Wtog end 2506jag capacity open-boartb furamooss Bluls T=IICM no. lotb-15 158. (Open-hearth furusees) (NMA 11 s?)  IOCHO. V,S*4,f!!!og doktor tsklhn.vaukl OUXIDDlUff, Vol.# IrAhe tn"rature conditions in 50()-ton qpen hearth ftruseove'livevroombabosuvoi chorimemsto wolOI?5-83 0 '58s 11. K k OlAr I (mu Illu') Of 49  AUTMR: Kochos V.S. 32-1-22/55 TITLE: A New MethA of Detemining the Degree of Blackening of the Sur- face of a Bod, (Novyy metod opredeleniya stepeni chernoty poverkhnosti tela). PERIODICAU Zavodakaya Labomtorlyn, 1958, Vol. 23, Hr I , pp. 53-55 (USSR) ABSTRACT: In the introduction it is said that the hitherto known methods mainly refer to the determination of the degree of blackening car- r1ea out In laboratories. The methoi rvoo=ended here iss however, -suited for direct application in plants. It consists In me uring the heat current impingIng upon the body I.Keed " that which Is ref1doted from the body (qrefl.). for ~1 pur"s therwnterst calorimeters, or thertao-probes can be used. [Ref.i~43 Thetuo ab- sorption is assumed to be A q z qdireot - qref 1. The amount of the reflected heat current depeMs on the heat absorption properties of the bo4yo Aichs in turn# depends upon the degree of''blackening of the surface of the body (t). On this basis a nwPhtr of theories Is developed here which my serve the purrose of carrying out.thess Card 1/ 2 directions, and suitable examples are given. Among other thingst  A Now Method of Deterudning the Dogma of Blackening 32-1-22/55 of the Surface of a Body the application of thin theory vrith respect to the determination of the degree of blackenlng of slAge In an open-hearth rurrAcre Is desorlbe,ds and it is 4xplatned Ovat the ratio tietaver ts"rxturv And degree of blackening can t,* determined. This r4ans that, if the Aegrte of blacktnIng of the slag in An oT.,cn-heAeth furnace is knom, the temperature of Its surface can be calculate-d aooording to the 4 t qr,erl. - fortula: T im irect fco where 00 denotes a constant of the heat milAtion of in absolutely black body. In the paper a table of the degree of blackening of the slag is mentioned s witb the help cf which the wurse of the volt of smelting in an open-hoaxth furnace can be suitably oontrollel. There are i table and 6 Slavic raferencea. ASSOClATIC"I KiyW POIJUMMU 2Wt1tdt* (Kiyevskiv politckhnicheskiy Inatitut). AVAIIABLEs Library of Congress caw 2/2 1. Vlaterials-Reflective effects 2, Platerials-Thermal, effects 3. Calorimeters 4. Tbersaisetere  not Porls th"OnovIch; ZERAFUT. X.E.9 akodealks otvor*461 XINMI. ?.X.. red.isd-,ra; KUMM, T.To., likolaL llkolaevlah Dobrokhotov, Klov, led-vo Akod.na* OW 1959. 29 P. (0U 13;2) 1. AN OM (for tWmww). (Bobrokbotov, likolat likoleavich, 1809-  PMU I WM nPWITATION SMA710 .r,y-ho,, V.S,, Doctor of Technical Sciences Avt'j%*tY1*t* Iya u chornly NoUluillyt (Automation in Ferrous Netallurgy) Ky7tv 19,59. 37 P. (Seriest Tov jewo, dlys poshyrovals, politychalkh I naukovM znar.' UkrSSR,, Ser, 7.. no. 9) 9,W copies primtod. Ed.: Tu. 8. Xornilov, Doctor or Technical Sciences; 94, or Editorial and Publishing Sections A,$, Toplyazovs, MAME: This booklet to intended for general rea4ers Interested In the progress of autowation in the 4owatic imetallurgical Industry. C-MMAM- The booklet., Issued by the Ukralaskays. M Society for the Dimsexination of Pblitical. and Scientific Infornatioup discuses the progress of autowtion to for wtallwa. It contains concise infor- mation on the automation of blast furnwes,, open-hearth rurnaees,, electric furnaces, and converters,, sad includes a discuselov oft surafacturt by rolling. The author also considers the application of compatere In the Industry, So personalities are mentioned, There are 7 references,, all Soviet.  tOCBO, Y.S.mLdektor tskhn*n&*, prot.1 OBAMMSKIT. V.L. Insh. Changes of pressure in opsti-beaft furraes vertleal Cas flues aperatiq with coWessed air* Iswovymchabasavol chersonsto 2 noo6t93-97 ;s, 15ge (MIX 1311) 14 11yevskly poll telbalcheWr lastitut, bkomisadowaso katedroy avtomatisatell metallarglebaskikh pratsessov I pecher Myevskolgo politekhnicbeskago lwtttut&,, (Opea-boarth furmass)  IDCHO. T.O., doktor tekbatuank profal OXAIKMXIT, T.I,# kandatekhnmak Statistical sualysis of thermal processes to a 200-ton open-hearth furacee Isvavys*1ucbsb~savsj chernomet, 2 W117slOS-110 A 159# (NIIA 1312) 1. 11yovskly poll taktrAchosirly Institut. (Open-hearth ftrusees) Mrometry)  SOV/133-39-9-8/31 AUTHORSt _Aoqh2,_y,,j,j Doctor of Technical Sci*nc*so Sabiyev, M*P.s Grankovskly, V.I., Ploshchenko, Ye.A. and Molchanovs Yu6D#t engineers TITM An Investigation of the Operation of a 250 Ton Open Hearth Furnace Fired with Coke Oven Gas PSRIODICALt Stall# 1939# Wr 99 pp 796-802 (USSR) ABSTRACTs Posoibilities of firing open hearth furnaces with a low presmure hot gas of a high calorific value without carburization are discussed, Literature data are 4u0tod Indicating that autocarburisation of gas can be obtained by preheating the gas to a t*mperaturo at which decomposition of methan*twith the partial formation of highor hydrocarbons and carbon part1cl*s, takes place. Exp-orience in firing a 250 ton open hearth furnace with preheated coke oven Sam of the usual pressure Instead of a mixture of coke oven and blast furnace gas Is described, ror this purpose the cross-sectional area of the outlets from doS houses was reduced from 0,45 to 0.22 02 and the gas port was lowered# Compressed air In on amount of 3ooo to 35oo m3/hr was Introduced through the back faces Card 1/3 of the do$ houses. The above measures pormitted  An Investigation of the Operation of a 250 Ton Open Hearth Furnace Fired with Coke Oven Gas Increasint the velocity of the &&*-air mixture from the dog house to 100 to 120 a/sec. The pressure in the Sam vertical flue Increased to the atmospheric pressure and at maximum thermal loads to 10 ma K20. The temperature of the upper ahocktro of gas regenerators was,staintained at 1200 to 12500C. The consumption of oil remained the same.&* on firing with mixed gas* DurinS the melting p*riod# the flano was covorInS the bath satisfactorily but during the refining period at low thermal loads the-lonSth of the flame was Insufficient. In this case$ an Improvement can be obtained by docreasInS the coefficient of excess air to Os9 to 1.0. Changes in the operating indices of the furnace an transfer to firing with hot coke oven Sao are given In tables I &ndl. The preliminary results obtained Indicated that, in rospoct.of productivity and fuel consumption, the furnace operation was satisfactory* Further Investigation of the problem of heating open hearth furnace* with a Card 2/3 hot low pressure Sao of a high calorific value and# In  SOV/133-59-9-8/31 An Investigation of the operation of a 2.30 Ton open Hearth Furuscf fired with Coke oven ass particulars the development of an optla" furnace design Is recommended. There are 6 figures, a tables *ad 10 references* 8 of which are Soviet and 2 XaSlish. Card 3/3  PHASE I WM EMOIT 7,101' WV/34M Kocho# Valentin "anoviob, and-Vidim, Ivanovid Grankovskiv Teploveys, rabota martenovsklkh peohey (Thermal Performance of Open-Hearth Furnaces) Hoscowp Metallurgisdats 1960o 187 p. Errata slip Inserted. 2p7OO copies printed. Ed.1 V.N. Kornfelldl Ed. of Publishing Houses V.N. Sidorovj T*cho Zd.: L.V. Dobushinakaya.. PURPOM: This book is intended for scientific and technical personnel at metal- lurgioal and machine-building plants end at research and design institutes# It my also be useful to students at higher educational institutions specialls- Ing in steel metallurgy, automation of Industrial metallurgical furnaces# and industrial power engine aring COVERAGEs The book presents the results of experimental Investigations of the thermal performance of large-capacity open-hearth furnaces. Peat exabangs In the combustion space of furnaces and the effect of thermal conditions on heat transfer and on thermal efficiency are discussed with a view to  KOCHOo V.8 GRANXOVSKIT:j V-I. Temperature, conditions of 300-ton open-heafth furnaces operating with blown-in turbine air and with st"m injection In the a4r. Biul, T3.UCM . no.1004-36 160. (pan 15S4) 1. Kiyevskiy politekhnichoskiy institut. . (Open-he&rth furnacts)  Koc 1-i (-)IV S "M t M EMMMM W/"O NN"ve 2"fAt" O"U4 "for if soruw"b" sun Okv Or"le"") In I" rsearr a& rr&eU" of OV*64barft Itoolmidda) 0 , MetaUargle"Op IL9(4- 439 P. (serbst Itift lbsb"aardwo ownhoW ""didwAlls) i loan" spewalfew Ow"Oveous Iasi t. To fuum. NM, NwbMkil Z".e No A. GUskWj rMb"Ort 90OW ac %dogma sswwsp 1. 1. ZON&SAM* Proffo"orp D=Utr of ledol"I Seleft"s To At MeArlso DWO" C"414"O Ot f4dudea salesm# 0.6 L Oyu# ftwo"We 9"W of T vp P" "ort DwW 0 tsdmd"l MODMOS U.1 TO. wA To to lave7ski, 'A. bubel Sao of Pdalsuft %Wool Ogcwvj T*ebo Us A. 1. ZWOMV. rams ?us ealuetus of wu4us is letes"d for Mows of "Untme rml%W4 --we - 69 esboou st blewr mhourtless evelsom 00werM& vith votauarsi"t pro, ad ftsts" dwst"# out stelow" Op"I'Luaft is go" ft4ft# cw4 IA  now lamel"WRts) in aw raw" (ce".) 7 COMMajis The com"ties ecatauw Pe"s rwwsowuw uw &rweievams ec hearth steelmakiag Owen mA pwtU~. tbo "rep writum Ur o n 61 sahod& of Uglier p selosufte metarob Imoutdost MA SkIs labonteme of Late", 114bus Von P"Ovaud amit Alset"sa at Uw sel"Uno combromes of Sabo*" at slaur wMatum. "a ftuwIft tagles aft oamiflonds Uw himetits m4. swebalm of ou%m addatioss Ois P06484 of sug tonsues to Opes-blara to 0 win In the sum fluar On-um l1riquots or m s A ite nm (Uw 0 Am 0% of salulalag the mistism ot u= vith bmAdto) I on wafflw or WROPS in tu ops-beartil lAths wtax 4lowltorlsattse p sessi the oestmi of Uw opm4aarth Uwrod mIU&S reelm wA Its micestleal bowtosegimerlsig ymblow to UtV-eapwltl Mrsaimss aendjusdo pmp~rU&o ot Aml, Sases md Uwtr now Is Uw ftma" oadmues shol"ri ad WN 1q"vnmA of kw"UOY stool "&U%7 OrWAO t3w isulleatift at vfid~ med pod, Im Mod" verofts took Part la Uw Alon"Ies st the ye"I as as Oftftnefts l.t. Flumvp TqA* MArls# XA. dUabDv, 161P, Xl% Tfl. Tav"skly, 4J. " sed To. T. CMUdobw (MMWW ft"I testituto)l To A. ZaassUm at k. So xMrs tawv cudi"v mauxqua tfifutsull NJ. mils"istag= at), Cbmdeal Vertallaw of tm liberim lk a A at Us Asa&M of ium AAS ltropww~ MA 9, To, ftwelsteldy k toy* vwikma 110061 POIAKWIS 1"Utel JM. mute ims;uvast"i nmt)s TA, Fda"*;rOftlsw*U%*mlA&Ift ft4lothole Mestlimu)I cut g/14  "A Xt. kyu*w (a&" sdod of do unbl"I Notaumno"I Imuft"), f Reforques ftuav Sam of go "U41". an g6$ ndwvw*o swul lorut. ?AMU OF OOM I Tom" lg*Uftt dIR NOMN Swat ZMU"Wlo Tmoft la Uw Do"lopowt of SalftWls Nesetwok Is SA"l 2. Irraftsew DNW or T*ebmi44 "Umbef, Nwe" st*sl TWUt1At*j, Repladtf Ott" at UO naltus of du#am oxiutias is in yAtou Vith tow 0 1 F cwt"$ et loebasel ulogo"# ~prometnWeldy ImUtat Vmvvft3mUwftX 369"UW914" tomuts"), cut VIA ............  Troatlsq It to LdAUs MA I" nwat imA Llq44 #Up Distudim at h"" ouniffs NAS tune" st"I z"Utoul. bowhomrt" hou" (Pmhaoor Dooter att TwobsMal Salome@)# w4 1. 1. (2fals"r) (M4mkij VMiteundsh"kly imul" - I Ki"T ft13 tale Imsup" uw ran" hrtsrms" n9 Toytov# A.O# t2melmor I am). coatmi MA mtmuft t uw mwrabi hwm o on opa4wwm pmeo" C"A  AIMIIV Serjoy MikUqUylob dokUt tokbe. nask, Prinimall soMat4so ;dA;v Yoles inshol Mz, %ciq ?0=10o Tuol*p isuibol IM- nmo 3.m.# IAAj 31 110"C0 B.1.1, inA., Fuvtyvp O.T.,q in*.) -IM. Y-S.j, doktor tokbou ftik p"f retmanit; W=VICRp lsAop rod.1 MMOOMA, M#Lo# rod* SX41 ;6WnMWA, I%Yop tektao reds of motanunisal fumsoool isparltolls" elb. Usbdo4a wt&Uuro*bo*klkh potboil o.novqo polosboaUe, Kookwas, Oose sambno-Ulkboo Wove Ut-ry po oboml i tmtwi astsumvilf 1961. pg. (mm us 10) (mounirgi4al fW-MOOD-40011vt)  31137AOMAIIA13112) A060/A 10 1 AUTHCRs Kocho, V.8. t Automatic regulation of gas famperature In open-hearth furnaces IMIODICALs ReforstlyM zhurnal. Metallurglys, no. 11, 1961, 15, abstract 11289 (V ob, *Ikvo" v toorIJ I praktike,prols-va martenovsk. stallo, Moscow, Notallurgisdat, 1961, 219 - 226, Discuss. 332 - 334) TWI A three-stage system to proposed for the regulation of gas tempers- ture. A rotating daimper connecting the joint rluos of the gas w4 smoke vents with the common chlainey Is sot up for the automatic r4gulatIon of the quantity of combustion products passing through the gas regenerators. As the amount of a1hut- off of the regulating damipor In the gas and smoke flue Is varied from 0 to 100%, the quantity of combustion products passing through the checkers varies from a difInIto Initial quantity down to zero, making It possible to vary botvoon wide limits the hosting rate wA the final temperature of the gas *hockors. The systovi of automatic regulation of gas temperature hao three ferrowagnetto transducers, whose armatures are connected In such a way that the e.a.f.'s induced In then sun algebraically. 7ho e.a.f. axising In the armature of each Nrrodynamilc transducer Card 113  3/137/6114=/011/013/123 Automatic regulation ... A060/AlOl Is proportional to Its turn angle. The first transducer Is set up In the potan- tiometer measuring the temperature of the roof of %he gas checker as the combus- -tion products pass through it, Uw second - In the insts nt maturing the height- uniformity of the checker heating up, the third - In the Inati nt regulating the expenditure of the gas passing through the checker. The armature of a remote- controlled transducer of gas temperature ard the armature of the ferrodynamia sensor of an I"ramics electrohydroullo regulator, whose drive mechanism to con- nected to tho rotating valve, are connected In series with the thr** armatures of the forrodynamlo transducers, This system operates periodically. At a sharp change of the gas expenditum %nd, consequently, also of the thetsal loads, there occurs a considerable discrepancy between the actual and the requisite gas t"Mrs- tures. Because of this, In order to eliminate the rise of such undesirable condi- tions, In the case of the furnace being heated with blaat-rurnace coke mixture, in order to vary the thermal loads it is possible to vary not the gas expenditure but the calorlolty of the gas mixture. SInse during the interval beumen r*h&M- lingo the temperature, of the gat checker gridually falls, leading to oscillations of gas temperature drop -in the time Interval from 30 to 1700C for various open. Ca rd 2/1)  Automatlo regulation ... 8/137AIAwAnjM3/i23 A060/1101 hearth rurnaoss, in order to 'olinimto this drawback it is rjoomsersded t* mks use of an additional hosting up of the gas after the rtgenerator by mans of air food through speolal nosslos, (Abstreater's notat Complete trwwlatlon) Yu. Nechk1n Card 313  Imsop Yesp i TIol PSEMOVAS TA.1 IMUO T.L. T-11 ~Tf i ORLUMIn .Dymmie obars torl&U" of opoo4warQ fumoof asowdift to gnaw in tM witift saw* javovpouWwb9wvoj ahernowto 4 so.6266-112 161o (XMA 244) 11, Ilp"kly poUUMMabookly lwtiW. (OOD-buru fWww")  Investigatim the feasibility of *nsurinr t1v oFtimum luminosity .of a gas flame Izvo vyso uchobe tave: abern. met. 4 no.8:143-148 161, (MM 1419) 1, Kiyevskly politekhnicheskiy institute Nmaces-Coubustion)  00 0 TtS,j MAMISKno V.1.1 MIMUlp T.G.; PIOMMUM-P jo.A. *aluatins tbo dome of blAcknose of a flame hamaos torob. zavoub& 27 n*,5sV4-5" 161. (NLU ]A10 (Metallurgical furmates) (riame) 0. 11  X0GWq V.S.., daktor takhn.nmkl MUMWMY, Vol., buidotekhnamuk Method of OCUUMMS dstsr*iMtich Of W rAtO Of OwbOn dioxide evolution from open4oarth furomm baths* Kett i gornw-ud. loom* uo.409-" 31.4g 162. (MIRA 150) (Oprn h!wth procs") (Carcon diazWo-heaswesent)  3/133/*2/000/004/W4A0 A054/A127 AVMCRS1 Ko h9_ V-S-; Panasyuk, A.D.; S&SIsmOv, 0N.1 Strel'.chenko, A.G.1 Mai-brunyak, 1,0, TITLE i Cermet tips made of zirconium boride for thermocouples used in the continuous measuring of liquid steel temperatures PZRIODICALi stall, no. 4. 1962, 317 TEXTt To develop a hWy host resistant material for thermacouplo tips used In the continuous measuring of liquid steel temperatures in open hearth furnaces, tests were carried out in 1959 - 1960 at the Inatitut notallokersalki All UKrSSR (Institute of Oarmets of the Academy of Sciences UKrSM) with therm- couple tips made of zirconium borlde. The Lips, 120 m In length, 11 = O.D. and 4 mm I.D. were tested In 185-ton and YN-ton basic open-l-earth furnaces Into whbh they wort placed by hand-operated thermocouples, equipped with blocks~ 25 = in diameter " S)O am in length, made of reinforcement stool. TVw zirconium boride tips, which are more heat-resistant than those made of' quartz, wers Immorsed 10 - 11 times with the Immersion time increased to 40 - 45 sec. To establish the service life of zirconium borlds tips for continuous opsratLon In Card 1/2 00rmet tips made of A054/AI27 the natal-slag bath# tests were carried out In 10-lon and 250-t-on ON-h-hearth Nrnaces, The thermocouple and the Steel tube tuyere tip WGIV Placed In a Water-cooled nosolsas' with copper bottom. n. tip was f1jwd to the device wl 5 RM thick asbastos cord. th (up' to 25 mm) Bottling on the 710 metal layer (3-5 mm thick) arA slag laygr tuY"rs wall during ImmrslOn could be rvro d a ve ore easily if the tuyer" was mfrActOrY-costed before Iffearalon. ftV r, it was found that In the arrangement described tho 21rconluis borlde e the thermocouple against the heat of the bath " not 82 tip Only Protected broke the seam after a continuous im=rSIOn of 2 - __ Inst the gases which the authors developed a three-lAyer tip shown In & .3 min. To eliminate this, temal jacket against the heat, an Inner al figuM, consisting of an ~x_ 'h'reas the gap between them was filled %,I undum layer to ensure gas PermeabilIV, part or the tip was filled with Z1 th burnt slum1num oxide. The bottom Inertia. At the upper end rconjum borlds powder Lo decrease its hast As a result of using a the tip I sealed with O&Ic, t_1W now "-30/6 apn_ ~ed dOcAlrburlzed asbostm. ture measuring takes Place with gmat( VA) type thermocouple tip texp&rs_ accuracyl In the ;500 0 deviations are not greater than :t 1.50C. The bath tomperatu, an R19-09M ~650cC range the Ups operate (EPP-0910 tYP9 Potentiometer, at a tape rate r* Is recorded with 60 minutes. continuously in metal for at least 150 Of 720 am/h. The '____~Card 2/?' There are 2 figures.. minip In Slag for more than  AML V-~$X!Oktsr UMM*Ugukl MMOCOOO A.0, Iff"t of twbwlo&a old but allneariv Watwo an tm*ora. tore ocaditlaw In cpsis-hur -famda =61MIS the flaishift I perlad, Ylet.1 prwradpva. no.5s2A.2 M 0 1 (XMA 16 81) 1. "vekly VoUtOMMIcheakly intitut (for lcoW). 2. ImUtut avtomtim O*Spl=A MMM (for StrellchaWo, .(Apa4mrtb process)  V-9-1 STRZICM=p A,G.; 14YONW,, 1.0. Timpon dmUU*m *f a 2Wtan operp-hearth famam bath in t1a finishing palodo In. vys, vehob. uvbl "em met, 20091"1 1624o (Kau 15110) le Kiye"kiy paMdAL bobehadJ4 Institut I lastitut aTtamauvA (Open-hearth fum"")  %OGHO T 8 MWMXIT 0 Vo 1. 1 AIMAI,, T. 0, - hViLU* for regaUtift the Im1weltr of the pa furmsee r2amo Isvo v)vo usM'bo uvol aborms mt. 5 so.221IM-237 162. (KMA 1611) L li"My poUtalWabookly, lastitat. '(0peri-bearth tumoss) (fts bamrs)  KOCHDp V.8*p Uttar t~Wm.nmukj WMMKIYj VoL, kand.tokhmnsuki --WMUj VoLep inMaj MOLCHMOVi Yu,D,, 14W6; nORO, Cb*&,# insho cmpmu,;* analysis of tberml prooes"s In 500-ton open-bearth furnaces in t#do mistallurgical plantso Stall 22 no.D23-27 Ja 162, (MM W 12) (Opmn4warth fvrmcos)  0 doktor tokha. vA61 GRAXKMKIY# T,Z.p kuW. tokba. nauki 14A.0 ingbol WAPIKp T*.P.t Insh.1 STPALICEMKO, insh, Seleating an lopulm-Woftluate the presso in the boarth of anIop6n4warth ttrmoo, Not I comaW. prm. no.1162-AA A,J 62. (MIRA 16t;7 20 "vokly poUtekMlcb"kly MoUtut (for gocWt Omkon*ln brolow * 2 Zoormankly astallwoobeskly savod (for Dx7apLk# (Ope*4"rth rumoom) (oss now)  LEVINj Semen IAzaravIchj a Vag&,, dcktor toklin, naukp ratmenzant; WUOO 5,9.p kands tokbno neukp ratoon"nti "JkATSZITj I.I.p kand, tekbno nauk (steel aroltin; Processes; 1,17olcocbmical and -tocchnoloirical. primiples) StaloplavilliVe prou-0ovoy; Miko-khtricherkle I tekhnologicheakle o9novy. Klevp Coo3tokhizdAt U,:,X-k, '1963 403 p. (Y."!A 1;1 A. . 9)  dqktor tokhaawk; GUUMM, V.I.,, kwW*tekhn*m&uk; XAM*O I.L. Improviag the toqperatv" control mun or open-bwth farwasse Avtoue i prib* no.1&21P%U J&-* 163,o (XIM 16s3) lo Uyevskly politaMmlebesidy Institat, (Opab4waru fmm") Obermostat)  dokt4ir tokhm, M* UMMWt'y- 1.0 kad. tokloo Sluml SAIM 1. L. IsO.1 MUNUM, INUO got inabol rAVATArAv i, As f ll;h. N"s=4,v the fIft of eambasUes prefteft in opm*4*arth rovM6690 veto I gwoorado PMO 2002,19-a :&-F 163 (KM 1641 L tiymkiy poUtookUdabookly institat (for labo, Onudv"kly, loydek), 2 Owropo"Uhy wtallivotbookly s&vW (for Nolobamys (Oas flow) (OpuWmurth ttwmaes)  UM VA GRANKMIn, V.1.1 DFWIK# %*,?,I SASIUV, MsP-j Aooolsr&Uou of ""Ib"Ah AM=* OP~nU*U VitkOUt amono ISTO v7s, uolkb. say.1 obans wt., 6 w*4&150-M 163. (KEM 160) 1, lly*VskLy poUt*kbAUb*Sklr (OPS64OW-1 (comp"ou" air)  IMBOO V.8,j GRAUMICITs V.I.; MINKS VA, Autoutio control of tberma ooWlUons 1n an opm-bearth fummaso Ina vpa uWwbo uvoj al#tqn. mt. 6 no.4&163-170163o (JaPA lf?5). 20 UM81dy poll Okly INUUt* (400-blarth fwvmsr (Autaftue control)  lWHOp Mop daktor tokhao vat&l IMtOTKIMH# ToNop Insh, ZMA W_ tov oondtUans of ma2ton fbMti nO-41" fdo I06-i NVA Wil) 1. O"My "21tokUlobookly insutut (for MOW, L lq"kiy flual boUtuts tvtcm&Uki Oosp2am VkrM (for torotkayleb).  KOCHO,-V..S.1 STRELICHMO, A.G.1 SAWTEV, X.P.1 DRTAF1Kj Y*,P, Investigating the tesperature conlitions of t1w bath during its oontinuous oontral In ths finishing period, Isys Yys# uohebo gavel cherno mt. 6 no.8j169-174 163. (MIRA 161l1) 1. Kiyevskly poUtakhnichookiy institut, Institut avtomt1kI Gosplans. Uk:NM I Kossamarskly metallurgloheskly zavod,  =90# T go doktor tokhm. naukl ORUMSKIYo I.I.,p kand. tokha. nauki ~ --.- 11- 1 0 V#Z*p lushol DAYAPIlp To,?* lnsh.l TWITSWO .B.H.t I h,j (MORAp N,1*0 imh,l iialcmio, rui6of inshe bating opea-hwO ftmuces vith hot natural gas* IM, I .sormarud, pnm6 uo#54544 34 163. (KM 161 U) :I* Klys"Idy politekbaichookiy lustitut (for lWohop Omnkmaklys Perelva), 2, Zmwwarskly meta-Uurgicheeldy sav9d (for ftyapiks Toplitakiyt Mobs, Stnlld*nM).  BEREZOVSKIYj Mikhail AlskmaMroylchp lnzl~.j X0110A.0, 1'~HAI I Iyanovichp kand, tskhn. nauk; SAIIDVA, IArlsa Vyacheelavoymi Inzhal KOQO V~,!~ ti)a u-iukl retsensent .4_ j d4AW tf!k (Saxpled-data 'control devices) 9Ioktrw*.tq# shchis ustrolstya proryvistogo d,sIAtyIIA, Aiov, Tekb- nika, 1964. 137 p, (Y;I:~A 1811)  KOMOg Vogt# daktar takhriam* Owl~u altatamUes of ataUargUel PrOO08624 lbt. I carsarad. Pres. ria. 2 17-9 Mr-Ap 164 (MA 170)  14 Kom, VJAA daktor taHm.naski LAPITSIT, V.I., daktor tekhn.saukl PA131=1Y, L.D.j ffpgg=AKt TU,Sej WBINSKIT, P.S*j I)RY*,"Kt V'M'j KISLYTO m, Measuring $he tesperaturo of the wtal during the proooss of simelting ift a converter vith a top mwgea blow, mlet. L llw-A"A-Od* prcm. no. 2s29-31 Mr-Ap 164o (MIRA 170)  -PCW V 8.1 cummurs T. I'l IJSMA, V. X. I PossiblUty of sxUvW sombusUen mtrol in qpqj~.bo" fumacess Isvtvpoudwb,"v,l dwrn,mot,7 no, 4sl%m-1~5 064. . (MIRA 27#5) 1. Kiyovskly poUtekboldwakly insUtut.  XDCIP,.S.S,,, daktor teUm.nauk; MORM, I.G., Insh.; KOVALEV, A.S.F Insh, Using water-ecolad thermcauplos for a continuous control of . Dessoxer awlting br the tomperature of astal. Mashimstroanlo no. 200-52 )(r-Ap 164. (KMA 170)  _~OCHOj, V.S.1 PARZILOVICH, V,S.l LYADOV, X.P. Prininali uchqstlyet MTMIMA, V.I.# Insh.1 OftICHWO, ?.To., tekhnik; SPAXAPIMOV, Tus, studentj TASMHKIN, A,I,g studentl UWOVXATA, L.V., student Investigating the operation of oontimous furnaces with a rolling hearth. Stall 24 no.2s.177-179 F 164. 'KRA 170) 1. Klyevskiy poll takhnichook iy Inatit-it i Yomanarskiy mietallurgichaskLy savod.  I-XOCH09 V.S.1 G.-W-AUVSXIY, V.1.1 LBITJAj V.X. Automtic rs,~iUtlcm of the combuation Fro*ess. !!atallurg 9 no.6s 15-17 -jj a 164. (,'ai;A 17j9)  Wc"Op ytqfs doktar tvkhn. nauk, prof.; RITU1, InO.; F.T.PSHCHIT, N.P., Insh,; VV#OGRAWVl P.M., insh.; WASHCHUrp N.M.. Iftzh. ContInuouto teVeraturs control of %n open-hmrth bnLh during oxygen blowing. Stall 24 no.&Op-,jor) A,6 t(,4. 001.14 17jq) 1e KiYOV9kiY Politekhnicheskly institut i M4tkpypvW1 metal,lurgichaskly savod.  XOCWP V.3l.; GRUXOVSKIY, V.1.1 NOCHETXDV, Te.A.; 7AKHARCVA., Yea. Dlstrlbutlon of combustlon products ln open-hearth furzace regenerators. Isv. vys. ucheb. sav.; ahem. set. 7 no.10t 149-154 164. (HIPA Vill) 1, Kiywyakiy polltokhnichoskly Institut I Xomsmunarskty metal- lurglahookiy savod,  KJMJI TOIS. doktor tekha. naukj MANXOVSKIT, V.I.t kand. tekhn. nauki Rfliip Y.L., kand. tel&m. Sauk Autcootio oontrol of Industrial and thervol conditions in the finishing period of open-hearth molting. Not. i jornorud, prom. no.M7-19 Vq-J# 164. (KM M10)  440ow tekhn, nauki SWILOVICH, V.S.1 LTW, X.P.1 NEBYACIMS A.N. Improving the opersUon of roU*r hearth heating furnacts, Not* I gornorWe proms no.101-72 Js.-F 164* OG RA 17 j 10) V.. .  -w"90i I GRANXOVSKIY# V.1.1 PEREWMAO Y.A.1 AKMTAK# Y.G.1 ORTAPIK# !.P.; TIPWISKII, BAI OWBA, N.I,j SMLICHtNXO, Tu.G. Tomprature easditions of an opon4warth fume* heated vith solfa or burs tting natural gas. Stoll U no.10o$924193 0 064. (MIRA 17#12) 1, Kiyovskly politakhalebackly Institut I Koamunarokly motallurgichookly saved,  KOCHO, Valentin Stepanovich, doktor tekbn. nauk, prof.1 ,W."CV, 7*515-6-yre-hj, daktor tekhn. nauk, profe; STRELIMIKO, Aleksandr Origarlyovich, kand. tekhn. nauk; KIWZY, Favel Stepanovichi kand, tekhn, nauki UFMOV, V.A,p doktor tekhn* nauk,, retsenzent; (Continuous Uquid steel t4operaturo control in the finishitg period of open-hearth swIting) Represymyl kontroll teepers- tu shidkol stall v period dovodkl martenovskol plavki. 141 V.S,Kocho I dr. Kiev, Tokhnlkaj, 1965. 226 p, (M1RA 18s4) le Chlen-korreqviDdent, AV Ukr,= (for Samnov)o   ,!N,1100-.LS.s,,doktor tokbo. nouki SUMIW"Cfft Y*So; PUAW=g L*Lsj NMCRNIIO Ia. Autmatle eantrol systm for hoot-treating fumaces with roller sales Art* I pmb, no64M-79 0-4 064 (KIRA 1812)  IAVCYSKrY, V.I., ot-f. red.; IJIGIYZV, A.M.9 red.; DORM, Ye.A.0 red.; GUNKOV, M*A*, rodol ZARVIN 0 Ye.Ya., red.; UngrlNj YsA.p red,; IOCH04 VIS P redej KUMIN,, V.A.,, redq LAPITSXlYp Mop ia.-j t9v 0 S.L.p red.; OUS, G,N.p redol WMITS, V.A.# red.; UHRIKHDI, P.V., red.; FlLlPMVp Sol*# red, [Theory and pyactice of the Intensification of processes In converters and opez~-hsarth furnaces; transactions) Toorila 1. praktika intensifikatsii protsemsov v konferts- rakh i martemovskikh pochakhl trudy. Moskvaf Yletallurglla,, 1965. 5%,P. (MIRA M10) 1. Meshvusovskoyo nauchnoye soveshchanlye po toorit. I praktike Intensifikats1l protmessov v konvortorakh i mar- tonovWdkh pechakbe 2, Moskovskiy institut stall. I splavov (for Filippov - 3- Zbdn=vWdy mt&.Uurg1cheskiy Imatitut (for Kapustin o k, Urallskly politakhnicheskly imstitut (for Uwikhin~ ,  VaTfOXHIM, A.X.: 6RTOrKr,, V.M.! 3HW!Att VJ., dtktor tilkhn. rAuk) BUDKOMIM, V4A6j fAZ~.LXVSK7V#I A.P.~ "Cl-ISUT, AOAO Towerature aorAitioal of,& O)nvolrtar beth vith alr and steas- .2' wqgsn bottou blwb*o NOto I lOrnOrwd* Pr*u' nool' -" 1813) isa 163o Ocu   - 3 I ; N 'Ili I U. ,;- I ~ R.1 . 2. .- : , MIIMM~l  SOCHO,.V*S,.) ORAMMYS Vql,l PIRMANAp V.A. Autcatic pmoftro amtrol in oPsn-h"rth AwftOos- ltv-vY$, uabobosavej cherns not* S no,4o222-,UJ 165o (MIRA 1804) 1, "Yoldy poUtekbaicUskLy institute  , fir- 4-,qF4~- m MIN, as m Fill I&H ~NAWIRM,  - 1, I ~ F I I . , -  I Roll-, lo~ 111-m-  A.1.1 IM1.1,17-INtO, Tu.l.; MTKHIXA, V.I. lr.j-#atlgvl.lr4 tiv- h4at, acTJltlrrvp of rngemorat!-- so"Irg pits, (MAPA 1610)  dektw tekb~6 am&; GRAUMKXTp V.1.1 PMULWA# V.A.; XkMv VA.; PUMM# L.L.1 4LOUp X.T.; MUSINILI, V.I. latompitleaties at Qw op ties at open4warth twv^o" ty ths embiud foodim of myge ad o=p "od air, Note i gws"* pmo noo)875-76 lf+p-Jo 16% (KIRA IS s 21)  rao & 9-0 daktor Ukha. aafakl PAVANBUTO L.Dol MfltTNM,, ru.S.0 DMHMOO DoMo Thanal owditi~ In an oqton,-Uon somMoore Not. i gwmnd. prom. no,4sl6-2o n-4 165. (KIRA 28 40) 1, Kiymkiy pdit*Wml*Mekiy lostitut (for Xoc0iot Paymmokiy). :2 Dw"raftstrmkiy mt&Uurglabookly instltut (for Reshato7akv j*7~5-  KOCHOS Vq$.*# daktw to" maukj WIN, M.P.1 ALIBOMA, T.P.j 'MRWIMS V.I, Is"stip" the thusel sanditiom of eampariments of ropmattis seskift pitse *49 1 gor*wW* pros so,P40-42 MI-Jo 065. (XMA ISIU) KOCHO VGS GRANX075XITo V.I.; PZM~Wp V.A.1 NAYDEX, Y.L.; MADFIX, -4%n-~j KULIKMt V.O.; PRIUCIZANX0, A.Y*.l GRUUNt T*.G. In"stigating heat trawfer In vaT hI& capacity opea4marth fursaces, Stall 25 so,12slO111-1085 D 165, (mm M12) 1, Kiyovskiy politekbuieboskiy Institut I Zh&novskiy astallursi- cheskiy savad iae Illicha,  44575-M C N& Ap6015685A0 y) SOMM CM,# MV0413 INVMMRs Kocho, V. Go Strollahenkop As Go Chuprovsklys Lo Fe ORO: TIMi Thermometric method of masurlng'the flow of high-tempraturo W. Class 42* No. 181~1-6 M BOUROX Isabrotoniyas preashlonr47a pbrostor'O loverwe snakil no, lee 1 966o h4 TOPIO TAGSt gas flow wasurement,, hIgh temperature pop gas now ABSTRACT: This Author CortIrlosto Introduces a thermometr1o method at measuring the flow of high-temperatuve gas by measuring the temperature at two arose sections of the controlled flow. To simplify the measure- ment.. atomi2ed water Is Introduced bitween the two measuring points, The water evaporates and the gas no* Is calculated from the difference in temperature at the two arose sections and from the amount of beat consumed for reheating the atomized water to the temperaturie or the second cross section, (Translation) (LD) SUB COM 2V sum DATs, 26Feb65/ not 66ii2i.ea----  'AUTHCR.- Kooborodskiy# Z,, Xnglnoffr SOY/29-58-9-16/3* TITLE: u1 MoNso (Vaduvjqyo doma) PERIODICAL: a isolodeshi 27 (USSR) Takhnlk 0 1958*_~r 9p pp 26 ABSTRACT: This In a condensed tran.slation of a Polish-language paper which was publisholl in the periodlcal "Gori- zonly t*khn1kI'1v 1957t Hr 1.(Tranolator not given). The roeflng-in of large buildings, as for example a atadiung a circus# a c1nemaj or storehouses =eats with great difficulties. Even the liChtest type of roof requires a complicated girder system. The method described In this paper permits to conatinict roots of arbitrarily largo dimensions. It is basically that of thin "roof bigs" which are maintaired in their shape by a light excess pressure froz within. This Idea is not new and the construction is bast-d on the principle of a balloon out off around the equator (not f1cure), Experiments showed that a pressure nxcoo-,ing atmospheric pressure by not =are than 7% Is nuffiolent to keep the roof Card 1/3 at wind velocities up .,* 80 m/soc. During a storm  Inflatable Houses S07/29-513-9-16/5* -the pressure within the building must be increased. The required pressure Is controlled autotatically. This anall excess pressure Is not discernible to persons entering the building, Only when leaving the building one ham the sensation as of ctejpJng out of an aeroplane. One of the most outstanding advantagos of an Inflatable roof is that if the roof Is suddonly daminged, and, for example# Is ripped open it mill slowly and softly collapse without creating great d"~ige. The zaterial for such roofs must be durable, weatherproof, ar.4 watertight. In order to increase the wearability of tte fabric it is produced double-layered. k conting of synthetic neoprene rubber renJers the material water- tight. Condensation effoots are suppresced by means of ventilators or by moisture-absorbing V,*nts. The, fretszlr~z up of smaller roofs can be avoided by continuously keeping the roafAn motion by varying the pretaure. clreAttr roofs aro do-lood by infrared radiators. The greatest advantage of inflatable roofs Is their low cost, There Card 2/3 are 4 figures.  o c jq ) fR i-,A) A - (, Polosix, V.S.0 (NoakTA)l ZDUWA. A.D. (Noskvs) SOhOOl eVerlosau 02 ow lys"68181AM OlUation Of amowAa, IMS. v shkole 12 so*2841." "P 157. (XI" 10, 3) (Amogia)  ZDCMVA* A.G# (C. tirespoll.). - - I StuWas the ladvatrial prepantion u*Uwd of pat"alus chUrlds is a choulml alrols. IMav oWmIs 12 moAtW50 41-4 15?. lets) (Xim (po"Salum ablorlde)  =HWA4 4%,0o _ L"ming tho twMammitals of Well-atpr waW"Svav In a essonIM schools Politekhobveh* -no*1133-39 Js 139* (NVA 221,2) I* SrsM%%A abkola Xo*U. g. Ifir"poll. (fir"P011.4t"Iftl one *rise-Stva7 WA tw4hing) (saw namesaurs)  KOCHDRVAjk-.Ao~O.~:..,.,, Indaltriol Stetting of I moba laboal studull at foa Industry outorprisam, Folitobboobucbs ooo9sl5-20 8 159. OaPA 22M) 1. P-do-glabooMy Inatitus covir"Pova. coewsure)    IOCSORVIP A# 00 Stu& of phosphwo fortillsers in high sehoal. Sch. sap. Tlr. Coso pode: Inst. no.9017-228 160. (NnU 16s 2) (Forulisors &W manures-StAudty and toachlng) . (Phospborum)  IOCIWAp At Go State of the prowl" of simml hruusors In the sob"Is of Xol&vU. Veb. sap, fir, gess pod. issU so,,91207-M 1600 (MIU 2612) (Xol&vU-YorUUssrs &W nmro"%* &W Uadm")  ;'~-.cretion of And Fillor'-scerl. :Ctaoolltes 11., t%t- sllriw~ of rsyclIOLICS P4twentbera,rutic Yroro6,srcs.- rc, 'ctivitar, torvosa 'L V i, a,,, Vol 5, "a 2, :av 63; 1,,-. 2,,a-21v'. Very coinirrehensive study of urinary excretion oi -11ner-hrIne, and their key metai>nlitcs in rs-7chotic raLie-.-its dosed ViL'.'; rvt. chlorpromazine L.v. and In onc- 15-year-old =nic-de~mrcssiva 011cr several =onths on various trpatmeiit re;im;is and vary1r.:; clinlc4l conditinDs. DaLa und to aurport 11of"er-owond hy.,-,otheses a;.#out -s::c.-otogc-.Ac1ty oZ a4rcnochrome or some cndo3enous metaLolite closely rclatrd thercto. Grarh, 13 Western rcfrre.tces. -j  Tim v ImAl I p V a I Irish UAIAXHUUV A o F. insh, ; KCV MIUN p S ON* Crane job t*Ar assembly opes- tionso Mont, I :spot* rabo v strolo 23 no.7s2&n #61o (KIPA 2,4:7) L Wsb&kWy savad wtallokoutruktoiy. (lulsbald-4rues p derricks,, sto.)  BROMO V. L*j ~ cbmautittl" of t" "tm of ammd"tordwasma CPU I spektr* 13 no#61665-W .2 062o (KIM 2611) (parlsom-Apatm) (onterl=--splel")  MCMA At L= A Nioroscoplo skastoiW of the awalum f1trone Gordis, AMamoo, gist* I aidbr. 36 no*6t77.?9 Js 159. (NINA 1219) L Uffdr& PfttolO4IGh*6kOy amtoall filav. - O"lashensw7 d*Atel' U&Wd Vrof.X-&W') KIM*kogo instituta usoversher.- stvovanb,s vraehs7.0 (HIM# aftt6 & histol, annulus f1trosus, staromoopy Ons))  lUffo Me [ForsdiollifW9 Xoll PQFCLO?iW. A. (Parolotalkyl, A.Is 20MIDO, A. j # A. (Baroacmelkyl. A.]. XU"" r"ol MWIMUNxi Earobsoblvelkyls S.19 r*dj-,kqCAOMT Alp r"Ol I po Mums 1.0 "do Edooss"s WJIU. Be p etv* to vMskl Summs Too taktWorsdo tlkw $mist Vaning is ft ""a-Mr plaa, 19WI965) ladissalks TmIns v squirlobtels 29."-1963o Kylv, Darshpollftyftv UM# 1959# 42 iss"s. (xnA 13:5) (Vmlas-41oommlo polloy)  MOCHUS"p A.D. Ukraine warobes into ocummudsme Sanks, i sbyttla no,2le6-9 V 161 * (KMA Ut22) le Perv" samstitell prodse&Ulp Oosplaw UM. cocAitims)  p Softommshevelksog.),, rod.j go- HTWA, . R=== red, (ugh rates or "Moodo dMIOPMOMA Vwantoo urvlctorlom~ Vygokl t*W rOxVtJM - $&POruk& mw)Wkh poze h. Xylv# Derib. vyd-vo Polit. lit-ry WAs 1960. 97 Pe (HM U19) Mrains-41comodc po2lcy)  I IOM=VO Anton Danilovichl MAOMXKIT, NA, (Drshoobjms'W, NA19 - -54AFYWI" Ehosseats for the asomme de"lopwat of tht musisima GAIJ ftr"ektywy rosvytku wr*dAobo hospodarstva Wamiselkol Mo KAY 0 19"0153 V* (faverystva ilis posbynants palitydwe& I a*Wcmkb nnst$ VmInalkol U& Mor.2, no.8) (KM IN12) (ftnisso4wasomic pallor)  OCOMI AGAMAIM-Uhs,kand. ften. nsuk,; IMIDA, 0.3#.kood. ftoo. as*$ -""w"Fe s ; LUAMMs NJ. s red. Ctr6lftl Of 000NO10 91110slog uo&r as oooditlous for the sawaftest of Industry and 000structIO3 rytasola wroduabospo"ralkobo PIAGUINGUIS IF QOV*h 11111110"th upravIlmls promyslovisth to biAlvcwtstyces lylvo 1956. 34 p. (lovarystTO dils postwronals polltychaftli I aukavykb titan, Ukm Inel kot =,, lkr, 2,, no* S)s (IMUI.trUl 1111111IMP111110%) (N IMA U 112)  DWARCMM# V.Oop &UdsmUp otv, red,j KOROMA, N.A.# CUvs red.; ILDCIItJ 0 L,Dap W.;_RADULp NX# kaW. geogr, nauko red*; Mil Xt GOLS k-w--Z#bi a nouk, redel 0121WAS, T*Sep kaWe biol. nauko red.1 ZAWRITO PtIsp d6ktor pol,-ain. usuko pmf.p red.1 KUOUKAWp I.A.p kad. skon, auk, sUrshly nuobtqy star*# red.1 MAMCH# A.Mop datants red,l MMLI, I.?,# kad. pogr. unks stanhiy ombryy sotr.,p red.; MIMIKO,, G.r.,, k". geogr* naukp red*l PD%FZM# It.9*9 &W*niko red,l TALINOVAg N.N## red.1 MSB=Sp L,Mep kaWs geogro naukq retsen"ut; DIDKOVBXn p Ila.,, kW. pol.-minsr. nauk,, retsonsonti XIMINER, lu.0.,, kaW. geogr, nauki retsetizent; HAMM, P#]Pop retsens"t; WIXIMOTp M.Lp doktor tekbn. nauk, retapuzenti PMOPUCHY.0,, 1.0 rotowsmtj OUDLA *.?.# r-4,4mmgwl BACMSUU# S,?::~"d,-kwWg"rF Oh4WVA# LAO rsddMr- kartograt - - ~ ~, I - ; -V- EAtUs of the McrainfAn S,S.R, sad the Moldsvim S.S.R.) AtUs Mcrainskoi M I Moldavskai M. Moskvaj, 1962. vi p. 90 p. of colamps. (MM 15 3 5) Z? 60- eachvlky)  KOCITUICT9 Anton Danilovich (Kochuboi,A.D.1; SHCHEOUCIVA, F.P., - (Plamitis AM adadulstrative guldancs at the promt sual Planuvannia I bospodaralke korlvmtaLvo n& such"nom etapi, Xyly, Dershpolltvydev UW9, 1963# 139 p. (KI RA 17 s 7) Is Predeedatell Oosplam WesM (for Kochubq).  ri ~'~ -, -W m- ZEW U . 1 1-1 ~ I - UnAamgpx ID)FJlfllllrrs To,* lush,t CHUXACHNNO, I.$ Inth4l ZDCHONTt OW nsho I ZAKWCM=Do A,, lash. poralstellas 'brlw masm IsqtT,4~rAtIs aos6128 Jo 119. 4 (JURA 1219) (TUseaka, 111toUt Daltrievich 0 1994)  I 1~ XOCKW-Xr, I.A.0 1n2h. TeTsKumov's potato dinar. Isbor. i rats. .3 no. 4t14 AP 158. (KMA Ili?) (Potato Maer0bohins))  C-MMUM# I.Aes lush, INRahluea for Uvesjoak tam" by 1*14mirsove Ifflomd by I.A. Zbehubele *akt, I 84MOSOmho 30 noeIIA7-48 1 160, (KOA 131 IS) (Agricaltwol macuum) (Stook and stocktroodlue) V'Nwkp% tw!ntj Met, ISUTWV, T.C., bobnor; W~JLUOTWO-# "del M.. tekbMahely MmMor. toast inuou-so(pme method to plasterlog work] fttokcvo-roubjesa~- ywi metod shtukatuMkh robit. 01Y. Dersh.vyd-va tekba. lit.ry tull 1954. 61 P. (KM $12) 01"teruw)  Ire, C - i V b C I ' /A,. -T. - USSR/Soil Science - Genesis and Geography of 30ils J-2 Abe Jour : Rer Zhur . Blol-s go 3o 1958, 10473 Author : FAlashnikovp A.Zo., Kimberg, N.V., Kochubey, Ye.P.$ Pchube7p Mole Inst : Institute of Soil Science, Acadow of 5cleaces UzrM Title : The Soils or the 111CM Bank Region of the Lowr Am-Darlya OrIg Pub : Tr. In-ta pochymed. Akad Nauk uzsmo 1956, NO 2j 3-92 Abstract : The results are given of an investLiption of 700,000 hec- tares or the right bank or the Anu-Darlya dolt,-v. The meadow soils of the region can be divided into tuo groups: those which have been intensively built un by tall%rtial de- posits from the regular floods and those which bave been veakly built up. fte soils or lov-1ying areas are distin- Buished by their heavier mechanical composition, and occa- sionally by their *aUnity (112-1W tons/hecuxe =0 less card 1/4 USSR/Soil Science - Genesis and Oeogmphy of SoUso Abe Jour Rot zhur - Siol-s So 3P 19A 10473 J__2 of soluble $&Its in the thm-meter layer). 7he madav carbonatat *oU* we formed where the gmund water is n*t far from the surl"ace; they contain 0-6-3-0% hWM, are poor in P, and rich in X guA K. Thtse soils am be di- vided Into three catepries- salt-free, weekly saline (i3q T/heatere or wats),-wA heavily.saline (241 T/ hectare of salt*)o The salts are a chloride-sulfate mix- ture, Mkrshy IuA m6adow-mershy soils occupy a coq*rati- vely small aresio Solanchaks occupied - 9o% 3f the inves- tiasted ares. and fell Into the following categ*rles: ty- pical., mM*w, marsh and residual. on the average the solonchaks contain 7 4 tons of salts par hectare, with chlorid*-sulfate and sodium-magatsium uIxtures predomina- ting* The madav 4uA marshy solonaliaks, which are adap- ted to low-lying areas, occupy - -1% of the rezion. PA&- dov-desert ad modow-takyr soils are formed In the clAn- nals of dried up river-s-w-Rer conditions of weaketed Card 2/4 Card 4/4