SCIENTIFIC ABSTRACT ZALIVCHIY, V.N. - ZALKIN, YE.M.

40327 1 S/194/62/000/006/111/2"32 D256/D308 AUTHORS: Zal:Lvchiy.,-Y-, ~-and Perepechkop I.I. TITLE:. lnter.~erometer for measurements of velocity of-ultra,- sound in liquids and gases PERIODICAL; Referativnyy zhurnal. Avtomatika i radioelektronikal no. 6', 1962, abstract 6-5-29 zh (V.sb. Primeneniye ul'traakust. k issled. veshchestvat no. 12, M., 1960t 132-134) TEXT: For reliability of interf. measurements it is important to h,ave the reflector exactly parallel to the radiator, as well as to provide frequency stabilization of the generator* A description is given cif a simple and reliable interferometerp free of the deficien- cies of interferometers of conventional designs. A simple microme- ter with its clamp removed$ is used for shifting the reflector. The reflector is rigidly attached to the rod of the micrometer, tI,e surface.of the reflevotor being perpendicular to the axis of the rod. An adjusting mechanism constructed on the principle of gyroscopic suspension, provides for setting the reflector parallel to the ra.. Cara 1/2  S/194/62/000/006/111/232 Interferometer for measurements ... D2,916/D308 diator with a high degree of accuracy. A heterodyne viavemeter 528 with a high-frequency stability is used as master oscillator. 2 fi- gures. [Abstractor's note: Complete translation.] I/ Card 2/2  _W EWP WE f - - WP(k)/EWT(1)/EWT(m)/T RM ACC MR: AR6033T15 SOURCE CODE: UPFfO-65ffX570-OTf6fCF/lfb747RO14~ AUTHOR: Kos1kin, N. I.; Zalivchiy, V. N. I TITLE: Analysis of the n the binary system ethyl. acetat Y- AQatic a id _!V SOURCE: Ref. zh. Mika, Abs. lOZh499 REF. SOURCE: Sb. Primeneniye ulltraakust. k insled. veahchestva. Vyp. 20. M., 19611' 127-134 TOPIC TAGS: ultrasound absorption, absorption coefficient, acetate, acetic acid, solution property ABSTRACT: On the basis of an anAlysis of the data previously obtained by the authors on the coefficient of absorption of ethyl acetate in binary systems ethyl acetate acetic acid, an interpolation equation is obtained relating the coefficient of ab- sorption of a mixture of arbitrary concentration vith the coefficient of absorption the liquids making up the mixture. On the basis of =- analysis of the equation, a conclusion is drawn, confirmed by experiment, that the absorption coefficients of lov  L 45531-66 ACC NR: AR60121715 concentration iLixtures divided by the square of the frequency, are independent of-the frequency in s~l temperature intervals, provided this holds true for the liquid har- ing the largel, concentration in the mixture. Ye. Sheludyakov. (Translation of ab- stract] SUB CODE: 20 2/2  Card ],/, PLb. 147 - 32/35 Authors Kc,shkin, N. I.; 2a-Livchin, V. N.; Zipir.. A. 5. Titla IStudy of ultra sound absorption in ortho- and metaxylenes Periodical iZ~ur. fi;~. 30/1, 121)-231, Jan 1956 Abstract Th~ albsorpti,)n of ultra-sound -was investigated in isomers such as ortho--a:ld metAx-vIerias 'ihen ~-hn. rvitu--e of t-'-e bonds b-etween indi-idua-I ;itom groups r--- wis madt.~ a. t,En~t--r-ratures rar!-~ ig from 170(; uP to Larperatures close to critical. The measurements, car-r.Le(; out by mE!ans of a special impulse installation, were eilorg the line of i;al ur- ation at frequencies of 7.6 and 15.1 Mc. The results obtained are pres(Wed in a Lable. Five USL-R rcferences (1948-1955). Table.. In:7,t,itution : Moscow Oblast Peda-logical T-ist. ,Submitted : June 22, 1955  pj Ila N': flif 1; ,1 i V5 g 11 In a o I ; A rg Fir ell :If I I ell CIE 9 V a to. 19, .91 a ve  ZnIVIN, N.N.; FEFERM R.G. ------------ ~-:,jrd drying with the aid of an electron -Invest gating.the process of, 01geillog.raph. Kauch. i rez. no-.903-54 SA2. (KatA15:W 1. Nauohno-issledovatellskiy konstruktorsko-tekhnologichoskiy inatitit shinnoy promyshlennosti, g. Omak. (Tire fabrics--Drying)  I ZALIVIN !;ITTS, YeOFO Contactleve temperature transducer of calender rolls. Kauch.i rez. 21 n'O.8:/+S-/+9 Ag 162. (MIRA 16:5). 1. Nauchno-issledovatellakiy konstruktorsko-tekhnologicheakiy institut shinnoy prollyshlennosti, Omsk, (Rubber industry-Equipment and supplies)  t 0 It it Sip 4 1 -r.-,a 00 00 s A 00 A 00 it 00 0 so Or 4411'eli 00 .3 00 00 j! 00 m is 16 U a w leastill ulf MONO ads al so L. I Vol 0 -"TOO - 00 r---mom War _AeZsd1iwbmo4 .00 n too is. 2Mt V tu. S. S.- 0-11 -The mint. a mit-toconlit". a ";; ntetaf c76kr, a Ni a 400 Slitful tin add ML boud, a twilp, * 114h414014we, 4 switch om .00 Obw totword vNi sit 146hi Aliff-I t4fre". wo-I&m. -mistoce, b6tv, .01 iiii4etzaled). WIWI* nowitil4rd this go. cw tv u*d with any ini"two", and It tumwws a no, al adnattw am the o4hrr typ": it vw"I no twrii- Iwo no the tube of the mktow%w, R kals a hishet entaftc- .09 Mai eveafty, and It "Ift'l the Ulltivistlign 04 The ohill - lot to 1"V (111411 ftwvtnd 44ilex-fq, Wills coo vis* L140 1,00 1,00 its. il, a RAVALLOWCA1, UM Sol., 41# 'No 11" 0'. t 'Pill Ad it. too U %,to to W., it a I - -2 It OA a dims a 'IN a I Is Its a $A as I 4111~ 9 ;; i j " 0" : 0 0 0' '* 0 0 0 0000 of 0 0 40 9 04 4 ~!';d 0 0 0 0 W: 0 0 :9 1000:04006* 0000000006CO0404 to 0 T's i 0 4  SOV/124-58-1-853 Translation from: Referativnyy zhurnal, Mekhanika, 1958, Nr 1, p 114 (USSR) AUtHORS: Kachurin, L. G., Aleshina, G. 1. , Belyashova, N1. A., Zalivina, V. I.. , Kudryavtseva, V.I., Nesterova, M. I., Serebryakova, W_. A. Seryakova, L.P. TITLE: Analysis of the Precipitation Zones of Stratiform Frontal Clouds (Analiz zon osadkov iz frontal' nykh oblakov sloistykh form) PERIODICAL: Tr. Leningr. gidrometeorol. in-ta, 1956, Nr 5-6, pp Z08-241 ABSTRACT: An investigation of the conditions of precipitation from As, Ns, and Sc type clouds of frontal origin. The first three sections are: devoted to a description of the process of the conversion of cloud droplets into precipitation particles. The authors consider thereirt the problems of the condensational and coagulational growth of the droplets, the dissipation of cloud masses due to subsiding motions and the re-evaporation of the falling precipitation; also described are the condiiions conducive to ice-crystal formation in clouds. The reasonings and graphs adduced in these sections are used further on in the analysis of the evolution of cloud masses and Card 1/3 precipitation. The vertical motions are calculated according to the  SOV/124-58-1-853 Analysis of the Precipitation Zones of Stratiform Frontal Clouds metfiod of N. 1. Bureyev ( Rukovodstvo po kratkosrochnym prognozam pogody (Short-range Forecasting Manual), Part 1, Gidrometeoizdat, 1955] and, using a suitable graph, the authors determine the temperature level of intense ice- crystal formation for specific instances. The authors compare the location of the isotherm of intense ice-crystal formation with the location of the zone of cloud formation on vertical cross sections and arrive at the conclusion that the location of the boundaries of precipitation zones is much more accurately defined by the points of intersection between the upper boundary of a cloud formation and the line of intense ice-crystal formation than by the boundaries of the vertical currents. Utilizing the model of a specific synoptic situation the authors pose for themselves the task of clarifying the role of the ascending air currents in the pro- cess of changes in the precipitation zones. They analyze the effect of the vertical air currents on the location of the surface of intense ice-crystal formation and the altitude level of the Lipper cloud-mass boundary and arrive at a model of the evo- lution of the precipitation zones. Here they conclude that the vertical currents should be correlated not just with the fact of precipitation or nonprecipitation, but with the change in the dimensions of the precipitation zones. The last part of the paper is concerned with the confirmation of the proposed,-calculation scheme; it does so by means of a comparison of the actually obtaining precipitation zones Card 2/3  SOV/124-58-1-853 Analysis of the Precipitation Zones of Stratiform Frontal Clouds with 'the calculated patterns. As pointed out by the authors, an analysis of 21 instances, during 1951 and 1952, has confirmed the existence of an immediate tie between the vertical currents within the boundaries of precipitation zones and the changes of their dimensions; here the degree of agreement between the bound- aries of the calculated and the actually obtaining precipitation zones is determined to a significant degree by the reliability of the calculated horizontal air-mass transfer at the level of the upper cloud-mass boundary. The Appendix contains a description of the quantitative -prediction procedure for the precipitation zones of stratiform frontal clouds. Bibliography: 15 references. K. G. Abramovich Card 3/3  "ALIVSKAYA, Ye. I. TMIN, N.V., save duMhchAy--W6droy; ZAMTJXLTA, Effect of thm presence of antogenous pollen in crosubreeding an the viability of the hybrid progeny. Ubh.sap.Len.un. no,,165:3-12 153. (MM-4. 7:7 1. Kmfedra genetiki i selaktaii. (Tartilization of plants) (Hybridization, Vegetable)  ZALIVEKAYA, Ye. I. "Determination of Certain Fertilization Conditions 114-11ch Influence Uhe Fertility and Vitality of the Radish." Cand Biol Sci, Lenin8Tad S'Late U, Leningrad, 1954. (RZhBiol, No 8) Dec 51j) ,Surley of Scientific and Technical Dissertations Defended at USSR Eicher Educational Institutions (12) SO: Sum. No. 556, 24 Jun 55  ZALIVSKAYA,Ye. I. Results on studying the effect of repeated pollination on the viability aTid inherited characteristics of radish plants. Vast. Ien. ula. 9 no.4:17-26 Ap 54. (MIRA 8:6) (Pertilization of plants) (Radishes)  ZALIVSKAYA, Ye.L, kandidat biologichaskikh nauk; BaRMMV, T.Te. In regard to fertillsation and rate of development of the wheat sn'bryo under different polltRation conditioms. Izv. AN BSSR no.6:125-130 N-D 155. O=A 9:6) (wheat)  LySSR/'C-j5,j7EjV-atR-ff1--ants '- rrains. M. Abs Jour Ref Zhur - Biol., No 4.. 1958., 15538 Author N.V. Turbin, 7e.1. Zalivskarc.) A.N, Palilova, L.V, 1(hotyleva. ------- Inst 'Cho Biological Institute of tho AcadezW of Scierces 131olorusaian SSR. Title Oria Pub Abstract Card 1/2 The 1955 Tests on Corn Variety, Strain and Hybrid Tes- tine. (CPAY 1955 a. po ispytaniyu sortov, liniy i gibridov li.ikuruzy). 11 sb.: Kukuruza v BSSR. Minsk. AN B&EZI 1957, 6o-82 The division of genetics of the Biological Institute of the Acadewy of Sciences, BielQrussian SSR studied in 1955 the biological and economical peculiarities of various varieties, strains, and hybries of corn and the 3  ZALIVSK-ly, 1.1'. I.L. Zalivakiy, GeorriU fbahliaju. Sellkhozgiz, 8 sheets. Prouento general InfotirrAtion on dahliag, their bot,inical features and clasol- fioation; mothado of propneating them; hybridization and breadltij,: ncw varioti#~,n; choice of plot; cultivation of soil end uqe of fertilizer; methods of past control, disease control, etc. Intended for amateur horticulturiate and master workmen in greenhouse construe- tion. SO: U-6472, 15 Nov 1954  ZALIVSKIYI. Breading and introduction of lilles in LanIngreA. Biul.Glay.bot.mada M0,23:14-23' 155o (Km 9:7) 1.9av4d imani Voskova,.Lani W ado (Lan.iNgrad-Lilies)  Yue, redAlctor; OKUNAYMVA, loopoltdovighl BROMMIT, Yes '"Mor [Dahlias] Goorginy. rzd. 2-os. Koskva, Goo. izd-vo selkhoz. lit-r7. 1956. 141 p. (HIaA 10:1) (Dahlias)  ZALIVSKIY, aQl;Wfaa9*m-doxUW RODIONENKO, G. I., kandidat biologicheakikh nauk, redalctor; PETROV, H.P., redaktor; CHWATBVA, Z.T., tekhnichesidy redaklvpr. 0 an Kj [Decorative ohrubberyJDekorativnyo kustarniki, Pod red.G.I. Rodiaonenko' Moskva, Gos.izd-vo sellkhos.litrr. 1956. 205 p. (Km 10:5) (Shrubs)  ZALIVUKHIN, N.F.; MSVIRIN, A.N. Recalibrating electronic potentiometerB for a smaller rzaairenent range. Priborostroeaie no.7:28-29 J1 1619 (KM 14 16) (Potentiometer)  ZATZ18XIs S. i oi 4- 0 mamemat on 0 and dMIOV. cmt of sottr cherdw. S,IZsUw%kf LRoorrs, w.4 Rbix., 1953, WA Journal or the Science 131-140),-In airftrdf 'WE-frtlt was obtained when the of Foo4 and #grioulture gram wax cut =t(me* annuttly tuid left on the sittfice as a mulch. When the Crs" was left uncut yWds were poor, but were Feb. 1954 supetior to those obtained when tha grass was cut and removed Agriculture and Horticulture thico times a year. A. G. POUARD.  ST. Krzewy jagodowe. 3, ponr. J. uzu-p. 'Nam-7,aw, Panstwowe Wyd2wn. Roln1cze i Lesne, 1953. 275 P. (Derry shrubs. Id ed., enl. and rev.) DA Not In DLC SO: Monthly Limt of East European AccessJons (ITTAL) IX, Vol. 6, No. 8, Auri 1957. Uncl.  KUMARITASHVILlp M. Z.; RAZDOLOSKrf, S. H.; OMGEBEU, V. K,; ZALMVA, A. Z. Miltilayer mma"n fabrIcs. Izy. vytrs uohob. zaro; takh. taPrt, pram, no-4:73-75 062. (MIRA 15,10) 1. Nauohno-lasladovatellskiy institut teketillnoy promysbr- lennosti Gruzinskoy SSR. (Nonwoven fabrics)  4Ai-lYcvn.:-vV.4--- - ~ - -- I- - -- - - - I- - - ZALMA N. V. 22523 Zalieva 11. V. K. Matodike Opredeleniya Leckorabtvorimoi Fosfornoi Kisloty V KrasnozoMkh Pocifivikh. Trudy Gruz S-Kh In-Ta Tm Beriya TXXX, 1949 S 239-53 - Bibliogr: 5 Nazv SO: Letopts' No. 30, 1949  too**** 00 00 Is VOGOOO eq a -I, A- s*A 000 00 A ood *OR 0 0 It 004 004 . r- ~ at-1 -1 V- 1-1-m W-0c 0 Ill F ..fj VortkA twmAcq for ammeauag glass amd samdar add*@. A /4distlYsk- kuv. M.117,14, Is &T -1--# ... F-ryr 0 o 0 o 41"o w "00644:000*00 0000 0 00: 440 no* ISO* i.00 coo see too ;;6o 4900 400 woo ~~w w 0 a 0 Ml I -W 41w 00 010 Is 0 00 0 sea* 0000 00's 0' 00004 006 O-A 0 0-* 0 0 0 0 * 0090 0 0 00 0 0-0-# 0-0--0L ---  ZALIZ;-TYAK, A. A. Zaliznyak, A. A- "Investigation of the Regeneration of Borate Vapors in Glass Furnaces in order to Perfect the Technology of Melting Borosilicate Glass." Min Construction MateriaLs Industry USSR. Technical Administration. All-Union Sci Res Inst of Glass. Moscw, 1956 (Dissertation for the Degree of Candidate in Technical Sciences). So: Knizhnaya Letopis', No. 10, 1956, pp 116-127  1-9 2-- /2- A" A.A. 72-1-6/13 AU12HOR i Za 1i znya~_~ TITLE.- The Destruction Mechanism of Glass Melting-Furnace-Brickwork by Volatile Components of Boron Silicate Glass (Mekhanizm razrushen:Lya kladki steklovarennykh pechey letuchimi komponentami borosilikat- nogo atekla) PERIODICAL: Steklo i Keramika, 1958, Nr 1, pp. 19 - 21 (USSR) ABSTRACTi The destruction of furnace bickwork takes place as a result of in- teraction wit1the agressive components of furnace gasesq among which the vapors of alkaline borates are the most dangerous. They aie formed during the melting of glass which contains boron anhydri- de and alkaline oxides. The borates of alkaline metals are distin- guished by their high degree of volatility, and therefore the ccn- centration of their vapors in furnace gases may attain a consider- able araoiuit. In the figurou 1 photographo of variovia. parts c-f dinas brickwork of a c ntinuous glass-melting furnace with 20 B 0 and 8 /- alkaline oxides are shown. The furnace was shut do-AM aith a 10 months' campaign in order to be repaired. Melting ten- perature amounted to 1420 - 1440 0 and the specific output of glass mass amounted to an average of 250 kg/m2 per day. The smelting Card 1/3 furnace worked with 30 % smelting charge and 70 % crack-up. The  72-1-6/13 The Destruction Mechanism of Glass Melting-FuTnace-LBrickwork by Volatile Compo.. nents of Boron Silicate Glass average oxide content of the smelting charge as well as tIB losscs caused by volatilization of the borates are s'nown in a table. 9.%(! concentration of vapors of alkaline borate in the furnace gaseo attained 1,1 - 1i2 gr/m3. The composition of the borate vapors was as followat 48 5.% - B 0 9,2 - Na 0, 42,3 % - K 0. The chaxan- 2 2 2 ter of -the destruction oFthe furna.3e brickwork made it possible to determine their natvre and causes. The state of the bricks ahow- ed that the ageressive components of furnace gases are complet,31;f without danger for refractories at high temperatures. Howevert they become exceedingly dangerous in the zone of low temperatures. This may be explained by the fact that the vapors of alkaline bo- rates cannot dissolvo rofractory matoriala, but that thay can do so to a considerable extent in the liquid state, especially dinas. The exchange of dinas in the arched roofs and walls of furnaces against bigh-aluminous stones with mullite content showed good re- sults. Untight seams of furnace walls must be considered to be the main cause of the destruction of furnace brickwork. Means and ways were suggested for the purpose of remedying this fault, among otheZ3 by the use of shaped bricks (which was also suggested b.Y L. G. Coll- Card 2/3 denber,,., and others). There are 4 figures, and 1 table.  72-1-6/13 The Destruction Mechanism of Glass Melting-Furnace-Brickwork by Volatile Compa- inents of Boron Silicate Glass AVAILABLE: Library of Congress Card 3/3  VEYIIBERG, Kallmmi Lipmanovich; GURFIIIKBLI , Isaak Yevgenlyovich[doceased]; KOMAR, Abram Yevzeyevich; NOWIMI, FAksimilian Petrovich; ORLOV9 Anatoliy IlDwlayevich; M- iSMISKlY, Sergey Ser=ovicb; SHKOLINIKOV, Yalcov Abramovich; EROVILEY, P.V.,, retsenzent; .*L~~AX tsenzent; KISELEV, N.V.,, retsenzont; JUGG, D.I.p retSOnzent; SHVAGUM, Ya.D., retsenzent; DJKIIOVITYY, F.N.9 red.; IIIIS'll.11A, L.A., tokhn. red. (Equipwont and mochanization of glaca NotorionjOborlulovanto I mekhanizatsiia 3tekoltrjykh zavodov, (By) K.L,Veinborg i dr. Ilo- slr.va, Rostekhizdat., 1962. 451 p. diagrs. (MRA 15: 10) (Glass-Equipment and suppUes)  I ZAIJZNYAK- A-A.-; KLEGG, D.I. Some causes of nonuniformity in malted glass. Stek.i ker. 19 n0.5:14-16 my !62. (Glass manufacture) . I (MIRA 1515)  DUBROVINA,, N.V,; ZALIZNW, A..A.-; KLEGQ, D.I. Ritrolem residue ea a secondary fuel for glass furnwaso Stek*i kar, III noo5t7--8 9 .7 161., (KIPA 14:5) (Petrolq2~= as fuel) (Glass furnitces) "-I-  VALB c; TSUKAN'OV, A.A.., Inzh.; VINOIKUROV, Ye-A-s tekhne naul, i3j,bv,-Itng of an [[C-1 conipoqLtion glass batch. Stek, i ker, 22 no*8: 8-.10 Ag 165. (MIRk 18-9) 1. ,al GosudarsLvonnogo nauchno-iosledovateltokogo -L, Gusevskoy MI i.-istituta ialuelraa (for Zaliznyak) 2. TuyinazinAly zavod meditsin.- s:iogo stak-la (fLx TSukanov, Vinok~rov)-  . 7) 11, PT-12 ) ".'In. - ALl", IF, I i 6 "Automatization of Teelmological Processes in Gasification of Fuel and Glass 1-~--lting 11 LOST? Steklo i Keramika~llo 2, IM Aug, 3.951 T)n. 5--'  'oerc SWORN mdm ago 'WMA (me sm ;;;ttgadf 1. KLI - fog dvo V- ir. alatr"'C' ~j~j wee" typo 1100 w#  tMVIng of g1- V-1pes wilhoUt debit=4- AJ7 V eOT~,nl-IyA I IA Baux, D V Z--Ivllc. &~D x- &IC110 12 :4j 4797MnT--Mud3 of lIaL, .,L ~:jd .lie char-acte-ristics 1 4- and in. pipes, are B Z K  ZALIZNYAK.D.V. Rxtending the operating period between repairs of glass furnaces. StekA ker. 12 no.5:20-23 HY '55. (KM 8:8) (Glass manufacture)  R xU_T11ORS: Zakharikov, 11r. A. , Piero, L. S. , Domidovich, 72-58--3-2/15 I B. K., Zaliznyak, D. V. The Annealing of-G-f-as-s-Tu-bes (Otzhig steklyannykh trub) TITLE: PX~ I OD I C1, Steklo i Kerumika, 1950t Nr 3, pp. 5-8 (USSR) ABSTRACT: It was experimentally proved that with drawing of tubes of 5o mm diameter from ordinary ,class (of the type of windovr- -glass) at a speed of 70 to 75 m per hour, the residual stresses amount to 20 to 50 mji/cm per 1 min of the tube-Whll thickness after cooling in the engine shaft. With draving of the same tubes from glass poor in alkali, at a speed ;).r 90 to 95 m per hour, the residual stresses attain 30 to 7o rajL/cm per I mm thickness of the tube-wall. The velocil;y of drawing of tubes of 5o mm diameter amounts to go to loo of ruAning meters per hour. The output of the engine could be increased if it would be possible to achieve the first annealing of the tubes in the ringine-shaft and to carry ;?ut the subseauent annealing in special plants. The subsequel.,It annealing is at present carried out in a furnace the Card 1/3 capacity of which is smaller than that. of the engines, so  The Annealing of Glaun Tubon 72-58 -3-2/'15 Card 2/3 that part of tho current tube-prodlr tion ro=ains unannealed on atock in the glassworks at Gomel Test5 were carried olat with a gas annealing furnace which was developed with the assistance of G. P. Martynyuk and I. A. Shilov and which operated according to a principle which is different froin the existin.--,- one. In this furnace, the glas-tubes are simultaneously heated both from inside and outside by mean,- of blowing by combustion gaseB, by which the efficiency of the annealintr-proceso increaseB, as well as the quality of the tubes, due to a more uniform heating. A formula with a coefficient K which depends on the diameter and on the lengths of the tubes, as well as on the velocity of com.bustion gases is given for the computation of temperature, as may be seen from figure 1. This furnace is represented figiare 1 and is designed for the operation of 2 mechanical equipments. Further, the construction and the operation of the furnace are fully described. The glans-tilbea are vertically located in a container and conveyed into the chainbers of the furnace by means of trucks. The furnace hai3 4 chambers and the annealing scheme is divided into 4 equa:. periods. This furnace has been in operation for a period o:' Iliwnths during which 72 kilometers of tubes were annealed,  The Annealing of Glass Tubes -3-2/1r, 72-5a The measured values of the residual stresses are given ill table 2. The temperatures of the conbustion gases at the input and output of the sets of tubes are given in figure 2. There are 2 figures and 2 tables. ASSOCIATIOIT: Institut ispollzovaniya gaza AN USSR (Institute for Gas-utilization AS Ukrainian 85R) Gomellskiy stekolinyy zavod (Gomel' Glassworks) 1. Qlass t~bing--HeAt treatment Card 3/3  AUTHORS: Korobko, !I. I., Z 11 a izaygjL~D. V., Firer, Ya., 72-58-3-5/15 Statsenko, A. V---1--1ffriz,73an-,-Z-. S. TITLE: Automatic Pres3ure-Regulation in Glaas-Meltina Purnaces (Avtomaticheskoye regulirovantye dnvleni-ya v steklovarerinylzh pocliakh) PERIODICAL: Steklo i Keramika, 1958, Nr 3, pp. 17-22 (USSR) ABSTRAM The major part of the continous glass-melting furnaces has a regulation of pr~3saure which in cnrriod,.ou,t by p n. plect.ro- hydraulic system. Tests vith this were carried out in 195': by V.G. Gutop and V. 111. Obukhov in the Gusevskly gla6sworks imeni Dzerzhin3kiy (reference 2). Their insuMcLent reliability and complication was proved in practice. Thiii induced soino members of tho per3onnel, amongst whorr -%here was also V. M. Obukhov, to propose other ay3tama of proiriira - regulation. A series of systems is compared with each other in this work. The regime of chamber pres3ure has a great influence on the technology and thermodynamics of melting, since it produces the gaseous atmosphere required Card 1/3 above the metal,Special importance Is attributed to the  Automatic Pressure-Regulation in Glass-Ifeltinm Purnaces 72-58-3-5/15 U gasecus and hydraulic re-irae during the operation rith a layer of soda-sulfate, as it was proved in the practice of the Gome glasswork3. The composition of the exhaust gases of system number I of tha glass-works at Comel, i's shown in table 1. With respect to the problem of pre3sur,~- regulation, the authors refer to the works by H. I. Korobko (reference 1), V. G. Gutop anf! 'B. 1M. Usvitskiy (refcrence~~ I and 2). An electro- hydraulic system of prosoure-ragulatiron is shown in figure 1. Furthor, the deficiencies of the by6rnulic systems are fully described and the advantages of an elc!c*;ric system, an well as of the rotary slide valves, are pointed out. Data on both equipment and cost of various syStON10 )f regulation are gLven in the tabin 2. The following aomponon~ parts of this system are given: an electric manomo-tart1q, regul.ator IMH - 3, recording mechanism TNW , magn;,+,n- starter . jVKRO-210, executive inochanifim 'Iff 25/12 '0 9 electron regulator:EM -, and others. 3 systomo of rogul4~tion are represented in figures 3, 4 and 5 and a diagram of ';he recording (levice is shown in figure 6. The automatic preasure regulation in the furnace, based on the measurement al; one point, is qualified as insufficient. The use of the regulRtor Card 2/3 M ',of the Institute for Gas-Utilization AN Ukraniaian SSR  Automatic Pressure-Regulation in Glass-Melting Furnaces 72-58-3- 5A5 which regulates all sections of the furnace (figure 7) and which was experimentally used in the Gomel glassworks, is recommended. There are 7 figures, 2 tables, and 7 references, 7 of which are Soviet. 1.' Glabs--ProdUctian Card 3/3  ~IORD, L.S.;..~AL~ZjEg DX.; MAYEVSKIT, Te.R. _ _ _L_. Heat exchanger with movgblo head. Trudy Inot. lop. gaza AN URn no.5:77--87 158. (MIRA 11:12:1 (HAt exchangere)  SOV/ 72-58-7-5/19 AUTHORS: Konovalov, V. V., Chechetkin, V. 1.9 Zaliznyak, D. V. , Firer, bf, Ya~ TITLE: Semi-Industrial Investigations of the Thermal Preparation of Glass Layers (Polupromyshlennyye issledovaniya termicheskoy podgotovki stekollnykh ahikht) PERIODICAL: Steklo i keramika, 1958, Nr 7, PP- 17 - 24 (USSR) ABSTRACT: Such a sintering device is shown in figures I and 2 and is described afterwards. The tests were carried out with two types of layers: the test-and the working layer, the compositions of which are given in table 1. The curves of the rise in te.mperature during the sintering of the two layers under the same conditions, are given in figure 3. The curves of the dependence of the Na2so 4-content in finished agglomerates on the relation of gai, and air in the induction mixture for 2 sulfate-soda layers aro given in figure 4, and are described in full details. The tem- perature curves obtained with the sintering of the teat layer are given in figure 5. Further the authors report on the fill-..ng weight of the agglomerated glass layers, as well as also on the Card 1/3 productiveness of the agglomerates. The most advantageous height  Semi-Induatrial Investibations of the Thermal Pre- SOV/72-58-7-5/19 paration of Class Layers of layer during sintering, as well as the optimum velocities of this process are given in table 2. The duration of the heat treatment, as well as the curves of vacuum-chanjes for diffOl-ent types of layers and heights are given (Figures 6,7 and 8). The heat-treatment lasts 9 to lo minutes. Then, the consumption of loosening- and foundation material, as well as the gas consumptLon for the heat treatment of the layer are given. The dependence of the specific gas consumption on the excessive air supply for various layers is shown (Fig 9)~ The recommended gas processes for some glass-layers are given in table 3. The dependence of' the gas consumption on the duration of the heat treatment and the sintering speed are illustrated by means of curves (Figs 10 and 11). Such a device has been developed for a tank furnace of the Gonell Glass-Works on the basis of the nemi-industrial testE; carried out. A test series of the glass melting of heat-treated layers was carried out by which the technical and economic effi- ciency of their industrial use was proved. There are 11 fiCures, 3 tables) and 2 Soviet referehad a Card 2/3  15(6) AUTHOR: Zaliznyak, D. V. SOV/72-59-2-2/21 TITLE: 'Leading Enterprise in the Glass Industry of Belorussia (Gomellskiy zavod - vedushcheye predpriyatiya stekollnoy promyshlonnosti Belorusaii) YERIODIM: Steklo i keramika, 1959, Nr 2, Pp 4-7 (USSR) ABSTRACT: The Gomel' factory was established on November 7, 1933 as Belorussia's first mechanized glass works to produce sheet glass. The author describes the factory's gradual development and recalls the names of those who achieved merit working for it. In World War II the factory was heavily damaged, but ty 1947 it again attained its 1940 production level. A number of improvements was introauced in Production in the years between 1947 and 1950. Thanks to the active co-operation of itci por- sonnel more than 1,000 inventions and rationalization etugges- tions were made, that led to a saving of 9,5009000 roubleii as well as to a great increase of production within the factory. Names and pictures of the most outstanding workers are supplied. This factory has been the first in the U.SSR to run an experimental shop for the production ol! hoat Card 1/2 resistaat glass pipes (see Figure). The workersicollectivo  The Gomel' Factory - Leading 1E.Merprise in the Glass SOV/72-59-2-2/2-1 Industry of Belorussia won the red challenge banner of the Kinlata:.A.10-:~nncil of the Belorussian SSR as well as that of the Belorusakiy reepublikenakiy Sovet profsoyuzov (Bel'orussian Republican Council of Workers, Unions) in both the first and the second quarter of 1958. As compared to the 1957 leve2 -, the factor:rls gross production is to be considerably increased by 196!;. A few pictures are shown of various factory departments, There are 11 figures, Card 2/2  15(2) SOV/72-59-10-15/1 4 AUTRORS: Firer, M. Ya., Konovallov, V. , Chechetkin, Dunayev, V. G. TITLE: The influence of Thermal PreDaration of the Char.-e on Glass Frits PERIODIC,iIL: Steklo i keramika, 1359, Nr lo, pp 21 - 27 (USSR) ABSTIUCT In the years 1952-1954, the Moskovskiy gornyy institut (110S.-ow Mining Institute) together with the Gomel' Glassworks ca:rried out investigations of the thermal preparation of glass charges (Footnote 1). Experiments on the melting of the sintered 'charge in continuous glass-melting furnaces were carried out at t~..e Gomel' Glassworks, and experiments of comparative melting