SCIENTIFIC ABSTRACT YELTSOV, K.S. - YELUKHIN, N.K.

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December 31, 1967
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SCIENTIFIC ABSTRACT
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[ACCESSION NRI AP4041869 Therefore, the nitrogen and titanium contents of the initial metal I must be reduced to aminimum. This can be done, for example, by irefining the metal in the ladle with synthetic slag. Electroslag melting of open-hearth steel refined with synthetic slag eliminated I !all the inclusions larger than IOU-and reduced the number of smaller linclusions by more than 50% and the nitrogen an'd oxygen contents to 0.0053 and 0,0020X, respectively, To produce ultra-hiRh purity ball-bearing steel.the double electroslag meltinR was applied with a combination of various fluxes. The use of ANF-6-ANF-6 fluxes in double electroslag malting or of AN-29-ANP-6 fluxes produced best ,results. Ultra-high purity steel, fully satisfying requirements for critical ball bej~rings, was obtained, Orig, art. has: 2 figuread J ASSOCIATfONi Dneprospetastall (Dneprospetsotall plant); Zaporozh- skiy mashinastraitellny*y institut (Zaporozh Machine-BuLlding Insti- tute); InstLtut slaktroavarkL Lm Yes Ot Paton& (BlectrLe VeldLng Institute); WHOM Card 2/ 3 'ACCESSION NRt AP4041869 ISUBMLTTEDS 00 ATD PRESS: 3068 ENCL.: 00 ,SUB CODES MM NO REF SOVs 007 OTHERs 000 Card 3/3 GABUYEV, G.Kh.; YELITSOV K 8 SHULITE, Yu.A.j MIKHAYLOV, P.A.; GAREVSKIKH, I.A.; LEYBUZON;.~- E.I.; MEDOVAR, -B.I.; LATASH, Yu. V.; FWITSOV, VOP.1 PAXHC?40V,,A.I.; KAUNOVSKITI G.F.; VOINOV, S.C.; SHALIMOV, A.G.; KALINNIKOV, Ye.j~; SMOLYAKOV, V.P.; KOSOY, L.F. q Improving the qua3ity of electric-slag-refined bearing steel. Stall 24 no,71640-642 J1 164, (MIRA 18:1) 1. Zavod "Dneprospetsatall", Zaporozhakiy maohinoet-oitellnyy institut, Institut elektrosvarki im. Ye.O.Patona i TSentrallnyy nauchno-issledo- vatellskiy institut chernoy metallurgii imeni I.P.Bardbm. KMIN. G.V.; BRYZGALOVA, Te.A.; YMLITSOV, L.M. Observations of the partial lunar eclipse of Nova";2 at the Irkutsk Observatory. Astron.teirk, no.168f, -~219;5 91, ()U.BA 1:6) 1. Irkutskaya gorodukaya astronomicheskaya obmarvatorika gosudar- stvannogo universitsta Imeni A.A. Zhdanova. (Solipses, Lunar--1935) I L 2722j4j EPF(n)-2/EWT(m)/EWP(t) JJP(c) WW/JD/JG ki- AP-60-603j SOMCE; CODES UR/041j/6,61 04/0097/00-18 s? ALVDIORt Kovalenko, A. K.; Hurin., F# Borodulin. G. H I ta2ze - SM01yakov, VaXt ORG: none TITISi - Tethod for vaemm deaassinz of LAauld mtaIg. vM simltaneousl treatment with I& jlass 18, ly - - i SOURCES Itobrotenlya, prorqzihlennyye obraztsy, tovarrVy*'znaki, no. 4, 1966, 27-28 I.TOPIC TAGS: metal, liquid metal, metal degassing, vacuum dogassing I ABSTRACTS This Author Certificate presents a-mathod,for vacuum degassing and sina- Uneous refining of liquid metals bya slag treatment in a two-tube chamber. Tha metal is sucked Into the chamber through ono tube andt after vacuum degassing, is discharged through the other tube containing liquid slag which rofj"s the matale -SUL CODES 3-1 SM DATE s 03SopO+ 6rd I/1' --- 669.M.683-982 MINOR;. ~CC NR, AP602905b souAd CODE: uR/o4l3/66/ooo/o14/O082/0082 INVENTOR: Averchenko, P. A.; Alekseyenkol M. F.; Babakov, A.__A.,. BabitakaYa, -A- K- Batrakov, V Bondarenko, A. L Gabuyev , G. Kh. Yel I teov K. S - ; KulyginL G~V- MolyZ~ov. V. F. 1. Orekhov. G. N.; Pridantsev, M.'V.- Sk = lup~lav -~N - I arov Soroko, L. N.;_Solovlyev, L. L.; Frantsov, V. P.; Shamill, Yu. Moshk'~v-ich. Ye. Tatanov, B. S. ORG: none Xj TITIE: Stainless steel. Class ho, No. 10394T. SOURCE: Izobret prom obraz toy zn, no. 14, 1966, 62 TOPIC TAGS: stainless steel, chromium titanium steel, molybdenum containing steel, nitrogen containing steel, titanium containing steel ABSTRACT: This Author Certificate' introduces a stainless steel containing chromium, molybdenum, and nitrogen. In order to improve welaa75ility, the steel baS the following composition: 0.08% C, up to 0.8% Mr, up to 0.8% Si, 15-16% Cr, 0.2~-0.6% mo, o.A-o.l~ N, o.4-1.2% Ti, up to 0.035 8, and up to 0.030 Fe [WW] - SUB CODE: l1/ SUBM DATE i. 30jan 651,9--A 0,04W -' ',*c 1& 0 YELITSOVP N.S. [F.11t8au, N.S.] ELITSOV j N-S obalt and magnesium salts on the searetw7 function Effect ofc fe at and chemical composition of saliva in shoop, Vestai AN B=o I ch Sere bblial. nave no-4:67-73 163. (MIRA 17:8) YELITSOV, N.S. [IA-1't:3&u, N-S-I Effect of cobalt and manganese c-, tie functioning of Vne ga-stric glands in animals. Vestsi P11 BSSR. Ser. Mal. nav. no.2:97-101 164. (MIRA 17:11) YELITSOV, S. (Professor, Moscow Zooveterinary Institute.) Post-narcotic acidosis in horses. So: Veterinarijq 23; (12); December 19V; Uncl. TABCON 0 0 M. I T'!r-V S. G. YELITSCVJ, S. G. (Professor, Moscow Veterinary Institute). Clarification of hemplytia action of chloral hydrate, n8rcolene Pnd-hexenel solutions in horseg. Source: Veterlinariya; 22; 6; June 1945 uncl TAECCN 0 0 0 0 0 0 0 OR 0 0 0 0 0 0 0 40 0 6 0 0 0 0 0 0 0 0 0 Z.."Jv) 00 tie') USM/14eUcilne- (Vat) Blood Tranafusion Jun 51- "Significance of Hemohetaroagglutination in the Tranafnion of Blood of Another Species," Prof G. G. Elltsov.. P. F. Sorokova. Aspirant, Moacow Vet Acad "Veterinariya" Vol XXVIII, No 6, PP 50-54 In regard to agglutination, erythrocytes of cattle ,were found to be compatible in vitro with the serum of horses and dogs, erythrocytes of horses incompat- ible with serum of cattle or dogs. In actual trans- ,-fusions, cattle blood compatible in regard to agglu- tination was well tolerated by horses, but not so well by dogs: 3-4,m1 per I kg, of wt,already pro- duced hemotransfusion shock. 11C I : - - 88T55 *Orig. Russian checked in another document shovis S. 0. yelitsov i YZVTSOV. 8.G., professor. q , - - Mww~ Problems of intrathoracic surgery In cattle. Yeterinarlia 30 no.l: 42-44 Ja '53. (MMA 6: 1) 1. Moskovskaya vaterinarnaya akademiya. YELITSOV, S,.Ia., doktor vaterinarnykh nauk, professor. , SurgicL. treatment of reticulitis caused bjr injurr in c4ttle. II Vaterinarlia 32 no.7165-67 JI 155. (Kuti 8:9) l.Kafedra operativnor khirurgii i topograficheskoy anatomli KTA, (VETF,RIMT SURGERT) (STOMACH--SMKRY) TELITSOY,,.,Se,rgay,,-Grigorly,eyAch,prof.; ITKIN. B.Z., dots.; KH4RpHLTKO, H.'D.. dots.; SOROKOVOY, R.P., kand. vateriaarnykb nati~.`*; SOI'OYET, A.S., red. ZUBRILINI, Z.P., tekh~'. red. Coperative surgery with the principlan of the tonovrapliical anatomy of domestic animalal Moskva. rzd-vo sellkhoz. lit-ry, 1958. 375 P. (HIPA 11:12) (Veterinary surgery) TZMOV, V.S., prof.. doktor vater.nauk; ZHMIAV3CL', A.A., prof., dolctor vater.nauk; FRZOBRAZMSKXT, N.M.. doteent, Jwnd.veter.nauk; .TBLITSOV, S.R.Lirof., doktor vater.nauk; ITKIN, B.Z., doteent; 90SKOV, N.M., dotsentl, kand.vetaronauk; TZMITANOVA, Y.I.# red,; BALLCD, A.I., tokha.red. (Principles of veterinary medicine] Osnovy vaterinerii. Izd.2.9 ispr. i dop. Moskva, Goe.izd-vo selikhoz.lit-ry, 1960. 437 P. (MIRA 13:10) 1. Direktor Vaesoyusnogo institute gallmintologii im. K.I.Skrys- bina (for Tershov). 2. Zoveduyushohiy kafedroy fiziologii Unin- gradakogo veterinarnogo institute (for Zhuravell). 3. Moskovskoya vaterinarnsys almdamiya (for Proobrazhenskiy). 4. Zavoduyushohiy kafedroy operativnoy khirurgii Kookovskoy veterinarnoy ska.deaLi (for Tolltsov). 5. Zoveduyushchly kafedroy epizootologii Oren- burgskogo seliskokhozyaystvennogo institute (for Woskov)..' (Veterinary medicine) YELITSOVI S.P.; KULIKOVO A.N.y red. (Safety regulations and industrial sanitation on ships of the river fleet; power plants and machinery) Pra- Vila tekhniki bezopasnosti i proinodetvonnoi snnitaril Zia sudakh rechnogo flota; silovye ustanovki i mekhanLxV. Mosl-va., Izd-vo "Itechnoi transport," 1962. 90 p. (MIRA 17:8) 1. Russia (1917- R.S.F,.S.R.) Ministarotvo rochnogo flota. _YWITSOV, NOVIKOV, T.N.; ZAREZIN, I.V., red. (Handbook on safety measures in the merchant marine; general considerations] Spravochnik po okhrane truda na morskom transports; obshchie polozheniia. Moskvas Transport, 1965. 466 p. (MIRA 18:5) PIROGOV) A.A.; RAKINA, V.P.; KRASS, Ya.R.; VOLKOV, N.V.,- BELICHENKO) GO'Iq; GAIAMV, H.S.; NESTEROVA, A.L.j XORKOSHKO, N.M.-,_vELITSOV, V.V. Dolomite magnesite blocks for lining oxygen-blown converters. Ogneupory 30 no.9t4-5 165. (MIRA 18s9) 1. Ukrainskiy nauchno-isaledovateliekly Inatitut ogneuporov (for Pirogovp Rakina, Krass, Volkov, Belichanko). 2. Krivorozhakiy metallurgicheakly zavod (for Galatolp Nesterova, Korkoahko,, Yalltsoy). TSq(!,_7, K. A. Utilization of Popov's operation In surgery of rectoratinal fistula and formation of artificial vagina. Akash. gin. no. 3:70-71 Kar- June 1952. (CLKL 22:5) 1. Of the G7necological Division, Novosibirsk Ninth Municipal Hospital (Head Physician and Head of Division -- T. A. Yelltoov). . yEL!Tgoy. ye,V.,,_ iwh,;..BuGAyEV., P.S., inzh. --- I Vortex-drying kilns. Mement 30 no,U21 JA,-F 164, (MIRA 170) 1. Ye-an b 2inskiy teementno-shifernyy kombinat. PETROV, B.A.S kand.tekhn.nauk; YURGANOV, N.N., kand.tekhn.nauk; ,YEL~,T$QV,_Ye.V., inzh.; BOLDYSHEVA., inzh.; YRA)VAN, L.So, inzh.; SAFONOV, N.A.., inzh. Pneumatic method of feeding into a kiln beyond a continuous curtain of dust caught by electric filters. TSement 30 no. 2:17-19 Mr-Ap 164. (MIRA 17:5) 1. Vaesoyuznyy gosudarstvennyy nauchno-issledovatellskiy i proyektnyy institut tsementnoy promyshlennosti i Yemanzhelinakiy tsementno-shifernyy kombinat. YELITSOV-STRELKOV, V.I. Snontaneoue labor with a full-term fetus through a fistula of the uterine cervix. Mnish. I gin. 13 no.6:87-88 N-D 157. (MIRA 11:3) 1. 1% okushersko-ginekologichookoy kliniki (sav, kAfedroy-prof. I.F.Zhordanln) II Hookovskogo meditainskogo institutA imeni II.I. Pirogova I 5-go rodillnogo domA Moskvy (glnvnvy vrnch A.F. TSyren) YAABOR, compl. through fistula of uterine cervix) (CERVIX, UrERIHH, fistula In labor, pnssage of normal inf. through fistuln) YE11MOV-STREMOV, V.I., Cand ~fed 5ci -- (dIns) "M-111\ f ' Z-&v9Aj* obstetrical indicators of obstetricj& institutions in Russia for the period from 1891 thrOIJ,11L 1917.11 Mlos, 1958, 15 pp (Second Uns -tate Med 1nst im N.I. Pirogov) 200 co-.,-;e!; (KL, 23-5e, 111) - 129 - T3LITSOY-SVMKOV, T. I. Some obstetrical data from lying-in h6spitals in Bursia frox 1891 to 1917 (from meterials of published medical records). Bovaned, 22 no.1:144-148 Ja 158. (XIRA 11:4) 1. Zz akuohersko-ginekologicheakoy kliniki (zav. kafodroy - prof. I.F.Zhordenina) lochabnogo fakul'tata II Moskovskogo meditainskogo instituta imeni N.I.Pirogovae (OBSTEMICS9 histo in Russia (Rue)) L SOURCE CODE: UR/0294/44/004/004/0540/0551 HOR: Buleyev. N. I. (Moscow); Yelltsova, L. D. (Moscow); BJryukova. G. E. (Moscow) None LE: Calculating the temperature field of a turbulent fluid flow in the initial mal section of a circular tube RCE: Teplofizika,vysokikh temperatur, v. 4, no. 4, 1966, 5hO-551 1TOPIC TAGS: turbulent flow, fluid flow, temperature.dirtri,bution LSTRACT: The.authore calculate the temperature fielde n the initial thermal stabil zation section during turb lent fluid flow in an infinitely extended circular tube. Longitudinal thermal overflows through the walls of the tube and through the liquid a considered in solving the problem. Temperature fields in the fluid flow and in the wall of the tube are calculated for a wide range of variation in the Reynolds.and rantdl numbers. The thermal flux g(x) on the external surface of the tube is given assuming that the tube Is heated from the outside in the middle section for a finite length of the order of 30 tube diameters. It is further assumed that -the velocity field in the.flow is stationary and that the physical properties of the fluid and the mal conductivity of the tube material are constant. The results of the calculations are given in a series of tables and graphs. Analysis indicates that the wall-fluid t Card 112 UDC: 536.242.oi F-Aff _NR, perature drop in the heated section stabilizes with an accuracy of 5% within 16 dia- meters from the initial heating section. Longitudinal thermal overflow through the walls of the tube is insignificant for liquid metals and water but reaches considerable values for gas flow due to the higher values of the parameter WAI. The length of the initial thermal section in flows of various fluids increases with the Reynolds number from 0 to 3000 reaching a maximum at this point with a gradual decrease as Re is in- creased further., Orig. art. has: 8 figures, 4 tables, 24 formulas. CODE: 20/ SUBM DATE: 05Jan65/ ORIG REF: W/ OTH REF: 004 Card 2/2 ~OTARZV, A.I. Quantitative determination of free amino acids in choose by paper partition chromatography. Izv. uchob.,sav.; pishch. takh. no. 2:131-135 138. (91RA 11:10) 1. Vologodekiy molochnyy inatitut, Xafadra takhnologii moloka i molachnykh produktov. Ohoose--Analysis) (Amino acids) ' (Paper chromatography) YEL'TSOVAI M. V. Cand Tech Sci - (diss) "Accumulation of taste and aromatic sub- stances in the process of maturing cheese and the effect of these on the product quality." Moscow, 1961. 16 pp ; with diagrams; (Moscow Order of Labor Red Banner Inst of Economy imeni G. V. Plekhanov); 170 copies; price not given; (KL, 7-61 sup, 236) CHEMODANOVI D.I., dotsent; YELITSOVA, M.Ye., assistent Acceleration of the autoclaving of lime-Biliceous building materiale by introducing sodium flouride into the silicate composition. Sbor. nauch, trud. TISI 8:113-117 161. (MIRA 15:1) 1. Tomskiy inzhenertio-stroitellnyy institut, kafedra khimii i 5troitel'nykh materialov. (Sand-lime products) (Sodium flouride) YXLITSOVA, P.A.; KOTON, M.N.; MINEMA, O.K.,- SURNIZIA. O.K. Pol.vmerization of vin7l derivatives of biphenvl, dipherql other and phen7l sulfide. V7sokom. sood. 1 no.9:1369-1373 5 159. (MIRA 13:3) (Biphenyl) (Phen7l, ether) (Phon7l sulfide) 00 78284 SOV/79-30-3-38/69 AUTHORS: Yelltsova, P. A,, Kotor~, M. M., Mineyeva, 0. K., TITLE: Synthesis of Vinyl Derivatives of' Biphenyl, Biphenyl Ether and Biphenyl Sulfide PERIODICAL: Zhurnal obshchey khimii, 1960, Vol 30, Nr 3, PP 933- 934 (USSR) ABSTRACT: The effect of substituents phenyl, phenoxy, and phenyl- mercapto) on the capacity of compounds to underdo polymerization, and on properties of resulting polymers was studied. Addition of ethylene oxide to biphenyl and diphenyl ether in the presence of anhydrous alumin,= chloride, with sub30qL1Cnt dehydrogenation of obtained carbinolz, yields o-vinylbiphenyl (yield 47%), bp 112- 11.3' (0.5 mm), n20 1.6190; p-vinylbiphenyl, bp 124-126C D 12 .Tim), mp 118-1190; o-vinyldiphenyl ether (yield 7Q'V, , Card 1/2 mp 38-390; p-vinyldiphenyl ether, bp 1060 (1 imm), nn D , Synthesis of Vinyi Derivatives of Biphenyi, B-.*Iphenyl Ether and Biphenyl Sulfide I SUBMITTED. Card 2/2 782811 SOV/79-30-3-38/69 1,6oili; p~vinyldiphenyi sulfide (yield 56%), bp 1-370 0 mm), n D0 1.6495. There are 8 references, 5 U.S. I 2 French, 1 German. The U.S. references are-, Frank, R., Adams, C., J. Am. Chem. Soc., 68, 1365 (1946); Chem. Abst., 47, 7826 (1953); Bradsher, Ch., Wert, R., J. Am. Cheat. Soe-,.,*62, 28o6 (194o); Huber., F., Renoll, M., Possow, A., Mowry, D., J. Am. Chem, Soc., 680 !Iog (1946); Mowry, D., Renoll, M., Huber, F., J. Am. Chem. Soc., 68, 1105 (JgL16). April 28, 1959 SHISHKIN, K.N.; KOTSYUBA, A.A.; YELITSOVA Vapor liquid equilibrium in four-component mixtures. Ukr. khim.zhur. 30 nQ.2:137-143 164. (MIRA 17:4) 1. Dnepropetrovskiy khimiko-tekhnologicheskiy institut. MARGOLIS, L.D.; )MITSOVA, Z.V.; ZIEREBNOY, I.A. Sodium content in aluminwm. TSvet. mot. 37 no.6t42-43 in 'U.. ,',kfIRA 17.9) AUTHORS: Yeltyshev;i, A.A., Kay-arskly, I.S. 131-3-7/16 TITLE: On Processes Taking Place Duritg the Heating of Dinas Brick Clay and Their Connectlon Jith the Modification of Its Strength (0 protse3sakh pri nagre-nnii dina3ovogo syrtsa i ikh 3vyazi s izmeneniyem yego provhr~sti) PERIODICAL: Ogneupory, 1958, Vol 23, lir 3, P2 118-131 (USSR) ABSTRACT: The improvement of the quality of dinas depends upon the action brought to bear upon the physical-chemical processes during burn- ing. Ass raw material quartzite fourA at the Ovrich deposit vsa used for the experiment; its composition is given as also the preparation of the masses. The pressure breaking strength of aInas raw material in the heated state Yra3 measured on the apparatus ot the V.NII0 (fig. 1). Fig. 2 ahorm the influence exercised by granu- lar composition, pressure, the aMitio-a of dinas scrap in3tead of quartzite, and, for reasons of comparison, the raw material obtained from the ms3 of tha plant itueni Dzerzhia3kly. Table I sho= the in- fluence exercised by the composition and the amount of additions, Card 1/4 and table 2 gives the characteristic of the production output of On Processes Taking Plac-- D-1-II19 the Hedtt-19 of ly-nas Brick 131-3-7/16 May, afid. 7heir"Conne-a-tion Wltli Vie AxU-,-Icaltion of v Its Strength the plant imeni DzerzhirmMy. By means of an apparat-as of the VNIIO, which was develope-3 by B.Ya. Pines, the bending-tensile strength of dinas raw material was determined at different temper- atures. ResUlt3 may 'te acen from table 3. Table 4 shows the change of shearing strength wher the dinas raw material is heatea. The linear extension of the x-awmaterial by heating is shown by fig- 3, viz. under the -Influence of granular composition and the adaition of dinan scrap instead of cruartzita; extension in various tempera- ture inter7als is shown. in table 5. The binding of calcium oxide by silicecus earth by dry mixing of maszes with following burning may be seen from table 6, and by wet mixIng from table 7. Losses caused by burning off are shown ir. fig. 4. The ohange of the pressure breaking strength of the raw material of veined quartz produced with- out any additions by heating is shown in table 8. Thermograms of mixtures of quartzite and C&(OH)2 both in the case of wet and dry mixing of the iraaies, as well ai of the quartzite found at the ,Ovruch deposit and of Ca(OH)2 may be seen from fig- 5. The depend- Card 2/4 enoe of the decrease of the itrcngth of raw material during the On Processes Taking Place During the Heating of Din" Brick 131-3-06 Clay . and Their *Connection With the. ModlfLcation of Its Strength temperature interval of 800-10000 on the formstion of cristobalite may be seen from fig. 6, and dto. in the temperature interval of 1300-14000 from fig, 7. Conclusions: 1.) By heating the pressure strength of dinas raw material changes as follows within 5 temperature intervals: Reduction of strength: 20 - 6000 8W0 Considerable increase of strength: 600 Reduction of strength: 800 - 10000 A very sharp increase of strength: 1000 - 13000 Reduction of strength: 1300 - 14000 2.) The change of the strength of the heated raw material is due to several physical and chemical processes. 3.) Different technological factors influence processes during the 5 temperature intervals in different rays. Card 3/4 On Processes Taking Place Daring the Heating of Dinas Brick 131-3-7/16 Clay An& Their.0obnection With the Yloaification, of Its Strength 4.) As shown by experimental results, it is not of advantage to add dinas scrap, whereas hi h pressure and delayed burning in the interval 1300 - 14009 is of advantage for the pro- auction of a solid dinas. There are 7 figures, 8 tables, and 23 references, 18 of which are Slavic. ASSOCIATION; Xharlkov Institute for Refractories (Khar'kovskiy institut ogneuporov) AVAILABLE: Library of Congress Card 4/4 1. Refractory materials-Processing 2. Refractor7 materials-Properties- Tables ~_______Y_E__L_TY__S_HE_V_,_ -A-.-----A-.-,--C-a--nd-T-ech--Sc-:C..~ __"Pr_oc_esse_s_-_-invo_lved - in-- the --- --- - - - - 1 firing of Dinas brick-clay and their relation to changes in the brick- clay strength." Sverdlovsk, 1960. 21 pp with graphs; (Ministry of Higher and Secondary Specialist Education RSFSR, Urallskiy Polytech- nic Inst im S. M. Kirov); 150 copies; price:not given; (KL, 1?-60, 153) I 1 1 -1 winm2r, I -&- _P - I ; " ~: , , ~ 1-Y ~f 7 Tyl i 2WAl f f v -n,k 1 ( c I) ~ .__ __ - . - __ - .., . - 1. '". .. i''.11 Mr -,III .4.r.vp f " I'll. I TSHYTLINv L.A.; KARYAKINt L.I.j- Studying the wear of linings of copper smelting induction furnaces. Ogneuproy 25 no, 3t123-126 160, (MIRA 13tlO) 1, Ukrainskiy nauchno-iosledavateliskiy institut ogneuprov. (Metallurgical furnaces) WNARSKIYv X.S.; DEGTYAREVA9, E.V.; =YSMVA, A.A. Unfired dina bricks. Ogneupory 28 no.7003-305 163a (MIRA 16:9) lo Ukrainakly nauchno-issledovatellskiy institut ogneuporov, YELTYSHEVA, Raioa-6~m~-no4~a;---SOKOLOVSKAYAP To-.Ya-,t redoizd-val -GUROVAP -ptekhn.red. [Ordovician and Silurian crinoids of the Siberian Matforml Ordovikskie i silurUskie krinoidei Sibirskoi platform~y. Moskvap Gone nauch.-tokhneizd-vo lit-ry po geologil i okhrane nedrt 1960,'38 P, (Leningrad., Voesoiuzrqi geologicheakIr inatitut. Trudy# vol 40) ~(MRA 14:2) (Siberian Platform-Crinoideap Fossil) YELTYSHEVA, R.S.; SHEVChENEO, T.V* Stalks of sea lilies from the Carboniferous deposits of Tien Shan and Darvaza. Izv. Otd. geol.-khim. i tekh. nauk AN Tadzh.SSR 1: ilq_i2.5 6o. (MIRA 15:1) 1. Upravleniye geologii I okhrany nedr pri Sovete Itinistrov Tadzbikskoy SSR. (Tien Shan--Sea lilies) (Darvaza Range--Sea lilies) S/131/60/000/007/008,1000,/XX B021/BO58 AUTHORSt Tsigler, V. D., Yeltyaheva nd Pt,ndrik, B. Ya, TITLEs Highly Aluminous Light Products and Their Use FERIODICALt Ogneupory, 1960j Do. 7, pp, 299-307 TEXT: The technology for these products was worked out by the foam method under laboratory conditions in the UNIIO (Ukrainskiy-nauchno- issledovateltakiy institut ogneuporov - Ukrainian Scientific Research Institute of Refractory Materials). A test batch of highly aluminous light products was manufactured under operating conditions at the Podol 'ski zavod ogneupornykh izdeliy (Podol'sk Plant of Refractory Materials~ from commercial alumina, refractory clay and wood dust. In this paper, the results of the technology elaborated are mentioned, as well as of the properties and working tests of highly aluminous light products which show a corundum-mullite composition and wero obtained by the method of the fire loss of additions by pressing in semidry condition. The refractoriness, chemical composition and granulation of the components of the charge are mentioned, as well as the ceramic properties of light Oard 1/3 Highly Aluminous Light Products s/i3l/60/000/007/008/009/XX and Their Use B021/BO58 products after firing at 15500C. Figs. 1-4 show the losses in weight, change of weight of unit volume, thermal expansion, and compressive strength of highly aluminous blanks. A batch of those light products was manufactured at the experimental plant of the UNIIO, their granulation, charge composition and characteristics of the mass being mentioned. The investigation results for the fired light products can be seen from Table 5. An industrial experimental batch of 5 t of highly aluminous light products was manufactured at the Chasov-YarBkiy kombinat ogneupornykh izdeliy (Chasov-Yar Kombinat of Refractory Materials). The characteristics of the initial raw materials are mentioned in Table 6. The products were sorted according to POCT 5040-58 (GOST 5040-58). Table 7 shows the characteristics of highly aluminous light products. These were tried out as lining for the fireboxes of the stand-by boilers in tankers of the Chernomorskoye parokhodstvo (Black Sea Shipping Company). The following persons participateds I. A. Parkhonyuk, A. S, Cherkasov, A. A. Lapidus, and M. N. Kalayda. Under equal conditions, highly aluminous light products had about three times the service life of brickings from semiacid bricks. These products can be used as lining up to 15500C. There is a prospect of using these,light products in stand-by boilers of seagoing vessels with Card 2/3 Righly Aluminous Light Products and Their Use B/131/60/000/007/008/009/XX B021/BO58 oil firing. For the supply Qf tke high-sea fleet it is necessary to organize the manufacture of th3se light products in refractory-material plants in the eouth and east of the country. There are 4 figures, 7 tables, and 11 references% 6 Soviet, I German, 1 Canadian, and 2 British. ASSOCIATION% Ukrainskiy nauchno-issledovatellskiy institut ogneuporov (Ukrainian Scientific Research Institute of Refractory Materials) Card 3/3 TEITLIN, L.A. [Tseytlin, L.A.); ELTISEVA, A.A. LYe1tysheva,_�,.A-I; GRAFAS, N.I.; TIGANOV., A.S. [TSyganov, A.C.J; SAFAFOJYO, D.I.; SAGALOVA, B.I. (Shagalova, B,I,] Crucibles of the electric induction furnaces made of a given filling material for the melting of aluminum alloys. Analele metalurgie 16 no-075-80 O-D 62. TSEYTLIN, L.A.; MLTYSHEVA$.,_A.A.j. GRAFASp N.I.; TSYGANOV, A.S.; SHAFARENKO, D.I.; SHAGALOVA, B.TU. Induction furnace crucibles made of rammed materials,, for the smelting of aluminum alloys. TSvet. met. 35 no.501-75 My ,62. (MM 16:5) (Aluminum alloyB-Electrometallurgy) (Crucibles) TSIGLER, V.D.; B.160 Technologyp properties, and use of high-alumina lightweight refractorieee Oborenauchatrude UNIIO nos5t113-436 t6l, (KMA 15112) (Refractory materials) S/893/61/000/005/002/005 B117/M6 AUTHORS: Taigler, V. D., Yelt sheya,_A.,L , Pindrik, B. Ye. TITLE: Technology, properties, and application of high-alumina light-weight refractorleg SOURCE: Kharkov. Ukrayinalkyi naukovodoslidchyi inatytut vohnetryviv. Sbornik nauchnykh trudov. no- 5(52), ig6i, ;i5_13(, TEXT: The development of an efficient production technology for high- lumina light-weight refractorie4 -ans directed to obtaining producto of carborundum-mullite composition containing at least 80~: Al 2OV having 2 a porosity of 57~* and a vol"mo weight of 1.5 9/cm . The iollowlnif raw materiala were used: hig~-alumina fireclay, commercial aluminc, with different degrees of dispersion; kaolin from Vladimir as binding clay; petroleum coke with an ash content of about 3~4 an combustible addition. The compovition of the manses was chosen on the basis of the Al 203 content calculated in,corresponding 3-component systems: high-alunina fireclays kaolin petroleum coke and commercial alumina - kaolin - Card 1/3 B/893/61/000/005/002/005 Technology, properties, and application ... B117/B186 petroleum coke, It has been shown that to a mass with an 60% Al 20 3 content not more than 10 to 20% kaolin can be added. The bulk-weight of the products of 1-5 9/07n2 is guaranteed by-the addition of 30% of petroleum coke. The pr:)duats produced by the method described above offer good heat insulating properties, their thermal conductivity depending In some degree on the production method. They can be used as linings for working temperatures 0up to 16000C, i.e. they are capable of sustaining temperatures some 200 higher than alumosilicate light-weight refractories of the typesAJI-1.3 (AL-1-3) and 101-1-3(KL-1.3). The production of trial batches under varying conditions showed that the production technology based on high-alumina fireclays is preferable to that based on commercial alumina. The higher production costs of the fireclay production are compensated by the high quality of the products. The products produced on the basis of high-alumina fireclays are characto.rized by a higher thermal stability, impermeability to gases and smaller additional shrinking at 1600 0C. It has been shown that the high-alumina light-weight refractories can be well used as liningB'for liquid-fuel auxiliary boilers on ships. They might also be used as 'Card 2/3 1 S/893/61/000/005/002/005 Technology, propertioap and application B117/BIa6 linings for main boilers. The production of high-alumina light-weight refractories ohotild be intenoifled in refractory plants in the South and the Eaut of-the USSR in order to meet the demanda of the naval fleet. There are 14 figureV and 15 tables. Card 3/3 BELYAKOY.N.A. (deceased]; BULIVANKIR,B.Z.; DUBITOLOV,V.N.; IMYSMA.R.S.; KRISHMOVICH.A. N. [decemmed); KAJISIMOVA.Z.A.; MMIXECHINKO,V.S.; NMOROSHXV,V.P.; NALIVKIN,B.V.; NOVOZHIIN,N.I.; OBRUCHEV,D.V.; RZHORSNITSKAYA,M.A.; YANOV,]I.N.; SPIRINA,N.I..rodaktor; GUROVA, O.A., takhnicheskiy redaktor (Field atlas of characteristic complexes of fauna and flora of Devonian deposits of the Minusinsk Basin] Polevoi atlas kharaktarnykh kompleksow fauny i flory devonskikh otlozhenii Minusinskoi kotloviny, Sost. N..A. Beliakov, i dr. Pod red. M.A.Rzhonanitskoi i V.S.Keleshchanko, Moskva, Goo.nauchno-tekhn.izd-vo lit-ry'po geologii i vkhrane nedr, 1955- 139 P. (KLRA 9:1) 1. Leningrad. Voesc7usnyy geologicheskiy institut. (Minusinsk Basin-Geology, Stratigraphic--Devonian) TuTysavi. R.s. - I Bolboporites. Voppolsont. 21136-147 155. (HUA 9:2) (Corals, Yossil) I / % , 'i , - Y]ILTIYSHETA, R*S. sweRNIMMUM Classification of stems of sea lilies. Vest.len.un.11 no.12:40-" 156. (Crinsidea, Fossil) (KIRA 9: 9) YELTYSHZVA, R.S. A new family of Paleozoic sea lilies. Zzhegod. Voes. paleont. ob-va 16:218-235 157. (MIRA 11:4) (Crinoides, Yosen) DUBATOLOVA, Yuliya Afanaslyevna; YFLTYSHEVA,R.S.p otv. red.; SOKOI/jVj B.S., otv, red, (Devonian sea lilies of the Kuznetsk Basin] Morcklo 111ii devona Kuzbassa. Moskva, Izd-vo, "?Iaukan 1964. 152 Pi (MIRA 17:5 YFLTYSHEYA, R.S. Stem of the Ordovidan crinddea, In tho Baltic reglon. Vop. paloont, 4:59-84 164. (HIRA 17;5) BI /B*100 AL M~R#*~Yelubayavp -So. - - ----------- yation TITLHt A boundary Value'. problem for i third-ordar hyperiolio pq PERIODIOAM Sibirokiy matematicheakiy:zhurnall'vi 2j no. 4's 1961t 510 -519 TEM The author seeks a solution u(%,y) to-the equ*ti6n 0 which - inclusive. of Its third derivatives is 3u/3x 3 93u/,7y29x continuous in the interior of the triangle A(0#0)1 B(1#0) 0(1/21-1/2) and which satisfies 'the boundary oonditionst U(X:Y)l AB (XI 0 U(XIY WO u(xjy)jj)O D ie'the Point (1/2,0)1 CZ 13 1t- -inclusive of th6ir ..third derivatives - are continuoui functions, These functions aatisfy the rolationst r4(0) -A(O) -j3(1/2) -j-(-112) -06(112) -t(0) 0. Tho funotioii Oard 1/2 /199/61/002/004/002/007 A boundary valpo problem for a third-... B112/X10.8 is (x, V) a (x - V) + Cc II.-I , i 2k 1 21 + 2A - t + 2k - t + 21 + 2 -1-21f + 2Y k 2k (36') 21 )"w( 72, io the oolution of thie boundary value problom. The functiofi W (t) oocurring therein at4nda for the exproaaion U. (t) -X((l + t)/2) + d-(-t/2) t/2), whore 0 4' t 4 1 SUBMITTEN Itaroh 99 1960 Card 2/? YELUBAY9Vj S. Ye. One method for Solving Electrodynamic Equations p 19 3 01' M '4r, 1 *0 R E W B f J C Ma c, 0 ; q 1: R E 11 E r '(4 1, 1. 1 i I VAP I at 3 P ND M~l r; CM (Tram YD,.R,4,y Pj".UUWAKAN*-~';Y Ki T 14FlJVQll.Y-F,',, VrV- pages, publinbed by tie Yul;lljvhln,~ A(Alre w tliv P-111 IIKA*~'-Axll YELUBAYEV, S.re. A boundary va-lue problem for a third-order hyperbolic equation uith two independent variables. Vest. AN Kazakh. SSR 18 no.6:54-62 Je 162. (MM 15:9) (Differential*equations, Partial) YELUBAYEVI S-Ye- Izv. Solving a boundary value problem by the iterative zothod. AN Kazakh, SSR. Ser. mat. i makh, no.10:72-78 162. (MIRA 15:9) (Boundary value problems) (Differential equations) yELUBAYLV, S*Yes rbolic Solution of a boundary value problem for a third-order hype equation in a certain plans of regions. Trudy SOkt~ mat. i mekh, AN Kazaldi. SSR 207-44 163. (MMA 16:10) - - - - - - - v :W! UTOW I __:L , - i . j _#~, __ - --- - __ - , ____ . ..... ~ -_- 1-1 "Heat transfer to boiling liquids in pipes under vibrating conditions." paper submitted for 2nd All-Union Conf on Heat and Mass Transfer) Minsk, 4-12 May 1964. All-Union Sci Res Inst for Ox3gen Apparatus, Moscow. YELUCHINOVA., )%.A. Cultivation of Flexner bacilli in chick embrvos. Zhur. mikroblol. epid. i immm. 31 no.3:119-122 Mr 160. OCRL 14-- 6) 1; Iz Gosudarstiennogo kontrollnogo instituta tleditainskikh i biologicheegli.kh,p ni Tarasevicha. ( H G, . ERUE) . (BACTERIOLOM-CULTURES AND CULTUBE MEDIA) SOV/66-59-2-15/31 14(l) AUTHORS:-, Alekseyev, V., Yelufimov, it., Prikhodovskaya, A., Jzhanskiy, V. TITLEs Partial Automation of Dry Ice Plants (Chattichnaya avtomatizatsiya zavodov sukhogo l1da) PERIODICAL: Kholodillnaya tekhnika, 1959~6Nr 2, pp 53-55 (USSR) ABSTRACTs Partial automation has been introduced in 2 dry ice plants in the opytnyy kholodillnik VNIKhI (Experimental Cold Storage Plant VNIKhI) and the Moskovskiy kholodillnik Nr 10 (Moscow Cold Storage Plant Nr 10), covering automatic regulation of gas; the system has been worked out by VNIKhl~ The installation consists of a reuvulator of desorption pressure, a regulator of beating steam and a regulaior of the level of the secondary condensate in the storage tank. The transducer of the pressure regulator of desorber, CMIP-6, is connects with the refrigerator of gaa and transforms the changes in pressure into electric signals which are amplified in the electronic control device ER-III and actuate the servo mechanism PR-1. The pressure regulator has the transducer located on the boiler and the control device on the feed pipe. The level regulator of the secondary con- densate oDerates on a two-positional principle; the floating trans- Card 1/2 ducer DU-~ has an induction transformer connected with the relaying Partial Automation of Dry Ice Plants SOV/66-59-2-15/31 control dovic*o, which controls-the solenoid val-tv on the line leading to the absorber. The automation of the gas part of the installation facilitates the work of the attendants and improves the control of the technological process. There are 1 circuit diagram and I photo. Card 2/2 14(l) SOV/66-59-3-18/31 AUTHORS: Pimenova, T.,. YeLu 1 TITLE; The Problem of Foam Prevention in Monoethanol Amine Solution PERIODICAL: Kholod1l1naya tekhnika, 1959, Nr 3, p 64 (USSR) ABSTRACT: In the dry ice shop of the experimentnl VNIKhI Refrigeration Plant, a 11chemical foam extinguisher for locomotive boilers" han been used since May 1958 to prevent foam forming in monoethanol amino solutions. Since that time the technological process has been completely wider control. The foam extinguisher is a white powder obtained from hexamethylene- diamine and contains high-molecular fatty acids. Card 1/1 TEZIKOV, A.'j1RWM1MOV- N. Rotating jet sprayers of monoothanolazine solution. Kholotekt. 37'no.2-53 My-AP160. (MIRA 13ilO) (Ice industry-Squipment And supplies) I - - - - --- -z '. - I "I Tr tI rT- I q r-- RIF_- -I --- ---- e4- -4'!--k-' A-r 1 VASILSVIGH, H.O..EdeCeasedl; Yf-LUYIM()V, Vd.; FIRSOVA, V.A.; LSBYMVA. L.V. . Treatment of tuberculous meningitis [with sumau in French]. Probl. tub. 35 no.7:78-86 '57o (MIRA Ilt2) (TUBIMOULOSIS, KUNINGRAL, ther.) ALIKSANDOVA9 A,V,: YSLUFIMOVA, V.P, Diabetes insipidus in children following tuberculous meningitis. Probl.tub. 37 no.8:53-57 159. (MIRA 13:6) 1. Is detakoy kliniki (sav. - zasluzhennyy doyatell nauki - prof. M,P. Pbkhitonova) I rentgenovskogo otdeleniya (zav. - prof. K.V. Pomellteov) Inatituta tuberkuleza AHN SSSR (dir. Z.A. Lebedeva, xam. dir. po, usuchnoy chasti - chlen-korrespondent AMN SSSR prof. N.A. Shmelev) (;WXR=Sls MINGICAL In inf. & child.) (DIABITIS INSIPIMS In Inf. & child.) JELUFIM -V-.F. -.mls:dshiy-n]a--Cchrqy Differential diagnosis of tuberculous meningitis and rheumatic meningoencephalitis. Probl. tub. 38 no.3:68-74 160. (MIRA 14:5) 1. Iz Ingtituta tuberkuleza AMN SSSR dir. Z.A.Lebedeva). (MENING&%-TUBFMULOSIS) WCEPHALITIS) (RIEUMATIC FEVER) YELUPIMOVA, V. F., Cand Med 1101inical forms of tuber- cular men ngitis in childrenA their outcomi and -remote re- i sults with streptomycia, PAB,Z-Para-aminosalycle 2.1.0 aclq7, and phthivaW6" Moe, 1961. (Acad Med Sci USSR) (KL, 8-61, 260) 461 - YELUFIMOVAI_Y.F., kand. med. nauk Successful ethionamide treatmert of 2 children -with unfavorable course of tuberculous meningitis. Probl. tub. 42 no.10:8C-81 164. (M]PA Mill) 1. Datskaya klinika (zav.- Prof. M.P. Pokhttonova) TS6ntrallnogo Instituta tuberkuleza (direitor - deystvltcllnyy chlen AMIN SSSR prof. N.A. Shmelev) Ministerstva zdravookhranenlyn SSSR, Kiskva. YELMMIN, N. I., and V*.SMW, 1. P. t'6n the Effect of Vapour Content on Heat Transfer at Boiling in Tubes." Report oubmitted for.the Conference on Heat and Mass Transfer, Minsk, BSSH, June 1961. AKSOMD, L.S.; YNIV4H, N,Ke 7illing bodiss for scrubbere, Patent U.S.S.R. 77,944, Dec. 31, 191-9. (CA 47 no.1919680 153)- Method@ of obtaining cold *&tot In the suintr-PUIP Indus try. 1. 1'. Vwtikin an-I N. k. HiAlibi lfm~vik. Pope IWTMlff(WMI7T~0 lit the tivAnul. 4)f Ouffite Ivulp I- 411'Cu*;wd In form, of conking-061 twerl. The operatinK rImrAc1cri%tkN. efrwiviscies. aml p( 411-9116"1 (P. AMI SICIM1+1 fj"101 ( It. age 4-OnItIoll I" poise tIrl.lit It Is the inmi rvoijoinicAl nwlhtwl (w rividing 11.0 tols III* frmf nitulerair minimer I Ito trinp, For CW4 - In[( 11,0 bet"or S* (W f-W %uninser 11:0 fentl1q. above -"n*. I it the inatt ev"nntn"I ruritiml. ManInIrgratedparl"(4 .1216te mill. 11. .'jwrjII1'K in .111n.,Wr Wily, 1. fo~-nnwnd~l eapil.kl 411.1 11141111011AIlm rMis Will 1.4116, kety. ~ p I - 11 -.,r, .,, . 1..- . . I ~. *. , , ~ , I . . . 1. . I .. . I. I-- .. V /V, k. AUTHORS: Ivanov, M.Xe., Candidate of Technical Sciences, 67-58 -3-Y 18 Yelukhins N.K., Candidate of Technical Sciences T I T LE., 'ka~Tra~nafer bring the Boiling of Oxygen and Nitrogen (Teplootdacba pri kipenii kL-loroda i azota) PERIODICAL- Kinlorod, 1953, V-JI? ) Nr .3, PP- 19-28 (USSR) ABSTRACT: By Ymy of introduction the soientifio works by G.G.Haselaen (Ref 1), Weil and Brcmley (Ref 3) are referred to and criticized. If', is said that the results obtained by these scientists do not agret with one another, and that too few data are available for the domains of low temperature stresses so that no conclusions can be drawn a3 to rule.-a verning the prooss and the domains of high temperature str-!sse3 toritical stresses) as ivell as temperature pressure am said not to have been dealt with at all. To do so is the 4.ask to be Performed hero. The following experimental samples were used., a nickel 311-ier tube of 4/3-5 = and 8/7-5 mm, diam6ter ani 300 mm length which partly had a smooth surface and partly was roughene5 or was provided with a protecting emery paper coating; further, a copper 4.~be of 4/3.6 mm and 10,9,6 mm diameter with a Cara 113 smooth, etchad, or proteotel surface. Besides! bundles of nickel Heat Tram,3fer During the Boiling of Oxygen and Nitrogen 67 - 5&-3-Y 18 silver tlibea of 8/7-7 mm diameter and 300 = length were investi- gatea. These bundles were placed into glass vessels, the bottoms of w1rdich had slots through which th-j liquid was introduced from below vzntil it novered the upper enis of the tubes. Individual tiibezi or burAlea %"rt connected to the copper rods through which the c~ux-an`*, was, tr-.~Lnsmitted. The experimental order is given in form of a aohewtft~, dravring (fig.1). In the chapter: Boiling jna-1,713ual Vertio4l. Vfbe.a thq folloving subject,~ are dea').t VdIth: The dependence o? ~Le- coeffioient of heat tmnsfer on the qpav-1f:'.,3 thermal effect during boiling and o-jqrgen- and nitrogen COnTeo'G 'ton on the suz-face of -%i vertical tubes; the effects which cause trw_Lsi`.-ion of cor.7-.ction -to boiling, and, lasily, the differ- enc,as JM heat -transfer in the case of a smooth, roughened, and protect-ed surface-. of the W~e. Results concernii;g boiling were d-~,alt with accor3ing to the ori,~eria systeem, de-Telope3 by A.D. Rychko-v-31dy and A.N.Plano--?-sk' ly (Ref 4). In the c1hapter: Boiling in the Verti~~al Bundle.3 of Tubes and Inside the Long Vertical Tube the sama momer--ts of comparison as above were dealt With. The same 13 the case yrith respect to the oxygen convection in the meta.stable state; the dependenci of the specific "ight (of the mix`.-ure) on the specific thermal effect exercised during the Card 213 boil-Ing of 14-he o,,qrgen upon the vertical bundle of tube~5 and Heat Transfer During the Boiling of O.Vgen and Nitrogen 67-0-3-3/18 determination of its specific weight; finally, the dependence of the coefficient of-heat transfer on the specific effect of heat and the apparent level of the boiling oxygen inside the vertical tube is dealt with. In conclusion it is said that, in the course of these experiments and in the process of transition or the con- vection to boiling, a hysteresis %ma found to exist, which con- sisted in the fact that the occurrence of one or the other form of the process in the case of a given heat effect depends on the direction of approach to the latter. In the case of approach being made from the side of stronger action of heat, weak boiling was observed, and if approach was made from the side of weaker action, convection was found. Accordingly, different coefficients of heat transfer were found which differed by up to 500%. Herefrom it my be concluded that for the purpose of obtaining the most intense heat transfer possible in the apparatus, it is necessary to pro- ceed from the direction of the greater intensity of the process. There are 10 figures, and 9 references, 5 of which are Soviet. _J~J)fttalif--41hermiail stresses 2. Metals--Heat transfer Card 313 3. Nitrogen (Liquid)--Metallurgioal effects 4. Oxygen (Liquid)--Metallurgical effects YELUKHIN., MM I WN MWITAnOff MY/3922 UsyWdn., Ivan Petrovich.' Ivan Grigorlyevich Avertyanovp Vladimir Semenovich Gorokhov,q AnatoUy Makalmovieb Clorsbkov,, Al&kzandr Vasillyevicb Zakharorp and Nikolay Kasparoviab Telilkbiz, Masbiny i appersty ustanovok razdeleniya vozdukbjL metodon glubokogo okhlazlideniya; atlas konstrWdsiy (Machinery and Anaratus for Air Separation by Low-Tempersture Refriseration; Atlas of Desigus) Xoscowp Xubgiz., 1959. 189 p. Errata slip inserted. 5j,000 copies printed. Ed.: I.P. Usyckin., Doctor of Technical Sciences,, Professor; Revievers: I.K. Nondryakov., Candidate of Technical Sciences,, and X.P, X&13wv, Doctor of Technical Scienceex Professor; M.: F.X, Ionov, Engineerp B.N. Boltshakov, and NIS. Moperovicb; Managing Ed. fo'r Catalogs and Album: XA. Ponomareva.' Ingineeri Tech. Ed.: A,,Ya, Tikhawr. P-"RPOSXt This atlas in intenAed as a design manual for stuAents of sebools of higher technical education-and can be used by planning and design offices and. scientific research institdtes in the stady, of problem of low-temperature refrigerat~.on and the use of oxygen as a means of raising in&wtri&3. output. Cwa-k~~ Machinery and AppG6ratdB (Cont.) 8"/3922 COMUM: The atlas contains basic designs of OuTiet and non4oviet 131ants for sepmVU air by +Jw law-t-euperatum refrigeration mthod, Also inc2m4ed are types of expansion engines and tarbines., pmipa for liquid oxygen., basic types of beat ex:chaagerz and rectification equipment used in ox;ygen and nitrogen vlents'p containers f%r storage and transportation of liquid ga3es., and auxJllary alVaratus for drying and cleanin air. The operation of typical accesoories under low- be ratuxe conditions in shown, No 3~3reonalitiea are mentioned, Thare am no references, TANX OF COWfzmI Foreword NOMUMM OF AIR4UPAPATM PLAM 3 C~srclal OXmPn -199.2 to 99.5$ Pare) Gas and Pm- Nit"On 1".001 n=tA' lm-30--c~.rclsl-ovpn plent M-30-T, -c~r~lal-oVW p1mt 5 MD-U5/18 rav-nitrown and comar''Cial-oz7gen ilant 5 ~-100 e~mrcldl-oxypn plant Card 2/3.2 "?/00 0 -AUTHORS i TITLE: S~i-.2'~/62/000/004/019/030 D251/D301 Yelukhin, N. K. and Ivanov, M. Ye. Heat-exchange with condensation and ebullition in con- ditions of profound cooling PERIODICAL: Referativnyy.zhurnal, Mekhanika, no. 4, 1962, 92, ab- stract 4B606 (Tr. Voes. n.-i. in-ta kislorodn. mashi- nostr., 1959j no. 21 83-110) ~TEXT: This is an experimental investigation of heat-exchange with condensation and ebullition of the basic components of the air. Using copper tubes of. diameter 8/18 mm and height 2.4 in the conden- sation of oxygen was investigated on the outside of the -tube and its ebullition within.and using tubes of diameter 6/24 mm and height 200 mm - the condensation of oxygen$ nitrogen and argon an the innur surface. In addition, an Investigation was made of the ebullition of oxygen and nitrogen on the outside of vertical tubes and in the intertube space of a double pipe. Measurements are car- ried out in the rangeB~ofheat-flow: q'= 300 23,000 kcal/m2 hour ..Card 1/3 ----------- S/124/62/000/004/019/030 Heat-exchange with D251/D301 condonoation of 0 21 112 and argon), q 14,0 - 220,000 kcal/m 2hour (ebullition of 02 and N 2). In the results of the LhooretIcn,"L con.- aideration and the elaboration of the data obtained-the relation- ship was found for the heat-exchango with condonfiationt N 0.013ua 0.413 0.413 O~ 0 .0 13 L' (j~72 H The working out of -the experimental data for ebullition on the outer surfaces of tubes was presented in the criteria of Rychkov and Planovskiy (Khim. prom-st', 1955, no. 5, 31-34 -- R'ejlfflekh, 1956' no. 11, 7571). The results are described by the relation Card 2/3 S/124/62/000/004/019/030 Heat-exchange with D251/D301 0.33 -0.3 E 0.125 _P_ q S Per cr) with scatter of the experimental values + 10%, Characteriatic pho- tographs are preeented for the ebullitioFi process on vertical wires with different thermal loads. The article mentions the 8ingula- rities of ebullition on double pipes with different spaces and the effect of the purity and roughness of the surface. The latter is calculated for tubes of pure and half-alloy copper and for cupro- nickel tubes of length 300 mm and diameter 4 - 10 mm, The experi- mentally obtained values of the critical load for the ebullition of oxygen and nitrogen were presented: 0 2 - qcr ."2 95,000 kcal/m2 2 0 hour, i_~t 8.80; N - qcr = 95,000 kcal/m hourp 6t, cr 2 Gr 7.0 Z-Abstracter's note&# Complete translation.1 Card 3/3 IVANOV, M.Ye., kande takhn. nauk, YELUKRINe H-Kov kand, takhns nauk Heat exchange during the condensation of oxygen, nitrogen, and argon. Kislorod 12 no.1;5-12 159* ansmission) (mIRA 12:6) (Gas--Liquefaction) (Heat-Tr I 25(2) AUTHORS: TITLEs Telukhin, N. K., Candidate of Technical SOV/67-59-2-4/18 -so ~enc;`sl~ Tvanov, M. Ye., Candidate of Technical Sciences Calculation of Condenser-vaporizers of Air-fraotionating Apparatus (Raschat kondensatorov-ispariteley vozdukhorazdalitePnykh ustanovok) f2_1' PERIODICAM. Kislorod, 1959,,1;r 2, pp 21-27 (USSR) ABSTRACT: it is the aim of-this work to select well founded parameters for the design of condenser-vaporizers based upon the results achieved in experimental investigation of the process of heat emission during the condensation of nitrogen and the boiling of oxygen and to develop with their help a metAod of calculation. For the calculations the necessary temperAuro-gradient has to be determined in a given condenser-vaporizer, or -the speoifir therma-I stress per 1m2 of exchange surface, i.e. the condenrer- vaporizer surface necessary for the transfer of a given heat quantity. To make the calculation easier it is assumed that -the condensing nitrogen as well as the boiling oxygen are highly concentrated so that it is possible to neglect the influence Card 1/3 exercised by their changing composition on their physical Calculation of Condenser-vaporizers ifAir-fractionating SOV/67-59-2-4/18 Apparatus properties and, consequently, also on the calculation. First the temperature gradient between boiling liquid and condensing vapor is calculated which is necessary in a given condenoer-vaporizer for the transfer of a given quantity of heat. For making the calculation easier the latest data ofpublications are used -for computing graphioally the values of the Rhysioal oharacteristion of the condensate at various temperatures (Pigs. 1-7)- Por the computation it is necessary to knows the quantity of beat to bo exchanged q Ecal/hourj f the pressure on the boiling part of the heat exchanger EaU3; the composition of the boiling liquid in the dimensions of the tube, height 11, outer and inner diameter mg and the pitch of the tube, For computing the temperature-gradient the specific temperature stress q in the boiling and in the condensing part of the tube has first to be determined and can be computed by the formulas: q Q/F /d cond cond " qboil" dboil cond andt qboil q/F. boil Vrld boil"n' The exact process of the computation In then given. Furthermore, Card 2/3 the necesaary heat exchange surface is determined. ror these Calculation of Condenser-vaporizers of Air-fraotionating SOV167-59-2-4/18 Apparatus I computations it is necessary to knows 1) The total temperature- gradient of oondensation-boiling in the upper part of the tube corresponding to the pressures and concentrations of nitrogen, oxygen, and argon in the lower and the upper part of the colu=s; 2) the dimensions of the tubes From the oomputations it results that the necessary surface of the oondenner-yaporizer in the boiling part is determined by means of -the specific thermal stress. pboil I Qjqboil(M 2y. A numerical example for the computation of Fboil is given. There are 8 figures and 6 Soviet references. Card 3/3 214 03) .'0Y/67-59-4 ,.chin X X, Candidate of Tochnical -2119 5Cienoeb';-'VTMN1e-vj 1. P. 9 Enginaor TITLE: Reat Exchange in the Boiling of Oxygen in Tubes PERIODICAL: p- . Kislorod, 1959itNr 4, pp 5-15 (USSR) ABSTRACT: For the purpose of a rational construction of air-fractionation plants it was necessary to investigate carefully the processes taking place with liquid oxygen boiling in vaporization tubes. &periments were made with copper tubesp as are used in large technical plantag at atmospheric pressure and natural circulation. Heat supply q was in the -range between 100 and 50000 kcal/m2 per hour. The steam content in the tubes was varied from 0 to 99% and moreip and so were the apparent levels h p - arA (h is H/lp H denoting the immersion depth of tube into -_14 V4v4d l 1 the tube length)p and the ratio 1/d of the tube (d denoting the inner tube diameter). Investigations proved that, when boiling oxygen in vertical tubesq heat exchange is strongl influenced both by ratio 1/d (assuming 1/d > 80) and by 171. Observation of the boiling,process itself showed that heat exchange occurs most favorably when the stage of steam bubble Card 1/2 formation in the liquid is surpassed, and there is a Heat Exchange in the Boiling of Ozygen in Tube,a SOY/67-59-4-2/19 continuous steam flow along the tube, In this caset there is but an extremely thin liquid layer loft on the tUbe wallop which is eviept on into fast motion by the steam. Such 4 propagation of the liquid surface is the best condition for.?4rapid vaporization. It was recognized that all of the factors exerting an influence on the heat exchange are clearly defined by the velocity of the steam exit from the tube. Interpretation of experimental results obtained further led to a quantitatiTe description of the heat transfer when boiling liquids in tubes, under natural circulation, Three equations were set up for the calculation of the heat transfer in the process described. There are 14 figures, 1 table, and 13 referencesp 10 of which are Soviet. Card 2/2 35753 S/124/62/000/003/031/052 D237/D302 AUTHORS: Vishnevp I.P., and Yelukhin,__jL64. TITLE: Heat transfer on the boiling of liquefied gases in tubes using dimensionless coordir!?~tes PERIODICAL: Referativnyk zhurnalt Mekhanika, no. '5, 1962l 96-97, abstract 3B611 (Tr. Vses. n-i in-ta kislorodn. mashi- nostr., 1960, no. 3, 85 - 102) TEXT: Investigation of the process of boiling of oxygen freely cir- culating under atmospheric pressure in a vertical tube# experimen- tal apparatus and method are described. The mechanism of boiling and the notion of the fluid-vapor mixture in the tubo, are descri- bed in detail. An empirical equation for the heat transfer coeffi- cient is given in a dimensionless form. 12 references. [Abstrac- tor's note; Complete translationj. Card 1/1 82591 S/170/60/003/005/007/017 v 0 B010056 AUTHORS: Vishnevy 1. P -Yelukhin2 K. K. TITLE: The Problem of Heat Exchangelin the Boiling of Liquids in Tubes PERIODICAL: Inzhenerno-fizicheakiy zhurnal, 1960, Vol. 3, No- 5, Pp. 74 - 80 TEXT: In the present paper, the boiling of oxygen, nitrogen, and a mixture of both in perpendicularly arranged tubes in the case of natural circulation and under atmospheric pressure is investigated. In these ex- perimentst the total tube surface on which beat exchange occurred was moistened with the liquid. The axperiments were carried out under t1optimum" conditionep ioeop during boiling along the entire tube as well as in the case of such mcdes of operation in which the zone of preheat- ing exerted influence. It was found that the exponent in the empirical formula ak - A q n varies from 0.16 to 0.64 in the boiling of oxygen in tubes with natural liquid-circulation. On the basis of the experiments Card 1/4 82591 The Problem of Heat Exchange in the Boiling 5/17o/60/003/005/007/017 of Liquids in Tubes B0121BO56 of heat exchange in the boiling of oxygen in tubes of 1/d - 106 to 56o, which were carried out here in the case of thermal stresses of 100 to 509000 koal/M2 -hr, h a 0*9v and at atmospheric pressureq formula (1) is recommended for the heat exchange coefficient a k . q - specific thermal stress, 1 - tube length, d - tube diameter, h - H/1# H - liquid level. Experimental data obtained by Rachko, Kutateladze, Viahnev, Tananayko, Danilova and Mazyukevioh, Rabinson and Kattep Ratiani, Ivanovp Korneyevq Minehenko, Borishanskiy, Nak-Adams, Nukiyam., and Kichelli are given in Fig. 2. These data are in agreement with the straight line shown in the same figure and calculated from formula (1). It is pointed out that formula (1), in comparison to the empirical formula ak - Aqn, offers an advantage in-so-far as in.the latter the coefficient L varies consider- ably for different liquids and mixtures, and eat besides, this empirical formula does not reproduce the influence exerted by the geometric 4imen- 11 ione of the surface during boiling in tubes. For this reason, the ouv- put of heat in the boiling of a liquid can be calculated from the for- mulae derived for a large volume only in the case of tubes with 1/d 0-7). In the case of boiling in tubes of I/d >80, the influenoe exerted by the tube dimensions uust be taken into account. On the basis of the experimental results given here, and in consideration of the model test method suggested by Professor A. A. Gukhman, formula (2) is re- commended. It expresses the heat exchange in boiling of a liquid in tubes in the case of natural circulation. The experimental data given here further show that as a determining quantity in the boiling of a liquid in tubes, not the rate of vapor development, but the flow rate of the vapors may be taken. In that case, ReAk l/d in formula (2) may be replaced by Re** - Re* 1/d. It is pointed out that the introduction of the numbers ROO and h makes it possible to characterize the influence exerted by the hydrodynamics of the system more completely. Both numbera together take account of the change in the molar and molecular heat tranifere in boiling which is due to the change in the rate and thickness of the underlying laminar layer. Fig- 3 shows the evaluation of experi- mental data on the boiling of oxygen. Formula (6) obtained from these results is written down. Professor A. A. Gukhman displayed interest In the'present investigation. There are 3 figures, I tabled and 7 references: 6 Soviet and 1 German. Card 3/4