SCIENTIFIC ABSTRACT V.P. CHERNOBROVKIN - I.I. CHERNOBYLSKIY

'k KOZHEUROV, Petr Illich; KUZN2,TSOV""'Stepan Petrovich; CRERNOBROVKIN, kand. tekhn.nnu , nauchn. red.; SVET Ye.B., red.; KOLHYCHEV, V.I.,, tekhn. red. _ [Cupola furnaces of the Southern Urals; from work practices of plants in Chelyabinsk Province] Vagranki lUzhnogo Urala; iz opyta raboty zavodov Cheliabinskoi oblasti. Che2iabinsk, Cheliabinskoe knizhnoe izd-vo, 1960. 73 p. (MIRA 17:3)  CEMOBROVKIN, V.P.; ANANIIN., A.A.; DOBRYDENII A.A.; KAYBICHEV, A.V. Comparative evaluation of foundry irons of the Ural plants. Lit. proin. 1106 5:8-10 My 161, (MIRA 14:5) (Cast iron) (Ural Mountains-Metallurgical plants)  CHEfWOBRDVKIN9,V.P., Continuous charging of the cupola with charge materials. Lit. proizv. no.2:8 F 162. (MIRA 1.5:2) (Cupola furnaces)  " V.P.; ANANOIN, A.L.; KAYBICHEV, A.V.; DOBR'-YDEN-*, A.A. Ganes in foundry iron. Izv.vyB.uchcb.zav.; chern.mot,. 5 no,,4z 136-139 162. WMA 1505) L Urmllskiy Mial AN SSSR. Onses ~n metals)  KAYBICHEV, A.V.; CHERWOBROVKINp V.P. Calculating the overheating of cast iron and position of the melting zone in cupolap. Izv. v7s. uchebo zave; chern. met. 5 no.10.137-148 162. (MIRA 15:111) 1. Institut metallurgii Urallskogo filiala A14 SSSR. (Cupola furnaces) (Beat-Transmission)  KUZIMIN, J.V.;IGH-RRNnAROyXTN- I-FIL4 Effect of vacuum and gases on the chemical composition and structure of eutectic gray cast iron. Lit. proizv. no.5:34-35 Yq 162. (IMU 16:3) (Case iron-~btallography) - (Vacuum metallurgy) I  CHERNOBRMIN, V.P.; WBICHEVI A.V.; ANANIIN, A.A* Effect of gas removal from cast iron on the structure-and form of graphite. Izv. vys. ucheb. zav.; chern. met. no.4: 136-140 163. (14IRA 16:5) 1. Urallskiy filial All SSSR. (Gases in metals) (Cast iron-l-btallography)  KAYBIGHEV,,7,.'FA.V.; CHERNOBRRVKIN, V.P. Lower boundary of the melting zone in cupola furnaces. Lit.. proizv. no.2:17 F 163. (MIRA 16:3) (Cupola furnaces)  KUZIMIN, I.V.; _QWMOMOMNj-Vj,; ANAIIIIN, A.A. Effect of conditions of melting on the formation of ferrite in oast iron. Lit. proizv, no.6:28 Je r63. (mA 16:7) (Melting) (Cast iron-Metallography)  KUZIMIN., I.V.; CHERNOBROVKIN., V.P.; ANANIIN, A.A. i_ . _w.- I , ;'-- -1 17 1 .' . . Effect of individual gases on the structure of cast iron. Izv. vys. ucheb. zav.; chern. met. 6 no.6:161-167 163. (MIRA 16:8) 1. Urallskiy filial AN SSSR. (Gases in metals) (Cast iron-Analysis)  I Kt:!'MINV .V.; C)ikRNOBROVKIN, V.11.~ I NIIN~ ii.A. ., ANM influence of a vacuum on tho ~~t.ruoturfi of caet L'-t. prulzv. ~~ 164. (111RA a&3)  ANIAIIIINY A.A.; CHERVIOBROUIN, V.P.; CHILIKEA, N.D., inzh., red. [Melting cast irong in a cupola furnace) Plavka chuguna v vagranke. Izd.2.,, Moskva, Izd-vo "Mashinostroenie," 1964. 56 p. WIRA 17:8)  ANANIIN, A.A.; BRILAKH, M.M. ~40VKIN, V.P.; BLANK, E.M., inzh., retsenzent;qw-&"~10.-V-ir.D."fiiA., red.; I SIROTINI A.I.J. red.izd-va; SAIRNOVA, G.V., tekhn.red. [Cupola furnace operator] Vagranshchik. Izd-3., dop. Mo- skva, Mashgiz, 1964. 163 p. (MIRA 17:3) ~k_'  SMTOV., A.Ya.; CIIEIINOBROVKIN, V.P. Nonmetallic inclusions in acid electric steel during its alloying in the ladle. Izv. vys. ucheb. zav.; chern. met. 7 no.10:55-58 164. (MIRA 17:11) 1. Institut metallurgii Drallskogo filiala AN SSSR.  SHATOV, A.Ya.; -CHERNOBROVKIN, V.P. . . - ...... 1. 1-1-7-1 - -- . Volume shrinkage of steel smelted in an acid electric furnace. Ut. proizv. no.601-32 Je f64. (IMIA 18:5)  CHMOBROVKIN, Yu.G.; EELAVIN, L.P. Die casting in small batch production. Lit. proizv. no.8:30 Ag 163. (MA 16:10)  IF o0evi0oisoo ~wo`*-w wlxw as 10, ! 10) 1*4 Ots 1? 1/0 !s *f 0 0 1 " ~' 1 0 a 11 J4 n a 13 1. :7 a IV 0 m $I a It a at 1? 41 4A aito .04 8 L & z A rA i A L 11 a r U R Y - a$ M it I a I a 4 1 P A --A _,S_ I- 0:.%! Mi gi- 00 4:! let :0 We d"wo "actions of sod& and sulfur V. U, -00 0 Sawmv gal A. F. Opio. LaWrmath"I Prom. 194o. ,jo. o 19-21 -ThC 0 all mudim of aoda, witur and oxygen of the a goo 4 in =*41 Inarim -11 produces Na.S. Na.Sn, N,4#SCh anti 4ajSo,. 000i Polythlimmates like N4SA and NaAO#, a6v'Na,-%0o do not COO form Under,dw conditions. 1twailounatluittoptcsvilt coo hy&dysis of the Ittifides 911rccroll-cunig. taZa. ibmild be used. Tm 0". of the Sit ion from mixti, coatt. sulfur of too differvat degfm of oxidation Is best carried out by ppin. 0 0011 with ZOC Deta. of S to various degro idati~m Will be I%. In the next imp". Ri"Al oAlel-my zoo XOS 8*0 ij: Z~ !206 moo boo woo 1414W. - ------ 1- -4--v Vr- i-%-6 FW 11 1 '1 IN IN 5 5-7-2--' 4*6 Kin 0 0 0 0 0 0 0 0 0 0 0 101 40 No 00 00 n 11 4 0 0 0 0 0 ft 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 00 00 0 0 0 0 0 0 0 0 0 0 6 0 0 0 0 & 0  L-3764B_-_66__._-0 ) r1w M.-C M-.--AP6CA:d9W' SOURCE CODE: UR/0203/66/006/003/0599/0600 AUTHOR: Kazimirovskiy, E. S.; Kokourov, V. D.; Chernobrovkina, N. A 3 ORG: Institute of Earth Map-netism. lonost)here and ProDaization of Radio Waves SO Ah_'_ SSSR (Institutzemnogo magnetizma, ionosfery i rasprostraneniya radiovoln SO AN SSSR) TITLE: Angular spectrum of waves scattered by the ionosphe SOURCE: Geomagnetizm i aeronomiya, v. 6, no. 3, 1966, 599-600 TOPIC TAGS: ionospheric scatter, angular distribution, radiosonde, reflected signal ABSTRACT: Angular characteristics of scattered signals were investigated in Irkutsk in 1962-1964 on the basis of vertical ga~io b* , pro ingpf the ionosphere. A formula deve- loped by Briggs (1951) for the determination of O~, a cone of concentration of scatter ed energy, was used. The formula is as follows: (2v / X)sjn 0* / 2, where N is the frequency of fading of a reflected signal, v is the drift velocity of inhomogeneities, X is the working wavelength of a probing pulse. 300 observations of reflections from the F region-at 2.25.106 cps were made during the autumn-winter peri- od from 1800 to 0800 hr. The velocity of horizontal drift was evaluated using a meth- UDC: 550.388.2 1  L 37648-66 ACC NRt AP6018927 od developed by Kazimirovskiy and Kokourov (1961). The data show that the widths of distribution of angular spectra obey the Rayleigh law, and that the most probable value of 60 is 7.50. 00 angles over 240 are extremely rare. Orig. art. hast 1 figure, 1 formula. SUB CODE: 04,20/ SUBM DATE: 25Oct65/ ORIG RM 0031 OTH REF: 004 Card 2/2  CHERNOBROVKINk. Yelena. tekhrik-konstruktor The control staff of the seven-year plan at work. Fabotnitsa 44b no.3s4-5 Mr 162. (MM 16s2) 1. Moskovskiy stankostroitelInyy zavod imeni Sergo Ordzhonikidle. (Moscow-Machin*tool industry-Management) (Women-Employment)  GOLIDW, A.D., inzhener; CHIRNOBROWINA, Ye.S., inshener; GROBMU, R.N. Cold rolled transformer steel. Stall 7 no.3:231-235 147. (MM 9: 1) l.Varkh-Isetakly.metallurgicheokiy zavod. (Sheet steel) (Rolling (Metalwork))  GBUNOBROVOV, N.V., Inshener. *Present-day relay protection.8 G.I.Atabokov, A.M.Yedoseev. Reviewed by N.Y.Chernobrovoy, Blektrichastvo no.1:88-89 Ja 149. (M1,24 7:10) 1. Mosenergo. (Ilectric rolays) (Atabskov, G.I.) (Yedoesev, A.M.)  MINIKOVp M, F,P Ehgs,;- CMNQM-VOVs N. -V.,: MgRMYEV~ P. ID.. 2. USSR (600) 4* Electric Relays 7. Blocking relay for improving the protection of long 2-20 KV transmission lines, Elek. sta., 23, No. 10, 1952. 9, Monthly List of Russian Accessions, Library of Congress, February -1953. Unclassified.  CHER OBROVOV 11 0 4y VjLgjlIyO7jqb; BXUOVICH, N.A., redaktor;MDKIN, A H.. [Protective relavingj,ftelein&ia.zashchita. Hoskva, Gqs.eusrg,izd-v*, 1956-495 P. (Blectric relays) (kM 10:4)  V-0V x" YJ9DIDLWflW..V.M., red.; IfAZANSKIY,-V.Ye., inzh., red.; KOAZEVSKIY, B.A.. red,; MALOV, V.S., red.; SYROMUTNIKOV, I.A., doktor takhn.nauk, prof red.; TSAW, 14.1.. kand.tekhn.nauk, red.; CHERMOVOY, S.V.. red.; IARIMIOV, G.Ye., tokhutred, [zlectric relays, automatic and remote control of electric power systems.; papers of a scientific conference on problems of electric relays. automatic and remote control] Releinaia zashchita, avtomatika i teleme*khanika energosistem; materialy nauchrio-tekhnichaskoi konfe- rentaii CPO voprosam releinoi zaahchity, elaktrichaskoi avtomatiki i telemekhaniki). Xoskvej Goa. energ. Izd-vo, 1957. 231 p. (MMA 11:3) 1. Nauchno-tekhnichaskoye obahchestvo onergeticheakoy proryahlennosti. Moskovskoye pravleniye. 2. Hezhdumarodnys elektrichaskiye ev"zi SM (for Syromystnikov). 3, Mntrallnave nauchno-iseledovatellskaya elektrotekhnicheakaya laboratoriya (for Marev). 4. Gosudarstvennyy treat po organizateii i ratsionalizataii elektrostantaii (for Kazanskiy) (Ilectric relays) (Automatic control) (Remote control)  8(2) PHASE I BOOK MaYWITATION sov12366 Chernobrovov,, Nikolay Vasiltyevich Releynaya. zashchita (Relay Protectio-nT 2d ed. Moscow, Gosenergoizdat, 1959. 1191 p. Errata slip inserted* 25,000 copies printed. Ed.: M. A. Berkovich; Tech. Ed. i G. 1. Matveyev. F TOSE: This book'vas approved by the Administration of Secondary Specialized Schools, Ministry of Higher Education, USSR, as a ter.Lbook for students of tekhnikums specializing in the generation and distribution of electric power. It may also be useful to electrical engineering students of vuzes and to engineers and technicians engaged in the design., installation add operation of relay protection systems for power plants and power distribution networks. COVERAGE: This second edition has been enlarged mainly by the addition of a chapter on methods of prev6nting failure of circuit breakers to %-,p--n and close. Th'e author discusses various types of protective systems such as overload current protection, directional overload protection, differential protection, remote protection an& high-frequency protection. He also describes Card 1/14  -Relay Protection (Cont.) sov12366 protectionlagainst short-circuiting to ground, protection of generators, transformers, generator'-transformer sets,, generator-transformer-line sets,, electric motors andbusbars. Various types of relays used in protective systems are also.discussed. The author thanks A. M. Averbukh; Professor G, 1, Atsbekov, Doctor of.,Technical Sciences; M. A. Berkovich,, V. V. Illinichnin., 1. V. Kovalenskiy, M. F. Mellnikov and V. A. Semenov for reviewing the toxt 'There are no references. TAKE OF CONMRS Forevord 3 Ch. 1. General Aspects of Relay Protection 3.1 1. Purpose of relay protection 11 2e Demages to electrical systems 12 3. Abnormal conditions 16 4. Basic requirements of relay protection systems 17 5. Types.of relays 25 6. Methods of representing relays and protective circuits on drawings 26 Card 2/14  ZABEZHANSKIYp I.I., insh.; CIIERNOBROVOV, N.V,,-inzh. ~ Experience in the operation of an automatic voltage regulation system. Elek. sta. 34 no.9s23-25 S 163. (MIRA 16:10)  ATALEKOV, G.I.; BELOUSOVp M.M.; HULGAKOV, K.V.; VPSTLIYEV, D.V.,, YEGIZAROV, I.V.; ZAKHAROV, S.N.; ZEYLIDZON, Ye.D., KOST1,211KO, M.P.; MANOYLOV, V.Ye.; mARNEVSKIY, B.I.; RYZHOVp P.I.; SOLOVIYEEV, I.[.; H SYROMYATNIKOV, I.A.; FABRIKANT, V.L.; CHERNIN, A.B.; C17mllc.,,BRlr1ljcv. -N,Y,; FEDOSEYEVj A.M.; SHABADASH, B.I.; SHCHEDRIN~ N.N.; FATEYEV, A.V. Viktor IvanovJch Ivanov, 1900-1964; an obituary. Elektrichestvo no.11:80, N 164. (14TRA IS: 2)  NEPCROZHNIY, P.S.; SLAVINMI, A.P.; SAPOZIINIKOV, F.V.; SERDYIJKOV, N.P.; ACHKASOV, D.I.; BURGSDORF, V.V.; NEMOV, N.P.; SYR%tYATHIKOV, I.A.; KNYAZEVSKIY, B.A.; ROKOTYAN, S.S.; STEKLOV, V.Yu.; FEDOSEYEV, A.M.; GRIJDINSKIY, P.S.; KHOMYAKOV, M.V.,- VENIKOV, V.A.; CHERNOBROVOV, N.V.; MELINIKOV, N.A.; BERSHADSKIY, I.S. Aleksandr Dmitrievich Romanovj, 1905; on his 60th birthday. Elek. sta. 36 no.11:94 N 165. (MIRA 18-10)  ACC- NAs Ap6OO6954, Aj SOURCE CODE: UR/0381/65/000/0D6/0041/0046 AUTHORS: Phtan', A. S.; Chernobrovov, S, V,: Firstov, V. Gp; Sullkin, A* G, ORG: none -TITIZt Problems in radiation defectoscopy -SOURCE: Do.ektoskopiya., no. 6p 1965,~ 41-46 adiometry exposure materp eVroosco TOPIC TAGSt g rma ra)r, x rAy r pic photography, 'jofec-tos'cope%,~ RKAiefectos cope p IERM78ofectoo Cope V M '-defectoscope / GZ) RA-1 ~~12 defectoseops, R 00-5 defectoscope, RUP-150/500-10 do- pulse device, R ~foctoscope lp ABSTRACT; The automation and mochanization problems in radiation defectoacopic techniques are discussed in some detail. Among the more important problems in this area are those partaining'to control of feeding parts to the radiation area, ~.to radiation of parts with.programed controls, to developing of films, and to ..decoding the recorded information& The devolopront of automatic gamm-ray and x-. ray exposure motors is considered to be of great importance in the Soviet countries. Stereoscopic photography applied to radiation defectoscopy is another now develop- ment in the Soviet countries; i-t-has the advantage of three-dimensional visualiza- tion of defects in the various parts under iuvestigation. There seems to be a -great-need.-for- ImproVin& the quality of auxiliary defectoscope equipment. In 1/2 UDCt, 620.179.  2482o-6.6 ACC NRo Ap6oD6954, particular, there is a distinct lack of high energy.. 1 to 20DD-kv x-ray equipment. .-Recent trends in construction of-.'W - and x-ray equipment have centered on mono- block devices of series RUP-120-5 and 20D-5t on a new universal device of series .~RUP-150/50D-109 and pulse devices IRA-Is Portable-mulum-_137 radiometers are .7--currently popular* Among.the no 'developments alMdevices with special safeguards radiation hazards., it*bluding automatic on-off control systems. A now Ib -P--+--o22P are now be zeries of radioisotope ing marketed under the-markings'bf RD-21P RK-2, and UGD_3 ova the control capability on these defectoacopos, 1 is suggested that "rography be tried for significantly reducing exposure times* -::Ie at M-1 in all., advanced autmmtic defectoscopes can be very useful in machine desig shipbuildingi and the aviation industry. SIM COEE: 34p W SUBM DMs ~%SepO &r'd 2/2  ACC NRo AF00161390 SOURCE CODS: UR1O1W/65/O00/Ol1/ONF4j00 ;,UTA'IOR; Noporozhniy, Pe Sol Saviriykh, A. P.; Sapozlinikov, F. V.; Sordyukov, No po;. Buresdorf, V. Vol Nomov, 11. P.; SyrorWatnikov, L. As: Knyazovskiy, Do A.; T16rco-ty-Lan, So So; Steklov, V, Yuo; Fedoseyev, A, H;; Grudinaldy, Pe S61 MiorWakov, H. Vol Venikov, Vo A.1 %rDqj=Y_0'V'N As; .12/ Bershadskiy, L. So VtjjSql1nikov, No ORG: none TITIL: Nonoring the 60th birthday,of Aloksandr DrdtAyevich Romanov SOURCE: ElektrichoskVe ~tantsii, no@ n, 1965, 94 TOPIC TAGSt electric power plant, industrial personnel A~:SWCT: In July 1965 A.!-h. Romanov celebrated his 60th birthday and the t th anniverzary of his active lifd as a major designer, operator, and build- er of electric power stations. On his graduation in 1927 from the Moscow College of Fbgineering, Aleksnndr Dmitriyevich joined the Mosenergo Moscow Power :system where lie steadily rose through the ranks until lie I)cc,-Pe Deputy Chief Engineer, while at tiio'same time participating in tho design and prac- tical inixoduction of 500-kv electric transmission lines running from Yoscow to WilzbAziya )~ydroolectrI6 Pcwer Station and from Kuybysboy to tbn Urals. since 1959 A. D. Romanov his been Chief Engineer at the Glavvostokelektrosatl- stroy Main Adidniubration or Power, Grid Cchstruction.iiA Enotern USSR of the Card 11% 1 1 . : I  ACC NR, AP6=89o ,State ProductionICommittee for Enereetici_'G~d. Aiong with his active work, nince 1930 A. D. Romanov has boon teaching courses in Power Tetworks and '~ystcrns as well as in Povior, Stations and Substations at the Poacow Correspondence Inutitute of Enorgetica and, later, at tho All-Union Correspondence Inotituto of Fnereetics, find, in this capacity, has trained now cadros of pover enryineors. In 1957 the title of-Assistant Professor was con- ferred on him,Rnd in 1963, the title of Candidate of-Technical Sciences. He has published more than h0 scientific and technical attioles on power engineer- ,ing and construction and he*is a rierber of the ediiorial boards of the period- -ic anthologies Energeticheskoye Stroit6l'stmo (Power Construction) and- Enorgetichleskoye Stroitel'stvo za Rubezhom (Pmer Construction Abroad)e He has been,a Party member since 1932 and is the beavir of the Order of Labor Red Banner as well as of various nedalso Best wisbee fjr fVrther creative work are extended to hims Orige arto hass I figtiree- I.JPRPI SUB CODEs 10 SUBK DAM Do"  SWAGLIN, Georgiy Savellyevich; SHCHENICOV, V.V., inzh., retsenzent; HWUHRO, I.S., inzh., retsenzent; .9 CHERNOBROV, S.M., red. [Electrolytic prod .uction of magnesium] Elektroliti,3he- skoe proizvodstvo magniia. Moalma, Motallurgiias, 1965, 150 p. (MIRA 18.7)  IV C, IQ 's 0: Jim lip- a   KMUMV, A.Th., inzh.;_-CH1WTOBRDVSKIT, V.P., inzh. Distribution of elements in liquid cast iron before and after adding magnesium. 1xv. vyi. ucheb. zav.; chern.mete noo5:41-49 MY '58. (MIRA 11--7) l.Sibirskiy metallurgicheakiy inatitut i Institut metallurgii Urallskogo filial& AN SSSR. (Liquid metals--Analysis) (Cast iron-Analysis) (Magnesium)  CHERNOBROUSEV) M. S. "Growth and Development of Spot-Seeded Oaks Dur-Ing the First Years of Growth,'-' Les. klioz., 5, No.4, 1952  2. USSR (600) 4. Oak 7. Classification of trees by growth and development and its application to oak forests. Les.khoz- 5 Wo 11, 1952 9. Monthly List of Russian Accessions, Library of Congress, 1953. Unclassified.  (i-6-,rN0b0V-r&-V, M G-, .1 -V�SR / Forestry. Forest Economy. K-4 Abs Jour: Ref Zhur - Biologiya, No. 1, 1958, 1341 Author : Chernobrovtsev, M. ----------------------------- Inst : Voronezh Forest EngineerLrxg Inst, 1956, 15, 27-33 Title : Forming Plantations of Yoxig Oaks and Thi--qni::,-g, Them Orig Pub: Nauchn. zap. Voronezhsk. in-tva, !956, 15, 27-33 Abstract: The work was done on young oak plantations of the forest study and test area of the Voronezh Forest Engineering Institute. 'he growth and development classifications in the investigated plantings were found to be closely connected C ard IA  USSR / Forestry. Forest Economy. K-4 Abs Jour: Ref Zhur - Biologiya, No. 1, 1958, 1341 with a series of morphological characteristics. In thinning out oaks it is recommended that each tree's light exposure be estimated by the five- mark system. In groves of young oaks Z7 nizkost- vol.1nik7., in addition to care of the condition, of the forest as a whole, the form cf the trunk, and the growth of the individual tree, the goal of rejuvenation must be sought also. ThLaning should commence when the trees are thrae years old. In- the first place the trees of subclass B (accord- ing to V.G. Nesterov) should be taken out, striv- ing in this manner for rejuvenaticn of the whole grove. If care is taken of the form of the trunk in the period when the grove is purged and clean- sed the comercial Value of the yomig plantation can be raised 150-20C%, and if the groiels thick- ness is sufficient-, it car. be transformed into a Card 2/3  USSR / Forestry. Forest Economy. K-4 Abs Jour: Ref Zhur - Biologiya, No. 1, 1958, 1341 stand of timber differ:Lng lit-t1e, In terms of commercial lumber, from a for-,-~st grown from seed. The young trees tell ol a.5 years of age should be thinned by removing the tallest ones P,7 and when older by cut-'1--ing out t-he lowest, which, however, does not exclude th:! possibility and even necessity of thinn-Ang ou"t the upper stratum. Card 3/3  USSR Forestry. romeat Cultures. -of Z~Illr -Ijiolo -iYA , X0. 20153 3-1 Chernobro-Asev, M.S. Spruce Hill Cultures. ()A-ruyG- PU79-: Naunhn, d0kI. vyssh. shly:oly, Leaoinz.11it delo2 19518, No.21 6-9 .~19Sr-,,CT At Sudogodskiy.forezt rangs in Vladimirskaya Oblast 2-3 year *ald sprites needlingr, tfero planted 10-20 individuala clustered ii, one hole at a uingle planted locality. The planting was ovvrgtiourn with birch and was not cared for. At 35-40 years ot age the apruce plantings were studied in cosuparison W~tth ordinary regular Bpruco Plantings at four teat plots; the resultA of measuromenta are given. --V,I* Klimov  CHERNOBROVTSEV, M.S. Doc Agr Sci - (diss) "Setting up oak sprouting Z-porosievyyL-7 plantings and improvement cutting thereof." Moscow, 1961. 35 pp; (Moscow Order of Lenin Agricultural Academy imeni K. A. Timirya- zev); 200 copies; price not given; list of author's works,.at end of text (14 entries); (KL, 6-61 sup, 230)  CEM013ROVTSBT, Sergey Vasillyevich I Dvanwro Province during the years of the Soviet regime] Ivanovskaia oblast' za gody Sovetskoi vlasti. Ivanovo, Ivanovskoe knizhnos izd-vo, 1959. 63 P. (MIRA 13:2) (Ivanovo Provinee-Sconomic conditions)  CBEM ktor biol.nauk (Pnepropetroylik), More vegetable proteins, Nauka J zbyttia 10 no,2:23-24 .1 16o. (MIRA 13;6) 1. Chlon-kDrrespondent Ukrainskoy akademii sel'skokhozysystvennvkh nauk. (Logmes)  CHRMOME, I. leaders with pipaless antonatie stock waterers. Sell. stroi. 15 no.7:27 J1 160. (MIRA 13:8) 1. GlavVy inshener %Iyay-Poilskoy meshkolkhosnoy stroitell- noy orgunizataii Zaporozhokoy oblasti USSR. (Cattle-watering) ,  1 J CIHERNDPUKX~ 7-- Economical doorframes. Sell.stroi. 15 no.4:27 Ap 160. (Doors) . (Concrete products) (MA 16:1)  CHEHOM, I.; DOPASHINIO, I. Assembling spanless girders. Sell.atroi. 15 no.6:10 jo 16o. (MIRA 13:8) (Girders)  I CHERNOBUK I Manufacture of arobed slabs. Prom.stroi. i Insh. soor. 4 no*4113-15 J1-A9 162, (KRA 150) 1, Nachallnik otdela tekhrAcbeekogo kontrolya stroitellnogo kombinata No,1 tresta "Dneproitroydetall" (ConmIete BIaLB)  CHERNO~YLISKAYA. E.I. (Kiyev); TSIKOOV, I.K. (Kiyev) i Syloy P-subgroups of orthogonal and simplex groups in hyperbolic spaco, Ukr. pat* zhur# 15 no.3:290-298 163. (MIRA 16:12)  Cvia~~O oyL~ Sy-VI A, t--- I . C"OMI-I-Br-all XLDMM) A. P., WERTS) G. E., and GAYDUK, B. V. "More Accurate Design of Heat Exchangers." Report submitted for the Conferences on Heat and Mass Transfer, Minsk, BSSR, june 1961.  CHERNoByL,sKAYA E. i., KLDMW, A. P., WEVETS, G. E.r~,and GAYDUK, D. V. Y, "Calculation Method of the Optimirn Heat Exchangers by Electron computers." Report submitted for the Conference on Heat and Mass Transfer, Minsk, BSSR, june 1961.  TROITSKIYI I.D.p kand,tekhn,nauk; CHERNOBhISK~ inzh. Methods for determining the electrical strength of rubbers. Vest. alaktroprom. 34 no.5118-21 My t63. (MIRA 1615) (Rubber--Electric properties) (Electric insulators and insulation)  CHEMOBYLISKAYA, M. N. Chernobyllskaya, M. N.', and Rubenchik, L. I. - "On the effect of certain biological active substances on the Clostridium acetobutylicura," Dokledy Aked. nauk Mcr. SSR, Po. 6, 19L8, P. 3-6, (In Ukranian, rezume In Russian) I SO: U-4355, 14 August 53, (Ietopis 'Zhurnn.l Inykh Stmtey, -No. 15, 19119)  CHERMBILISIKA, M.N., kandidat biologichnikh nauk. Direct observation of soil microflora for the prevention of the oxidation of beer In the acetone-butyl industry. Hauk.zap.Kisv. un. 8 no-3:33-39 049. (nRA 9:10) (Soil-micro-organisma) (jormentation)  I CHERNNOBYLISKAYA, 14. N.-, RUSIKO, A. N. Rye - Diseases and Pests Acetone-butyl fermentation in the treatment of rye flour with ergot impurity. Nauk. z;p. Kyiv. un. 9 no, 7, 1950. 9. Monthly List of Russian Accessions, Library of Congress, July -195B, Uncl. 2  CHMOBYL'ISKAYA.M.' AND: SLIMKOVA, I.B. 2. USSR (600) "concerning a Method of:Disoovering Infootion In the Acetone-butyl Industry", Naukovi Zoplaki Kilvalk.' Derzhav. Univers. im. T,T, Shevehenko (Scientific Votes of the Kiev State University Imeni T.T. Shevehenko Vol 9, No 8,, 1960, pp 145-140. 9. Mikrobiologiza,, Vol XXIS Issue 1. Moscow, Jan-Feb 1952, pp 121-132* 'Unclassified*  01-1 E-& 4/0 29 Y4 S7 1---l-21,,9 , /2,3 - /Y - USSR /44iorobiology. Soil Microbiology. F -3 Abs Jour: Referat. Zh.-Biol., No. 9, 1957, 35603 Auth6r : Rubenchik, L.I.;_Chernobylskaia,_M.N.; Kilchevskaia, A.A.- Title : Microbiological Characterizations of Some Soils of the Irpen Basin (Poleslye Ukn SSR) Orig Pub: Naukovi zap. Liivsk. un-ta, 1953, 12, No. 7, 21-26 Abstract: No abstract. C ard 1/1  aMMOBYLISKAYA, M.N.; RUSIIVD, A.W.; VTJMXAYA, A.U. Effect of ash elements on the development of Ficatend-butyl bacteria. Nnuk.%s;p.Kiev.un.l2 -no-7:27-35 153. (MMA 9: 10)- (P~estridium acet*butylicum)  C"ERNO13YL'SK/jYA, I'll --N. RUBINCHMO. M.; CEIRNOBYLISIXAO M.N.; SKAL1Y, "Nummmmm" ~- ~- Yertilizing young pear and apple trees Mikrobiol, shure 15 no-302-34 153. (AMMACMR) (APM) V.T. with arotobacterin. (MLRA 8:1) (FAAR)  RIJBINGRIK, L.I.-, CHMOBTLISIATA. M.N.; -XILICHIMAU. A.A. Iffect of granosan on Azotobactor chroococoum. Xikrobiol.zhar. 16 no.4.-19-25 154. .(HM 10-1) 1. Z Iiivelkogo derzhavnogo universitatu Iment T.G.Shovehenka. (GPANOSAN) (AZOTCMACTIR)  BORINA. K.Ta., student 4 karsu; CHERNOBILISEL, M.N..'dotsent, nzukoviy . 1wrivnik. Effect of certain micro-organisme on the course of acetone-butyl ferizentation. Stud.neuki.pratsi no.20:149-155 '56. MU 9:12) (Clostridium aestobutylicum') (Fermentation)  AUTHORSt Rubenohikf L. I.p_gttrpq1yl'ska p 14._Lt 20-1144>~-49/54' Za_ Kilichevska,va, A. A., Pilanovskaya, A. N. TITLE: The influence Exerted by the Volatile Secretions of Actinozycetes Upon Bacteria (Vliyaniya letuchikh vydeleniy aktinomitsetov na bakterii). PERIODICALi Doklady AN SSSR, 1957, Vol- 114, Nr 6, pp. 1315-1316 (usm) ABSTRACTt Antibacterial substances were, among otherst determined in the (volatile secretions of some fungi of the species Trichoderma reference 4). The authors studied 4 species of Actinomycetes. As test objects they used 4 species of bacteria in which the influence of the above-mentioned fungi was determined. The fungi were cultivated in Petri dishes, the bacteria in the covers of these dishes. A layer of air of 12-14 mm thickness thus separated both types in such a "two-storey" culture. Therefore only the volatile secretions of the fungi could act upon the bacteria. In the control dishes the lower "storey" was not inhabited. The culture lasted 72 hours at 280. The results are given in table 1. A stimulating influence was exerted byt Actinamyces griseus subsp. variabilis and Act. coelicolor upon Bac. snbtilis and Bac. mesentericus; Act. Card 1/3 globisporus var. diastaticus upon Bact. coli, Bac. subtilis  The Influence Exerted by the Volatile Seoretions of 20-2 ~4/5'z Actinomycetes Upon Bacteria. and Bac. mesentericus,; Act. griseus upon Bact. coli.Microc. aureus remained uninfluenced of all investigated species. From dishes in which Actinomycetes were cultivated alone the authors brought drops of water of condensation from the cover into colonies of bacteria. Tap water served as control. No differences in the growth of the colonies of bacteria could be determined. The volatile secretions of the Actino- mycetes apparently are little soluble or insoluble in water. The tests with Act. griseus, Act. albus and Act. violaceus which grew at the bottom of the Petri dishes, and with .Azotobact. ohroococcus (strain x.) at th+over showed that the volatile substances of the fungi may serve as source of carbon and energy for this bacterium. This source was not full value, however, as the colonies of kzotobacter grew only weakly and slowly. But without Actinomycetes they did not develop at all. There are I table and 5 references, all. of which are Slavic. ASSOCIATION: KiyevState University imeni T. G. Shevchenko (Kiyevskiy Card 2/3 gosudarstvennyy universitet imeni T. G. Shevehenko).  The Influence Exerted by-the Volatile Secretions of 20-11X-6.-.49/54~ ~ r Actinomycetes Upon Bacteria. PRESENTED: May 9, 1957, by V. N. Shaposhnikov, Member of the Academy. SUBMITTED: May 8, 1957 - Card 3/3  ZORINp V.N.; KONYUKHOV, I.N.; VINOGRADOV, B.N.; CHERNOBYLISKIY, A.G.; ALEKSANDROV, V.S. I - Reduction turbodrill for drilling slim and deep wells. Trudy MINKHiGP 46z27-34 164. (PIM 17:6)  SRAPFIMIUS, R.A.;. Gil 1-2-4,10BY1, ISKIY, A.G. Method of neutron activation analysis f ur evalwAlng the of the oyllmderv. and piston rIngs of a compressor. Fluf h. -.*, obor. no.11900-34 164 (11-1 RA 18.-'L) 1. Moskovskly institut naftskhImichesko-y i gam'07 PT'OMys`hlc-ncSU Im. akademika Oubklna.  -Cy IRONTITBV, I.; LTUKSBNBUR4, H.S., kandidat tekhnicheskikh nauk, retsenzent; inshener, retsenzent; PAVLOV. S.A., doktor 4E- iAchRes~'iikMh*-d~,kprofe*sooro speteredaktor; 17MOVA, R.N., .redaktor. DMOVKM, N.A., tekhnichaskiy redaktor [Manual on processing hiaesi Rukovodetvo po obrabotke kosheyrliao Moskva, Pishchopromisdat, 1953. 158 p. [Microfilm) (MLEA 7110) (Leather inclustry)  C 116- C, Y X~ Y" -7, C"' 137-1958-2-2493 Translation from: Referativnyy zhurnal.. Me"allurgiya, 1958, Nr 2, p 44 (USSR) AUTHORS: Gratsianov, Yu. A., Cliernobyllskiy, I. G. TITLE: On the Use of Vibration on a Crystallizing Ingot (K voprosu o primenenii vibratsii k kr;. stall -1 zuyushchemu sya slitku) PERIODICAL: Sb. tr. Tsentr, n.-i. in-t chernoy metallurgii, 1956, Nr 15, pp 164-218 ABSTRACT: A short survey is given of earlier work on the vibration of solidifying alloys. A study was made of the effect of harmonic and jarring vibrations on 1-35 kg ingots of steel A20 and of the alloys N79M4, N35MV, and N-15Yu9. The temperature before pouring was kept the same in all the experiments. The study was conducted in frequency ranges of 1-60 cps with 0.3-1 mm amplitudes for the harmonic vibrations, and 2-13 cps with l.Z-4 mm amplitudes for the jarring vibrations. it was found that the vibration of a crystallizing ingot has a pronounced refining effect on its (cast) grain and increases it.'s density-and'tliat-, moreover, the action of the jarring vibrations is stronger (requiring a Card 1/3 smaller frequency and amplitude to produce the same effect).  137-1958-2-2493 On the Use of Vibration on a Crystallizing Ingot. Each alloy, however, was found to have its optimum vibrating conditions, outside of which the vibrations affected the structure of the ingot either insufficiently or detrimentally, causing the appearance of longitudinal liquation bands, S-enriched in the case of steel A20, C-enriched in the case of the alloy N35MV, and Nb-enriched and perhaps Al-enriched in the case of the alloy N25Yu9. The effective removal of gases achieved by the vibrations made it possible in the experiments, starting from gas-contained all-oys, to produce ingots with a close-grained skin and few gas blisters in the central part. The shrinkage head functioned most satisfactorily when the ingot was vibrating. It is recommended that heating riser compounds not be used to improve the effectiveness of the feeding, because the vibrations agitate the steel very vigorously inside the mold, and this can contaminate the steel (the effect of this stirring action was tested with an Fe isotope) . To increase the efficiency of the shrinkage head operation when the ingot vibrates, the suggestion is made that the liquid surface of the shrinkage head be heated by a gas or electrical method, to be adopted after suitable laboratory testing. The appearance under certain conditions of liquation Card 2/3 bands during vibration of an ingot is accounted for in terms of  137-1958-2-2493 On the Use of Vibration on a Crystallizing Ingot the crystallization in depth, since the vigorous agitation or stirring of the alloy during crystallization will create, as of a certain moment, the necessary conditions for the formation and growth of crystals throughout che alloy. It thus becomes fully possible to improve the quality of an ingot by applying this vibration method during the crystallization process. A brief survey is given of the work being done in this field. Bibliography: 19 references. A.R. 1. Ing0ts-4r7stallization 2. Vibration-Applications Card 3/3  1 41 41 44 IT cm AV u 11 Of f It A % 0 N a t bv it. lei V 1 4101031411M) 311,110401141 IV340 nilytim so owl 00 00 it 001 OL &0 0 0, ~. if cl 00 go 00- go 00 9 Ir go 0_: d 'A 'am"p puv x"Wq3 alswumano t"Ift sulmi" supit 4P- IiI PAXI Y- OCOOOT-W 11 '1010-1.1 Pff~&IV7 'V"V.V '11M.-ng go T3_ 0 t4 -3 VA v dg 1) So VV 7 A 1-74' A (F I I Ifa j if 0 '1 a I I I -11MAR aft tin it ft --at ii PC a It U a K a " Ill " " tt c1 '1 11 94 4 0 1 4 1 1 1 1a* ~Ak I IS 0 a 0 * It go o 0 # 0 * 0 ~ 0 * 0 is 8-0 &-Q,AaA --- - - - - - - lffil - - - ! -  J. a 1 6 L- a- A- A- I*D I.K1 Ois A~D ptcpf a?!" .PC, -40 ftwov. Nalk. C~ArjAbl4a4j, and 1, 11, Abow Sow) 141- 11w :41itual mod(I 4d 1hr ()W%'It 16MKnr-lKvt drivir has brvu IM41511twird it) confi,"In w1lb 'be 14101 r%iWI1VIkV, Willi IMrIk-jt6j jvj 0: lwdal ItIIIIII of the w4wa. efr", to If. e4 =0 0 00 40 00 go 0 too too 0 a to.11 L A "TALLUAGICAL %ITIN&JUNI CLAVINFICA111011 too ;wl-iiij $a If' INS 0 &1 Inglis mit" IlKwh Sian 0 0 0 0 0 0 0 0 0 INS 0 0 0 0 0 0 0 0 *00 00.0 00 00 o 0 000000 0 a 0 0 0 0 00090 a a 0 fa -~MOWW K-  w W W W. W09000090000 . a , -AD _r. if Alit, 00 c uttser drwr at the itor Rwfbmst! fA d" i-Am" A, rAlmot sit I for ANkilt I motith E.11,01"Wr - I 4.1wil I Ike It-i"I 1-4161-1 arid P1111,4 I Ati.f", drTifix thr atilt 14 f1hWillyin evall. the n1l.6 .4m$ I'll fill 011. talk 1w,1lkd,k,Jv at flish .14111. " . - zoo -1 tic billistv 4 Ilikill, Is rhol 1. hilt it MIN 1, 1 00 00 00 Ll so 0 see t:0 0 0 ~:si is- Too 'Kill. Atki-tLA a-t (11, it I - ------- it it tt it at I t ip it  11 to to a 11 n If a a is a 71 10 11 I #A a 0 U:# ~i7 ' ,m lim. V. R. BAUMVP ~iOR2~ I Leo 09 zoo 90 00 so :'! zoo A 0 41 As We is IJ - 0.C U vs jo ro tv IV 1*1 111 it 0 -4 21, 04-0 1-4 1-1-C 14-9 Asi-4--3 .142 0 0 0 ,.Q 0 4 0 0 0 0 0 0 0 0 0 0 0 IS 0  CHRRNOBYLISKIY, I.I., professor, dektor tekhaichookikh Rauk. Determining the coefficient of heat tramsfor from one madiun to another aefoom a ribbed surface. Sbor.trud. last. onerg.AN UPM n0-3:82-87 148. (MLRA 9:1) (H*&t--Tr&numio~isR)  CHERNOBYLISKIY, 1. 1. 1 SHCHEGOLEV, G. M. 263" Opyt issledovaniya teploperedaohi ot kondensiruyushchegftya para k-zhidkootl pri vrashchenii. Toploobmennoy poverkhnosti. Trudy in-ta teploznergetiki (Akad. nauk ukr. SSR)., sb. 1~ 1949.. a. 118-24. SO: LETOPISI NO. 35, 1949  'Y" (Frof.%, Imr? j - Donets 7ane 17F.-ntilation Air conditioning installation in deep mines of the Donets Basin. Ugoll no. 6, 1952. 9. Monthl List of Russian Accessions, Library of Congress, Aum-,st 194;2. iM, Uncl.  PERNOBTLISTY * 1 1. professor, doktor takhnicheeld nauk-, EMMY, O.A., 'kandj"f t_&;;.bskM = Comparative analysis of air conditioning systems for deep coal mines. T=4 lust. tepl. AN URSR no.BilOl-3.19 152. (NLRL 8:7) (mine ventilation)  OMMMBYLISM, I.X.q professor, doktor tekhnicheakikh nauk; MIZMW, O.A., "Wft""WW JUC%%"&&&Cbw mauk. Power indices of host used in air conditioning. Truay Itat.tepl. AN URM noo9slB-34 153a (Kum 8:6) (Air conditioning)  CHE M BYLISKI , professor; ERB M V, O.A., kandidat tekhaichookikh jauk; in2homer. Investigation of as experimental laboratory lithium-chlorider unit for air conditioning by means of low-potential heat. Trudy Inst.tepl.URM me.12:150-168 155. (MIRA 9:7) (Air conditioning) (Lithium chloride)  CMNOBY4!=,,4*" professor; JMZMV, O*A., kandidat tekhaichaskikh wLuk; CUV'IMVp AqSvj inshonere Investigating the operation of a heat-using unit for lowering the heat coutext of air by treating it with aa.aqaoous solution of calcium chloride. Trudy lant.topl.URM me.12:169-181 153. (HLRL 9:7) (Air conditioning) (Calcium chloride)  CHERNOBTLISKIYO I.I. doktor tokhnicheskikh nauk. professor;KBAMY, O,A., -!:~iZiRa+i-eiinlohssklkh nauk; BMOTSKIY, A.L,, lazhener; SATANOVSKIY. A.L., inzhoner; TYUMXW, Ya.l., inshener. Study of the rw silk drying process on cocoon reelers. Takit.prom. 15 ne.11:15-18 R 155. (W2A 9: -L) (Silk manufacture)   SFMHERBARI. A.N.-, MMKNEV. O.A.;- CHEWOBYLISKIT. I.1.; UGHASTKIN, P.V.; 'TWMVNIKOV. Y.N.; YAGIRLnMlr.-A-.N;I'IMCIMVVrP.S.. redaktor; TITKOV, B.S., redaktor isdatel'stya; MMOYSXIY, A.D., tekhnicheskly redaktor [Gooling and drying, of air In deep coal mines] Qkhlazhdonle i 6sushenie vosdukha v glubokikh uSO17r-ykh shakhtakh. Pod obshchei red. A.B.Shcharbania I O.A.Kramniva. Kiev, 12d-vo Akademit nauk ussR, 1956. 271 P. (MLRA 9:12) l.-Chltn-korrespondent AN USSR (for Kucherov) (mine Tentilation')  CHMNOBYLISKIY, I.I.; ERWMV, O.A..; DANIUVICH, Y.N. Investigation of a -vacuum-water absorbtion lithium bromide installation for cooling water used in air conditioning. Trud7 Ini3t.tepl.AN URSR no. 13:123-134 156. (MIRA 10:5) (Air conditioning)  CC #at 6 "po r/t/O S/ A d~!- , y : lecular Physics - Eeat r-4 Abs Jour : Ref Zhur -- Fizika, No 3, 1951-7, Ro 6335 Author : Chernobyl'ski-Y, I,L, Lukoch, Yu.Ye. Title : Investigation of Heat Transfer in the Boiling of Binary Mixtures. Orig Pub : Izv. Xlyovok. politokhn. in-tn, 1956, 17, 1,r--60 Abstract : No abstract Card : 1/1  SOV/1 Z4-57-5-5704 Translation from: Referativnyy zhurnal. Mekhanika, 1957, Nr 5, p 88 (USSR) AUTHORS: Chernobyllskiy, I. I., Tananayko, Yu. M. TITLE: An Investigation of the Heat Transfer to Boiling Water Flowing Through Narrow Annular Openings in the Presence of Moderate Heat Fluxes (Under Conditions Approximating Those in Industrial Evapo- rators) (Issledovaniye teplootdachi k kipyashchey vode v kolltsevom prostranstve pri umerennykh teplovykh potokakh) PERIODICAL: Izv. Kiyevsk. politekhn. in-ta, 1956, Vol 17, pp 61-74 ABSTRACT: An account is given of the results of an experimental i.ivestigation made of the heat transfer to boiling water flowing through narrow slit-like annular openings especially made in evaporator-type boiler tubes; atmospheric pressure was maintained in the experiments, and the rate of heat flow q was kept within the moderate range of 20 to 121 x 103 kcal/m2hr -- which approximates the conditions in industrial evaporators. Included is a diagram of the apparatus used for the experiments. The boiler tubes of the apparatus were he-ateii by steam superheated by some 1-20 and maintained at pressures ranging from Card 1/4 1.28 to 2.46 atm abs. ; the secondary vapor generated in the ~~q.  SOV/124-57-5-5704 An Investigation of the Heat Transfer to Boiling Water Flowing Through (cont.) apparatus circulated in a closed, externally heated system. The boiler tubes used were seamless and exhibited the normal amount of oxidation; they had received no special treatment or processing; their dimensional characteristics were as follows: (in the case of a steel heating surface) diameter d = 27AI,~ mm, length L = 480 mm; (in the case of a copper heating surface) d = 24.5/19.5 mm, L = 603 mm. Investi- gated in the experiments was the heat transfer to boiling water flowing through 10 annular slit-like openings formed by inserts placed into the boiler tubes, each such insert being firmly held in place by a special type of adapter bushing. The respec- tive clearance widths 6 of the 10.test openings ranged from 1.25 to 14 mm. The authors propose formulas for use in calculations of the type involved. They state that the maximum relative error exhibited by the values calculated with these formulas for the heat-transfer coefficient -aZ was 6.8-8.40/6. The data obtained by visual observations and the results of the heat-transfer investigation are examined separately. In one set of experiments the usual type of outer shell that encases an evaporator was replaced by a shell made of a special transparent heat- resistant glass so as to permit visual observation of the boiling process in an internally heated system with external slit-like openings. In this set of experi- ments the clearance width of the openings was 2.75, 6.75, 10.7, and 14 mm suc- cessively. It was found that, when the slit-like openings were made narrower, 7Card 2/4  SOV/124-57-5-5704 An Investigation of the Heat Transfer to Boiling Water Flowing Through (cont.) the steam bubbles turned out smaller, the flow became severely turbulent, and the amount of steam in it increased. The heat-transfer data obtained by the authors are graphed and tabulated in the paper. Analysis of these data has led them to the iollowing conclusions: 1) For a given width ( 6 ) of the slit-like opening the heat- transfer coefficient a2 will be the same whether the slit is internal or external; 2) for a given value of said width ( 6 ) the value of the heat-transfer coefficient IL 2 is not affected by the nature of the material of which the heating surface con- sists; 3) when such an opening is reduced in size to the point where its width dimension 6 is of the order of the separation (breaking-free) diameter of a steam bubble, the heat-transfer process begins to fall off at a certain "break" in the rate q, which "breaking" rate is a function of the piezometric Level of t1-,! boiling liquid, of the width of the slit, and, apparently, of the specific properties of the particular boiling liquid involved; 4) as the width of an opening is made smaller.(the value of q remaining unchanged), the heat-transfer coefficient a2 increases with the decreasing temperature of the inner wall surfaces of the opening. In addition, an attempt is made to generalize the results obtained. Into the welt-known criterional equations the authors introduce a correctional factor for the opening's width dimen- s ion 6 ; this enables them to use these equations even- when 6 is of the order of the separation diameter of the steam bubbles --a case in which, without the Card 3/4  SOV/124-57-5-5704 An Investigation of the Heat Transfer to Boiling Water Flowing Through (cont.) correction factor, the use of these equations would result in sizable errors. The paper includes a brief account of the history of this whole problem, and the physi- cal principles involved in the investigated processes are explained. Bibliography: 6 references. G. Ye. Khudyakov Card 4/4  Cj) E RND GYL~ SK 1y, 1-1 SUBJECT USSR / PHYSICS CARD I / 2 PA - 1561 V AUTHOR CERNOBYLISKIJJ.,I~, TANANAJKO,JU.M- TITLE The Heat Transfer on the Occasion of the Boiling of Liquids in Ann lar Gap. PERIODICAL Furn.%Lohn.fis, 26, fase.10, 2316-2322 (1956) Issued: 11 / 1956 The present work investigates the problems of the intensification of the boiling process with the help of tubes with an annular cross section in the case of natural convection and moderate thermal loads. The influence exer- cised by the width of the annular gap (more accurately the thickness of the layer of the liquid boiling in the annular gap) upon the intensity of heat transfer is investigated, Investigation was carried out with two experimen- tal orders. In the case of the one of these.two devices the annular gap was produced by the introduction of a steam-heated heating tube into the boiling- tube~ In the other device the tube was heated from without by means of steam, and the annular cross section was formed by the introduction of a not heated inset into the boiling-tube.. Summary of experimental results: In tubes with annular cross section of the intensity of heat transfer increases with a decrease of the width of the gap down to a certain limit. The coefficient a2 of heat transfer increases as a result of a modification of the character of the formation of steam in the gap, because, with a decrease of the width of the gap the turbulation of the  &rn.techn.fis,.L6, fase.10, 2316-2322 (1956) CARD 2 / 2 PA - 1561 flow increases, the dimensions of the steam bubbles diminish, and heat trans- fer from the wall is improved, Above all, the heat transfer coefficient in- creases in such gaps the dimensions of which are of the order of the breaking- off cross section of a steam bubble, Selection of the most suitable width of the gap is influenced by the physical properties of the liquid and by the in- tensity of the heat flow. These experimental results can be generalized both by empirical formulae and by a critical equations Experiments further showed that neither the material of the tube and of the inlets nor the direction of the heating of the annular layer of liquid exercise any influence on the coefficient of heat--transfer. INSTITUTION:  CHERNOBYLISKIY, 1. 1. (Dr. Tech. Soi.), BALITSKILY? S. A.J. and MINCHENKOI F. P. "Results of an Experimental Envestigation of 'feat Transfer during Boiling of Aqueous Solutions of Lithium Bromide and Chloride under vacuum." report presented at sci. and tech. session on Heat Exchange during Change of Aggregate State of Matter (by Comm. on High Steam Conditlons, Power Inst, AS USSR, and Inst. Thermal Engineering, AS UkrSSR) Kiev, 23-28 Sep 57. Inst. Thermal Engineering, Acad. Sci. Ukr SSR (for Chernobyllskiy, and Balitskiy) Cent. Boiler Turbine Inst (for Minchenko.)  0,112--Wle Ce-q Ye' CHERNOBYL' SKIY, 1. 1.; 0 Determination of heat emission coefficients in the boiling of binary mixtures. Zhim. prom. no.6:362-363 S '57. (MIRA 11:1) (Distillation) (Heat--Transmission)  CHERNOBTLISKIT, losif Il'ich;,KREWV, Oleg Aleksandrovich; CHAVDAROV, A16kbandt"'Sis,*'vIIcb;IPiATYSHKIII, N.M.. kand,tekhn.nauk, otv. red.., IFEMENNIK, T.K., red.izd-va; SIVACHENKO, Te.K., takhn.red. [Ileat operated air conditioning equipment'I Toploispollzuiushchie ustanovki d1la konclitsionlrovanila vozdukba. Kiev, Izd-vo Akad. nauk USSR, 1958. 267 p, (HIM 11:12) (Air conditioning--Equipment and supplies)  AUTHORS: Chernob I Doctor of Technical SOV/64-58-4-14/20 Sciences, Semilet, Z. V.,Candidate of Technical Sciences TITLE: The Investigation of the Coefficients of the Heat Emission of the Spray Heat Exchanger on the Sprayed Surface (Issledovaniye koeffitsiyenta teplootdachi orositellnogo teploobmennika so storony orosheniya) PERIODICAL: Khimicheskaya promyshlenLnosti, 1958, NT 4, pp. 249-252 (USSR) ABSTRACT: The heat transfer from the outer surfaces of the spray liquid of the above mentioned heat exchangers have been little investigated until now; this makes difficult an exact calculation and a design of this type of heat exchangers. In the case of a slow motion of the air the heat transfer from the wall to the spray liquid plays the main role; the equation by Adams (Ref 21) and that by Ploeg (Ref 22) are recommended for the calculation of the coefficient of heat transfer to the spray liquid. As, however, the two formulae do not yield identical results Card 1/2 the authors carried out laboratory investigatioL2 with a  The Investigation of the Coefficients of the Heat SOV/64-5E-4-14/20 Emission of the Spray Heat ExchanEer on the Sprayed Surface model. They investigated mainly the hydrodynamics of the flowing-off of the thin film along the surface of the horizontal tu-be. The experiments carried out among other things showed that a change of the diameter of the tu~be does practically not influence the flow character of the film and the heat transfer coefficient; in this connection the authors give several data. They found that for the intensification of the heat exchange process from the external surface the following is necessary: 1. A regular use, 2. An operation at an optimum wetting density, and 3. The optimum wetting density. There are 3 figures, 1 table, and 22 references, 19 of which are Soviet. 1. Heat exchangers--Performance 2. Heat transfer--Mathematical ana4sis 3. Liquids--Heat transfer 4. Thin films--Thermodynamie properties Card 2/2