SCIENTIFIC ABSTRACT KIRILLOV, V.K. - KIRILLOV, YE.A.

 I,F-~~ ~ %  41RILLOV v S- My experience in working with proef color prints of geogranhic mope nnd atlases. Sbor.st.vo kart. no.6:65-70 154. (KW 10-0 (Cartography)  ji t mi M-Pa Kv R.-C a 5 Ilk All t .4 u 9 a jil-, I A  o %4 w i or ego ft -u b Li oa  KIRILLOV, V.K., starshiy elektromekhaulk Use of a lifting Jack for replaclng rail stanis with reinforced concrete stands@ Avtox. telem, I svIax' 4 no*9:31 8 160o (M ML 33 : 9) I. Malovishersksp distantelya signallsatell i s"i Cktyabriskor dorogi. (Alectric lines-Poles)  1. KIIMLOVO V.14. Eng. 2. USSR (600) 4. Fishing-Bulgaria 7. Fishing in Bulgaria., Ryb.khoz.., 28.. No.11, 1952 9. MonthIX List of Russian Accessions, Library of Congress, FebmaQ( .1953. Unclassified.  KOZULIN, N.A.; GORLOTSKIT, I.A.; KIRULOT? T.M., red.; FORKINA, T.A.. takhn.red. Dquipment for paint and varnish factories] Oborudovanle Savodov lakokrasochnoi promyshlonnosti. Leningrad, Gos.nauchno- takhn.izd-vo khim.lit-ry, 1959, 477 P. (MIRA 13:3) (Paint industry--Zquipment and supplies)  l.u ...... T7, 4ow" MR, A :Rai 16 FRI IN ;lAfto , ";ff'A~Yz X-C W.7 qg UR ij~ UMo. I Ina vo MON "M ,gVR If ftTAI~L" A~-  ... .......  I'l-IfULILA'i V.11. , -- V-,-! A, I ~ I..' ti'l i, Z; r:., ;t 1, r -it', -.6dr . - I f t, ~,- I . 4 .,) . .1")..jt, - I - 1. vt icn !,~ 1.1 - 0 .. i .~ I.. 1 '".4. 6 i , , 1 /, , 7, "1 (171 --.1J f,~, t, J , - )  TIM,WHUK, A.S.; TAGANOV, N.I.; KIRILLOV, V.M. Design of packing glands. Izv.vys.ucheb.zav.; khim. i khim.tekh. 8 no,2038-342 165, (MIRA 18:8) 1. leningradskly takhnologichoskJy in3titut Imeni Lensoveta, kafedra mashin I apparatov khimicheskoy promyshlennosti,  KOTOMKINA, A.I*; KIRILLOV. V.PO; MUTSEVA, A.V. Exhibitions and displays of opeoial items. lnfori.-biuL VDNKH noog:.U-12 Ag 163, (MIRA 1718) 1. Glavnyy inzh,-metodist pavillona *Toplivmaya promWeblennosti i geologiya" na Vystavke dostizheniy narodnogo khozyaystva SSSR (for Kote-kir-). 2. Glavmyy inzh. i glav= metodist pavillona "Lesnoye khozyaystvol leanaya i derevoobrabmtyvavu9Mh&yu pramyshlennost"A na Vystavke doatizheniy narodnogo kbosyayatva SSSR (for Kirillov)s 3* Glavnyy netodist Wyedinannogo pavillona "Pishchavaya promyshlennoat* na Vietavke dostisheniy narodnogo khozyaystva SSSR (for Dzutseva).  'ACC NR, At6028386 SOURCE CODE: UR/0000/65/000/000/0243/0256 AUTHOR: Anashin, Yu. F.; Gavelya, A. P; Kirillov, V. N.; Tychkova, M. V.- ORG: none TITLE: Geophysical investigations in searching for water in desert and sesidesert areas of Yazakhstan --SOURCE: . International Geological Congress. 22d, New Delhi, 1964..Geolog~oeskije .'rezul'taty prikladnoy geofiziki (Geological results of applied ge Iophys-i.c o) ; dokla4 sovetsk.ikh geologov, problems 2. Moscow, Izd-vo Nedra, 1965, 243-256 prospocting, geophysio exwdition, tineinrarr-und witer TOPIC TAGS i A gCophysic prospecting, teklurometry, water, desert/Kazakhstan ABSTRACT: Numerous geophysical investigations in searching for water have been conducted in Kazakhstan during recent yeats. In addition to surveys based on special techniques, wide use has been made of the information available from other types, of geophysical investigations conducted in the areas of interest. A summary prognostic map of fresh-water development in the nothern part of the7brgay. depression has been compiled from the resistivity maps made from vertical ekGtric81-a=dngmMsure- meat 1"VamscCthe deserts in central and southern Kazakhstan have previously been considered arid. In these areas intrusive, and effusive rocks are either exposed or covered by thin loose deposits. Geophysical methods have been used in prospecting for water fracture deposits. The areas favorable for drilling water wells have been selected. Different modifications of reoisti-ity profiling and magnetic and gravity prospecting have been applied, GaophysicAl Investigations for water have proved I Card 1(2  ACC NR, AT6028386 highly effective in Kazakhstan. Boreholes and pits sunk at sites remnnanded by geophysicists have struck potable vater in 287 of 322 localities. n.e experience of the geophysicists of Kazakhstan can be of great use in prospecting for water in desert and and regions of Asia and Africa under similar geohydrological conditions. Orig. art.. has: 7 figures. SUB CODE: OB/ SUBM UTE: 06Jau65/ Card 2/2  SOV/91--59-8-13/28 8(6), 25(l) AUTITORs Kirillov, V.P., Deputy Shop Supervisor TITLEs A Machine for Restoring the Insulation of Coil Wires PERIODICAL% Energetik, 1959, Nr 8, pp 19-22 (USSR) ABSTRACT% The author deacribes in detail the machinery and the methods used for restoring the insulation of copper wiring of burnt electric motors. Copper wires of 0.5-3 mm wi '. be braided by a two-layer cotton insulation. A diagram of the braiding machine is shown in fig.l. The productivity in 14 h- of windirg wire per shift. A kinematic diagram of the braiding machine ia shown in fig.2. Th- machine is povered by a 0.25 kv electric motor de- veloping 1450 rpm. Detailed datA on transmioqion ratios are furn- ished. The wire to be insulated may be maved at speeds ranging from 1.28 m/min to 0.19 m/min. The rebuilding of the insulation consists of the following phasess Removing of the copper *re from the motor$ burning the old insulation, straightening -F the rires, welding of sections and braiding. For remoying windinga Card 1/2 glued together by varnish, the entire stator- must be placed for  SOV/91-594-13/28 A Machine for Restoring the Insulation of Coil Wires about 14-18 hours into a Lank filled with a 10" solution of caustic soda at a temperature of 60-800C. The stator must then be washed in flowing water for about 12-16 hours. The burning of the old insulation is performed at 5000C for about 30-10 minutes. The wire is then pickled in a 5% sulfuric acid solu- tion for about 10 minutes. The wire ends are welded electrically by means of a device shown in fig.3. The welded wire is then coiled and braided. There are 3 diagrams. Card 2/2  7he ,,_KIRI~L~OVI V. ~P. Oand Biol Sci -- (dies) Vine-feWing sil)-worn - A Dendrolimus pini L. - 4-n tho forest belts of Samipalatinskaya, Oblastr of the Kazakh SSH. (Biology and methods of control.)' Alma-Ata# 1958. 18 ;p (Min of Agriculture USSR. Kazakh State Agr Inst), 110 copies (KL, 15-%, n4) -ZI -  USSR/Gonoral and Systematic Zoology, Insects, Hamful P Insects and Acarids, Forest Posts. Abs Jour : Rof Zhur - Biol., No 3, 1959, No 11663 Author :Kirillo-v V,P. Inst :'Institute of Zoology AS KazSSR. Title : I-lass Propagation of the Pine Moth in the Belt of the Pine Forests in Kazakhstan. Orig Pub :Tr. In-ta zool. AN KazSSR, 1958, 8, 127-129. Abstract :Mass outbreaks of the pine moth In the belt of pine forosta of Kazakhstan are cinnocted with the growth of small nidl on a largo area. The area in 1956 extended to 98,000 hectares. Avi- ation spraying of the forests In the spring of 1956 with 5,5A DDT dust inourod the death of the caterpillars, Card 1/1 - 44 -  69451 5/139/60/000/01/025/041 E032/E414 AUTHORS: leponeshnikov, V.N., Kirillov, V.P., Kuz"min. V.N. and Petrov, Yu.K. TITLE3 The Dynamics of the Effective Angle of a Sector in Accelerators with Straight Line Sections PERIODICAL:Izventiya Vysahikh uchebnykh zavedeniy, Fizika, 1960, Nr 1, PP 139-144 (USSR) ABSTRAM The design orbit in accelerators with straight line sections is usually in the form of a closed curve consisting of four straight line sections connected by four circular arcs of radius ro and subtending an angle of 90* at the centre. One of the necessary conditions for the actual orbit to coincide with the design orbit is that the magnetic field should be zero over the straight line sections and uniform over the other sections. However, owing to leakage. the true magnetic field always differs from the design field so that it is always necessary to introduce the concept of Card 1/3 the effective angle of a sector and this is defined by /  69451 S/139/60/000/01/025/041 E032/E414 The Dynatuics of the Effective Angle of a Sector in Accelerators with Straight Line Sections Eq (1). The actual distribution of the field is normally of the form indicated by Fig 1. The effective angles of sectors will decrease at low fields owing to eddy currents and residual induction. They will also decrease at high fields owing to saturation effects. This will lead to the appearance of a well-defined fourth harmonic of the distortion of the design orbit, and to a reduction in the maximum energy of the accelerated particles. In the case of inductive acceleration, the betatron ratio is also affected. All these effects have been investigated by the present authors using a plane model. The effects have been found to be small towards the end of the acceleration cycle. They have the biggest effect at the beginning of the cycle. In the latter case the amplitude of the fourth harmonic of the design orbit becomes comparable with the radial dimension of the working region and the Card 2/3 change in the betatron ratio may be of the order of a few  69451 S/139/60/000/01/025/041 E032/E414 The Dynamics of the Effective Angle of a Sector in Accelerators with Straight Line Sections tenths of a percent. The reduction in the sector angle may be compensated at the beginning of the acceleration cycle by increasing the injection energy. The field at sector edges may be corrected by d.c. current methods. There are 5 figures and 2 references, I of which is Soviet and 1 English. ASSOCIATION3NII pri Tomskom politekhnicheskom institute imeni S.M.Kirova (Scientific Research Institute of the-- Tomsk Polytechnical Institute imeni S.M.Kirov) SUBMITTEDs April 3, 1959 Card 3/3  KMLLOV. V.S., dotsent; TSABMO, A., veterin&rnyy vrach. Kilk therapy for cows In p&rturient parests mA mechanism of Its function. Yeterinarils, 30 no.12:36-39 D 153. (mm 6a1) 1. MoskovskLy khlviko-ts~hnologicheskly Institut vq&snoy promy- shlennosti.  KIRILLOV. V.S. Veterinary obstetrical practices. Veterinarila 31 no.1:56-58 Ja 153. (HLRA 6!12)  KMILWV" V. S. KIRILLOV, V. S. From veterinary surgical practice. (*Fp~aterial submitted to the editorial offtee.) So: Veterinariya,* Vol- 31; No,.I; January 1954; Uncl. TABCON 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0  GARBER9 H.Ij KIRnaM, V.S. Change in the spectral distribution of optical 2-:~:!sity caused by light scattering in plastic deformation of rock ialt crystals. Kriotallograftis, 7 no.ltl42-144 Ja-F 162. (MIRk 15:2) 1. Umanakiy gooudarstvennyy pedagogicheakiy inatitut, (Rock oalt-Optical prope,,ties)  GARBERY I Spectral d34tribution of the optical density of plastically deformed rock-salt crystals. Mcr.fiz.zhur. 6 no.6:755.-758 N-D 16L (MIRA 16'-5) 1., Umawkiy podagogicheakiy insti*tut. (Rock salt crystal&--Optical properties)  KiRnLov, v. s. KIR=V, V. S.- "Theory of the Design of Plates for the Roadway Portion of Lwlined Bridges. 11 Min of Higher Education USSR, Moscow Automobile arY8 Highway Inst imeni V. M. Molotov. Moscow. 1955 (Dissertations For Degree of Candidate of Technical Scionalo) SO: Knizhnaya Letopis, No. 26, June 1955, Moscow  TMR a lv~h"rma ;g~U&1nhq kandidat tekhnicheskikh nauk; GOUMIOVA, t - 0 "Mor-i-MALIZOVA, N.Y., tekhnichesk1y reduktor I [Prestressed metal structures in foreign countries] Pradvaritelloo napriazhennya metallichookis konstruktoii za rubethow. Moskva, Nauchno-tekhn, izd-vo avtotransp, lit-rye 1956. 39 P. (MLRA 10:2) (Bridges, Iron and steel) '  OSTROVIDOT, Aleksay Kikhaylovich; KUZNNTSOV, Ivan Alekseyevich; KIRIIWV, ~and.tskhn.nauk, red.; MALIKOVA, N.Y., takhn.rade- - -"- -1, 1--- -,_ (Tables for designing bridges] Tablitay dlia proaktirovanila mostoy. Xookva, Nauchno-takhn.isd-vo avtotransp. lit-rye 1959. 535 P. (KIRA l2s6) (Bridges--Domign)  KHAZAN9 Iosif Abramovieb;~-LUULUMS, 7"S. p dots. p kand. tekhn. naukp reteenzent; MUCHAREV, Y.A.9 dE kand. tekhn. nauk, reteem.- zent, red*; POPOV9 G*Dov inzb.9 reteenzent; GAITrUSHINt A.1.9 r&d. izd-val DMSKAYAq G.Dot tek),no red* [Steel highwAy, bridges abroad) SWIM avtodorozhnye mosty sa rubashom. Moakrap Nauabno-tekbn. isd-vo M-va avtomobU'zogo transp. i obosseir (NM 1436) qM dorog RSFSRj 1961. 150 p. (Bridgest Iron and steel)  GIBSHWq Yevgeniy Yevgenlyevich, prof., zeal. deyatell nauki i tekbn1ki RSFSR, doktor tekhn. nauk; KAWKOV, Nikolay Yakovlevich., profs (deceased); POIJVANOV# flikolay Ivanovich., prof.; 4M14P L V a- cheslav Sorggev~ch, dote.; ILOYASEVIClip S.A.p doktor tekhn. V- n au , prof., reti-e-nzent; DEBEKDEYEVp B.S., red.; GALAKTIONOVA, Ye.N.9 tekbn. red. (Bridger and other road structures] Mosty i sooruzbeniia na dorogakh; obshchii kars. Moskva, Nauchno-tekhnsizd-vo M-va avtomobillnogo transp,i shooseiDykh dorog ROFSR, 1961, $13 p9 WU 14:12) (Road construction)  TMIAS,, Yevgeniy Viktorovichj, kand, tekhn* nauk; FILMNOVA, Islinel' Lavrentlyevnal in3h*j SWILIMUl Yeflm losifovicbp kand, tekhn. nauk; K RI9&G V-1., kand. tekhn. naukp dotsp re- tsenzent; GiJ?KS-HINp A.I.,, red.; GALAKTION(YVA, Te.N.j, tekhn. red. [Use of wire-reinforced concrete in bridge constructionlrri- menenie strunobetona. v mostostroanii. Moskva, Avtotransizdat, 1962. 134 p. (MIRA 15:10) (Reinforced concrete construction) (Bridge construction)  ,0-. ROSSIYSKIY, Vladimir Alekseyevic~, prof.; NAZARENKO,, Borie Pavlovich, kand. tekhn*'.,M*;"SIDMSKIY,, Nikolay Aleksandrovich., kand. tekhn. nauk; GIBSHM, Ye.Ye.,, prof., doktor tekhn. nauk,, retsenzentl KALMYKOV, N.Ya., doktor tekhn. nauk, prof., retsenzent[deceased]; POLIVANOV, N.I., prof., doktor tekhn. nauk, retsenzsnt;_NjBjLLQYJLS., kand. tekhn. nauk, retsenzent; BASOV, S.Ye., inzh.-, retsenzent; PANKRATOV, V.M.j inzh., red.; GANYUSHIN, A.I., red,.,izd-vn; BODANOVA, A.P., tekhn. red. (Examples of the design of precast reinforced concrete bridges] PrimM proaktirovaniia sbornykh zhelezobetonnykh mostov. Mo- skvas Avtotransizdat, 1962. 494 p. (MIRA 16t2) 1. Glavnyy apetsialist po mostam Kharkkovskogo otdeleniya Gosudar- stvennogo proyektnogo instituta po promyshlennomu transportu (for Basov). (Bridges, Concrete--Design and construction)  KIRILLOV, V.S.; TITOVA, V.A., red.; MMCIV, Yu.V., tekbn. red. (Design of high pile gratings for highway bridge anyports) Raschet vysokikh ovairykh rostvarkov opor avtodorozhnykh mostov. n. Roevuzizdat, 1963. 40 p. (MIRA 16:12) Tiridget-Design and conotructio)  KIRILLOV, V.S., kand. teklin. nauk, dots.; GOLUBKOVA, U.S., red. [Calculating buried abutments) Haschet obsypnykh ustosv. MoAva, Vysshala shkola, 1904. 53 p. (MIRA 17:7)  AXSELIROD, Isay Solomonovich; AFANOO'YEV, Mikhail AlekoandrovIch; VEYNBIAT, Boris Markovich; GITHAN, Mark BoriBovicb., kand. tekhn. nauk; DUBROVSKrY, Aleksandr IvanovIcb; KAMENTSEVj Vladimir Fetrovich; KAMINSKIY, Boris Aleksandrovich, kand. tekhn. nauk; KOLOKOLOV, Niko-lay Mikhaylovich; EPSUM, 1, kand. tekhn. Anatoli7 Mordukhovicb, prof.1 UA nauk., red.; GOLUBKOVA, U.S.,, red. [Road %gineer's mwual; the construction of bridges and Culver al Spravnchnik inzhenera-dorozhnika; stroitellstv-o mostov i trub. Moskva# Transport, 1965. 735 P. (MI,U 18:7)  1. KIRILLOV. V. V. 2. USSR (600) 4. Grapes t1 7- ffovo--~nenskii grapes. Sad i og.notN 152. 9. Month1v hilt Qf Ri4glian Accessio"L Library of 60WOOO, R&rch 1953. Unclassified. A  KrRrLwvl V.V. "Investigation of the Operation tknd the Bases of the Oarameters of a Bow Weeder." Gand Tech Sci, Moscov Inst for the Mechanization and Ilectrificatton of Agriculture imeni T.H. Molotov, Min Higher PAua&tion USSR, Moscow, 1955. (KL, No 15, Apr 55) SO: Sum. No. 7o4, 2 Nov 55 - Survey of Scientific and Technical Dissertations Defended at USSR Higher Educational Institntiong (16)  /i !I I KIRILLOV, V.V, Investigating somp oircuits of dirlding casputers. Sbor.st,LITM no.470"O 159. (MUU 16tlO) 1-1  KiKILL04, IV. TM3MOV, G.V.; NOVIt, R.I., redak-tor; XmUwV, Y.Y., retsenzent; Bwaftiu, r.m., rateensentt SIHNNOTA. M.7.7"FePaktor; BIGrCMIYA, M.We, takhniehesk* redaktor [Design and repair of vessels lacking self-propulsion] Ustrolstvo I remont nosamokhodmykh sudov. Moskva, Izd-vo *Rechnoi transport 0 1954- 247 P- (KIRA 8t4) (Barges) (Boat building)  USSR/Physics beat transfer FD-1o67 Card 1/1 Pub. 153 - 3/24 Author : Petukhov, B. S.; Detlaf, A. A.; and Kirillov, V. V. Title : Experimental investigation of local heat transfer of a plate in a subsonic (up to 260 m/sec) presonic airflow with turbulent boundary layer Periodical : Zhur. tekh. fiz.., 240 no lo) 1761-1772, Oct 1954 Abstract : 'The authors show that the influence of air's compressibility and energy dissipation upon heat transfer can be taken into account by'relatl.ng the heat transfer coefficipnt to the difference between the surface and body temperatures. They present the data for airflows with He up to 2.106 and M up to 0.8and 'describe the test method developed by them. The results are found applicable for both high and low speeds. They did not.investigate the influence upon the heat transfer of the dependence of the physical parameters of the gas on temperature and moisture con- tent of the air. Institution Submitted July 30, 1954  Cand Toc~.,Sci--(ui,,x) 01 lcjc,1~1 110--t in tiio turbuIcnt Clow of u%.-, t.; Ii 15 7,)-,) 4'-~"- 0 r tduc.Aicoll Lenin  S/112/60/000/05/09/023 Translation from: Referativnyy zhurnal. Elektrotekhnika, 1960, No. 5, pp. 308-309, # 4.4211 AUTHOR-. Kirillov, V. V. --mommusirm 1~ TITLE: Experimental Investigations of a.Computer for the tTjf (STD) Stersomenter PERIODICAL: Sb. rabot stud. nauchn. o-va. Leningr. in-t tochnoy mekhan. i optiki, 1958, No. 35, PP. 57-65 TEXT: The author describes a computer developed for the automatic computation of the excess h of one point of a region over another when measuring the difference in longitudinal parallaxes with the stersometer. The computer contains an electronic compensating circuit, solving equations in the form of h (b +4 p) - H6p - 0. T~e addition b +,8p is affected by feeding the output voltage of a differ- ential potentiometer, whose slider moves proportional to the magnitude of h. With the aid of the potentiometer a voltage in produced which is in propoetion to the product hdp. The voltages to be compared are transmitted to the amplifier of the servo system which operates the slider of the output potentiometer. Investi- gation results of the computer model are cited. There are 5 figures. Card 1/1 V. V. V. A  KIRILIOT# V.Vo; PBTUKWV9 B.S. Studying the heat exchange during a turbulent high-speed gas flow in jApes. Nauch. dokI, vys. shkoly; onarg. no.1:155-160 158. (MM 11:10) l.Rakowndovano kafadroy TOT Moskovskogo anargatichaskogo inatituta. (Beat exchangers) (Aerodynamics)  f 61 LIc U. %), 06-di-12/24 AUTHORS: Petukh0vt B. S., Dr.Tech.Sc. and Kirillov, V,V' I 3nL,'-4 TITLE: Concerning heat exchange durir4; the turbulent flow of liquids in pipes. (K voprosu o teploobmene pri turbulentnom. techenii zhidkosti v trubakh). PERIODICAL: Teploenergetika, 1958, No.4, pp. 65-68 (USSR). ABSTRACT: Most published works on the semi-empirical theory of heat-exchange regard the flow of liquid in a tube as consisting of two or three layers. A velocity distribution law or impulse exchanCc law is selected for each of the layers. This very rough representation often leads to considerable differences between theory and e:~priment When Prandtl's number is greater than 10 - 20. The present article gives a theoretical calculation of heat-exchange durinE turbulent flow of a liquid in tubes, basing the calculation on the law derived by Reichardt for the change of velocity across the section of the tube, This equation is v.,ell-founded theoretically and fully verified experimentally. An equation for the coefficient of turbulent exchan-Ze of impulse associated with the velocity distribution equation is given. A theoretical calculation is t-hen made of heat-exchanGe during, turbulent flo-.,. in tubes of Card 1/4 a liquid of conatant physical properties. -0rpressions  06-df -12/24 Concerninr;- heat exchange during the turbulent flow, of fiquids in pipes, -that cannot be integrated analytically are inte.L~rated numerically; hence Nrssells number is expressed as functions of Reynolds and Frandtl's numiters in Tables 1 and 2. Calculated results for Prandtl's numbor E;raater than 0.71 are compared in Fi--.2 with Karrian's, bhooretical formula and Miklieyev's empirical for-,iula. Ov,-,r the ran,_;e of PrandtlIn ntLrnber 6reator than 0.7 and lest; than 10 the calculated values, are within 9% of thooe _,iven by Karman's formula. However, at hiLher Prandtl numbers Karman's curves are lower cuid when Prandt-l's ntLaber is 20 they are almost horizontal. Analysis of the results shows that for calculations of heat-exch,'UiSe durinG turbulent flow in pipes it is best to use the equation for the coefficient of turbulent exchange of impulse. Fig.3 gives the relationship between NusseWs and Prandtl's number when the latter lies bep, ween 0,901 and 0.1 and Peynolds' number lies bet%-een 10~ and 10 . The majority of investigations on heat-e::chanSe durinG turbulent flow of liquids in pipc3 has been -made over quite a narrovi range of Prandtl numbero for m~.all Card 2/4 temperature heads, when changes in the physical properties  06-4-12/24 Concerning heat exchange during the turbulent flow Of liquids in pipes. of the liquid are insignificant. Heat-transfer measure- ments were therefore undertaken using water, tranaformer oil and oil Grade MC under conditions in %,Aiich there is a considerable change in viscosity with temperature. Other physical properties were also changed but over narrower limits. The characteristics of the experimental data thus obtained and also those of Kreith and Su=erfield, which are referred to later, are given in Table 3. The results of the tests for two oils and water are plotted in Fig.4. The experimental points agree woll tith one another and Give a smooth curve in the ordinates used; the scat-ter of the test points bein- no more than 10-15%. The results presented in Fig,4 show that theoretical calculations correctly represent the relationship botween the Nusselt Reynolds and Prandtl numbers not only when the physicai properties are constant but also when there is a considerable change in viscosity with temperature. A nev desiGn formula is offered on the basis of the tests and theoretical calculation Itjo valid for values of Reynolds number from 1OR-to 1 and for Prandtl's Card 31L~ number from 0, 7 to 200. Existing empirical f oiTiulae are  ~6-4-12/24 Concerning heut exchange during the turbulent flow of liquids in pipes. adequate only over a much narrower range than the formulae proposed here. There are 4 figures and 18 references - 3 Ger-.,;i,-,n, 9 English, 6 Russian. ASSOCIATION: Moscow Power Institute, (Moskovskiy Energeticheskiy Institut). AVAILABLE: Library of Congress. Card 4/4  ZIRILLOT, V.Y. rareatigating oscillations of a fluid In an immovable container taking its outflow into account. Trudy )UTI no.5:62-72 160. OGR& 13: 10) .Muld. dynamics)  PIVUKHOV, B.S., doktor tekhn.nauk; KIRILLOY, V.V., Imnd.tekbn.nauk Heat exchange in the process of turbulent flow of a compressible gas in pipes of the region from M to 4. Teploooorgettka 7 no-5:64-73 My 16o. P (MIRA 23:8) 1. Moskovskiy energeticbeekiy institut. (Heat-Radiation and absorption)  ACCESSION NR: AP4004147 6/0294/63/001/002/0254/0259 AUTHORS: Kirillov, V. V.; Malyugin, Yu. S. TITLE: Local beat transfer in gas flow in pipes at a high tempera- ture gradient SOURCE: Teplofizika vy*sokikh temperatur, v. 1, no. 2, 1963, 254- 259 TOPIC TAGS: 'high temperature gradient flow, turbulent gas flow, high temperature research, gas flow, heat transfer, turbulent flow, thermal conductivity ABSTRACT: Since most earlier research has been devoted to beat transfer averaged over the length of the tube, the results of which make it difficult to disclose the influence of individual factors on beat exchange, the present paper reports a procedure and xesults of an experimental investigation of local heat transfer in the case Card  ACCESSION NR: AP4004147 of turbulent flow of gas in tubes under arbitrarily large tempera- ture drops. The research was also aimed at accumulating data on heat exchange under such conditions. A stainless steel (lKhl8N9T) tube 1.54 =n in diameter and 212 = long was used and the heating was by electric current. The small tube diameter made it possible to obtain relatively large Reynolds numbers with low gas flow. The experiments were made under "isothermal heat transfer" conditions, i.e., with temperature factor values close to unity. The results for Re > 25,000 agree with the theoretical formula of the Moscow Power'Engineering Institute (B. S. Petukhov and V. V. Kirillov, ,Teploenergetika, No. 4, 1958) Nu , (C/S)Re Pr - 4.5rC (Pr2/3 1) + 1*07 Card 2/4  ACCiSSION KRVI AP4004147 2 Wbere, (12.~2 log Re' - 1.64)_ The main data obtained in the test for nitrogen were tabulated., The results are compared with those obtained by others, with particular attention to analogous work done by the Vessoyuxny*y teploenergicbeekLy institut (All- Union Heat Engineering Irwtitute).. The work was performed in the.. Nau~hno isaledovatellskiy *nstitut vy~kqokikh temperatur (scientific Res~arch Ins4itute ~f High T6mpe-,raitures) of the Moscow Power-Engineer- ing?'Institute under the guidance of Professor B. S. Petukhov. brig. art. has: 4 #qures, 5 formulas# and I table. ASSOCIATION: jjNauchno issledovatellskiy institut vy*sokikb tempera- tur;, (fth Temporature Research nNutuitat) SUB~UTTED: 29"n63, DATE ACQs 26Dec63 ENCLt' 01 SUB..CODEs PRf Al NO REP BOV: 006 OTHERs 004 Card 3/4 3  _~~R,ILLOV, , inzh. Automating the proce igning of stpreophoton taken from on board uhip. Izv. vys. vicheb. zav.; geod. i anrof. no.4:75-78 164. 0-11PA 18:2) 1. leningradskiy institut tochnoy i optiki. hekomen- dovana kafedroy -ch(.-t,no-r. hayushchlkh priborov.  L 3e,801-66 3~ri (d)~,-/DWP(1) IJ?(c) ACC NR1 AT6008565 SOURCE CODE: UR/0000/65/000/000/0144/0154 AUTHOR: Kirilloir. V. V. Org: none TITLE: Simulation of a hand-written character recognition procedure SOURCE: AN SSSR. Institut nauchnoy informataii. Chitayushchlye ustroystvz (Reading devices). Moscow, VINITI, 1965, 144-154 TOPIC TAGS: computer application, character recognition, adaptive print reader, circuit design ABSTRACT: There are many problems in the input of information into computers, for the solution of which, on the one hand, it Is difficult to use key or digit typesetting devices, and on the other hand, it is undesirable to use card-punching equipment despite its relative reliability. Computer input of manuscript documents without restrictions, however, is not feasible at present. Nonetheless the risk of the development of automatons whieh read manuscript texts will be justified if the effectiveness of the input is raised In only a tmited range of problems. Limitations imposed by the class of the problems of input, the size of the document, and the rules of the composition of the document simplify the selection of an optimal rule for the recognition of characters. The most rational rule for the composition of documents is the writing in of characters Into a line of the document, which to some 1/2  ACC NRt AT6008565 degree reduces the speed of the composition of the document, rather than the writing in of each character into a box. Furthermore P it is not at all complicated to search for a char- acter in the line. However, the input of short digital blanks wi!l still be used as an auxiliary method supplementing the primary method (by means of cardpunching equipment). Taking into consideration thesmall size of the document, a simple and reliable device with a reading element immovable and relative to the document may be developed. All the restrictions will not be overburdening if the limitations are imposed on the kind of problems fed into the device and for which the error risk is low. Furthermore, the solution time amounts to 10 - 15 sec. The selection of the simplest scanner (across the line of the document with 15 - 20 scans per character) may complete the general part of the determination of the input procedure. Tip author discusses such devices and proposes a procedure. The method is calculated for use with the "Strela!' electronic computer. Orig. art. has: 12 formulas, 11 figures, and 3 tables. '081 SUB CODE: 09 / SUBM DATE: 09Sep65 / ORIG REF: 003  KIRILLOV, Valerian Valerianovich; DMITRIYEV, I.N., retsenzent; 'orv. red.; YASNOGOHODSKAYA, M.M. , red. (International System of Units of Measurement (SI) in meteorology] Mezhdunarodnain sistema edinits izmerenii (SI) v meteorologii. Leningrad, Gidrometeoizdat, 1965. 150 P. WIRA 19:1)  ZfLADANOV, O.K. (Moskva); KIRILLCV, V.V. (Mcakvu)- X()II'K(.V, V.76'. y Prcces-sing for solving a regulahlou (planning an,2 ccrtrol) problem. 2hur. vych. mat. i mat. fiz. 5 nu.l.'150--155 Ja--F 165. (MIRA 1914)  kc N--Ri AT6026766 SOURCE CODE: UR/2754/66/000/005/0031/0050 AUTHOR: Gavrilova, N. S.; Kirilloy- V._V_ 01G: none .TITLE, Propagation of long wavelength waves. Computation of coefficients of reflec- tion of plane waves from a nonhomogeneous anisotropic plasma ingrad. Universitet. Problemy difraktsii i raeprostranenlya voln, no. 59 1966. Rasprostraneniya radiovoln (Radio wave propagation). no. 4, 31-50 OPIC TAGS: plasma wave propagation, radio wave propagation, Lr propagat.on, iono- pheric propagation ABSTRACT: The reflection properties of the ionosphere in the region of kc frequencies 'is studied. The problem is formulated mathematically for day and night models of the !electron density distributions which take into account the presence of the earth's mag-! hetic field. The admittance and reflection matrices were computed on the M-20. They i .1 1 show that at low frequencies (