DUBOSSARS11Y. N.1.1 DISFOMYM, Ye.ye. - _. Multiposition attachment used for grinding five-edged reamers, StAn.i instr. 28 no.9:42 S 157. (MIRA 10:10) (Grinding machines--Attachments) (Reamers)  T~k 6(51:~ ss -H -V, a- 8 A slog c 4.6 ow 04 A P. a wo vs 4 1-0A 2LI .1; , t r "t IN., I- &R KA 359 It ;:0.4 0 -5-01 -0 . u Ell 1u. -0 -051 M. gm 2 c A 4's, i3a. 091-0 U4, IZ 10 b tu 5 V z of RIX ii'lE, A 1 i 'n 5 t 11-d -03. 0 A- b. A IC .4 An oicz A'a;  GIIEVUSIIEV, M.A.; KRASOV., L.N.; DUBOTOV'KQ,-Yu.V.; DIYAKOVA, N.I. Color of Yakutian diamonds. Trudy IAFAN SSSR. Ser.geol. no.6:87-96 161. (MIRA 14* 9) (Yakutia--Diamonds)  BIXTKHKLN, IA.; WBOV, A., redaktor; TRUEBANOTA. A., tekbuicheekiy re- d&ktoro------"""-"' [Technical progress in the Soviet Union] Takhaicheskii progress v Sovetskou Zoiuss. Minsk, 1954. 34 p. (MLRA 8:2) 1. Doystviteltuyy ohlen Obahchestva po rasprostrananiyu politicheskikh I wachnykb snauly Belomaskoy 83R. (Technology)   'GORYAOMN. V#G*; ~~- B 030-~,, - Shear stress limit for several tn*s of White Russian peat. Trudy Inst. torf. AN BSSR 6:365-372 157. (KRA 11:7) '(Peat-Testirg)  -P U 00 vi // . 5. KALININ, S.M.; LUPINOVICH, I.S.; P0100CHKO, I.S.; ABRAHChIX. A.P.; ALEMYST, Ys.K.; ALISKIK, P.I.; AHBR'OSOV, A.L.; AUIREYEVA, N.K.; ANOXHIM. A.N.; AFORIN, H.I.-, BABOSOV, H.H.; BALOBIN,V.N.; BARAI(OV.SKIY. A.K.-, Bsz- DXNKO. T.T;; BILIGUY, B.3.; BOBKOVA, A.?.; BOLIMMOVA, V.P.; BUL- GUOV, R.P.; VAGIN, A.T.; BILIDYLUSH, R.T.; VILIC.HINSKIY, A.D.; VLASOVA, X.S.; VO=O, D,I.-. VOLUMV, A.G.; GABYSIM, K.F. [deceased); GATKO, A.A.; GALASH3V, M,A.; GOREGLYAD, Kh.S.; GARKUMIA, X.P.; GOSTI- LOVSKAYA, M.N.; GWBUNOVA, N.H.; GORSKIY, N.A.; GORFIRMI, Z.2i.; GRUBIMO. M.P.; GUSAKOV, V.A.; GUDATKIN. A.I.,- DANILOVICH, A.F.; D34MiT'YlV, V.A.; DRUIS07. Z.N.; DOROZMIN, N.A.; MOT,.-A.D.; DUBCV~ SKIY, Ta.K.; YNVTIKHIYri, B.Ys.; ZHARIKOV, I.S.; ZHILIN. A.?.; ZlfCUW.- R071CH, A.M.; Z=UVEL1,3.H.; ZABELLO, D.A.; ZAKHARENK0, G.D.; Zu- BETS, VA.; ITITSKIT, A.I.; KAGHMO, I.K.; KHDROV-ZIKHHAM, O.K.; KIDA- LINSKIY, V.A.; KIMiYARLITS, A.F.-, KOVALEVSKIY, G.T.; KOVALICHUX, P.P.; KOZHANOV K.Ya.; KOZWYSKIY, I.Te.; XOCHRTOVA, Z.H.; KIUVODUBSKIY. Isp.; il~A7TAYT5XV. S.F.; XUSTOVA. A.I.; LAPPO. A.I.; LARIMHKO, Y.B.; LASMVICH, G.I.; KALICIRWMIY, V.I.; KAUIKO, H.F.; KARKOVETS. A.F.; YATSIM9,R.Ts.; HEDY=V, A.G.; KELITM, Ta.D.; KOISMY, I.G.; KUSORDr, f.Y.; KUKHIN. N.D.; HAGORSKAYA, Ta.D.; NALIBOTGKIY, S.B.; NIKCLAUVA, Yu.M.; HEDCLUGOV, I.T.; CRLOVSKIT. 1.A.; ORLOVSKIT. K.P.; PANWIMI, A.A.; PXSKIN, A.L.; PROKOPOV. P.Te.; PUSHUTMV, I.I.: RAZMYSLOVICH, I.R.-, RAZUK311KO, A.V.; RM13VA, Z.I.; RINKIS, V.A.; ROVDO, A.I.; ROGOVOY, P.P.; ROZENBLTUM. B.X.; RTMDWOV, A.G.; RUSI- NOV, A.A.; SAVCHSHKO, A.I.; SAPUROV, V.A.; SAFRONOV, I.P.; SVIRSKIY, U.N.; OWAMRNNV, vops-0 WGEYXV, I.Ye; SM01OV, A,L,; SIDORENKO, G.M.1 (Continitad on next card)  KALININo S.N.---(continued) Card 2. SKOROPANOV, S.G.; SIMUNICIMIKO. L.A.; SMIRNOV, T.Ye.; VTAROVffTOV, K.T. (deceased]: W!RMOV, X.G.; SUSLOV, V.P.; SMORTNOT, G.Te.; SMAROV, A.Te.; TIMOSHININ, V.D.; TISHLEVICH, I.I.; TROPASINO, I.N.; TRIZ110. U.I.; TRIKA, N.K.; TUZOVA, R.T.; TTRNSKIT, R.L.; UMAIISKIY. N.M.; URIYEV, T.M.; KHOTIKO. A.I.; KELOBOSTOV, S.N.-, TSZ- MWOVICH, F.V.-, CHYJWAVSKIY, 1.0.; CH=OVA, Ye.l.; CMOSOV, U.N.; UUMM's V.I.; SHIKHALJMV, N.Y.; SMYAR, A.Ye.; SHCHERBOV, N.A.; YURGMIS, B.A.; TMOMS, M.K.; TAKOVL-T-,'T, B.I.; TAKOLSON, S.A.; TARO- GOVICH, A.A.; LUTSMIKO, H.U., red.; LARIN, V., red.; KALECHITS, G., takhn.red. (Measures for Increasing agricultural production per 100 hectares of land on collective and stnta farms of White RunaisJ Heroprilatlia p0 uvelicheniiu proisvodstva sel'skokhosisistvannoi produktaii as 100 gaktarov semellnykh ugodii v kolkhozakh i sovkhozakh BSSR. Red.kolle- giis; I.S.Lapinovich I dr. Minsk. Gos.izd-vo BSO. Red.sel*khos. lit-ry, 1959. 601 p. (MIRA 13:4) 1. White Russia. Kinisterstvo sallskogo khozynystva. (White Russia--Agriculture)  NABATOVA, K.A.; DYMSHITS, VINDGRADOTA, V.P. Shot peening the transmission gears of the Moskvich antonobile. Ayt. i trakt. prom. nn.6:29-31 J3 156. (KLRA gig) 1. Nauchno-looledoyatolOokty'avtomotoriVy Institut I Moskovskly zavod malolitrashnfth aytomotiley. (Automobiles--Transmission devices) (Shot peening)  1. PCM0IITKTYj A. A.; DUBOV, A. GA 2. USSR (600) 4. Measuring instruments 7. Measuring apparatus for demonstration. Fiz. v shkole 12 no.6 1952. 9. Monthly List of Russian Accessions, Library of Congress, February .1953. Unclassified.  DU-~W, it. G. DU'W7J, A. G. -- lllle~i:juvtr.~itnt in a Dem-,nstration Cand P~~da-,,og -;ci, jci 11,!s InA of Acad of P-!,I, j I .; 1, ~Citncts RjF-31'L, ~'V_;cco.,T l)53. (litf-rativrVy 7hurnal.-Fizilcr-1, Jail 4) 30: JWI: 168, 22 July 1954  PMOVSXIY, Aloksandr Androyevich; GIAZYRIS# Alskeandr Iyanovich; DqM Aloks ZVORYKIN, Boris Sergeyev ich; SffURXHlH. *ioiI'f.a:+O"O,' "VICH, T.Y.. redaktor; TSYPPO, R.T., takhni- chookiy redaktor [Demonstrative experiments in physics for classes 6 and 7 of the secondary schools; teacherls manual) Demonstratsionnyo opyty po fiziko v VI-VII klassakh orednei shkoly; posoble dlia uchitelia. Pod red. A.A.Fokrovskogo. lzd. 2-oo. Moskva, Goo. uchobno-podagog. izd-vo Kinisteretva proeveshcheniia RSISR, 1956. 270 P. (HLRA 9:12) (PIqoics-Uperiments)  POROVSKIT. Aleksandr Androyevich: GIA AMIN. Alskmandr Ivanovich; JDUBOT Aleksandr q#_&qr!T 11 , TCIRYXIII. Boris Sergeyevich; SA-Mi-Y. 7"-TICH, T.T., redaktor; WHATURT, S.G., takhnichookly redaktor [Practical work in pbrics for senior classes of secondary schools; a sanual for teacherej Praktikum po fivike v starshikh klaguLkh sredtnet shkoly; posobte dlia uchitelia. Pod red. A.A.Pokrovskogo. Isde 3-s, ispr, Moskva,, Goes uchabno-padagog. izd-vo Hinisterstva prosveskW.heniia RSM. 1956. 288 p. (KLRA 9:10) (Physioe-Probless, exercises. ate.)  DMOV. A.G. (Kooky&) ,~~ Teaching methods for machine-shop practice. Fiz.y shkole 16 no.l: 40-45 J&-Fe 156. (NLRL 9:3) (Machine-shop, practice) (Technical education)  BEIODMKAToL. N,L; GALININ, D.D.; GORTACMN, U.N.; GUZYRDI, AOIS, D=T,_L.G?; YEVROPIN. Tu.P.; TMKWDVICH, A,S,; ZVOMJLIN, B.S.;*IVANOT, S.17,e-~V, V.V.; LAVBDVMT, X.7s; KU3MIN, N.Y.: HIKHEMV, To.Ta.; NABOEDY, X.Te. PIRTMMN. A.V.; POWT, P.I.;"POKWVSKIT, A.A.;' RXZHIMV, L.I.; SAIMMV, D.I.; SOMOV, I.I.; SOMWVA, U.N.; IMPHIK, E.Ta.; TUSIEDVICH, V.P. Sergal Nikelaevich Zharkov. [Obituary]-Tizv shkols 16 n0-3:94-95 Ply4e 156. (Zharkov, Sergai NikoUavich, 1883-1956) (MA 9:7)  DUBOW, A.G.; PARMOT, K.Ya. Ways of strengthening school equipment for technical education. Politakh, obuoh, noolot6g-79 0 157. (KLM lOt9) 1. Nauchno-inelodovatel'skly Institut metodov obuoheniya Amdeali PedAgogichookikh nauk RSM, (Technical education)  chi RIM. YU-Te., redaktor; SOLDLOYA, F.Y*,, )U ~nichs~skiy r~sdakit teekhnicheakir rodakto 0 (Practical work In school workshops; manual for workshop teachers of grades five to seven] Prakticheekle zamtlia v uchebuykh masterskikh; getodicheakoe posoble, dlia prepodevatelel truda T-Vil klassov. I(Ogkv&, izd-vo Akadopedagoi,nauk R37M, 1957. 204 P. 127 P. of diagrams. (Kanual training) (KIRA 10:5)  POKROVSKIT. Alsksandr An4zeyewieh. Prininall uchastiyes -41-AZY119, A.I., nanobA" metmAn1k; NMOT, AA.o nauchnyy setraft1k; ZVORTKIN, B.S.# nauohnyy moTtkTiMuMMIN, S.A., n4uohnyy *otrtt4nIkj KOZININg. A.?~,c SljvW konctruktor; NIX9AUVITICK, Toy., red#: IfixPPOO soy*: W&ROT"t ClIquipment of a physical Isborstoryl teacher's mumall Oboradayanio fisichaskogo kalbinstal posobie dlis uchitelia. Moskva. Gom.uchebuo--psdagog.Ixd-vo X-va prosy. R575R. 1958. 422 P. (NIn 12:7) .1. Upraylenlys mobabno-tekbutchaskoji promyrhlennosti. (Physical laboratorlos-Iquipmat and supplies)  JPCKROVSKIY, A.A., kand.podagogenauk, starshiy nauchnyy sotriidnik; BUROV, V.A. uchitell ; OLAMIN, A.I., starehly nauchnyy notrudniki pensioner; 60T, A.G., starshly nauchnyy sotrudnik; ZVOMEN. B.S.. 0. - d nauchnyy a tYu-d7Av!-rARff-ft%KrT, S.Te., uchitall; KOSTIN, G.N., pro- podavatell; MIRGORO=IT, B.Tu., uchitall; OREKHOV, V.P., prepoda- vatell; O11LOV, P.P.. propodavatell; RAZUMCVSKIT, V.G., aspirant: MIKTANTM. I.M., aspirant; TMUMTITXT, M.K.. prepodavatell-, KHOLTAPIN, V.G., prepodavatell; SHAKHKAYNV, N.M., nauchnyy sotrudnik, uchitall-, VOYMIKO, I.A., uchitell aredney shkoly, pensioner; STA- HOSTIN, I.I., prepodavatell; KOGILKO, A.D., aspirant; SHMIN, N.K.1 KOPINKOVA, L.A., red.; LAUT, Y.G., tekhn.red. [Now school equipment for use in physics and astronomy) NoVye shkolinye pribory po fizike i astronomii. Pod red. A.A.Pokravokogo. Moskva, Izd-vo Aknd.pedagog.nauk RSM, 1959. 161 p. (MIRA 12:11) 1. Akademiya pedagogicheakikh nauk RSFSR, Moscow. Institut metodov obuchanlya. 2. Laboratorlys matodiki fiziki Inatituta wtodov obuchs- niyu Akademil pedagogicheskikh nauk RSM (for Po)=ovBkiy). 3. Sred- nyaya zhelesnodorozhnays shkola st.Kratovo, Moskovskoy oblneti (for -Burov). 4. Institut metodov obucheniya Akademii pedagogicheskikh uauk (for Glasyrin, Dubov, Razumovakiy, Rumysntsev). (ConGinued on next card)  PMOVSKIY, A.A.-(continued)'Card 2. 5. Institut metodov obuchenlya Akademil pedagog.nauk; srednyays shkola No.315 Hoskvy (for Zvorykin). 6. Srednvays shkola No.212 Moskvy (for Xamenetskiy). 7. Krasnodarekly pedinstitut (for Kostin). 8. Srednyayn shkola Ho.18 g.Bumy (for Mirgorodakiy)i 9. Avazanskiy pedinstitut (for Orekhov). 10. Stalingtbdakiy pedinstitut (for-Orlov)..Il. Hookovskiy dorodukoy pedinstitut; arednyaya shkoln No.443 Moskvy (for Terentlys-T). 12. Balaahavakiy pedinatitut (for 101olyapin). 13. Institut metodov obu- cheniya Akademii pederog.nauk; srednyaya shkols Ho.215 Moskvy (for Minkhwyev)e A, Moskovskly pedinstitut im. V.I.Lenina (for Starostin). 15. Podinatitut im. V.I.Lenina v Mockve (for Mogilko). 16. Zaveduyu- shchiy narodnoy astronomichaskoy observotori~ey Dvorten kulltury Hookov- skogo nvtosavoda im. Likhnchava (for Semakin . (Physical instruments)  MBOV, A.G. - ~ Training for work in the eight-year schools. Politokh.obucb. no.2:15-19 F '5 9. (HIRA 12:3) (Manual training)  POKROVSKIY, Aleksandr Andeyevichj BUROV, Vladimir Alekseyevich; .GIAZYRIN, Aleksandr Ivanovich; DUDOV, Aleksandr Grigorlyevich; ZVORYKIN, Boris Sergeyevich; RIWANTSEV, 1van Mikhaylovichl MLOV, L.S., red.; KREYSp I.G.p tekhn. red. (Laborator7 maw eco ial on dies in a ndary schools; a pp teacher's manuaij PraktiLli po fizike v srednei shkolej posobie dlia uchitallao (By] A.A.Pokrovskii i dr. Izd.4. perer. Moakvav UchpedgIz$ 1963. 223 p. (MIRA 17:3)  TKACIIEVp */.V... inzh.; inzh.; OGANESOV, V.b'., Irz;,.; ANT!"EM, IM., inzh.; WAX, R.R.P inzh.; NOCTCZET-S, 1..:'fectiveness of grinding in mills of closed and opan cycles. !',Iement 31 no.2sl3-14 Mr-Ap 165. (Mffli 18:8) ',, Gosudarstvennyy vsesoyuznyy institut po proyektirovaniYu i r.4 uchno-isoledovatel I skim rabotam tsementnoy prumy3h1ennosti, L!ningrad, i tsomentnyy zavod IIPunLne Kunda".  A )tan. I Lnstr. 24/4, 17 19, April T. . ..... MU  25M P. _~ PHASE I BOOK EXPLOITATION SOV/1257 Moscow. Stankoinstrumentallnyy institit. Kafedra "Instrimentallnoye proizvodstvo." Novoye v konstruirovanii metallorezhushchikh In8trumentov (Recent Developments in the Design of Metal-cutting Tools) Moscow, Mash- giz, 1958.' 229 P. 5,000 copies printed. Ed.: 3emenchenko, I.I., Professor; Ed. of Publishing House; Balandin, A.F.; Tech. Ed.: Gerasimova, Ye.S. and Uvarova, A.F.; Managing Ed. for Literature on Metal Working and Tool Making (Mashgiz): Beyzell- man, R.D., Engineer. PURPOSE: The book is intended for engineers and technicians of the machine-building industry. COVERAGE: In this collection of articles results are presented of investigations carried out at the chair of "Tool Making" of the Moscow Machine Tool and Tool Making Institute imeni I.V. Stalin. The articles discuss new features in designing highly productive metal-cutting tools.' : generating cutters, cutter gear generating heads, hobB and gear shaper cutters for cutting gears for subse- Card 1/3  Recent Developments (cont.) SOV/1257 quent shaving, of flat broaches for broaching bodies of rotation, and circular broach cutters for cutting straight level gears with circular tooth profile. Problems of definition and the clasalfi- cation~'of metal-cutting tools are also investigated. The role of Russian toolmakers claimed to be the first in the world to manu- facture rifles with interchangeable parts is related. No persona- lities are mentioned. There are 24 references, all Soviet. TABLE OF CONTENTS: Foreword . 3 Sakharov, G.N., Stalin Prize Winner, Candidate of Technical Sciences, Docent. Design of Round Generating Cutters 7 Mayushin, V.M., Candidate of Technical Sciences, Docent. Some Problems in the Design of Cutter Gear Generating Heads 59 Voroblyev, V.M., Stalin Prize Winner, Candidate of Technical Sciences, Docent. Geometric Parameters of the Cutting Part of.$ingle-point Tools With Large Cutting-edge Angles 96 Card 2/3  Recent Developments (Cont.) SOV/1257 Dubov, A.N.. Candidate of Technical Sciences, Docent. Tools r6r Cutting Gears for Subsequent Shaving 107 Voroblyev, V.M., Stalin Prize Winnero Candidate of Technical Sciences, Docent; and Engineer Ye.C. Dolaik. Profiling Disc-type Milling Cutters for Cutting Helical Grooves With .Large Helix Angle on Hobo 130 Furman, L.L.., and A.M. Leyn. Problems in the Theory of Broaching Rotation Bodies With Flat Broaches 141 Ganopolskiy, L.Z., Engineer. Some Problems in the Theory of Circular Tooth Profile Gearing and Designing Tools to Cut Them 167 Frezerov, G.R. Professor. The First Russian Toolmakers (Historicall - 202 Matyushin, V.M., Candidate of Technical Scienceso Docent. Definition and Classification of Metal Cutting Tools 213 AVAILABLE: Library of Congress G018fm Card 3/3 3-26-59  DIJBROV, A.P. Simple method of ultraviolet microirradiation with the use of a reflectIng optic system* Radiobiologiia 3 no*2017-320 1 163 ' (MIRA 17:1) 'I. Institut biologicheskoy fiziki AN SSSR, Moskva.  _UUDUV)_A*_QA____ S-5-14o 551-551-551-506.5 Garidin,, L. S. and Vubovy A* S., [The complex expedition of 194T for the study of atmospheric turbulence. Leningrad. Glavnaia Geofizicheskaia Observatoriiap Trudy, 16 (78):5-9t i94777=P . append. p. 136-143. --A series of observationso devoted to all aspects of atmospheric turbulence., was made at the station Dolgoprudnaia (near Moscow) in order to test theoretical formulas proposed by BUD=, IAINIMAJI, ERM and others. 'Llds paper serves as an intro- duction to 11 papers., published in the aw~e volume,, and describes the general conditions of the expedition, the program of measurements and the location of instruments. The appendix presents profile data for temperature (surface,, 0.21 0-55~ 20 m), and data for the radiation balance and weather conditions. The time distance is 20 min (for 15 days~ but the conditions during the might are not covered.  5.5-136 551-551-551-508,53 Dubov, As S., nDetermination of the velocity of wind gusts in airplane soundinV by means of accelerometer records." Leningrad. (31svnaia, Geofizicheakaia Observatoriia Trudy, 16(78):85-92, 1949- 5 figs., tables, 0 refs.., 7 eqs. MC--The Vertical velocity of vind gusts and the coefficient of exchange in the free atmosphere can be computed by means of accelerometer records) made on an airplane, considering the air density.. the weight and wing spread of the plane, etc. The author analyzed a set of eight differential equations, but failed to solve them, and proposes ajim~lified solution, which considers only larger eddies (over 7 8 m). An analysis of possible error is made. Samples of computations am presented, showing the superiority of the author's equation, which considers also the veitical velocity of the plane itself. A nomogram facilitates practical computations.  VORONTSOV, P.A.; DUB21&.1-5- Methods of investigating the structure of air currents from and airplane. Trudy 000 no.51t50-65 '55. (MM 9:8) (Atmosphere) (Aeronautics In meteorology)  GANDIN, L.S.; IMBOT, A.S. Qualitatt" ana4vis of the vortex equation. MetecrA gidrol. no.4:36-37 Ap 157. (Atmosphere) (KLRA 10:5)  / J -~Y / "f -, ,I- - '-I- -') ;-, ~ ~ ~,~ -11 . I I , GANDIN. L.8.; DUBOT, A.8,j SOLOTITIT, T.A, -- mmwmwwmm In the Toeikov Main Geophysical Observatory. Meteor. I gidrol. no-8:70-72 Ag 157. (Meteorology) (KLBA 100)  36-7X-2/16 AUTHOR: Dubov, A. S., Orlova, L. S. TITLE: Results of Forecasting a Surface Field of Pressure and .Mapping of Beric Topography by the Graphic-analytical :Method (Rezulltaty prognpza nazemnogo polya davleniya 1. kart baricheakoy topografli grafo-analiticheakim. metodom) PERIODICAL: Trudy Glnvncv Reofizicheskoy observatorii 1957, Nr 71, pp. 34-48 (USSR) ABSTRACT: The forecasting method described by M.I. Yudin (this publication, Pp- 3-331) is described and evaluated. The partic- ulare of selected units and practical steps in the formulation of the method were given, and the argas for Which the material was collected are cited. A major point is made of the calcu- lated transfer of pressures and three separately ledding air streams. The efficiency factor for successful progn6stication may range from 96 percent In summer to 24 percent in autumn. All predictions are based on the correlation of calculated and actual values which, in general, are difficult to establish. New indices of possibly lesser precision are recommended for Card 1/2  36-71-2/A Results of Forecasting a Surface Field of Pressure (Cont.) this evaluation. On the whole, the predictions for surface baric fields are more reliable than those for the 500 mb. our- face. Of thespecial c6mponents, the advection of temperature is better reflected in the findings than the advection of the vortex. At the same t1ite, synoptic forecasting methods are better justified-pereentage-wise) than analytical mezhLde Which provide no advantage In kicking up the emerging baric compo-. nents. The insufficient -weight" given to advectian by tempera- ture is a major source o..' error,, however, the basic weakness of analytical schemes is.seen in the unsatisfactory follow-up of the Intensification of bario formations. Correlations of probability are given for all types of baric situations, such as, cyclonic, anticyclonic and mixed. The failure to forecast developmert of the Leningrad cyclone which caused an inundation in Sept. 1955 is attributed to a failure of graphic integration and to some errors In evaluating various surface factors. Use of electronic com uters is strongly recommended. Persons men- tioned include: ~udin, M. I... Dubov A.S..,, Orlova, L.S. There are 7 figures, 11 tables, ahd 3!n-r~;Ki_e~_c;; of which 2 are USSR. AVAIAABLE: Library of Congress Card 2/2  Aj~ iUTHOR: Dubov, A. S. TITLE: -imiumon 'of surface Field of Pressure on ~reniya prijprognoze +Mdy 36-71-4/16 Friction in Forecasting the the Ground (Ob uchete prisemnogo polya dayleniya u zemli) Olavnoy geofizicheakoy observatoril PHRIODICALt 1957, Nr 71, pp. 66-71 (USSR) ABSTRACT: The Central Institute of Forecasting has thoroughly analyzed the effect of turbulent friction on the variation of pressure. This is used by H. I. Yudin in his study of the flow of an ideal liquid'i.e., that vertical velocity of the ground friction at the surface is not zero but is proportional to the Laplacian of surface pressure. Proof is,given that equations for vertical turbulent transfer alter the relationship between temperature and spatial derivatives of the geopotential. At a later stage is appears that this factor of transfer to some- what overvalued. The mathematical characteristics of the ini- tial field are expressed by first derivatives of pressure1n time restricted by some limiting conditions The graphic- analytical method is applied to evaluation ;f the pressure factor and to*the schemes used in the solution of the problem. Card 1/2  36-71-4/16 ivaluation or-Pressure on-~he 6r6und (cant.) An Illustration of the-actual findings is giverr and the effi- cienc'y of this method-of forecasting is evaluated. Therie are I figure, 3 tables.and 2 USSIf references., AVAILABLE: Library of Congress Card 2/2  DUBOVJI DLBOV A S. and STOLYAROVA G. V.JO 'Experienco in Forecasting Temperature Using by6~odynamic Methods, P- 30 3TOV A. S.., "Influence of Pountein RanCes on the Dinplacement of Cyclones." p. 40 j_ PUblIcation: Voprosy dinovdcheskoy meteorolo,,111 t thorit klivatA (Proble.T,.s In Dyns3mlc Mpteoroloay and the 7heory of Cliwte.) IAnin_arad , GIdroTreteoizdat, 1953. 125 p. T17djv Glayneye geofizicheakeja observatorlyn Lenlnr,~Tad, VYP. 76, The collection of 9 articles deals with problems in dynemic wteorology,, 'the theory of climate, end the foreceatirg of rir temperature uslAe elemnts of tho therobBydrodynamic theory, A uystein of clImetological rsSionalization for the USSR is analyzed end recent pertIment date in thib retZard shown Srpphicnlly.  44 gq ifib 41 IK 1 43 L " i '  A. S. AUTHOR: ~Lbov S/531/59/000/098/001/005 TITLE: Lateral Aircraft Oscillations Caused by-Wind Gusts SERM: Leningrad. Mavnaya wofiticheakaya observatoriya im. A. I. Voyeykova. Voprosy avialisionnoy meteorologii, 3-16. Trudy, no. 98, 1959 TEM. A formula is derived in order to associate lateral aircraft oscillations with horizontal wind gusts. The establishment of this association is necessary because present accelerographs do not reliably determine the magnitudes of horizontal gustsp which, upon analysis, play a much greater role than the vertical in creating lateral aircraft oscillations. From well-known equations describing lateral motions of air- craft, the author generalizes expressions describing individual increments of aero- dynamic forces and moments in the aircraft's boundary layerl resulting from changes in flight attitude angles as turbulent motions are encountered in the onflowing airstream. The author notes that as a result of the V-shape of the winds, vertical gusts may cause lateral aircraft oscillations only if the vertical gust values amount to approximately 20 per cent of the horizontal gust values on the wings. This circumstance is most prob- able at times when the variability of vertical velocities is abrupt . In establishin Card -113  211U S/531/59/000/098/001/005 Lateral Aircraft Oscillations Caused by Wind Quate a relationship between horizontal gusts and lateral aircraft oscillations, the set of equations derived is made for the simpler problem of uniformity of wind gustiness over the entire boundary layer of the aircrafts that isp the wind has been averaged as a single value. This set of equations can be used in solving the more comp2ex problem of variability of wind gustiness if the gust fields aregiven. The solution of this set of equations is made similarly to that for differential equations derived by M.I. Yudlhin].946 for describing longitudinal aircraft oscillations. By means of this solution it is possible to obtain the statistical characteristics of the aircraft's oscillations, if the characteristics of the wind gusts on the flight path are known. As an example, the question of ratios between amplitudes of horizontal wind gusts and lateral acceler- ations at the aircraft's center of gravity for turbulent motions of different frequen- cies are analyzed. From this analysis'a, transfer function is obtained similar to that for transfer functions for longitudinal aircraft oscillations. Concrete calculations were made for Northrop-2-E aircraft, the aerodynamic characteristics of which were pub- lished in in A.L. Raikh's work (Ref. 21 Trudyp TsAGI no. 458,1939) Conclusions: The transfer function which is graphed shows that low-frequency lateral wind gusts are only slightly reflected in lateral accelerations of the aircraft. As in the case of Card ;V3  213.11 S/531/59/000/098/001/005 Lateral Aircraft Oscillations Caused by Wind Gusto longitudinal oscillAtions, the derived formula is expressed in dimensional values and is valid only for high-frequenoy turbulent motions. In order to determine the low-- frequency turbulent motions, the relationship between the transfer function and the frequency7P be taken into account. It also was mathematically determined that the sensitivity, accelerographs must be raised by one order so that the hor12ontal wind Y a gusts can be determined as accurately as the vertical gusts are presently determined. The Russian abstract of this article appears In Referativnyy Zhurnal, Geofizika, 1960, No. 11, Ref. no 14469. There are 3 references, all Soviet. Card 313  AUTHOR: Dubov, A. S. 21114 S15311591MM81'e,f) , ln,~A TITLEt The Relationship _%tween 14rbulence Barameters of Aircraft Posselssing Different Structural Designs Under Identical Meteorological.Conditions SERIAL: 'Leningrad. Glavnaya goofizichaskaya observatoriya im. A. 1. Voyeykova. Trudy, no. 98, 1959# Voprosy aviatsionnoy moteorologii,43-53. TF,XTs A formula is derived whereby the characteristics of turbulence of one aircraft can be determined if the turbulence characteristics-of another aircraft under identi- cal meteorological conditions are known. The derivation of this formula was under- taken in order to establish a relationship between the degrees of aircraft turbulence for two aircraft possessing different structural designs but flying In the same air mass or under identical meteorological conditions. It is well known that two air- craft with different stability characteristics will react differently to turbulent air motions encountered in the main onflowing airstream on a flight made under iden- tical meteorological conditions or in the same air mass. Of the presently available Card 113  21M S/531/59/000/098/004/005 The Relationship Between Turbulence Parameters of Aircraft... recording instruments for registering the effects of the atmospherets turbulent motions, the accelerograph most readily and reliably records the vertical components of the acceleration at the aircraft's center of gravity. Although aircraft turbu- lence involves manifestations other than phenomena associated with vertical over- loads (yawing, banking, abrupt lateral thrusts, etc) nevertheless for a general evaluation of aircraft turbulence vertical overloads are adequate. A. S. Dubov (Ref. 5: Trudy GGO., no. 81; 19591 made an analysis of the attendant errors and cer- tain recommendations pertaining to a number of approximate methods now being used to associate recorded vertical aircraft overloads with vertical components of wind gusts In this article is used an approximate method obtained in one of A.S. Dubov's earlier works (Ref. 6: Trudy, GGO.p no. 16(1949); this method*gives good results for stable aircraft, and can be used to derive the formula. According to this approximation, the following equality must be realized where uz(t) is the vertical component of the wind gust, n(t) is the vertical acceleration at the aircraft's center of gravityp b is a coefficient depending on the aerodynamic characteristics of the aircraft and on the flight attitude. C is a constant of integration determined from the condition of equating the uZ value, which has averaged over a fairly long interval of time, to zero. Card 2/3 X  21114 S/53l/59/000/098/CQ'W"V^,35 The Relationship Between Turbulence Parameters of Aircraft... There ist howeverone difficulty. It is impossible to equate values of the vertical wind speeds in the passage by the two aircraft of the same point in spacep since the two aircraft, pass this point at different moments of time in a field of vertical. wind speeds where there also is temporal variability. Hence, after making the re- quired formulated evaluation of the variability of vertical wind speeds with respect to both time and spacep the formula being sought is readily derived; From this evalu- ation it was determined that if the aircraft speed is considerably greater than that of the wind, then it may be assumed that the aircraft penetrates a stationary field of wind gusts, but naturally only for brief intervals of time. In -asing the derived for- mula for practical purposes, actual numerical calculations were made for determining overload values for a LI-P aircraft from known overload values of a PO-2 (biplane) aircraft. The calculations were then compared with experimental data obtained by paired flights of these aircraft (eight cases). In comparing the calculated results of two other approximate formulas widely used with those of the author's derived for- mula it is seen from the graphed results that the author's formula is the most accu- rate. The Russian abstract of this article appeared in Referativnyy Zhurnal, Geofizika, 1960, No. 11, Ref. No. 14470, p. 168. Thera are 6 references, all Soviet. Card 313  j"SWO (;Z,2 oj~ /of -3 21115 3,.51410 (,,~-30S~ ~YOS-) S/531/59/000/09/005/005 AUTHOR: Dubov, A. S. TIT Determination of the Turbulent.Exchange Coefficient From an Aircraft's Acceleration SERIAL: Leningrad, Glavnaya 1~,eofizicheskaya cobservatoriya im. A. 1. Voyeykova. Trudy, no. 98, 1959, Voprosy aviat6ionnoy meteorologii,.54-67. TMCT: A fornula, is derived and verified for calculating the turbulent exchange coefficient in the free atmosphere, that is, at levels above the surface layer of the atmosphere. There were two reasons why this problem was undertaken: 1) existing methods for calculating this coefficient at levels above the surface layer of the atmosphere, especially in the 100-2000-meter layer, had not been substantiated by other independent methods and were, therefore, considered less reliable than the still imperfect but well substantiate& methods used for calculating the exchange coefficient in the surface layer of the atmosphere, 2) vertical gradients of the various meteorological elements upon which calculations have been based and so reliably mad for the surface layer, are less pronounced in the free atmosphere. Of three well known structural methods used for calculating the coefficient in the planetary boundary layer, only E. S. Lyapin's method Card 1/5  21115 Determination of the Turbulent Exchange Coefficient ... 8/531/59/000/09/005/00i (Ref. 9: Meteorologiya i gidrologiya, 1948, no-5) can be generalized for deriving equations making it possible to use acceleration and air speed data recorded by aircraft for calculating the exchange coefficient. In 1950, the author generalized Lyapin's formula for expressing the coefficient of turbulent exchange in terms of acceleration and speed characteristics recorded by sensimg elements of instniments installed on aircraft in flight as follows: k D V Z 2 where k is the coefficient of the vertical turbulent exchange, uz is the mean (taken7absolutely) value of the vertical wind speed., D is the mean duration of a vertical velocity of the same sign, V is the mean (taKen absolutely) velocity of the recorder, sensing element with respect to the air, ux is the mean (taben absolutely) value of the horizontal wind gusts. if the recorder's sensing element is stationary with respect to the earth., then equation (1) reverts to Lyapin's formula. In this case the recorder's sensing el*ment measures the mean wind speed (that is, if the pulsations are considerably less than the mean speed) so that equation (1) is rewritten as U2 k 0 z D U 2 u. (2) Card 2/5  21115 Determination of the Turbulent Exchange Coefficient S1531159100010910051005 where U is the mean wind speed. If the recorder's sensing element moves si-11- taneously en masse with the air mass engulfing it, then V w N and equation M t~ Ow #Am ao HosoolborgId atmturkl wthod fomlrA (Kof. J: Atim. 4or kd1wr. Bd. 57, 191-17). The third or Ertel's structural wtbod could not be used because L. r. ah,~herb4wya (Rot. loz Trudy 000 no. 16 1781 1949) and 1. S. Borushko (Ref. 10: Trudy GOO no. 16 [781 1949) had shown in their critical analysis that certain hypotheses upon which his method Is bawd can not be substantiated. At present, accelerographs do not reliably determine gust values. But nryertbeUar, in the free atmosphere, velocity pulsations with a considerable degree of accuracy may be assumed to be isotropic, that is % a u x or an assumption upon which equation (1) acquires the form k -us Uj 2 (3) The value of u., as vas discussed above., was found by means of the relationship uz 0 bn (4) where n is the acceleration of the aircraftts center of gravity expressed in percentages of the acceleration of gravity, b Is a coefficient of proportionall Card 3/ 5 ty/  21115 Determination of the Turbulent Exchange Coefficient ... S/531/59/000/09/005/005 depending on the aerodynamic characteristics of the aircraft and of the flight attitude. This coefficient was determined from another of the author's work in the present symposium (Ref. 17: Trudy 0GO no. 0,, 1959). Results and Conclusions. Completed calculations indicate that formula (3) gives entirely reasonable magnitudes of the coefficient, IS. In particular., this is made apparent by comparing magnitudee of the coefficient obtained from gradient observations' data in the surface layer extrapolated up to flight altitude on the assumption that k Increases linearly with altitude up to a level of 30 to 50 meters above which it r9mains constant. Certain data on the diurnal variations and of the k coefficient profile aloft determIned from aircraft observations mad jointly by the Central Geophysical Observatory and the Central Aerological Observatory at Moscow and by the Central Aerological Observatory In the vicinity of Tbilisi in the 81 r of 1947.. were obtained. In comparing his results with 'earlier Investigators concerned with the problem of calculating the exchange coefficient in the 100-2000- meter layer, the author believes their calculated values are too low,, in particular those of Laykhtman anA Chudnovskiy (19491 and Kildner 11939). M. P. Cbulnovu (Ref. 5: Trudy GOO no. 28., 1951),, P.A. Vorontsoy (Ref 15: Trudy GOO no. 39.. 1953) and others have come to the saw conclusion. Two explanations are given for this circumstance: 1) an aircraft is unable to react to turbulent formations of very small scales owing to its inertia and in the case of very large scale turbulent motions, the aircraft is seized by air mass engulfing it and ascends and descends en masse with it. 2) the final formula (4) is valid only for pulsations of high Card 4/ 5  213-15 Determination of the Tarbulent Exchange Coefficient ... S/531/59/000/09/005/005 frequencies., that is., pulsations of small scales. In addition,, a third possible reason is the assumption of an approximate uniscalar nature of turbulence found in implicit form in the derivation of Lyapin's forwala. The exticle presents a fairly detailed survey on the status of met33ods anct results of determizing the turbulent exchange coefficient in the atmosphere. The Russian abstract of this article appears in Ref. Zhar. Geofizika 1960, no. 12, as Ref. no. 15968. There/ are 20 references,9 all Soviet, Card 5/5  logs I 3t is 91 PIT 3 JAA 2j3 1 A Oo its a  GAUDIN, L.3- Etranslator], red@; VMT, A.So Etranslator). red.; TLASOTA, Tu.V., red.; VLADIKIROV, O.G.Tt-elifiE-ivd. [Numerical methods of weather prediction; collection of translated articles] Chislennys matody prognoss pozody; abornik parevodnykh statei. Pod red. L.S.Gandina L A.S.Dabova. lenin&Tad. Gidro- mateor.isd.-vo, 1960. 281 p. -'-- (KIRA 1):12) (Weather forecasting)  DUBOT, A.S. Orographio influquee on the motion of baric centers, Reteor.1 gidrol. no.7:3-8 Jl 160. (KIU 13-7) (Winds) (Mountains)  bh593 S/16 62/000/012/054/095 D228YL)307 z,,.UTHOR: 1~ubov. A.~;. TITLE,: Forecasting the gnopotential field in the lower k3 stratosphere i'i~1-,1I(JDICj1L: .1cferativnyy zhurnal, Geofiziha, no. 12, 1962, 52, abstract 123339 (In collection: 'Eaterialy Sovesh- chaniya Koordinats. komis. po chisl. netodam prog- noza, L., Gidrometcoizdat, 1961, 55-62) Ti:XT: Cm the grounds of analysis of statistical material (correlative relations bet--cen local tonjerature ch~-ngfcs and verti- cal vnlocitics on the one hand, and vertical velocities and tempera- ture advections on the other) it is shoi-m that for conditions of the lower stratosphere the local derivative of the temperature can be disregarded in the heat inflow equation. The soundness of this Sim- plification Jis confirmed by analysis of the general solution Eor the problem of finding vertical velocities from-the gcopotential field. The existence of an "average level" analog for the vertical Card 1/2  S/169/62/000/012/054/095 ForecaotinIt, the, gLO,)otCIItiiII ... U223/D307 velocity is considered. The sim?lifications introduced allow a two-dimensional prognostic equation to be constructed for the 200-mb U surface geopotential. Unlike the barotropic schcnic the right-hand tA Side Of this equation contains the temperature advection. Integx:a- tion, with respect to time is carried out graphico-analytically an a 'qJral-l" machine. The justification characteristics in 8-day mat- erial are given. Z-A,bstracterls note: Complete translation7 Card 2/2  DUBOV A.S.j NOBYAKOVAS A.A. . - Problem of AT3oo forecasting. Trudy GGO no.121:5%-66 161. (KIRA 15:5) (Weather forecasting)  DUBOV, A.S. Determination of vertical gusts of wind from vibrations of the airplane in flight, taking the pilot's action on the controls into account, Trudy C40 nool2ld0gh-124 161* (mm 1515) (Aaronautioa in mateor6jW) (Winds)  VJBOV I A.S. - AL11-Union Scientific Meteorological Conference divoted to the 40th anniveroary of the Hydrometeorological Service of the Soviet Union. Izv. AV SM. Ser. geofiz. no,1~138--]J+l Ja 162. WIRA 15.2) (Meteorology-Congramees) 0'  S/331/62/0001135/0011002 1006/1206 AUTHOR: TEXT: On determination of spectral density of vertical gusts from airplane oscillations SOURCE: Leningrad. Glavnays gooflzicheskaya observatoriya. Trudy no. 135, 1962. Voprosy fiziki pogranichnogo sloya atmosfery, 33-40 TEXT: A method for construction of spectral density of vertical gusts is dcicrib.-d using simultaneous registration of angle of pitch and airplane overloading. The proposed meth,.)d provides the basis for more reliable information about the spectral density of gusts in a larger frequency range (from the low frequ- ency side). An example is brought of the calculation based on registrations of air?lane's disturbed motion in an actual case. There are 3 figures. Card 1/1  ~ Effect of static stability on changes In preanure and the forecasting equation for the lower atratosphere. Trudy GGO no.12039-47 162. 17:6)  ACCESSION Nlt: AT40686s 8/2"1/63/000/143/0014/0022 AUTHOR: Dubov, A. S.; Kobyakova, A. A. TITLE: Experience in forecasting the fields of pressure, temperature and vertical currents in the lower stratosphere. SOMCE: Leningrad. Glavnaya geafitichookaya observatoriya. Trudy-*, not 143# 1963, Voprosy* chislennogo prognoza i struktura meteorologichaskikh poley (Pro- blems in numerical forecasting and structure of meteorological fields), 14-22 TOPIC T41GS: troposphere, meteorology, baroclinic quasi-geostrophic model, weather forecasting, atmospheric pressure field, air temperature, air pressure, atraospheric vertical currents, stratosphere, lover stratosphere, atmospheric geopotential ABSTIUCT: The results of 13 one-day and two-day forecasts of the geopo~tential and temperature fields for the 200 millibar level are analyzed. The choice of the 200-mb level in not ideal but was selected because data wore not available for higher levels. A baroclinic quabi-goostrophic model is us6d. Temperature forecasts for 48 hours in advance were successful, as illustrated by Enclosuri. Correlation of the fields of vertical velocities, computed for the same period dq,r,0e purpose of one-day and two-day forecasts, revealed no relationship  ACCESSION M: AT4016869 S/2531/63/000/143/0023/0026 AUTHOR; Dubov) A. S... TITLE: Forecasting in the region of.tke stratospheric hi'gh-level frontal son* SOURCE: Leningrad. Glavnaya geofixicheskaya observatoriya. Trudy*, no..143o 1963, Voprosy* chislennogo prognoza i struktura motoorologicheakikh poley (Pro- blems in numerical forecasting and structure of meteorological fields), 23-26 TOPIC TAGS: meteorology, stratosphere, prognostic equation, weather forecast- ing, atmospheric front, lower stratosphere, atmospheric geopotential field JZSMACT: More precise two-dimensional progn03tic equations have been derived for conditions in the lower stratosphere within the framework of the geostrophic and adiabatic approximation. This is a further development of the author's pre- vious work (Tr. GGO, No. 124, 1962). In that paper he derived a two-dimensional equation for changes of geopotential with time, with expansion for a =all par- ameter inversely proportional to the value of static stability. In derivation of that simplified equation he neglected certain small terms, althougb allow-, ance for them causes no difficulty. This paper cites refined prognostic equ&- tion with the earlier discarded terms taken into account* In computing texua Cord 1/2.-  ACCESSION NR: AT4016869 containing temperature it is assumed that isothermal conditions prevail, al- though for the stratosphere this is true only as a mean, but since small terms are involved there is no significant error. The author also presents now for- mulas giving greater accuracy to determination of vertical velocities in the initial equations of motion, which In practical prognostic methods ugually are neglected, despite their importance. Orig. art. has: 11 formulas. ASSOCIATION: Olavnaya goofisicheakaya observatoriya (Hain Geophysical Obser- vatory) sumiTTED: 00 DATE ACQ-. 2OP*b64 ENCL: '00 SUB CODE: AS NO R" SOV: 008 OMER. 001 Card 2A  BERLYAJM, M.Ye.;,DVBAV,-A.S. . Mikhail Isaakovich lUdin; an his 50th birthday* Meteor# i gidrol. no.12:55-56 D '63. (MIRA 17:3)  DUBOV, A.S.; ORIDVA, L.S. Calculation of the movement of cyclones in mountalnous regiona. Trudy GGO no.124:56-62 162. (MRA 17:6)  GEMJ11,11.A. ; DUBO.Vj A.S. (Leningrad) "The aircraft as a meanB of atmospheric turbulence research". report presented at the 2nd All-LTd6n Congress on Theoretical and Applied I 1-:ochn.nics, I-Ioscow, 29 Jan- 5 Fab 64.  ACCESSION NR: AT4043147 S/2531/64/000/151/0041/0047 AUTHOR:j)ub_M_A.-S-(Cand1date of pbomico -mathematical sciences) TITLE: Dotermination of horizontal wind gusts from accelerograph records i SOURCE: Leningrad. Glavaaya geofizicheskaya observatorlya. Tr udy*. no. 161, 19". Voprosy* chislennogo analiza I prognoza pogody* (Problems in numerical analysis and forecasting), 41-47 TOPIC TAGS: wind, wind gust, meteorology, accelerograph, meteorological instrument, aircraft overload, aircraft acceleration ABSTRACT: The author clarifies the possibility'of determining horizontal wind gusts on the basis of longitudinal accelerations of the center of gravity of an aircraft. The article analyzes the contribution of the vertical and horizontal wind components in the formation of longitudinal aircraft accelerations. It Is shown thatwith the exception of the sector of veryj low frequencies the role of these contributions is Identical for a PO-2 aircraft. For aircraft of the fighter type an approximate formula has been derived relating the amplitudes of horizontal wind gusts and the longitudinal accelerations of an aircraft. Several formulations of the problem are presented. It was found that the sensitivity of Card 1/2  ACCESSION NR: AT4043147 I an aircraft to vertical gusts Is approximately eight times as high as to lateral hor- Izontal gusts and twenty five times as high as to longitudinal horizontal gusts. no accuracy of existing accelerographs ensures reliable measurement only of vertical aircraft overloads. The reconstruction of the three-dimensional wind gust field from the records of a three-oomponent accelerograph is Impossible due to the low sensitivity of existing accclerographs. The solution of this problem requires instruments for recording, accelerations of the center of gravity of an aircraft with a sensitivity one order of magnitude greater than that of existing Instruments. Orig. art. has: 31 formulas, 3 figures and 2 tables. ASSOCIATION: Glavnaya. pofizichealmya observatorlya, Leningrad (Main Geophysical Observatory suBmITTED: 00 ENCL: 00 SUB CODE: ES NO REP SOV: 009 OTHER: 000 2/2 Card _7 T-J  -ACCESSION NR: AT4043162 6/2531/64/ObO/154/0090/0098 AUTHOR: Dubov, A. S. TITLE: Allowance for heat fluxes In temperature forecasting SOURCE- Leningrad. Glavnaya pofizioheskaya observatoriya. Trudy*, no. 1654. Voprosy* Mild atmo6fery* (Problems in atmsopherio physics), 90-98 TOPIC TAGS: meteorology, atmospheric temperature, weather forecasting, atmospheric physics, heat flux, radiation, atmospheric turbulence, cloud cover ABSTRACT: In this study, prepared In 1953 but only now published* the author computed the changes In the mean temperature of the lower 5-km layer of the atmosphere resulting from radiation and turbulent heat fluxes. Local temperature changes In the heat flux equation are represented as consisting of two parts; one part caused by horizontal heat transport and the presence of vertical air movements and the second caused by the presence of heat fluxes. As a simplification only heat fluxes associated with turbulence and radiation processes are considered; condensation processes are neglected. The study is therefore confined to computations of heat fluxes for anticyclonlo weather with few clouds. The difference In radiative heat fluxes is computed directly by the Shekhter method. TUrbulent Card 1/3  ACCESSION NR: AT4043162 heat fluxes are computed using the formula Q T ' -K T where k is the coefficient of turbulent exchange, andy Is the adiabatic or equilibrium gradient which Is not dependent on the coordinates. The temperature gradient is obtained from the stratification curve (sounding data).: The coefficient of turbulent exchange is determined by one of two described methods. Information on temperature gradients at the 1000- and 500-. mb levels is taken from the same temperature profile data used for -,.omputing the radiative heat flux. In the layer between the 600- and 1000-mb surfaces the radiativ(, heat flux is compensated In a cloudless sky by a turbulent flux which Is greater than the radiative flux by a factor of approximately 2. Transformation corrections are introduced by the M. Yo. Berlyand method. Two extreme cases are considered for determining the influence of cloud cover. In the first it'Is assumed that cloud cover is fixed in space and that air masses in their movement enter and emerge from these cloud formation j . Thesecond (more realistic) case allows for the fact that cloud cover is not fixed in space but moves together with aIr masses. The problem of directly or Indirectly taking the latter reality into account is considered in detail. Orig. art. has: 9 formulas, 1 figure and 1 table. 2/3  ACCESSION NR: AT4043162 ASSOCIATION: Glavnaya poflzichankaya observatoriya, LenjWad (Main Geop4pical Observatory) SUBMITTED: 00 ENCL: 00 001 'SUB CODE: ES NO REP BOV-. 004 OTHER.  VORONTSOVP P.A.; GERMAN, M.A.~ A.S. Methodology and some results of an airborne exploration of turbulet exohange in the boundary layer of the atmosphere. Trudy GGO no.158: 77-83 164. (MIRA 17:9) Sk  L- 0-1515-66 FMT(1)/FGC - "M iACCESSION NR: AT5017066 UR/2531/65000/16810014/0020 AUTHO? - D!Lbov A. G. , Turikov, V. G. TITLE-. rorecasting the tropospheric pressure field SOURCE- Leningrad. Glavnaya geofizicheskaya obsematoriya. Trudy, no. 168, 1965. ,Chislennyy analiz I prognoz pogody (Numerical analysis and weather forecasting), ~14-20 TOPIC TAGS: atmospheric pressure. weather forecasting. troposphere ,f,4 5 ABSTRACT: The three-dimensional equation for variattoni in presqitr,~ IS solved using! the approximate boundary condition at tile lower edge of tht qtr4rospherq levived In a pr-- P -T-Iour, work. (Dubov, A. S., "On Forecasting in Stratosphnri- Vrr,w-al 7, e- oirll~-!,., ~, 1, f T)"1111Y ~;GO, No. 140, 1963): + flerf,~ io the altitude of the isobaric surface, 7 is temperatuve, g ic dceelendtlott due to gravity, I Is the Coriolis coefficient, P Is the gas cotistdnt, lCard 1/3 J  L 01515-66 ACCESSION NR: AT5017066 E2T Ya is the coefficient of static stability (y is the dr-I adiabatic terapera- 7 ture gradient), r. = P is the vertical coordinate in the isobaric system, r is,the PO quasihorizontal coordinate along the meridian from north to south, t is time. a and are the symbols for Laplacian and Jacobian operators respectively. The deriva- tion of this equation is based an a very simple and obvious fact, viz. an strato- spheric isothermy. The approximate nature of the expression is due to the assump- t;on that the cundition of isothemy is satisfied not only by average temperature d"ctrit,ut~on, but, that Lndividual temperatures arelclose to isother-mal. Empirical data have confirmed the applicability of this equation. The authors solve the well - known problem of Buleyev and Marchuk (H. 1. Buleyev, G. 1. Karchuk, "on the Dynamlcsl of Large Scale Atmospheric Processes," Trudy rFA AN SSSR, No. 2, 195e) an integratini the equation + + dz R X (21~ Vith variable U00de-bounda-r-7---c--o-n-d--I-tion- o olun _tfo_ to- compared -with the Bultyev- Marchuk results. it is found that there is very little difference between the two C-4- 4- - - ____ 7-7 7 Wes I~M~IWIF  ACCESSION NR: ATS017066 sets of results at ground level. Differences show up only at l&rge distances along the horizontal. However, for practical purposes these diacreparcles have no effect on --alciilation of The difference becomes more noticeable at higher levels. Orig. art. has: 3 figures, 32 formulas, ASSOCIATION: Glavnaya geofizztcheakaya- obset-vatoriyaj Lealugmd, ,Observatory) SUBMITTED! 00 ENCL: 00 S NO FIEF SOVI 005 OMR! 000 Card 3/,3 77%  ACCESSIOR ": AT5017067 UR/2531/65/000/168/0021/0026 A'JT1Q;?,: Dubov, A. S. ; I Lin B. K. TIT U ~ Accounting for deviations of the wind from geostraphic in the boundary layer, in nurmerical forecasting SOURCV.: Leningrad. Glavnaya geofizicheakaya observatorlya. Trudy, no. 168. 1965. chtslennyy apaliz i prognoz pogody (Numerical analysis and weather forecastli~q) TO'- IC TAGS: geoatrophic wind, qeathgg for;,ecaqtLn-gt wind velocity ABSTRACT: A modeL for the cop~ficient of turbulent intorch-ange is used in calcula- "is ~D' 'h.,? winil in the houne-,3ry layer. According to -hisr nnAp! , the coefficient '3 altilude an-1 71-le paT amp - Lned tT--M data on the ge"t. 00,1C Vi-d arTd the E-3ULhneSS. !of the underlying surface (Laykhtman, D. L.,, "'Physics of the Atmospheric Iloundary Li-a-yer." GiLmrgt4oimrdat. Leningrad, 1961) using the equition for Mlan--o of t-.Irbu- ind ~he r~elatlonsl,ip between wind vel---ity -P -,t,.fficient of Inter- 3 neight of one mer~r. Calculated values for the wir,d at tht vane level !Card 1/2  --L-01516-66 fACCESSION NR: AT-5-011.7067 iere compared with weather map data. Ge-ostrophic vorticity and temperature advec ti 1, o compared with the advections of these cam-- factors with regard to wind '~)-,,undar-i --r A preiiminarv -z ~ha, the pro- --ilat i -.T-. fDI, , 4,itions anfl high 1! I-S Orig. art tias 1 figure, I tabLe, 9 formj)as- Glavnaya geofiticheskaya observatorlya, UP-ningn-id (Kain_ Geophysical 'r " Observatory) q t4' I I SUBMITTED: 00 ENCL: 00 SUB CODE: ES NO PEF GOV: 008 OTHER: 000 ~Card 212  VOLIFSON, I.S.; ARAMYAH, Ye.S.; DOBOV, A.V. Obtalnlng stilfolone. NF3rtolwr. I naftokitim. no. 4:35- 47 01.. (mir-A 17:5) 1. Tatarokly neftyanoy nauchno-issledovatallskiy institut, g. Rugmillma.  DUBOT, A.T. Pbouliarities In the clinical aspects of tick-borne encephalitis in districts of the rusnetsk Basin with differing couponents In the population. Top.virue 2 no.61351-354 N-D 157. (KIRA 130) i. ninum nerMkh boloney lovosibirskogo meditsitalrogo Insti- tuta. (KEMMVO PROVING11--X9010SALITIS)  DUBOV, A. Y. Quinnerine snd seruntherepy in the Acute stage of tick-borie encepha- litis; data from KemerovoProvince. [with summary in French] Zhur.nevr i paikh. 58 no,W98-199 158, (MIRA 11:5) 1. Klinika nervnyU bolezney (sav. meditainskogo instituts. (ENCEPHALITIS, EPIDEMIC. quinacrine & serother. (WINACRINN, ther. use. encephalitis, spidem., - Prof. D.T. luimov) Novosibirskogo ther. (Rua)) with scrother. (RURD  IWIMOT, D.T,; DUBOT, AeT. Amyotrophic lateral sclerosis as a vernal encephalitis syndrome; on the anniversary of the discovery and study of vernal encephalitis by Soviet scientists. Zhur.nevr.i psikh. 58 no-3:282-287 158. (MIRA 13:3) 1. Irafedra nervuykh bolesney (zaveduyushebiy - prof. D,T. Xhimov) Novosibirskogo meditsinskogo Instituta, (ANTOTROPHIC LATMM SCUROSIS, etiol Ophtbogen. Russian t1ok-borne encephalitis ifts)) WGIPHALITIS. RP RIO. manifest. amyotrophic lateral sclerO913 in Russian tick-borne encephalitis (Ras))  DUBOVO.A.V. Virologl~al diaposis of tick-borge anoophilitis by the tiague oulture methcA. Vop. virug- 5 n6.414U,415 -To-Ag 160. (MIRA 101) I 1, Kafedra mikrobiologii meditainskogo institutap Novosibirsk. (ENCEPHALITIS) (TISSUE CULTURE)  1, DUBOV, A. V. The use of tissue culture methods for the serological and virological diagnosis of tick-borne encephalitis. Act& virol. (Praha) [Eng16 n&J: 58-65 Ja 062. 1. Chair of Microbiology, Novosibirsk Medical Institute, Novosibirsk, and Department of Virologyt Institute of Experimental Medicine, U.S.S.R. Academy of Medical Sciences, Leningrad. (ENCEPHALITIS EPIDEMIC diag)  DUBOV, A.V. Cytopathogenic action of thetick-borne ancephalitio virus on hizmn and animal tissue culture collso Vop. virus 7 no.1:39-,43 Ja-F 162. (MM 15:3) 1. Kafedra mikrobiologii flovouibirskogo meditainakogo instituta. (EUCEPHALITIS) (TISSUE CULTME) (TICKS AS CARRIERS OF DIMME)  WDWO A.V. Use of the tissue culture method for the difterentiation of viruses of the tick-borne encephalitis group. Trudy Irk. 11.1 no. 7tl2l-126 162 (MIRA 19t1) Interference between viruses of the tick-borne encephalitis group and the R group. lbid.sI27-130 1. 1z Novosibirskogo meditsinakogo instituta.  ,!fiftyl, ;,Ott. T.V. , j n7l'. K.V., inzh.; ii,;,h..& BABICil, LOS.,, inzb. tt., .thp-oving tho uonstructfW~ of high--,tLpw,.!f:f ~)rtn-hea7tl, Jurrianes platit. rc-..F,:6(?4--697 Ag IH 18:8)  DUBDVt, B,Ss- Relation of Input and output valuen of multIcomponent devices. Izm. tekh. no.Sil-4 Ag 165. (mm 18:9)  ACC NRo AP6025071 AUTHOR: Dubovp B. S.- ORGs none TITLE: Graphoanalytical method of processing measurement results SOUCE: lzmeritelinaya tekhnika, no. 6, 1966, 15-18 TOPIC TAGS: measuring apparatus, data processing ABSTRACT: A time-aaving graphoanalytical method is suggested for measurement-result processing works its application to linear and nonlinear input-output relations encountered in instrument calibrations is considered. (1) Linear relation. Parameters n' and C of a straight line described by n w n' + CQ (where Q and n are input and output quantities) are to be determined. 7he straight line is drawn through experimental points, and deviations of experimental points from the line are plotted in a larger scale in order to determine the mean square error. A numerical example shows that the error In determining C by the above method does not exceed 0.1%. (2) Nonlinear relation. Often the relation can be described by this polynomial: n-n -'+CQ+C%Qs+c&Q,+...+chQ*. In this case, a monotonous curve is drawn through the experimental points, and again (using tangent techniques) the curve of deviation of points is plotted. Ordinarily, the equation of a second-order parabola is sufficient Card 1/2 UDC:661.2.088019.281.2.001 CODE: UR/011516-6/000/006/0015/0018 f  ACC NR: AP6025071 0 for processing measurement results. Orig. art. has: 2 figures, 2D formulas, 1 table. SUB CODEt 09, 13 / SUBM DATE: none  DUBOV, D. Maintc-nance of machines and tractors durim- winter. p. 6. U Volt 6, no. 11, Nov. 1955 14al SF I IINIZIEJONO MIEDELIE Sofi, ya., Dalgaria So! Eastern European Accession Vol. 5 No. h April 19.56  SOLOVIYEVO S.P.0 kand.tokhn.nauk; inzhoj KOU40VSKOY, A.A.# lnzh. Hermetic industrial buildings with exterior walls of glass reinfbreed concrete* Prome stroio 41 no,,20-12 F 64a (MIRA 170)  DUBOV, I.Ye. Turbulonce in quiescent prominenosse lxv,Xrym.astrofis.obser. 12:46-55) 154o (MIRA 130) (Bun--Prominences)  DUBOT, X.Te. Automatic guide of the coronagrapb at the Krym Astrophysical Obsor7atory. Isv.Krys.astro,fis.obsor. 13:155-165 155. OGRk 13.- 4) (Electronic control) (Astronomical instruments)  DUBOV, B.Te. IsotropIc turbulence and energy dissipation in quiescent prominanceso Isy.Krym.astrofix.obser. 15:121-129 '55- (MRA 13:4) (Sun.-Prominswes)  DUBOV E.Ye. . Abundance of lithium In the sun. Astrou.tair. no.159,.11-13 MY,55- (KLHA 8:12) (Lethium)(Spectrum, Solar)  - DUBOV, R. Yo. Insturmental phntonffects.in photoelectric spectrophotometry of the sun, lsv.Krym.astrofts.obser. 16:45-53 1%. (HIRJL 13:4) (Spnetrophotomatry) (Spoctrum. Solar)  :' rj';'%i.,~ " DUBOV, E. Yet Cand Phys-Ilath Sol. -- (diss) *Speoial features of tho-Aneide WTSMW and lwalneeeowe of protuberanoo8e" Len, 1957. 12 pp 22 am. (Acad Soi USSR. Main Astronomical Observatory), 100 oopies. (KL, 15-57, 104)  SOV/124-58-11-12772 Translation frQjn: Referativnyy zhurnal, Mekhanika, 1958, Nr 11, p 121 (USSR) AUTHOR: Dubov -E TITLE: The Velocity Distribution in a Turbulent Medium and the Contours of the Spectral Lines Emitted by the Nodes of Quiescent Prominences (Raspredeleniye skorostey v turbulentnoy srede i kontury spektral'- nykh liniy, izluchayemykh uzIami spokoynykh protuberantsev) PERIODICAL: Izv. Krymsk. astrofiz. observ. , 1957, Vol 17, pp 199-210 ABSTRACT: It is assumed that a normal correlation 63tains between the velocities of any pair of points in the turbulent medium. In such a case the velocity-distribution function assumes the form I (1-R) 1 /Z v2 - . w(v) = Bf exp 2 ) dR, (1) .0(1-R.20/2 201 (I-R2) Here R = I - (ar2/3/2 c- ZI) is the correlation coefficient and a is the standard deviation of the velocities. Formula (1) has the Card I/Z shdpe of a Gaussian distribution but drops off more steeply. A  The Velocity Distribution in a Turbulent Medium(cont. ) SOV/IZ4-58-11-1277Z comparison against this formula was performed for the velocity distribution of clouds of interstellar mattir. The agreement was termed satisfactory. The contours of the spectral lines were computed for the case in which the velocity distribution obeys formula (1) with consideration of the thermal velocities of the atoms. The contours differ only little from those computed for a normal dis- tribution. The standard deviation of the turbulent velocities as determined according to the normal distribution is 12-150/0 smaller than that actually obtaining. In the absence of thermal mobility of the atoms this difference incr'eases to 420/6. The selfabsorption effect is also taken into account. Bibliography: 17 references. S. A. Kaplan Card Z/z  68572 Z t ivll, 9;A" 69 Of C.~'-Jql Ll L\ 1 i,-. tn'! tl,.,Il or W: 1 of of v, fc- '1-11~pl anal b of fioc,!uil are Widely d! f t. WhIC'~L P > -I rd 2,/