SCIENTIFIC ABSTRACT VOSKRESENSKIY, A.I. - VOSKRESENSKIY, B.V.

VOSKUSANSKIT, A.I.; MMCHIVSKIT, V.G.; NIXMMV, Mas 7se of dry ice for cloud dispersal in the Arctic. Probl. Arkt. no.2:133-139 157. (MIRA 11:12) tl)r7 ics) (Arctic regions-Weather control)  try lie: I i I i A f9 Ire I . . a Lr  S11691601000101110111016 A005/AO0I Translation from: Referativnyy zhurnal, Geofizika, 1960, No. 11, p. 127, 14179 AUTHOR: Voskresenskiy, A.I. TITLE.- Organization and Methods of Studying the Fogs and Clouds PERIODICAL. Tr. Arkt. i antarkt. n.-i. in-ta, 1959, Vol. 228, PP. 5-13 TECT: Some considerations are presented which explain the causes of the frequent recurrence of fogs in the Arctic zone during the entire year and in the summer season especiallT;. The frequent occurrence of fogs is furthered consider- ably by the floating floes in the sea and the contrast in temperature at the bordbr between the sea and the continent in the sumTer season. The fogs hamper the ship motion on the route of the Northern sea passage as well as the performan- ce of the tactical airsurvey of ices, which cares for the route. The radar dives not assure the safe sh.4p Motion in fogs, and therefore, it is necessary to inves- tigate the possibilities of forecasting and dispersing the fogs by studying their physical properties and Orocesses of their development. A brief information is given on the fog investigation methods applied earlier in the Arctic zone, and the Card 1/2  S1169160110001011101.11016 A005/A001 Organization and Methods of Studying the Fogs and Clouds main problems of the expedition of the Arctic Institute for studying the fogs*are listed. The method is described of ground observations, and devices and other means are listed which assure the performance of the aerological, microphysical, and gradient observations. The locality (Tadibe-Yakha, Dikson island) is charac- terized where the measurements were carried out. Themethod is described of the flights in fog and at lower cloudiness, ai~well as the method of measuring the air ,temperature, humidity, aircraft speed, the sampling, and the microphotography of the cloud elements, the liquid-water cc-ritent, the observations of the phase state of the cloud elements by means of the phase recorder 6f the rro(GGO)-system, and the observations of the aircraft icing according to a special pattern. Thirty- six flights covering 55,000 km were performed under complicated conditions in the region of the Gydanskiy and Yamallskiy peninsulae and as special flights to the Chelyuskin Cape, Khatanga,,and Ust'-Tareya. In conclusion, a general characteris- tic of the weather in the region of the expedition work-is presented. V.A. Sorochan Translator's note~,,,,Viis is the full translation of the original Russian abstract. Card 2/2  VOSKRESINSKir. A.I.: CiRnWIN, K.I. Meteorological conditions promoting Icing In St anel Sc clouds. Trudy AANII 228:124-134 159. (14IRk 13:2) (Arctic regions-Airplanos-Ice prevention)  85905 S/169/60/000/011/014/016 W.3 0 (aw /0 ?3 A005/AO01 Translation from2 Referativnyy zhurnal, Geofizika, 1960, No. 11, p. rp 14500 AUTHORS: Voskresenskiy A.I. Morachevskiy, V.G. TITLE: The Equipment for the Treatment of Supercooled Clouds and Fogs From an Aircraft PERIODICAL: Tr. Arkt. I antarkt. n.-i. in-taL 1959, Vol. 228, PP. 155-161 ON TEXT: An aircraft fume-generator and the unit producing dr7 C02-granules immediately from balloons, Installed In the aircraft are described. In an intro- A" duction, the present generators for sublimating AgI and the unius for granulating dry C02 are reviewed. Their disadvantages and the requirements are considered which must be met by the modern units. The AgI-fume generator developed by the authors in 1956 is described in detail. The fundamental7schematic diagram and the technical data of the generator are presented as well as the thermal balance of the device and the absolute values of the heat consumption In kcal/hour. The operational principle is described of the unit for producing granules of dry C02 directly from liquid C02 by throttling the latter through a delivery throttling Card 1/2  85905 S/169/60/000/011/014/016 A005/AO01 The Equipment for the Treatment of Supercooled Clouds and Fogs From an Aircraft ring with continuous pressure drop in the diffusor, which leads to the formation of a solid-particle stream out of the aircraft; the particles are sphere-shaped mainly with a radius of 0.4 - 0.6 cm. The size distribution curve is added of the C02-granules obtained from the airborne unit, and the unit operation duration is stated depending on the output and the quantity of the balloons with liquid C02 engaged simultaneously. The authors assume that it Is exp6dient to Install the developed aircraft fume-generator and the airborne unit for producing dry C02- granules in the aircraft of ice survey for the purpose of dispersing the lower clouds and fogs in the Arctic region. V.A. Sorochan Translator's note: This is the full translation of the original RVssian abstract. Card 2/2  VOSKMBNSKIY. A.I.; LIDOKHOVICH.A.A. --- The LO-4 thermobygrometer. Trudy AANII 228:16P,174 159. (14IRA 13:2) (Hygrometr7)  VOSKRESENsKn, A.I. Weather research expedition. Probl. Arkt. i Antarkt. no.8:100-101 ,61. (MIRA 15:3) (Arctic regions-Weather research)  VOSKIMMSKIY Aol.;KARIMOVAO G,U. Frequeney and amount of the loimrv middle and upper eloud layers In the Aratia during the btermational Geophyeical Year and the year of the Intonational Geophysical Coopera- tion. Trudy AWII 266:66-89 161, (MMA 181l)  VOSKRESENSKIY9 A.I. Water content of clouds in the Arctic. Trudy AAM 239:11-38 162. (MM 160) (Russia, Northern-tlouds)  KOFTEV9 A.?*; VOSKUBSENSKIIjA-II, Radiation properties of clouds. Trudy AANII 23909-47 162. I (MIRA 16:8) (Arctic regions-ClolOo (Arctic regions-Solar iahation)  VOSKRESENSKIYr A.I. Condensation nuclei and concentration of cloud drops in the clouds of the Arctic. Trudy AAWI 239:64-74 1162. (MIRA 16:8) (Russia, Northern-Clouds) (Russia, Northern--Atmospheric nucleation)  BUROVAr L.P.1 VOSKREMISKIY, A.I. Meteorological conditions governing Icing In the As and Ac typen of clouds. Trudy AANII 239:95-103 162. (KRA 16:8) (Arctic regicns-Airplanes-Ice prevention)  YOSMSENSKIYO A.I. I....... . The Moscov - Mirr*7 - Moacow fUght. Worm. biul. Sdv,., antark. okep, no-38140-41 163, (KMA- l6s~ (Aeronautics-4jights)  tic) crop c o c Ila V iv t ried per""- e qu.&. V- E5 ALI y car SIT ere 0 ad 13P o re w -f U thP e6 0l s , P Sol, Oard  3/169V63/000/002/053/127 Microphysical characteristicu of ... D263ID307 cumulus clouds the exped,-t-ion.- cm-ried out a few hundred vertical Mp S OIrL3 iL3, U 0, 1-1 1- C 5J f C a ,u ddro5le ~S '~'LAI 3y T~-Cufi!j C C) r C U ',3 C i.. ii _S I L f jr 1 z C ~j i3 cis na jn -:71, L3 in -Card 2/3  1, C r '~a r I U'-i ij reiation to the begInning of Invers on. t1ona of dro-) 0--uao in moderate latlt,~des. 0v e r IOU 'aa ~- 'r Content meas-r-,-:-,~lnts were carried o-t on c-c;.,-s an'.; :T':' s t 6 and .)'C. Fr,Dm r i~ u t,'!~j t -a C, r'-rua eat water content variati:)ns, which roached a few tij.ndred percent on an me;ia'Lre' .veri! noted a n d upper region6 of '.n,2 0 -1z.-mu-m c~Dntents a s e x ) e ce d I iil t r, e 8,'I'M ~ r e13 In sit + "if? S - 0 Card  85614 f'5-0 0 S/05 60/000/011/'002/005 J'S-000 BO 12%063 AUTHORS: Voskresenskiy: A. I. and Matveyev. L. T. TITLE: Water Content and Turbulence of Stratocumulus Clouds in the Arctic Regions PERIODICAL: Meteorologiya i g-idrologiyal 1960, No. 11t pp. 14-19 TEXT: The first papers on the subject mentioned in the title were published by P. A. h1olchanov (Ref 8), Ye. M. Kropotov (Ref. 3), M- Ye- Shvets (Ref. 11), and L. T. Matve;ev (Refs- 5 and 6). During the last 5-6 years extensive observations of stratocumulun clouds in the Arctic Regions have been made with the participation of the author. These observations were made during the flights of the Letayushchaya laboratoriya Arktioheskogo i antarkticheskogo nauchno-isoledovatellskogo instituta (Flying Laboratory of the Arctic and Antarctic Scientific Research Institute) and trio speclal-purpose expeditions. The equipment of the planes permitted an accurate measurement of temperature, air humidity, atmospheric pressure, altitude, velocity, as well as the Card 1/9  85614 Water Content and Turbulence of S/050/60/000/011/002/005 Stratocumulus Clouds in the Arctic Regions B012J fB063 optical density and water content of the clouds, overloading of the planes, and micropulsation of temperature. The data obtained for the humidity and turbulence of Arctic stratocumulus clouds are presented and analyzed. The major part of these observation3 were made between July and September over the regions, free from ice, of the Karskoye Sea, Laptevykh Sea, and the East Siberian Sea. The water content was measured with an CHB-3 (SIV-3) instrument designed by V. A. Zaytsev and A. A. Ledokhovich. Most of the measurements were made for St and So clouds which have a frequency of 75-60% in the Arctic Regions. It is shown that on an average Sc clouds have a higher water content than St clouds. The average water content of St clouds is 0.10 U/m3, and that of Sc clouds, 0-14 9/m3- The turbulence of clouds was studied in summer 1957 and 1958. The overloading of the planes was recorded with a transmitter and an optical self-recorder. The transmitter was placed at the center of gravity of the planes. The values obtained wexeused to calculate the coefficient of turbulence, the vertical velocity, and the dimensions of the turbulent formations. The calculation of k (coefficient of turbulent vertical exchange was based on formula (1): Card 219  8561h Water Content and Turbulence of S/050/60/000/011/002/005 Stratocumulus Clouds in the Arctic Regions B012/BO63 k Where IT_nj is the-mean absolute vertical overload of the plane; T is the average time for which the sign of the overload does not change; A is the relative air density at the plane's altitude 30 (?o is the.air density on sea-level); and b is a coefficient depending on the parameters of the plane. This formula was derived by Ye. S. Lyapin Ref-.4 and A. S. Monin (Ref I. This formula was used by A. S. Dubov ef. fl, P. A . Vorontsov (Rei. 1 , and L. T. Matvayev (Ref. 7). The R relationship betwben the vertical*velocit~ w .of the aircurrent and'the' overloading'of the plane is given as w , b (A n) (2), where v is the va actual speed of the plane, and 6 n is the overloading of the plane. The measurements of the overloading were evaluated by the method described in Refs. 1, 2, and 7. Results are given in Tables 2, 3, and 4 and in F19- 4- There are 4 figures, 4 tables, and 11 Soviet references. Card 3/9  85614 Water Content and Turbulence of S/050/60/000/011/002/005 Stratocumulus Clouds in the Arctic Regions B012 B063 Text to Table 2: Mean VAlues of the Coefficient of Turbulence (k) 1) Geographic area and se,ason; 2) Form of cloud; 3) Temperate latitudes, winter; 4) Arctic Regiono, summer; 5) k (m2/,oec) Text to Table 3: Frequency of the Various Values of the Coefficient of In the nume~rator - ~5; in the denominator - number'of 1) Place ofthe determination of k 2) Graduation of k (m2/sec) 3) Temperate latitudes, winter 4~ In the clouds 51 Outaide the clouds 6 Arctic Regions ', summer 7 Beneath the clouds 8 In 'the clouds 9 Above the clouds Turbulence (k). cases Card 4/9  85614 7 ... Water Content and Turbulence o~ --,10501r,01000101110021005 Stratocumulus Clouds.in the Arctic Rc3ion3 N12/3063 Text to Table 4- Frequency of, th; Various,Dimensions'(L),of the,Turb'ulent Particles Causing the Overloading of the Planes (Arctic Re~,ions).,In the numerator in the deno6inator - number of ca:300. 1 ~ Gradu4tio"n of L (m) 2) Beneath the clouds 3~'In the clouds 4 Above th6 clouds Text to Fi~- 4' Frequency expressed in percent6) of the Various Vertical. Velocities (w) of the. Air Current in Arctic Clouds. 1) ~CM/Sec Card 5 19  8561h! Water COnten- 'L and Turbulence of Stratocumu_lu S/050/60/000/oll/CC2/005 a-Clouds in the Arctic RoJions B0121BO63 j0 W" W10 :Woo V - -ZI/ Am 4., flonTOPSICmo-h Deplumn.,hillax CxrjpocTaA w*iYunigro CO. TOKA (W) a o6Aaxax n APKTHKO. Card 619~ J, ij Ai R5 0  j 7 3/050/60/000/011/002/005 B012/BO63 11OBTOPSItmocrit PZ&IKRHIAX 3lia-letilin Kog"KIAllellm TYPGYACI( B q;l C.'lHTc.:le a 3linmeHaTC.Ie - 4;lCJl0 wy4acs ' , rpsasttsm At (solllcm) 11-111k eAet ~iel:To onp e. -10 30'3r) 50'50 60160 2(~120 110 40140 7070 80 80 - -. - - - - 1 -. - Ymepelintle WII*POTU. 311118 2.1 ~.I 13. 0 28.4 26.2 13.0 8.7 I b. I J 12 6 3 4 ROB Bile 06.14 53.9 - 15A - 9.6 -- 7.7 - 1.9 - 1,9 -- 5.8 3.8 28 3 5 , 4 1 1 p rT ux a,' .1 C T 0 rIOA 06 1.0 12.6 25.2 - - 18.5 - 7.3.3 11.7 7,7 2f r 1.3 - 1.3 - D'o _ 19.2 33.2 - 14.1 15.4 - 2.6 3.9 1 1 7 W 2 6 W 1 2 ' 15.0 3G.4 15.0 13.6 9.1 9,1 Card 7/9 6,141cami HaA 0 7 16 7 6 4 .1 1 a 1w -0 T~zq S, a  85614 S/of56/60/000/011/002/005 B012/BO63 Ta6Autta 4 rloSTopXt.MOtTI. pZ3.'T%l9lfWX Pa'3MCPOR SbA3b&53?OtUHX nCpCrpy3X3$ camozeTa (APKTItKa), B NtICAUTC-IC a 3[faMiHalelt - 4HCJtO C.-ty4aell rpaAamot L (wi, no,, or).11tisca m,, 1~06.lajcalx Ha;t ooiaKOXII . - 0,9 6.4 IOD Y 5" 73.3 1 49.1 100-200 85 .57 - 23 6,9 15.8 200-300 2,6 3.8. 5.3 300-400 7 3 - 2 6 2 6 3 5 .400-500 , . , 5W-Gm 5 COO-700 Card 8/9, -y  'no-800 2 6 :.,-,- - ' ' - 7 0.. 3 . - - 4 800-900 3.4, 1,2 7.0 900-1000 2.6 Ll Card 919 M f~  CHARAKHGHIYLV, I.Ne. inzh.; VOSKRESENSKIY., A.P., kand. takhn. nauk Effect of a method for casting and insulating a short- eircuited cage from the rotor core on.the indices of an asynchronous motor. Blektrote'k-hnika 35 no.1:38-1+1 Ja 164. (MIRA 17:2)  VOSK110,35ENSM A.P kand. tekhn. nauk., starsidy nauchnyy sotrudnik; SEFLIMIUAKOV), N. I. Collector three-phi.-iso "Schrhpe" system shunt motors for wool npinning machine:;. Tekst. prom. 21, no-5:73-76 MY 164 (111111 1812) 1 i:ntt-!:z,-,;-IsLqledrvatelltikiy institut olektromekha- niki. (for 2. Nachallnik konstrukotor- pk.ogr, sektorn Vbei(~yuznogo nsiucliii(,-itiijledrivilt0l'3kOf.,ro inat-Ituta clek.tromekha.,Jki (for Soi-abryuhov). M NONYIN 111.  '71 VOSM-W7ISFJY, A.I., k~uid. te'khn. naWq YU. I-MrDIV, B.T,, inzh. Improvement of the c'-C%rac terls ties of short-c-Irculted inJ-.;,z- tion motors with cast aluminum rotor cages. Mektrotekhnfka 35 nc.5:6-9 MY164 (MIUA 17:9)  Vosla"ESENSKIll. A. Pr/Cand Tech Sai -- (died) "Study of the affect I' le-- C C airm"W,lupon the characteristics of asymohronous electric motors." Mos. 1957o 12 pp (Soi Res Inst, of Elootrioal-Engineering Industry," (KL, 42-57, 93) -26-  AUTHOR: Voskresenskiy A.P., Engineer (Scientific Research InuMvlteof the 1~sfr'-7- "bf-the BleetTo-technical Industry NIMEP). TITIE, The influence of non-uniformity of the air gap on the characteristics of an induction motor. (Vliyaniye neravnomer- nosti vozduahnogo azaora na kharakteriatiki asinkhronnogo elektrodvigatelya.) PERIODICAL: "Vestnik ElekbropromLyshlennosti" (Journal of the Electrical Industry), 1957, Vol. 28, No. 52 PP. 35 - 38, (U.S.S.R.) ABSTRACT: This article gives the results of investigations into the influence of non-uniformity of the air gap in induction motors on the magnetic field, the reactance, the losses and the starting characteristics. In this work the magnetic induction due to the main harmonic is determined with allowance for saturation, Higher harmonics of magnetic induction are taken as proportional to the corresponding harmonics of m.m.f. but allowance is made for the finite permeability of steel. These assumptions were made on the basis of &raphical and experimental investigation of magnetic induction in a non- uniform air gap. The path of higher harmonics of magnetic induction was assumed to be the same as for the main harmonic. The magnetic field is assumed to be plane-parallel. In the axial direction, the current is supposed to alter sinusoidally with time. An expression is formulated for the length of the air gap as a function of the eccentricity,.-anI.axpression is derived for the m.m.f. with a non-uniform air gap and the magnetic induction in the air gap is calculated. Calculations  The influence of non-uniformity of the air ga oil the 421 characteristics of an induction motor. (Cont.3 are then made to determine the coefficients of relative conductivity of the magnetic circuit for the main harmonic of the m.m.f., the reactances and the torques. The experi- mental results obtained by tests on induction motors with 29 4, 6 and 8 poles are given. In particular, figures am given for the increase in starting time and in the iron loss. It is concluded that in investigating electro-magnetic processes in induction motors with a non-uniforn, airgap it is necessary to allow for the finite cmductivity and saturation of the magnetic steel. Non-uniformity of the air gap has a particularly marked influence on the field of higher harmonics of m.m.f. The differential dispersion reactance is considerab increased with a non-uniform air gap but the reactance of the main contour is little changed. The maximum torques of the higher harmonics increase in proportion to the mean conductivi of the equivalent air gap of the machine. If the non-uniform- ity of the air gap is 0.8 the iron loss is increased by 15 to 30'/j', and the machine efficiency is reduced by 1.5 to 2j'~. The power factor remains practically unaltered for large dis- placements of the rotor. 4 figures, 3 literature i~eferonces (1 Russian).  4-,5 K A, P. AUTHOR:- Voskresenskiy, A.P., Engineer 1.10-4-5/25 TITLE: One-sided Magnetic Pull in Induction Motors (Odnostoronneye magnitnoye prityazheniye v asinkhronnykh elektrodvigatelyakh) PERIODICAL: Vestnik Blektropromyshlennosti, 1958 No .4j, 1401,4? pp. 15 - 41b (USSR) ABSTRACT: One-sided magnetic forces appear in induction motors if the air-gap is not uniform. Although it is important to deter- mine such forces accurately, the methods published hitherto give unreliable results. The magnetic forces in a motor, type AO-52-4 with an eccentricity of 0.5 in the mean air-gap are calculated from the formulae of several authors and plotted in Fig.1 to show the discrepancies. In the present article, formulae are derived for the one-sided magnetic pull and experi- mental data are given: the work was under the scientific leadership of Prof. T.G. Soroker, Doctor of Technical 6ciences. A formula is then derived for the one-sided magnetic pull. When whipping of the rotor occurs, rotation takes place around an axis other than the centre line of the rotor and the one-sided magnetic pull moves round the stator bore at the speed of rotation of the rotor. The influence that parallel paths in the rotor winding have on Card 1/3 the magnetic forces is then examined. Each parallel path may be  one-sided Magnetic Pull in Induction Motors 110-4-5/25 distributed over the entire bore of the stator or only over a definite part of it. In this latter case, the presence of the parallel path must be allowed for; a suitable formula is given. For experimental determinations of the forces, an equipment was constructed that consists essentially of a motor in which the position of the rotor can be adjusted, as illustrated in Fig.2. Curves of calculated and test data for the one-sided magnetic pull for an electric motor type AO-52-6, with various amounts of rotor displacement and with the winding supplied with direct current, are plotted in Fig-3. Direct current was used, to simulate ideal and no-load conditions. The theoretical and test curves are in satisfactory agreeiaent and show that formula 3 of the article is valid, when the number of poles is greater than two. Similar forces can also be set up in two-pole machines, but in this case the forces determined by the formula must be multiplied by a factor of 0.8. Measurements were also made of the force as a function of the short-circuit current for motor type AO-52-6. The maximum values of the forces under short-circuit conditions are the same as when the windings are supplied wit# direct current. The inay.netic pull was also determined after the squirrel-cage had Card 2/3  One-sided Magnetic Pull in Induction Motors 110-4-5/25 been removed, a condition equivalent to operation at no-load with the rotor stationary. It will be seen from Fig.4 that the forces with direct and alternating current are in good agreement. Finally, an approximate formula is given, valid for determining the maximum value of the one-sided magnetic pull in a number of cases. There are 4 figures and 5 references, of which 3 are Russian and 2 English. ASSOCIATION: NII EP AVAILABIB: Library of Congress Card 3/3  ZAKHAROV, N.14., prof.; RAZU14OV, I.M.p doktor ekon.nauk,prof.,red.; BOYTSOVp V.V., doktor tekhn. nauk,prof., red.; VLASOV, B.V.p doktor tekhn. nauk, prof.., red.; B.V., inzh., -red.; KUZIMM, V.V., Inzh., red.; L'--*MKO, V.A., kand.ekon. nauk,, dots., red.; SOKOLITSYII, S.A., kand. tekhn. nauko red.; SHUKHGALITER, L.Ya.,, kand. tekhn. nauk, dots., red.; SDIENOVA, M.M., red.izd-va; SALAZKOV, N.P.p tekhn, red.; ELIKOD, V.D.p tekhn. red. [EstabliBhment of technical norms and the organization of labor and wages in machinery manufacturing) Tekhnichoskoe normirovanie, organizatsiia truda i zaratotnoi platy v ma- shinostroenii. Moskvay Izd-vo "Flashinostroenie," 1964. 338 P. (WRA 16:7)  DMITRIYEVA, A.T.; VO.'-,KRESEIISKIY, B.V. use of staph7lococral anatnxlri f--,:- prevention cf a-apparative di5eases in puerFerants and newlcrn 'Inirents. Akush. i gin. 40 no.lt22-25 Ja-F 164. (MIRA 17.8) 1. Rodilinyy dota No.16 (g]Avnyy vrach A.I. DmItriyeva) I Institut epidemiolorii i mikrobiclogiA 4-moni N.F. Gimlet, Moskva.  GUSAROV I ml~'; VOSIMMESIMM, B.V.; 4YSS, M.A.; UIITRIYFVA, G.V.; EVI Of AROVA, T.V.; Mr, Ye.B., red. (Chelyabinsk eloctrometallurgy workers are atrivIng for technical progress] Cheliabinskie elektrotetallurgi v bor'be za taklmicheskii progress. Cheliabinsk, Cheliabin- skoe knizhnoe izd-vot 1963. 94 P. (HIRA 17:8)  VOSKRESIZISKIY, B.V.; MANILOVSHY, R.G.; RAZU?IOVq N.A., inzh.p I - - --- '" ' retsen,-"~nt; LYUBOVICH, Yu.O., kand. ekon. nauk, red. (Production capacity of a machinery plant] Proizvoclatvon- naia moshchnost' mashimstroitellnogo zavoda. Moskva, lzd- vo "Mashinostroenie," 1964. Z71 P. WIRA 17:7)  -VOSxluSxVSKrr, B.V. Public office of economic analyals, YAshinostroitall noon:41-42 u l6o. (NM 13:10) (Sverdlovsk-Turbomachinati-TachnologicaI innovations)  VERSHILOVA4 P.A., prof.1 GOLUMA, A.A.; KAYTILUOVA, le.l.; OSTHGVSKAYA, 11.1%; Y.VODZYAYE;V, Sh.Kh.; red.; MUDEMSYMA, N.I., teklm. red. (Brucellovis; a handbook for pb7sicians]Brutsellez; rukovod- ut-vo dlia vrachei. Moskva., Modgiz.. 1961. IX p. (MM 15:10) (BitUCELILSIS)  GUUROV,, V,N,; VOSKMEMKIY,, B.V.; RYSS,, M.As Production of 75-peroent ferrosilicon in rotary hearth furnacOse Stall 22 no*3:240-242 Mr 162- (MA 150) (Perrosilicon-MetaUurgY) (Rotary hearth furnaces)  VOSOB IISKIY, B.V... inzh. -'. --- the reconStruction of machinery planto* Economic efficiency of . - -77 Ag 164. Ves-Lu. mashinostr. 44 no 8.72 (MIRA 17:9)  g g, NOR-,  ,  VOSKRESENHY. D.I.- GRANOVSKAYA,, R,A, p Study of a rectangular c=b in a rectangular wave guide. Trudy MAI no.12505-42. 160, (MIRA 14:7) (Wave guides) (Delay networks) ;t  VOSKMLITSKIY D.I.; GRUTOVSKAYL, R.A.; DERYUGIN, L.N. - Investigation of an Ropposing rods"'-type delay system. Trud MAI no. 125:67-91 f60. (MIR& 14:7T (Wave guides) (Delay networks)  VOSKWEIISKIYY D.I.; ORVIOVSKAYA, R.A. .=-r ~' Investigation of a single-thread spiral in a circular wave guide, Trudy 14A1 no.22502-97 160, (MIRA 14:7) (WaVe guides) (Delay networks)  VOSMMEIISKIY D.I.; GRABOVSKAYA, R.A.; DERYUGni, L.11.1 FMROVp S.I. -1-1 ~ Investigation of a delay system with noncontacting Plates, Trudy MAX no.125t43-66 160, (MIRA 34:7) (Wave guides) (Delay networks) (Traveling..-Wave tubes)  VOSKMENSKIYp D.I.j GRANMKAYA.. R.A, Study of a "apiral groave"-type delay system, Trudy MAI no*3.25:98-3-03 160. (HIM 14M Deiay networke) Wave guides) ~' I  VOSKRESENSXIY, Mop kand. tekhn. nauk; GRANOVSKAYA, R.A., kand. takhn. , , - ,44A~"~ nauk Channeling systems of antennas with opocial form and .electronic scanning., Trudy MAI no.159MI-123 164. (MRA 17t12) 6  VOSKRESENSMY. F.F.; SL"SKIY, YU.N. New device for drilling deep holes. Razved. I okh. nedr 27 no.!: 23-26 Ja t61. (14IRA 17:2) 1. Vossoyuznyy nauchno-issledovatellskiy institut burovoy tekhniki,,  VOSKRWENSKIT,,, Fedor Fedorovich; DUBROVINA, N.D., ved. red.; rARO__VUVA;_Z._I_.,_re_Mn-. ied. [Valve-type percussion drilling rigs] Burovye klapannye ma- shiny udarnogo deistviia. Moskva, Gostoptekhizdat, 1963. 84 p. (Boring machinery) (MIRA 16:8)  -YOSMWEIISKIY, Georgiy Ivanovichi TYLK09 M.N., red.; FULINq L.I*p tekbne rdd-.-, (Workers' meetings; studies on conducting general meetings of workers and employees]Raboehie sobraniia; ocberki ob opyte provedeniia ob- shchikh sobranii rabochikh i sluzbashchikh. Tulap Tullskoo knizhnoe izd-vo, 1960. 46 pf (MIRA 24M (Tula Province--Works eouncils)  flg ~A,J t -I- 'Ir Z. RIK 5011MR,  7 FIR!, i- kilmi'mo OR -Olt IM P-1 .0.9 ~ JR. MEMORIES& RIM-1:11 I, M  P D ! MPNO PER% -Eflsl  BIRKOAN, A.Yu.; VOSKMI21SKIY, G,P.; DIKAMA? A.L. red.; SVESHNIKOV., A.A.p telEi. -red. [Programdng for the "Ural,-2" digital computer]Programnirovanie dlia taifrovoi vychiolitellnoi mashiny "Ural,-.2". Moskva,, So- vetskoo radiop 1962. 206 p9 (MIRA 15:9) (Electronic digital computers-Trogro=i"g)  44190 5/109/62/007/012/007/021 D266/D308- zj. AUTHORS: Burshteyn, E. L. and Voskresenskiy, G. V. TITLE: Energy approach to the radiation field of uniformly movihg charged particles in slow wave structures' PERIODICAL: Radiotekhnika i elektronika, v. 7, no. 12, 1962, 2033-2036 TEXT: MISTZ5 reTMonships between the pa- rameters of the radiation-field and those of the electron-slow wave structure configurati 'on without specifying the structure in detail. It'is assumed that the field excited by the moving charged particle is localized in the half-space behind the particle, and can be represented by the superposition of wo,veguide modes pr~opa- gating with a phaqe*velocity-iqudl V6that-of the particle. The intensity of the electric field on the4axis of'the slow wave struc-; ture is E E e-c(zei(hZ_14jt-~) (Z> 0). 0 Card 1A  s/log/62/007/012/007/021 Energy approach to D266/D308 where E 6-i~ - complex field amplitude 'at z = Ol c< attenuation 0 ..coefficient, h((J) propagation coefficient. Energy per unit dist- 2 ance is W, = pJEj where p - coefficient depending on the detailed,,IX structure of the.field. If in this waveguide (slow wave structure there is a particle moving with velocity v (position z = Z + vt3 1 0 it will excite a wave of frequency w. determined by the dispersion equation =hw v The axial component of the excited wave is then i(hz-,*t-hz 0) .. 0~1 (z, -Z) Eq Aqe e (z o) or' in the 'when it exito the waveguide (u 0. Item X, y, z are rectangular coordinates, t is the time, and a, b, and u are constant :parameters. The case of a moving line charge is also discussed. The calculation wash ~undertakon because it in the simplest -that b*ars: on the technically important ques-' ition of the radiation of a charged particle entering-or leaving the open and of a iwavaguido. The field of the moving line current is represented by the vector poten-, ~tial, of which only the x component does not vanish. The vector potential Is expand- ;ad in a Fourier integral in t, and the Fourier component is expressed as the sun of ltard,1/3  'ACCESSION KR: AP4028959 two terms, of which one represents the field of the moving line current in an infi-',, nite plane waveguido and the other is a correction tom. The correction tem is ex-I pressed in terms of currents in the (infinite) wavoguido. The currents (which are I already expressed by Fourier time transforms) are expanded In Fourier integrals in z, and the boundary conditiong on y ta that the total current vanish for z 4 0 and the electric field vanish for z 0 are written. The currents are obtained from' #these boundary conditions by the Wiener-Hopf method, and the radiation field is cal- 1 ;culated. The field within the waveguido is expanded in normal modes, and the energy I ;radiated into each modo is calculated. At high Xroquoncies the radiation outside the vaveguide is similar to that of a line current passing a single half-plans (13; 1 ~ M.Dolotovskiy and G.V.Voskrosenskiy,ZhTF 34,11,1964). At lower frequencies the ra--: diation distribution is dominated by waveguide resonance effects. For velocites !near that of light, the radiation depends strongly on the sign of u, i9e., on whe- I'ther the line current enters or leaves the waveguide. The radiation from a moving ,line charge is calculated similarly, the Hertz vector rather than the vector poten-1 itial,being used to describe the field, and the results are discussed briefly, 10rig.art.hass 45 formulao and 1 figure. 2/3 Card  'ACCESSION NR: AP4028959. 'ASSOCIATION: Fizichoskiy institut 1m.P.K.Lobodova$ Moscow (Physical Instituto) tSUBMEuB l2Feb63 DATE ACQ: 28Apr64 EICL: 00 :SUB CCDE-. PH, GE NR REF SOV: 002 OnIER: 001 3/3 card 7-  AC=SICK M. AP4041140 B/OOW/64/156/004/07TO/077 3 AUTHOR: Voskrescuokiy,, 0. V. Bolotovskiy, B. M. Leontovich, M. A. MTIZ: Field of a, charged filament moving uniforga$ in tM vicinity of a system of perfectly conducting semipjanea, M MR* Dokiedy*., v. 2.56., no. 4,, 1964. 770-773 ~TOPIP TAW: moving charged fiIament, eject=WgUeAiO emlesionp linear periodic conducting mediap diffra4tim gmung., vaveguide ABSTRAM The radiation by.ebarged particles in linear periodic media has been investigated earlier by several authors using gpproxLmstion method . The present author considers a problx= of this kind which permits s, xigorcuo solution., A ~uaiforml:Y charged filament is Ass=ed to move with a constant speed parallel to a system of perfectly conducting semiplanes. The electramapetic field is described by a Hertz" vector., consisting of the field of the charged fila=t moving'In emytY space and of that due to the boundary conditions on Metallic xilat6b. ne total wergy fb= emitted by this %raveguida" is -ccqrjted* The frequency of the re4la- :~tion is determined OsseUtIanY by the mumber of plate& passed by the source in Card 2/2.   MHTEYN,, E.L. ; VOSKMENSKIY Gjs Radiation from a aingle charge in a semi-infinite wave guide filled with a dielectric substance, Zhur.tekhoflss.33 no,ls 34-42 A 163. JKM 1622) (Wave gaides) (Dynamics of a particle)  FEMNSLU V.A.S VOSK"mant K.Do) .. KEKEEM9 14.A.; BAUM .. . X, ykb ,tU] Toplootdacba rasplivll"A :7) [Rest transfer In Malted (glu 34 metallov- 14oskva, 1955, 13 ~* .... . .1.  VOSKRESE?;SKII, K. 1). SI;0~nik zadach oo te:~loprrr_dlacne- Pofj r-J. M. A. ..0 uchebn. potobiin dlia enerp. vtuzov i fak-ov. " !:kva, diaCrs. "Sbornik sostavlen primenitellno k uchemiku 11. A. MikJieeva 'Grmovy teploperedicni, izd. 190 v." see Fntry 191 Bibliopraphy: p (167)-16A Collection of problems in heat-transfer. DLC: QC320.v6 SO: I'Anufacturinr and 111cchanical Eng-ineerinr in the OovJnt Union) Library of Congress, 1953.   TOSMMBNSXAYA, F.T. 'w - _ - Colorimetric determination of small qunntitles of thallium. Zhur*4nal. Mine 11 no*3:585-509 8-0 1560* (MLRA loti) 1. Moskovskly gasudartstrowW usiversitst iuenI M.Tv Lomonosova. (Colerimetry) (Thallium)  VOSKR1SENSKIT,,,-4aksaW1r~ Alakwmarovich"11- (Ravolutionary strdals of workers in the Kharkov Locomotive -Factory, 1895-1917; a brief historical occount) Revollutsionnaia bor'ba rabochikh Kharikovskogo parovosostroltaVn0go %a-voda, 1895-1917 gg.; kratkii istorichemkii ochark. Khartkov-i Izd~-vo Khartkortskogo gos. universiteta im. A.M. Gor1kogo, 1958. 236 p. (KIRA 12:5) ,(Xharkov--Locomotive works)  TOSKRISNIISKIT, B.1sudlym vessoyunoy )atogorii ("Voev) Lasoons from the finAle Za rul, 16 no.loj6-7 0 158, (KIRA 12: 1) (Xvbyshev--Xotorcycl~ raoing)  USSR/Farn %nim-cls - Poult-Ty. Q-3 Abs Jcur R~-.-*' Uhur - Biol., Ito 1, 1959, 2732 Author Oz,;rov, A.V,,, Fuchkov, Voslxcscn5l-.iy, B.,,. Inst lbsecm Agricultural Acad(.ny Timiryazcv Title : zoohy,~Icnic oZ `i,*11,: llai.,Acnanca of Chicks ou a Dc~;p Litter. Orig Pub : Dohl..Nosk s.-kh. almd. in. K.A. Tinir)"nuxa, 1957, vyi)- 30, ch. 2, 234-239. Obstract : Eh~-- ~Iuickncss of the li-~t-vr la-,Trr consistinG oi~ wood skmvinp vas 3-4 c,-, at thc bcgiiming of thu t-G;, mul 20-22 cn at thc -,nd o' 3' nontha. (hico cvQry 1.5-2 W~xks it wao overinin ';y a laycr of c1cmi and Oxy l4nin,,,o Thc dQnsity of the rcarinG of chicks was 12-14 ;i,:!ad p,-r sq. -.iat~ar of floor arua. 'Va, tcupuraturc of thu littcr incrvaSLd CS it (TLV It cxcQcdc--(l air Card 1/1 by 5-60C. ~6,u c'aicks LYLw and dvv4LAupc:d,wU1-  C Iy ZMXM, Z.A., kand. sel'skokhozyavetviennykh nauk; vet. nank-, VOIWRj;8jMLj oil vet* vrache OMM, A.V., doktor Raising young turkeys for mat on deep litter and dry foods, Ptiteavodetvo 8 n0-59-16-20 XT '58. (NM lit5) (Twkeys-Feeding and feeding stuffs) (Idtter (Bedding))  k3-41 I ?arm An nalm. AM. JIMIN. a ra"10L. Xv. 6# 1959, go. 2"30 ATUOR 1.1 fterov, A. T.1 Bhopoulo"o ?IIU I Th-j Pat-stmr of Chicks of WILtiVe Br*04S OA Thick Se4ding &M D?y Poddar. PtISvvvodstvo, 1958, go 2, 10-16 AB3??ACT s Ue roseate of experimente ar. praxantM whifth are favorable both frow the point Of VIOV Of &sisal breeding wA u0, 108. A180, 60154 fsatial azA critical resarks are Wun Pqrtal- u1jig t' %he vork "lm Ions %% ow VS and In the field of b,.di., vat., birds. V. V* Sorevelly TostresensItty, P. A. 7 7  OZIROV, A.V., prof.; VOSXRMIISKIY, B.A.. votvraeb Ivaluating the method of keeping cbicko-vn deep litter from a hygienic point of view. Zhivotnovodatvo N. nol:57-%58 It 15 HIBA 1?17) ~;oultry) (Litter (Bedding)) IY  VOSKR~,si;NsKlyt ~a- V, och .unta 11 PIA mo-massovom etikiy ne-dzc)r za ekf;plOatsiey Itistrum om_st-, 1949, 29192 Tekhnich ve. (Gor'k. avtozavod m. 140,otova). Avtomob, Pr proizvodst No. 9. S. '9-11 Sttey, Vol* 399 I-loskovs 1949 SO: L.,topis' ,hurnulInYkh  VOMMISKY, lb.V.; DI-MIYEVA, A.I.; LEBFDEVAj, Z.I. Experience in the prevention of staphylococcal diseases in maternity hcmeo by immmizing pregnant women with staphylococcal toxoid. Zhur.mikrobiol.opid.i immun. 32 no.103-39 A 161.1- (MIRA t4:6) 1. Iz InstitutA epidemiologii i t1krobiologii. imeni. da:~el. AMN SSSR J Moskovskogo rodillnogo doma Ilosl6s (STAPHYLOCOCCAL INFECTIOLIZ) (PREGUNCYx COMPLICATIONS OF)  13-0 VOSIUSENSM. B.V.. red.; UVAROVA, A.F., tekhn.red. CDe=erminatiou of the prodaction capacity in machine manufactwing; methods and practices] Opredelenie Droizvodstyannykh mosbchnostei v mashinostroonii; metodika i prakti6 . Pod red. b.v.boakresenskogo. Moskva, Goa. nauchno-tekhn. izd-vo masbinostroit, lit-r7, 1957. 185 P. (MMA 11:2) 1. Hookovskiy dom nauchno-takhnicheakoy propagandy imeni P.N. j3izerzhinskogo. (Machinery industry)  Z.I. Antigenic and iwamogenic properties of staphylococcal anatoxins pre- pared on meat and casein culture media; Zhur. mikrobiol' spid; i immun. 29 no*9*016-20 S158 inu 11: 10) 19' -Iz Instituta epidemiologii i mikrobiologii ImenI Gnmalei AMU SSSR. (PYOGMS, anatoxins prop. on meat & casein media (Rua))  VOSIUMMISKly, B.V. r-I ---------------------- lpidemiolog7 and prevention of tetawas in the Ukralne, during 1951-1933. Zhur. mikrobiol. epid. i Immin. 29 zLo.11:12-16 N 158. (NM 12:1) I* j% Inatituta spidemiologii i mikrobiologii imani ftmalei AKH SSSR. (TVANW, opidemiol. & prV. (R"  VOSEMEMKIYO D.V. Antigente relationship in combined Immnization; review of the literaturs. Zhur. mikrobiol. epid.i 1-u".6.29 no.12:5-10 D 158. OCERA 12: 1) 1. 1z Institnta epidemiologit i mikrobiologii imeni Gamalsi AMN SSSR. (VACCIYM AND VACGIIIATIONj antigenio relationship in complex Immineg review (rms))  VOSKRESIMSKIT, B.V.; MIRONOV, N.P.; SOVCHMO, V*Y-. makhanik Production of high-qualit7 engineering lime. Stroi. mt. 5 ne.4:22-24 Ap 159. (MIRA 12:6) l.Glavnyy inzhoner Chelyabinakego saveft forresplayev (for Vaskresonekly), 2.Nachalinik teekha Chelyabinakogo saveda, ferrooplavoy (for Mironov). (Chelyabinsk--Mme) I  18-1150,18-3200 AUTHORS: TITLE: Voskrescnslciy, B. V.,.Ryss, M. A. 771155 SOV/133-6o-1-i6/,20 Ferroalloys. Production of Crystalline Silicon in a Furnace With a Rotary Bath Stall, 196o, 51-53 (USSR) PERIODICAL: Nr 1, pp ABSTRACT: This is a brief report regarding the Soviet experience in application of rotary bath to the furnacea producing I'abor-consuming silicon alloys. The authors refer to the III International Congress on Electrochemistry in 1953 in Paris and the re ort by Khammerlund mentioning the fact that during, 1949-1953 there were eight open rotary furnaces built in Europe for production ol ferroalloys. In the USSR the first furnace with rotary bath was put into service in April 1958. It was used for production of 115 and 75% ferro,3ilicon and did not show any noticeable improvement over the work of the stationary furnace. In connection with the planning of large shops for production of' ferro.,3ilicon in the cloned Card 1/14 rotary furnaces, one of the existing furnaces wau equipped  Ferroalloys. Production of Crjstalline Silicon 771155 ina Furnace With a Rota., Bath ~ov/i-- -6o-1-16/30 with a roL Py mechanism, in order to determine the effect of the rotary bath and to develop the technology of' production of silicon alloys in the rotary furnaces. The furnace had following zpeci- fication3: shell diameter 3,500 mm; bath diameter 2J.200 mm; height of shell 2,500'mm; height of' bath 1,1100 mm; diameter of ele6trodes 400 mm. A three-phasse tr,,tii;;former of the furnace had five voltage stages: I, I'L, III, IV, and V. The power (in thousands kw a) was 3.2, 3.2, 3.3, and 3..3', respectively. The primary .voltage was 10,500 v. The secondary voltage was 100, 110, 110, 120, 130 1/, respectively. The ctir- rent in the --econdary winding was (amperes) 17,`100, 16,8oo, 16,8oo, 15,800, arid 111,700, respectively. The working ~Aagu wa3 the fourth stage, with 120 v, The mechanism for rotation of' the bath is i;hown in F11r. 1. The optimum 3peed of rotation was 11 hours per tu~fi. The furnace was operated for 3 months, pro- ducing crystalline silicon. During thi:; time the capacity of' the firnace increased by 3.7%; power ortOLLITtAoC dye (aaed by 2.8%; electrod, conqumption Card 1/11 aecrou e Y V; and charcoal con.-3umption decreased  Ferroalloys. Production of Crystalline Silicon In a Furnace With a Rotary Bath Fig. 1. A mechanism for rotation of the bath: ~aj furnace bath; (b) tray; a supporting ring! (d) ear box; (e) reducer; drive frame. M 77451.- 4 SOVY~3-,-~-6o-i-16/30 Card 3/4  Ferroalloys. Production of Crystalline Silicon 77455 in a Furnace With a Rotary Bath SOV/133-6o-1-16/30 'by 26.65. The authors arrived at the following con- clusionb. (1) The application of rotary bath for production of crystalline silicon in the furnaces of 3,500 kw-a capacity is advisable (a 115-58 rubles/ton economy was realized). (2) It in recommended that the rotary equipment be installed In the furnaces pro- ducing such labor-consvming and technologically com- plex alloys as 90% ferrosilicon, chromium siliconj and especially calcium ailicide, and that the develop- ment of technology of producing ferroalloys in the rotary furnaces be continued. (3) For elimination of scaffolding (and also blocks of carborundum In the 1*), it is sufficient to working portion of the throat accomplish a rotation in the 1200 sector. There are 2 figuresland I table. Card 4/4  S/117/60/000/011/035/035 A004/AO01 AUTHOR: Voskresc-nskly, B. V. TITLF- The Offices of Economic Plant Analysis PERIODICAL: Mashinostroltell, 1960, No. III, pp. 41-42 TEXT, The author gives a report on the offices of ecr.~nomic plant analysis which were established by the initiative of members of the Na,1chno--t-'%khnii_h'3skoyA_ obshchestvo mashinostroltellnoy promyshlennosti (ScIentiflo and Te~-,.hnlcal Soc.!^-*,y of the Mechanical Engineering lnduatg) at the enterprises of tht Sverdlovsk oblastt, amwg others the Sverdlovsk turbomotornyy zavA- (Sverdlovsk Turbine Engine Plant), gral,mashzavod, Sverdlovskly mashinostroitellriyy zavod (8v*rdlovsx ~e ch anical Engineering Plant), Uralkhimmashzavod, Uralvagonzayod, the Plant Im. Vorovskly and the "Uralelektroapparat" Plant. These offices are handling any problems arising in thlep an-F-prac-M-e, -paRicularly on Uie economic sector. At some plants special teams are created to analyze the causes of de:tinite deficien- cies, e. g. non-fulfilment of the production plan, labor-productivity pl&n., In- creased cost of manufacture, excess consumption of materials, etc. The author presents some examples: The tool shop of the Sverdlovsk Turbine Engine Plant at Card 1/2  3/117/60/000/011/035/035 The Offices of Economic Plant Analysis A004/AO01 the beginning of the year did not come up to the target of labor prc-juctiv The shop office of economic analysis under the management of economist Villykhov- skaya tackled this problem and found that some apicial machine tool's operatirg in two shifts were not fully employed which r9flected on the worker's prodz-,tivity, The office of economic analysis raocmmended to transfer the machines concern~-d to one-shift operation, thus the workers of the firs,. shift started to fulfil thsir production plans, while the workers of the second shift were transferred toot_her jobs. Moreover, the office of economic plant analysis at the mentioned plant found out that particularly young workers with Insufficient. vocational traimll_g did not fulfil their quotas. Therefore, on the suggestion of the office, an experienced highly skilled worker was attached to each of the less crjallfted young workers and the production plan was fulfilled. The author calls thIs a character- istic example of the work of the Offices of Econcmic Plan-v'- Apalysis and cites further exampl es of their activitiez. He coroludes that, alt-hough the Offices of Economic Plant Analysis hxr;5 been in ei-ist-t-nee only for aome months, their work has alrsady proved to be re-ber successful so that also in other plants Offices of Economic Plant Analysis axe being established. Card 2/2  V 25(5) PHASE I BOOK EXPLOITATION SOV/1314 Moskovskiy dom nauchno-tekhnicheskoy propagandy imeni F.E. Dzerzhinskogo Opredeleniye proizvodstvennykh moshchnostey v mashinostroyenii (Determining Productive Cipacities in Machinery Manufacturing) Moscow, Mashgiz, 1957. 185 p. 8,000 copies printed, i Additional Sponsoring Agency: Obshchestvo po rasprostraneniyu politi- cheskikh i nauchnykh znaniy RSFSR. Ed. ensk Tech. Ed.: Uvarova, A.F.; Managing Ed. i ~~ ~4-21-_~Ifie_ra ture on'Wh~'Economics and Organization of Production (mashgiz): Saksaganskiy, T.D. PURPOSE'.,~ This collection of articles is for engineering and tech- nical. personnel of manufacturing plants and national economic councils. Card 1/4