SCIENTIFIC ABSTRACT BRANOVER, G. - BRANT, A. L.

.894,27 Effect of a transverse magnatio... S/197/61/000/001/001/002 B124/B203 past-age of a current of up to 1000 abetween the electrodes of the pump, and an induction of about 1500 gauss between the magnet' poles, the mean velocity in the canal attained 20 cm/aelc. The Reynolds number varied in the experiments from Re = 06680 to Re - 18400, and the Hartman number from M, = 0 to 11 = 41-5. A modified Pitot tube was used to measure the velocity: at different points of thelcanal..' Fig..3 gives some results of these measurements. Fig. 4 shows the dependence of t~e uniform velocity dis- tribution coefficient U6/Uma- (5) (U6 - velocity near the wall, U velocity in the flow axis) on the ratio M 2/Re. Fig. 5 shows the max velocities measured in the horizontal plane at different Hartman numbers, and Fig. 6 the change of.the uniform velocity distribution coefficient with the field stress in the artificially roughened canal. The rate of dissolution of lead in a mercury flow is greatly slowed down by the magnetic field. There are 7 figures, 1 table, and 10 references: 5 Soviet-bloo and 5 non-Soviet-bloc. ASSOCIATION: Institut fiziki AN Latv.SSR (Institute of Physics of the AS Latviyskaya SSR) Card 3/5  89427 Ef f ect of a transverse magne ti e... S/197J61/000/001/001/002 B124/B203 SUBMITTED: August 5, 1960 7;7/77'J OMM/z. Legend to Fig. 2: Diagram of the\ experimental-apparatus. ;50,. Re -98W Re 42290 Re-18+499 AP-O ~YbL I- IAAJ I loy I 734_4~/Fo 10 20 Legend to Pig- 3: Velocity dfstribu-' 0 IL LLJ LJ OQ~j -T-1 tion in a canal of smooth walls as I I I y I dependent on the field stress. 0 0 450 to to 00 go 20 7-1 Card-4/5 o a In 2a 1 -0 PO .1i to i0  Effect of-a transverse magnetic... Legend to Fig. 4: Change of the uniform velocity distribution coefficient in a canhl of smooth walls as dependent on the field stress Legend to Fig. 5: Velocity distribu- tion in an artificially roughened canal, as dependent on the field stress Legend to Fig. 6: Change of the uniform velocity distribition coefficient in an artificially roughened canal as dependent'on the field stress Card 5/5 89h27' S/197/61/000/001/001/002 B124/B203 IT, _r, iTT v,-- 401  BRANOVER, G. (Riga); LIEIAUSIS, 0. (Riga) Effect of transverse magnetic field on the internal structure and bydraulic resistance in turbulent flows of 1i uid metal. Vestio Latv ak no.1:59-66 161. MI 10:9) 1. Akademiya nauk Latviyekoy SSR, Institut fiziki. (Magnetic fields) (Liquid metals)  ACCESSION NR: AT4042282 S/0000163/003/000/0059/0063 AUTHOR- Brano,~er, G. G., Liyelausts, 0. A. (Candidate of physico-cathematica3. scienceal TITLE: Characteristics of transverse magnetic field effects on turbulent flows of liquid 1 metal at various As numbera SOURCE: Soveshchanlye po teoreticbeskoy I prokladnoy magnitnoy gidrodinamike. 3d, Riga, 1962. Voproxy* magnituoy gidrodinamild (Problems In magnetic hydrodynamics) doldady* soveshchaniya, v. 3. Riga, lzd-vo AN LatSSR, 1963, 59-63 TOPIC TAGS: turbulent flow, liquid metal flow, transverse magnetic field, drag co- efficient~ Re boundary value, magnetic field effect, conducting fluid flow, Reynolds number, hydromagaetics ABSTRACT: To supplement existing reports for the ranges Re cr to 1200 and 7500 to 30, 000, the authors measured the effects of a transverse magnetic field on drag co- efficients for Re--1410 - 3460 (WO - 10) in a channel with walls of non-conducting material (0. 1 x 4. 0 em; stabilization sector 6 cm, operating sector 9 cm). The results served to establidi a boundary value of RePI02500, below and above which 71 mdecreases and increases,-  ACCESSION NR: AT4042282 respectively, and the conclusion Is drawn that variations in drag coefficient, when a transveree magnetic field is applied, are always in the direction of its critical values outside the field. Formulas are given for calculating Re for a plane-parallel flow in a transverse field and A for Re>2500. It is pointed Surt thatpe effects of a field must be considered In design calculations calling for M2/Re;)1C to 10-2. Orig. art.._~ -has: 3 graphs and 5 equations. ASSOCIA77ON: none SUBMITTED: 04DecG3 ENCL. 00 SUB CODE: -ME NO REP SOV: 004 'OTHER: .004 Cad 2/2  ACC NR1 AP6034580 SOURCE CODE: UR/0382/66/000/003/0055/0063 AUTHOR: Branover, G. G.; Shcherbinin, E. V. ORG; none TITLE: Magnetohydrodynamic jet flow in a bounded region SOURCE: Magnitnaya gidrodinamika, no. 3, 1966, 55-63 TOPIC TAGS: MHD flow, Reynolds number, weak magnetic field, transverse magnetic field, turbulent flow ABSTRACT. Initial experiments to study jet flows of magnetohydrodynamic fluids in bounded regions, with walls that do not follow free streamlines, are described and-the results are given. The flow chamber and channels are shown in Fig. 1. Liquid mercury was used as the working fluid with induction pumps maintaining flow speed within 2%. The flow conditions were chosen so that the Reynolds number ranged from 5750 to 18,600 and the Hartmann number ranged from 0 to 296. A most detailed investigation was con- ducted for Reynolds number 5760 and the corresponding results are given in graphs showing velocity profiles at various positions in the flow. It is shown that in weak magnetic fields applied transverse to the flow, two unsymmetric, vortices appear at the UDC: 5j8.4 Card  ACC NR3 AP6034580 No Fig. 1. m mozzle exit, then the stream interacts with the walls and some.reverse flow appears gradually changing to typical turbulent flow in the channel. As the Hartmann number increases, complete stream symmetry appears. Some regions of instability were noted (shown in a three-dimensional plot) which were found to decay into characteristic flow under conditions of applied magnetic field,.quite different from the normal flow. The sults were parametrized and plotted for comparison with the scaling law derived for the flows studied in this work. Orig. art. has: 7 figures, 4 formulas. SUB CODE: 20/ SUBM DAM 07Dec651 ORIG REF:. 006/ OTH REr: oos Caid. 2/2  ACCESSION NR: AT4042284 8/0000/63/003/000/0077/0080 AUTHUH: Branover, G. G. ,Dukure, R K TITLE: Effect of roughness of the channel walls on drag during turbulent flow of liquid metal In a transverse magnetic field SOURCE: Soveshchanlye po teoreticheskoy i prikladnoy magnitnoy gidrodinamike. 3d, Riga, 1962, Voprosy* magnitnoy gidrodinamiki (Problems in magnetic hydrodynimics)~ doklady* soveshchaniya, v.. 3. Riga, Izd-vo AN LatSSR, 1963, 77-80 TOPIG-TAGS:, turbulent flow, liquid metal flow, channel roughness, transverse magnetic field, drag coeff icient, Stewart number, bydromagnetics ABSTRACT: The authors measured the drag coefficients for Hg forced by an induction pump through channels of organic glass with wall roughness simulated by celluloid disks'. The results are calculated from pressure differentials according to. :2ApR 1/3 Card  ..: r . I ,. I* ': -, ~ i.11 .1. I ..i I  ACCESSION NR: AT4042284 ENCLOSURE: 01 (n + 4,/4 Igo + + +* 4 4 ~O 4. 4,/ 0 ,, ., 0 AA + 10 C 0 &A JA oer". -A c 4i 2.0. to Fig. 1. Variation in the drag.coefficient in relation to Stewart' a number* + - channel width a 2. 5 cm, height o lastic die k = 0. 2 cm- 0.30 cm~ Ai " OU, - a - o;is -ex. k - 6.025 gi Z i; 0 k-O.Wex: A-a-OM J- Card 3/3 . - I . .1 7 j  - - - . - I - 1 1 OVER, G. , . R.K-; KIRKOI I.M.j LIEIAUSIS, O.A.; SHCHERBININ, E.V. G. - DUKM (Riga) "On hydraulic 3mrs of turbulent flows of liquid metals in magnetic fields" report presented at the 2nd All-Union Congress on Theoretical and Applied Mechanics., Moscow,, 29 January - 5 February 1964  328.54,65 4r; (A) VP kWESSION WR- AP-500-5770 M 3ranovar~ G. Or.; Ts jndbeE~_A. M Shcherbinin. E. V. TITLE., Tr a n s forMa tiOn af turbulent flow structure of mercury in a Magnetic field behind iradden expusion --..~ISOURGEB. Tnzhenerno-fizidhaskiy zburnsal Yo 6, no. ij 1965, 144-115 6 TOPIC e TAGS - tit profile Royholdo rbulsht. A D* . A numb&rj Hartman lit into The krdromagaetio'now of mercury expanding from a 0.2 x 10-cm e !a, 2 x 10-an channel'(VO cm long) was studied experimentally# A transverse mapetic; !field vas applied along the chwinal leneth, and velocity prof ileB were m-eacured vrit~!' -'Fitot tubes. The flow zms turbulent with Re = 3-35 x 163- The magnetic field was Ifound to flatten the velooity profiles noticeably (use Fig. I of the Enclosure) and Ito reauce the si-9 of tie vortex zone in ths:vioinity of the expansion. Orig. art, --~-~Thass, 2 [041 'none SMUTTMt 22 Feb,64 EXCL-1 01 50 CODE: OTMMi, OD2 ATD P11, ME` nm, s U- V- 3' Ot Cor d   X;.LLY PXU.L.L.LM, UW-U11WL..LU &.LUJLU t ABSTRACT: The flow of mercury in a transverse magnetic field was investigated ex- ~7.' perizentally. The apparatus and methods of measurement are not discussed in detail because they have been previously described in several Latvian publications. The investigation was undertaken in part because of the contrary dependences of flow resistance on the magnetic field, found at low Reynolds numbers by Hartcan and at high Reynolds numbers by Miergatroyd and by Brouillettle and Lykodes. The intern-tdi- ate range of Reynolds numbers was covered by the prazient experiments, aM It van found that when Reynolds number vine 2160 the flow reaistance was independent of ~ e magnetic field ii. tho region of turbulent flo7. In all cases laminar flow set 1h HER  CCESSION, NR, APISO05223 ~A J 2 in at the critical Reynolds number'250M tanhMAM-tanhM), where M is Hartman*s num- her and is proportional to the mignetic field. The difference between the magnetic Tield deWndences of the flow resistance in turbulent Ilow at h_igh and low Rey- nolds numbers is ascribed to the dilforent relative importance of the Hartman ef- fect (flattening of the velocity profile) and the magnetic suppression ef turbu- 3ence i. the two regions. The existence of the Hartman effect was verified direct- ly by velocity profile mensurenents with a modified Pitot tube. The flcmi r'ssistance wra measured at Reynolds numbers from 6690 to 14,900 in snooth and rough channels, and it 13 concluded tnat 'be flow resistance is given with engineering accur-say by Lo(l + f V,21R) , where Lo is the flow resistance at zero field, R is Reynolds number, and f is 2 for smootb walls and of -the order. 10 for very rough wallB. Experiments vere also performed concerning the behavior of tho flow in a channel of which the width changes suddenlyi'and thone are discussed briefly. Orig.art.has: 10 formu- las and 4 figures. [021   L 15650-66 FWT(I)/IiWP(m)/giA(d)/ETC(m)-6 WW ACC NR: AP6003222' SOURCE CODV:-''- UR/0382/6S/000/004/0154/0154 N ~AUTHOR: Branover, G. G.; Shcherbinin MG: none TITLE: The behavior of a stream in a channel with nonconducting walls in a trans- 'verse magnetic field ;SOURCE, Magnitnaya gidrodinamika, no. 4, 196S, IS4, :TOFIC TAGS: plasma flow, plasma magnetic field, plasma injection ~'ABSTRACT: Plane streams of mercury passed into a rectangular channel with insulat-~ ed walls were found to exhibit unusual behavior with the imposition of a transverse: magnetic field. The initial plane stream ceases almost entirely after a very short .'distance and-the entire flow is concentrated in two narrow layers which cling to 11he walls of the channel and are parallel to the magnetic field. This flow struc- :ture is maintained over a considerable distance. A more thorough analysis of this ~phenomenon will be published in a future issue of Magnitnaya gidrodincmika. -SUB CODE: 20/ SUBM DATE: 00/ ORIG REF: 000/ OTH REF: 000 UDC: 538.4 Card 1/1  ~L'24162-66 EWT(m)1EFF(n)-?LM q(t) ijp(c) :.&TDZUZjQ SOURCE -CODE: 'UR/0382/637000/001/0n.5/0122 ACC NM AP6013170 .AUTHORZ Branovert G*-4 Ll&elausi a 09-Ae; 11010dMiMy. P, none TITIE: Experimnts on.a pressure-free loop for linuid pig iron. SOURCE: Mapitnaya gtdraiinamUm. no.'1, 1965 -115_4 TOPIC TAGS: pig iron, molten metal, magnetic field ABSTRACT: By mans of experiments -on a pressure--free loop for liquid Pig iron, the approidmte depend6nee.of the capacity of the euctromagnetic trough on the current load and the angle of rise have been determined. The required current loading has also been found for the start of transit flow. It was shown that the flux in the trough was steady. The loop consisted of a U-shaped channel connected to a bath of liquid metale The metal moved along the loop unler the action of a travelling mg- netic fields Orig, art& has: 5 figures and 10.formulase EJPRJS SUB CODE: .13, 20 SUEM DM: 24sep64 om But 003 Card_ 1/1 JJDCs 5A.4i 669.163.1  ACC NR: AP7000368 SOURCE:eCODE: UR/0413/66/000/C INVENTOR: Kirko, I. M. Bra nove r, G. G Ioffe, B. A.; Saulite, U. A. ORG: none TITLE: Plate-type hermetic pump. Class 59, No.188847. [announced by the Institute of Physics, AN Latvian SSR (Enstitut fiziki AN Latviyakoy SSR17 SOURCE: Izobreteniya, prou7shlennyye obraztsy, tovarnyye znaki, no. 22, 1966, 154 TOPIC TAGS: pump, fluid pump, hydraulic pump .1 ABSTRACT: An Author Certificate has been issued for a plate-type hermetic pump consisting of a pipe-line inductor, plate holders, and plates. To simplify its design, the casing is made in the form of a closed annular duct. To assure its tight closing and for the automatic coupensation of hydraulic-pressure wear on the operating plates' surfaces the plates' external axis of rotation is relative to the plate holder. SUB CODE: 13/ SUBM-DATE: 2bJul64/ Card  124-58-9-9867 Translation from: Referativnyy zhurnal, Mekhanika, 1958, Nr 9, p 57 (USSR) .AUTHOR: B TITLE: Investigation of the Drowning of a Surface Jump (Issledovaniye zatopleniya poverkhnostnogo pryzhka) PERIODICAL: Latv. PSR zinatnu Akad.' vestis, Izv. AN LatvSSR, 1957, Nr 5, pp 131-146 ABSTRACT: A relationship is offered linking the magnitude of the piezo- metric height h0 underneath the high-velocity stream at the point of its take-off from the bucket for the moment of the drowning of the surface jump. The relationship is obtained by applying the law of the quantity of motion to a segment contained between the constricted section on the bucket, the free surface, the section at the point of inflection of the stream, and the bound- ary between the transition stream and the eddy formation. Therein the hydrostatic law is assumed to prevail for the pressure distribution in the section on the bucket and at the point of inflection of the stream; the distance of the point of Card 1/2 inflection from the bucket and the friction force on the boundary  124-58-9-9867 Investigation of the Drowning of a Surface Jump of the transition stream are determined from experimental data. In addition it is assumed that at the moment of drowning the stream will become vertical at the point of inflection, A relationship is.also proposed for the magnitude of the pressure under the stream, ho, and the depth of the tailwater, t2, at the moment of the drowning of the surface jumps this relationship is like- wise obtained through the use of the law of the quantiky of motion. A graph is provided to facilitate the calculations according to the cubic law obtained. Bibliography: 10 references. T. N. Astaficheva 1. Hydrodynamics--USSR 2. Water--Motion 3. Mathematics--Applications Card 2/2  of T) tira. 11 rm LID oclnio~-~ n m  33258 3/668/61/000/012/002/004 B102/B138 .2,?,5-11 AUTHORSt Branover, G. G., Kirko, I. M09 Liyelausis, 0. A. .2 4. TITLE: Experimental study of the influence of a transverse magnetic field on the velocity distribution in a mercury flow SOURCE: Akademiya nauk Latviyskoy SSR. Institut fiziki. Trudy, no. 12. 1961, 167 - 175 TEXT: The hydrodynamic effects in liquid metals in the presence of a transverse magnetic field were studied by means of an Annular channel, shown in section in Fig. 2. Magnetic core and 0coil are designed to pro- vide induction heating of the former up to 150 C whena 50-cPs voltage of 380 v is connected. The ohannel is thus suitable for experiments with H9 and liquid Na. In the space for the actual channel, the H-field is rela- tively uniform, its radial and vertical variations are about 10% and only in about 1 cm of the upper part does H increase strongly. A solenoid current of 40 a induces a field of about 3000 oe. The mercury in the stationary channel was set in motion by a d-c pump. Two 15 cm long copper electrodes (bottom and top electrode) passed a current of up to 200 a Card(~  Experimental study of the ... 3 2 1 - pressure. The velocity diagrams were drawn for 0 H M/Re values between 0.58-10- 3 and 4.1~10_3 (M - BR B mean inductance in the channel O-electrical conductivity of Hg). At low M/Re the diagrams were strongly dependent on the curvature of the channel. The unevenness of the velocities decreased with increasing magne-- tic induction, until constant velocity was established at M/Re (3-4).1o-3. The resist- ance coefficient C V /(~,U2/2) shear- f 0 0 0 33258 S/668/61/000/012/002/004 B102/B136 throuFh the mercury in the channel, transverse to its direction of flow., The velocity distributions were measured for several Reynolds and Hart- mann numbers (Re, M) and the coefficient of resistance (Cf) was determined, A modified Pitot tube was used to measure the ve ocitiesl the velocity could be read from the scale, since U - 13.6 VAh 2 held. 4 h is the increase in water level due to flow Card 2/19:~  S/668/61/000/012/002/004 Experimental study of the B102/B138 ing stress at the wall, UO velocity at axis of flow, ~j - Hg density) 3 was determined between M/Re 0 - 4.4-10- . It was found to vary between .2 and!z:~4 and can be assumed to be constant within the measuring error limits. There are 5 figures and 3 referencesl 1 Soviet and 2 non-Soviet. The reference to the Engli-h-language publication reads as follows: W. Murgatroyd. Philosophical Magazine, AAv 1348v 1953. Card 3/0   L15719,63" ACCESSION NR: AR3002658 served as the working parts-of.the-'device The average depth of the mercury was 4.5 cm. one of the worUng channels was iocated in a constant traneverse.magnetic field with a magnitude of Alp to-1750 gauss. The other served for comparison. The flaw was.pressureless.~ The velocity was varied by the use of a pitot tube.9 the head of which could be placed along.the channel cross section. The average bpeed of flow was -15-20 CM/sec. The Reynolds number R was varied in the experiments from 6680 to 18400 ;a "thVie, dius is the density, R hydraulic ra of the channels ?t Is the'dynamic viscosity). The Hartman numbers M a BRY6-Tit varied from,0 to 41.5 (B ls~the magnetic induction, V.is the conductivity.) Velocity diagrams were meAle for middle depths (distribution of velocity along the cross section of the channel) for.different R's and X's. With increased Hartman numbers tte curves became simpler. The ratio of the velocity at tbe-closest Imepsurable point to the-vall (a distance of.0.175 cm) to-the.velocity at the axis varies from-0.7-0.8 for H'a 0 UP-0 0.97 for M a 29.~ The vertical velocity.ourves do not depend on M. -Thel hydraulic resistance-coefficient is almost independent of the f ield6 The flow In a, channel with rough VaMs vas studied., TU. R" DATE AC SM CODE: PH ENCL: 00 2/2'     U.CKJSU bUM45; VD0 v0pre IMS9=Tjn.. g1QrM]LrARM1%1L I CLUM191 P1aZ12Y* To e.. MIgIsp p 1962p'5,91- AN LatvSM W3 1IMPIC TAGS. ~turbulencep turbulent:transfer, transportp resistancej, turbulent flow, mercury magnetic fieldj, Reynolds nunberp.pulvation, velocit 'TR SrATION: As isAnown the dependence of the valj~e.of the coefficient of -turbulent .resistanci during the flow of liquid metall i an external magnetic the f Ield bitenalty. to LVO - C field on nct~a d ristic of turbulent flow. Lye c rber~ee mas here Is a region cor Reynolds number current wbere gnetic field does not influence the coefficient of realstancep despite the fact that the structure of~ A. the flow varles with We. Thereforejp~it Is of Interest to study the effect of 1/2   ;~ACCESSION NR: AT4o42283 S/0000/63/003/000/0065/0076 A MOM Branover, G.G 101 rk I X.~Gorrespo member AN LatSSR Doctor o ilAti6al IC % 1, pfvsico-mthe U.I'L'.683; V;;1AUJ;i8, 01 ndidate of phyMo~matbema Cal 1 .~scienceo); Tsinober, A. B. JITLE'. Hydraulics of free flows of -liquid metal movitig In channels with an In- iversely sloped bottom under- the Influence of a rotating magnetic field ;SOURCE: Soveshchaniye po teoreticheskoy I prlkladnoy magnitnoy g1drodinarrilks- 3d iga, 1962. Voprosy* magnitnoy gidrodinamiki (Problems In magnetic hydrodynamics): doklady* soveshchaniya, v- 3. Riga, lzd-vo AN LatSSR, 1963, 65-76 JOPIC TAGS: hydromagnetics, liquid metal free flow, ascending flow channel, ro- tating magnetic f ieid, f Ian, chapnel design, f low depth, f low rate, ascending f low i equilibrium, streamlined ascending fl(Y.4, turbulent ascending flow 1ABSTRACT: The authors-analyze the electromagnetic, gravitational, hydraulic drag !and inertial forces acting on a sector of the length of free flovicif a liquid metall ascending along the inversely sloped bottom of an open flow 'channel. After trans- 1 formations, they evolve an equation for the dynamic equilibrium of such flows sinal-kh :dh aq~ Cort)13 ......  CCESSION NR: AT042283 A and find that It coincides for small flow depths with known hydraulic equations for the irre6ular motion of water in wide rectangular channels with a straight bottom gradient. A concept of critical flow depth, at which Fr=1.0, is illustrated and It is shown that the flow is streamlined at h>h and turbulent at Kh - Experimen- cr I r tal verification employed an organic glass channel (see Fig. in t9e Enclosure), 100 cm long and 5 cm wide, and confirmed similarities to turbul2nt water flows, TW effect of the magnetic field proved insignificant in view of M 5:--~0-3-lo-3. it is concluded that the proper design of flow channels should p-rFE-lude the occurrence, 1 of flow turbulence by providing for proper flow depth In addition to a proper rate, of flow. Recommended calculation procedures are Illustrated# Orig. art. has: 37 equations and 6 figures.. ASSOCIATION:' none SUBMITTED: o4Dec63 ENCL: 01 SUB CODE: ME No REF SOV: 002 OTHER: 000 bard 2/3  ACCLSSIM NRI AT4042283 ENCLOSURSt 01 i 4 Fig. 1. Experimental verification unit: I flow channel; 2 rotating magnetic Peld Inductor; 3 1 lquid Hg tank,, 4 - 'receiving tank; 5 - Venturi flow meter; 6 - flow depth Indicators. Card 3/3  Riga, 1962. Voprosy magnitnoy gidrodinamilti (Problems in magnetic hydrodynamics);: dcklady sovenbehaniya, v. 4. Rigs W-vo AN latSSR, 19614, 133-135 -TOPIC TAGS: magnetic hydraulic~-kheory, magnetic hydraulic resistance coefficfent,I i critical resistance coefficient,..magneto^nydrod.vna-,nics, turbulent flow -Simul taneouslir with the, search foil p,- aemiiei'npirical - theory of turbulent ohydr6d one should-establish,empirical computational i,.. magnet yna relationships Vhich- could bea--utfliz:ed:'auilns -tbe desiga'of 1.111M machineb. One such, simple xelationship.-for-.tb6:calculation.of the resistance during turbulent fj;ow t slitsvit _h*driuiicall:~ entoothi walls, may be found by utili- hrou8b.narrow zing- them knmm ~ fact. that jor~,ltbe iabove-mentioned flow the- critic:-!Il value of the IF- resistance to the-:~tiitbulent.laminar,f low transition is I a.-constant~jm,',- 000080- uvjzs:~ In additionj, the expressions for the Re-wawzber !~Card-11'2   -ACCESSION NR: AP5014173' Ft-7 :JJP(r.) -UR/0382/65/000/01/0033/006- 53:1)*4:.532*%2v4 -SJYUB IDV,.! AMOR4. ranvrer., No -16 6, SIm herbinin, E. V. S Rbsultil -of turbulent Vaoc~ty fluctuation mmsureftnts in ME9U trea i _.Prieiiince of, transverse .,magnetic: fleldl,: 1-7 F -ibPi~6TAi~6'-,.--na'gn-stob.Nldr6a aii, -,turbAebt::fIo%?,._Re_yno,1ds number yn.. co-i~l 7777777777.11". ..ABS7RACT.- IWAsitolzetdrMine, ex erimentally tbe`predict~ed . , , : ~ . .1 - - ~ ~ I , P suppi;es S-ion"Of - ~;Fl" w en.a.:najznetic f ield is applied acro -the -streavi -'to firm iffect'61'r them Ii ve The and., con eld~ ion the flow locity profile experi ts e rfo 01 s men v re pe rm;ed:-,4itb.Rern d :numbet- r4nging from 0 to 3,800 an m-n Is. number ran f7~01% - 0 -to 140.i% Turbulence..and flow profile data were obtained- ~Ms:ing a ,,,,,:J~,n constr=.ted prcbio sensitive to dynamic pressures. Turbulence "suppression- vas.'Indf-eated by~dearfatse in-amplituds of velocity fluctuations as the magneticfield~increased Insuffinient data pretluded determination of deepeendeL of the frequency fluctuations -:=tgnetic fieldi - Oriz, art. has: 4 figures. ow  I ElPi L :7 Z _-:7- wo~ TION bh' 0 SUB So vz- - . ' 2 2':;,  - - . . . . . Z . I . 0 , - . - ~, - -~ - 1 -1 .1 - - -- I --,r - - '- - -,:T "t ~ '/ , , , - j -I I -- r pvp(ty/ Wo b)* T 41(rjD-~i P - - - - - __ _Z~~6 ---- ~- .- - . .. . . t :.- , - .- I - I- I  5~;-65- s s ION NR AP 5 6.1410 4 none, - OCIATIO UBMITTZDt' $UB: COM . : IV 7. p  L 26517-66 ELVA (h)/EWT(1)/~WT(m)/r:7C(m)-6 T nzLj ACC N.R,.. AP61D11517 SOURCE CODE: UP/0382/66/boo/003/0103/0"s AUTHOR: Pranaver, G* Go; Myelausisj 0# A.; Shekhter, Ye. Yu. ORG: none TITLE: Ny!kaulic pr1nci es %f determining the parameters of li&uid-metal metering devices with constant input pressure ~SOURCE: M%gnitnaya gidrodinamika,, no. 1, 1966., 103-108 ~TOPIC TAGS: flowmeter., liquid metal., flow measurement, liquid metal pump., mhd flaw ABSTPACT: The authors investigate non-stationary hydraulic processes occurring in a liquid-metal meter with electromagnetic induction pump at constant input pressureo The purpose of the investigation is to permit efficient design of such devices. The operation of the meter is div-1ded Into five states (filling of the working channel of tht pumpjraising the metal vertically., motion of the metal horizontally.. flow of metal with the pump turned onj flow of metal by inertia after the pump is turned, off). The differential equations of flow are written out for each of these stages) and analytic solutions are obtained for the last two stages of the flow. It is shown -that by preparing a set of curves representing numerical solutions of these equations -it becomes possible to choose the proper diameter of the metal pipe and the operating pressurep as well as to estimate -the bydraulic resistance and other losses. Formulas which make it possible to estimate the structural parameters for known pWp charac- teristice are also presented. Orig. ar~* has: 5 figures and 6 formulas. SUBsCIODEv,2D/ :-.SMDATB.': ONM365/ OPIG REP: 003 C6  L 44261-bt WT(1) !IEWT(m)/T I%W/DJ ACC NRs AP6005393 (IV) SOURCE CODE: IJR/0413/66/ooo/ool/0142/0142 INVENTOR: Kirko, 1. M.; Branover, G, G.; loffe, B. A.; Saulite, U. A. ORG: none 3~ TITLE: Hermetically sealedlpiston pumps' Class 59, No. 177778 [announced by the Institute of Physics, Academy of SciencAn. Latvian SSR (Inatitut fizikf Akademii nauk Latviyakoy SSR)j SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no..l, 1966, 142 TOPIC TAGS: piston, pump) ABSTRACT: This Author Certificate introduces a hermetically sealed piston pump containing a inductor, a duct, and pistons. For higher efficiency the pistons are made of electroconductive nonferromagnetic material with a ferromagnetic bushin #placed inside the piston. For ease of constru n, the pump is made with a braking inductor for stopping the pistons in the delivery zone (see Fig. 1), Orig. art. has: 1 figure. 1/2 uDc: 621.65  - 1, Figs I Hermetically sealed I piston pump, 1- BradcLn inductor; 2- conduit; 3- piston; 4- bushing I t. I SUB CODE: 13/ SUBM DATE: 20JuI64 Card MJS (LD]  ACC NRi AP7005436 SOURCE CODE: Uri/(r,82/66/000/002/0130/0134 LIYELAUSIS ,0. A.; LIYELPETER, BOGDANOV, Yu. V.; _P~NQYB 1YA. YAI.; and TANAMAYEV, A. V. ORG: none ~*"Hydraulle Properties of Electromagnetic Pump Ducts; I$' namika. (Magnatohydrodynamies), No. 2, iRIga, Magnitnaya Gidrodl '1966, PP 130-134 I TOPIC TAGS: electromagnetic pump, friction coefficient, hydraulic resistance lAbstraott The flow pattern is studied and.the coefficients of 'hydraulic friotion of electromagnetic pump duct models are de- neglecting the effect of the magnetic field. The effect 'of the shape of the convergent and divergent-parts of the eleo- ,tromagnetic pump duct on the coefficient of friotion Is estimated.' !The duct model investigated consists of a reotang,41ar section 1-with circular Inlet and outlet sections tapering down to the [rectangular duot. Details of the experimental configuration and equipment iare given. Results of measurements are presented in a table. ;Results of the flow pattern study will be presented In a future !paper. The studies were carried out at the Hydroelectric and Hydroengineering ha Laboratory of the Kalinin-Leningrad PoLytechnical Institute. Orig. art. 8: 5 figures and 1 table. [JPRS: 38,7643 SUB GGDE: 20 / SUM DATE; 13Feb66 Card 1/1 UDC: 532.5LM:538.4  i, L-L,06-67 EIMP(n, PG034575 SOURCE CODE: UR/03821661000/0031000310021 AUTHOR: ~ranover, G. G. ; Gellfgat, Yu. M. ; Tsinober, A. B. ORG: noEe TITLE: Turbulent magnetohydrody-namic flows in prismatic and cylindrical tubes SOURCE: Magnitnaya gidrodinamika, no. 3, 1966, 3-21 TOPIC TAGS: turbulent flow, MHD flow, transverse magnetic field, drag coefficient, stress distribution ABSTRACT: The authors review the present state of experimental and semi- empirical investigations of turbulent MHD flows in prismatic and cylindrical tubes. Experimental investigations of flow in a tube with a slit-like cross section placed lengthwise in tile direction of the transverse magnetic field as well as a semi- empirical analysis of two-dimensional flows in the transverse field are discussed. For these two-dimensional flows several variants of the semiempirical theory are proposed for reference functions permitting the calcul4tion of the drag coefficient, the average speed curve and the distribution of stress Mf the turbulent friction.,, A Orig. art. has: 5 figures and 21 formulas. [Based on authors' abstract) SUB CODE: 20/SUBM DATE: 22Apr66/ORIG REF: 032/OTH REF: 052/ Card I/ 1,,, 0, UDC: 538. 4  7 bre-FOAm -vanadium, znd' tun?.~---- -bllGv;I U11 - 111 - ~4 ZhUr l ~It )i 2 ., . 3. - ; , jl 1 i -I'll -lik Co jrvAtIc s - 1u 3-7 1.71V and V(V) it, , WWI qt ir~5A' 11-F4),. Nlttaliic Pb rMuct-I %V(VI) in . :ilw; TIw mIuction is ~qc- b.- 1103 wA C O i'*M)l!';h-0 Ili x'; f-701narv W(I-slk iloqlpitlF fullyid, and tile 11 ~Jcldz vh-~1311y: for SIM111 ............ .  - - - - __ - )~~' Z' - C ~ '~. , ''7 BRAHOUTS, P. (Minsk), Active assistance of Party and Soviet organizations. Pozh. delo 4 no,W 1 158. (KM 126.1) (Grodno Province-fire prevention)  BRMWETS,E,Mpsk) Forging of speeWists. Pozh.delo 8 no.I'Z7-28 Ja '62. (MIRA lr-:1) (Fire prevention--Study and teaching)  Surgery HUNGArY _BRANOVICS.,_ Las z I o ,_Pr., IHASZ, Mihaly, Dr., and FUSY, Jozsef, Dr., Second Surgical Clinic at the University for Medical Sciences (Orvos- tudomanyi Egyetem, II. Sebeszeti Klinika) in Budapest (Director: MESTERP Endre., Dr.). "Liver Echinococcus Cured by Hepatolobectomy" Budapest, Orvosi Hetilap Vol 107, No 29, 17 Jun 1966, pp 1363-1364. Abstract: The hepatolobectomy operation of a 54-year old female patient suffering from primary liver tumor was described in full detail. Owing to the echinococcus hepatis an atypical hepatolobectomy was performed on the left side. 7be operation resulted in the removal of a cys!- lo- oated in the right lobe of the liver. Pneumothorax in the right chest cavity and exudation was observed in the postoperative period; these were successfully treated. The patient recovered fully. 19 re- ferences, including 10 Hungarian) 2 German) and 7 Western. 1/1  BRANOVITSER, Zigmund (Varshava) Health of tha population of Poland. Sov. zdrav. 20 no.6:81-88 161. (MIRA 14:7) 1. Direktor Departamenta meditsinskoy statistiki Ministerstva zdravookhraneniya i sotsiallnogo obe6~echeniya Pol'skoy Narodnoy Respubliki. (POLAND-PUBLIC HFALTH--STATISTICS)  t:- 1/-, 'j. S/021/62/000/004/009/012 D299/1502 AUTHORS: Bakayev, 0.0.1,Branovytalkat Mikhalevychp V.S., and Shorl N.Z# TITLE; Determining characteristics of a transportation net- work by the mothod of auccessive analysis of variants PERIODICAL: Akademiya nauk UkrRSR. *Dopovidi, no. 4, 1962, 469-472 T-EM: A method is proposed for the automatic compilation of tablesp used in the economics of transportation, and their insertion in a digital computer. Thereby a procedure was developed for analysis of a transportation network, so as to determine the characteristics (distance between terminals, transportation costs, etc.). The propo- sed method results in great economy of time (severa-l.hundredfold), the exclusion of errors, and the possibility of setting up matrices (Itcheekerboards") of practically unlimited size. In the networkv, the following points are determined: The transportation centers, the distance between neighboring pointst the transportation cost per Ion between neighboring points, as well as the production and con- sumption points and the corresponding volume of product on and con- Card 1/3  S/021/62/000/004/009/012 Determining characteristics of a D299/D302 swnption. These data are inseriedl together with the program of net- work analysis, into the memory of the digital computer. The algori- thm ensures obtainin- The shoriest distances between points (or choapesi cost). The results are sorted in external memory of the computer, so that it is possible to proceed directly to solving the main transportation problem. Mathematically, the problem is formula- ted as follows: Let an infinite set of points t 1' t2f ... I tn be gi- ven. Por certain ordered pair of these points, one determines the distance between them. An ordered set of points is called chain, if for each pair of points, belonging to it, the distance has been de- termined. Novi the problem amounts to the determining (among all the possible chainsp connecting 2 given points), the chain to which the distance is minimal. Such a chain is called opTimal. The algorithm for solving the problem is based on the method of successive analy- sis of variantsp developed at the Computer Center of the AS UkrRSR; thereby the shortest distances form a given point to all the other points of the chain are determined simultaneously. The parameters of optimal chains are stored for further analysis, whereas those of non-Optinal ones are rejected. The algorithm is described by means Card 2/3  S/021/62/000/004/009/012 Determining characteristics of a ... D299/D302 of 5 tables. The operation of the algorithm is schematically repre- sented; thereby it becomes evident that the algorithm is convergent. It is noted that the computation time for a "checlr-lerboard" of 100 x 100, does not exceed 12 minutes on the "Kiyev" digital coi-.qputer. T,,Iae above algorithm can. be used for various transportation problems; division of viork between different types of transportation, distri- bution of products in regions of consumption (transportation and production costs being taken into account), location of industries, etc. There are 1 figure, 1 table and 3 Soviet-bloc references. ASSOCIATION: Obchyslyuval'nyy tsentr AN URSR (Computer Center of the AS UkrRSR) PRESENTED: by Academician V.M. Hlushkov AS UkrRSR SUBMITTED: August 30, 1961 Card 3/3  -BAKAYEV, A.A. [Bakaiev, 0.0, MOVIT~SKVAYA. S Branovytstka, S.V.3; Snoa a1evM MIKHALEVICH, V.S. Mikhalevych, V.s. snoij, 1j.Z. ych .S Determining the characteristics of a transportation system'by the method of successive analysis of variants. Dop. AN URSR no.0469-472 162. (MIRA 15:5) 1. Vychislitellnyy tsentr AN USSR. Predstavleno akademikom AN USSR V.M.Glusbkovym-[HIushkov, V.M.]. (Automation) (Electronic digital computers)  BRANOVITSKAYA, V. P., Cand Chem Sci - (diss) "Synthesis of bis- chlorethylazine derivatives in the thiazole series." MOB, 1958. 11 pp (Acad Red SAL USSR& Inst of Experimental Pathology and Therapy of Cancer), 120 copies (KL, 17-58, 105)  "zV%1VVV.L10A_U3 m. L, "Experiment in the Growing of Timber on the Steppes and the Cultivation of Technical Species on the Tikhorets Tree Farm of Krasnodarskiy Kray.11 Cand Agr Sci, Leningrad Order of Lenin Forestry Engineering Academy imeni S. M. Kirov, I-Lin Higher Education USSR, Lenin- grad, 1955. (KL, No 16, Apr 55) SO: Sm. No. 704, 2 Nov 55 - Survey of Scientific and Teohnical Dissertations Defended at USSR Higher Educational Institutions (16).  BRANOVITSKIY, M.L. Sections for seed production at experimental and training forest working circles. Nauch. trudy LTA no;99:79-EV+ 162. (MIRA 17:1)  BRANTOVSKIY, M. A. "Instruments and Methods of Measuring the Vibration of Steam-Turbine Units." Sub 20 Jun 51, All-Union Crder of the Labor Red Banner Heat Engineering Scl Res Inst imeni F. E. Dzerzhinskiy Dissertations presented for science and engineering degrees in Moscow during 1951. SO: Sum. WO. 480, 0. May 55  AID P - 705 Subject USSR/Bleotricity Card 1/1 Pub. 29 - 16/18 Authors Kislyy, V. I. and Branovskiy, M. A. Title Centering of floor-level turbines Periodical Energetik, 8, 35-36, Ag 1954 Abstract In reply to a reader's question, V. I. Kislyy briefly describes a method of centering low-capacity turbines mounted without a pit. M. A. Branovskiy gives a brief reply to a reader's question concerning the use of an improved vibrometer. Institution t None Submitted : No date  Subject Card 1/2 Authors Title AID P 1.379 USSR/Electricity Pub. 26 - 6/30 Abashidze, A. I., and Branovskiy, M. A., Kands of Tech. Sci. Periodical Abstract The performance of turbine foundation frame- structures under dynamic load. Elek. Sta., 2, 18-25, F 1955 The authors performed a series of tests with eight types of turbine foundations, mostl of which were built between 1947 and1949 (one was built-in 1933 and another in 1936). The aim of the.'tests was to study the character of vibrAtions of the foundation as a whole and of its separate parts, and, in particular, to  Elek. Sta., 2, 18-25, F 1955 AID P - 1379 6ard 2/2 Pub. 26 - 6/3o determine the speed resonance of the system: turbine and foundation. The author graphically represents the eight types of frames, presents diagrams of the shape of vibrations, and gives a table of numerical data of the results of the tests. 2 tables, 5 diagrams. Institution: None Submitted No date  BRANOV___._ Ludidat tekhnicheskikh nauk; KISLYY, V.I., inzhener. Correction of vibrations in turbine Installations. glek.sta. 27 n0-3:25-31 Mr 156. (Km 9:8) (Turbines--Vibration)  S/104/60/000/010/003/003 E194/E255 AUTHOR: .Ilranovskiy, 14. A., Candidate of Technical Sciences TITLE: Instrument Type UVIn-5(BIP-5) for Studying the Vibration of Machines and for Dynamic Balancing of Rotors PERIODICAL: Elektricheskiye stantsii, 1960, No. 10, pp. 47-51 TEXT; The requirements applicable to instruments for measuring vibration of large turbo-alternators are enumerated and it is claimed they are met by vibration measuring instrument type BIP-5. This instrument was developed under the guidance of the author in the Central Design Office of MSES, with the participation of Engineer V. I. Petrovich, Engineer V. M. Sablukov and Senior Technician 1. R. Tikhomirov. It is an improved version of instrument 16017-1p(BIP-4), and series production is now being undertaken by 'Rostovenergoremont'. The instrument BIP-5 is intended for study of the vibration of machines and for dynamic balancing of rotors running in the speed range of 900-12000 r.p.m. It can measure amplitude of displacement, speed and acceleration of linear components of oscillatory motion in any direction. It can also measure frequency of oscillation, phase displacement and wave Card 1/9  S/104/60/000/010/003/003 E194/E255 Instrument Type BIP-5 for Studying the Vibration of Machines and for Dynamic Balancing of Rotors shape. The equipment works as follows. An electro-dynamic vibration pick-up is placed in contact with the vibrating object. The e.m.f. of the pick-up is applied to the measuring unit, which can accept the output of either of two pick-ups. The pick-up e.mof. is proportional to the rate of vibration, and is thus a measure of displacement or acceleration of oscillatory motion. This e.m.f. is integrated or differentiated by appropriate circuits in the measuring unit. A system of four filters separates the fundamental and harmonies in rotor-balancing operations, and can also separate low-frequency components. A pointer-type instrument is connected to the output of the filters, and a cathode-ray tube displays the wave shape of the oscillation. A built-in calibration and checking device is provided. Phase displacement of the vibration may be measured in one of three ways: (1) by a selsyn circuit consisting of a phase pick-up and phase-meter; (2) by a selsyn circuit in which the stator of the synchronous machine under test is used as phase pick-up or (3) stroboscopically. Fig. 2 shows the circuit Card 2/9  S/104/60/000/010/003/003 E194/E255 Instrument Type BIP-5 for Studying the Vibration of Machines and for Dynamic Balancing of Rotors Used in measuring the phase displacement of the vibration: (1) is a bearing, (2) a machine rotor, (3) the vibration pick-up and (4) phase pick (5) the cathode-ray tube, (6) the screen, (7) a -UPI k scale and (8) a phase-meter. A selsyn built into the measuring unit serves as a phase-meter. As the machine rotor turns, an alternating sinusoidal voltage with a frequency corresponding to the rotor speed is induced in the wi:ndings of the phase pick-up. The phase voltage in each winding of the selsyn is displaced by a constant angle relative to the phase of rotation of the machine rotor. Consequently, there is a constant phase displacement between the rotating rotor and the rotating magnetic field of the phase-meter stator. Moreover, the e.m.f. of the pick-up is displaced by a constant angle relative to the phase of the measured vibration. Change in phase of the bearing vibration relative to the rotor rotation, which might be caused by a change in the angular position of rotor out-of-balance, does not alter the phase of rotation of the rotor. Consequently, the phase-meter rotor must Card 3/9  S/104/60/000/010/003/003 E194/E255 Instrument Type BIP-5 for Studying the Vibration of Machines and for Dynamic Balancing of Rotors be turned in order to bring the pick-up voltage into phase with the phase-meter, and the angle through which it is turned indicates the phase displacement of the vibration measured. To use the synchron- ous machine itself as phase pick-up, the three phases of the stator are connected to the three terminals of the phase-meter stator. Measurement of phase displacement takes place as before. The full selsyn circuit may be used for measuring the phase displacement of vibration in any machine with a rotating rotor under any conditions. Synchronous machines can be used as phase pick-ups if they run at 3000 r.p.m. but otherwise their phase displacement of vibration must be measured stroboscopically. For this purpose a mark-on the rotor is observed by a gas discharge lamp whose moment of ignition depends on the phase of the vibration pick-up e.m.f. When the vibration phase alters it alters the phase of the pick-up e.m.f. and the observed mark on the rotor is displaced by an angle corresponding to the displacement in the phase of vibration. The construction of the instrument is described. Its overall dimensions Card 4/9  S/104/60/000/010/003/003 E194/E255 Instrument Type BIP-5 for StudyinG the Vibration of Plachines and for Dynamic Balancing of Rotors are 430 X 175 x 320 mm and it weighs 12 kilograms. The separate Pic unit weighs 1 kg, and is an electro-dynamic seismic type BAV(VD-4M) illustrated diagrammatically in Fig. 4. Here 1 is an annular magnet, 2 the core, 3 a pole piece, 4 the main winding, 5 a damper winding, 6 a counter-induction winding, 7 a spring and 8 a stop to limit travel or to prevent damage in transport. The frequency and phase characteristics of the instrument in measuring amplitude of displacement wihout filters are given in Fig. 5, The x axis is the frequency in cycles per second, the left-hand y axis is microns displacement and the right-hand y axis angular displacement. Within the frequency range of 15 to 200 c/s the range of the instrument is as follows: amplitude of displacement 5-1000 microns; rate of displacement 0-5 to 300 mm/sec; and acceleration of displacement 0.1-8 g. The error in measurement of amplitude is �10% and in measurement of speed and acceleration 11501o. Experience in using the equipment is briefly described. It was successfully used to investigate the causes of vibration in Card 5/9.  S/104/60/000/010/003/003 E194/E255 Instrument Type BIP-5 for Studying the Vibration of Machines and for Dynamic Balancing of Rotors four 50 MW9 3000 rap.m . turbo-alternators. Low-frequency oscillations (19 c1s) of the alternator were found and were shown to be due to instability of the rotor on the bearing oil films. The second critical speed of the rotor was found to coincide with the running speed. The rotors of three alternators were balanced on site; the work was difficult because the running and critical speeds were close together and it was necessary to balance the machine under load. The instrument is robust and can be trans- ported without damage. There are 5 figures and 1 table. Card 6/9  s/lo4/6b/ooo/olO/003/003 E194/E255 Instriunent Type BIP-5 for Studying the Vibration of Machines and for Dvnamic Balancing of Rotors Card 7/9 P.-c. 2. Cxema H3MePCHItR Ipa3U 810paLLHIE. i flOAMMUNK; 2- POTOP MAM"HU; 3-SOPGAMUK; i-0305MA AaT- '111K. 5-3ACXTPOHHO-AY4ehfiQ TOY694. d-vxp~n; 7-tuxaaa; $-(~&30meTp.  S/104/60/000/010/003/003 E194/E255 Instrument Type BIP-5 for Studying the Vibration of Machines and for Dynamic,Balancing of Rotors Fig. 5 50 .0 q0 - .30 b 20 of 101' 20 0 n IOU 12OZ14 I X-h?aXICj)IfCTIIKI1 PlIC- 5. 41ICTOT118H It 4143011.1H npH6opa BP111-5 no CM0110111k) 41 +l1. I I.T PDII. Card 9/9  IORISH, Yu.I.; ANTSYFEROV, M.S., kand. fiz.-mat. nauky retsenzent; V-RhVQY$YZY,-,M,A,,-- kand. tekhn.nauk; red.; BRATAIIOVSYJV-, V.A., red.; BYKIiOVSYIIY, I.I., inzh., red.; VASILIYEVA, R.V., inzh., red.; KORITYSSKIY, Ya.I., kand. tekhn. nauk2 red.; KUSHULI, M.Ya., doktor tekhn. nauk, red.; PEVZIIER, L.A., inzh., red.; SHMELEV, V.A., kand. tekhn. nauk, red.; HYMITSKAYA, V.V., red.izd-va; UVAROVA, A.F., tekhn. red. lVibrometry; measurement of vibrations and shocks, general theory, methods and devices] Vibriometriia; izmerenie vibra- tsii i udarov. Obshchaia teoriial metody i pribory. Izd.e'-., perer. i dop. Moskva, Mashgiz, 1963. 771 p. (MIlU 17:2)  BRANOVSKIY MIOA.,, kand. tekhn. ns4ukj SIVKOV, A.?., inzh. I -Y, R14mination of the thermal unbalance of rotors with forced cooling of the windings. Elek,sta, 35 no,gi38-43 S 164- (MIRA 18%1)  Mt (Branowicert Z.) (varohava) Public health in the Polish People's Repablic in the light of medical statistics* Sov.zdrav. 19 no.10tlB-22 160. (MIRA 1411) 1. DirektQr iepartments meditsinakoy statiatiki Ministeretva zdra- vookhraneniye i w3tsiallnogo obespeaheniya Pollskoy Narodnoy I Respublikii- 41 .(POIAND-rPUPLIC HFALTH--STATISTICS)  t-r-1 ct9 Ail 00 ,g Wom"WO 5 it it a I? is it P) VA -,1 2-3 it A - 1% V 1: it U 18 it in 0 IMprovemast of workilig co"tions in roduction of hydrochloric add and "win sulfate. Th.*711ramsbwC S4nit. Hygiene Inst.). Itud T. S. Kamclutrov (%towow . i Samit. It. No. 7 A 214 .36(1"O.-The mgkrcr~ of mitAmintition and IMLAIrl Art' unsilymi and twom- tursidAtions given for twttrr contmi of the vrntilAting svstcln%. 110cill Guloff ago -00 goo logo 13*0 t:o* tit 0 UTFIATOt 4m.,.4 -3 -Tin U U_ AV so U 0 PW frevirow4c $[4 gist 'it a rt it at RW A 1 1" a * a * 0 * 0 goo 00 0 00.000 6 co 000600 6 0 0 0 0 0 0 0 a 0 0 A me 0:0 a0000100 goo go 0,00000 0 0  BRANSBURG 0, Only two years have passed... Prom.koop. 14 no.1:32 Ja 16o. (mM 13:5) 1. Tekhnoruk. arteli "Progress," Vitebsk. (Vitebsk--Physically handicapped--Rehabilitation) 1\  1 --:7 )4t Z 1: - v%gect of ~~aj~ ect vii rdyie tu Ole - l a an powdered ftjkV. Pbnu" - Ydw DST vd, C oi j vw' p tlul3esl at to IQ i~itli ii arical ell .. . dnh~ The 120 g,&-, . 80 vind HiWi %Ylth a t.d. of 16, frution. of lage itirtirles fr6ia 160 W 00 ificreakd tvith T a lr6ifi Oj% at SW4.0-m. to 43' %D-at 22W ~