SCIENTIFIC ABSTRACT KRUPAUER, K. - KRUPENIKOV, I.A.

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SCIENTIFIC ABSTRACT
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E. I 1 /-7LC: Lr CZECH03LOVAKIA Chemical Technology, Chemical Products H and Their Application, Part 2. - Cer- amiosj Glass, Binders# Concretes. - Glass. Abs Jour: Ref Zhur-Khimiyal No lap 1958, 61730. Author ! Inst : Not given. Title : Contribution to Question of Studying Mechanical Properties and Thermal Stability of Sight Glasses. Orig Pub: Chem prumysl, 1957, 7, No 11, 607 - 609. Abstract: A study of mechanical properties of flat round sight glasses (G) 215, 265 and 315 cm in dia. depending on the pressure (1 to 7 atm) and thickness (8 to 20 mm) and of their thermal sta- bility at heating and rapid cooling visa carried out. Their chemical composition was (by weight): Card 1/3 CZECHOSLOVAKIA / Chemical Technology, Chemical Products H and Their Application, Part 2. - Cer- amics, Glass, Binders, Concretes. - Glass. Abs jour; Ref Zhur-KhimiYdp No 18, 1958, 61730. 0 035%, Abstract: S102 73.7%, A1208 - 0 '83%, Fe203 O__ ia.02%, Cao 6.4%, KgO 04%, Na2O ~ K2 6%. The so 0.220/fos Cl - 0:1% and As20 - 0* roRnd G-s were prel minarily cheRked with a pol- ariscoPe in order to establish whether the stress- es were distributed uniformly in them, after which they were fastened in rubber rings and water was pumped with a hand operated piaton pump increasing the pressure at the rate of 4 atm. per min. until cracks appeared in the glass. The experimental results were plotted nass graphs with coordinates pressure and G thick es (at a constant diameter ; the following depondenole was CZECHOSLOVAKIA / Chemical Technology, Chemical rroducts it and Their Application, Part 2, - Cer- amics, Glass, Binders, Concretes. - Glass. Abs aour: Ref Zhur-Khimiya, No 18, 1958, 617.30. Abstract: derived: dis z 200 / 160 (1.5 - t)2, where t is the thickness of the glass within the range from 0 to 1.5 cm. The mechanical strength of glasses decreases with the Increase of their diameter. The test of the thermal stability showed that the glasses stand temperature shocks of 45 r 50 without breaking down; the admissible rate of heating depends on the G thickness: it is 120 per min. at 8 mm thickness and 20 per min. at 20 mm thickness. Card 3/3 KRUFAUER, Vladimir, iliz., CSc. Research on flab culturo In the seven-year plan. Vent ust zemedel 10 ro.10/n:408-410 163. 1. Vyzku=y ustav rybdroky a hydrologick7, Vodnany. DARONYANO S.; ICHMHANOV, L. Aftal Award of the M.V.Iouonosov prizes for 1953. Vest.Mook.un.8 no.9:171 S '53. (MLBA 6:11) (Moscow University--Prizes) ACCESSIO11,11 N'R: A24022900 S/01UN/000/003/0179/dM AVIMOI~S: Xrupchatriikov, L. S.; Tseytlin, V. 2. TITILL: Influence of surface cold working on the heat resistance of chromium nickel SUOY SOUKE: IVUZ. Chernaya matallurgiyas no. 3, 1964) 179-184 TOM TAGS: chror-dum nickel alloy, alloy E1617., cold worki,%-, heat resistance,, tensile strongth, i3othormal hardnoso ductility ABMUCT: This investiption of the inl7luenoe oxerted by cold working on the heat resistxncu of chroniuni-nick.-il al3oy Z1617 was undez-'WCcon in order to varify and e*and the oxistina data. Cold work was applied by tho ball-4--apact method described by Y,. 1. Kuzz I min (' Torj%y method otdolki povcrI,-L',:,.oo' i *d rtaley r"',-Irpy,;eraniye.-a, listok 11. IL~4, 1952. VsasoyUZnoya po rasprostranoniyu politichaskikh, i nauchrV--~ka znzrdy). FIat% and cylindrical samples ware tested oi a ravolvin'ry tablee By mcasarinr, tl~o hardnes3 on an oblique section, the dej)th oZ c.:~ld work :L=Cluonce was doter;zinod to ba 0.9-1.0 =. Surface I=rdness CQ1611143 ACCESSION NIR: -A24022900 exceeded core hardness by Ll.W3 and diminished with depth. The degree of cold work- effect on the cylindrical saraples was detorminod as the ratiof VoltMe (after cold work)/Volu.me (original) - 0.77. RosiduU compressive surface stres.-os produce-d by cold working were measured to be 51 kp~=,? by the mothod of 1,11. N. Davidor-kov (Zh7VF, vy%p. 1). The process of cold wor?ing -I zo produced s1, lines in the metal 1931 structure. Tho samples were heaved isothermally and hold at, temperatures of 600- 10000 for 100 hours. Somo residual stresses persisted, even ;2ter 100 hours a. 8XC. Slip lines began to diminish at BOCC and disappeared at higher temperatures. Phase separation along grain boundaries bece a moro intense as tho ti;no of expo=6 to high tempera-:,uras was increased. The tl-dcknoss of the hardened metal was not affoo-vad by treatment at 600C, but diminished greatly at 900C. After 100 hours at" 10OCC the hardness was uniform throughout the sxmple. The proLTossivo diminution of hardnezs wita increase, of temneraLure is si-io-wn, on Fig. 1 of the !enclosures. Cylindrical samples, 8 =, in diameter and 40 z,= lon,.-, were investi'vated for their tensile st.-ength, one part being to-c'"d in t he ori'rinal condition and another after cold wor,':ing. Znperimonts were con~-a(;ted at 6W, 700: 8W, and 900C. T.-Ir-e-to- failure and ductility (necldng) were recorded. 11-1 deter-ained that cold world-ng slielittly lowers the strength of this alloy, as camin in Fig. 2 of the Enclosures* C01315 vL022900 Ti'O influence Of re pronounced; but diminished ,cold working or. tho duc-.ility is mo be, eon.-tho tom,)oraturo and nocking is at hi-Ohar The relation tw presented in Fig, 3 of the Enclosures. Orig. art. has: 8 fiauress t..F,SOCj).TION: Ivoskovskiy institut olaktronnoco masi-dnostroyaniya (YO3001-4 In-stitutO of Electronic Machine Construction) SUB,CTLED: 22APr6l DATE kCQ: IOkpr64 ENCL: 02 M CODE: III No Ra sov: oo5 CTIER: 000 -Card 315 4301-66 ' ~WMACC GWI ACCESSION NRi AT5022877 UR/278 0 is a (X, Y, Z) z' + (a sin a 2a (0 + 1) )cOtp Z14, + -1~7 ~qje v (X, yo Z) 0- 0'101 + I)cO3 az - (it - 1) sin azi e n2 + i where (a. - it f (-X, Y), b Y) tot a Card 3/8- L 1001-66 ACCESSION NR: AT50228V Tbd - d1men-mionleas parameters a and 4, are related to the turbulent layer thick- ness 2H by the equations (X,A M Y TF (a? + 1) 1 + (I -~TWDAI in aH The function f(x, y) in related to m and n as plotted in Figure 1 on the Enclo-,,, sure, where the parametric curve'i correspond to variations of xand y. Further curves are plotted to indicate the variation of turbulance coefficient with flx, y) and M. Figure 2 on the Enclosure is a three-dimonsional-.plot of the parameter variation in the x-y plane. orig. art. hast 3 figures and 6 equationsi ASSOCIATIONt Toontraltnaya aerologichookayn observatoriya (Con,tral-Aorological Observato SUBMITTEDs 00 ENCL: 04 SUB COIZ: ES 110 REF SOVt 004 OTHERt 000 Card 4/8 L 1001-66 ACCESSION RRi AT5(Q28W tie .!----Card 5,18. 100 ENCLOSURE: 01 Fig. 1. Variation of dimensionless param-). eters m and n with -the number H and the function f(x, yj; iL.001-66, ACCESSION HR% AT5022877 ENCLOSUREj 02 Card 6/8 T L 43ol-66 ACCESSION NRs AT50228" from card 6/8 K f, 0 b ENCIDSUREi 03 IM Z00 JOO 400 500M to card 8/8 Card 7/8 L 4301-66 ACCESSION Ro AT50228V from card 7/8 cl A' Card 8/8' ENCLOSURE 1 04 0 4 ~- r,6 0- 0-- V1001'.0o tool 00 00W 00 ve AV Y Fig. 2. Spatial dietribution of the turbulent layer H(a), the turbu-; larloefficient k(b), and the wind gust o (c) C NRi AIY)015757 SOURCH CCDK: UiVOO,if3/(;(3/0.30/005/0754/0757 AUT11OR: Yqrts1ior,V.4_; qq!~liri&,V.E!; 2;en2v K.; Kru22hntkin,V.D.; Solov'yov,A.M.; Toporkov,S.A.; Ustimonko V.V. ORG: none TITIX%: An x-ray microanalyzer featuring recording without a crystal fiteport, Fifth All-Union Conference on Electron Microscopy hold in Sur3y 6-8 July 196V SOURCE: AN SSSR. Izvestiya. Seriya fizicheskaya, v. 30, no* 5, 1966, 754-757 TOPIC TAGS: x ray analysis, proportional counter, special purpose computer ABSTRACT: An X-ray micronnnlyzor is described in which the x rays are recorded direct 1y with n proportional counter without the use of a crystal diffraction X-ray spectro- motor. This typc of recording has the advantages of simplicity and high sensitivity, and the disndvantage of low resolving power. The oloctron-optical system of the in- struniont provides a 3-5 p diameter probe with a current of about 1 VA. Adjustment Is fncilitated by an optical microscope with a resolution of 3p and a working distance of 19 mm, which can be focused by means of a lover without breaking the vacuum. Type CIV-1 sealed off proportional counters as well as flow-typo counters have been employ- ed with this instrument. These counters with their associated cIrcuitB cannot reqo1ve the K lines of neighboring elements. When the concentrations of neighboring elements 7 _-L 3611j;A__~16 -, - - __ - _-, - ACC NR, Xi015757 '19 to be determined, the counting rate versus pulse hei&t curve is resolved mathomat Ically into three curves, each representing the contribution of one of throe nelglibo~ :Lng elements. This resolution is effected automatically by a c(Anputing circuit, the operating principle of which in described and is based on n modification of the toch- niquo proposed by R.M.Dolby (Proc. Phys. Sec. , 73 61 (1959)). The error in detemin- ing concentrations of neighboring elements is about 20 %; this large error is due to the long time required for the determination (at least 40 minutes) together with the instability of the proportional counter, the amplifier, and the differential discrimi- nators. When the elements to be determined differ in atomic number by more than 4 or 5 units the different K lines are directly resolved and the error of the determination is not more than 5 %, Under these conditions the computing circuit can be used as a three-channel pulse analyzer for the simultaneous recording of the K line Intensities of throe different elements. Orig. art. has: 3 formulas and 5 figures. SUB CODE: 20/ SUIN DA79: 00/ ORIG REF: 000/ OrH RM 005 KRUPCHATMIXOV. VA. Use of multispeed electric motors in ventilating installations. Yod. i ean. tekh. no.12:30-32 D '58- (KIRA 11:12) (Blectric motors) (Ventilation) Calculation of hosting apparatus In single-pipe heating syltem with closing sections for operation with superheated water. Vode I san. tekho no~9:24r29 8 160a (MML 13 11-1) (Not-water heating) !ev, KRUPCIIATI,'IKOV, V.M. Use of froth air vaahers in air-conditioning installations. Vod. i san. tekh. no.5125-29 My 161. (MMA U 6) (Air conditioning) 13-a K E7, 1 c:r3.76 1,,.ray lnv~ c tfith radioact-livs anbstanc"6 Ir 7 3 i 9-ief irdormation an rudloactive aubgtancws rind tn(Ir effrct on tho ar L/2 2 r ~;l v en t, L f-I r a rr I 163 12 ACCESSION NRt AT4038393 5/2789/64/000/054/0074/0079 AUTHORI Krupchatnikovaj,_.7.! TITLE: Turbulence in the vicinity of Jet streams SOURCEt Teentral'nayn aerologichaskaya observatoriya. Trudy* n0# 54, 1964. Atmosfernaya turbulentnost' (Atmospheric turbulence)! 74-79.. TOPIC TAGS: atmospheric turbulence, jet stream, vertical wind profile, turbulent layer. jet stream turbulence ABSTRACT: The article describes the results of a theoretic 1 study of the turbulence characteristics of 'a jet stre.%m. Thais work is based on previous studies by Laykhtman and others and on the formulas they derived. Their principal assumptions are that the geostrophic wind is a function of altitude, that the coeffi- cient of turbulent exchange k varies exponentially in the vertical plane of the jot stream, and that the stream,is narrow. Formulas Card 1/3 ACCESSION NRs AT4038393 arii'derived from which the vertical profile can be plotted and the thickness of the turbulent layer relative to the jet stream axis determined. Wind velocity profiles constructed with these formulas for the case when the coefficient of turbulent exchange close to the jet stream axis was 250 mZ/sec and the vertical,, change in stream velocity with height was 0, 1/500, and 1/1000, showed that wind profiles differ significantly, depending on whether or not the turbulent exchange coefficient is variable or constant. The author thanks Professor D. L, Laykhtman for guLd- ance in carrying out this work. OrLg. art, hasi 15 formulas an 'd I figure. ASSOCIATION: none SUBHITTED: 00 DATE ACQ: IlJun64 CUCLt 01 SUB CODE: GS- NO REP SOVt 003 OT11ZR:- 000 2/3 LOSURES 01 ACCESSION KRI AT4038393 ENC toffee, Fig* 1. Wind velocity profiles.in jet stream, with Ko 250 m2/sec and different valuee of /LOOOi 3 0 1/500. 04 tard 3/3 CHIRNOVA, V.S.; KMIYXMO, V-1,; GOLIDINOV, A.I.; KRUPCHOSYly, A-A-; RvKO. P. N. 'Design of a. two-way pressure-typs, mechanical filter for the purIf1catIon of wter in mter-cond1gloning, units in electric power plants. SupZestion by T.S. Chernov and others. Pron.anarg.11 no.12:16-17 D '56. (HLRA 10:1) (Food-water purifIcAtion) (Filters 4nd filtration) T "IT, oro'kinon 3oncernin-, the :-t,ir in *.Ioctric 1!ower :11tntv (Vo~-ro-;,! vo,I,~ufo rir-.hima 3!_e*.-,t.-).,.-tt.nt3Iy) "onfe.,-ences in t~ie instiute of io-.-;er -;ri-ineering ( oveshc:ianiya v U:') I C.A L Ventilk ;.kademii n.,,uk 2v' R, 195C, ::r 117-119 (US-M) AR;TRACT: -'ron Yay 26 to !."ay 28 jq ncientific technictA neetinr was . held by the Komissi,,a J-t!rr, vy!3okikl,. w,:-.rrt,:etrov Pri Ener~;eti- . a.'G. ;'. 17r-_h.;-.hP_novs.-.oEo (O;n~-ittee for ahev%om institute i; I'ligh Yrc-!Esure 'A"en pem. t tire te-..n ol" the 1-oter ."'n.rineering Institute imeni G. M. Krzitizhanovakiy). :problems of water conditions -.nd water treatment wor ~ de,_It with Ps well as the guarantee of the purity of atcam in atomic power'plants 'Repronentutiv6s of' academic ~,nd branch inotituten as well as of universities and other interested orgt.nizations nj-rticipat- ed in the conference. it wt..9 fjiind V,.zA Veqe problems have hitherto not carefully cnou-7h bt-en dealt with. 'Aie investi- gation of thermo-:physical r.,nd -hytiico-c',temical processes Card 1/ 3 w'licl, take place in atomic ro-?.,(.-r plants ia regard-A as a x'robleme r"oncerninp, ~he -rter 0' -.ndjtionv in '~,Iectric . ower Pli,nt,---. Con- ferenccs in the Tnetitilte of Po-,Pr ' n4jneering Card 2/13 .vAn yroblnm of re-3enrch. t -urc rc:!amm(an 3,A to i romote V.,e iu-t),er ~evnlo:-,-ient o' r,,. in"ho:-ritoriec nnd to interwIfy coorlination. it ir:,,, to czAl r-I meotinfr whici, will ht-ve to det.1 -,-,ith prolAefvi of "ne re"*iod of mensur- ia-, cont-ol mensurin_- dev;,ue!j un' ot'iei-s. "rom ,,jno 24 to June 27 n conference vt,-,o hel.] hy Vie Co=.7it,.ee for *,.`ir,% :':-ee- sure :*ig:l 7em,~ern~ture Steam an~; t*.:e :*inisterstvo elektro- utantuiy '75-R i ':o,_,kovf3ko,,-e ot(I'QIeniye :'cuchno-tr-khnicheszogo obuhchostva energeticheeko,~;.r promynlilenno"ti (7inistry of . '%lectric :IoTter PILntj USA ur.1 the i7osco-.,,, 7c,,art:iant of the xinntific "echnictl ~vaoc!;Aior of "ower ln,liwtry~ Tn this conI*erence the problent of wvter trouti,itnt in thernal -,!ower plarts for diff4prent ctev-i pre-c-sure worn treated. 12he follor-: i n,,, roports were delivered abkrob o~,,cnc,l the con- ference and spoke about tl,,e prevent state nli Vke prospects in the develoDment of water tretttvent in electric power pIcnts in jenerpl. V. vi, rozdcv, "'i 'Crucotkin and othern !escrlbed --lanto for -,-rater trerAment. I t'Ac planning o:' combined cat'i ie ErupchitaklZ a-ok~ about '01, ~T_ants. 0. 'IT. _':hemyakina dealt with Purification of water c V i"t c, 5 3 -51" 1 r~. r~.nl I w It: 1 n I , I r! ~; t i - I nrIn t "orl)-nt;: . 7. n 1!, lt!iv m.-- 1 tol)tf.incl In Vic ccur-.-c. of Indu3tvial cveril- -.At'; for ru?:cn_'J~al 'r of ri-ter J. ~'tjvh~ov P:,oku r-bout ne7, "!or, 14~;,` plat., t!.Vf. tmrnt .11. -.. Chernov, Mw-vich and o',1-.err r,~,7,orted F~n Ve plnnnini; of r~cuipmicntc for tl.c ,,a!' -LAIrli-rit ion loy cl;f~mical neanv. "he - 11 mcmberv of the conference decided uron concre'c mer-nures in "he fleld o." proultirtion of !pecial --~rplpment, f 111tering- torial awl 1-rn-,,2nt3. ' ro:-o.,.7r.1c ~,;crc concprnin(,- the 11n:r,vement of ,~vrlficOion of vmter. -7r. univer.,!itiec nore expjrtv In thi~v field are to be trained. 3/3 TITLXt C4rferamce *a Vater Pr#.-Anat.3r. Tzt-=al ftser Station* (0 V04op~,dCotoviLt am te;,.OV7.h CA PUZODICA.Z., ZxvojtLya "3dr--Li "-4x Ctlvlenly. n&", 1956. 5r 20, ;,;, 15-s-160 (C."a) LUMUCTz V4r%=S June 24-17. 1)53. a c-i~1*mr.4t ta4c an v"bleas,~-- &I p~avr -Lzm* of D,10 , Intar- of water ;re;arattoz in tz*r- ss.- modtate, supor-alra at.! au;vr-critlca. -,r*ssxo&. T4. c4ut#r- n4e was corvezod by -he Cz=t.:ooc. on 4t*az of Very high of cb' Fo.*r Itsoaxt:1 4clemc*s srumters ; is n . rt tt .4&rovskly - 0 0 It IL j I-tly -M %to ZLnt .ry , : of Fo-mr Srotioz; US-A ALl tz.M or Socistj of %be power nalits ry. o 4W -t. tvoo of scleAtirle rtsearcb establiazz.-ti &=4 of 7,4-r stat.~Qzv Par- lelpated. In t:xo Section or deae-m. aetl. -'S& &AA OF*ratloz Of t on following pa;- bLned Pla4t Vim Z.C,: ~, are were read; 2) *Xxp*r~*cce in up &a4 of treat- Sent pILMt attt 4041114121r,; of ~-&~x of ov2tdqr (0&.RZS), 2) Jtato *ad tasks in tLo dovtLe;~zvzt 4f p"L for M44=06jum d*oiltalzing of wa;or in tner--&L ;~-r s,&zL=s1 1. V. Kv?st- kovexty (V':1), 3) schemes or aut~ahtjoa or r1mr.- witz d*sj't9jztr4 by uoa~--a of ascueslux* ,Yo. X. LrW30ttir. &~l 1. ;1. L~;."..My (Vii). 4)"rr3bI*z& of do&-S::L&4 ka'-r treatment lantowtth carzaaj= A. ' r 1 9 T k td l 2) 1 o 9 sovs 4e o e - 0tar 4 , 5) -Doallialzing of the water ty ---az& of she * ta " I - *N a f * f . th# ;rqe-s o 6s .lg&tian o v 6) water at olevet4l ttaForazu"SO, zx~;Y.Iov (VTO. of x r74 L. 3. DQ-t~ a" u.rgo). In tze A.cj,=~ and p#ratio= of tat r~l *mine ;&Pre r I ol, : Mgmts of jLvqjtj~ 4f o! t -ml ~r-s;tcts o: tt-r a;sItcation cb- Izal jlsr~ la Nfi~r *:art,;. .;v!i ~,..r-Lim azl At.&-x iAr&z-11,..-,, 7. 7- P!-4 j - Z) -N.s La.1 we for walvr pras;,#Ct. of tt,*Lr In--"zcrlA- I't's tuass tz. Pr~nz-), WiT4b!*!aa of Ch,rn4v (LA(rax), I - % 14 n 14.t at- 0 ~.J. -r* .r tr ;a r vtatt~ns'. J. , :4.tltL4-- IA of ;Ir-d Z-at yvarA aor-~A 0: at at r t,C.t..-r ton in _-f .'t v t6l..r& In C--, 'a ' r.c-r- r-sr. -r! !a&- C%r-l 1115 IRUPCHITSKIY, A.A., insh. Design of combined cationits water-treatment lnstalla',iOns with dealliconiZAtion by weans of magnesium (with isummM in Inglishl. Teploenergetika 6 no.):61-66 Mr 159. (XIRA 12:4) 1. lharIkovskoye otdaleniye Instituta "Toploolektroproyekt.0 (Yead-water purification) 4t Team of Kudrat Heliukov, Hero of Socialist Labo;-, Andreev kolkhos of the Kitab Dletrietp lash- ka4D&rlya Province Tashkent,, Goo. isd-vo, UzM,, 1954. 20 p. 0 "OV/96-59-3-13/21 AUTHOR: _Kru chitskiy, A.A., Engineer TITLE: Problems in the Design of Combined Cationite Water Purification Installations with Magnesia Desilication (voprosyproyektirovaniya kombixiirovannykh kationitovykh vodopodgot-ovitellnykh ustanovok s magneziallnym obeskreantvaniyem) PBRIQDICAL:Teploene3~getika, 1959, Nr 3, pp 61-66 (USSR) ABSTRACT: This article is based on a report read by the author to a conference on water purification for tliermal power stations organised by the High-Pressure Steam Commission of the Power Institute Ac,.Sc.US6R and others. The use of steam pressured:of 140 atm and more somewhat limits the field of application of water purification installations with magnesia de-silication. In the case of condensing stations using these steam conditions, do-silication is replaced by de-salting or evaporation. Again, heat and power stations which deliver industrial process steam can only use a limited proportion of de-silicated water for make-up. In such stations the normal conditions of Card 1/6 condensate return govern the water purification process SOV/96-59-3--13/21 Problems in the Design of Combined Cationite Water Pirification installations with Magnesia De-silication used, whilst the emergency conditions of condensate return govern the output of the water purification plant. The feed-water standards established by the i.,.iniotry of Power Stations concern normal operating conditions. A particular case is then considered of a heat and electric power btation with boilers operating at a pressure of 140 atm situated on the River Irtysh and the consequences that follow from the new standards are discussed. The conclusion is that in this instance the water purification plant should comprise two installations, one for do-sulting and one for de-silication. If hot lime treatment is used, the ratio of the outputs of the two types of water purification plant is more favourable to de-silication. Where it meets the technical requirements, such a combined installation is considerably cheaper than other methods of water purification. When constructing a station, the de-salting installation should be built first, so that the boilers can be vmipplied whilzt the station is being Card 2/6 started up. The inclusion of do-L;ilication facilities QOV/96-59-3-13/21 Problems in the Design of Combined Cationite Water Purification Installations with Magnesia De-silication is much more advantageous in stations with boiler pressures of 100 atm. and lower. By way of example, Table I gives calculated data of water purification plant for a paiticular heat and olectric power station equipped having boilers operating at a pressure of 100 atm with an extension scheme involving boilers at a pressure of 140 atm. Desi6ai experience has shown that the obligatory use of standard designs has many disadvantages. It should suffice to standardise the water purification building and such individual components of the plant as affect the unloading of reagents regeneration circult etc. The principal technological fundamentals of the desi6n should conform to the particular conditions at the station. Difficulties have been caused by lime of poor quality. Such lime is usually unloaded by hand but by a new arrangement of lime warehouses the use of self-unloading wagons has become possible. A schematic diagram of the arrangement is seen Card 3/6 in Fig.l. A similar scheme for unloading salts from SOV/96-59~-3-13/21 Problems in the Design of Combined Cationite Water Purification Installations with Magnesia De-silication railway trucks is briefly described and illustrated schematically in Fig.2. Acid and caustic soda may be unloaded by means of centrifugal pumps or, if a syphon is usedl, it may be primed by an ejuctor operated by compressed air as shown -in F19-3. Methods of dispensing tile reagents are then discussed. Ways of measuring out lime and coagulent are described and are illustrated diagrammatically in Fig.4 and 5 respectively. Because of the high outputs of modern water purification plant, large individual units are required; for example, clarifiers have been developed with an output of 400 cu m per hour. Other large plant is briefly described. Recent designs of de-silication installations provide for the following degree of automatic operation: output of the water purifiers is regalated stepwise, accoiding to the level in the intermediate tanks; the necessary quantities of reagent are measured out automatically according to the flow of raw water; washing down of the mechanical filters and re6pneration of the catioaite Card 4/6 filters is automatic and so is neutralisation of the acid SOV/96-59-3-13/21 i,mblems in the Design of Combined Cationite Water Purification Installations with Magnesia De-ailication waters~ At present automatic control of water purification is very expensive and its full application to large water purification Installations would be uneconomic. By way of illu:;tration, economic ca, laulations are made for three types of Installation with the results shown in Table 2. Although a number of novel large installations have been mado, some were initially inoperative becauob of design and constructional defects, which sometimes took a long time to overcome. It is considered necessary 11-o ensure that only high- quality reagents are delivered., particularly lime and filtering materials; it is necessary to develop and organize the production of measuring apparatus, automatic instruments and other water purification equipment; a Card 5/6 research centre is required to deal with problems of " 3 'Ov/96-59-3-13/21 Problems in the Design of Combined Cationite Water Purificatiou Installations with Magnesia De-silication purification and special water a design organisation should also be set up. There are 5 figures, 2 tables. ASSOCIATION:Khar1kovskoye Otdeleniye Instituta "Teploelektroproyekt" (Kharlkov Division of the'Toploolektroproyekt*Institute) Card 6/6 XRUPCHITSXIT, A.4., insh. Peculiarities in the design of large capacity chemical water purification installation@ for heat and electric power plants with high loss of oondensates Toploonargetika 7 no.6:58-62 Js 16o. (KDU 13:8) 1. Kharlkovakoye otdoleniye Teploalektroproyaktet. Oread-water purification) ra o,-) v I I.,; 3c: b!"'Old-s' ~~2, LRUPWITSKIY, Aleksandr Hatys vich (firstling of Russian madicina] Pervenats ruaskoi maditainy. Moskva, Tosn.izd-vo. 1933. J~i P. (MIRA 12:3) (MOSCOW-HOSPITEZ) "(F-irt II) Der-endonci of Effective Nomber of Zcconrlar~,, Neutron3 On &nergv of ,arturad Ileutrons". ieport appearing in ISt VOlUMO Of "IS053ion, of tha Acaderr/ of 3~;iencea USM on the Feaceful Use of Atomic &erV, 1-5 July 1955", Publishin~, Houre 'Of Acadew of Sciences U32, 1955. SO: SUM 72J3, 26 Nov 1?55. 11- 23J 24U Mu,CidT&UXp P. Ax Ae"uter "Cjz-xtartr, vi U aw PU isotopes 5 ior calcidntine nuclepr reactarl"j, Moscowl Lj)'Io Lu pl),, (Acad Sca UU'-*2R)p &IDU copiee (KL# flo -f-)# L957, p.94) oA V% V, 1-1 AUTHORz KRUPCHITSKIY,P.A. PA - 2305 TITLEs __Th6-X`Us-bqt1-an- Cross -section of Thermal NnSrons and the Resonance Integral of the Absorption of Pu 4 . (Sechenlys pogloshcheniya te vykh neytronov I rezonancnyy integral pogloshcheniya PuWj Ruselan)o PERIODICALs Atomnaia Ener lia, 1957, Vol 2, Nr 3, pp 240 - 246 (U.S.S.R.) Received$ 4 /g1957 Reviewedt 5 / 1957 ABSTRACTs Measurements were carried out on the heavy water reactor on the Academy of Science of the U.S.S.R. in two positions with different spectral composition of the neutron fluxt Inside the lattice of the reactor (FERMI spectrum + thermal spectrum) and in the so-called thermal "well" ~Ilcolumnll) of the reactor (alspost thermal spectrum). The author used onium with three different concentrations of the i9otop:8 361,ut PU2 pu240, and pu241. The samples were immefged In the reactor and taken out again by means of an oscillator. he efficiency of the reactor specially switched off from automatic control fluctuated with the same period as the oscillations of the sample. There follows a description of the experimental device namely of the plutonium samples, the oscillator, the neutron chamber, the amplifier, and of the recording device. lihe ser'. of measurements consisted of successive oscillations of sampl::. They ocourredin the case of a moderate efficiency of the reactor Card 1/3 (11300 Watt) without circulation of the heavy water by means of PA - 2305 The Absorption Crosa-Section ot T ermal Neutrons and the Resonance Integral of the Absorption of pu2~0. the heat exnhanger. The following details are givent Investigation of linearity, dependbnoe of the results on the oscillation period, determination of the coefficients k, and k 2which determine the ratio between the flux of the resonance neutrons and the thermal neutrons in tho *well" and in the lattice. Card 2/3 Measuring results are given in form of tables and in diagrams Ta-Veraged over some measuring series). In the case of samples of the weight chosen here there to no self-screening, a fact that agrees with tbeoretical estimates. The crose-sections of the ab- sorption of neutrons by pu240( 40) for the "well" and for the lattiae are e-40(well) - (560 + 35) barn and e-40 (lattice) - - (1010 + 120) barn respectively. Also the constants used for the computatTon of s- 40 are given. Discussion of the resultes The here qbtained cross-section of the absorption of thermal neutrons by PuZ40 corresponds very accurately with the contribution made by the neutrons originating from the resonance level with 'the energy E - .1,075-to the cross-section corresponding to the thermal energy. his agreement indicates the PA - 23Q5 The Absorption Cross-Section of Th rmal Neutrona and the Resonance Integral of the Absorption of Pu248. absence of any strong levels of pu240 in the apse of energies lower than E donoto negative energy values , rho value of the cross-sootioR Pu obtained here probably corresponds to the thermal energy of the neutrons E T - 0,025 ey. (2 illustrations and 5 tables). ASOCIATIONt PRESENTED BYs SUBMITTEDs AVAIUBLEs Not given. 22.9.1956 Library of Congress. Card 3/3 v.11., Krupchitskiy, i,.A., 1*erikin, I.T., Chirikov AUTHOR3: 110vin -ur(,-ment of Irimary Ion')z Uon Urinr ' Ow, ~*cthod of !"can Ga,-) Ijcnf-,th in Wilson Chambcro and Diffusion Chzlvibern. (1,,, neron lye porvichnoy ionizatoii i.)o motodu sre(Lne d1iny ~,r,-w,vota v Icamere Vjl':,,ona i v diffuzionnoy 1,.ribovj i Teklmika 1,15~/j Nr 3t ~~,).19-23 (and 1 plate) (USSR). A'11~~;TU,.(,'T: A detailed descri7,,tion is --iven of neasurem,~nts of :-;rizaar,y ionio-ation by the method of aean L;all 'LenGth be- ivicon aroDs in tracks of particles in 'Uilson- and Diffu- ,;ior- Chambers. Th-e accuracy obtained v-.ras + 10,,0 in the uaf;o of the Wilson Chambur (conoid-~rable ov~3rlap--,,inc; trac!: leni,,th 10 cm) and + 13~; in the caoa of the di.ffus- if)n chamb,~-r (trach. lonGtIl 2 cm). The followinc- precaut- ion:.; must bc taken in order to obtain ;u~~h hi,-:h accuracy. 1. 100r,,'J efficiency of condensation on iono, is necessarj C!Zef.7). As a control on the efficiency of cond-,ncation I narticle traciza were sci.1aratQd lrito t-,,,,o parts by nean3 of a field of 30 V/cm and of t~a nthabcr of droT)s o.'L' Primary lonizi-tion U-,;in,,,~ the f il.ean Gap Jn Wilacir, Chambers and Diffu:3ion Chamboro. down each of these components was carrivd out. M~naoure- mento were carried out orl the nosiLi,.re con:~onent. Usim- this nothod, negative ions (in this ci,--!c eicctrens) are 3ei)arated out and ti-iis is useful since tho eff-i,-,-i----ncy of CL)ndensation on them is always less than 100-,6 and can fluctua4e considerably. Chanc_7es in the structure of .61racl~s durin,-~ zoparation. into 16-he two components (Raf.6) did not occur since eleetroncf,w-i.ve a,,J,-A-,-,.tures vierc vel-y 3.,Uall (less than 0. % 0 ) InL' o~rder to .,-uarantee 1001% efficiency of condensation only the central part of the sensitive layer of the chambc!r was uo.?d. The temperature was Gtabilized. 2. In ionisation measuremr.,nts it is necessary to use ,)artr of tracl:s which do not ov,,~rlap strang droplet back- r'rowido. Go--)d illwjiinati~)n of track.; is ej,-Iontial. The Vilsjy~ C;.-L1:L,,.-ib;.;r was illuminated by 'uv,,o flash .1amor, type Onx-GOO and ohotoCrza~)hy was carried out at --n a-n-10 of 450 to tho li-lit boma on a highly ,;onsitive 35 -xa film (reduction 1:109 f:20 The diffusion chai.-Lbor -aas, illuminated con- Linuously with the ri,-,reur,7 lamp CBAIU-250. The T)hoto-ra-)I-iy of Primary Ir)nizati:)n Usirl,-.- Uho Method of ';I-3an Gap fienr-th in Wilson Cha,,.,bers and Diffusion Ch--,:1b0r:-,. was carriod out at an wi,~,Jc of 30 0 to thO li~,ht boa,.:. 2-hr., objective of the photo,-,ra-,.~hic cancra was, controll,~,d by a coinci(Ikonce schema uoin';,- GeiCer-' ,lullor tubes. 4. contrast filyas and develo-Pero viere used. F-Ji.ne -.,rain developers are Darticularly undcoirabl(2. 5. Optiuwn ma6nification mwst be uged -;n examinin- the tracks. The authors have used a maG-nification of 100. The ricasurod valuo of pri~mary ionioation for arCon recalculated into jainimwa ionisation are in af;reezionL with the valuos obtainod by G.W.McCluro (Rol'.10). 3i-.,,Uar io obLa-1,11od for aft. wid e~lrholl dioxido. 'I"'he follwainf~- valur--;5 LJ wt,vo obtnin-od for the primary i,)ni.;at4 on:- .L Air: 21 + 1.5 ionVcia ,*Lr E; o n 30 2 ions/cm Carbon dioxide 28 2.5 ions/cln. There are 7 dia,~;rams, 3 tables and 14 references, 1 Ru:3aiw-, 10 Ea;-Jish, 1 French and 1 German. SUBLITTED: October 111, L)56. AVAIIJULE: 141-,,t- -).L' Conr7ess. 1. Cloud chambers 2. Ionization-Measurement 3. Photography IM ag-lo-8/31 i A,,UTHORS orlovt Yu. V. f Neutrons in measuring JbsorptiOn * TITLS Reterogetiso," 'U/220 Systems. loshobeniya nqytrOUOv 40) sit) resonausnogo 90g tj&0010'"32o-3~2 t"Suare (0b isserenii 1jr 101jap" slots*$ eq ;arjous ur ! ' & 11111' 1)20 394 021 urani10 rod dest nt f1i'le nto a tan 6 3 and uld be fitted' D"i to PER-10DIC&L ~ 4, . i0,01 1 00) c0 fitted in lattioss Vitt and o%568 it M i0 OM W615 01%8 of the ABSTRACT motor 1,751 f 0 so 3 OM I n0utr di ,vqrter 0 rradilLted with slow &eked in IL uranium 01 lJoh was 11 toro Indium toilet v The the oanter 11 rOA dotgotorse Assian b,,Lq water rQ6o as neut R1 era, were used cadmium bold the relation 2) were determined cooffjoignts a and k Of Q 3/2 + LQ 3 42. the 9%pressiOn oul /2 - 0,40 Oates let measure& by 26 at 40r the uranium 1)20 W - case of measuring by IS -2/1, f lower than in the of tbi 9 mothode CIRD j/2 other methods- mm~ Measuring ResolInle Aboorptlon of Neutrons 1n ft0t*rogenqOUe9--1(~-8/36 Purther, the .t10 of th *enter, OppO.1t "11)20 8yat.... Joss 0 to the 0 z19UtrOn donalty 1n ths lattlas sured as well Surfdoe 'Of th for A-Pb-D as for on Ur&njUjj 1) 0 uranlull rods, 20 system (f 20 system was 0,050 + o,015 ... 0 ?b), An average value of (fv) as also b Y the lUtroduatlon btftlned for f -f Of AL soattery,, Pbo It was found that dlitt"Ott the Un1forio d1str1b 119 substa... Rturbodo The do UtIon Of (Pb) ln the 18 lower than in nalty On the a nsUtrOA denelt., I There are 2 fjgUr oe urface of nter of the lettl.the Ur&njux tables ASSOCIATION. None g1ven, ::to and 5 Slay1:11reforen.... rods ?Z'ZSFJTS,D SUBIIXTTVI). AV'A.TLABZX* April 23, 1957. CARD 212 Ubrary of Congress. f4 L u J, E L. b lu, A .0 ilk AU irk v:131 Z. I1,1!1WHt8?f :.-p lhp. 1-"R IIH. -:1.75 3; !pt y 1 2, 0-, 1 jj~ i-& ii -1 P, iv 1i 11 1 IN -j -.3 J& Al 1 HI H i I-M 11 lit 51 pip !ff 0 ryurrmMlay, P'. A I for vucleer Physil-'O arld Outilizat on of tbO Davy Water Reactor TWR Reactor Physic! Experiwnts." programming and UtilIzOtion of Research report presented at the SYMPOS'Um on Peactorej IAXAp Vienna, 16-21 Oot 1961 KRUPCHITSKII, P.A., kand. fiz.-mat. nauk,, red.; ZAVODCHIKOVA., A.I., red.; -1- red. [Woutron plWoice] Neitronnaia fisikal abornik otatei. Moskva, Goo. izd-vo lit-ry v oblasti atomnot nauki i tekhniki, 1961 371 p. imlau 14 13-1) (Neutrons) 33240 3/089j62/012/002/012/013 142 A 15-1 / 0 B102/B138 AUTHORSi Abov, Yu. G., Belkin, V. F., Krupchitskiy, P. A. TITLE% Criticality stand toots of a heavy-water reactor with rod- shaped fuel elements PERIODICALs Atomnaya energiya, v. 12, no. 2, 1962, 156 - 159 TEM It is hard to make accurate enough calculations for system# with porous fuel elements, as used in power reactors. A special test stand has been developed for checking theoretical results (Fig. 1), and used to find the critical size for heavy-water reactors with various different fuel rod systems. A scram system automatically stops chain reactions when criticality is exceeded. The critical dimensions of five types of working channels were determined In dependence on lattice pitch. Average weight of the fuel elements, uncoated uranium rods (density '18.80 g/cm3) was 793.0 + 19. Criticality was determined from counting rate using four CHH-3 (SIM-3) neutron counters. The heavy-water temperature was kept at Card 1/1 .IV Criticality stand teats of a ... 3321s0 3/099/62/012/002/012/013 B102/BI38 Fig, 1. Test stand for criticality experiments. Legendt (1) inner tank 3.5 m high, 3 m in diameter coated outside with 0.5 mm Cd. (2) outer tank# (3) connecting pipe, (4) reflux valve, (5), (7) electrically operated gate valve:;,(6),puMPq (8) rater shedding valve, (9) dump tankp (10) water gage gla (I ), (13), (15) hand-operated valves, (12) "breather" line, (14) metering tanks with heavy water; 16 control rods (2 scram rodst 1 regulating rod), (17) neutron source, 16~ boron neutron counters. ~ Fig. 2. Working channel. Legend: (1) Steel attachment for uranium rodsp (2) surroun,ling (Aviall) tube, (3) shielding Avial tubeet (4) remote Avial lattice. Card 3/j KRU.PCHITSKIY.p P.A. "SOVIET PROGRESS IN NEUTRON PHYSICS." Now York, Consultants Wreau,. 1963 269 p., diagra., graphs, tablese Translated from the orginal Russian titlet Neytrjonnaya Mika, "oscov , 1961 Includes bibliographies. ~&V-Uj I .uffrrz~Kly, 1'. A. -; (AVUUCAIT, Ill. "On the existence of internuclaon potential nonconserving space parity." reports submitted for Intl Corjr on Low & Medium Energies Nuclear Physics, Paris, 2-8 jul 64. AZOV, Yu.G.1 FJOINHITSKIY, P.A.j CRATUSKIY, N.A. Existenco of an Internuclson potential nct mhIntainJng nFoitial pnrity. IAd. fiz. 1 no.3t479-489 Mr 165. (MIRA 180) 1. Institut teolreticheakoy i ekoperimentallnoy flziki Gosudarstven- nogo komitota;'po ispollzovanlyu stomnoy onergii, SSSR. L 1962-66 EWT(m)/T/EWA(m)-2 1ACCESSION M AT5024122 UR/3138/65/000/348/0001/0015 h AUTHOR: vish~n!!yp~~y_,.A?js.~; Galanina.*,~!~D.; Semenov, Yu. A.; V B,~rezin Murysov, !TITLE: Measurement of the difference in the masses of KO- andX0 n 2 -171_n~ 'SOURCE: LISSR. Gosudarstvennyy komitet po ispollzovaniyu atomnoy energil. 1113titut iteoreticheakoy i eksperimentallnoy fiziXi. Doklady, no. 348, 1965. Izmerenlye ;velichiny raznoeti mass KO- and Ku, 1-15 2 1 i !TOPIC TAGS: meson beam, K meson, pi meson ABSTPUACT: The value of the difference in the masses of KO- and KO-mesons was ob- itained by measuring the d dence of the intensity of cogerent regeneration of i 2!~ne IKO-mesons in a beam of Ko ons on the thickness of the regenerator (co2per and aluminum). K?-mesons were recorded on the basis of the decay K0 -o-w ++ 1 with the jaid of a magnetic spectrometer with scintillation counters and spark chambers. iThe distributions of the events over the mass of the decaying particle and angle 'between its momentum and the direction of the primary beam am given. In all, 196 !events of coherently regenerated KO mesons were recorded. The value An z: (0.82 0.14) p/TIC2 wag obtained. "The authors thank Academician A. 1. Alikhanoy and lCard 1/2 L 1962-66 ~ACCESSION HR: AT5024122 S. Ya. Mikitin for their interest in the work, L. B. Okun' and I. Yu.-KobzArey.for :their discussion, L. L. Golldin and members of the technical staff for supervising ~the operation of the accelerator, and A. K, Dubasov, V. $. Markizov, N. P._.Naunov, ~V. H. Kuzlmenkov,, and Yu. S. Oreshnikov for assistance in setting up the apparatus band for carrying out the measurements. Orig. art. has:- 4 figures, I formula. AS50CUTION-1 Institut tooreticheakoy i eksperimontallnoy fiziki, Gosudarstvennyy i kowitat po izpol!&ovaniyu atomnoy energii (Institute of - Theoretical and Experimental! ;Physics, State Committee for .--f-modc .,Energy) App~#;ttion o EXCL: 00 SEM CODC I NP iNO REr SOV: 005 OMR: 005 Card 2/2 ACC NR, AP6030156 (A) SOURC-CODEf UR/0120/66/000/0W0195/0196 AUNOR: Abov. Yu. G.: B!!1,ge!k_qv, M. I.; Gullko, makov, 0. N.; X=2hit Y, Yu. A.; Troatin, Yo P. A.; Oratovski ORG: Institute of Theoretical and Experimental Physics GKAE, Moscow (Inatitut t a o r a Ci-c he ii6j-i-iliis j~iifaWn-Gil FiT6y-f i-i-i ki- - OM TITLE: Production of polarized boams of &her I neutrons by means of a pile of cobalt mirrors SOURCO Pribory i tokhnika okeparimonta, no. 4, 1966j 195-196 TOPIC TAGS: neutron beam, thermal neutron, nuclear research reactors cobalt, neutron polarizations collimator ABSTRXT: Aunit for the production of polarized neutron boams needed for expori- mental Ourposos in described. The unit, shown below, consists of a collimator and a pile of cobalt mirrors. The collimator, consisting of 10 convergent slits sepa- rated by vertical stool platens is placed in the horizontal channel of a reactor. Each of the cobalt mirrors is backed by glass and the length of each mirror is made up of three separate units 350 x 125 x 3 =3 in size. The top and bottom ends of the mirrors are fitted into 10 alots bored through the connecting strips and clamped with wedge clamps 5o that,esoh mirror has a corresponding alit in the collimator. UDCs 539.1-078. we-C-141 The pile of mirrors is set into an electromagnet. The moan angle of beam incidence on a corresponding mirror is 7.51 and all neutron beams refloated by the mirrors converge at a distance of 4.5 m from the pile of mirrors. The incident and reflect- ed beams are separated by means of a sliding screen system made of boron carbide situated near the target. The fl of polarized neutrons on a specimen vith an area 2 t C~ noutrons/see. The degree of neutron beam polar- of 100 x 10 mm amounted 0 3 x 10 ization amounted to - 90%; and the polarization efficiency of 95%. The authors thank V. A. Beketov and N. S. Shatlovok for making the cobalt mirrors, Yu. Ya. Garrison for assom ling the pile of mirrors, and A. I. Savushkin, V. K. RisaRkhIns- 5. JR. Svo,tlov, and 1. L. KarpikhIn for helping with the measurements. Orig. art. hass 1 figure. 4 ACC NRt ,,p603Ol56 SOURCE-CODE:--UF,/0120/66/000/004/olgVol~6 PWRORs Abov,, lu. G.; Bulgakovj, M. I.; Gullkop A. D.; Yermakov, 0. N.; Krupchitskiy I. P il Oratovskly, Tu. A.1 Trosting S. S. J., A ORO: Institute of Theoretical and bcporimental PhysicslGKAFt Moscow (Inatitut tooretichaskoy i skaperixonValloor fisiki GKAS) TITLEt Production of polarized beams of thermal neutrons by means of a pile of cobalt mirrors SOURCEt Pribory 1. tekhalka ek"rimenta,, no. 4, 1966p 195-196 TOPIC TAGSs neutron beant thermal neutron, nuclear research reaotorp cobalt# neutron polarizationp collimator ABSTRACTs Aunit for the production of polarized neutron beams needed for experi- mental Ourposes is described. The unit, shown belowq consists of a collimator and a pile of cobalt mirrors. The collimator, consisting of 10 convergent slits sepa- rated by vertical steel plateo# in placed in the horizontal channel of a reactor. Each of the cobalt mirrors-is backed by glass and the length of each mirror is made up of three separate units 350 X 125 X 3 mm3 in size. The top wA bottom ends or the mirrors are fitted Into 10 slate bored through the connecting strips and clamped with wedge o1snpe ~oo that.sach mirror has a corresponding slit in the collimator. WGs 539.1-078.539.125.5 ACC Nks The pile of mirrors is met Into an electromagnet. The mean angle of beam incidence on a corresponding mirror is 7.51 and all neutron beams reflected by the mirrors converge at a distance of 4.5 a from the pile of mirrors. The incident and reflect- ed beams are separated by means of a sliding screen system made of boron carbide situated near Ihe target. The flog of polarized neutrons on a specimen vith an area of 100 x 10 = amounted to 3 x 10" neutrons/aeo. The degree of neutron bean polar- ixation amounted to - 90%V and the polarization efficiency of 95%. The authors thank V. A. Baketoy and V. 81, Shatlovskaya, for making the cobalt mirrorep Tu. Ya. Garrison for assembling the pile of mirrors, and As I* Savimhkin, V. So Rissukhins, 0. M. 3vatlova and I. L. KerpJ)"n for helping vith the measurements. Orig, art. bass I figure. Card C NRi A 30156 1. upper magnetic polep 2. wedge claxp,, 3. upper connecting strip# 4* side wall (brass), 5. cobalt mirror, 6. lower connecting stripp 7. lower magnetic pole SUB CODSt 20,o W sm DATics wulW ofao w, ooi/ oTH Rat 002 LCeLd 313 ut r:.. ~.IJDIIVI Geman Viktorovich; GUREVIC11i J'.V.j ret..;erzent; la-lur-E) V. f" . j,(,t,-on",cnt; KULIKI otvo red.?, YA.c2IOGoi',0DSKh-YA , I.I.M. , red. I (Agricultural meteoroloal Agrometoorolr'frj ill. LenirgrMly Gldromot.noizdat', 1964. 277 p. (JURA 17:8) KRUPEL'HrrSKTY, M.' K.' Blab. Aost.) "Hexahedral Isolation, Building for Animals." 2 figures of the building. Veterinariya, Vol. 36, lio. 6, 1961. p. TT Krupellaitskly, M. K. Kamenets-Podollsk Agricultural Institute. XRUPLPLINITSKIT, M.K., laborant Hexahedral isolation ward for animals* Veterinariia 38 no66t 77-78 is f6l. (MM 16:6) 1. Kawnets-Podallskiy Bellskokhovyaystvennyy institut. Ntwantinet VeterinarY) 1701, A.A., rayannyy akusher-sinekolog Sivm1taneons pregnancy and labor In a womn with a double uterus, Zdrav.Balor. 5 no.12t5O D 159. (MIRA 13W 1. Iz Uzdansko7 rayonnoy bolinitay Minskoy oblasti (glavnyy vrach Gerasifflanko). (PRSONANCT, PROTRACTID) (UTBRUS--ABNOMTIBS AND MUMITUS) ... ..... .......: 113UP M,, A.I., kand.tekhn-nO'ulc nnoction with prolonfed y 9diate yards used in c0 0 158. (KIRA 11:12) Types of interm 40 no.lo:48-50 tracks- Zhol.dor.transpe 9--Yards) (Railroad KRUJIFNIO A.I., kand. tokhn. nauk; K4TTSEX, V.G. Practices in building engineering structures during thn struction ofthe Karaganda-Karagayly line. Tranap. stro' noOtl5-17 Mr 165, (KRA 1. Nachallnlk mostopoyezda Mo.431 (ror Hatpink). PI~PEN_!j A.I., kand.tekbn.naukl ARTENOYEV, V.I., insh.; TVHWNSON, H.S., I-nz-h-.- Laying and ballasting track on the Karaganda - Karagayly line. Transp. stroi. 12 no.12slO-13 D 162. (14IRA 16:1) (Railroads-Tr4ek) A,Ij, Results 0 163. kand. takhns nauki TMPAO T.S,O inxh. of building a roadbed# Transp.stroi. 13 no.lOt6-8 (KMA l7t8) L-4kbot att-,k; 1.11. buildirw -r.ho' Mai-Agailda-Karagafly rai.Irrmn 11no. strcA. 1", nL.11.10-1) all, 164.11 7 ~, . .1 1 . . (~;A"A 17t8) I 1. 01.~vr:rj tlikluiolor, trosta Yara~,mdastroyritl. KRIJPFN A . I . , kand . tekhn . nRkik; NFTHFf3A, 'i --" . , *, n rz~ . Exporimnnt.al settlement of large-panel buildingii. Trrinsp. atrol. 14 no.1102-34 N 164. (min 18:3) SUD"MOO G"j, Imbol M7Wtp Aol*g, ImMo tekbas nu* ExpwUme In the fLU amatrucUm or roadbed undw the asoand trs& an bapo Trawe atrol. 15 no.9t6-8 S 966s (MInA ISgU) KRUPENO RIV.0 8115intent Effect of magni.ficatIon of the Image of it contact level gauge on the precision and speed of Jts adjustment. Izv. Yys. ucheb. zav.; geod. i acrof. no.4:151-154 163. (VJRA 17:9) 1. Latvlyskaya sel'skokhozynystvennaya akaderdyn. KWM, Rj~ _WWAWM Testing levels by a plane-parallel plate&. Good. i kart. w.4t26- 28 Ap 157. (XIM NO) (Surveying--Instruments) KRUPL;11, R. V. , ",- - Protection of geodetic signals. Geod.1 kart, no.2:30-31 IF 16o. (HIRA 13--6) (surveying) I I i . I - . ---, I.." 'I.>-.- - 1 -1 ~ SLYUSARENKOt V.A., red.j KRUPENCHIK B B red.; MELESHKIN, M.T., red.; VIRONp Ys_.M., red.; PK6iONO D.A., red.; VITVITSKIY, M., red.isd-val SYCHFVSKIY, I., red. izd-va; NEDOVIZ, S., takhn. red. (First Soviet firms; from the work practice of the produc- tion combines of the Lvov Economic Council) Pervye sovet- skip firmy; is opyta raboty proizvodstvannykh ob"edinenii Llvovskogo sovnarkhoza. L'viv, Knyzhkovo-zhumallne vyd-vo, 1962. 113 p. (MIRA 16W 1. Sekrstarl Llvovskogo oblastnogo komitsta Kommunisticheskoy partiy Ukrainy (for Slyusarenko). 2. Zaveduyushchty promysh- lennym otdolom oblastnogo komiteta. Kom=anistichaskoy partli Ukrainy (for KruponchikJ4.Nachallnik proizvodstvenno- tekhnicheek,ogo upravleniya Livovskogo sovnarkhola (for Meleshkin) (Lvov Economic Region--Business enterprises) 77~ ~_~ 1RUMI, re K., kandidat maditsinskikh nauk A OASO of A total spontoneous pnounothorax of seven years duration. Sove nod, 18 no,8:35 Ag f54. (VIRA 7:8) 1. Is tubarkulesuago otdolonlya fakul'totskoy torapeytichookoy kliniki (sav. prof, N.To,layotskly) ft7byshevokogo moditsinskogo instituta (dirs prof& ToleTsvosbovskly) (PIMOTHORAI total, of 7 year follow-up) -77 KRUPENIK, P. I. "Experiences in Supplying Petroleum Product Coneumers" page 76, of the book Petroleum Bases and Pipe Lines, Goitoptekhizdat, 1956 HATSKIN, L.A.: KOVALSHKO, K.I.; Bf."IUKOV, V.G.; KONSTIANTOOV, 11,14; PONORARU, G.V.: FALICHIKOT, G.H.; PELEHICHKO, L.G.,- 2WAMARDIN, V.M.; GLAIKOV, A.A.; BRILLIANT. S.G.; S107CMM, T.Ya.; SOSHCHMI.- KO, Te.M.; AL-4KSARMOV, A.M.; B'UNCHIX, V.A.;,KRUP3HIK, KAYZVSKIT, Y.Ya.-, TELSHIN. K.Y.; GAK, Kh.A,; POTAPOV, G.M.; KARDASH, I.M.; MPURO. S.I.; KAPLAN, S.A.; SHLIVANOT, T.I.; TL?-3K=O, W.Ya.; 7MZH, A.D.: USTINOV, A.A.; GIRKIN, G.M.; VOLCIBUYEV, P.P.; COMAK, I.L., nsuchnyy red.; DEStALTT, M.G., vedushchly red.; OBUMIYBVA. 1.M.. takhn.red. I [Combating losses of potroleum and petroleum products; materials of the All-Union Conference on Mearis of CombAting Losses of Petroleum and Fetrrlewa Products] Bor'ba a poteriami nefti i nefteproduktov; pa materiallam Tonsoiuzno,- ,,o soveshchanila Do bor'be a poteriami nefti i nefteproduktav. Leningrad, Gos.nauchno-tekhn. ixd-vo neft. i garno-toplivnol lit-ry, 1959. 157 p. (MIRA 13:2) 1. Nauchno-tekhnicheskoye obahchostvo noftyanoy i gainvoy pro- myshlennouti. (Petroleum induntry) Cbenoseva-Ilbe solle among the sciamist completes of Sadbireollan KASWLMW and their atill"b" Povitrenvekew (PrOukicy) 195). M tk tvAtllpff.. Jill. CatAMIAtfS. 49C. MAIM 1. 4' and irsthAngir valhu-ity W Octimnw-likiz "Is piratir di, it itLakirg to thr vmwl ch"iswrin "Is S. jofff L 185611-66 04T(m)/a-,rP(-wy/ 'rWT(V)/T-2/6d11(k-y/EET EM C W -6 1 ACC NR: AP6005428 SOURCE CODEt UR/0143/65/000/010/0056/0062 AUTHOR: Deych, H.-Y (Doctor of technical sciences, Professor); Kiselev, L. ,(Engineer); KrupennaoV1.18. N. (Engineer) ORG, jjosc2w "Order of Lenin" Power Engineering Institute (Moskovskiy am na Ye energeticheakiy institut) TITIX.- Effect of the departure angle on the characteristics of radlaliw ex~panding ,turbine blading -62 SOURCE: IVUZ. Energetika, no. 10, 1965, 56 TOPIC TACS: turbine blade, flow angle, turbine design ,ABSTRACT- The characteristics of radial turbine bladIng with a d/Z ratio of 2.5 wez~s studied in subsonic air streams at departure angles of 9, 12, 15 and 180. The wheels, 'studied were made up of 30 vanes with a height 1=100 mm and Identical geometric ,characteristics in all cases with the exception of the departure angle. The flow ,parameters were weasured in front of and behind the blading. Measurements were made ,at ten points between blades, in 15-25 sections along the height of the blade and !at distances xz5t 15, 25 m from the outlet edge of the blades whica corresponds to[ ,Card 1/3- UDC: 621.165 `4 L 16564-66 ACC MR: AP6006428 izz/b=0.125,.0.375, 0.625. The resultant data were used for determining the distri bution of the fb2lowing parameters with respect to the height of the blading: breaking pressure pol , static pressure pl, and flow departure angles al and 02 in the meridian dirOction. Angle *I is measured between the projection of velocity a, on the cylindrical surface and the direction of the periferal component of velocity U; angle %Z is measured between the vector of velocity ol and its projection on ;the cylindrical surface. It was found that an increment in the effective angle of ideparture increases the difference between the static pressures at the periphery an~ yoot of the blading due to a reduction in energy losses and a corresponding increasti in the velocity of the departing air at the root section. Measurements of departure bangles al show that they are greater than the effective departure angles. When the effective departure angle is increased, the difference between the average value of :the measured angle and the effective angles Is reduced, which may also be explained 'by a reduction In energy losses and less redistribution In the rate of air flow with respect to height. The average values of the meridian angles with respect to blading height (02 )4V am a linear function of the effective departure angle: '(62) L,00 for ixO.125 at an effective departure angle of 150. At smaller effectivel av departure angles, the average values of 02 are positive, whic-% corresponds to do- tard 2/3 L 18564-66 ACC NR: AP6006428 flection of the line of flow from the root to the periphery. This is due both to a high degree of twisting in the stream and to the highly developed region of ener- gy losses in the lower half of the turbine blading. The effective departure angle has a considerable effect on the distribution of energy losses, particularly in the root section. 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Binodeliye I Vinogradarstvo 1948, No 6, S. 28-30 501 LISAIFIS NO, 301 19L8 V C 1 5tatcyq Vol. Letools UM/GeoW&pbT Mar/Apr 49 Salt Marahes users," I. A. Krupenikov, 121 pp, "It Y-s Geograf Obsbcb" Vol No 2 Data is based an observation in Raurzum State Resel wation. A sor, an unusual type of shIt- Mrsh, is a flat, saucer-obaped depression about 1-5-3 meters below the sand ecuroundlag it. Its plane is usually oval. Size varies greatly; usually, length does not exceed 500 meters and brmdth ~00. In spring and autum, surface to . 0.V's"d witb water.- In sm=er,, water evaparates .am 48/49T46 POW/Geograpby (Contd) Mar/Apr 49 and sar's surface is covered with a shinIng cmt of salt. Discusses natuTe and origin of wme. Includes photograph, two graphs, six tables. 48/49T46 Inflownce of insects an sail. 1. A krul-oh- jfy,, Iblk,T. MJAW AW $I'd lip)4.19,111 J*# 111VIV, f 'I'll I Pff"I m. I I'$ m I! 1111A M11.11- 1110'. Id N .011"Im N olo.,41 I'l, -.I. N C, kd:dkb.l410l it. of do ... 11-AIL.11,01 .... .. d,I'lm 6.4 11,481141 U41, 1.1, 111.11 11'. 1 ......... 1. 1 it.. ( 4 "aloj-hy. I IQY ..... hy .1.6XI'la I., Ill, -11.1% -1 .If -1~11 111JR1181"1111114. 1010`1111 Ml- 111,11141, LO Yrf~ 41 MKWI-14144! %14-111 Ill( 1.10) IhCMil (ACC. 11halt bufflus delw)4% Ikuy ifolotAill It 17r; bultill. C. %I k The Ccmlttee an Stalin Prizes (of the Council of Kinlaters LISSR) in the fields of science and inventions announces that the folloving scientific vorks, popular scien- tific books, and textbooks have b"a submitted for coMetition for Stalin PriLes for the years 1952 and 1953- (8oV*t!kNL& MIturs. %meow, ft. 22-40, 20 Yab - 3 Apr 954) Raw Titis Of Work Nominated by IRUPZNIXOV, I.As 'V.V. DAuchayev" Kishinev State University So, W-30604j, 7 MY 1954