SCIENTIFIC ABSTRACT ZARUBITSKIY, O.G. - ZARUDNYY, N.N.

 FAVLENKO.,.I*G.; ZARUBITSKIY, O.G ROMS) Yu#Gv Anodic refining of bistsuth in fused chloride electrolytes. Ukr khim.zhur. 29 no.6s647-650 16,3. (MA 16;9) L.Institut obshchey i neor anichaskoy khImU AN IJkr,','SR. Sismuth-Elaotrometn1lurgy)    3108016210~510021010/022 1)202/D302 AUTHORS: Delimarskiy, Yu. K., Pavlenko, I. C. and Za 0. _7- of 1ea'd:.jr6m.b!~amuth j 3 Zhurna Mf 'A -11 -1962,_-322,0~1327'7 PBRIO CAL* pri C - &&ioy '1~ 17 -,- 2 ". -- TEM The authors carried out,experimento on separating Bi from ea b the electrolysis of P~)l ten load, using molten Pb with de- d y f ini:te Bi..'contents as -a liqi,.:Ld cathode,, with fuse,!,NaOH as the ele'otrolyte, and. molten.Pb in the.anode compartment as a liquid anodu, The effeets of time of electrolysis on the' concentration of Bi in the-.cathode and anodecompartments was studied, starxing with Pb-of different Bi contents. The influence of the current densi ty on the cathode E-Lnd the combined effect of these factors on the specific electric energy consumption A-h/kgPb were aloo inveatiga- t ur ed. It was found that after 9 ho a at 34000, with a current of 50 amp and a voltage of 2.4 V the amount of bismu.th in lead could be reduced from 1.43 to 0.06% and from 0.5 to 0.0019% in the ca- Card -1/3  3/080/62/'035/1302/010/022 ~Elect rolytic refining of D2021002 th o decom partme.nt. It may also be increased from 0,0085 to 3% in the anode compartment, when the Pb in it is used once; by reusIng it twic e the amount of Bi in this compartment may rise to 10 - 15%. The energy consumption A-h/kgPb depends on.the initial Bi content in lead,: and the degree of its refiningg beooming lower at lower current den.sitiest although the process takes longer. The proposed method is considered suitable for industrial use. After discussing possible cathodic and anodic reactions (on data taken from.Western literature) the authors state that their preliminary ri..nienta 1 results lead-the way to further investigations for b0tter elucidation of the,,mechanism and kinetics of the.process. 'There-are 6,figures, Itable and 15 references; 7-Boviet-bloc and 8 non-Soviet-bloc. The 4 most recent referenoes to the English- lan uage publications read as follows: T. R. A. Davey, J,, Metals, 9 1956; J., C. Dittmer (to National Lead Co.), US Pat. 2,402,3169 16 VI 1946 and 2,507,096, 9V 1950; 0, Kubaschewaki and J A. Catterall, Thermochemical data of alloys, London, N-Y, 26~ 1 56.* Card:2/3       DELIMRSKIYY Yu.K. (Delimaralkiy, IU.K.], akademiki.ZARUBITSr-41Y~..P!!f4- rZarubvtstkvi. O.H.'l   6 trado Up dances m Z3-iO gcg~,Jmtor; It oxternal at dai%d-. mace., capack. ---7 -T  o8 ;.66.,'      AUTHORSs Abulov, B.R., and..Zarubkinal O.V. SCIV/19-53-6-4ia/685 TITLE: A.Dynamograph*for Recordinj Tension and Compression Forces ushchikh i (Din6mograf dlya registratsii rastyagivay , s2;himayushchikh sil) PERIODICAL: Byulleten' izobreteniy, 1958, Nr 6, p 92 (USSR) ABSTRACTs Nf 113384 -(574592- -6t -10 Jun 195 Sub- Ass 42k 7) 01 mitted,,to.the oahmitte-e for Inventionb and Discoveries at -- ----- --- 'the -Ministers- Counci:1 of USSR.-- --A dynamograph: f or record- ing-tens ion and'compression forces in*shafts (for instance, in aircraft engine systems in flight); in order to reduce the size of,the instrument, the.sensitive element is composed of four flat springs forming a rhomb with Lhe long diagonal coinciding with the direction of tho forces under'.measurement, causing deformation of Vi springs in the direction of the small diagonal; this deformarion in received by,the transmitting eyatem of the reaord~"ng mechanism. Card 1/1    Problem of the multiplication of Bacillus anthrecis In water. Mikrobiol. zhur. 17-no.1:60-64 '55 Omu 10: 5) Is Ufedra mikrobiologii Vvivelkogo vatzooitstitutu. (B~LqILLUS AV Multinlf~~atinn in watar) (mr)  It  -------- ------ --- ---- Yw, Jq a: 1 14 I HI I a Vs 'Al  $11 ~;, WqWlift I"-. tvvir.4 - -, U& W4 w Fo troll-  A.Ye.., inzh. gyntheals and use of oil-shale and oil- aha le-fornalde h7da resins for the pi,oduction of buildi'g materials. Sbor. trud. VII-INSM n no.7:164-1.68 1630 (MIRh 17:11)      (Ethylene)  /:3 2/ 6 11000 0 0 510 0 6 o G 5 JAU T I-IOIIS Sho-r.Ygina', 21T. V. Ca-ridid M to of T achnAl cal Pat:cas, z a ru b a It! v 71 ye. hA SOURCE: Akadt.-miyz. stroitell stva i arlehitolctury SSSR. lastitut novyll-h 14. stroitellnYM materialov, Sbornik trudov, no, i. 1961. Pqo,.tyyc t 9P,- P T li: X T-. ~5 ~-4 riya sti gat:L-or(, WA r-cl"o :t,ac-ac; and.-nqq_IN., a ITa -6, iAime'd`, le oll,An orma in. 0 --th- h :qf ha,;--i~ a S. 4L. ixzxari~y -:p -T- .b. Kom e-nital speci, gnrel rurq,,- -PO ~pe c,' grav~A-.O: wa er. F. 7.5 c y c 0 ent:,~ ag-g(~ xt~q~ 0 th idu f b ter- ng: 0 a -ge 7 ---(3-). Pet'jr.6146m. 5"ll-1-Jc 1,4tid dft T--; 'softening. 0, -C-aa:- a c as u -1 r~ s rac n Iity J 77- ar T-- V77 7 tJ MEN ME Kim la  .3 4 ro uctibn-o --,s t 00 a 7 -It- 1)0 3 ! d ?1imt' rac nitaining 3 9. Mi~) formialdchyric, 7. 8% -,_atjjyl ala&~f pressed in formic ac~ d). ",he resin, -a--, prepate(I in an a] 2c,, steel flaiik equipped viith a theri-normeter compartment, a har-Ting nooz, a cal- mixer, and I cooler, an.d in a similarly equipped 10,1 ter rcactor. TO ate the acid and neutral compounds from the sliale-oil Basins, the oil was cisgicylv--d in -,)&nzo,,, (1:1) ind the solution vias mixed with a 50,4 Na E solution (1:1). Upotl st4lrring and settling, a lomer phe nolate -con' tainir.g I ate~ from an %.~Vp,,tr ~ye TA C PIL r tra cl t r. Q 6 tic alld -,v:is %ya,5, r-,d ;v1';1 with- forr~ialdchydp (lymid -0 cid part: 4 D701. L na~- - _'11 z.nd other compounds wQxe washad mith w4ter dried for eondensatj'~,n nautra Z e -ty, strenatli, and 24-h-j%,ater resistar- -,vith fcr-maldehyd . The e~_astic~:. Ce cif the acid- and neutr-;tl-cc,maou,-id-conta:~niig resins ard .-abulated in dotaii- Copolymerization of shalc and petrolcurn. padrons not _ontaimn,.61 pn,_-nolm *i.:,. (b) shale oil corltainitq; phenola, vvith formalin zroatmert )i tha mixture, TiEl 14" resimc, that exhibit an tlevated soften,,n- T, clasticity, im3act strcnuth. and reai.5tan,;e (details o..-i both COMDOSIL.Iori and c~,aricLeri!,,.i s are LaL,--atci_~. ~COM13onents were charged into the above -de scribed f-aal-, ..)r roactor and wereVvc-on- !,b hru* at .85 -,900, whe reupon the rosin obtain(~d was dzied at 95-1)5- 77~ =T= a A  4, r4i,0 7-.Sh"I _3Fh- 47 1 'oo A tag A, ~ Id': . 11,1V, QF1,4111"U OrL :m pa'r ts weig it- Tlie 'regin yie w '~i ~ I- Corapoi e asphalt il.u~C-5()_ shale O'il.50,- -39.5lo--frurnaalin 5, HW gya",. I a chlore iron 1. Th6 priacipal characteristics of the optimal com"Sition are Ii z! t'! d. ir hale oil red-acts the saftening T, hardnesE,, and impa-t ~trcligth, An incre~;se . s' zi reduction accomplishes the appotiit;~~, The sh-ale-fornw,14le-hydc msfinti are acid-, salt-, alkali-, and etri-2r-resistant, aad ztrc t~.crmopldatie, but aee sol-;hle 'n turpentine, gauoli,ic, benzol, toluol, and xylol. The unavirial thus voduc,~~ tio-i Flastifier-~ t. S_ v~-_ and,,aot rea7dily-availabli larniaa fo,r the, majcing of flooring,, rool~ si~e~-i-"-'-In~' by Lht- ro-11. Tht: same re-mis are also suitabli,, for the niaAing Oi ma-i'Ll' other nw,.teriaizi. Thwic are 3 aurnbered (and numerous, unnumbored) table;,' nc, figures or refereacei.. $.^CULT_IOINI:~.___INo;ie givan.  kh. KOSHKIN, V. kand. takhn. nauk; RAKOTINSKIY, M.P., kaud,, at MUHTS# V.0 kand..arkh.- FWDINA, H.A.9 az*h.; SILUOOVA, G.V., arkh:; SHORYGINA, 'N.V., kand. khim. imuk. Prinizali uchastiyv:_BOGUSLAVSKIYp A.I.) Inzh.; ~~KUJ_19L*p inzh.; 11. 'VSHITS,.A.M., inzh.; MASHINA,-X.N#, lnzh,,i OTLIVANCRUP A.N., kand. tekha. hauki ROMANOVA, L.A.,inzh.; CHERKINSKIY, Yu.S. 9Anzh.; ANDREYEV, V.S., retsenzent; IOFAN,,B.~M.x rateen2ent;.KRIPPA, A.Lp arkh., retaenzent; GURVICH E.A., redAzd-vaj BRUSINA, L.N.p takim, red. (Catalog of fintehing materials and artiales)-Katalog ot-, dolochnykh materialov i'izdelii. Pod red, W.Hakotinakogo. Moskva, GosstroiizdfLt. Pt.l.(Plastios; polymer finighing materials and articles] Plastmaray; polimern3M otdelochnya materialy i izdeliJisi. 1962. 119 p, (HIRA 16:74-) L.Moszow. Vsesqyuznyy nauchno-issledovatellskiy ins-aitut novykh strruitell'nykh materialov. .2. %ChIeu-k6rreapondeht,' Akademii straitallstva i arXhitekt=7 =R (for Andreyev, -ofan Xrippe'0 (Firishei and finishing--Catalogs) (Plaotioa)  KOSHKINp V.G-j kand..tekhn.naukj MAKOUNSKIYI:-H~P.,, 1and. afth.; MWISS; V.0 , kand. arkh RUDINA,, M,A., arkh,j SILUAEOVA,, afxh.; S1104can, N.V.,,.kand. khim, nauk; Prllwinali:uchastiye: BOGUSLAV.SKIY.,~L.I., inzh.; Z.ARUBIT541Y,,o,,AJ!2~.j 1nzh.j LII~HITS, A M., inzh.; VASHINA I N.N. , -inzn.; OTLIVANCHIR, kand. t;khn. nauk; ROMANOVA.,,L.A., inzh.;ZHERKINSKIY, Yu.S., inzh.; ANDREYEV V V.S., retsenzent;,IOFAN, B.M., retscnzent; KRIPPA, A,I., arkh., retsenzentl GURVICH, E.A.1, red.izd-va; BRUSINA, L#N.1 talchn. red., (Catalog of firdshing materials and products] Katalog otdeloch- nykh materialov i Izdelii. Moskva, Goastroii2dat. Pt.l.(Plastics; polymer finishin&xuiterials) Plastmasayr;-polilaernye otdelochnye materialy. 1962.. 119 p. (MIRA 16W 1. Veesoyuznyy.nL%uchno-isoledovatellskiy institut novykh stroi.4 tellnykh materialov. 2. Chleny-korrespandenty Akademii stroitel"- stva A. arkhitektury SSSR (for Andreyev, Iofanj Krippa). (Plastics) (Building-Details)  L Fr. D 2'- ZR(qy.4r(d)/ps lAw , M 4/6 -6f/j)2qj1bc6/b54i,/c65o C U-2 A0,3002501 Q 0 0. 7 iii rolt:6: chlorid441eclwolytes TITLE. Anddic re i ng 'o biamuth SOUWFE T1kraixtskV imichvkiy zhurnal, V. 29, nol, 196% 647-65C1 TOPIC TAGS: anodto refining, bismuth, molten chloride, electrolytas ABSTRICT -. This lis a contLnuation of experiments conducted by the authors pr-,-viou-- - 1y (Zhurnal prikl, kh., 35, 1962,4317). In order to repla-Ze the complex tech-nologr yrometall irgi. K.(jcezs,~~f refirdng and obtairing bismuth, '~he authorE )f the p- cal p 4. , , , ,)f -~,- I ~z free lead -ompol-15 .,,e la a 3 f r, ex ti r--~ n~-- nwt re aver. -e rP2 r-. a 13 -t f in ~-rie e x L-4: 7n',3 :~r rgei !,ca. of ci v-de t4smuth. Orig. art, has; 1-1 table8 and 1 figxe. Association: Institute of' Goneral and Inorganic Chemintry '7 7-7 7-:     I -.- - -- . - , I$ Ili;lf RlITYM I~w!:~qw- paummmm"hamm - ~. - -- -     4,; ij i ;'i i i ejj~' .. I -- I ~ : I I 1 4 ll~ 11 id 4 -it 0 to 111 12 b a is ft X A ft 11 0 It J4 is it #1 is ,A IL UwAr Sedk#AT. Stit. zatubo". ViSIN(A .14; tft4. simf~jrsl jakr;,. ;4,41 Ittf 11 im ".XcMAII his W: "Mi"o-uslity. ';$I and pulphylific PwJJIV W-ruf I old mi, I N. W. of SVdkmUY WV 01 .1 kkkif-140COAIV 91141 Will- T anti bkonb- .-so 44 !1i'Lh. Their imirrowtogik stgurtute is dcwti:)nf. mintl thr of t4 olairlid) jwjwrrU Jilt ineliusionstut 11)r AIV Wi(h OW I by tO.Ilifid E7 Of it 0 6. 1 s u 19) Of it N LO 00 010:0 0 om#~* 0 e 0 0 0 0 0 0 0 0 a 0 0  iqp-w-q -P ~w w 0 -j o 0000 : :1 :: " & a I? . " 0 0 a to A 00 .. . . I :. I 0* c j,h,, Stolle tk jind W. kdli, -0 is u4 ;d. Ani, be tastua - . 1.0 -00 004 0, 1 imp afIr I* sillwitsd 06.2 z0 000 too Coo 364 boo boo a* 0 A: IF jjjfjjk0#�KAk tjIjj&jWj (JAItIFICATICII irf 0 too v 141, 1, to a a 4 It cl It 4 sip 0 4 4 0 041000 00004 1000400 0 w ale 00000 0100 Ole 0,00000000000100 00 0 0 0- 0 0 0 0  S/196/61/000/010/026/037 E-19VE155 AUTHOR i Zarudio M,Ye' TEVIE: Parallel operation of high-frequency generator machines TERIODICALi Roferativnyy zhurnal, Elektrotekhnika i energetika, no.109 1961, 10, abstract IOK 71. (Vestn. elektroprom-sti no.12, 196o, 38-4:1), TEXTs The distribution of active powc-ir.between generators driven by induction motors and operating in parallel depends on the torque the torque characterist.4,cs of the motors. If characteristics differ, one method of corioction is to reduce the voltage on the motor terminals, by means of reactorij, in two or, three, phases. With this.method of correction full use of convertor power can be made during parallel operation. When synchronous motors are used, the active power is distributed between the.,generators by controlling.the inotor fields. Whether 1he-drive be by synchronous or by induefion motor, reactive power in redistributed between.generators operating in.parallel by generator field control. other things being equal, synchronous Card 1/3  Parallel operation of high-frequency.. 15/196/61/000/010/026/037 ~194/EI55 Inctor drives'extend the range of stable parallel generator operation,as compared with induction motor drives. To improve the-quality of control it is advisable to iials individual controllers in which the necessary distribution of field current is ensured by an automatic control circuit and group contr,)l by a central contro I system. A circuit is showa :ror the automatic equalisation of field current of three genisnitors which gave satisfactory results in factory tests. A rough synchronivation method was preferred for connecting the generators in pikralle13 hetre it is.perm:~ssible to connect the machines with full field and, ail rated load, with speed differences of up to 1.5%. An oscillo gram is,given of the transient process whein parallening a gcinerator type ar-100-2500. (VG-100-2500) by this method. Fiscure captions Voltage control cArcuit for generators with contro, 1. and: autornat ic Iqualis at ion of-field currentsi. seneratorsi 'mW voltage transformer; ycpll YCP21 Y(.,p- equalising resistancenj eff -.voltage stabilisert atyp amsplidyne field windings;.'am contzol transformer, Card 2/3  - v        Morphological changes in the basal. vrgyropl~iliz subatance of the liver and 3 some meotitris of tbo nervtme iyotem during? .1, 022 .2 colienterit13-in breaf -fed :Uifaritne Tnidy ~5141 15. 6-43!; t6 (M.IRA 1797) Differential diagnosis of morplualagical ohnnger> In the irittmFtinfr In dyeentery and Oboliontorlt:10' An broamt-Tod md Veri young obildrane WA*06-246 I& Tz kafedry patanatumii zav, - prof6 V.G* Molotkov) Ebolenskogo gonudarsttennogo medi-tainskogo inatitutas    (AORTA)     SHUL'TS, ZARUDNEV, P M. Basin of the Kabul River; a brief hydroloFical survey. Trudy 're', Az. nauch.-issI. gidrometeor. inst. no.3.8e-130 16o. (MIRA 14:0 (Kabul Valley--Hydrology)  Ul a pz. coo- .10 low . 1: .0 g. -d, A3 -0 .3 1 s ~s Av t a -4 te kll -0 -A .0 -1 a. 0 0. 0. 4". 5 .1 LO 144 JP 0 0.3 3 :1 1 Z-8 a UN. u 1 3.4 HV. f": ;Aq 4. V to Ao .00 a 'to g D"a .,A i5 1-00- 10 Z Zz zostv~, 7: . I U- --, v 3 ~: :3 - - ;4.4 00 Cj C"O 44 r Ju OE 4. j!j 9V Eg. 14, 0. M go r2, 00 0.- U. V 14. 13 "A* , .. , -:4 2 a 0" em 0.4 '.41, c;v a a ld r. ui ILI ii in" -An     SELENIDO, Ye.G.,,'prof., doktor"tokbn. pauk; MIGLINO B.A.; PAPCKI K*Kay prof. doktor takhno rmiuk; ZARUBIN, A.P.; RAGOUN, NJ.; SHIMIAMP.S.; CIMCKOV., Ya.B.; LIVSHITS, S.M.; BESSAIEIWNYY~ X.I.; LO."001ft'D.V.; SABLUIA, Z.A.-I HOUX(PIp LV.; GUREUVi A.A.; FATIYANOVj K,D. ZRELOV, V %; ZARUDOY, BAROITP~ I.G.j Lb BUTKOV, A.A 'VI14A,.Ye.S.; TITSKLYA, B.F., ved. red.; FEDOTOVA, 1.G., tekbn. red. [Flotor, jet, and rocl,*.'et fuels) Motornye., reaktivnye J. raketnye topliva. /+,-,, perer. i dop. izd. Moskva, Goo. nauchno-tekhn. izd-vo neftianoi i gorno-toplivnoi lit-ry, 1962. 7.43. p. KRA 15-.2) (Rockets (Aeronautics))-Fuel) (Tet propulsion) (motor fuels) MEMO SOMARM  URBANSKI, Tadeusz; SKOWRONSKA4MAJINCWA, Barbara; MATUSIAK, Arkadiusz; 'TYCZY,NSKI, Adam; ZARUKIEWICZ, Maciej Reactions of aromatic amines vith nidine. X. Alkyl and arylalkyl derivatives of amidinourea and their reactions-with amines. R.ocz chemii 31 no.6:1383-1388 t59. (EEAI 9:9) Katedra Technologii Organicznej II Politechniki Warszawa i Zaklad Syntezy Lekow Instytutu Gruzlicy szawao :(Amines) . (Cyanoguanidinel (Alkyl Groups) (Aryl groups) (Amidinourea) (Aromatic compounds)  P/PI5/62/000/002/002/002 DOOI/DIOI AUTHORS: Widaj, J4zef; Szeliga, JSzef; Zarukiewicz$Mjaciej TITLE: Silver pastes used in the manufacture. of r&JIo ceraigca PERIODIM: SzkIn i ceraimika, no. 2, 1962, 47-57 TEXT: An informative review isgiven of the composition, manufacture, and application of-silver Ipastes used in coating radio cerantics with a layer of silver. -A great number of usable constituents are listed and their effect on silver paste properties described within the scope of a cursory treatment. There are 11 figures and 4 tables.   --7--- 3/079/60/030,/05/44/074 B0051 016 Zerumaj,_D* 3 AUTUORS; BankovskiyL~~Yu.A. FLdotovaL L. A- TITLE: ~Syntheeie of 5-Bromo QuinqLline~ -IERIODICAL: Zhurnal obshchey-kvimiig 1960, Vol. 30, No, 5, pp. 1614-1616 TEXT., The produetion of 5-~bromo quinoline-from m-bromo aAlline by means of the Skraup ByntheBis requires a long distillation with water vapor. Afterwards, the 5-bromo quinoline must be extracted with other from large quantitie6 of the distillate. Besides, an about equal quantity of isomeric_ 7-bromo quinoline is formed the complete separation,of which is very dif- fioult. The yield irt pure 5-bromo quinolino in this synthesis is never more than 10-20% (calculated for m-bromo aniline). Also the syntheais of 5-bramo quinoline by diazotation of %aminoquinoline and substitution of bromine for the diazo group (Ref. 2) how several shortcomingo which are discussed in the present paper..The authors devised;& method of synthesizing 5-bromo.quinoline on the basis of 6-aminoquinoline. According to N. N. Vorozhtsov and 1. U. Kogan.(Ref. 6), 8-aminoquinoline cian also be obtained easily by amination of 8-hydroxyquinoline with ammonia in the Card 1/3'  Synthesis of.5-Bromo Quinoline S/079J60/030/05/44/074 B005/BO!6 presence of a=onium bisulfits. Go 1. IdIkhaylov 7) impro'~'ed this method, and was able to raise t6 yield of 8-aminoquinoline to 81-83%- The-authors used this method for the preyaration of 8-aminoquinoline. Tht ~synthesis of 5-bromo.quinoline devised is accomplished as follows; 8-aidnoquinoline is acetylated in benzenic,solution with acetic anhydride. 8-A'Detylaminoquinoline which result's in good yield is not isolated.but brominated in the.resultant reaction mixture at 0-213C. In thisi way, 5-bromo-8-acetylamiuoquinoline is obtained in yields up to 98,.5%- BY hydrolysiewith bydrochloric acid, the acetyl group is split off. The resultant 5-bromo-B-aminoquinoline is diazotized in sulfuric acid solution at -20. By reduction with copper powder and alcohol, the diaza group is replaced by hydrogeno and 5-bromoquinoline resultq as end proiuot in a yield of 40-51%- In an experimental part, the total. course of synthesis is described in detail. The scheme of the synthesis is given as well. There .are . I Ireferences,,4 of.which are Soviet* ASSIOCIATION: Institut khimii Akademii nauk Latviyelcoy BBR (Institute of Chemistry of the Academy of Sciences, Latviyakaya 35HY Card 2/3   000 0 ''36 2. SOV96-159-11-14/22 AUTHORS: Deych, M. Ye., Doctor of Technical. Sciences, Zaryankin., A,-Ye., and Sherstyuk, A. N., Candidates or TeclEical Sciences T Blading for Supersonic Speeds -.,New Designs of Nozzle M -Idb�Qi: _'4599- 11, pp 6r---68 (USSR) ABSTRACT: There is a need for high--4fficiency.nozzle blading, for supersonic speeds. ExpandinE nozzle bla(le ~rbfiles developed in recent years are of high efficiency under designed operating conditions, but the efficiency falls off rapidly when the conditions are changed. This will be seen from curve 1 of Fig 1 which gives profile losses as function of Mach number for expanding nozzles type TS-2V, At the design condition of Alach 1.6 the losses are only lWo, but at Mach 1 they beaome 31%. 'Normal nozzles with contracting channels work well only at moderate supersonic speeds; BeeI for example, curve 4 in Fig 1. Methods of~reauaing the losses at supersonic pressure-drops may be evolved from the formulae for the change of dixection of flow in the skew section of the nozzles. To this end sections before and after the nozzle are considered, ac shown in Fig 2. Card 1/4 The equations of continuity, conservation of energy and  66570. SOV/96-59-11-14/22 New Designs of:Nozzle Blading for,Supersonic Speeds condition are applied to these two sections and formula (1) is derived for the relationship between the flow conditions before and after the blading. From this formula it is easy to determine the change of direction of flow in the skew section of the nozzle at supersonic --pressure drops, and formula (2) accordingly is derived, If an experimental relationship between the velocity ratio and pressure*ratio is used, formula (2) is very accurate. The accuracy is evident from Fie; 3, where experimental values are compared with values oalculated by formula (2). It has been shown that in nozzles with expanding channelsl for example those of the Moscow Power Insti-bute,-the mean angle of discharge does not depend much on the operating conditions. For this case formula (2) may be used to determine the relationship ,between the velocity coefficient and the pressure ratio, as seen iA Eq (3). The comparison of theoretical and experimental results given in Fig 4'confirar. the good Agreement. This agreement was obtained without dbtailed Card 2/4 analysis of the,nature of flow in the blading. Hence,  SOV/96-59-11-14/22 New Designs of Nozzle Blading for Supersonic Speeds that the discharge ..,if the blading is made in such a way angle does not depend on the operating conditions, than the losses must inevitably rise when the Mach number is decreased, In,this case the losses depend only on the loss under design conditions of operation and on the pressure ratio. This conclusion served as a criterion of blade shape for supersonic pressure-drops. The blade shapes should ensure variable discharge angle on change of pressure-ratio and, therefore, the discharge portion of the rear of the blade should be slightly bent so,ae to increase the discharge area. Suoh blade profiles differ from ordina37y nozzle blades livith contracting channels only in the shape of the back face of the blades. A group of new blade profiles that meet thisrequirement are shown in Figs .5 and 6. TA)ss as a function of Mach number for the new profile TS--2RV is plotted in curves 2 and 3 in-Fig 1. It will be seen that for blading of similar efficiency at 1.5 the new blading has much lower losses at lover Mach numbers. Blade shape T8-lRV is recommended for nozzles where the Maoh number is 1.3 and blade shape TS-2RV when the Mach Oard 3/4 number is 1,5. Blades with backs of the new shape should  66370 BOV/96--59-11-14/22 N61N Designs of No2zle Blading for Supereonic.Speeds ba Ua9d for guide-vanes and working-, blading in stages with long blade6,-and in partioular for the last stages of.-condensing,tvrbines which operate at high super- critioal-heat-drops. In the root section of such stages, the velocity at the outlet from the guide vanes is, as a rule, appreciably higher than the speed of sound, The discharge angle, from runner blades is aloo suparnonic n-Dar the periphery. As the last'stages ~may opera-be under very variable conditions both guide vanas and rurmer bladdes ahon1d have a curveA back in the skew section. There are 6 figures, 2 tables, and 2 Soviet referencos. ~ABSOQIATIONt Moskovskiy.energeticheski-y institut (The Moscow Power Institute)  EESSOKOV? L.A., doktor tekhn.' nauk, prof.; DIVIDOVA,-I.G.; KOTOVA, L.F.; LINNICHERIKOt N.M.; OCHAR~ V.-V.; SEREDNVSKIY, L.M.; VOSTRGKh=V, N.G., retsenmt; OLWEIRVICH, V.P., ratsen2ent.; FILARETOVA, A.5., retsenzent; ZARUDI, M.Te.;j Te, V, $Lt. retsenzent; ZAIKA,- prepod., retiMM" .[Text~ook,on the,theoretical principles of electrical engineering] Zadachnik poteoreticheakim osnovam elektra- tekhrdki. CE~rl L.A.B~ooonovi dr. Mbakvnq Vaes, saochnki energ. in-t, 1963. 212 P!p (MIRA 16t10) (Electric engineering)    ORAZMTOV, Z.; GORELKIN, L.M.-, POTYAYEV, M.Ye.,-,-ZAMJDI,--Ye*O., ustodist, 14.1TRIIEV, V.S.; VASILITNT, A.V.; GORSHENKOT, N.G,; MMOVSKIY, 0.0.; EMYAPKUWVA. T-Sh. Lattnrs to the editora. Oang. v nbkole 22 no.2:72-76 Mr-kp (14IRk 12:6) 1.1-ya ohkola pog,, AndraynOm Turkmonakoy SSR (for Oragmetov). 2, Shkola pri nhakhto No.11 Kuracl~ttyavnkopp rayonn StAvropol skogo kraya (for (lorolkin). 3. Andreyevskaya semlItAnygya ahkoltL Penzenskoy oblantl (for Potyayev). 4._Bashkirskly lnstitut usovershenstvavaniya uchiteley (for Zarudi). 5. RayonTqy pedagogiche- skiy kabinet s.Kich-Gorodok Vologodskoy oblasti (for Hitenev). 6. Alskneyevskaya ghkoIla Stalingradakoy oblasti (for Vasillyev)o 7. Yaltbromakaya sbkola No.2 Moskovskoy oblasti (for Gorshankov). S. 47ya sbkola g.Alma-Ata (for Rutkovakly), 9. 64-Ta ableola g.Alma-Ata (for KusyapkuloVa), (Geograph3r--Study and teaching)  . .1. - - .~ - .. . I ~. ~ ~. .I . I , I- - ---l -..- . f- - ---- li, 5 , -, -AR3 rynhl~K.~--tmipl ?~-, ~,; - NM - . - illi& -; i, ~~7 - , - ~, i,~ , ~~ - 'Y I- I- - ~ :--, - . I .. . . - - .- - -- - - - - - - - - - - - I - - - - - -.. . - - -,- - - . I - - - - - I-   ZOUDIN, V. V. "Pathological Anatw-y and Certain Qua3tlons of the Patho_t-,en~-sis of Discmtery in Early Childhood." Voronez-h State 'HvId Tist, (Voronezh, 1954) (DisaertaT,ion for -the Wgreo of Candidate of Fadical. jelencen) SO: Knj.Zhneiya Lotonlal~ No. 32, 6 Aug 55    USsR/marmicoln, v and Tox4cology Varioua n-cparations, V-7 195U 9d5. u or U.A Inst X4byrilitm Goc icty of I Ol 0 ri c 0 --Aald t om ~i 0 t 13 . Title On tha Qucstion of-Dipsoluti-on ofGallbladdar S-Lo;:L,;s in an Orig Pub Gla. nauchn, rabot. Mi)(L)ys;i&,ro!-. o-va patologoana Onrcv~, scIztO5.Ycy p,%tofiziol-., Kwybyshcv, 1957, 119-12~,. Card 1/2 in vitro show-C. a bAtur solubility of ~Ia_u- ~Ixp bladd-x ston7sl-GsTin preparations 0.72) (utxtur,; of 1 part pia,.~ii~; wil'-4 2 parts ctlicr) as cor&Car-ld with rvth~x, pinelic:3 (1), Ul- of dogs and camphor oil. Study in vivo was conduct,2,. on dogs into whoso Callb-laddia GS oV Ya7ii werc plac.-c! jur(,Acally. TIT was introducA ~afo- cutaarxnsly in a do,3a(;-, j-2 1, U-16 kg and perorally 2 c;/16 29 ----------- -------   m   sov/86-58-8-17/37 AUTHOR: P.P. Zarudanii Col. and A.A. Bratkov$ Engx Majj Candi- 4~m _+ k a Fi ee ciences TITLE: Rocket Engines (Raketnyye dvigateli) 3. The Propellants of Rocket Engines (Topliva raketnykh dvigateley) PERIODICAL: Vestnik Ivozdushnogo flota., Nr 8j 1956, pp 43-48 (ussR) ABSTRAC7,:. The authors class rocket propellants into solid and liquid propellants. The rocket engineB axe also classed accordingly, i.e., solid fuel and*liquid fuel rocket engines, They point out the advantages of the solid fuel rocket engine and the disadvantages of the solid propellants. They also point out the require- ments put on liquid propellants. The article contains the names of scientists who worked on liquid propel- lants: K.H. Telolkovdkiy, P.A. Toanderp Yu.V. Kondrat- yukj N.G. Chernyshev, V.P. Glushkop,G.1% Langemak. Card 1/2  Rocket Engines SOV/86-58-8-17/37 Liquid prdpellants,are classed into one component and two component propellants. A diagram showing,the sub- divis&ons of rocket propellants is given. Some names of single component propellants are also giVen. The authors discuss the oxydizer and fuel of the two com- ponent propellants separately, They mention several oxydizers and their peculiarities, They albo discuss fuels in the form of various compounds of hydrocarbons, their mixtures, and their featuxes. Finally, the authors me:ntion the possibility of using metals, their suspensions in liquid fuel, as well as metalorganic compounds and hydrides of metals as fuels. As possible fuels of the future they mention the colloidal solution of metals in fuels, utilization of free radicals, or nuclear reaction. There is one diagram.  Ikovnik; TMATICOV, A*A., invh.~myor. kind. tekhn.nauk ZARUDNIT, P.P., podpo Rocket engines. Part 3: Puel of rocket engines. Vast. Voted. 71. 41 no,6;43-0 Ag 158. (Hiu 11:9) (Airplanes-Rockst engines)  PHASE I BOOK EXPLOITATION SOV/3685 Moscow. Institut khimicheskogo mashinostroyenlya Teplovyye,protsessy v promyshlennosti (Thermal Processes in Industry) Moscow, 1958. 145 P. (Series-. Its: Trudy,'t. 16, No. 2)- 1,500 copies printed. iResp. Edi,-BS.N. Shorin, Professor; Tech. Ed.: B.K-. Shorin; Edi- toria ard: S 1. Shohepkin., Professor, Honored Worker in Sclence and*Tech~ology (Resp. Ed.);' ' A.-M, Laatovtseir, Profeasor; N.M. Karavayev, Professor;, D.T. Kokorev, Dotent;,L.V. Petrokas., P~rofessor; P.M. Reshchikov, Docent; S.1f Sokolov, I 'Irofessor; S.I. Sokolov, Professor; A.M. Khodzhayev, Docent; S.N. Shorin, Professor, N 1. tasov, Candidate of Teohnical. Sciences (Scientific S~cretary~. PURPOSE: This collection of articles is Intended for physicists, chemical bnd industrial engineers, and technicians Interested in problems of'r-hermodynamics,and fuel combustion iii variOU13 industries, JCOVERAGE: The book contains 11 articles which give ~heh re8UltJ3 Of CaidJ/3  Thermal Processes in Industry SOV/3685 reselaroh on heat convection, combustion dynamics, fuel economy, and the me6hanization.:of heating processes. No personalities are mentioned. Refdrences accompany some of the articles. Sokolov,' A.A. Study of the Heat Conveotion of Molten Gla-es in Tank Farnaces With Computations Based on a Mode~l 3 Sokolov, A.A. Use or the Electrothermal Analogy Method to Demon- strate the Transfer of Heat Through-the Tank Wall of a Furnace for M61ting Glass 17 Yermolayev, O.N. _Experimental Study of,a,GaB Flame 23 ,,MaS*kov', V.P... and V.V. Sheloumov, Theory of Heat Conditions in a Tunnel Furnace for Semicoking 37 .Pillskly, I.Ya. Investigation of Dry Quenching of Coke 55 Otroshko, N.T. The Problem of Determining Specific Norms of Fue-1 .Consumption inthe Production of Magriesium. Chloride 61 Card 2/3  Themal Procesises in Industry SOV/3685 Pinayev,,A.V.,; and I.B. ZhilinzIrcly. Experiment in the -Use of 3 Coil-Type Heat 9x6hanger in the Production of Resins 71 Volkov, M.A. Persistence and Effectiveness of the Combustion of Low RrU Gases in Cerami6 Buarners* 83 ZarudnM_I,.B.,,,. S.3 Duninin, and R.S, Nesiolovskiy. Ovorall, 'Re-c-Sa-nization of the Furnace Procei3s With Burning of Fuel in a Bed 103 Avetisyants, L.B. ~Burning Gas Used for Blow-Down of Water Gas Generators 121 Zhilinsiciy, I.B. Problem of Methods f6r Computing the Economic Efficieney'of Steam Power'Plants 141 AVAILABLE. Library of Co ngress TM /jb Card 3/3 .5-26-60