SCIENTIFIC ABSTRACT YERMOLENKO, P.I. - YERMOLEV, B.N.

YMMIMIKO, P.. I. Thp ladVt of a working fmily. Sev.prefselysy $ ne.8:W?O -Ag-. '57. (KUU 10: 8) l'staleplavi 11 sheuk RMN son maskepAsa-111 (cost and stand-rd bf U*1 ng  SYCM-,T, A.Ya.f MIGALI, -II.K.; Prini-11 uohastiYOt T314014M, L.I.; HIGALI, YeLP.; Stability of complex compounds of gome metals wit% phenylalanine,, lysine and tyrosin. Biokidmiia. 27 no.ls25-31 Ja-,T 162. (MIRA 15:5) 1. StALtO University., Kishinev. i',ALANIIZ) (LYSINE) (TYWSIN) (OMMOCTALLIC COMPOUNDS)  4HOMIAp Ir2aLi [Sonka., 1.]; MUMIMMOt R=n Pentose cycle and ite role in medicine. Vapo =do JCIUo 7 zw 2: 115~-,120 Mr-APJ t61. (MIRA 21,t 61 ,~-Ya terapevtioheskaya klin4ka Karlova universiteta., Praga. (PEWOSES)  GELMNSHTEYN, A.Bel YERMOLMO R.T, . . Lu-aba:Lty Distiller7 is an enterprise of commmist laN,,r* Ferm. i spirt.prom. 30 noeSSI-3 064. (KIRA Igil.)  PAVIMO 1, V. kand. takbn *mUk; SUDLER L. p i~xh; XP_Mj-$NKO S. kand. tekh. na:uk Noot efficient parameters fim a 2umber bar idth a capacity of 3000 tons. Asch.tranap. n,ossri,41 Ag I C. OLIM 31,-.3) 19  BREDIMIKOp S., kand.tekhn.nauk Iffsot of the gap b~WqOn the dhip bun and the farw of a fin on the Uteral pressure and the mownt on the rudder skaft axis, Rech, tranap, 20 no* 3:30 Mr 161# (MM 14: 5) (Ships-Hydrodynamics)  AP60178421 SOURCE CODE: 'UR/0147/66/000/002/0009A)018 AUTHOR: Yermolenkg,6.5. D. --ANN Mom--- ORG., none TITLE: Nonlinear theory of wings of ainall aspect ratio SOURCE: IVUZ. Aviatsionnaya tekhnikap no. 2, 1966, 9-16 TOPIC TAGS: subsonic aerodynamics, compressible flow, lift, aerodynamic drag, win& tip vortex, vortex, aerodynamic pitch, rectangular wing, aerodynamic force ABSTRACT: A method is outlined for calculating the aerodynamic-Eroperties of rectangular wings of small aspect ratio In a subsonic compressible gas flow. The T_'_ -ce of lift and pitching moment coefficients on angle of attack Is noniinear epenZ,;n taken into accouat, as well as the rather large critical values of 30*-40* angles of attack and the large induced drag. The method is based on ai certain vortex arrange- ment and accountis for nonlinear effects of the angle of attacksthat is, 1) the de- pendence on the aspect ratio of the correlation which exists between the angle formed by the wing surface and elementary vortex sheet and the angle of attack and, 2) the variation of thiii correlation with angle of attnck and Mach number. A gyattm of basi nonlinear algebraic equations is derived and solved by the method of successive approximations from which the strength of vortices r,'then the coefficientg of normal force, lijFt, and drag are calculated. The coefficient of the pitching moment  ACC NRt AF6017821 with respect to the leading edge and the distribution of the center of pressure are detemEned at a - 000.10% 20% and 30% The resultS platted In graphs, agree well with available.oxperimental data in a wide rang* of angle'of attack and Mach number13, and show that at small a they coincide with those obtained from linear theor5 Reliable results can be obtained on a desk calculating machine by replacing the wing by two vortices., Orik. art. has: 6 figures and 35 formulas. [AB] SUB CODE: 20/ SUBM DATE: 22Jun65/ ORIG REFO. 005/ OTi RZIP: '005/ ATD PRESS-;5'?/l A!~j. CGrcL 2/Z  . ..... ..... E /V Al, G SULIKIN, M.D., kandetakhnonsuk; kandetekhm,nauk; MMMVi. L.Ta., ins%. e Fixing rudder end p2atee to improve the ease of vessel handling. Rock. %ransy. 17 noo4:31-32 Ap 15?. (KIM 22: 4) (Steering par) (Ship handling)  TNMLMO,o Sh kiuA~tokhn.nauk lb,drodywide ebaracteristies of twin rudders. lbehtramp. 19 lio.5:26-28 NY 16o, (MM 13:7) (Steering gear)  10, 1 Z 1b AUTHORS: 2W 0/508/6'0/030/000/011/013 D234/D306 Yermolenkoq S.D.p and Voroblyevq N,P. (Novosibirsk) TITLE: On agreement with experiment of characteristics of rings with finite span at supersonio velocitiest computed according to the linear theory PERIODICAL: Akademiya nauk SSSR- Institute mekhaniki. Inzhenernyy abornik# ve 30, 1960v 131 - 138 TEXT: Many models of isolated wings of different form in plan have been tested in supersonic wind tunnels. The wing elongation X varied between 1 and 2, and the sweepback angle Xer on the line 0 0 of chord centers between -40 and +40"A11 wings had the same re- duetion (equal to 5982) and rhombic "supersonic" or symmetrical "infrasonic" profile with comparatively small nose radius, Relati- ve thickneso of profile B = lOp8 and 6 %. Testa were made accord- ing to carefully checked methods. The characteristics obtained from the experiments (continuous curves on the figures) are com- Card 1/5 j  280(Z 5/508/60/030/000/011/013 On agreement with experiment ... D234/D306 pared with those of infinitely thin wings (B = 0) having the same form in plan (dashed curves) computed according to -the linear theory shown by Ye.A. Krasillshchikovia (Ref. 31 Teorlya kryla ko- nochnogo razmakba v szhimayemom potoke gaza (Theory of a Wing of Finite Span in a Compressed Gas Stream), GostskILizdat, 1952) (Case of Supersonic Leading Edge) and by U.P. Kbilton (Ref, 4: Aerodi- namika bollehikh alkorostey (Aerodynamics of Great Velocities), Izd-vo inostr. lit. 1955) (Case of Infrasonic Leading Edge). Three figures give the comparison of calculated and experimental charac- teristics of' three wings at K = 2: with infrasonic leading edge (1-P-10)t sound-velocity 1,,e (6-P-10) and supersonic l.e. (10-P-10) These examples show that the calculated values of the coefficient of lifting power are larger than the experimental ones in all ca- ses, the deviation c Y between the two values being larger for ne- gative Bweepback angles of the wing and smaller for positive an- gles. The calculated values of the coefficient of the longitudinal moment m. Onoments. are calculated with respect to the nose of the central aerodynamical chord of the wing) at given values of the Card. 2/5  21M 8/508/6Q/030/600/011/013 On agreement with experiment ... D234/D306 coefficient oy are also larger than the experimental ones. The quantity (dc /da)c, = 0 varies comparatively little with the sweep- back anglev according to both calculated and experimental data, but it increases about 28-370/os For the wings considered here the calculated values of dc y/da are about 10-20 ~& larger than the ex- perimental ones. The quantity (dmz/dcy )cy=.O which characterizes the position of the aerodynamical focus of the wing from the nose of the central aerodynamical chord, increases smoothly when X Br varies between -400 and +400v its increase being considerably lar- ger for ;L = 1 than for A = lv46 and A = 2. The calculated values of this quantity are larger than the experimental ones, the diffe- rence being larger for negative values of X or (10 - 20 %) and smal- ler for positive values (up to 10 %). These differences are gene- rally explained by the fact that-the calculated values of the de- rivatives reifer to a pj~Ate (Z = 0) and the experimental ones to wings compoeied of rhombic profiles with comparatively large rela- Card 3/5  S/508 iOT030/000/011/013 On agreement with experiment ate D234%D306 tive thickness (Z = 10 %). The investigations show that the diffe- rences between calculated and experimental data decrease when the relative profile thicknes becomes smaller. To.find the cause of the difference be"ween calculated and experimental datat pressure distribution was ;easured on the surfaces of several models for different at-tack angles; results are shown on three figures). The calculated results for the front part of the wing are close to the experimental data (except for some cases referring -to end sections) In the rear part of the wing the difference between experimental and calculated values of dB7da is largerv but it decreases when the relative profile thickness becomes smaller# For wings consis- ting of thin infrasonic profilest the calculated values of d~/da are always close to the experimental onesp except for narrow strips at end sections and trailiAg and leading edge Correspond- ingly, the calculated characteristics dc Y/da and dmz~dc y in the interval X =: 193 -01 291 investigated by the authors are closer to the experimental values than In case of thick wings consisting of rhombic proftleseThere are 13 figures and 5 references: 3 Sovi t- Card 4/5 N  28008 B/508/60/030/000/011/013 on agreement with experiment too D234/D306 bloc and 2 non-Boviet-bloc. The reference to the English-language publication reads as follows: W.G. Vicentip Comparison between theory and experiment for wings at supersonic speeds# Second In- ternational Aerona*tical Conference, N,,J., 1949p P. 534-552 [Ab- stractor's note: Two of the Soviet-bloc references quoted are translations of non-Boviet-bloo publications]. 3UBMITTED: January 20p 1959 Card 5/5  A.*.; datsentp kand*' takhn. nauk; YEMOLUKO, S.D. kand. tekba. naukj GRIGOROV,, Vj., insh. L&fti'ti6&tiM9"-tb4-a6rOOWMc5 of ps flow in a ICT-5 boiler. Trc*r NIMA so.10172414 162. (NIU 16 t 6) (Boilers, Vater-tubs-Aaroor"Mies)  PAVU?.NKOp V.G.,, kand.tekhn.nauk; SANDMv L.B., insh.; YERMOLEMKO, S.D., kandAakhn.nauk Determining the resistance of barges and barge tratins by the results of model testing in vind tunnels. Trudy FIIVTa no.14z 3-17 163. (NMA 1734)  L 44028-66 E' T(d)/E~-IT(1)/I-'!~'(m)/4WP(m)/EWT(m)/E P _(w) MC NRs AM"OM SOURCE CODEt URI AUTHORt Jtroqlerkos S. D.: Barinov, M. T. ORG: none V r;0_00010031060'160i67' TITLE: Calculation of dovnvash angles behind rectangular win Ls of small aspect ratio in subsonic flow by nonlinear theory py SOURCE: IVUZ. Aviatsionnaya takhniks, no. 3, 1966, 3-10 TOPIC TAGS,. subsonic aerodynamics, subsonic flovi dovnwash, angle of attack, non- linear theory ABSTRACT: A methcA Is described for alculating the downvaAh angle, taking account of singularities of the flow over rect n~ccular win" of small aspect ratio. The method is based on a nonlinear theory which utilizes a certain number of assumptions deve4ed by the author (IVIIZ. Aviatsionnaya tekhnika, no. 2, 1966), which makes it possible to! reduce the problem to solving a system of nonlinear algebraic equations by the methodi' of succe13SiVe approximations. It is sufficient to replace the wing by two vortices The downwish angle Is calculated by the fo in order to obtain acceptable accuracy. mula, tan c - -Uy/1, 'V0 + Ux), where Ux and Uy are the projections of the induced velo- city u at the point considered. The experimental data presented In graphs show that the method developed here makes it possible to calculate the downwash angles behind Card 1/2  6 -A NR, AP6030246 rectangular wings of small aspect ratio at either small or la:rge angles of attack when the linear theory yields incorrect results. Orig, art, hasi 5 f1gurea and- 25 formulas. [AB) SUB CODE: 20/ SUM DATE: 22Jun65/ ORIC REF: 003/ ATD M9SSII 5076 1 7 d 2/2 blir,  TERMOLENKO, S.Y. Histological and histochemical immUgation of Vw fat body as relaied to the wAturation of Somde In the prodaUry beetle Cryptoolasmus montrousleri Mile. (Colsoptera, Coce-Inenidae). Zut. obos. 42 no*At56-76 063. (WRA l6s8) (Ladybirds) (Parasites-Scale insects) (Insoctiv.-Dovelopment)  . I .! ' - -1 1 !1 - I ~ 17 - 'I'll 11 7,-Il ... I -, t! L1 7 ,! - ~ ~t t I " I j - " T11-j" 11 1-, -, 1 11-111, .. 11- -... I ~ .. 1-1.11--.1 ....... ... .. . - - . - . . . . .  MIBXOLUKO, V. Important condition for the rapid cometructlou oct & mine. Sots.tru&. no.5:3.0-54 Ny 156. (Co&l *I"* wd slaing) (am 9: 0) i;  YERMOLENKO . V. Hydroelectric Power Stations At the Kakhovka bass. Mol.Bol'sh. 10 No.11 1952 Monthly List of Rnasian Accessions, Library of Congress, Auguol, 1952. Unclassified.  . ................. .. ....... .. .. TaMPM40't . V. - . Water Svwply, F=al Water-supply installation on livestock form. Sell. strol. Ito. 4, 1952, 9. Monthly List of Russian Accessions, Library of Congress, lovimber 195 f"3% Unclassifled.  MINOMM, IN, kRnd. biol. nauk ft Auths-head soth. Zma. ta prate:I& no.9:20,S 159. (KM 13:1) (motile)  YBRIMLBIMOo T.9 insh. "~- .-I., - 0 M"foca"t'4ed apartment houses of few stories, Shil, strot. aa.6tn-n 15g.. ("IRA 12:10) (Apartment houses) (%illince, Prefabricated)  TUMLMMO, V.. inzh. '59. () & 13:14) Doub-la-Ze"a"In-Vi-rdows. Zhil.stroi. no.11:25-27 aR (Vindows)  11 H 'P,' , , V., iush.; =DMV, V., lmUd.tOkhn.m&Vk I[*@ about doubl"ash windLowso Zhil.strol. no*7tl5-16 JI '6o. (=A 13:7) (Windows)  IFANASIYEV$ A M - YER1,101INKO V A. - USELEV V.A.p 2asl. deytitel nauki tekh'n. muk, prof.; MEMUKUY', I.A.; OVS7111INIKONA, M.IV.; SLOWDCHUGIT, A,Yti.; TYANELOV, N.N.; FEEDOROV, Yu.P.1 ISVEY, 1,7u.j bJ'2):GVt A.V., doktor tekhn.nauk, prof., retsenzent; FHDOROVp Yu.P., kanei. tekhn. naukp nauchn. red. (Structural mechanics In examples and problem) Struitell- nala zekhaniks, v primeraRh i zadachakh. Moskva, Stroi- izdat, 1964. 341 p. (KIRA 18:1)  BIRSOM. U.N.; Y12NO10119. T.D.; VILOOT, A.A. Dasoustration of the diffraction spectrum. lis.r shkolo no.6:41-43 153. MU 6tlO) 1, Zmfedra fisiki grymkop mditslaska& Instift4a issul I.J.8talina. (Diffrootion)  YEWIMM, Va. "PaWk- Srwlmmtlom of the thorma coofflolentm of vat waterlials. Zhur.tokh. ~ fie. 25 :no.5s796-804 Ky 155. (ULU 817) (Heat-4onductlon)  Name YEMMERK01 V. D. Dissertation i Using physical characteriatiC3 to Study forms of the bond of moisture with food materials Degree Doc Tech Sci Defendel At Min Higher Education USSR9 Fwcaw Tech. nological Inst of the Food Industry Pub3ication Date,, Place 1 1956., Moscow Soarce Fnizhnaya Letopist No 6,9 1957  "11--1111le'ZI-4-11-61, I-- /J ---- - - yj3M,- 9,n .. ir-166MMOO Hygrometric characteristics of foodstuff. Trudy XTEPP no.8:192-206 157. (Drying aparatus-Foodl MIRA 10:12) (Bygrosetry)  OLIM, V D. V App cation of sethods involving the thermodyuuats of Irreversible APP pro asses to mass transfer phenomena In colloldaw. Insh.-fis.shur. ro 0 p no.It #1 no. 024-126 Wr 160* (N33A 13:8) 1j Xlmmkly moditeinsty Institut is. I.V.Stallm ~ Sielferopoll. (Colloids) Oke* transfer) (11dat-41ransmid a ion)  - mmou"NKO, 7 D InvestUp.tion of mass transfer in colloids. Inzh.-fts.sbur. no.8:117-.119 Ag 160. (KIRA 13:8) 1. KryuskAy me1itsinskiy institut in. Stalina, g. Sinferopoll. (Colloids) (Mass transfer) - -- -A  AaMdY-6-18of the types of bondize between moisture and food producte by the methods of physical chameteristico. Irv. ,Mi.ucheb.sav.; pishch.tokh. 1t240-3.46 161. (KIRA 1493) 11 Xryanskiy maditinakiy i6titutp Kafedra. risiki, (Food-4ftlysis) Weat-Tranoxission) (Mass trwsrer)  MMWIXMO 0 V. D. Key method for determining the maistare AlffealvA c4afticlent of moist materials. Insh. -fis., shur. 3 no.100042 0 062, (IORA 15;12) 1. Krymakiy meditainskiy institutj Simfmpoll. ODiffusion)  ~-ORTFORAWRIN, S.Ya.; NMOZOTA. G.T., rod.liid-va; Elloccastmetion of stroots la Brussels] Is pftelkl is- konstruktall ullts ftlwoollae Moskva, Goo.ledm-vo lit-ry pe strolt., arkhtt. I stroll,smitirlalamig 1959* .154 p (Brussolo-.Ureoto),  5(2) SOIr/78-4-2-19/40 AUTHORS: Fialkovo Ta. A, (Deceas*d)t Termolenkojj, 1. TITLE: Salicylates of Lanthanum (Salitsilaty'l&dtana) PERIODICAL: Zhurnal n;organicheskoy khimii, 1959t Vol 4, Nr 2, pp 359-36 (USSR) ABSTRACT: The system LaCl 3-NaSal-120vam investigated by physico-chemics.1 methods. The formation ofJoAthanum salieylatt was confirmed by measuring the elootrio'.oonduotivity, The first dissociatior.. oonstant-of lanthanum_1alioylat* was calculated. The average value of K is %5-10 The thermograi of the compound was drawn,by.o. 10. Shot. The endothermal-effect at 2500 correspone."is to the sepiiation of~-oryi 'tiliisation water. !Two exothermal effects ooour.in the temperature ione,> 250o. The solubility of*lanthanum $alley 'late in a%4eous sodium salicylate solutione, with concentrations of 0-1*4 niol/1 is constant and ambunts to -3-10 45 L&3+ salT was mol/l. The solubility product I 15 determined, There are 4 figures, 3tablesp and 29 references, en&-9~2 17 of which are Soviet* ex."~'j /9 5  5W AUTHORS; Spivakovskiy, V. B., trrmolenko, V. I. SOV/78-4--3-12/34 TITLEs The Use of Electrodes of the Third Type for Investigating Gomplex Compounds (Primen'eniye elektrodov tretlyego roda dilya izueheniya kompleksnykh soyedineniy) FERIODICALs Zhurnal neorganicheskoy khimii, 1959, Vol 4, Nr 3, pP 559 - 563 (USSR) ABSTRkCT: 52he complexing process has been investigated by the potentiometric method, using electrodes of the third type. Yor this purpose metal electrodes Me/Ue(OR)n,H 20,11+were subordinated to the electrodes of the third type. The electrode H2/H20 Me(OH)nv*e n+ ~ which is negative relative to the metal oxide electrode, was used for inventigating the complex formation. This type of electrode is applicable only in pH-ranges in which the metal forms insoluble hydroxydes. In investigating the complex compound in the solution the activity of the complex and of the addenda of the ion to be Card 1/2  The Use of Electrodes of the Third Type for C;OV/78-4-3-12/34 Investigating Complex Compounds investigated must be taken into account. In investigating the complex formation with the electrode of the third type i;he initial concentration of the oomplextng agent is known and the concentration of the metal in the solution can be determined by analysis. The activity of the metal ions is determined potentiometrically. The activity of the zinc, lanthanum and yttrium ions was measured with the aid of the electrodes H 21"2 O,Zn (OH)2 Zn 2+ ; H2/H20,La(OH),,La3+ and 192 /H2 O'Y(OH) 39 Y3+. The results are shown in tables 1, 2,and There are 3 tables and 6 references, 2 of which are Soviet. ASSOCIATION: Inatitut obahchey i neorganicheakoy khimii, kkademii nauk (Institute of General and Inorganic Chemistry of the Academy of Sciences, UkrSSR) SUBMITTEDs December 24, 1957 Card 2/2  5(2) $07/78-4-6-26/44 AUTHORSe Tialkov, Yas A., (Deceased)t Yermolenkol VO I- TITLEs The Complex Lanthanum Salicylateis (Komplekenyye salitailaty lantana) PERIODICALt Zhurnal neorganicheakoy khimiig 1959s Vol 4, Nr 6, PP 1369 - 1376 (USSR) ABSTRACTs The lanthanum salicylates were investigated by the potentio- metric method. Two breaks occur on the potentiometric titra- tion curve in the case of one and two nol equivalents and one mol LaSal3 (Fig 1). The alkali quantity which reacts with .one mol lanthanum salicylatee was investigated in the case of difrerent pH-values and the results are summarizecl in table 1. They show that up to pH 10#5 two equivslonts alkali are consumed for one mol LaSal 30 The solubility of LaSal 3 in 2-5 mol NaSal-solution in dependence on the concentration of the soda lye was investigated and the results are given in table 2. It was found that two mol soda lye to one mol LaSal 3 are necessary for the formation of soluble compounds. The Card 1/3 addition of alkali lye to the system LaSal 3-9 20 causes a  The Complex Iainthanum Salicylates BOV/78-4-6-26/44 iseparation of protons under formation ok ffa[LaSall'Sal 21 1 'the compound Na r 2LLaSal211 Sal] is prodaced in the case of a -further addition of alkali lye, The first compound is little soluble in waterg whereas the second one can sasily bs solved in water. The -solubilitv of lanthanum salioylate in 2.86 9 RaBal in dependence on I ri soda lye after 40 lays-is given in figure 3. The dependence of the volume of the lanthanum sali- cylate precipitation in 2.86 tv NaSai on I n noda. lye was de- termined and the dissociation constants of U2EL&Sal 2 were calculated. The values K I- 3.10"~ and K2~ 1.10 were found. The complex lanthanum salioylates Na 2CLaBal211 Sal 0 and NaCL&Sal 2113 were produced in the hetero.- geneous system La(OH) 3-NaSal-K&OH-H2 0. The instability con- -17 stants of these c6mplex compounds are the followingi 2.7.10 and 1.5-10- 17. The results of the investigation of the hetero.- geneous equilibrium in the system La(08)3 (solid phase) - Card 2/3 alkaline solution of sodium salioylates are given in table 4.  The Complex Lanthanum Salicylates BOT/78-4-6-26/44 The new compounds N&[L&Sal" Sal~j and were isolated. The thermograms of these compounds were constructed &nd given in figures 5 and 6. There are 6 figures, 4 tables, and 3 references, 2 of which are Soviet. ASSOCIATIONs Institut obahchey i neorganicheekoy khimii Akademii nauk SSSR (Institute of Oeneral and Inorganic Chomiatvy of the Academy of Sciences, USSR) SUBMITTEDs March 25, 1958 Card 3/3  YERMOILNEO., III.I. Cand Chem Sci - (dine) "Study of sallayltit,as of Bose rare-earth elownto,* Kiev, 1960j, 2.2 ppj, 150 copo (Kiev state U im ShavcheWco) (Up "-,60l 128)  S/070161/r)06/004/004/018 B121JB21 AUTHORS: Akeel I rud 9 N. V. , and -Yermoleshst-~.,' TITLE. Basic chlorides and hydroxides of europiump terbium, and holmium PERIODICAL: Zhurnal neorganicheskoy khimii, v. 6, no. 4, 1961, 777-782 TEIT: The basic chlorides and the hydroxides of europLum, terbium, and holmium in dilute and concentrated solutions were determined potentiometrically by a method described previously (Ref- 3: N- V. Akseltrud, V. B.. Spivakovskiy. Zh. neorg. khimii, Z, 2709 (1957)). The composition and product of activity of these basic salts and hydroxides of europium, terbium# and holmium were determined. From these data, the authors calculated the standard free energy. In the range of chlorine activity studied, the europium and holmium systems form basic salts of formula M (OH)2C]" the terbium system, in addition to the latter type of salt, forms also a basic chloride of formula Tb (0H)2-50"0-5' , The products of activity (L) of the basic chlorides of type M(OH)2 C1 were calculated Card 1/4  3/070/61/006/0154/004/016 Basic chlorides and hydroxides ... B121/B216 by the equation log L - log a,3+ + 2 pH 28 from data on the equilibrium activity of the metal and chloride ions and the pH value of the solution. Aging processes in these compounds and changes in the composition and products of activity were studied as a function of time. Within 150 days the basic salts of all three systems had transformed to hydroxides. The composition of the solid phases depends not only on the composition of the solutionp but also on the duration of the transformation process. Hydroxides are formed with decreasing activity of the ions and further aging of the system. Table 4 represents the products of activity and standard free energies for the formation of basic chlorides and hydroxides of europium, terbium, and holmium. The authors studied the dependences of the products of activity of the basic salts and hydroxides on the chlorine ion activity and found that they differed in character: The product of activity of the basic chlorides drops with lowered chlorine ion activity, whilet the products of activity of the hydroxides increase. There are 4 tables and 4 references: 3 Soviet-bloc and 1 non-Soviet-bloc. SUBMITTED: February 100 1960 Card 2/4  S/070#1/006/004/004/010 -Basic chlorides and hydroxides ... B121IB216 Table 4: Products of activity and standard free energy of the basic chlorides and the hydroxides of europium, terbium# and holmium. Legend: 1 compounds; 2) log a Cj_; 3) aging of the precipitato; 4) product of activity L; 5) -6Z - 2.3 RT log L in kcal/mole; 6) -Y.AZ09,t kcal/Mole; 2 7) min; 8).dayo 9) from - to j) w: Upowaveneumawrounwe IIMIMMX OCKONNUX Z"PNAOS N rNAPOSIDOWN eqMUNR, Tt?OuX X Irsabm"A "T7- J" COMUse X 0C EO(OII)O +0,3() 5 mxu.(~) 1,58-10-31 22,ft 295, 92 3 31-10-10 28,85 2911.85 0.00 To To me we -0,30 0 0 t:5t - 10-11 24.31 297,31 -0,70 P't 6 Gi 10:1 : 24,M) MAI 1 :1 3:39 0 25,12- 210,12 Eu(01 Cim +0130 50 cyiovi 3, 24. 10-n 29,02 &G.44 N (0 0,0() To me 2,34. 10-00 29.51 3M,63 -0,30 1,78.10-" 2D,07 N11,79 -0,70 0 87-1()-ft 30.10 3M.22 -1.00 0:8t.-10-23 .30,12 SM.24  S/0 78J'61 006/004/004/018 Basic chlorides and hydroxides BI 1/B21 T Eu(011)s QAQ 030 -1 : Oj 00 eylosCR 2,88. f O-w 30,21 afs,46 Tb(OH),CI 61 OT AO + 30 0100 5 .,Q) 9,34-0-18 23023 295.13 To me -0.30 To w6 3,63-1000 23,79 295.69 --0,70 0 9 1,51-10-18 24,31 290.21 'Tb(O1f):'$CI#'*&f 0100 9 S '25-10-- 5 29 03 05 304 AO . , , . To me w +030 _0:30 50 cyioC? 5,75-lo-" 30,34 TXOH)s (5/ 1 or AO -0 :70 -1 00 To me f,62.10-u $5018 '313.31 To we O'r O +030 fSOC)"K 't ,00-10-17 3~, 89 MM J10(01I)ICI +O.W 5 usini 7 MAD-11 2337 2W, 27 d To me 0.00 Tom 3:?t 10-16 23:78 ::90,78 --4),30 6 1,58-iOr Is 24,28 29t,18 --0.70 # 10-10 7 94 24,69 291A9 -1000 $ : 3:90 10-10 2543 292,03 110MI02.1100-6 +0,30 50 CYTO16 6,92-1" 30.23 300.25 110(oHh 0 'w � 0 a 7610-" 33,70 " 83 To W* 0 30 1 0 1:07 iO-u U.43 'a:58 O -.0 70 -i:w '90-10 a or C9 +O.Su 50 C 2-10-11 2 W25 40 XV AO Card 4/ . . 4~  7 TE~7 TITIZ: L*MPOUnds. Of 6414, SOURCC s AN UkrNO Igo lus t Ut t a Uide Iadj! Raboty, G k1limn stworav alkh 4loy%dt Roil- jm~j, l. lpmstTorwr radbozenall'aykh Illamtov- 146-IA& TOPI'%'F 'AWS: saI4~aylla. (LoW, rare alarth Glam iitp, 1, U, i En: Y, Tbj :ad~, Dy Ho Er ABST.UO,r: The fjiUaving rare earth, slq;Uav)A Wa _"ftl IfdSa ~%Oq  Na: "my% lain Card  4MIdEwIllmll OlIffil lei Ilammill  ACCESSION NE: Ap4oO9346 S/0078/64/009/00]L/0048/0055 AUTHOR: Yermcilenko, V. I. TITLE: Neodyndum.hydroxybenzoates SWROM Zhun-al neorWlaheskoy khWip V# 9# h0w 1j: 1964P 48-55 TOPIC TAGS: raodymium salicylate,, neodymium hydroxybenzoate, neo- dymium parahydroxybenzoate ABSTRACT: It.Is assumed that neodymium hydroxybenzoaies have prop- arties similarto those of lanthanum salloylato.'although there are, no reported studies to substantiate this assumption. Thus, tests were made here on their electroconductivity., preeipitation volume, solubility, thermography and methods of preparation. The difference In action of salicylic and parehydroxybenzoia acids was investigated to find the role of the chelate groups of salicylio &old in the famation of complex c9ppounds. Me above methodi sho'wed the forma- tion NdSaI3~H20 and Nd and the dissooUtion constants of (C7X503)3 a, Card 1/p  ACCESSION NR: AP4009346 ex JK2 neodymium salicylate we!9 calculated as X 1.- -3. The 1.3-10-2,yy, gn - 7.4-10 at 25 0 and ioAic force 3,20 solubilit neodymium salioylate in water and~:aodium salicylate at 25 C- bas been studied and the solubility product, determined as 1-10-11. Increasing solubility of neodymium parihydroxybenzoate in excess ligand is due to the acicular coordination type of this com- pound permitting a f(x-,rth ligand to penetrate into the interior sphere. The heat stability of neodymium and so(Mum salicylates has also been stladied. Separation of salicylie acid by heat is explained by the formation of intracomplex compounds. Basic neodymium, salicy.. lates Nd(OH)Sal2 and Kd(OH)Sal have been isolated and their greater stability as, compared to the basio neodymium parahydroxvbenzoates hiis been established by the method of potentiometric alkali titration. Orig. art. hasoe 6 flVrea, 4 formulas, 3 tablelss' Themograms by 0; 1; Shore, ASSOCIATIORt none Card.  .YERI-1)1,I,-,,:N,,K,O,, ~V.I. Complex compound's of salicyclic Ecid with rare-eariti. Khim. r-astvor. redkozem. elem. no.3:148-162 tt-,2.. I'l" , I D U 17: 12- )  -~' I j I L 11062-66 OPW ACC NR, Jjp6OO9, U11T00,781651010 1'?1261712629 e1' AUTHOR: Yermolanko, V. ORG: Inq:titute gr Ge !Rral ..pnd I njQ g ap OhemIV r R _(Inatltilt .g~ obahchey I neorganloheskoy kh1mII.AN UkrS~A"T-: TITLE: No ymium lig ateS: od sa Y KftjMji V ~10 !~12 1965 SOTJRCE#.-Zhurnal;neorgan a Soil !no~, , 2617-26P9 TOPIC TAGS: neo4ymium compound, rare eaith,element,~;salloylic acid, chemical reaction ABSTRACT: Neodymmium oxide was disFlolvsd~ 'In' a Meammi" q4aatity of hydro.- chloric or parc ic acid, Noodymium salloyl4tts *(ts ol)tained by mizinj; equivalent amounts of aqueous solutiond of neodymiom chloride and sodiwi salicylate, filtering the precipitate, washing lt:i~,Ith iiiater, acetono and ether, and drying it for 6 hours at,8500. The,,laveiltigation used the methods of 0asurement of solubility and eleoti~jjoa],,oonduct1v1tyj potentiametric titration with alkali, s!xtraotlomt 1,hlrdtorder electrodeti absorption spectra, as well as moasuremeat~'of den6fty. 4rom data on the solubility of neodymium allicylatelin sodium klfilicy.ate at 2500 and an Ionic strength of I = 1; the fourthAnstability, .oonsi;ant for the complex neodymium allicylate NdSa14-j 'Was 0alculatil as! K4 - 0.14. In methyl alcohol j;ho solubility of. aeody~.ium depoudO ~mtrojigy on the con- sllt~atlon of eotlioylic aoid. Tho s1e6,t,ri0qd aondl~otlv Y Of noodymttum + 547  4R L 11862-66 ACC WRs _U76-000759 salicylate In m6thyl and n-butyl alcohol was studi9 as A fulictioll 01, the dilution and %h9 dissociation constanto were 0 Miloul tild as K., (2.4 t1.0) x 10-:) In methanol and K =' (Lio ! 0-5Yx -P In n4utu,ol at 2500 and an Ionic strength or 0 .061, The distri�utliin cotistatit of neodymium salicylate between pure tributyl phomphato an4 u 0.10 i:o1ag, aqueous solution of sodium salicylate was found to 49 ejuiLl to 11X) ~,All 12000. Ovig. art. hae: 6 formulae, 6 f1guroat oinA 6! tabdam. SUB OODS: 07/ SU13M DATE: 19M&764/ ORId. am: Oll/ 01!R~ REP40 006  L 6325-66 JD/jd~ _'~CC NR, AF60OT760 OMMIC omag, W/00, 0085/0089 (;610010011 AUTM: ive I$ ORG: Institute of G6neral and Inwoudo Cheol!Ltui An ultxs$g P:n8titlit magallnoyl. i neorgwdchnoyi khl4ri AN UkrMR), 1XI Calculation~of the instability constants from data oa'~Pie electric condwti' SOURCE: PJ1 MMESHO DOPOVidis no-. 1,,, 106P 85-80: TOPIC TAGSs electric conductivity# stability c6nstantp ohemickl stilAlity, metal conTound, rare earth, element ABSTRAMe A method is.prop9s~d-tor calculAtlug,the ImAAblli~j comiltonts of complex compounds Ttom date, on the eiectric com"-'Uvit;r of isotonic flietal-11aand series. For the ions of metals for which there is no revereslble~ ele-bilrade In systems Which are not covered by JAgardsp measurement of the electric candit~tivitjr Is an effdative means of obteAning initial data for the calciantion of the im"ItabiI.Ity constuts of the compleje compounds. The method is ver1fled taing an ~n 00le Oomplex couvounds of rare-earth elemelft with milfaLte and cbramWianso She PossiblUty is dizcu;;sad of calcuJAi,-Fivg the Otability of complex loan fori kncm comit t~'G' of #stability and X~ of obtaining quality itive characterlstIcs o:r tbeicovstructiol~! X them comlex ion. The instability and! mobility constants of COMPIOX io" of wu!u rallOute of AMDUR _yere _calcAxL&ted with a computer in actordance with a progrejai tWepai*d. an the basic, yal-13--e- _--Thl ?ort--vas-VL-enearited-by-4cademleim- AXT1P;rM'R -K. B. -Yatsra of the OAM'L a It a rel jibriolAs, amd 2 tsbJ MYralkyy (X. D._Yatj~jMjrSkjY)L Orige .art. basLr, figuress: 3~ SUB CWj: 20'_' 07 BIRK DAMP: 16J01651 CPM MW::,:.()Ol/ III IWFt 006 C"  YERMLENKOY V.I. . - N,Wymium salicylates. Zhur.neorg.khim. 10 no.12:2617-2629 D 165, WIRA 191l) 1. Institut obsbahey i neorganichaskay khWl Aff Ukr-MR.  MM?LIN, V.K,,, kand.tekhn.naulc Increasing the thermal efficiency of stralght tube herit excha~era by a tangential supply of a heat car-.Ler. Sadositroeide 29 no,10~ 37-40 0 .163. (MIRA 16x12)  YERHDI.ENNO, V.M. (Moskva) .rl-- Bronchleotasis. Felld.1 akush. 27 no.7tl7-21 J:l 162. (WRA 150) (BRONCHIECTASIS)  YFM;~~Wo,,,V,,M. [I&mlenko,, VAJ Daserlpiion of the male sawfly Fenella. nigrita Ws.stvaod, 1814 (Hymakaptera,, Tenthredinid") fro* the juniper to.rests of the Ukraijdan part of the Carpathimmo. Pratai Insto w3ol* LN URSR 17 x94--95 161. Feeding of the imago-pf the Adoxa sawfly Sciapt4ryz consobrina Klug (Hymnopteras Tenthrodinidas) with tho juide of 1wes and flovers of Ficaria verna Iluds. 96-918 -Ad ."Wx6sll)  YE,RF-0 PENKOJI V. 1. culd ITITROV, S. Y. "The Effect of Oeries-Capacitor Compensation on Relay Operation", paper presented at International Conference on Large Electric Systems (CIGRE), 16th Session, Paris, 30 Vay-9 Jime 1956.  YMOLMNIO, Y.M., Inshener; PWMV. S.Ya.. Inxhoner. Iffect of capacitive coqRsusation on the operation of relay protection. Blektrlchoetvo no.9:46-53 3 156. (M." 9:11) 1. Isiploolektroproyekt. (Blectric lime) (BlectrIc relays)  TM-11R, A.Y.1 KIKBASOV, A.M.; SYROKTATMIKOV, I.A.1 V02WXNSKIY, A.M.; VASI1AXKO, P.I.; JAUPON, P.P.; TININAN, I.A.; VIYOGWOV. M.P.; ANIOSKIN, N.M.; ALWANDROY, B.K.; USPBBSgff. B.S.; SIASSON, I.R.; KHEYFITS, K.1o; IMUTSKIY, T.F.; KRACHKOVSKIY, U.N.; POPOV, P.A.; CHALIDU, I.K.; YILUWOV, S.N.; K0ZLOV, N.D. g BERLIN. V.Ya.; SAUDZHAV, A.Zh.; GORDZIY1VICH# I.S.; PAZ, V.P.; DCR]rAAN, S.N.; IXJBIAWXY, L.A.; ULITANOV, S.A.; GRUDINSKIT, P.O.; WVSHINSKIT, I.N.; xaMOLEsZo, V.N. ,%MEMNON Mikhail Mikhatlovich larpov. Alsk.sts. 27 no.10t62 0 156. (NIaA 9:12) (FArpoy. Mikhail Nikhoilovich, d-1956)  YARMOLM=# VCHs, red.; UZAHSKIY,,V,.Te,, insh., red.: 11[YAZNVSXIY. B.A.. reC~,'kiW*. V.S., red.; STRONYATNDW. I.A., doktor takhn.nsuk, prof.., redo; TSAW, K.L. kandtekhnonauk. red.; CMUCINOW. N.Y.. red.; IARIO90F..G.Te., takhn.red. Dleot!'Ac relays, automatic and remoto control of electric power systena.; papers of a scientific conference on problems of electric relays,, automatic and remote control] ReTeinsis sashchits, avtomatika i telainkhanike saergosistan; materialy nauchno-takhnicheelcoi konfe- rentail Cpo vo prossm releinoi sashchity, elaktriobaskoi avtometiki I televelft'nikil. Koskvs, Gose snerge Isd-vo, 1957. 231 p. (MIRA 11:3) 1. IbUi.-hao-tekhnicheskoye, obahchestvo energetichaskoy promyshlonnosti. Moskoviskoye pravlenlyse 2. NesMunprodays elektricheskiye avyazi sm (iror Nyromyetnikov), 3e Mentrallneys nsuchno-Issledovatel'skaya elaktrDtakhnichookeys laborstorlys (for TUrev). 4, Goewiarstvannyy treat I?o orgonizataii i ratalowlixotail alaktrostantaii (for rose UsItty) (Ilectric, relays) (Automatic control) (Remote control)  gill gam. - -- ------- - sill gil 1% Sill 2 in A IN fit 5% *".*j 11! u 3 ~] a. -jig flig 41 1 141 . 1 409 ,gal gal I ~. . I b. lit. if a IN I- to . M is ali.b. .4 ~11 J I 1 31 to $1 0 jog it sill ........... 93 11"S i  FEDOIWEV.. Alokaey Mikheylovich; 7EMOLENND. V-A" retoonzen-tj bROZDOVp A.D., retsenzent; MERZFWIOV, A.K.p red,; LARICINOV, G.Ye.,, tekbn,, red, [Prinaiples of relay protection] Olzovy releinoi makichity, Isd*2&p pererf, Moskva# GoB.smergeisd-voy 1961* 4" ps (MIRA 15:2) I@ Zaireduyushchiy kafedroy elektrichonkikh stantali i satey 170va- cberk4taskogo politekhnicbeakogo institute, (for Dr3zdov). 2. Za- vedqy%i9hchiy kafedroy avtomatizataii i releynoy zoiahohity Momkov- skogo energeticbeskogo inatituts. (for Yermolonko), (Electric power distribution) (Electric protectIon) (Electric relays)  YER104M. V. Me '"The Effect of Electrical Fields on Heat Transfer ~~V,Ccnvmction" Report presewt at the, Conference on Heat and Mass Transter. Minsk, USSR, !5.10 june 61 -.The influence.of electrical fields an convective beat "nsfer is considered In the paper. -A.-new criterion is iixtroduded whIch determines tbi! intensity of motion at electrical convectlion. Theresults oT the investigation are treated in ckiterial form.  ACC NR, A1,7007595 17, SOURCE COM UR/0104166/000/oCe/G09510096 AUTHOR, Chupralwvp 11. ~1.; Boravoy, A. A.; Postnikov, N. A.% Halychov, A. A#; MaSidson, SInIchugov, F. I.; Zcylidzon, Yo. D.; Barchaninovp G. S.I. M., Vasillyev, A. A.; Sokolov, N. I.; Ultyanov, A. S.; It. A.; Rokotymn, S. S.; Axartyaw, 0. 1.;'Arsans G. S.; Dubinskly, L. A.; Zhulin, 1. V.; Kiolpakwa, A. I.g Antoshin, N. N. Krikunchik, h. U.; Vjchkin, M. D.; Preobrazhonakly, M. Yo.; Rout, 14. A.; Nheyfits, M. Z.; Sharov,.A. N.; Yakub, Yu. A.; Gorbunov, H.-I.; ShurmukhInq V. A.; BeschinskLy, A. A. 0"G, none TITLE: Bor1r. Sarreyovich Uspenskly (on his 60th birthday) SCURCE: Cleittrichcakiya stantsil, no. 8, 1966, 93-96 TOPIC TAGSs hydrooloottle power plant# *&settle engineering porsom-eL. SUB CoDzg 10 A3STRACT: B. S. Uspanskly was born In Juno 1906. He graduated from the State E14actric Mchine Building Institute in 1928 as an electric installation ezwlneer. Ho.workad In the State Electre-Technical Trust fa'r four years, then In the All-[1nIon*ElsctroT*chnIca1 Won, where he planned power construction units. Plans which he made up at thattima for the cLactrical portion of electrical stations and sUb-stations sire ,Ptlll being t=4. He was lmovIed In plwm%ng smid inistallation of the electrical pDrtAon of hydro-electric.powar stations and powerful ptaxping brations In the Yoscow-Volg& canaL Burins the'var, he was In *Mingo In Installation of the Yzasnegmakeya Beat and glostrie Paimer Ststleal, the 1 !;,nlnS of the grate Vydn-gleettle Power Ststien ad odor Vmjjvts. FA P  . F140li-MO, V.M.] -Y,L Sf,wrr of and ~'~jrp-tyta) of the ukra-ItOon PoYnsye, Frat.--7i 1-rit. zrzl, ~.N VTC,,9 2Q:93-118 tr.4. (MIRA 18W  t POLUNTMA, LJR-L WOMMKO, T-M- Aldorterme and spirolaotones in clinioal treatment cf in- ternal diseases; a survey of the literature and an walpis of our own observations* Sove med. 27 no.12:42-51 D163 (KIFA 17 1. Is kafedry propedertichookoy i profeasionalinoy terapii eanitarno-gigiyenichaskogo Uniliteta ( savo - dgretwitelInyy chlen AW SM Prof. Yeoff.Tareyev) I Moskovokogo mediteinskogo insti-tuta Imeni Sechenova i 24,y Hookovskoy gor*dskoy klini- cheskoy bollnitsy (glavnyy vrach TOP. Uspecukiy)e  - Vex* MOMO& VINIOWN7 of tb* BMW feerplowly parom weetwoodl fts (jervidwo Necopters) Is the .winter of 208 Is the vicialsw of ftev* IT81*926po Kimro=.9 80.6slal-267 I% (KM 9110) I"  I- ~ L.4 TRAM , VA. Ullf lies - (C*Rlpld", ff"womptem) OR tbO SSW i* thO vtClnItY Of Kifv- Navk.sap.Klwv-US-9 no.6sl67 150. (KERA 9: 10) (Kiev-4wullos)  -, SMIGOVSKIT, LA, IA a I mmmmwwp JbOI49Y Of 4000 imPfUes (ffYm6mW*rs TerAhrodinld") Injuriou to tho tiov pw*ll. looko o11 glevo=. 13 no.12slOI-10 fol, (Km 9:10) (Kiev.-swriles  IfJ