SCIENTIFIC ABSTRACT TIKAN, V.A. - TIKHANOVSKIY, P.A.

Model investigation of a Tharmicnic Elactric Locomotive sov/io5_c9_6-1/28 Rectifier Under Inverter and Fa.:;t1fier Operaticn operation was carried out at control angles varying from 60-174 0 under differBnt operational' conditions. The result s of the investigation are disoussed in dGtail, making use of 7 diagrams, With increasing diatanoe betwPen the locomotive and the aubstRtion the power perfoxmmea doteriorates considerably; thin enta.Lls a worse power factor of the la-comotiv-e and of the substation. The angle of -transition tetween an iirierter and a rectifier operation is not definitely set. Recuperation is possible at amall control angles betwz~en 60-700. An inerease of tha power faotor and e. diminution of the ripple ooofficient is, however, only possible Zor a control angle as large aa 1,ossibIG (little advanced ignition). The inductivity of the choke Inductance must be increased only little, if instead of the control angle the ignift-len angle is kept constant, If the distance between the lc~,-omotiva and the substation is large, tl-B inverter backfeed energy in about. equal -to the rectifier baokfeed energy. The pciwer factor Is diminished by a conversion to an inverter operation. Thez-a are ", fiFares, I table, and 4 Soviet references. AS30CIATIMs Institut elektr*mekhanik! All SSSR (Institute of Eleatromechanics AS USSR) SUMITTED: Octobez ;~?, 1958 Card 2/2  i i\j 51 pi I Rl Rip I IF 9 "Fug R ir ID A  ROVINSKIYI Petr Abramovich; TIK~X. Valentin Antonov,ich; ZAVAL1.11HIN, D.A. (Cut-off valve frequency changers without a direct current section) Ventiltrwe preobrazovateli chastoty boz zvona pontoiannogo toka. Moak-va, Vauka, 1965. 74 p. (MIRA 16,12) 1. Chlen-korrespondent AN SSSR (for Zavallahin).  ZAVALISHIN, D.A. (Leningrad); ZAKHAREVICH. S.V- (Leningrad);. TIRAN, V.A. tLeningrad) Analysis of the effect of active resistance on electromagnetic processes in single-phase ionic converters of electric locomotives. Izv. AN SSSR. Utd. takh. nauk. Inerg. i avtom. no-5:3-18 S-0 '59. (NIRA 13:1) (Electric locomotives) (Electric current converters)  BELOZJOROVA, A.; DANILOV, V.; HARIKAT, E.; YJM, I.I.; VAIOROVA, T. (Mayorova, T.]; SOKOLOV, A.; SUROV, A.[Shurov, A.]; TILA1,I)., H.- TUISK, A.; URB, E.; VEERSAW, E.; TIVAKOV, S.; JUM711-,I.-,- re d.; EDIBERG, K., tekbn. red. (Achievements of Soviet Estonia in 20 years; statistical survey] Roukogude Eesti saavutusi 20 aasta jooksul; statistiline kogumik. Tallinn, Eesti riiklik kirjastus, 1960. 173 P. (MIRA 15:5) 1. Estonian S.S.R. Statistika Keakvalitaus. 2. Sotrudniki Statisti- cheskogo upravleniya Soveta Minis-trov EstonBkoy S.S.R. (for all except Juhanis Einberg). 3. Direktor Statisticheskogo upravleniya Soveta Ministrov Estonskoy S.S.R. (for Timakov). (Estonia-Economic conditions)  GRUNER . Ede; SZE IIDE , Gyorg;~,- TIKAR., Istvan. , Some questions relating to the development of Hungary's metal casting. Koh lap 95 no.9:Suppl,: Ontode 13 no.9:200-204 S 162. 1. Gepipari Technologiai Intezet.  OT W I I a it u 11 A 00.4 00 A 00 ir, 00 g 0 A 0 00 **.-!I j A 00 a, 00 A Atim $LA ALT LLL,*CKAL LITINAT a L IrVj-- 1, it *0 In 0 000 000000 16 0 0000000000*000 07 it )a j? Is 4 it A'A IN, (I W I'[ W016% of the laser soctims 0( anamweds-systflositt chf0mlium-Tansdium steel j. L.JikA _I?,,k- 7, CAP 1037. 1. 3*K-Ga. welding ( the Inner cx~itig c4 Nila. %inih"is ccolumms 7 Itl nim. thick &nil 74U) min. in dum, fr'wn %terl cmig, C o. I 7 Cr I ~ I.L- anal V ii.js it. Isr; iA fel%wtrd. After welding. the -3~uc% %,r, th..,tef 71" X21". t-sed at thim anal r,hem,,l a,, 1h,- 'A"Ir Irnip. The CIA411111 In jj~41- qlhWIld 124. %1,1w; thete. fier the miling can lat, the nmenjil air t-6-hnx. Comfoineol are And xa,, welding hit not give uti,dAelmy rmh~. M. G. M-, a, :-41116 0 0 .00 =00 Gee -:Ic*o z00 114; , 0 0 zoo '00 moo fit CLASSIORKATION &0 V A 40 0 -.,A -ij I aoic , C.. 'W -WW i -T--r " I 1U, ii '146*9000il W 0 0 0 010 # q 0 9 0 0 0 0 0 111 0;  TIKAVYY, V.F.1 TSUKTIROVA, L.I.. -Ion-exchange prop-irLien o z-ir(!cni,,,-rr, phosphRte. Izv. All Neorg. ma'k,. 1 no.1-1.08-132 Ja 165. (MIRA 18:5) 1. Belorusskiy gosudarstvenriry universitet L-Tieni Lenina.  STAROBINKS) G.L.; TIKA.VYY,-V.P. Sorption of binary, solutions by butadiene-nit"rile copolymers. Koll.zhur. 23 no.1:112-117 Ja-F 161. (MIRA 17:2) 1. Belorusskiy universitet imeni Lenina, khimicheskiy fakulltet, Minsk.  1- _JJP(c ) __ FA_CC NRj AP6001305 SOURCE CODE: UR/036-1/65/60/00811386/1388 DS/M/W/JG/A-j/Rbj AUTHOR: Tft F. - Glukhova, N. P. ORG: Belorussian State Unjversity'im. V.1. Lenin (Belorusskiy gosudarstvennyy universitet) 'Ilan rties of zirconium &21phate in salt melts TITLE: Ion e SOURCE: AN SSSR. Izvestiya. Neorganichosidye materialy, v. 1, no. 8, 1965, 1386-1388 TOPIC TAGS: ice e %.___'.ZIrconIuM compound, nitrate :.Z1, qq, ,ABSTRACT: Ion e_xghWN onArconium phosphate was studied In the molten systems NaNO3- _,.Li_NO,,sZd.KN0a-LIX(?3. at 370C,. Wd in the system CsN03-KK03 at 400C. The equilibrium mi.-It W'as an*zed with a Mme photometer, and the daft were used to calculate the equivalent fractibn of thO, Ion in the melt and in the ion exchanger, The experimental exchange isotherms, were distinctly'S-shaped (see Fig. 1), showing that in the beginning the ion exchanger prefer- -en.tially absorbs the cation with the Smaller radius. However, as this cation saturates the exchanger, the latter begins to adsorb preferentially the cation with the larger radiuss and the concentration range In which this occtwo Increases in the foIlowing order; CaNO -KNOa > a KNga-LiNO > NaN0.,,-MN%, The selectivity toward the smaller cation at low concentrations Of the latteiaI~ CsMO~-KNO wd KNO -UNO. systems is apparently dtLe to the fact that the additi(m of small SM" a ft Salt 3 With tWsm0er catlon to the melt of the salt with the larger cation Inhibits tbe migration of the lafter and hence decreases Its chances of entering 1/2- #64L,18-3.0  L 12055-66 -Fig, 1. Exchange foodieMs in the systems: 1, NANO -LiKOv- 2. KNO -_LW0 ; 3. CoN03-KNO6. E. aM 9. eqv,.Went fracuon of citfack with smaller 0am ta tbs- inalten phum ad in as 10M.exchadger IV 41 41F 44 4; 49 47 into the ion exchanger. In the W03-LINQ system, the exchanger preferentially adsorbs the ion present in the Irer concentration. As% aqueous solutions, ziromium phosphate has a high affinity for Cs and e Ions In melts. Orig. " has: 2 figureo. SUB CODE: 07, 11 SUBM D&TE: 20May65 01UG REF: 004 OTH REP: 010 6PC Card 2/2  B/069/61/023/001/()07/009 B124/204 AUTHORS3 Starobinets, G. L. and Tik Fj, TITLEt Sorption of binary solutions by butadiene nitrile copolymers PERI T Yp~loidnyy zhurnal, v. 23, no. 1, 1961, 112-117 TEXTs The sorptive properties of rubber on the basis of butadiene nitrile copolymers containing 189 26, and 40/06 aorylonitrile were studiedo The butadiene nitrile copolymers oontainod -"~ aDlfur, 1.5% ateario acid, 1.5% Captax, and 5% ZnO per 10(YA by weight of the copolymer. Vulcanization at 1430C and 3 atm. lasted for 40 minutes. The authors used as binary sysiemst 1) a system of a solvent and a polar non-solvent with higher specific cohesion energy than that of the polymer; 2) a system of a solvent and a non-polar non-solvent with a specific cohesion energy lower than that of the polymer. To the first kind of systems belong mixtures of aromatic hydrocarbons with aliphatic alcohols, to the second kind mixtures of aromatic hydrocarbons with aliphatic hydrocarbons. The systems of the first kind were analyzed by extraction of the samples, study of the total and of the partial sorption Isothermal lines of the componentog Ca.3~d 1/7  S/069/61/023/001/007/009 Sorption of binary solutions so, B124/204 and by means of an Interferometrio technique, whereas the systems of the second kind were analyzed with the help of an VP,,rI"-23 (IRF -23)-type refractometeT, The experimental data obtained for typical systems are shown in Figs. 1-3 in the form of curves of the molar fraction of the non-solvent in the polymeric phase (NP), of the molar fraction of the non- 2 solvent in the equilibrium binary solution (N 2) , and in the form of curves of the total sorption Q w f(N2) and of the partial sorption of the non- sol,vent Q2- f(K.)o The experiments were carried out in an air thermostat with a propeller mixer and a contact thermometerl temperaturp fluctuations did not exceed +0-50C. The distribution coefficients of the'components between the pol7ymeric and the solution phase were calculated from the initial slopes of the equilibrium curvest K (dNp/dNl).N ; K (dNP/d 1 1->O 2 - 2 112) N2 in the same way, the sorption potentials of the components in calories per mole were calculated3 ~j - RT lnK.,; 402 - RT lnK2. The results obtained Card 2/7  S/069/61/023/001/007/009 Sorption of binary solutions ... B124/204 for the system beniene-methanol at 25 and 500C were used as an example. The distribution coefficient of the solvent and its sorption potential in the system of solvent and polar non-solvent are determined by-the flexibili- ty of the polymer chain - The latter decreases when going over from butadiene -rubber to a c;polymer with a nitrile content of 40,'o, whereas in a system of a solvent and a non-polar non-solvent the sorption potential of,benzene rises with the concentration of the nitrile groups in the co- polymer. Konovalov and Vrevskiy are mentioned. There are 3 figures, I table, and 6 references: 5 Soviet-bloc and 5 non-Soriet-bloc. ASSOCIATION: Belorusskiy universitet im. V. I. Lenina, Khimicheskiy fakulltet, Minsk (Belorussian University imeni V. I. Lenin, Division of Chemistry, Minsk) SUBMITTED: July 1,1959 Card 3/7  Sorption of binary solutions ... Legend to Fig. 1: Sorption of benzene- methanol solutions by butadiene nitrile copolymers at 250C (a) and 500C M- 1,2, and 3 - curves of the total sorptiox of CAH -18 (SKN-i8), CK H -26 (SKN-26), ar. 06-40 (SKN-40); 4,5, and 6 - equilibrixu curves of SKN-18, SKX-26, and SKIT-40- a) mg/g rubber.10-1 s/o6q 61/023/001/007/009 B 124/B204  5/060/61/023/001/007/0-09 Sorption of binary solutions ... B124/204 cO~WCPMMa K. COHIMvIjIa 8 rm numepe % . . A 'I - MeTSHO-1, f 3 BeH30, 25* 3 MeTAHOA, t 0 17 5 ij 1705 57 10 ,0 1,3 14187 170 18 0,7 1,2 1133 108 5 0 1 1,4 1033 218 '20 4-,0 1,4 826 200 3,0 t.5 1 710 262 40 18,0 1,7 654 315 2,2 2,0 508 447 BI ei.oo,,z - reKca .H, t-23 Bem mn - monall. f - 25 0. 16, 1 0 9 88 63 16 1 0,88 88 77- , 18 2 64 : 0:82 579 -117 2 80 : 0,72 613 -105 26 3,58 0,65 760 -258 5,2 0,59 982 -3t4 40 5,26 0,54 989 -368 6,7 - 0,42 It33 -855 Legend' to Table: Distributio n coefficient of t he solvent (K1) and of the non-solvent (K2~ between poly mer and solut ion. 1) Nitrile content in the copolymer, %; 2) cal/mole; 3) benze ne-meth anol, t=250C; 4) benzene-hexane,. t-250C; 5) benzene-nonane, t= 250C- Card 5/7  Sorption of binary solutions ... .Legend to Fig. 21 Sorption of the a- MI solutions benzene-hexane (a) an benzene-nonane (6) by butadiene nitrile copolymers and C~