SCIENTIFIC ABSTRACT PANCHENKOV, G. M. - PANCHENKOVA, E. F.

I 1Y JUL vnrtjon. icarbon clim-titie, curbOn Ynoiso- ric ZI, F i Tl-, 1 1 ,Ln,j Pa- -henko. P m p- Cort; Card 2/2 '-3v R ~-M RRIAM 20% Mv N, 1 '44 14, LA p 0111-1 -665 P-1-MuRt- NO OR IN. ic~  FEDOROVY VA.; TOLMAChEV, A,M.,, kl_A~PiENKOV, G.M. Excbenge equilibrium of univalent Ions on the A-type aynthriti: " L Zeolite. ?bur. fiz. khim. 38 no.5.-1248-4253 W 164. (MIFd, 18112) 1. Moskovskiy gosudaretvennyv universitet imeni Lomonosova, Submitted July 241, 1963.  GORSHKOV, v.l..;- P.M.; CHUMM9 V.A. Continuous countercurrent ion-exchange me-thod of separating potassium and rubidium, Zbur. f12. Ithim. 38 no.5sl"158-1361 YT 164. (YdRA 18:12) 1* Moskovskly gosudarstvennyy universitet. imeni Lomonosova. Submitted July 24, 1961.  PANCHENKOV, G.M.; TOLMACHEV, A.M.; ZOTOVA, T.V. Separation of hydrogen isotopes In the sorption or hydrogen on synthetic zeolites, Zhur. fiz. kbim. 38 no.5:1361-1365 My 164. (MIRA 18:12) 1. Moskovakiy gosudarstvennyy universitet imeni Lononosova. Submitted July 2-4, 1963.  GOLUBEV, V.S.;,fLkCHENKOV,-G.M. I Equation for the diffusion kinetics of sorption (ion exchange) when external and internal diffusion is taken into account. Zhur. fiz. khim. 38 no.1:228-230 Ja'64. (PIRA 17-2) 1. Moskovskiy gosudarstvennyy universitet imeni Lomonosova.  GORSHKOV, V.I.; KUZNLTSOV, I.A.; PANCHENKOVI_P.1-1. Separation of lithium isotopes b,-"f the continuous countercurrent ior-exchange method. Zhur. fiz. khim. 38 no.10:2489-2491 0 164. (MIRA 18:2) 1. Khimichcskiy fakulltet Moskovskogo go&udarstvennogo universi- teta imeni M.V. Lomonosova.  AC',-v!~SION NIR A r-~404 AUTFOF: Flanchenkov; G, Mi. 'rrTT-I:'- Prvintinn nf Rtntprnd lhr~ 01P, (--f SLJPStarl PC, SfD!'R(--Y:: Zhurnal fiziclies~~nv ABSTRkCT: 'In the general case. ar equatior of st2f.p ~.U.t due tc temperature and pr,,-ssu,-(:! liquids the coordination number is a variable. for solids and nori-ideal' gases it ib a cf~nvtant, Ir the 11-11M of Ow-it;P. c--tritividertatinns. thn usual thermodv-narnic func- 24A70-65 ACCIMSION NR- AP4047977 tions and constants are dibcussed, including tbe Helmholtz and Gibbs energie~3, Orig. art. has: 1 f1gure and 1'.. A q C7 -1 ~- I A ~ It-INY (111,qti~uLe o~ SM-WITTErY 25APr(W M-4 C, i ~-N  SEMIOKHIN., I.A.; ANDREYEV, Yu.P.; PANCHENKOV., G.M. Dissociation kinetics of carbon dioxide In the silent discharge. Zhur. fiz. khim. 38 no.9t2275-2278 S 164. (MIRA l7zl2) 1. Moskovskiy gosudarstvennyy univarnitet imeni Lomonosova.  I I , ,. - - I - S014-joiairl-1) I.A.; V.K.; ~ANCUHEI~F(`, 6.11.; 'RAKE-iEVANS-K!, Kh.S. - leotopic effects in the tns3ociatior of c- -b~,n dirlide in, a 6ilert electric discharge. Zhzr.fiz.kh-Lm. 38 no.8:2072-2070' AZ 164. I (MIRA 3'811) 1. Maakovskiy unIversite-vt imeni M.V.Lomonosova, Txdipicheskiy fakatItet.  GORSHKOV., V.I., VORONTSOVA, O.N.; PANCHENKOV, G.M.; ASPANDUA.10VA, S.S. Equilibri= of alkaline earth metal ion exchange on the eat4on exchanger KU-1 ir hydrogen-form. Vest. Mosk. un. Ser. 2: Ehim. 19 no.5:4?-52 S-0 164. (MIRA 17:11) 1. Kafedra fizicbeskoy khimii Moskovakogo univervAteta.  Ft-yzigw.lwiovv F.A.~~, PANCHENEOV, G.M., KOUSNIKOVp 1.M. KLnetics of the hydrogenolyals of -clhicphenes and eulf-ldc-B in catalytic reforming. Izv. -r ' lb. za7.; rin'.1 4 gaz 7 y a. uche no.9t69-71 164. (YJRA 17,.12')  PANCHE;I,.q'to,V G.M. .ir,e rm.f. Panchankov ani V.11. lpbedevl: Uie"alcal k Kin. i kat. 5 no.3:576-578 I'lly-Je 164. (I-URA 17:11)  ACCESSION NR: AP4024409 8/0204/64/004/001/C)128/0132 AUTHOR; Panchenkov$'Go Me; Zhorovq Yus Me; Venkatachalamg Ke A91 Gurevich, Is Pe'! TITLE: Determination of the group composition of hydrocarbon mixtures by liquid chromatography with luminescent indicators* SOURCE: Neftekhimiya, v. 4, no. 1, 1964, 128-132 TOPIC TAGS: hydrocarbon group analysis, liquid chromatography, luminescent chromatography, luminescent dye, indicator, aromatic hydrocarbon, olefiftic hydrocarbon, paraffinic hydrocarbon, naphthenic hydrocarbon, indicator adsorption, -chromatographic column packing, group analysis ABSTRACT: Luminescent dyes were prepared, a method of luminescent chromatographic~ analysis of hydrocarbon mixtures was worked out, and the accuracy of the method was evaluated. By using specific luminescent dyes, a chromatogram of hydrocarbon mixtures separated into aromatic hydrocarbon, olefinic and paraffinic plus naphthenic zones cAn be obtained by illuminating the silica gel columa'With ultraviolet light. The length of each determined zone vill correspond to the content of the type of hydrocarbon in the mixture* A material extracted from high Card  ACCESSION NR: AP4024409 molecular petroleum products such aa asphalt or o2okerite provides a luminescent indicator suitable for identifying both the aromatic and the olefinic sections. The aromatic indicator (dark blue luminescence under u.v.) is extracted with diisobutene from material adsorbed on silica gel and the olefinic indicator (light blue luminescence) is extracted with benzene. Luminescent-chromatographic analyses conducted on mixtures boiling in the 30-300 C range showed the method to be reliable and accurate. Higher molecular weigbt compounds may also be analysed by this method. The composition of the hydrocarbon mixture has little effect on the accuracy. Accuracy of the method does depend on the evenness of the chroma- tographic column packing and on the similarity in sorption onto silica gel of the, luminescent indicators for the different type hydrocarbon fractions# The indi- cators obtained by extraction from asphalt meet the requirement of being similarly adsorbed on silica gel. Thus luminescent chromatography may be effectively used in group analyses of hydrocarbon mixtures# Origs art. haut 3 tables and 3 equations. ASSOCTATION: Hoskovskly institut neftakhimicheekoy i gazovoy promy*shleunosti imo 1, M. Gubkina (Moscow Institute of the Petrochemical aud Gas Industry). -Card  i ; i-I. 7kll- 7 - -- -1-1h . It, A.. 'ICNE i "OV, V.V. -- , - -9,; 1. ; YE Dependence of" the coordirintion of liquirit; on thr, molecular volume and temperature. Zhur. fiz. khi-In. 38 no.6:2651-1654 je 164. (MIRA 28:3) 1. Moskovskiy gomidarstvennyy universtitet imeni Lomonosova.  L 60897--0l EIYG(j /7PFf c ),!T-:PF-n `--2/-EVV( /7-,A~b A ESSION -11R. A.P-5011.41 2 R e f z h Kh i m i v a k vil --.ti td-- '"PIC TAGS catalvst. hiah e-n-r-zv rad i a- on . n i eir e-rF A J? effect oF pi-lllimir-arv trnmA,* ti v I% WE SUB CODE: QC, ff P ZN C 00  -9" A.M.; EID' f lcra -4r, a -5 Detn- -inaM-n -A syntne tic- Vn:3~,*,'.'-~s~o-~~%Oer 2 19 no-4:7-12 jr :L710 IN, jl-AZ (MIRA 18:8) U11.1ver-eitata.  FEYZKHANOV, F,A.-, PANCHENKOV, G.M.; KOLES111,11KOV, 1.1-1. Kirk(,- t I v equat Lrrt,, of th-C r,.r;u (1, t I ortri of rl-Yv~ ptan;j i!~ c.4 ',t. 'Aly,,.-, I ' n:1, ~ I y . LA I., -.~ ) Neft~i;AWII& 4 no.5:722-726 S-0 164- (Iit -1 ~.- I 1. 11-floskovskly -institut neftelJdmicheskoy i gazovoy f-mani. I.M.GiiVe.1na.  SEMIOKHIN, LA.; ANDREYEV, Yu.P.; PANCIIENKOV, G.M. Effect of additiomm the dissociation of carbon dioxide in silent discharge. Vest. Mosk. un. Ser. 2t Khim,, 19 no.r:4r-;- 46 S-0 164. -( 141 FJt 17: 11 ) 1. Kafedra fizicheskoy khimil. Moskovskogo universiteta.  J-1ATSAS~1EK, F.; A.M.; PANCHENKOV, G.M. ~ -Osz, un. Mass spectrometric isotorl.a analysis of silicon. Vest. M ' Ser. 2: Khim. 19 no-5;57-6;. 7-~,- (MIRA 17:11) 1. Kafedra fizichaskoy Khimii 14oskovskogo universiteta.  I~A.~ .0DH-E*i'-EV, Y,,1.11.; Zhur.fl Z .~J, 7 r ~7 38 R8~'Ist-r-'but-cin c.f ;xygen and carbon b,,iw~ an.-I prcducto 4n a 4,i a vas Ann plant. nj.,d. 087-20,9'! I. M,-skc~v~5kl',V- un--iversitet Imen-l'  7,.I- ; ~ ,i I , 4 , ~J. ~,- - r, - _. I/ I ,  AC Mail- fy  --try-- 13-rocesses and 611 ifii III ZM 'Live, combuz ti on kinetics _77 d 1) the air e_--cess coeM c! if!-, L ur! -lei the conqosition aad. the stminure of tr-e lue' an..' ~jC C ~Z T sk~ -Mg -7 ~k A5 W kM  Ic I riv L I - n i-T r-'r ioll - vmm'-~ EMIZ-11-1 DO, M ~kRo' KI --sM I-n T k, :t  EYE Vim. MEW  A rPTIVr,0 L, - -, V Y,i,.not ~nv Pa n c 'tic, r,.k. or, G' exuaaltge- Mul fivu. o64. 4-8 -24,~-. SO TOW- V ~~Ii r"---1 fi-7-inbaskoy khimii. v. 58- no. 1r.. 1 2 9 ABSTRACT: )utlining the two main research ~,iendq for solution .7f hp Tp r e m .0 IN gmie!;-qlsn MR~ �rt,  S U M MTM llDec63 r-YO v8 -C-CIDE,  'i - -n D i'm" I ACC NR, AP6012991 SOURCE CODE: UR/0065/65/000/001/0012 AUTHOR: Zhorov, Yu. H.; Panebenkov. G. M.; Zeittser. S. P.: Tirak' Tu. A. ORG:4 i GP~ ~J-Jd TITLE: Heat of reaction in catalytic reforminF."of gasoline fractions SOURCE: Kh Iimiya i te-khnologiya topliv i masel~Pho. 1, 1965,' 12-16 TOPIC.TAGS: heat of reaction, heptane, aromatic hydrocarbon, napthalene, crude petroleum ABSTRACT: In previous studies an empirical equation has been sug- .gested for the-determination of the heat of reaction of hydroform- Ing.- q (4-5 al + 5-36a,, ~c 298 'where q298 heat of reactiona"L-1 2980C, kcal/-Kgf a a., c. b :yields of arcmatic hydrocarbons from naphthenes anl'paraffins, gas and coke respectively (in Mr cent weight of crude material); -f = coefficient, depending on,gas composition and varying from 2.5 to e - 3.2. 7h heat of reaction of hydrocracking of b~ ~tane~'j calculated from this equation and the actual value tire 32 and 97 ~cal/kg, re- ,spectIvely& Thus calculatlon by this equation Is substantially In error. In addition, this equation cannot be used in determin-  ACC NR: AP6012991 ing the-heat-of reaction of the process under industrial conditions, that is, In 5 OOC- The empirical derivation of this equation casts 0 ~doubt on its possible use in qualitative description of the plat- fdrming process. Accordingly, the authors developed an analytical I'method of determining heat of the reaction In catalytic reforming i!based on a kinetic scheme of the process, affording determination ..,of heat of reaction with considerably greater accuracy than other methods. The crude material usually contains a slight amount of 1olefins, which upon further analysis is united with the paraffins. The possibility of calculating the heat of reaction of the complex ~.technical mixture of hydrocarbons with different molecular weights -and boiling points according to the scheme presented in the article :-,Is accounted for by the fact that the molar heat of reaction of any ~of the~reactions examined depends a 'AAttle on the molecular weight' ;of the crude material. In hydroreforming.of.heptaneg the heat of /kg, In pl with near reaction Is +10.5 kcal, atforming of heptane !conversion-- +_231 keal/kg. The heat of reaction' of hydroforming of different teohnical forms of fuelAdepending on naphthene content An crude according to data given can vary from 40 to 160 kcal/kZ) and the val-u-'es for' platforming f.rom 1. 90-to 200 h:cal/kgs Orig. art. has: _16-40imulas-and-3 -tables-* [JPRS] ------- SUB CODE: .:-no 07 SU13M DATE t none ORIG FEF: 010 OM REF: 001 turd MRMi R~  at -t05VE',~f.771  GRYAZNOVA, Z.V.; PANCHENKOV, G.Me; BELOKONEV, S.V- Application of N.A.Shilov's, formula for calculating the ve)-city of adsorption front motion in a countercurrent of sorbate, and sorbent. Zhur.prikl.khim. 38 no.6:1395-1396 J9-165. (MIRA 18:10) 1. Moskovskiy gosudarstvannyy universitet A-mani M.V.Lomonosova.  0 ID I Ull )PTC T A 1,; -arbon T Jic CIO loll ft wb 11 z Eli& ir -L ~ MEN-  0 Lk, nrv~ 54"1 It -p;j MOIR- '15  0103 3/3 w~ ~a rv i  A n!,. -~Olrs or +1-ir studies of luminescent and fluorescent indJ z;a. obtained J)FB in deternInIng the amuuAt uf &i OP Fmm ne, -- 11 - :~-,A - ~ W&I I Rai MEN OR  V-1 V  TOMACREV, ,)Fitc !n ion-: of a ralculaLion or I~e!ChL mob .1,.romatograpl-7 acrording to 1,~' exchange c - ..7:179a-17133 JI (VIRA '18:6) flz.khim. 39 ,x  ZETKINq V.1 . pANCIWI(OV G.M.; ZAKJJAROVP Yo.V.; KOLESNIKOV~ I.M.; P DZjLkGkTSPjd1YANy R.V. Chlorination and-glulfachlorination of organic OOMPOunda in apparatuo with periodical wid oontlnuoas actiono Khin, prom. 41 no,10033-734 0 165. (MIRA 18111)  Jq El I " i OR, RIM,  ACCESS~C)14 NF! AP5013521- rov;M w" s3lr) s" NOW MIN RMKIRiF5 6 1 0721 1  MOROZOV, B.F.; UVINTER, M.Ye-; PANCHENKOV G.M. Kinetics of the formation of coke on various types of catalysts. Izv. vys. ucbeb. zav.; neft' i gaz 8 no.3:55-60 165. (MIRA 18:5) 1. Ufimokiy neftyanoy institut i Moskovskiy institut neftekhimi- cheskoy i gazovoy promyshlennosti im. akademika Gubkina.  I Oz A.--twpmeut -on the sil 4 G& 94D- - lisl1eil --- thAt t, ere is an op ` yJ P'd -fins. ThG max--mcl: ~A~ -bh6 61efln-bydrocawbms obtained are. chicf4 s4pha~-ole tent of pot-asSium O"Itained at a com. of wi th noi v -----7777-7~7-77-  "V hp llqpd AP. 11 n.Ar, pr nr-r", -~:)f rRft.,4*~h I m". n~ i-kL-r)v -r-7.nv rr 5OIUTT-.,,M! 02113764 6U6 Iluu~ 1 -AMY VV2 vj;z= W4  INDREW~!T, Yu.P.;- SEM10FRIN, I. A.; PANCHENKOV, G.M. Kinetics of carbon dioxide dissociation with additions in a silent electric disebarge. Vest. Mosk. -an. Ser. 2: Ynim. 20 no.6;24-29 N-D 165. (MIRA 19:1) 1. Kafedra fizicheskoy khirdi Moskovskogo universiteta. Submitted Aug. 1, 1964.  L29964-6 EWT(m)/MP(t)/ET1 -- IJP(r,) --JD ACC NR: AR6000434 AUTHOR- Gorshkov, V, I.; Kuznetsov, 1, A,;_?4 Rchenkov.,_.G.. avenk;va,, N. F. TITLE: Continuous counterflow ion-exchange method of separating, cesium and pubidium -SOURCE: Ref, zh. Metallurgiya, Abs. 9G154 REP SOURCE: Sb. Ionoobmen, tekhnologiya, 14.,, Nauka,' 1965, 49-5L~ TOPICTAGS: rubidium, cesium, chemical separation, ion exchange ABSTRACT: The separation was carried out In a counterflow apparatus consisting of 2 columns 160 em high and 25 mm in diameter. The 11b-ions; were not retained by the cationite as well as were the Cs-ions, there- i fore, the Rb-ions accumulated in the upper part of the first colui-.1n, i and the Cs-ions in the lower part of the second column. KJ-1 sul-fo- i cation was the ion-exchanaer in this case. A hydrogen-type of catlio=6 was.selected and as a displacer - a 0.2 or O.l/X solutions of BaCl 2 (in some of the experiments Cs salts mere also used). The rate of Rb-ion accumulation in the upper part of the ion zone to be separated 1/2  ZHOROVp Yti.R.s PANGliENKOV a.Maj ZELITSEFj S#P,l TIHAKIW p Yu,A6 9 Itivalopment, of the mathemtioal docaription of platforming for optimisation of a procava. Part 1, Kin. I kat. 6 no* 6sIO92- 1097 N-V 165 (MIRA 19 I:L) la Moskovskiy institut naftakhimichankoy 1. gazovoy prom"hlem- nouti imani OubUna, Submitted June 239 1964,  PAVCHMXIP. G.M.j SIMAYDER, G.S. (Mbi3kva) ~ ~-J- -"-- - Kinetics of reaction in the flow taking place in a nonsection reactor in a system of reactors connected in seriezr, and in a sectional reactor with ideal ai-xing. Zhur. fiz. khim. 39 no* ltlOO-10/+ Ja 165 (MUU. 19:32) 1. Moskovskiy institut neftek-himicheskoy i gazovoy pro- myshlennosti imeni I.M. Gubkina, SUmitted. February 28, 1964.  SaII01MIN, I.A.; ANDREYET, Yu.F.; PANCIMKOV, G.M.; RAYRAMOV, V.T. ...... - I Dissociation kinetics of carbon dioxide in the silent electrical discharge under gas circulation conditions. Zhur. fiz. khim. 39 no. ItI90-194 Ja 1165 (MIRA 19t1) 1. Noskovskiy gosudarstvennyy universitet imeni M.T. Lomonosova. Submitted January 7, 1964-  SEMIOEBINO, I.A.; AINDREYEW., Yu.P.; FANCHENKOV.. G.M. (bddation of carbon moncocide, in a glilent -ileotric: discharge. Zhur, fiz, khlm, 39 no,9:2245-2251. S 16~, - (-MIRA 18t10) 1. Khimicheskiy fakulltetp Moskovskiy gosudarstvennyy uni- versitet imeni, M.V. Lomonosova. I  yU.p.7 SEMIOEII.TN, !.As~', F;4N~Jlh'NK0T, G-l" AINDRFf Ell, W,de.l.l.on k-Ineti3o of carlbr~n monoz~dtl In ri Maskjvsk:17 gosudars-tvenr,~-,, unl' v,-r3i -Le" laierill. 7-0moneqova. Sutmitted Auguat I.,  GOLUBEV,, V.S.; KIIZ'MlN, Ye.N.; PANCIIENKOVp G.M. Sorptlon dynamici3 in the presence of interaction of adsvr~Rd Molecules. Zhur. fiz. khim. 39 no.4:1018-1021 Ap 165. (14M 19: 1) 1. Mookovskly goijudaretvannyy univeraitat Imeni Lomonosova. Submitted July 29, 1964. 0 1014 t  PANCHEENKOV G.M.- SAMIGULLIN, M.Sh.; KOIESNIKOV, I.M.; DOROKHIN, V.P. --- Isomrization of