SCIENTIFIC ABSTRACT MINACHEV, KH. M. - MINACHEV, KH. M.

K41CIPC ; -1 - ll~~ C I Acmd- K-WAjj:js~SU~ of ivdmb-a-M .6 S. of Cs",=W im 1h 4 w C. - ,a twgg-~. ta; f-v d: at wage of 0.0006 MdUl= b 3 13-12 1 jWd ti:7 awe rK k P; I ~1; VA vat eq'A S mitents*. I'll, the it .9 1 =,=.tL�. to liA off --b 7: -1 .8= Was is III& - ow :s ~~lwb apt I :tttmww, "y-t POO k~ 5-f IL . Nhkb cur, ezert a PA-1: I vity '0 It on ti-i ff- '%!W- -it .,ad.- is ac for effect i4 at= S!~u r '"t by ftla~1~71' S-d I C. kwwd MGM :"ady'. 1% Plambibgeiss i0c affect P, Ch P, ~;=v 1 0. ed IT.111. pal Za .,j un. C '. lhnOrC4" dWdubW C! iwgig wits done; to the temp t lich tw The AttiV*tKM .d.ity wasobowvWOW" at b'OtIfftet"Ps.  N"ctksUY the 'Arne .; Sfctog al 4-3- 48,00 of OdY.Kok Ili the Pt caullys" sabdo!-;m rude" (b: = The 'ctlat, of the adtw the pokmw;;a 1 .1,04 fully I be I ant of pt I.a == as c to co The activit ;WMW at 300.. "te"t .1 SM. ..I L , to an jQjOsilms 1=6 ash On C. op be =OOA7~ at . am - ISO Mostot be Pt '8~ wilL pt as as SAIW is a be 41 own* by CO WOO I= 0 4 wL Co Poost:d, 14 At CO 6r~w so folordw cow pm-w- SAW W SMISS.. effista", -12%- an gm .0 vv" a woo-DIA by bw wbyD*lo ;6 tat ~~V.X -4 NNY 14. ive- At , O&W by CO to Ir" old ;Amdm=  J. UM/Manistry -Nickel Catalysts Jim/Feb 2M "The ftdrogenatiM and DehYdrogenating Capability Of Nickel Catalysts On Differe4 Carrierss" N. I. Shuykie;')Kh. M. Minachev anA;t. M. Peofanova~j4nst of Org Chem., Acad Sci USSR iz Ak nauk m., mN, xo l., -Pp 96-99 The authors studied the hydrogenating and dehydro- genating capability of a series of nickel catalysts In relation to the amount of finely-dispersed nickel in the catalyst, and to the nature of the carrier. They demonstrated that the most active nickel catalysts were obtained when A1203, Zno and Cr2O3 were used as carriers; nickel deposited on ferric oxide is not suitable as a catalyst for hy- drogenation and dehydrogenation. The autbors also detd that catalysts on carriers with a percentage of nickel up to 20% do not effect the splitting of cyclpihemm below 3500.  IIINACHLV2 Kh. 14. ydro. an ...... hyArnearbans In the ptem.; ence of ruthe M low content Kh. M"Up.5-No f... ,of the metal. flnachlv,~-Ikin, and 1. D. M"U'A . , t~ Rorh Ze", kiT Inst. (NE *SR_ E~~ Acad. loscow), Isresi. AM. ivaux Uldel Khms. au . 338-43.-The activit of Iro Ru-AIIO~, 1% Ru.C. 1% Rfi-AIA, and 1% =~ Cato rsts was examd. in hydrogenation and dehydrogenatiou reactions involving CjlIq, cyclohr-xane, 1-methylcyclopen- tene,andl-octene. Rh catalysts were active fit dehydrogena- tion even at 300% while at 34MO' they gave 02-5%yield ofbentene-, Ruwaslessactive. In hydrogenation reactions both tyM were close to Pt In act!vitv. For clehydrogena- tion of cyclohexane the activaGon energy of Rh-C was 16~M cal./mole, with K. 1.44 X 101, while Ru-C had 30,200 and 1.77 X 1011, resp. X-ray examn. of the catalysts showed that Ru-C gave only one weak band for d - 2.06 A., Ru-AhOs gave d - 2.12, 1.91, and 1.37 A. Rh-C gave I only one weak band for d - 2.01 A.; Rh-AIOs gave d 2.14, 1.92, and 1.38 A. In dIl cases the bands were wide,: _LnOc4linx-MRh -orCer of dipmlon, G. bf. K Isolapoff-    fic H E AID F - 1121 Subject USSR/Chemistry Card 1/1 Pub. 119 - 4/5 Authors Minachev, Kh. M. and Shuikin, N. I. (Moscow) 'ft~ a~44 Title Metals of group VIII as catalysts in conversion of hydrocarbons Periodical Usp. khIm., 23, no. 6, 737-765, 1954 Abstract Preparation of catalysts, effect of various factors on their activity, and catalytic conversion of various hydro- carbons based on the work of Zelinskiy and his followers are reviewed. Six tables, 1 diagram, 196 references (157 Russian: 1911-1953). Institutlon : None Submitted : No date  in of nfickel ;Aulggu tv under the: ju wde C*Umysup, I Qu 060 4 OIL% au Lip -lit"49md J-' OCrIf 48 Of b.-Thdoatum 4124fosed-. lago(M-z nnd 1 1. ''Cenatton tal A Thiopheac wu uged as the polmning dehydrogenation,of material. Both.. c activity for-the cyclahcxxne and the poisaidug %vre dcM. at 2M! with a . dow rate of file cytfohmule (or tb-- Mid. of Wtoftexane-and thlophelle) of O."PI Q1, td, cxtslyst~ Alma OR of the a IntroducrAl as thlook--ne "m lYjtmt 14o (fit C:041yxt. The NI-ZnO catalyst "uhcd Irv timei as muck S to kcreaw IN i activity as 4id the INI-AIA; thlA lutikatet that the 9 Ceacti with the carrier as sell ag with the active metal. 1: This fact- lsdtscus~ed in tertal of Me lattice paranwAersof the cahdystl Rovtar Lmch  1-11FACHEVt KH-M. Transformation of athVICT&MOntwo fil a* armance do. JAU and P" rr " !BWmw "S. M. 4 KWhN&r.. tem. . Ma, 14 14RIRL V.-VEIM-Pawsk. p"oMy A Al ethylcyclopentane under 20 -.1.. it at 400 over catalysts composed of, Pd-SiOl. Pd- AJA, Ru-SIO., and Ru-AhO, resulted In the (allowing data. Id and Ru on Ali% yield much aromatic material, while the salne substances on SiOl either yield no aromatics or at most a small amount of them. Ru-SX), was most cffectirc In clea of the cyclopcntane ring. The following changes. =o=cd In the reaction asroducts: the Initial ethyl- - cycl undergoes extel ve ring expansion to a 6-- mern=nreing. along with dehydrogenation to MePh; a g.1th this, cotislderabithydromp!ysisl#~s~--witk- al of jiwfti4ftne and Lwmer=tlon to 1,2- and 1,3. F dimethylcyclopentanes (mostly trans isomers). G. M. K.  __WWChemistry -,Conversion processes Pub. 22 29/56 Minachav 0 Axitho~s 8 1. M,-, Memb Correip. of Acad.-of So. USSR.; Shuykin, N. L; Tulupova, Z. D.; and Yegorov, Yu. P. Title. I Conversions, of ethylcyclopentarie in the presence of Rh and Pt-catalysts undw, hydrogen pressure in,a flowing system Nricacal s, Dokl. A(SSSR 9915, 777.-780,, Dec'll, 1954,. Abstract The, experimental data obtained during the catalysis of ethylcyclopentane 9 over-Rh - A1203 Pt - A1203 and Pt - S102 *under donditions as described In the title., are 6resented. The specific Utaracteristics of Rh deposited on A1203,-and Pt on S102 during.ethylcyclopentane conversions,, are described. The catalyzates obLllned, after determining their specific weight, index of refraction and aromatic hydrocarbon content were subjected to rectification for.tiie purpose of separating the hydrocarbons. Physico-chemical analysis o. etbylcyclopentane cat-conversion products showed that this hydrocarbon isome izes when in contact with Rh - A1203 with the expansion into a six-membered cycle-and final1y dehydr rences (1934- ogenates into toluene. Five USSR refe ~954)-.'Ta_bles; graph. Institution Acad. of Sc. USSR, The N. D. Zelinskiy InstituLe-Of Organic Chemistry Submitted Jvly 200 1954  SHMIN.N. I 611im OVA.L.K.: TMHGHOVA,Ye.G.; TUDKIM, .im. ; FxCrAll T.P.; ~Tw-e Couv*rsiom of wthyleyelobazam In contact with metals of the palladlum group In flow and at Increased temperature and Ism- creased hydrogen pressure. lsv.AN SUR. Otd.kbim.nmk no.3: 501-511 my-je 155. (ML 8:9) 1. Institut orgonichoskay khtaii In. N.D.Zelinskago Airadmil nauk SM. (Cyclobwmns) (catalysts, Platimm "tale)  V&SR/ Chemistry Cata lyat's.~ 1/2. Pub. 22 - 23/52 Authora S Froydlin, L. Kh.; Tulupova, B. D.; Borunova, N. V.;,Minachev,,Kh. H.; and Shuykin, N. E. I'lemb. Corresp. of Acad. of Sc. Wt~,Z~ mill- .Titlo s Selective increase or Ni-Al catalyst stability by compressing 203 i Dok AN SSSR,-100/2, 283-2E6, Jan 110*1955 Abstraot I 1wrestigation was conducted to determine the effect of two different organic substances on the stability of Ni-Al 0 catalysts prior and ativ 2 hability of the com- after compressing the catalyst. The rel U pressed and uncompressed catalysts.was established by the chang6 in *their activity during dehydrogenation reactions of cyclohexane and narrow Ma.Ycop gasoline'fractions. Institution.-: Acad. or So. USSR,,,The N. D. Zelinskiy Institute of Organic Chemis~ry SutlAttud July 13s 1954~  Periodical i Dok. AN StM 100/2, ZSJ-286, Jan 1955 2/2 Pub. 22 23/52 Abstract, I It -was found that compressing.will. increase the stability of an Ni-Al 03 catalyst during the dehydrogenation of hydro-aromatic hydroKi-bons in the presence of a poison-five-membered cyclene. In the case of poisoning with thiophene, which occurs according to a different mechanisms compressing shows no effect on the catalyst stabilityt.,51r. USSR references (1926-1933)o Graphs.  AJ-Ac~-WEV KH. Chemistry DehydroCenation catalysts 1/1 Pub. 22, 2jB/51 Authom.'- .1 Shuykth,-11. I..Memb,, Corresp. of Acad. of Sc.9 USSR.; Ylinachev, Kho M.; and Ryashentseva M. A* Title Active and st-ble Pd catalyst for dehydrorenation of six-membered cyclones vori4&ca-~~ I - Dok. ~Afl S~&M 101/1, 107-109. Mar 1 1955 Abstrd0t,~ The activity and stability of a nevily, produced catalyst (containing Snly 0.5% Pd) were tested on a benzene frvation dehydroalDnated at 450-460 20 atm. of hydi -ogen pressure and molar hydrogen - hydrocarbon ratio of 5 1. The throughput ratio was I liter/liter of the catalyst per hr. The results.obtained are briefly describede The tftdfur content of the benzene fraction showed no:effectof the' activity of the catalyst... Ten Russian and USSR. references (1911-1954);* Graph, Institution t Acad, of Sao. USSR$ The 11. D. Zelinskiy Institute of Org. Chem. ..Submitted i October 4, 1954,  rl;, /,,I- !_T CL_YjL-1 J_1 f r I, r, r V4 1 ~Ssf~/Organic Chemistry - Synthet!.c organic I I Chemistry., E-2 Abst Journal: 1jeferat Zhur _ Xhim. iya, No 19, 1956, 61424 Author: . Minachev, Kh. M., shuykin, N. 1.,, Feofanova,;;L. M., Tegorov., Yu. P. - ------------------ 1,-0 Institutiont None UA-w- #;, Jkj. j), _' ZEI'A/skly , AS UV;0(~ Title: Conversions of n-Decane in the Presence cf Platirl'zed Alumina at Elevated Temperature and Hydrogen Pressure Original Periodical; Izv. AN SSSR, Otd. khl . n., 1956, No 3. 352-357 Abstract: Investigated were contact-catalytic conversions Of n-C10422 in flow system over platinized, alumina (Referat Zhur - Khimiya) 1956, 12800) at elevated temperature and R2 pressure. n-ClOR22 (BP 174-110) prepared by Grignard reaction by action of CACHO on C6Hl3lW,, and subsequent dehydration of the formed sec-ClOH210H over A1203 at 3200 and hydrogenation of the reaction product in vapor phase in presence-of 1% Pt/C at 2100 and wrmal pfeBsure. n-ClOH22 was brought in contact vith catalyst at *04pace velocity 1.1 ha~w_i, and molal ratio H2:n ClOH22 = 5:1, Hp -pressure 30-50 atm Card 1/2  U&*Organic Chemistry - Synthetic Organic Chemistry, E-2 Abet Journal: Referat Zhur - Khimiya., No 19., 1956,, 61424 Abstract: and temperature 4600. Catalyzates are characterized by n20J) and dV and con*p3t in aromatic hydrocarbons which were separated by adsorption on silica gel. a-alkanes were separated from iso- alkanes by means of urea. F*ucts of catalysis were subjected to spectral analysis in M-11 spectrometer (slit 0.2.mm, concentra- tion of hydrocarbon in CC14 1:50 by volume). It was found that greatl& changes on increase in number of CH 3-groups are observed at PARS 3-51., 3.42 and 3-38,A. With increasing branching of hydro- carbon the first 2 peaks decrease and the third increases. From the magnitude of ratios 3-5113-38 and 3.42:3.38 an opinion was formed of the extent of branching of the hydrocarbon. It was found that under the described conditions n-ClOR22 undergoes a series of extensive conversions as a result of which are formed aramat:tc hydrocarbons 5 and 6-membered cyclanes and mono- and disubstituted isoalkanes C7 - Clo. The content of monosubstituted decanes in the total mass of isodecanes is 70%- Card 2/2  WAR: t flow Wi"- aq. at 110, with ar stswe, ,%mad , -nl. M t% ',~Y(d ,., 0 , , t11,, Ayd., u alkyi  . 1- -~- .-4LelFj- -- -- -L^,(P- , - -   VAN." "im/Chemistry Organic -chemistry Card 1/1 Pub. 22 - 20/43 Authoks Ponomarenko,' V. A.; Sakolovs B. A.; Hinachev,, Kh. H.; and Petrows A. De Remb* Carresp. of AN SSSEt .Title Addition,of methyldichlorosilane and othyldichlorosilane to allyl halides Peeadlaa - u Dok.. All SM 106/1,, 7649, Jan 1, 1956 Abstract I The possibility of adding to allyl Italides (allyl chloride gLetalyl chloridev Sto) compounds more complex than silica-chloroform (HSiC1j$ - silane hydri- des -such as methy1dichlorosilarte and athyldiablorosilane in the presence of platinized. carbon, was investigated.'~,It -was found that both silanes in 0 the presence.of pldtinizdd carbon containing 1% Pt at 16o attach them-. selves to the allyl- and metalyl chlorides forming homologous gamma-chlor- alkylalkyldichlorosilane. Other products formed as result of. this addition" reaction are described* Twenty-one references: 13 USAv 4 USSR9 3 Eng. and I French (1947-1955).. Graphs. Institution z Acad. or Sc.i USM,, last. of Organ. Chem. im. M. D. Wiaskiy Submitted Ady: 29 1955  two. p1saure Q msx" lb"t ,tltn. reiultrd tit rlkuyji quir --t-w  t -1 " .I, :, ./4 -V  Y-310a of "-nonAne in a flovr SysternIn the presence of pt ud f Itimitlosilkntc' and hydrof on* at elevated tem- Paralure, and Pressufo. N. L. M. Peo(antiva, and Va. . i 0"1 WL1_iNis!t' Uri. Chem., M W). 1, 1 A Moub k 'Otdd. Khim. Nuk 19S7, 1219-2-2; el C-1. SO, 63:17K A Pt alumiwwili~Ate catalyst c.ntg. VIC di%perscd Pt Was te.qed in a fl(,vr 9,ystem for its action on Ciff-4 at 41-10' and 3(10' In the ptes,nct of 11 at X) atnt. pressTtre. At 400'. 10070 eonvcr~vm. is obtained with isameruatiun, hydro.- cracking. and dcbyd%A yclization predominating: wher, the temp. is lowered to 360' hydrocracking I,; rtduceJ and the yield of isr-meric alkanes arnts. to about 63,'C,' At 400' and it 11 pressure of 20 atm. the evinvusion ver an alumiuosilivite zaWysE ;s only 14cr, wh;-h Indicates that promothut of the eatalyst by Pt Is u.4dul Ire the reforming 6f gasaline. The following rimc6,)n products were Isolated or detwted! MetCHEt, u-C411,4, NIC'U'L, 144%clipr, hir- OfEti, a-C,11i., ratthyleyclopentane, N-C71110, CH~. (CH,CIII&A. McPh, a, m-, and P-xylenm mesitylene. *&- and o-MeEtC.H.. raorto- and distib- stituted afkanes C., C114, CJ[s, and bwmicric CHa' 0. M,  MI&kCM Kh ;-OH=N. N.I.; RTASUEMSIVA. M.A.; KONONOV, N.1p. Studying metal-oxido catalysts In peollne reforminge Report Reforming a gasoline fraction of a boiling point of 96-li4o of Illekly-Khodyshonskly petroleum with a platinum-silicon catalyst, lzv. AN SSOR Otd. khIm. nauk no-10:1223-1228 0 157. (MIRA 110) 1.1natitut organichookey khirdi is. N.D. Zelinskogo All SSSR. (]Petroleum-Refining)  AUTHORS: Yinachev, Kh.M., Shuykin, N.I., Kononov, N.P., 62-12-7/290 - Garaning IoLep Hyaahentseva, U.A. TITLE: The Investigation of Oxide-ketallic Catalyzers of Gasoline Re- foming (Issledovanlye okiono-metallicheakikh katalizatorav reforminga. benzinov). Information 2. The Reforming of Narrow Gaso- line Fractions of the Ilsk Mineral Oil and of the Kineral Cil of the Second Baku by Ueans of Platinum Oatalyzers (Boobshcheniye 2. Reformirovaniye uskikh benzinovykh fr.aktsiy illskikh neftey i neftey Vtorogo Baku na platinovykh katalizatorakh). rMODICAL: Izveatiya P14 SSSRotaelenipKhimicheak1kh Nauk, 1957, Nr 12, pp. 1472-1477 (USSR) ABSTRACT: Recently, the problem of producting active and stable gasolines (with a view of obtaining aromatic hydrocarbons) has been attainin.- special importance. In previous works (4#5) it ~m sho~.m that the cata2yzer 0.5;Z Pt - A120.4 has a favorable dehydrating and (with re- speot to isomers) effioalcious activity. In the present paper the authors investigated the activity and stability of the catalyzer 0.5% Pt - Al~D 3 under the conditions of the reformation of the frac- tion (boiling point 95-1150) of the mineral oil of Ilsk. It was Card 1/2 proved that, specially selected conditions prevailing, the catalyzer  The Investigation of Oxide-Metallic Cata2,yzers of Gasoline 062-12-7/20 Reforming. Information 2. The Reforming of Narrow Gasoline Fractions of the 11sk Uineml Oil and of the Kineral Oil of the Second Baku by Means of Platinum Catalyzers retained its stability in the case of a suff4(-.iently high activity (of up to 2000 hours)* Furthermore, a comparative investigation rMs carried out concerning the properties of the two platinum cata- lyzers at the conditions of the reformation of the fraction (85- 1380) of the mineml. oil of the second Bdm (Vtoroy Balcu). In this connection it was found that the catalyzer 0-%~ - Ft-A1203 18 n"ch more advantageous then the catalyzer 0-5,Q Pt-S102- The advantage it offers consists in the greater yield of aromatic Wrocarbonza as imll as in a lovier degree of gas formation. It ~ms sho.-in that the catalyzer 0-5% Pt-A120 is very well suited for reforming gasoline fmotions (for the pQose of dbtaining aromatic hyaroaarbon3). Be- sides, its hydroomoking properties are mther insignificant. There are 2 tables, and 10 references, 7 of svhiah are Slavio. ASSOCTATICK: Institute for Organic Chemistry V4 USSR imeni N.D.Zelinskiy (Institut orgudcheskoy khimii im.1f.D.Zelinskogo Akademii Nauk SJ'$R). SUBXITTED: June 29, 1956 AVAIWLE: Library of Congress Card 2/2 1. Ga3olene-oxid"etallic-Catalyzers 2. Mineral oil-Gasolene fractions-Platinum catalyzers  M I /Y A C11 E- %/) KH' &I. AUTMt Minachevi KH, M,; and Kononov, N. F. (Hoscow) TITM Catalytic Conversions of Individual Hydrocarbons and Their Natural Iftxtures (Ganolineo and Ligroinn) under the Pressure of Hydrogen (Kataliticheakiye prevrashcheniya individualtnykh uglevodorodow i ikh estestveka*W smesey / benzinov i 3-igroinov / pod davleniyem vodoroda) MIOMCALI Uspekhi Rhimii,, 1957,, Vol. 26., No. 2., pp. 176-211 (U. S. S. R.) ABSTRACTs By mans of tables, graphs., and extensive textual discussion, the author surveys the status of catalytic reforming of benzines and 31grolm from petroleums of varying origin, permitting the output (in addition to fuel) of a considerable number of aromatic hydro- carbonot benzene, toluene,, etbylbenzens, and xylenes. Development of petrolsn= processes in the U.S.A., Canada, Australia is described, wherein mention is made that about 60 installations are operating in the U.S.A. for catalytic reforming (a process which is second in importance only to catalytic cracking) with a total output of benzene and concentrates of aromatic hydrocarbons amounting to 95,,W0 cubic metera per day, For the US.S,R., the petroleum yield by 1960 Card 1/12  Catalytic Conversions of Individual Hydrocarbons and Their Natural FAxtures (Gasolines and Ligroins) under the Pressure of Hydrogen should reach 135 million tons and the output of light oil products Will be twice that of 1955. The antiknock qualities of Soviet autowbile gaaolines have been raised to 66 units only since the end of 1955. Reactions occurring during catalytic reforming are described. The authorts thesis is to explain the state of the problem of the catalytic ronversions of hydrocarbons 05 and higher) and their natural mixtures under the pressure of hydrogen on the basis of studies published in the last several years. The author's study is based mostly on British and American sources. The general topics wider which this thesis is developed are underlined and explain ed below, Conversions of Individual Hydrocarbons over Oxide-metallic and Oxide Catalysts with an Increased Pressure of Hydrogen in the Flowing Sffste& Seven U, S. patents on this subject are cited and described. Card 2/12  Catalytic Conversions of Individual Hydrocarbons and Their Naturai. Ydxtures (Gasolines and Ligroins) under the Pressure of Hydrogen The effect of various factors (including sulfurous compounds in the crudes) upon the catalytic properties of oxide-metall1c: and oxide catalysts is presented (see captions to Table 3. below). The effect of an increased partial pressure of hydrogen and of temperature var- iation was studied (Ref. 47) in the case of a conversion of cyclohexa, 4-meUqlcyclohexene and I-methyl-4-isopropyllcyclobexeme in the presen of an Ni catalyst on kieselgubr. At pressures from 1-42 atmospheres and temperatures from 230-2900,, these hydrocarbons mere subjected to kk1rogenation and hydrogenolysis accompanied by the isomerization of the skeleton. Conversions of Individual Hydr,ocarbons of Various Classes, The substi"Mion of one hydrogen in 'the cyclohexane ring into the I_. metb3rl group promotes the increase of the dehydrogenation speed while a replacement of the hydrogen by the ethyl group decreases the speed of this reaction. The relationshLp of the reactions depends greatl on the parameters of the process and the nature of the catalyst. Card 3/12  Catalytic Conversions of Individual Hydrocarbons and Their Natural MLxtures (Gaso3ines and Ligroins) under the Pressure of EVdrogen The transformation rate of alky1cyclopentanes in aromatic bydrocarbor apparently is fixed by the rate of their isomerization (furtber details wider table captions below), Of particular interest is the formation of 1.1 dimetbyl cyclopentane from methy1cyclobexane and of 1,,l,.2 trimethyl cyclopentane from ethyl cyclohexane; the mechanism of those conversions is as yet unexplained. Normal alkanes and isoalkanes. The catalytic conversions of alkanes flowing system under pressure of hydrogen at increased temperatures J the presence of bi-functional catalysts are accompanLed by reactions dehydrocycl-ization and of hydrocracking.. resulting in derivation of paraffins with reduced molecular weight both of normal and of ise- structure. Influence of hydrogen pressure upon other reactions is described. One conclusion drawn from the isomerization of a-pentane n-hexane, n-heptane and n-octane is that the to required for obtair Die same de-~ree of converRons decreases with the icrease of the carbon chain (more details in Table 14). The presence of five- membered cyclanes in catalyzates shows that their (the cyclanesf) formation takes place not only at atmospheric pressure and at Card V 12  Catalytic Conversions of Individual Hydrocarbons and Their Natural Mixtures (Gaaolinea and Ligroins) under the Pressure of Hydrogen temperatures of 300-3150 on platinized carbon containing 20% Pt but also under considerably diverging conditions of the process (to, prenours,, volumstric speed and the nature of the catalyzer). Aromatic I&drocarbous. Results of studies of conversions of aromatic Vurocarbons under conditions of catalytic reforming showed that the basic reactions in this case are the demetIoUtion or the very redistribution of substitutes. Chemical rings are presented to show the conversion of hydrocarbons,, No I* Shuykin and associates (59) Investilgalted the behavior of propyl- and isoprophl-benzenes in the preseneb of nickel deposited on an activated oxide of aluminum under various bydrogen pressures (25-50 atmospheres) and temperatures ranging from 350-4640. A 98% degree of conversion of the hydrocarbons am realised, Five and six-membered cyclanes and paraffin hydrocarbons of both norml. and iso-structure were also discovered in the catalyzatea. The equilibriwm content of p-zylene in mixture with its other isomrs and with ethyl-benzene at 4820 equals about 20% (more data in Table 15). Card 5/3.2  Catalytic Conversions of Individual fbihvcarbons and Their Natural Xxturee (Gasolines and Ugroins) under the Pressure of Hydrogen Conversions of Natural MAWSS of AWcarbons (of benzine and 3.igroJ fractions), Catalytic reforming (mainly platforming) has obvious advantages in respect to outputs of catalyzates and to its antiknock qualities (Fig, 11). The conversion of tWdrocarbon mixtures is more complex than that of individual hydrocarbons, The speeds of some of the pertinent reactions were studied and the reactions can be listed a follows in order of decreasing speed: dehydrogenation, isoverixation, bydrocracking,, and dehydrocylisation. The author also gives details under the following points: effect of the composition of crudes ard effect of parameters of the process upor the reforming of benzines (chemical composition of crude is presented,' commrcial realization of the processes of catalytic reforming. The& processes are divided into tbree groupst 1. unregenerative processes being accomplished on a fixed catalyst at relatively high presswes; 2. regenerative processes being realized at relatively high pressuret and 3* regenerative processes being realized at relatively low pressures on non-platinized moving powder-like or coarsegrained catt CArd 6/12  Catalytic Conversions of Individual Hydrocarbons and 111eir Natura, Mixtures (Gasolines and Ligroins) under the Pressure of Rydrogen Abbreviated captions of the figures and tables are as follows (in order of occurrence in text): Table 11 Aromatic WrOcarboOproduction by the platforming method. Fig. 1t Orowth of M. xylene production. Fig. 21 Conversion of is-hexane in presence of various metals (graph). Fig, 3: Conversion of ;-hexane in presence of salts of nickel, Table 2: Value of BpecTfic surface of catalysts and carriers. Table 3: Effect of sulAu'ous conPoundla upon aromatization of metbyl cyclopentane and cyclohexane (the conpounds for which data are given are bydrogen sulfide., diethyl, sulfide., and phenyl mercaptan). Fig. 4: Effect of partial bydrogen pressure on the activity of a caf of platforming, Fig, 5: Effect of sulfur content on the activity of the platforzdni catalyst. Card 7/12  UWAic COnversiOnB Of Individual Rrdrocarbons and Their Natural Nxtures (Gasolines W Ligroins) under the Pressure of RAIrogen Table 43 Effect of catalyst type and hydrocarbon structure upon composition of catalyzateB. Table 53 Tzomerization of n-pentane on bi-functional catalysts. Fig, 63 Effect of catalysi-girain size on depth of conversion of n-heptane (conditions of experiment: 4960.. 14.3 atm., 7H2 3 HC -) Fig, 7: Effect of Ni content upon the output of n-hexane isomers with to of 290P., 3200., 3500j, 3800 and 4100. Fig. 8: Sam as for Fig. 7, but upon the output of methane (same to as Fie. 7). Table 6: Comparative dehydrocyclization activity of various catalysts. Table 7t Depth of isomerization of n- ntane in dependence on metal content in catalyst (at ~2fbr Table 8z Composition of catalyzates obtained from conversions of five- and six-membered cyclanes over Pt-A12(33 (4600, pressure 15-20 atm,), Tab14 9t Isomerization of five- and six-membered cyclanes over nickel- alumina-silicate catalysta, Table 10.6 Content of aromatic hydrocarbons in catalyzatea obtained during the conversions of methyl cyclohexane and ethyl cyclopentane over various catalysts. Urd 8/12  4WIP Catal.vtic Conversions of Individual lVdrocarbons and Their Natural MUctures (Oasolines and Ligroins) under the Pressure of Hydrogen Table 11: Content of products of isoverization and hydrocracking of etbylcyclopentane in naphthenic-paraffinic part of the catalyzate (to 46o0., pressure 20 atm.) Table 12: Content of aromatic bydrocarbons in cataly=tes obtained durin the debWdrogenation of cyclobexane and methylcyclohexars (at to of 4270, 4820, 5100, 4270j, 5100., pressures of 21 and 42 atm.). Table 13: Products of conversions of normal alkaneB. Table 14: Isomerization of hydrocarbons on a standard nickel catalyst (at pressure of 24.8 atm. and teMeratures ranging from 2560 -4120). Fig. - -pentans over an oxide-molybdic catalyst for various ratios ork --HC- Fig. 103 Isonerization of n-pentane over an oxide-molybdic catalyst at various pressurev7(0 to 72 atm.) to (to 4400). Table 15: Isomerization of m1xture of xylenes (to 4820, pressure - 12. atm.). Card 9112  Catalytic Conversions of Individual Hydrocarbons and Their Natural Mixtures (Gasolines and Ligroin~) under the Pressure of Uydrogen Fig, 11i Outputs of gasolines plotted against their octane qualities. Uble 16: Transpiration rate of various reactions during the conversion of m-heptane, Catalyst 0,6% Pt-A1203. TO - 4680,9 4960.9 pre-Ssures - 14s 25,, and 35 atm. Fig, 12: Dependence between yields of catalyzates and initial boiling point of the starting material, The y-axis shows the yield of liquid catalyzate in %j the x-axis, the to of start of boiling of the starting material. Table 171 Characteristics of the crude (data taken from the exposure to reforming of ligroins of botji mixed and paraffin bases). Table 18: Characteristics of a (platformate?), Table 19: Effect of to on results of reforming (artificial mixture). Table 20: Effect of to on results of reforming. Table 21: Effect of to on results of refoxming. Table 221 Heats of dehydrogenized naphthenes. Fig. 13: Graph showing equilibrium of dehydrogenization of methyleyclobexane. Card 10/12  Catalytic Conversions of Individual Uldrocarbons and their Natural Mixtures (fteclines and Ligroins) under the ftessure of Hydrogen Figg 114t Graph showing equilibrium of deWdrogenization of cyclohexane. Pig. 15: Oraph shmdng equilibrium of debydroisomerization of vatkqlcyclopentana-Mlohoxars4ansone, Table 23s Influence of pressure on resets of reforming (straight- run gasollne at to of 119-2070), Table 24t Influence of pressure on results of reforming (synthetic gasoline at to of 131-1970), Fig, 161 Effect of output rate mpon degree of conversion of np-hexame at a Varying temprature. Table 25% Effect of rate of output of st4urting material upon remats of reforming (ligroin of mid-continental oil, fraction n0-2020). Table 26s Effect of output rate of starting material on results of reforming (synthetic gasoline at 131-1970), Card llA2,0  CatAlytic, Conversions of Individual F4ydrocarboas and Their Natural Rtxtwes (Gasolines and Ligroins) under the Pressure of AVdropn The chief points contributed by the cited references am outlined above, but several specific personalities are as follovs: F. G. Ciapetta and J. B. Hunter (21) who described a mthad for preparation of oxido-mtallic catalysts; N, I, Mv4idn and 1. X, Minachev,, with their anociates., *a prepared catalysts for stWozg the conversions of ethyl cyclopentarm, metbyl cyclohexam and n-b~pU=j and H. Ibinexam &W associates whD studied the effecT of various sulfurous compounds upon catalysts of hydroforming, There are 93 references, 33 of which are Slavic, ABBOCUTMEs PRESFATZD Bri SUBMTWS AVArLABIEs Card 12/12  A. A u S.S-ZY.K. ILIA, D~ Akad. N4" r cow).  - . -. -. . -- - . , , ~:~ - - - - --- - ~ --, - -- - --f -- ~ IA I -iA ~-, - --l ~ - - ~-. , - -  AUTHORS: Minachov Kh. M, , Shuykir.. 111. 1., 62-2-7/28 -i;=e-o L. Knova~, M., Yegorov, Yu. P. TITLE: Transformations of n.Hendecane in the Presence of Some Metals of the EighthGroup Under Hydrogen Pressure in a Flow-System (Prevrashcheniya n.undek-ina v prisutstvii nekotorykh Metallov vostmoy grupp.,r pod davleni-yen, vodoroda v protoohnoy sisteme). PERIODICAL: Izveuti.ya AN SSSR Otdelerd~,e Khimicheskikh Nauk, 1958, Nr 2, PP. 174-180 (USSR)., ABSTRAM The results of th6 contant-catalytic transformations of n.heptane and n.decanp in the presence of some metals of the eiehitgroup wnre described in the reports already published. These conversions took place under hydrogen pressure and at raised.tem eratures. The authors continued their inve3tigations P in this field and in 'he present paper deal with the investi- gation of tl~e behavior of ri.hendecane on Pt-, Pd- and Ni- catalysts. Par,ers on the investigation of the-conversions of higii-molesular alka~i,~~; ogre.- almost completely absent in publi- I air .~at-om;- This 4a mainly to be exp- ed by the fact that in- VestiCatiors in thi2 direotior meet with great difficulties Card 1/2 dize to the abs,~r,,D~~, of chemical and physical methods for the  Transformations of nJlendecana in tho Prezence of Some Metals 62-2-7/28 of the Eighth Group Under Fydrogen Pressure in 9, Flow-System. analysis of the hydrorarbon mixtures obtained by the con- versicns. In the preoent paper the authors report on the in- vestigation of the catalytk, properties of finely dispersed palladium, p*latinum and nickel-, separated in small concen- trat~ons on aluminum oxidp ir, the conversions of n.hendeGane at 350-45,00C under hydrogen. pressure (20 at. excess pressure) in a ficw-system. It was found that the degree of conversion of thq initial ' hydrocarbon is to a considerable extent depend- ent on the type.of catalyst. It was further shown that under the assumed conditions the fundamental direction of the con- versions of n.hendecane are the reactions of isomerization, hydrocracking and partial dehydrocyclization. Finally the pro- blem concernIng the way5 of formation of aromatic hydrocarbons from n.henlecanp was examined. There are 4 tables, and 6 re- ferences, 5 of which are Slavic. ASSOCIATION: Institute for Organic Chemistry imeni N.D. Zeli-.-.z'l:iy All USSR (Institut organioheskoy khimii imeni IT.D. Zelinskogo Akademii nauk SSSR). SUBMITTEDs August 28, 1956 AVAILABLE: Library of Congreas Card 2/2 1. Palladium-Ga+Wvtie properties 2. Platinm-Catalytic properties 3. Nickel-Catalytic properties 4,--n-Hendecane-Transformatione  62-58-54,/30 AUTHORSs Minac~e44J4,_&., Shuykin, N. 1. , Peofanova, L. M. TITLEs Reactions of n.Keptane on Oxide-Metallic Catalysts Under Hydrogen Pressure in a Flow-System (Prevrashcheniya n.gepta na okiono-metallichookikh katalizatorakh pod davleniyem vod rods, v protoohnoy sisteme) PERIODICALs Izvestiya Akademii Nauk SSSR.Otdelen:be Khimicheakikh Nauk, 1958, Nr 3, PP. 305.- 308 (USSR) ABSTRACTs The experimental data on the investigations of the reaotior of the 6- and 5-membered cyclanes and n.alkanes in contact with oxide-metallic catalysts were already given in a humbc of previous papers. These investigotions also yielded de- terminations of interesting rules governing the catalytic properties of the metals of the Sth group. In the present paper the authors discuss the results obtained in the in- vestigation of the reactions of n.heptane on Pt, Pd and Rh as well as the experimental data. Of special latAwe" is tho Card 1/2 statement that simultaneous with the formation of aromatic  62-58-~-4/30 Reactions of n-Heptane on Oxide-Metallic Catalysts Under Hydrogen Pressur in a Flow-System and isoparaffinic hydrocarbons a dehydrocyclization of n.he tane with ring closure (5-membered cycle) was observed. The properties of the products of catalysis of n-heptane, obtained in contact with Pt, Rh as well as alumina catalpts are given in a table. There are I table, and 10 references, 9 of which are Soviet. ASSOCIATIONs Institut organicheskoy khimii im. N. D. Zelinskogo Akademii nauk SSSR (Institute for Organic Chemistry imeni N. D. Zelinskiy, AS USSR) SUBMITTEDs October 180 1956 Card 2/2  -4-7/32 '0 5`3 Shuyi-in, 'T. I. llyacc'.- t 1'. Y IT ,ononov, IT. F. , lairdymova, 1. TITLE: Investi '-.Aion of t7-c Pra!.crtier, of f,Dr Gasoline Ilcflormin~; (Isclelovani-ye svoystv o':iono- n,? tallic*'Les%il.'i )-.~,.tali:mtorov nicL.tiai3: Converlno of Vic GL~zolinc FIL--tion at ';', i Boilin,-, Point 0',,5-1200 of the Second BLJ:u Patrolui-.i., on s t. kip. 5 -1260 benz inz. nef t ey -it o-,,j.-,o lla'-u nE. palludiycvo~; 2 1950, lir 4, 1)~n- l;'r2',' 43' (TIMOR) ABS'RACT: T-he 'previous 'Da".ars .-rcnces 1 , 2) cont-incd '-.,c data founa in Vte invcsti--Aio7-, of t',,:~ =;01-,:lc fr,~Ct-olls -f L. - , 1) G_cr ~e so.:-,e -,;ctrolaum, ty-l c.,,. Tlc of '-':o r t-- of Ve c!----rier on V~c activity of Vio cLtL,.lyot- waz :.1re~L(!y deocri'0cd in ec,rlier viorkc;. ~-r t- c c;:- c!ri-.,.u:. tal caa-d 1/3 nateri-,l of V-.c In t':o prcscn-ce of 2. lif cre-t T ETIIODIC,.L: Izvesti;,a Ak r1c:aii !.',-.u!c SSSIZ OtdelcniA  ` 2 -4-7/., InveutiL;ation of t,c Pro c.. tf-c-2 of :7, '-. '-ozide ;~-'-alystz f,)r r,:.:;oli.-,c- Ref orminC. Communicztion 3: Conv,~.-ruiono oi P-,,; ior at tho Doilin- Point 01),5 - 12'0 of V)c Seco A llz~!:u 11'ntrul,~un o~~ 1'. diun Cutallst Of a IJa11.i.(Ij17T-, C-`.tL.lYGt 0,5-,'i I'd - Al,,C- ~.z,c the."r T%:~V,.C-.,0 t-le of too. f~-"Ctiojl 0 0 C Point '5,5 - 1201c)) c.-..2riod ont LA .'7 4!~ 0 i.t 2o at,,,.ospherao e,-~ceso Ixe,-,ure. T*:o c;:, o'twved that both ou..-,Aer, of t!-,c otit t'-.e ~;cnation of CyclUncs as .-;ell as Vie com-orzion of 5- mc..iberod c~,cL~.-eo i~ito 6- ones (-Iitl~ their rm1-)oe(j,,.cnt lohydrol,,cnation). In t',.c .)i-e.;c..,ce of 11-'-e soc"),ld ex eririen'L-,1 catz:l,rst --im'crons c.-cl 0 nd .,Lraffinez; joined t1to :%rocess of tion of -::-~),--tic hydrocurb~.ns. T.J pr-~cccs is otill moi-c Li'cn--ivu in 'ne 1~rcscnce of catalyst 1.2 '111Lu i:i t')-t of n.1. ".reover the catali,.--te n.2 di.,;tin7,uio';.eo it[;Q11 rir,*~er conte-at Card 2/3 of ramified par:-ffines.  62-58-4-7/32 Investigation of the Properties of !-~talyits for Garoli.nc Reforming. Connunication 3: Converoions f t'ic rasoline Fraction at the Boiling Point 89,5 - 1260 of the Second Baku Petroleum on Palia- diun, Catalyst Furthermore the composition of the initial fraction and of two catalysts were determined by means of a combined method.There are 1 fiGure 7 tubles,and 2o references, 13 of which are Soviet. ASSOCIATION: Institut organiclieskoy khimii im. H. D. Zelinsko.-o Aka- demii nauk SSSR (Institute for OrZ;anic Chemist:-y imcni ff. D. Zelinskiy ., AS USSR) SUBTAITTED: November 3, 1956 AVAILABLE: Library of Con7 ,ross 1. ]Petrole=-Qwdine fmations-analysis 2. Metal oxide Card 3/3 catalysts-Properties  AUTHORS:. Minachev Kh L' Shuykin, It ~ I I SOV/62--8-6-11/37 - - R r t M A Ko v ff F n . , as e nono . seva, ., y , TITLE: Investigation of the Properties of hietal-Oxide Catalysts of Gasoline Re-Foriaing (Issledovaniye svoystv okisno- metallicheskikh katalizatorov reforminGa benzinov) Communication 4- Re-Forming the Fraction With Boiling Point 89,5-1260 of the Benzine of the Mineral Oils of the Volga- Ural Group on a Palladium Catalyst treated with hydrogen . sulfide (Soobshcheniye 4.. Reformirovaniye fraktsii s t. kip. 89,5-1260 benzina neftey volzhsko-urallskoy Gruppy na palladiyevom katalizatore, obrabotannom serovodorodom) PERIODICAL: Izvestiya Akademii nauk SSSR, Otdeleniye khimicheskikh nauk, 1956, 1Tr 6, pp. 719-725 (USSR) ABSTRACT:. The problem to be solved by this paper was the investi,-ation of the activity and stability of.a sulfurous palladium catalyst under the conditions of the re-formation of the fraction (boilinC point 89,5 - 1260) of benzine obtained from the mineral oils of the Vol.-a-Ural group. Under given Card 113 conditions the catalyst carries out the dehydrogenation of  Investigation of the Properties of Metal-Oxide I SOV/62-55-6-11/37 Catalysts of Gasoline Re-Formina. Communication 4. 0 Re-Formine the Fraction With Boiling Point 89,5 - 126 of the Benzine of the Mineral Oils of the Volga-Ural- Group on a Palladium Catalyst treated with hydroCen sulfide 6-membered cyclanes and, besides, also the dehydroisomerizati of 5-membered cyclanes the skeleton isomerization of alkanei and the de-sulfurization of benzine. A cataly3t consistinE oJ 0,5Fp4 Pd on Al 0 which had previously been treated with 2 39 hydroC-:en sulfide, showed more resistivity against the effect of organic sulfurous compounds than palladium catalysts that had not yet been subjected to the action of hydrogen sulfide. The individual composition of the initial fraction was investigated. There are I fiCure, 6 tables, and 8 references 5 of which are Soviet. ASSOCIATION: Institut'orCanichoskoy khimii im. 11. D. Zialinskogo Akadelmii nauk SSSR (Institute of Organic Chemistry imeni N. D. Zelinskiy, AS USSR) SUBMITTED: December 13, 1956 Card 2/3  Investi.sation of the Properties of Metal-Oxide SOV/62-58-6-11/37 Catalysts of Gasoline Re-Forming.-,Communication 4. Re-Forming the Fraction With Boiline Point 89,5- 1260 of the Benzine of the Mineral Oils of the Volga-Ural Group on a Palladium Catalyst treated with hydrogen sulfide 1. Metal oxides--Catalytic properties 2. Palladium catalysts--Performance 3. Hydrogen sulfide-Chemical effects 4. Benzenes--Syxthesis 5. Mineral oils --Fractionation Card 3/3  AUTHORS: Shuykin, N. I., SOV/62--58-7-12/26 Vinogradov, V. L. TITLE: A Comparative Investigation of the Catalytic Properties of Platinum an the Conditions of Benzine Aromatization at Atmospheric and Increased Hydrogen Pressure (Sravnitellnoye izucheniye kataliticheskikh svoystv platiny v usloviyakh aromatizatsii benzina pri atmosfernom i povyshennom davleniy~ vadoroda) PERIODICAL: Izvestiya Akademii nauk SSSRv Otdeleniye khimicheakikh nauk, 1958, Nr 7, PP 866 - 869 (USSR) ABSTRACT: During the last years the authors of the present paper have dealt with the investigation of the catalytic properties of the Pt--, Pd-, Rh-, Ki- and Co catalysts (Refs 1-10). In the present paper the authors report on the investigation of the activity and stability of the 4% platinized charcoal on the conditions of the aromatization, of the benzine fraction at atmospheric pressure and different temperatures. Furthermore the activity and the stability of 0,8% platinized charcoal v investimated on the same conditions as prevailing in the cas Card 1/2 of the i% one. The results of the investigations are: The  A Comparative Investigation of the Catalytic SOY/62-58-7-12/26 Properties of Platinum on the Conditions of Benzine Aromatization at Atmospheric and Increased Hydrogen Pressure greatest activity and stability was found with the 0.8% cata. lyst Pt - C, which operated at 4600 and at 20 atmospheres absolute pressure. It is of interest to learn that the two catalysts do not carry out any other reactions but the react: of the dehydration of the 6--membered cycles. There are I figure, 1 table, and 15 referenoes, 15 of which are Soviet. ASSOCIATION: Inatitut organicheakoy khimii im.N.D.Zelinskogo(Institute of Organic Chemistry imeni N.D.Zelinskiy) SUBMITTED: January 39 1957 Card 2/2  SHUTKIN. N#19; MINACHEV. Kh.M.; RYASHMITSEVA. M.P. Producing aromatic hydrocarbano by clehydrogenntion of narrov benzin fractions obtained in straight-run distillation. DAL AN Aserb. SSR 74:769-776 158. WRA 11:11) 1. Institut organicheskoy khimli imeni N.D. Zelinskogo AN SSSR. (Hydrocarbons) (Dehydrogenation) . 0  SHUTKIN. N.I.; MINAaW. Jrh.M.; NOVIXIDV, S.S.; KONOROV. N.Y.; GARANIN, LL, Reforming straight-run gasolines b7 lov-tomperature dehydrogenation on platInised chArcoal. Zhur.prtkl-khim- 31 no.11:1732-1738 N 158- (MIRA 12:2) (Gasoline)  SHUYXIII, N.I.; MINACHEV, KhA; GARANIN. I.L.; HOVIK071 S'S'; KONONOV- N-F- '- Production of toluene concentrates from petroleum fractions by lov- temperature dehydrogenation on platinated charcoal. ZhtLr.prikl.khim. 31 no-11:1765-1767 N 158. (KIRA 12:2) (Toluene) (Petroleqm products) (Dehydrogenation)  (2,3,4) AUTHORS: Minachev, Kh. M., Ryaahentsevay M. A.9 sov/62-59-5-9/40 Rubinshteyn, A. M. TITLE: Investigation of the Properties of Metal Oxide Catalysts for Benzine Reforming (Issledovaniye avoyety okisno-metallicheskikh katalizatorov reforminga benzinov). Communication 5- Some Pe- culiarities of the Catalytic and Physical Properties of Palla- dium Catalysts (SoobshoheniYe 5. Nekotoryye osobennosti kata- liticheskikh i fizioheakikh avoystv palladiyevykh katalizatoror) PERIODICAL: Izvestiya Akademii nauk.SSSR. Otdeleniye khimicheskikh nauk, 1959, Nr 59 pp 819 --825 (USSR) ABSTRACT: Platinum catalysts were used in the processing of various typaa of petroleum; later on, palladium catalysts were used because they are cheaper and more active; however, they were not too stable. In a previous paper (Refs 1,2) the authors had dis-.i~s- sed catalysts which contained organic sulphur compounds o~ had been treated *ith hydrogen sulfide and which showed varioua degrees of stability and aotivity. The literature contains suf_ ficient)experimental data on sulphurous metal catalysta (Refs 3,4,5,6 but there is no explanation of the mechanism of the Card 1/3 protective property of hydrogen sulfide for metal catalysts of  Investigation of the Properties of Metal-ftide SOV/62-59-151-9/410 Catalysts for Benzine *Reforming. Communication 5. some Peculiarities of the Catalytic and Physical Properties of Palladium Catalyats group 8 of the periodical system. In this work the authors at- tempt to explain the circumstances mentioned in connection wiVa the catalysts for benzine reforming investigated In the WCrl,.3 (Refs 1,2). In connection with it investigations are carried out of the X-ray structure, the specific surface, the sulphur and coke content on the catalysts used up, and the kinctics of the dehydrogenation of cyclohexane on new as well as used up catalysts of the three catalysts: 0-5~- Pd-Al 203 (Nr 1), 0.57, Fd-Al2 03treated with HF (Nr 2), and 0.5% Pd-Al 203 tre-ated wfth HF and H.3 (Nr 3). All data obtained experimentally are summa- rized in tables 1-5 and the figure. The investigations showed: the specific surfaces of the catalysts (Nr 1) and (Nr 2) are equal, the specific surface of (Hr 3) amoDnts to 2/3 the size of either Or 1 ) or (Ur 2). (Nr 2) only showed considerable sintering. The phase analysis showed that the catalysts contained crystal- Card 2/3 linef"-A1203 and Pd only and that with (Hr 3) a sulphur co=-  Investigation of the Properties of Metal Oxide SOV/62-59-5-9/40 Catalysts for Benzine Reforming. Communication 5- Some Peculiarities of the Catalytic and Physical Properties of Palladium Catalysts pound of palladium appears on the surface only. With dehydro- genation of cyclohexane at normal temperatures the size arrange- ment of the specific activity decreases from (1jr 1) to (Hr 3). The temperature coefficient of the reaction rate on the cata- lyst (Nr 3), however, is considerably greater than that of (Nr 2) and (Hr 3 Since benzine reforming proceeds at temperatures of 300 - 480 the catalyst (iTr 3) proved the most active in benzine reforming. The increase of ao.tivity and stability (7..' hours as compared to 46 and 27 hours until usin.g up) is cbllacd by the presence of PdS at the surfaco of the catalyst (-Kr 3). There are I figure, 5 tables, and 7 roferences, 6 of which arc- Soviet. ASSOCIATION: In8titut organicheskoy khim!i im. IT. D. Zelinskogo Ahadc-_ii SSSR (Institute of Organic Gnemistry imeni N. D. Zelir-Bkiy ilf the Academy of Sciences, USbR) SUBMITTED: July 24, 1957 Card 3/3  r- L=-1 S-- IS-6 0 0 66965 im AUTHORSs Kondratlye , D. A., Markov, M. A., SOV/32-25-11-13/69 Min~~~i TITLEt Hydrocarbons by the Method of to C Analysis of Mixtures of C 5 7 Liquid - Gas Chromatography PERIODICAL: Zavodskaya laboratoriyaf 1959, Vol 25, Hr 11, PP 1301-1304 (USSR) ABSTRACT: A simple device with a microflame detector (Ref 1) designed for the analysis of paraffin hydrocarbons,1 naphthene laromatie, and some unsaturated C5 to C7 hydrocarbons has been developed. The construction of the dosing evaporator and the microflame detector was based on a device developed by B. A. Rudenko (Izvestiya AN SSSRin the press). the detector is , in -pr-rnciple, a burner consisting of a capillary I mm in diameter. The burner im located at the upper output of a column 6 m long, and is connected to a Chromel-Alumel thermocouple (Fig 1: Scheme of the device). Data obtained with the detector are recorded by automa!~ c recording potentiometer of the types PS1-0116or EPP-09 with a second PF potentiometer connected thereto. The Card 1/3 hydrocarbons may be analyzed by means of a thermostat of the  66965 Analysis of Mixtures of C 5 to C7 Hydrocarbons SOV/32-25-11-13/69 by the Method of Liquid -Gas Chromatography (i type TS-151~at coustant or variable temperature. The best separating efficiency was reached when two columns (each 3 m long) were used, the one filled with diatomite brick chips (0.25 to 0.5mm) and tricresyl phosphate, and the other filled with diatomite brick chips and dioctyl phthalate. Separation was first effected at 15 - 20OC(for 15 minutes), and all normal and isoparaffin hydrocarbons C 5 to C 7 were separated from one another whereafter temperature was raised to 85 0 C (1,50 per minutes. Hydrogen was passed through the system with a rate of 60 CM3 per minute. The chromatogram of a 15-component (C5 to C 7 hydrocarbon) mixture shows that all substances could be separated oxcept for the pairs 2,3-dimethylbutane-2-mothyl- pentane, cyclopentaro,-3-methylpentane, and cyclohexans-3-methyl- hexane. Results of an analysis of an artificial hydrocarbon mixture (Table 1) as well as with catalyzates at elevated temperature and hydrogen pressure (Table 2) are given. There are 3 figures, 2 tablesq and 2 Soviet references. Card 2/3  66965 Analysis of Mixtures of C5 to C7 Hydrocarbons SOV/32-25-11-13/69 by the Method of LiquJd'-Gas Chromatography ASSOCIATION: Institut organicheskoy khimii im. N. D. Zelinskogo Akademii nauk SSSR (Institute of Organic Chemistry imeni N.D.Zelinskiy of the Academy of Sciences of the USSR) Card 3/3  ~ (4) AUTHORS: Rubinshteyn, A. M., Minachey, Kh. M. BOV/79-29-8-10/81 Akimov, V. M. TITLE: The Dependence of the Distribution of Platinum in the Im- pregnated Pt-C Catalyst on the Concentration of the Initial Solution H 2PtC16 and on the Nature of Carbon Gra4ulation PERIODICAL: Zhurnal obahchey khimii, 1959, Vol 29, Nr 8. pp 2503 - 2508 (USSR) ABSTRACT: The authors previously made a radiographic investigation of the penetration of platinum into the catalyst grain of the platin- ized carbon having different grain size (Ref 1)j however, the determinations were not carried out accurately. Besides, the fibrous structure of the carbon obstructed exact density mea- surements on the photographs. The photorecording method was therefore abandoned, and the ionization method, according to the X-ray apparatus URS-50-I, was used under strict conditions of comparison. These experiments were further intended to ex- plain whether the depth of platinum penetration into the carbon 'depends on the concentration of the initial solutions. The distribution of the platinum in the carbon grain was determined Card 1/2 in the impregnated Pt-C catalysts according to the absorption  The Dependence of the Distribution of Platinum in the SOV/79-29-13-10/81 Impregnated Pt-C Catalyst on the Concentration of the Initial Solution H2Ptcl 6 and on the Nature of ~-Qarl= QrOxAlatiou of X-rays which had been measured by the above ionization method These catalysts contained 20.4 and 2% platinum, and the grain sizes of the carbon amounted to 2-10 mm. It was confirmed that the concentration of platinum decreased from the surface inward, and it was ascertained that with the decrease of the concentra- tion of platinum in the initial solution, the concentration gradient of the platinum also decreases as the latter penetrates into the grain (i.e. that the diluted solutions yield catalysts with better distribution of the metal). The catalytic activity in the various dehydrogenations of cyclohexane and in the hydro- genation of benzene was also determined. The corresponding re- sults are tabulated. There are 4 figures, I table, and 3 Soviet references. ASSOCIATION: Institut organicheskoy khimii kkademii nauk 588R (Institute of Organic Chemistry of the Academy of Sciences, USSR) SUBMITTED: July 14, 1958 Card 2/2  Y(5) SOV/79-29-9-34/76 AUTHORS; Shuykin, N. I., Bel'skiy, I. F., TITLE- Hydrogenation of the Furan Compounds by Means of Metals. VIII. Groups of the Periodic System PERIODICAL: Zhurnal obahchey khimii, 1959, Vol 29, Nr 9, pp 2969-2973 (Us! ABSTRACT: Owing to the results of previous investigations (Refs 1-5) th~ problem arose which of the metals of group VIII are like pal- ladium, capable of bringing about the catalytic hydrogenation the furan cycle in a wide temperature range, and which of thei are the most active ones. The catalytic properties of osmium, iridium, and ruthenium, applied to carbon, were investigated the hydrogenation of silvane and a-vinyl furan in the vapor phase and at various temperatSi e. a-Vinyl furan is hydrogens Z on all the as cktalysts at 150 nto a-ethyl furan in yields o 95-100% (Scheme 1). On Ir-C and Ru-C a small portion (ev 5%) 0 a-ethyl furan formed is subjected to hydrogenolysis on the C-0 bond 1-5 (Scheme 2). Hydrogena.tion of silvane on Os-C, Ir Ru__C at higher temperatures shows that these catalysts are nc able to reduce the furan cycle, but are only capable of Card 1/3 hydrogenolysis on the C-0 bond 1-5 under the formation of th(  SOY/79-29-9-34/76 Hydrogenation of the Furan Compounds by Means of Metals. VIII. Groups of the Periodic System methylpropyl ketone (Scheme 3). The results of this paper as well as those already previously obtained permit to draw some general conclusions. All catalysts containing metals of group VIII, applied to carbon could be in hydrogenation condiV ally,divided in the vapor phase under comparable temperature conditions into two groups, depending on their effect upon the furan cycle: 1) The catalysts of the platinum type (Pt, Os' Ir, Ru, Rh) show either a weak or practically no capability of hydrogenation of the double bond in the furan cycle. On these catalysts only hydrogenolysis of the furan cycle on the 0 C-0 bond 1-5 occurs at 200-300 . 2) The catalysts of the pal- ladium type are in a sufficiently wide temperature range capab] of hydrogenating the double bond in the furan cycle. Hydro- genolysis of this cycle occurs only at higher temperatures. There are 7 Soviet references. ASSOCIATION: Institut organicheskoy khimii Akademii nauk SSSR (Institute of Organic Chemistry of the Academy of Sciences, USSR) Card 2/3  MMMMVj, IWJLj KOMRATIIZV., D.A* ... -.. -------- Poisoning of &'platinm catalyst vith this ,phone under conditions of rof *,MiIz.ssra-i asotorg.soodiodev neft.i nefteprod. 3:345-35Z '"160. (KM -v 4:6) 1. Inatitut organicbeekay 1rhimli AN WW. (btroieub-4bfining) (Catalysis) (Thioyhons)  HIM&CMW. Ih-.M.; IS&OLTANTS, G.T.; IONDBATITIT, D.A. Poisoning of a platinum catalyst by thiophene under conditions of reforminge Report Ioe2: Use of thiophene containing the radioactive isotope 835. Izv.AN SSSR Otd.khiu.nauk no.5:902-906 Yf 060. (MIRA 13:6) 1. Institut organicheakoy khimii imeni N.D. Zolinalcogo Akademii T'Au SSSR. (Thiophene) (Stilfur-Imotopes) (Platinm)  MINACW. KhA; SWrKIN, 1. 1. -, MMOT, N.A. Jffect of the specific surface of & platinized aluninosilleato on the dopes of n-novAns conversion, Report No.11 Chang* in the activity of pl&tWzed &1uminosilicate in the course of the treatment of the carrier with hydrogen@ Isv*AN SM Otdekh1me nauk n0-5:907-912 Yf 160. (MIRL 13 16) 1. Institut organichosicoy khImli Imeni XeDe Zolinskogo Akademil ziauk SSSRe (Aluminoellicates) (Platinum) (Nozan*)  S/062/60/000/007/012/017/XX BOO4/B064 AUTHOR: Minachey. Kh. M.., Kondratlyev, D. A., and 5hchuklna,=. . TITLE: Investigation of the Poisoning of the Platinum Catalyst by Tiophene Under the Conditions of Reforming. Communication 3. The Influence of Temperature and Hydrogen Pressure PERIODICAL: Izvestiya Akademii nauk SSSR, Otdeleniye khimicheskikh nauk, 1960, No. 7, pp- 1263 - 1266 TEXT: In continuation of their investigations (Refs' 1,2) of the poisoning of 1%- and 5% platinum-aluminum oxide catalysts, the authors studied a) the influence of temperature (425 - 5000C) at constant hydrogen pressure (20 atm) and b) the influence of H 2 pressure (between 10 and 40 atm) upon the dehydrogenation of cyclohexane.1 containing 2.65% tiophene at 4250 and 4750C. A 1% platinum-aluminum oxide catalyst was used. The yield of dehydrogenation stabilized Card 1/2  Investigation of the Poisoning of the S/062j6O/OOO/OO7/012/017/XX Platinum Catalyst by Tiophene Under B004/BO64 the Conditions of Reforming. Communication 3. The Influence of Temperature and Hydrogen Pressure at 20, 30, and 40 atm and 425, 450, 475 and 5000C after I - 2 hours. No stabilization of the yield occurred at 10 atm and 4500 and 4750C; the activity of the catalyst decreased steadily in the course of 20 hours. The stabilized yield increased with rising temperature (425-45000C) and decreased with rising pressure (20-440 atm)~ The specific surface of the deactivated catalyst decreases with increasing temperature, with pressure changes, however, it remains almost the same, A complete decomposition of thiophene occurs when both temperature and pressure rise. There are 2 figures, 2 tables, and 6 references: 5 Soviet and I US. ASSOCIATION: Institut organicheskoy khimii im. N. D, Zelinskogo Akademii nauk SSSR (Institute of Organic Chemistry imeni N, D. Zelinskiy of the Academy of Sciences USSR)- SUBMITTED: Jan'u-a;~-8, 1959 Card 2/2  S106216010001006102310331XX BO13/BO55 AUTHORS: _j1.1.nZ4ev.. h.. M Shuykin, ff. I., and Markovq M. A. j j. m w~ Q TITLE: Investigation of the Effect of the Specific Surface of Platinized Alumosilicate an the Degree of n-Nonane Conversion PERIODICAL: - Izvestiya Akademii nauk SSSR, Otdeleniye khimicheskikh nauk, 1960, No. 8~ pp. 1466-1470 TEXT: This paper is a continuation of the studies on the effect of the specific surface of catalysts on the degree of-hydrocarbon conversion. For this purpose, the authors studied the conversion of n-nonane on alumo- silicate catalysts-with widely varying specific surfaces. Two 0-5% P num/alumosilicate 'catalysts with'specific surfaces of 320 m2/g (K-1) and 60 m2/g (K-2) were used* A standard alumosilicate catalyst for the cracking process was used a; carrier for the preparation of the platinum catalysts. To prepare the latter, the carrier was saturated with a dilute H2PtC16 solution. The data of the n-nonane used were in agreement with those given in Ref, 4- Infrared spectra showed the n-nonane to be free Card 113  Investigation of the Effect of the Specific S106216010001008102310331XX Surface of Platinized Alumosilicate on the BO13/BO55 Degree of n-Nonane Conversion of isomers. The experimental apparatus has been described in Ref. 1. 0 The experiments were carried out in a contiruous system at 360 to 450 C, a hydrogen pressure of 10 atm and a flow rate of I h-1. The molar ratio of hydrocarbon and hydrogen was 1:5. A fresh catalyst was used for each ex- periment. The results of the examination of the catalyzates are listed in Tables I and 2 and graphically represented in Figs. 1 - 3. These data show V/ that the degree of hydrocracking of hydrooarbona considerably decreases with decreasing speolfio catalyst surface. This is in agreement with data given in Ref. 2. The yields of hjdrocracking products on K-1 Catalysts were found to increase more rapidly with a temperature rise than on K-2 catalysts. At temperatures of 420 0 - 45000, hydrvcraoking on K-2 is in- significant, which enables C -isoalkanes to be obtained in comparatively 0 9 high yields (54 at 450 C)- On K-1, the maximum yield of isononane3 is obtained at 0380 a (53%). since aromatization occurs to a noticeable degree only at 400 C, aromatio hydrooarbons can be obtained over K-2 before C isoalkane yields are reduced. The total yield of hydrooracking produot2 under the experimental conditions was 45.7% over K-1, and 25-3% over K-2. The experiments have thus shown that by decreasing the specific surface Card 2/3  Investigation of the Effect of the Specific S106216010001008102310331XX Surface of Platinized Alumosilicate on the B013/BO55 Degree of n-Nonane Conversion of the catalyst the process can be carried out at higher temperatures without the occurrence ef hydrocrackIng. There are 3 figures, 2 tables, and 4 Soviet references. ASSOCIATION: Institut organicheskoy khimii Im. N. D. Zelinskogo Akademli nauk SSSR (Institute of Organic Chemistry imeni N. D. Zelinskiy of the Academy of Sciences USSR) SUBMITTM. February 189 1959 Card 3/3  S/062/60/000/008/009/012 B004/BO54 AUTHORS: Minachey, Kh. M., Ryashentseva, X. A., and Rudenko~ B. A. TITLE: Transformations of n-Hexane, Methyl Cyclo entanejand Cyclohexanejon Rhen~ *ium - Alumina Catalyst ncreased Hydrogen asure . PERIODICAL: Izvestiya kkadexii nauk SSSR. Otdeleniye khimicheskikh nauk, 1960p No. 8, pp. 1471-1480 TEM In the introductiont the authors give a review of publications con- cerning rhenium catalys to: papers by V. S. Platonoy et al, (Refs. 1-7), A. A. Balandin et al. (Ref. 8), and an East German patent (Ref. 9). The present paper reports on the experimental examination of rhenium catalysts. Catalysis was carried out at temperatures of 290 - 4800C, a hydrogen pres- sure of 5-30 at'a . and a ratio of hydrogen : hydrocarbon a 5 ! 1. The cata- lysts with 5 and 15% of He on Al 6 showed little activity, Up to 78% Of 2 3 0 aromatic compounds could be obtained from oyclohexane at 385 C and 5 atm of H2 -pressure with a catalyst containing 20% of Re. In admixture of 5% Card 1/3  Transformation@ of n-Hexane, Methyl Cyclopentans, S/062/6o/ooo/ooe/ooq/o12 and Cyclohexane on Rhonium - Alumina Catalyst at B004/BO54 Increased Hydrogen Pressure of Zn, or a treatment with HF, had no influence on the activity of this catalyst. Higher temperatures and high R 2-pressure produced cracking. The catalysts were produced by dissolving metallic rhenium in HNO 3 on the water bath, impregnating the Al 2039 annealed for 5 h at 500 0C and pressed to cylinders 5 by 5 an, with rhenic acid dgying at 1300C (3 - 4 h), and re- ducing by means of hydrogen at 470 - ~80 C (10 h). The products of catalysis were analyzed by determining the specific gravity and the refractive index, as well as the aromatic fraction (reaction with N 2s0 4). In part, a gas- chromatographic separation was made at 50 0 C In a column 2 m long which con- tained kieselguhr impregnated with tricresyl. phosphate. Hydrogen was used as a carrier. The separating effect of the column was checked by means of an artificial mixture of various hydrocarbons (Table 1, Fig. 1). Only the mixture of n-~exane with cyclopentane could not be separated, so that the composition of this fraction Wid to be clarified by determining the boiling point- At 3850C and 5 ats, the catalystin of cyclohexane (Table 2, Fig~ 2) yielded 34% of aromatic hydrocarbons in the aromatic fraction. [Abstra-.ter,s Note: Thts contradicts the statement that 78% of aromatic hydrocarbons were Card 213  Transformations of a-Hexans, Nethyl,Cyclopentane, S/062/60/000/008/009/012 and Cyclohexans on Rhenian - Alumina Catalyst at B004/BO54 Increased Hydrogen Pressure obtained.] The rest consisted of non-reacted cycloh*xans, alkanes, and 4 6%oof methyl oyclopentans. The catalysis of n-he xanget(Table 3) (;00 Cp 5 ats) and methyl cyclopentant (Table 4) (305 5 atm) yielded only neglillible amounts of aromatic hydrocarbons. The formation of sethyl oyclopentane (0.2%) was observed in the case of a-hexane, and the formation of eyalopentans (1-5%) and cyclohexane (1.4%) in the case of nethyl cyclo- pentans. There are 2 figures, 4 tables, and 13 references: 11 Soviet, I British, and i Zastern Cerman. ASSOCIATION: Institut organicheekoy khinii ins N. D. Zelinskogo Akademii nauk SSSR ~Ijlstituts of Organic Chemistry imoni No Do Zelinskiy of ShO Academy of Sciencent USS SUBMITTED: March 13, 1959 Card 3/3  s/o62/60/000/010/011/018 BO15/BO64 AUTHORS: Minachev, Kh. M., Ryashentsevaq M. A., and Shuykin, N. I. ------------ '~Methyl Cyclo- TITLE: Catalytic Transformations of Cyclohexane, pentane, and n-Hexane on a Palladium Alumina Catalyst at Increased Temperature and Increased Hydrogen Pressure A PERIODICAL: Izvestiya Akademii nauk SSSR. Otdeleniye khimicheskikh nauk, 1960, No. 10, pp. 1844 - 1847 TEXT: In previous papers.(Refs. 1-4), the authors investigated the catalytic properties of 0-51A palladium alumina catalysts in the re-form- ing of small gasolineUractions of petroleum from the Ilfskiyq Khadyzhenskiy, Ural, and Volga deposits. To confirm the results obtained, the authors studied the transformation of cyclohexane, methyl cyclo- pentane, and n-hexane on 0-5% palladium-containing alumina catalysts under the optimum conditions of re-forming gasoline fractions (48OPC, 20 atm, H2:HC - 5, v w 1.0 hours-1 ). The experiments were carried out in a continuous-flow apparatus. The catalyzate obtained from cyclohexane Card 1/3  Catalytic Transformations of Cyclohexane, 8/062160/000/010/011/018 Methyl Cyclopentane, and n-Hexane on a B015/Bo64 Palladium Alumina Catalyst at Increased Temperature and Increased Hydrogen Pressure contained 50% benzene, while C 6 paraffin hydrocarbons with approximately 8% and five-membered cyclanes with approximately 43% were detected in the naphthene paraffin component (Table 1, oomposition)p i.e., a de- hydrogenation to benzene, an isomerization with a contraction of the cycle, and a slight hydrogenolysis under the formation of alkanes took place. Approximately 9-5% aromatic hydrocarbons and, besides unchanged n-hexane, approximately 5% paraffin hydrocarbons with iso-structure were obtained from the transformation of n-hexane. Besides unchanged methyl cyclopentane, methyl oyclopentane (Table 2) yielded approximately 11% 20-dimethyl butane, 3-methyl pentanep n-hexaneD n-pentane (approxi- matelY 3-6%)p and approximately 1.2% cyclohexane of the paraffin com- ponents# and 33% benzene as the aromatic component of the catalyzate. Thus, methyl cyclopentane undergoes an i9omerization to cyclohexane and subsequent dehydrogenation to benzene, as well as hydrogenolysis and hydrocracking under the formation of n-pentane. A Scheme is given on the basis of the results obtained, and it is stated that the present Card  Catalytic Transformations of Cyclohexane, slo621601000101010111018 Methyl Cyclopentane, and n-Hexane on a BO15/BO64 Palladium Alumina Catalyst at Increased Temperature and'Increased Hydrogen Pressure experiments confirm the formation mechanism of aromatic hydrocarbons in re-forming the above gasoline fractionab There are 2 tables and 6 Soviet referOnces. ASSOCIATION: Institut organicheakoy khimii im. N. D. Zelinskogo Akademii nauk $SSR (Institute of Organic Chemistry imeni N. D. Zelinskiy of the Academy of Sciences USSR) SUBMITT911: May'14, 1959 Card 3/3  S/081/62/000/001/007/067 B156/B101 AUTHORS: Minachev, Kh. M. Isagulyants, G. V., Kondratlyev, D. A. TITLE: Investigation of the poisoning of a platinum catalyst, in reforming cond-itions, by thiophene containing the radio- active isotope S35 PERIODICAL: Referativnyy zhurnal. Khimiva, no. 1, 1962, 73-74, abstract 1B540 (Sb. "Khit.,tiya seraorgan. soyedineniy, soderzhashchikhsye v neftyakii i nefteproduktakh, v. 4". 1J., Gostoptekhizdat, 1961, 160-165) TEXT: The general laws for the poisoning of platinized Al 20 3 containing 5F/'.' Pt by thiophene labeled with radioactive sulfur, when dehydrocenating cyclohexane in a flow system at an H 2 pressure of 20 atm and a temperature of 4500C, are studied. Radiochemical analysis enabled the sulfur content of the catalyst to be determined, this varying between 0.063 and O-14'a accordin to the concentration of thiophene in the initial mixture. The activity of Card 1/2  S/081/62/000/001/007/o67 Investigation of the poisoning ... B156/B101 the ce.talyst decreases linearly as its sulfur content is increased. The Drocess of regeneration of the catalyst is accompanied by the removal of sulfur from it, but full activity is restored when the catalyst still contains -40',,) of the sulfur which it contained before regeneration began. Abstracter's note: Complete translation.] Card 2/2  S/062J61/000/001/009/016 B101/B220 AUTHORS: Vinachev,_Kh. N. and Ryashentseva, M. A. TITLID: Conversion of n-hexane, methyl cyclopentane, and cyclohexane on a rhenium alumina catalyst treated with hydrogen sulfide PERIODICAL: Izvestiya Akademii nauk SSSR. Otdeleniye khimicheskikh nauk, no. 1, 1961, 103-107 TEXT: In Ref. 6 the authors reported on the catalytic properties of rhenium alumina catalysts. In the prevent investigation, a rh*nium alumina catalyst treated with hydrogen sulfide was used. Its ability to convert cyolohexane, methyl oyolopentaneg and n-hexane (the same substances as used in Ref. 6) into arom'atic hydrocarbons has been studied The purpose was to obtain a high yield of benzene. The catalyst was manufactured by dissolution of metallic rhenium in 12% HNO 3 and impregna- tion or Al 0 with the rhenium acid obtained. The catalyst contained 20% rheniui.3 The treatment with H 2S was performed as described in Ref. i The tests with the hydrocarbons were made at 500-510 0C1 PH -5 atm; 2 Card 1/4  Conversion of n-hexane... S/062/61/000/001/009/016 B101/B220 volume rate of the hydrocarbons 1.0 hr- II H2 : hydrocarbon ratio - 5:1. The reaction products were chromatographically analyzed by using a method developed by the authors in the laboratory (Ref. 9). Three diagrams show the results obtained by conversion of the hydrocarbons. Compared with a rhenium alumina catalyst not treated with H 28, the catalyst treated with H2S proved to be more effective for dehydrogenation of cyclohexane, dehydrogenation and isomerization of methyl cyclopentane, and dehydro- genation and cyclization of n-hexane to benzene. M. S. Platonov is men- tioned. There are 1 figure, I table,and 10 references: 8 Soviet-bloo and 6 non-Soviet-bloc. ASSOCIATION: Institut organicheskoy khimii im. N. D. Zelinskogo Akademii nauk SSSR (Institute of Organic Chemistry imeni N. D. Zelinskiy, Academy,of Sciences USSR) SUBMITTED: July 31, 1959 Card 2/4  conversion of n-hexane.d* S/062/61/oop/ool/ooq/ol6 B101IB220 Legend to Diagr &me.: 3 CH .2% C~ 3,0% 00, 9.4% 04%, 5.9% C-C-C-C-C-c C-C 16% C-C-C-C-C-c C-C-O." 10,6% 4.9% -C-C J.2% -C -C 1.2% C rc 0.4% ~5.4 C-C-C-C-C C"// C A~ 1.2% US C-Al A) Cxema 2. npeispautemHR m.eTHAL%HKaoneHTAH8 Di&gram 1. Conversion Diagram 2. Conversion of of cyclohexane. a) traces m5thyl cyclopentane. .a traces. Card 3/4  Conversion of n-hexazie... i7 Ir~;t_ C-c~-C-c 0.9% 6% c1c- 2.2% cl 0,7% C-C-C-C-C-c c -c-c: --c c 0.2% 4.8% -c-Le/ -c-c 19.2% 0.4% c -c-c c-c-c-c 17.7% C_C_C_C-C 3.4* -2 Diagram 3. Conversion of n-hexans. Card 4/4 S1062&1000100110091016 B101/ 220  8/06 61/000/001/010/016 BlOIYB220 AUTHORS: Minaohev, Kh. M. and Ryashentseva, M. A. TITLE, Reforming of gasoline on a rhenium-alumina catalyst treated with hydrogen sulfide for the purpose of improving the octane number PERIODICAL: Izvestiya Akademii nauk 53SR. Otdeleniye khimicheskikh nauk, no. 1, 1961t 107-109 TEXT: In Ref 2, the authors had found that aromatic hydrocarbons resulted froa'cyclohexane, methyl cyolopentane, and n-hexane on a rhenium-alumina catalyst treated with hydrogen sulfide. This was the reason for the present study in which the catalyst was used for the reforming of the gasoline with the object of increasing its octane number. The production of the catalyst containing 20% rhenium and its treatment with H2S were described in Ref. 2. Reforming was performed in a continuous system at 500-5100CP PH 2 =5 atm; volume rate of the gasoline 1.0 hr-1; molar ratio Card 1/4  Reforming of gasoline on a s/o62/61/000/001/010/016 B101/B220 H2 :gasoline - 5:1. The initial product was gasoline of Lyuberetskiy zavod (Lyubertay Plant). The characteristics of initial gasoline and catalyzates are summarized in a table. The octane number was determined at the Vaesoyuznyy nauchno-iseledovateliskiy institut neftyanoy promyshlennosti (All-Union Scientific Research Institute of the Petroleum Industry). The data obtained prove the usability of a rhenium-'alumina catalyst treated with hydrogen sulfide for improving the octane number of low-quality gasoline. There are I table and 4 Soviet-bloc references. ASSOCIATION: Institut organicheskoy khimii im. N. D. Zelinskogo Akademii nauk SSSR (Institute of Organic Chemistry imeni N. D. Zelinskiy, Academy of Sciences USSR) SUBMITTED: July 31, 1959 Card 2/4  Reforming of gasoline on a S/062/61/000/001/010/016 T B101/B220 XWO119PE"Nza NCXOANQrO OCNSNNA 'N RaTiA013ST09, flolytellnux nPM ero PeOOPUNPOSaNum (W-510% p - 5 arx, u I qac-' H Hj-HC 5) KmxR3xr V-1 KmitauT M Hez A (noue 17 -tac. (nucAe 106 q4t. 'Co0aciva P*60rw x&nam- patorw KSr"x- Sapp) S*rWKSWMgb npeaounemw a*, t,4145 6VAeJlbllWR BeC dl* 0,7307 CoAepwamue soomauneutiX YrJWWAQ- POAOS. 06. % to'O CoAepmttHe cepuciux coeANHeNMR, sec. % 01050 40 P83roHKA no 5nritepy, T 3815- -V Haqajto Kuneiin .38.5 10% 70,0 50% 128,5 90% t83,0 4, Koffe-4 unemms 96,0 ' 4j0wrAI(OtMtvAO MOTUPIIOMY W03 T9C 47,2 IIIICAO MeTOAY d f., c T3C 02.5 .4?nO MCCAeAOBS- lites TX 47,8 Tejibcxomy me. (I, c TSC, - TOAY Card 3/4 i:41W 1,4205 07453 0,7331 47.0 1 32.0 Her 0,019 w 15-212 44-20 39;5 44,0 66.5 75,5- t24,5 125,0. 184.5 178,0 212.0 2.rA,O' 79,0 84.0 87,2 7t,0 - 80,0  Reforming of gasoline on a S/06 61/000/001/010/016 B101YB220 Legend to the table: Characteristics of initial gasoline and catalyzates obtainedby reforming (500-5100C, P 5 atm, v - 1 hr-1 H :HC - 5)- 2 1) property; 2) initial gasoline; catalyzate ng. I (after IT hours of catalyst action; 4) catalyzate no. 2 (after 108 hours of catalyst ao- tion); 5) refractive index; 6) specific gravity; 7) content of aromatic h drocarbon , % by volume; 8) content of sulfur compounds, % by weight; 9~ none ;lOsEngler*distillation, OC; -11) initial boiling point; 12) final boiling point; 13) octance number; 14) according to road tests; 15) with- out tetraethyl lead; 16) with TEBI 17) according to laboratory tests.  MINACHKVj, Kh.M.; MARKOV, M.A.; LOGINOV, G.A. Can, rnions of fi"- and six-membered cyclenes on rare- eartk oxides. NeftekhWa,l,no-3056-361 YV-.Te 161. (NM 16t 11) 1. Institut organicheakoy khinii AN SSSR izeni N.D. Zelinskogo.  ~APHEVP Kh.M.; RYASHENTSEVA, M.A.; AFA.NASIYEVA, Yu.A. Catalytic isomerization of n-hexane. Neftekhimiia I no.4: 482-483 Ji-Ag 161. (MIRA 16:12) 1. Institut organicheskoy khimii AN SSSR imeni N.D. Zelinskogo.  11 qu 31746 S/204/61/001/004/003/005 E073/E185 AUTHORS3 Minachev, Kh.M., Markov, M.A., and Shchukina, O.K. TITLEs Dehydrogenation of cyclohexane on the oxides of rare earth elements PERIODICAL: Neftekhimiya, v.11 no,4, 1961, 489-493 TEXT3 Eight oxides of rare earth elements and yttrium oxide were used as catalysts for the dehydrogenation of cyclohexane. The catalysts were prepared by dissolving the comercial oxides in 27% nitric acid, and precipitating with 12% ammonia solution at 50-6o OC. The dried and washed precipitates were compressed into 4 x 4 mm cylinders and heated at 560 OC in dry air for 8 hours. The surface areas of the oxides so obtained were determined by benzene vapour adsorption. The dehydrogenations were carried out at 515-590 OC under atmospheric pressure. The catalysts were activated at 56o OC for 2 hours by passing through them currents of air, hydrogen or nitrogen. The catalysts with the greatest activity were produced by the activation with nitrogen. Experimental results show that all the;atalysts dehydrogenate cyclohexane to benzene. Card 1 /  lk -317h6 Dehydrogenation of cyclohexane ... S/2014/61/001/004/003/005 R075/E183 The determination of specific areas of the catalysta permitted the calculation of the specific activity and specific coke formation for the various catalysts, and thus their relative overall activities could be compared. The results are given in Table 4. It can be seen that the specific activity and coke formation at 530-560 OC does not differ much inside the yttrium group of the oxides. The yttrium group oxides exceed the cerium oxide group in respect of activity. It was shown that there exists linear dependence between the logarithms of the percentage conversion and the reciprocal temperature of the reaction. The energies of activation calculated from the slopes of the lines had typical values for acidic catalysts in the case of neodymium, gadolinium and holmium, oxideag but exceeded 50 ktal for the remaining oxides. There are 4 figures, 4 tables and 8 references: 5 Soviet-bloc and 3 non-Soviet-bloc. The English language references read: Ref.l.- R.A. Briggs, H.S. Taylor. J. Amer. Chem. Soc., v.63, 2500, 1941. Ref.4s V.1, Komarevsky, Ind. Eng. Chem., v.49, 264, 1957. Card 2/X51(  Dehydrogenation of cyrlohexane jp ASSOCIATIONs Institut organicheakoy N.D. Zelinskogo (Institute of Organic N.D. Zelinskiy) SUBMITTEDs June 7, 1961 31746 S/204/61/001/004/003/005 E075/E185 khimii AN SSSR im. Chemistrys AS USSR, imeni Card 3/X 1 -1  MINACHEV, Kh.M,; MARIOV9 M.A.; SHCHUKINAq O.K. Dohdrocyc3ization of n-heptane over rare earth oxides. Neftekhimiia 1 no.5t6lo-612 S-0 161. (MIRA 15:2) 1. Institut organicheskoy khImii AN SSSR imeni N.D.Zelinskogo. (Reptane)(Aromatization)(Rare earth oxides)  5'. 11 q 0 //. 0/0.2 . 33483 S/195/61/002/005/oo8/027 EO4O/E485 AUTHORS: Kondratlyev, D.A., Slyunyayev, P.I. TITLE: Investigation by means of thiophene-s35 of the poisoning of platinum-alumina catalysts containing various proportions of the metal PERIODICAL: Kinetika i kataliz, v.2, no.5, 1961, 6go-693 TEXTs Platinum-alumina catalysts are of a considerable practical importance in the petroleum industry and for this reason the authors carried out previously a series of systematic studies of the poisoning of these catalysts by sulphur during the dehydrogenation of cyclohexane at elevated temperatures (Ref.1, 2 and 3: Izv. AN SSSR, Otd. khim. n., 1960, 3001 ig6o, 9o2; ig6o, 877). In the present article the results are given of further studies in the above series, the specific purpose of the work being to: 1. derive the relationship existing between Pt concentration in the catalyst mixture and the quantity of sulphur that must be deposited on the catalyst in order to inhibit its catalytic activity; 2. elucidate the distribution of sulphur in the catalyst layer and 3- correlate the degree of catalyst Card l/ 3  33483. S/195/61/002/005/oo8/027 Investigation by means of ... Eo40/E485 poisoning with the concentration of sulphur deposited on it. The,catalysts used in the investigations contained 0-05, 0-3, 0-7, 1.0, 3.o, 6.0 and 10% platinum, the rest being alumina. The mixed catalysts were prepared by saturating powdered alumina with the required quantity of chloroplatinic acid'. All the catalysts were poisoned during dehydrogenation of cyclohexane by adding to it 2% thiophene labelled with s35 radioisotope. The test temperature was 450*C and the pressure in the reaction vessel was maintained at 20 atm H2. The reaction time was varied up to 10 hours. It was found that up to 90% of all the sulphur deposited on the catalyst during the reaction period of 10 hours is deposited during the first 2 to 3 hours of the test time. The quantity of the sulphur deposited increases also with the incriasing concentration of Pt in the mixed catalyst, but this increase is not a linear function of the Pt content in the catalyst. Tests carried out on catalyst regeneration by passing over it pure cyclohexane showed that, after a reaction time of about 5 hours, the quantity of sulphur deposit on the catalyst amounts to about 30% of the initial concentration. No further significant reduction in the sulphur concentration on the catalyst was Card 2/3  33483 s/195/61/002/005/oo8/027 Investigation by means of ... E040/E485 observed after passing the cyclohexane for the next 5 hours. There are 3 figures, 1 table and 10 references: 9 Soviet-bloc and I non-Soviet-bloc. The reference to an English language publication reads as follows: Ref.8s W.P.Hettinger, C.D.Keith, J.L.Gring, J.W.Teter. Ind. Eng. Chem., v.47, 1955, 719. ASSOCIATION: Institut organicheskoy khimii im. N.D.Zelinskogo AN SSSR (Institute of Organic Chemistry imeni N.D.Zelinakiy, AS USSR) Card 3/3  MINACHEV, Xb.14,; KHODAKOV, Yu,S. Xinetics of hydrogenation of the vinyl ether of A-(diethy2aaino) ethanol and vinyl phqnyl ether on 1% pd/* 0. Izv.AN SSSR MAW-. nauk no,4:722-724 0 161. (MIU 14 W 1. Institut organicheskoy khimii im. N.D.Zeliwkogo AN SSSR. (Ether) (Hydrogenation)  - KMCHEV,._p!.H.; SKMOV, V.S.; KONDRATIUV, D.A.; LOGINOV, G.A. Products of the debydrocyclization of n--hexane and debylrogenation of cyolohomme obtained on an &Iumina-wlybdamli oxide catalyst, Ixv.AN SSSR Otd.khim,nauk no*4:724-726 lp Itas (MIRA 14:4) 1, Institut organicheekoy kh',di in, N.D.Zelinakogo AN SSSR. I (Cyclohexam) (Hexane)