SCIENTIFIC ABSTRACT SHENBERG, M.G. - SHENDEROV, A.I.

-1., j-, , -.-, ,r~,I-G, . ip,-h. - I ~ . 7 z ~ - . ; . ~ ~ --fl I'l. I :., , r(,Fjrrjl,,Ccx.. Rad' 0 1r,.'/: 59,61 il 161: (!,,ITRA 1q,:9)  BlOWERG.? L.D.;t sli~miiLlw, m.G. Course of neurodystrophic )rocesses as dependent on the reacti-ity of the organism. Probl. Plcm. 5:5-14 ?60. (Mi;-,A 15:2) 1. Kharlkovskiy meditoinskLy stomatologicheskiy institut. (T!UGZIl-UKkL NERVh) (14L?.VOU,, SYSTEI-L-DEGENERA-TIOII ASID PSGERER&TION)  S111,11TWOR 1. Ij C"'O Hicra bro 09 ~ heidCal Ab,-t. F rhea n Fain- Vol. 48 No. 8 n usstzn - -r-ainian br-ti, mi! , rit ted Yielding products that are A r- , f Apr. 25, 1954 :!!,! reactive. The products can be ii--i -, FUS13 and Chrbonization Pr d t resin, and film-fonning m.,Itcri:.14 'r, . o uc s light brown to ormige and contain 'fi, t 'h,-,rirat:.)n is P-411le in CCI, medimn or in the itc,! ,f' ,~A in the latter mse the reaction i% substantially com- ph~ e within 10 hrs. at O-W* temp. range. G. NI. K.  L .,~::J. In c r ull VQJ ~ciel:t~fic and is C- I, on:: a I  tv "A t-7. A. ~'g~ Am rmor-CifiRM 119. WO'COV A6E Md Savini MO is trzxw~ Dim. _.Z24_ WU 4 4~~Sb;hbor he! tj -Tor AWAr" - % -Ch 636-640; 71 9_101 Va. t Mlarlna4lan-Was carTIGO: bat jn aqUeO ido tl-afid-* Ina bd 4.14:04 w IngA it ratio of. coal to mW being-1:,; bubbler at theVate of Adfut, z1on-Ift a 1000 '4 achieved with 4:15, 0,5 al flas)":_ The l~r-lods-of!'Obl~*lmtiqilmro-IW~ohd- Results from the ~ tPla reagents -41 ifir-61 [ o6l #I#.'-dl[ w _A =40 ch Toilis. idle unt of,s,xbst1tuted'qM*Vn6~ rull w -on: -%1Pat-dtsr.k1t*rOx_ And-- was 1i&2% bitummods components., Tables of alwzntal- anakysesi or- tM- chlorimu -of r vd~~Ib of_:~ 'afid, d~ restats a 1Wch-OxIde -Z SIM11wly, aj~- dds". _4. temperature. _:i~ii 04"-w" A Mkmid_-~Wjqi-_*~~ -TbO--ftsUta J)Ue is C satpla chosen was 49L Indication Of".tbP pemdn prows j a scission of the peripheral ch~lni dr-tw woma-10, Part of Chlwination was Wzid to give m- ore- ~.Illable, daift,pa alow'O.10M. Ow cildati C -7- 77~  USSR/ Chemistry Organic chemistry Card 1/1 Pub. 116 - 14/29 Authors 3 Savin, M. I., and Shenbor, M. I. Title I Condensation of chlorinated coal with aroquitic hydrocarbons Periodical : Ukr. khiv,. zhur. 21/6, 754-756, Dec 1955 Abstract t Experiments showed that chlcr:-inat,ed brown coal condenses easily with aromatic hydrocarbons in the presence of AIC1 The condensation products also subMit- to sulfurization and nitration. A r auction of the nitro-derivatives into amines results in the formation of diazo-com.,ounds, which enter into corabina- tion reaction leading to Lhc forriLior-, of water soluble dyeq. It was shown that chlorinated hrown coal can be utilized in the role of,basic raw material for the derivation of new v:Lriegated chemical compounds. One USSR reference (1952). Institution : Dnepropetrovek MetallurgicaL Inst. im. I. V. Stalin Submitted : March 26, 1955  SHENBOR, M.I.; KMOV, A.Ye.; SAVIl, M.I. -, Effect of organic solvents Dn chlorinated lignite. Ul,-r.khim. zhur. 22 no.4:54,6-549 111"). (MIRA 10:10) l.Dne-propetrovskiy khimiko-tekhnologicheskiy institut. (Solvents) (Lignite)  5 (1 ; 2, 3) AUNOR3: Shenbor, I- I., 3urmiatroy, 3. 1., 5 Le psk-aya-~-M---A. TITLE: Chlorine 3ubstitutes of Diphenoxy Ethane (Khlorzameshchennyye difenoksietana) PERIODICAL: Izvestiya vysshikh uc.hebnykh za!,edpniy. Khimiya i tekhnologiya, 1959, Vol 2, Nr 2, pp 215-218 (US9R) ABSTRA'.CT: While searching for Extive insecticides, the authors made the synthesis of the substances mentioned in the title (diphenyl ether of ethylene glycol). Diaryl oxy ethanes are easily made of phenolene and dichlorethane. Some are efficient against mites (Ref 1)., They perhap;3 also kill weeds after their oxidation into aryl oxy acetic acid for which the mentioned activity has been proved, The oxidation may take place -in the soil through a vital activity of the bact.~ria. Among the substances mentioned in the title, the following are known in publications: 2,21-dichlorodi- phenoxyethane, 4,41-dLchlorodiphenoxyethane (Ref 1), 2,4,21,41- tetrachlorodiphenoxy2thane, and 2,4,6,21,41,61-hexachloro- diphenoxyethane (Ref 3). Asymmetric chlorine substitutes of diphenoxyethane hav- not been described up to now. The authors Card 1/3 obtained symmetric cilorine substitutes of dipher-oxyethane by  ~3,.ibstitutes of Diphenoxy Ethane SOV/153-2-2-14/31 means of the influence of dichloroethane (with less active compounds of dibromoethane) on phenolate, in an alcoholic solution. In the case of the highly chlorinated phenols, the reaction is shown under atmospheric pressure. Therefore the synthesis with such diphenyloxyethanes was performed with dibromoethanes, and in a solution of glycol. This made it possible to raise the temperature up to 1300, and to shorten the time of reaction. It is possible, without any doubt, to use dichloroethane -.xnder high pressure. Symmetric chlorine substitutes were pr)duced of a,-aryloxy-p-chloroethane with the corresponding phenols in an alkylic solution. Tables 1 and 2 show the results. All synthesized substances are solid and nonvolatile, insoluble in water and soluble in organic solvents. The increase in the number of halogen atoms raises the melting temperE.ture in the series of symmetrical compounds (Table 1); the melting temperature in a fully chlorinated product is 2170. As expected,the melting points of the asymmetric chlorine substitutes on the whole are lower thin those of symmetric compounds (Table 2). Furthermore it was found that a direct chlorination of diphenoxyethane makes it Ca-rd 2/3 possible to produce some chlorine substitutes:  Chlorine Sub3titutes of Diphenoxy Ethane SOV/153-2-?-14,11`1 2,4,21,41-tetrachlor,)diphenoxyethane (output 56 %). A -nix"-::e of chlorine substitu-es which cannot be crystallized an! ~f wnich no individual compounds can be isolated, is left fro~i the mixture of the chlorination products to the admiasion :,f the 4 chlorine atoms into the diphenoxyethane molecule, ,!ft,~r the isolation of the 2,4,21,41-tetrachlorodiphenoxyethan,- took place in the rest. A more intensive chlorination cf dIphenoxyethane takes place much more slowly. A complicated mixtuie of products develops in this process. There are 2 tables and 4 references, I of which is Soviet. ASSOCIATION': Dnepropetrovskiy khimiko-tekhnologicheakiy institut; Kafedra tekhnologii osnovnogo organicheskogo sinteza i SK (Dnepropetrovsk Cllami,-,al and Technological Institute, ChAr o-F Technology of .3asic Organic Synthesis and SR (Synthetic Rutber,, SUBMITTED: Mlarch 18, 1958 Card 3/3  S/153/61/004/005/003/005 9142/&485 AUTHORS: Shenbor, M.I., Burmistrov, S.I., Ivanov, A.A. TITLE: Increasing the yield of acrylonitrile during the thermal dehydration of ethylene cyanhydrin PERIODICAL: Izvestiya vysshikh ut;hebnykh zavedeniy SSSR. Khimiya i khimicheskaya tekhnologiya, V.4. no.5, 1961, 837-842 TEXT: Large quantities of acrylonitrile (AN) can be obtained by the thermal liquid phase dehydration of ethylene cyanhydrin (ECH), The process is carried out at a temperature of 170 to 2400C, in the presence or absence of a catalyst. During this process by-products are formed which decrease the yield of AN and therefore increase production costs. Experiments were carried out on increasing the yield nf AN by improving the reaction conditions during the liquid phase dehydration process. The authors evaluated the efficiency of somt: catalystS mentioned in literature (NaCl and sodium formiate, HCOOK, (HCOO)2Ca, (HCOO)2Cu, (HCOO)2Zn and" (HCOO)3AI ), tested new dehydration catalysts and investigated the effect of temperature and of agitating the reaction medium on the yield of the end-product. Card 1/ 4  S/153/61/004/005/003/005 Increasing the yield ... zllt2/z485 The starting material XCH contained 93.2% of the basic material, O~05% HCN, 1.75% amines and 5% of vat residue. This substance was placed in a 250 ml flask and heated in a wood tube, The authors used a so-called "reinforced" resin which they prepared by dehydrating 14 ml of ECH at 209 to 2100C for 90 min; the addition of this resin accelerated the process considerably. The upper layer of AN was neutralized in a separating funnel with 10% H2SO4' to separate ammonia and the amine bases, freed from the acidic aqueous layer and subjected the same to azeotropic distillation, Each distillation stage gave 45Yo of a fraction boiling between 68 and 750C (which contained water) and 55Yo of a fraction with a boiling point between 75 to 88*C, the latter being AN. The first fraction was rediatilled a-ad this process was repeated four times. The H2SO~, solution (after neutralization of the upper layers and the water were additionally steam distilled; this insured complete separation of AN, The heat transfer and even distribution of temperature in the reaction medium were improved by mechanical agitation (220 rev/min); this increased the yield of AN by 3%~ Investigations on the effect of temperature showed that the process is rather slow at a temperature below 180*Ci Card. 2/4  S/153/61/004/005/003/005 Increasing the yield ... E142/9485 a 57% yield of AN was obtained at 1700C. The yield of the resin reached a minimum on increasing the temperature to 110*C and above that temperature the yield of BCH increased again. The most satisfactory yields and lowest resin formation occur at a temperature between 209 and 210*C, Some of the experiments were carried out whilst using a satura-~ed solution of NaC1 and bubbling C02 through; a 77% yield was obtained; the yield of AN increased to 80% when using NaCl without C02, Further experiments indicated that the catalytic dehydration of BCH in a current of nitrogen did not affect the yield of AN. Sodium formiate was most effective amongst the salts of formic acid (when used as catalyst). Experiments in which mixtures of two catalysts itere used indicated that. these mixtures had no higher catalytic activity than the individual components themselves. V// Theme experimental data were used for calculating parameters of an industrial plant with an annual output of 5000 ton AN and it was found that highly satisfactory ret;ults were obtained when carrying out the dehydration process with a sodium formiate catalyst at 2100C. There are 1 table and 12 references: 2 Soviet-bloc and 10 non-Soviet-b:Loc. The four most recent Card 3/4  S/153/61/004/005/003/005 Increasing the yield ... E142/E485 references to English language Ref.6: US Pat. 2436774 (1948)1 Ref.7: US Pat~ 2461492 (1949); Ref.8: US Pat. 269L452 (1954); Canad.Pat. 511735 (1955), Canad.F,at. Ref,9: US Pat. 2501651 (1950)i publications read as follows! Chem, Abstrs., 42, 3773 (1949)i Chetm, Abstrs., 43, 3836 (iq4q)i Chem. Abstrs, 17, 11689 (1955)i 511732 (1955); Chem. Abstrs., 44, 5375 (1950)- ASSOCIATION- Dnepropetrovskiy khiaiko-tekhnologicheakiy institut im. F,E,Dzerzhinskogo. Kafedra tekhnologii osnovnogo organicheskogo sinteza i SK (Dnepropetrovsk Institute of Chemical Technology 1.m. F.E,Dzerzhinskly. Department of Technology of Basic Organic Synthes3.s and SK) SUBMITTED: May 23, ig6o Card. 4/4  SMOBOR, M.I.; BUM-11STROV, S.I.; ',-t,tLINc)VSKIY, A.A. Ax7lamides and allkylamm:-des c.-," 3,6-dichl-crophthal-ic txld. Izv.v.fs.ucheb.zav; khim.i khim.tekh. .4 nc.5:E6--,--E-jl 161. (Mr-l 14: 11) 1. Dnepropetrovskiy khimiko-tekhnologicheskiy institut imeni F.E. Dzerzhinskogo, kafecha tekhnologii osnovnogo orgardcheskogo sinteza i sinteticheskogo kauchuka. (P.lithalic aciet) (Amides)  5~~3-' 0-4/34 AU`-HO-,II: Si,enbrot, I. ,Ll. HT,' Ferri te-Transi s tor (-I'ircL:.-Jts in, Jlontrj! y---e ~3 L_ms ,;ranzistorn.y.je ya,,~ho'-,,ki v s-'dievia.,cli u~)ravleniya) Lvo~3tlya A!,-a--'e(!iij- r:zjul~-:',jR. ~Ir 10, -IT --!e us o far--.ites in ics, -;Darticu- Liansis circu larly in relario,-- to dic,.ital syste,:is, is revie-,:!ed from the u'L,,---~)retical uoint of view, assum-in- rectans-ular hysteresis looi)s for the cores (used'as in Fi-.1) and lineari:~ed trans- 0 1~~]Gor charact-3ristics (BiS.3)~ The first section deals with "Uhe t=sients to be exEected in such circuits. and the second ch u~3 I" s a s re c r, an'-) -1 la - i pulse silapers ; tle tilird deals brief - ly li:~e as stora--,-e elements. Trie -oaDer contains 8 figures, 7 refereliceS of wh--icli are Soviet and 5 English. Z, 0 6U-B1,1ITTED: January -2. 195,3. Card 1/1  SMWBROT, Isidor Markovich; ~"V, V.S., red.; SHIROKOVA, M.M.., tekhn. red. [Centralized control of teelmological processes] TSentralizovanryi kontroll tekhnologicheakikh protsessov. Moskva, Gos. energ. izd- vo, 1961. 95 P. (Bibliote:!ca po avt6matike no-40) (MIRA 14:10) (kitomatic controls  KUPEMRIMT., Ya.A. (Moskva); MALOV, V.S. (Moskva); SHENBROT. I.M._(MoBkva) Present-day trends in the development of dispatcher control systems using digital computers. Avtom.i tele:a. 22 no.7:954-959 n 161. (K~FA 14:6) (Electronic digital computers) (Information theory)  z A-ppi~ri,tuL~ fo. -,ntroi of contini-Ious C j 0 Z3 'CiIIII.II.Y11, no. t Vy-,~"iisl. L k n. d I. avf., :at 15I1? yu IPr 0 i z -va 1961 529-54 1 TZ, X --nfo-rmution functions o.f central control devices and methodS ot' oi~nuilino~, measurin, and recordinE,, are considered. [Abstracter's note: Com~jlete translation.1 I Ii i C~ird I  -- SHENBROT, I.M. (Moskva) Calcuation of the principal parameters of limit-setting and deviation control devices. Av-tom.i telem. 23 no.10:1323-1333 (AutDmatic control)  -~jj, te& ~ BUL I DYAnV, TEMNIKOV, Fedor Yevi-aniyevichi ISHEN-BROT, ~1. N.A., tr:.hr,, red. [Thecry of scanning systemsi Tooriia ra7.vertyvaiush^.hikh 5istem.. Moskva, Gosenergoizdat, i96*3., 167 p. (MIRA 16;6) (Pulse te*xiques (Elewtronics)) (Kef:.ti-onic a,pparatus and appliances) (Electronics)  SMINIMIly I.M~ Graphoanalytic deteric-I nation of the mean square of a methodis---~l erT-,r in dian-rete meagilrement. TZ--.. - , tekh. Ag 163. (MM 16310)  L 46266-65 EWT (d)/EWP(v)/F.WP(k)/BP(h),tMNP(l) Pf_4 GS iACCESSION NR: AT5009C50 8/0000/6k/ool/ Shenbrot, I. N. (Moscow) AUTHOR i TITrZ: Structure of centralized control machinec ItSouRcE: Konferentslya Po axtomaticheskcau kovt;E2.1~M i metodain elektricheakikh-it- imereniy. 3d-, A xmticheakiy kontroll I metody eleiMchesWk !jLzmereniy; -trudy konferenteii, t. l.- Metcdy elektricheskikb izmereniy. Analiz i sintez sistem upravlt.,niya i kontrolya. Elementy ustroystv aytomaticheskogo kontro- ,Iya (Automatic control and electrical vieasurirg techniques; transactions of the ,-,,nference. Y. 1: Electrical measuring techniques. Analysis and synthesis of re- gu.LeT,:Lua una conlrol systems. Elements of automatle control devices). Novanibirsk, ~Redizdat Sib. otd. AN SSSR 1964, 144-:L51 TOPIC TAGS.- centralized control produ(Aion controls control equipuent/ !ABSTRACT: Oda is a review or various indts used for centralized control of ma- chinery, and describes various constructions of apparatus employed in American equipment. These include switches and witdWLng relayss, digital converters., print- ere, and display equipment. 81uplifted structural. diagrom,or the centralized- C,,d 1/2   L 28752-65 EWT(d)/EN1F(1) PQ-4 Pcr--4, P~4/Pk-;if/01.~4. 110(i .'W ACCESSION NR: AT5003304 S/2950/64/000[003/0055/0056 AUTHOR: She TITLE: Systems of centralized control with sampled data inputs SOURCE: EIKA, entsfldopedlya izmereniy, kontrolya I avtomatizateit (En measurement, control, and automatioti), no.- 3. Moscow, Izd-vo Ehergiya, 1964, 55-56 TOPIC TAGS. automatic control a 1~ i-entrallzed control system, sampled data _ysten input, temperature regulation ABSTRACT: The two main types of centrslized control systems are the operational con- trol systems and the control systems used for investigation of new technological processes. Because of tL-e requirement of monitoring and control of many process parameters (in the form of outputs of various sensors), periodic sampling of all sensor outputs is usually employed. Since 1955, many such systems have been constructed. The following three examples are discussed: the MARS-200 system, designed for control and regulation of temperature at 200 different points; the sampler ctonsists of electro- magnetic relays and has a speed of about V points/second. The parameter values are printed out by an automatic t.~,pewriter (in red when out of tolerance and in black when CGd 1/2 7-7- 7 A  L 28752-65 ACCESSION NR: AT5003304 within tolerance). Special readout reques!;s are provided for. 1"he accuracy of regula- tion and recording to � 3C -3n a scale from 100 to 500C. 11te controllystem ELRV-2 Is designed to control 56 parameters and bas a mechanical rotating sampler whose full cycle is about 4 minutes (4. 5 seconds per parameter sample). The maximum error is + 1% of the scale reading. -The dimensicins are 1388x75Ox65O mm and the weight is about 350 kgm. The "Unit -111 and "Unit -211 systems can control 40 and 80 para- meters, respectively. A rotating sampler samples 10 to 14 points per second and the input can accommodate sensor signals froin 0 to 10 volts. Readout of all parameters, or only to those outside of their tolerance -values, is available on an autornatic type- writer. Readout can be periodic, on roquomt or only when tolerances are exceeded. Orig. art. has: 2 figures. ASSOCIATION: Tseurallnyy nauchno-issledovatellsidy institut kompleimnoy avtomaUza- taff, Moscow (Central comidex automation, scientific research Im#hM 01) LE SUBMITTED: 00 14KCL SUB CME. NO REP 8(YV-. 003 OTMM-. 006 Card 2/2  nai-i-'-.; Avrumovic',-; VjL'DEI;bEil.G, Yurly St-r-doiavovic LeOr.-,CZ lvanovir:h; -rinlmal uch~stiye T.y C"HY A.F.; red. C "OE puters n -,I,,e autom.---,i:)r- o' r-`u~trial -',nerer'e ,mich'.zl4tel lnykh mash-r. 6lia -vtomati- -Lverff7kh protse.-.s~v. I-',oskva, Enc-r,~. 7'- jl.~  KUPUSH,',',,!)T, Ya., kand. Lekhn. naul.; I.M., kand. tekhn. nauk I-,.eviews and bitliographyr, Friborostroenie no-5:32 My 165. .1 (MIRA IS: 5)  L 230A-66 EWT(d)/EV41P(l)/ IJP (c) BC rACCESSTON NR-. AP5022987 UR/0103/65/026/008/1462/1468 62-502 AUTHOR: Shenbrot, 1, M. (Moscow) TITLE: Minimization of the error of digital integration in data logging SOURCE: Avtomatika i telemekhanika, v. 26, no. 8, 1965, 1462-1468 TOPIC TAGS: data recording, random process, digital integrator, error minimization, mean square error ABSTRACT: An analysis of digital integration errors cf technological quantities using the fixed ordinate method in data Logging bas been given. The present article investigates the problem of minbnizing 11e mean square error of the integral over a given time interval by a?propr~.aLe selection of the record ng period. Results of the theoretical discussion show that 1) all partial digital ,integration errors of a random process decrease with the number of readings-% over. the integration interval; 2) the accidental partial integration error caused by inaccuracies in measurements and level quantization is actually by a factor of-V-n smaller than the corresponding error of a single measurement; 3) the systematic partiat error ca;lBed by level quantization can be removed for all I Card 1/2 1)<  2394-66 ACCESSION NR: AP5022987 practical purposes by expansion of the d:Lgital transformation without synchronizLq the start of the sweep with the counting pulses; 4) the digital integration in increased by independent detection of the integration time and of the number of digital registrations; and 5) for a givan digital processing device there is a limit to the increase in the number of r&aasurementB; the pap'er presents formulas for the determination of the optimum numfber of measurements and of quantum levelt. Orig. art. has: 27 formulas and I table. ASSOCIATION: none SUBMITTED: 260ct63 NO REF SOV: 005 2/2 ------ ENCL: CO OTHER: 000 SUB CODE: DP9 KA' ju  GULIY. V-11. , baEN'lli.,IUVIC:I, D.Kh. , brijittlir sharoshechnot,;o bl-rent-va -ID";ilDZ , N.M. (liokol 'nyy rudiilkY- qEXETUV , ?. Ye. ;DZIEXU A, ZE HUCHAL111, M.P. ; PRIGOZ11111, Ye. I. , ~ornrf --nzhener (Metalliche- skly r,idnik) ; POLISIICIPJK, A.D. ,!)peeches by participants in a conference. Gor.zhur. no.1:20-24 (MLRA 9:5) 1. Nachal'nik Proizvodstverir.o-tek-hnic-esko-O otdela Dzhezkazgan- sko,go inadoupravleniya (for llzhenardzhidze); 2. Nauchayy setr-adnik Instituta gornogo dela All &;SR (for Mochalin); 3. Glavnyy inzhaner Ukrglavrudy (for Polishchak); 4. Glavay7 inzhener -Rystrushlnsko,~o rudnika (for Guliy); 5. Glavn.,,7,, inzhener Salair- sko~;o rudnika (for Beketov). (Mining engineE-ring) (Kinin6 machinery) t~  :*-, .- -1, !~, ~ . - ti- , C:i 1 - , -. i - , -,;- c ** !-' c- . " Mx 165~ - - - - - - - -1 - . - - -ia:i) ;il  U i z r ,: L in c, v ir. e n !7. ' -,l  I; I J~11,i I V.F. a . I - 3hcrulrd lo of Stroi. 3 411. - (:,l-,..A t 3'ilk, - 13' I. I ~;, - ~.povneftastrov, I >:',.  SEMCHUK, I.M.J, inzb.; SEREBRO., V.S., lnzh.i TUTV, M.A., inzh.;.SHGIIIQOLI- SHENDBLIS, L.Ye., inzh Introducing water-cooled stgel chill molds for large-ecale cast iron castings. Mashinostroenie no.3227-28 MY-Ja 165. (MIRA 18-6)  Y. 4. 1;,yrilclans in !I-terature Leve'ct - ent of love for the -medical Frc fession. Fel Id. i akush. , No. -4 1952 TF17 a ~-nt_hly list DI;'_ I_isFjon T.j"rar-i of Conress, -A.Tri' 195  III Z 1T -,IV -U= S J. 4L Vi:~ C. Ln  SHENDER, K. -I-. - Development of connected ora.'I. comminication In young school chi',dreno Nauk. zap. Hauk.-dool. last. psykhol. 11:10~-109 159. (MIRA 13:11) 1. Pedapogicheskiy institmt, Zhitomir. (Children-Language)  V_~exanitrite -Complexes- of Iriditirn, rbodf~m, Sa _Cob0t__ V V. Lebedintikil und E. V. Stenderetskaya. lstwat.'. CO Stkfura Platiny i Drug. "" tre'ra=, -InWrlishchel j .7trorl. Kiiint., Akad. Mauk 1"S"Th. No, 2'), 61-mig-ir').- The existencu of tile (N1Q,NajM NOO,j type of conapd4., has been discovered and confirined ly thesyntlitr3is of curre- i si)oit(litiglr,Rli,ttridCodt:riv!;. Aiaq.sohi.ofNaN%rc-j thiced the fr(IV) twf chloroiridic Lwid to lr(111) With excess, (if NaNOmid upon lamitingsodiami iridiuni(ill.) lielianitritemi (1) wa~ formed !' y the re.,actimi: 211 1i1rC141 + 18NaNO, - + l2iJaCl + :IN,) + 3NOt + 311,0.1 wlt(:Il to tip: soill, '11 1, twjltg~ " "f Na *. 1,41140 IV= milled, gr w llecdIC5 of Milt 1011111111 ~-I!Ulll 161111111- (111) he~~v'itrite (11), ppid. Tlli~ TtV',V C-11111hi. i.9 tifirlitly I'll. ill X% tW1 :,lid ly ~tlli"'trop X Undcr ;amilor witdiii-m-i anaawtitim t;441itin rhMium-.111) 11cmi-I llillife t111) ;V.'i ol'taill", a"Culding tw +~i 2NlI.Cl --- (Nll,)jN;,jRh(NO,),j J~ 2N.,Cl K-ray ttady .4'l%wd Illat the lowd lcv,,thi its Ill ar,: Na-412.03 A. and Nif,-O 3.17 A. XVIont la~i.mw,l by lxi-- ,f A,.(Jll, wai- trear.,l %%ill, of IN11,121, fitic wje f"rin"I Ill il"3alilln"millit i"'I"al': ~. ~"Ulogla 1,14 a - (-'Ily diff ""' t: ' from 12 INIO, K".111t.'and the thild Nil, I i; -,wirelcd by 12  /New ornmfgn iruffite enm9nunda of rhg.&M, U. V. V. 1~ ~_ J, aglggrj~skkaka, Izzed, _IMM7-7t III-t1in I:V . _- , M r I i Neorr ,lk,d, M.,kT S. .30 _10 cf. C.A. 44,10565a; 50, G243C.-_NaRh4NII,2_S(_),.2fl,0 is formed in .the haemeticin of NarSO. and flth(Nll.)~( I ICI,(I). With (Nlf.6SO~ I forms Nff,Rh4Nl(j2SOj.3.5'-f20. and with kl%O,, KRh4Nlf,!SCh.l.5HjO. Xfolar elEc. cond. weas- uremcnts showed that the K and NIT# salts are binary elec- trolytes, MjRh(NH.).(SO,)sj; an equil. i% e3tablished in aq. P solos. of the sodium salt: Na[Rh(Nlf,),~SOAj (Rh- U - I (Nll3).SOXSOWa)I- The complex cotutxs. obtained are very stable, are not destroyed by coxjcd~ JICJ at the b.p., and do not react with an excess of ammonii. W. Nt. t  LEREDINSKIY, V.V.; SaNDBMSKAYA, Ye.V. Complex nitroammonium compounds of rhodium. Part 2. Izv."ekt. -plat.i blag-met. no-31:53-55 'Jt5- (MISA 9:5) (Rhodium compounds) (Compounds, Complex)  IEN114MOSKAYA, Ye. V. LEBEDINSIlly, V.V. Obeftse Sl Rtrt 3: Rhodium sulfite and sulfiteammoniur. compounds. Zhur. neorg, khin. 2 no.8:1768-1774 Ag 157. (MIRA 11:3) (Rhodium compounds)  5(-2) SOV/80-32-4-41/47 AUTHORS: Lebedinskiy, Y,V., Shanderetskaya, Ye-V and Ifayorova, A-G. TITLE, The Preparation of Sj:ee~tra5_-._YPure Rhodium (Polucheniye spektrallno- chistogo rodiya) PERIODICAL- Zhurnal prikladnoy khi"mii, 1959, Vol 32, Nr 4, pp 928-929 (USSR) ABSTRACT: To obtain chemically pure rhodium metal, the triammin6-trich.loride mn-thod proposed by V_V_ Lebedinskiy has been extensively used. The Droduct obtained by this method, although corresponding to a grade of chemically pure, Ptill does not meet high purity requirements for manufa,~turing certain physical devices. In order to remove the re- rna-)ninC impuri-.ies, the authors propose to apply the sulf.-te method which they describe in detail. The essence of this method consists in the dissolv.-.ng of rhodiL.m triammine-trichloride in the boiling solution of the ammonium sulfite which results in the formation of the sulfite somDcund of rhod-Juri, (NH k ).,,7 By a series of sub- Y3 ZRh'S03 . Card 1/2 jequent operat-.ons and by roastingrhodium m9tal is obtained, in which  T. he ?-~ ~-r; a rat i --- 7~-' Sp,,-, P--re Rho d--um SOV" 80-32-4 -41/47 even traces of impurities, such as Pt, Pd, ir, Cu and Fe, are not '~tected Iny spcr-tral analy.--:is r ASSOCIATION Insfitut obsh,~hey neorfanicheskoy kh-Lmii imeni N.S Ku-nakova AN 3SSR InstiEutle of General and Inorganic Chemistry -meni N.S- Kurnakov c,': the As USSR) SUBMITTED- November '.7, 1-015,? nard '12  CHERMAYBY, 1. 1. ; SHRjDNMblAYAs Ye,.V.; Karyagina, A.A. Monovalont rhodium formatua. my l6o. Zhur.neorg.khim- 5 no .5:1163 (MIRA 13:7) (Rhodium compounds) jormic acid)  BABAYEVA, A.J.; KRARITONUV, Yu.Ya.; SdMERefSKAYA, Ye.V. - -- - Infrared absorption spectra or rhodium (III) complex compoundB with an inner-sphere sulfito group. Zhur.neorg.kchim. 7 no.7:1530-1537 J-17 162. (KIRA 16:3) ~M& 1. Institut obahchey i neorganicheskay khimii imai N.S.Kurnakova AN SSSh. (Rhodium compounds-SpectAO  ATTOKUTOVA, T.D.; AI:DRIANOVA, O.N.; RABAYEVA, A.V.; BELOVA, V.I.; GOLOVITYAP V.A.; MlijlMa, G.V.; MAYOROVA, A.G.; -:j?A-vEYSKAYA, G.S.; NAZAROVA, LA.; EOVOMENYUK, Z.14.; OiiJOVA, V.S.; USHAKOVA, N.I.; FEDOROV, I.A.; FILDIONC)VA, V.N.; Sh'P21FEiETSKAYA.-Ye.V.; SHUBOCHKINA, Ye.F.; KHAMOOVii, E.Ya.; CHL-ililAYEV, I.I., akadenik, otv. red [Synthe-,is of complex compounds of platinum, Croup metals; a handbook] Sintez kompleksnykh soedinenii metallov Flatinovoi grupr,y; spravochnik. l,,oskva., Izd-vo "Nauka," 196Z-. 33C P. (MILIA 17:5) 1. Ahadei..iva nauk SSSR. Institut obshchey i neorganicheskoy khimii. 2. Institut obshchey i neorganicheskoy khimii A11 SSS;-. (for all except Clleri~yayev).  3HENDEREMLALLYA9 Ys.'I.; MAYOROVA, A.G.i KORYAZINAV A~A. --`-odium formate comp-ilmcis. Zhur~ neorg, khl.m. 10 F '65. MIRA J,8,111 1. tqvibrrd~'.-ed July 20, 1964.  ~~-u us I. n' s r. t he v e 1 o r - e r i t o f C o I d - r c- ss tan t1 an C, r ob -i o ;c. 1~152, Fanoi-iat S.-Fh. Naiak 'llotanicheskiy sad !'oskovskogo Gosuearstvernogo Universit"ta imeni !oronosov-i.  EF"ZER, A.A.; DZYUBA, M.L.; BLINOV, L.F. kan~idat seltakokhozyaystyannykh nauk; BOLDTAEV, R.I., kandi-iat peegagogicheskikh nauk; GAY-GULINA, Z.S, GRUDEV, D.I., kandidat sellskokhozvaystvenzqkh nauk; DUBROV, Ta.G., prOf6asor; KOVALENKO, V.D., ;KRTSINA, 0.1.; KU-RKO, V.I.; LEVI M.P., kandidat sellskokhozyaystvefLiykh nauk; MORDKOVICH, M.S.; POPOV. I.P. kandidat biologicheskikh na:.ik;SAGALOVICH, Te.N.. agronom; SILIN, V.N, zootekhnik; STRUTOLNSKIY, I.l., vrach; SUSHKOVA-LYAKROVICH, M.L., kandidat maditsinskikh nauk; SHAPOVALOV, Ta.Ta., kandidat sellsko- khozy,aystvennykh nau; SHENEEMTS111T.-Fll., kandidat s6l'skokhozyay- stvennfth nauk; TAVNEL7~ 'A. ru-., kandid,,t maditsinskikh,nauk; RODINA, P.I., redaktor; YUROVITSKIT, Ye.I., redaktor-PEVZNER, V.I., tekhni- chaskiy redaktor. [Home economical Domovodstvi). Moskva, Gos.izd-vo sellkhoz.lit-ry-. 1956. 479 P. (MLRA 10:5) (Home economics)  GOTLIB Ye.A., inzhoner; POY911, A.V., innhener: SHEMMM, A.I. inzil!jisr. Chshking the quality of welded joints of tubes of heating surfaces. Elek.Sta. 27 no.11:41-43 11 '56, MRA 10: 1) (Gamma rays-Industrial npp:Ucations) (Boilers)  GOTLIB, Ye.A., inzhener; POIGIN, A.V., inzhener; SHENDFJMT, A.I., inzhener. Experience in welding pipes. Elel%eta. 28 no.9.78-79 S '57. (MIRA 10:11) (Pipe---Welding)  TSIKLIS. DoS.; MUSHKINA, Te.V.; SHEYOMT, L.I. Phase equilibrii, in the ethylene water system at high temperatures and pressures [with summary in English]. Tnzh.-fiz. zhur. 1 -no.8:3-7 Ag 158. (MIRA 11:8) i.Gosudarstvennyy nauchuo.-issledovatellskiy-i proyektnY7 institut azotnoy promyshlennosti, 14oskva. (Phase rule and equilibrium)  SOV/7 6- 33- ?-210/37 AUTHORS: D. S., Kofman, N., Shen-erei, L. 7 i T LE PhasE- an~. Volumetric Behavior of Solutions of Acet,~.-l ene :n .Lc--I~tz'ne DIC L E I pp 2012--2016 lir 9 Vol 33. klimii l fizichesko r 1959 Zh - : P R O ria , u , , , y (USSR) A 3 S'--! R.~. C T G. S. Cherkasxia and L. F. ~bramova (NIAT) took part in the experimpnta.' Dart cl~' -.he work -nd2r review. As there no accurate data in P-_ibl:.ceticn_- con-Zerning the volummet-ric Ir ,avior of solutions acet-,-1--ne (I) in acetone (II), the precen~ ~nvest-"-aticr was ca::ried cut fallowing suggestions made by Y-a. V. Dalago and G. F. Chepelyugin. The solubility -,f T% ~, acz._-rdirg to the statistical method m~-asi--.--- -~he tota_ ~reocure -,-rle solution. at a given ,emperature and lk -.3-un con~er'trat4 -a of the solution, a special a r rang ement was use~i I'cz, th~2 -purpOSE (Fig 1). The device es- sentially _-)fc-i3ts cf- a g_-iduaed -cube wit-h. tap, glass mano- me'ler (a9 zerj fnstrurent~, miz-rcury gaugc2 and portioning v-!zssal. The p:.,..-)c-3du:-e is diescribed. The solubility cf .d ar C I "T*7) a- --JO.; -'0, --0 and -800C at a  SO V/11 6- 3 3--9 -20/. 3 7 t 4r-. , A , j 3~) xaz r Um 1 tad d he i t-,z3 cb-p--ned R~' T rJr, I e o t ~-,---Lv (",abll, 2). 3-.- ~TT~ was- de*ermin~,; a-, ',,'0 T ab I e T C -,rr I b- exp--,z-ed Thi~ & u -a he a c- k R, Kr4 L The Z D-,;t n a' gratit,-,de is, exure:,- a'-,: .1 a t e n i. R. Krich~-:-s-ciy f~;r alLv4.,ce. Tnera ara of -x-Jch are Sz;-14- 3?.' 1 7TED U, C a rd 2, ,,, 2  s /o6 4 16 0/00 0/0 U0 5: /005 /C0 5- BOI 5/BO58 AUTHORS: Tsiklis, D. S., Kulikova, A. I., $henderey, L. I. TITLE: Phase 3quilibriumlin the Syster Ethanol) - Ethylene'- Water at High Pressures and Ffigh Temperatures PERIODICAL: IC,imicheskaya promyshlennost', 1960, 110. 5, pp. 49 - 54 TEXT: Specific data on the phase ec.uilibrium in the three-component system water-ethylene-ethanol at a pressure of up to 200 atm and tem- peratures betw,.)en 2000 and 3000C munt be known for the ethylene hydra- tion under rational technological c,)nditions, Present investigations were conducted for this purpose according to the static method. V. I. Alisova participated in the experimental part of the work. Four i-olutions with 2.3, 6.11 10.5, and 21-5 mole% ethanol in water were investigated, the composition of the coexisting phases in the system ethanol-water was determined for 3)OOC (Table 1), and the correspond- ing values for 2000 and 2500C were taken from publications. The inter- polated values of the composition of the liquid and gas phase cf the systems ethanol-water7 water-ethylene and ethanol-ethylene-water Card 112  Phase Equilibrium in the System Ethanol - S/o64/6'_'t/000/005/005/009 Ethylene - Water at High Pressures ani B015/.BO58 High Temperatures (Tables 2,3) were defined from these data, The diazrams mentioned (Figs. 1-9) show that critical Phenom-~na occur in the mentioned component system for the temperature- and pressure rang2s investigated. It is established that the ethanol concentration decreases in the co- existing l.;'quid solutions with the prossure- and temperature increase. it is showr that the formation of two liquid phases is possible at tem- peratures of up to 1000 C under pressure, the one being able to contain 70% in weight ofethanol and more, whith would make it possible to achieve a considerable improvement in the rectification. There are 9 figures, 3 tables, and 6 references: 3 Soviet, 3 US, and 2 German. Card 2/2  TSAIIS. D.S.; KLIKOM A.I.; SUMMSY, L.I. Phase equilibrium in the system ethanol - ethylene - water at high pressures and temperatt-rese Mm-prom. n0-5.401-406 Jl-Ag 16o. (KIRA 13:9) (Ethanol) (Ethylene) (Phase rule and equilibrium)  AUTHORS: Taiklis, D. S., Shenderej, L.I., 9/076/60/034/03/014/038 tX_ .-I-1.1. iofman, A. Ns , oe-_-o--WT- B115/BO16 TITLE: Phase Equilibrialin the SYstem Acetaldehydel- Carbon Dioxide PERIODICAL: Zhurnal fizi-heskoy khimii, 1960, Vol 34, Nr 3, PP 585-586 (USSR) TEKT: The investigation of the phase equilibrium in the system acetaldehyde - carbon dioxide was carried out in a device already previously described (Refs 1,2) according to an operational i2ethod also described there. The system was investigated at 1, 25, and 500 and pressures of up to 100 atm. The carbon dioxide applied was purified and its pu:rity checked. The results obtained are given in a diagram (Figure) and a table, It may be seen from the figure that liquid acetaldehyde and carbon dioxide are miscible in any ratio at tempera- tures below the critical temperature Of C02. At temperatures above the critic- al tempGrature Of C02 the critical procosses set in. The authors did not suc- cec-d in expressing the data for this sytitem. by the equation of I. R. Krichev- skiy and N. Ye. Khazanova (Ref 3). The i3ystem carbon dioxide - acetaldehyde be- longs to the concentrated solutions, th-a tre.Lment of which is extremely diffi- cult. There are I figure, 1 table, and .~ references, 3 of which are Soviet. SUBMITTED: June 10, 1958 Card 1/1  TSI-KLIS, D-.S.; SHENDEEREY L.I.; KOFAAN, A.N. Olloscow) J, Y Solubility of acetaldehyde In compressed gases. Zhur. fiz. khim. 34 no.4: 768-772 Ap 160. OERA 144:5) (Acetaldehyde) (Nitrogen) (Hydrogen)  84694 S/020/60/134/004/021/023 13004 /B064 AUT'IORSq Tsikiis, D. S.~ Kulikaya, A. I., and Shendereyr L. I. TITLE! The Volumes of Gaseous Sclutiona of Water i-a Ethy'r-nelat High Pressures and Temperat';7i?-3 tll_ ~11 PERIODICAL, Doklady Akadem"i nauk SSSR, 1960, Vol. 134, No. 4, PP. 887-890 TEXT- The arthors used a P.iezortsfer of' constant volume to s,~-udy the volumes of saturated solutions of water in compressed ethylsne at 200 - 3000C and 100 -- 150 atm. The apperat-as is schematically shown in Fig, 1. A certain amount of wateT and Fthylen,~ was filled into the piezoxeter~ Then.it was heated and stiired with a magnetic mixer, and pressure and temperatuTe wore measured, Samplps were taken from the p.iezometer in portinrs, their water wa~, condensed in an ampoulliz!, and t~heLr ethylene collected 4,zi e7acuated f2asks. The sclution was mixed after each sample taking, and the pres,iu--=- measu7ed. Table I Shows the exp,-riment.al data. Fig. 2 Card 1/4  The Voiumes of Gaseous Solutions of Waler ia Etnyiene at High Pressures and Temperailires 3n, o~ mole fraction of ethfle-ne S/020/60/ 34/004/02 /0-2 1; B004/BC;kl -3hDws the waf-:~r :;-0liAWC-3 in ethylene in the saturated state obtained by extrapo-ation. The auth~--rs replesent the behav-:)-, o',' the solutions by RT 'I 'q. 'I" th,:~ virial e qua ton pz I ct'r),/v" 17~. T-1 detex-mino- 're v:rial -oeffi~ient, trarsf,)vmt-d-, i"(pl,/RT) + The ~ralues -3n the let~T-hand side of equat.-~p ~2) result in straight lines from whG2e ordinate sectiola and nclina!.Lon the atithors dets-rminad Bp and C respe~:tiveiy for the gi,~c-n. T-~ f-.nd the virial Card 2/4  4' ' 8 ;!4 The Volumes of Gase!:us SOlUtL.)n6 of Water in S/020/60/134/004/021//023 Elhylene at High Pressures and Temperatures B 00 A, /B W .41 c.--~elfic4ents for an I I y concentration, the aurhcr3 calculated. by means t I i,-- equ at ~ Dns Bz~ BN2 ~->B N,N, ~ B, N2 ard P 12 2 N' 4- .3CjI2N-N + 3C B N + L; N5 /d' '-he coefficients .22 P B 13 C r for pure ethylene and and B ~~ C 22~ 1111~' 22) 12 112v C12,2 for the binary and -ernary in-eraction3. Thes-i values are given n Table 2. The pressure was calculated frDm equati:,,n (1). Tatle 3 shc-ws a good agreemen+ between the measured and the calculatad p--Psslurl~. Accordingly, equation (1) yields correct results for the range in question. The authors thank 1. R. Krich3lrskiy f'or ad.trive. V. I. Alisova took part in experimenl-ing. fih-er-e-ar-e---~Ti-~ures, -5 tables, ard 6 r'?f- erences' 4 Soviet, 2 US, and 'I German. ASSOCIATION4 Gosudarstvennyinauchno-:-S3!edovatel-Iskiy 41 pTsyektziyy ,ns4-itut szotnoy promyshl?r-uost' i proaukto-, organicheskogo sintezg (State Scierif"ic Research arid Planning Institure Df +,"e Nifr-o-gen indu-Stry arid the Pr,.)ducts of Organic Synthesis) Car~ 5/d  The Volumes of Gaseous Solu~-iz)ns of Water irt S/020/60/134/004/021/02" Ethylene at High Pressures and Temperraiurc-s B004/BO6,1 PRESENTED. May 18, '960., by A. N. Academi.clan SUBIMITTED. May !B. 1960 ij Card 4h  TSIKLIS, D.S.; KUJ.IKCVA, A.I.;_~HEND*~"REY,__L.I. Calculation of the thermodynamic properties of gaseous solutions of water in ethylene and the plotting of thermal diagrams. Kbim.prom. no.1:52-56 Ja 162. (KMA 15:1) (Ethylene) (Wa-~er) (Thermodynamics)  TSIKLIS, D.S.; KULIKOVA, A.I.; Prindmali uchastiye: SHEMEREY, L.I.; ALISOVA, V.I. Chemical equilibrium in the system ethylene - water - ez?yl alcohol at high pressures ard temperatures. Khim.prom. no.':4.13- 0 418 je 162. (HIE-A 15:11) (Ethylene) (Ethyl alcohol) (Chemical equilibrium)  TSIKLIS, D.S.; SHENDERE-Y, ELIIIATANOV, A.I. Phase and volij-r.,:~ ratios in the system toluene - nitrogen. Khim. prom. no.5:348-353 My 163. NIRA 16:8)  TSKILIS, D.S.; S,H:]'MJEFI,"-IY, L. I.; 1"rini7.aia uchastiya GORYUNOVAY N.P, Sr;labiiity o" oxygen-nitrcgen .,-.ixturr:s in toluene. Kidm.prom. no.9:690-691 S 163. (m[RA 16:1.2)  TSIKLIS, D.S.; SM.DF.RM, L.I. PrinJmala uchastiye GORYUNOVA, N, F. FhaBe equilibria in the system ber-ic acid - toluene - nitrogen. Khim. prom. 40 no.11.,841-84". N 164 (MIRA 18:2)  5(4),5(1) S - AU. 112 "1 -0:`S: Snenderey. Ze 1' -enski-f Ya, Ivanovskiy '-'I T L I,: Solubility of Carbon ')-io-xide in "It-thanol at Deep temperature Under Pressure (Rastvorimost? dvuokioi u[,-Ierod,,i v metanole :,,ri rizkoy temperature i.o-I davleniyem) !'E:.l0I)IC;AL. Khimichvska-a promysh lennost' , 1 959~. :!r 4, PP 50-5 (USsl? ALYIL~ACT,-, Por th- pur,-,--)se of purifyino t:ie synthesis- '-as of sulfur compxands and carbon lioxide (I), and of extracting the acetylene combustion basics (Refs 1-1) a ---o absorption in oranic solution modiums at d.?ep temperatures (-2',; to -600) and a pressure of from 10-3.) atmospheres is used. 'ethanol (II) proved to be the boot means of absorption of this kind(~ief The determination results concernin,, the Lolubility of (I) in. (II) at -.26, -36, -45; and -60 - under pressure are given. The determi nations viere mvle accord-4nr.- to a static method in an. arrangement (Ag, 1) wAch is in -principle similar to that of (Ref 8). The autoclave and the piezometer were mounted in a thermostat. The -.)ress-ire was measured -.7ith a ter, Card 1/2 and the temperature by mf~,ans of a c o pre r//!-'o ns tantar, the rmo - -ouple  Solubility of Carbon Dioxide in Methanol at SOV/'U4-59-4- 13/2'1 Deep 'Pemperature Under Prc-2are via a potentiometer IPTIN. The measurino results obtained Table 1, FiE;s 2,,'; Isotherms) show that the solubility of (I) in at given con'd'ition!3 is very hijh, ana that for instance, if the pressure is equal, at -450 70 times more of M is dissolved in (II) than at +250 in water. 'With (1) concentrations under 20 mol% the solubility -.ncreases proportionally with the pressure. In this interral the molar concentration of (I) in the solution may be calcula'-.ed by multiply-ing the corresponding pressure of (T ) Yrith a coefficient. The solution heat of (I) In (II) .,.,as calculated fron the temperature function of solubility ~4050 kcal/mol). The delLSities of concentrated (I)-solutions in (II)(Table 2) were determined, and it was found that the molar volume of the (I)-sclution in (II) is an additive composition of the liquid (I) and (II) aith P_ deviation up to 2,"0. Thore are 4 figures, I tables., anc references, `- of .-.rhich are Soviet, J Card 2112   oc~ s/o6 60/0000/005/0~ I 10'e" 1X)r ? 2 XZ7,0 7 0 UTHOPS: S~ii~nd-,-reL Y;~, R~ Zel V-z-ns~-Iy Y a D !--ran~--vEikiy . F A TITLE, The Solu~ ty Di d- 111~ Zl,~hyi Ko~ Ei-hyl and' T~Diuene a*~ Pr,~ssu:- F -';'R 10 D 1 -'-'A L Kh 1 1211 c h e s k aya ~7-omy sh-l~nn-)s n - PP 2') TEXT: A:3 thE process ~f rur : f" e-xtra-- -~J =&an-- vi~. 10-4 t'~Mpera~urelz *-s b,~c~-:ne ana :z re p r t Sn'~ -'cr ind-ust-y. ri study i5 made he:,e -)f thr-' ga- :n d i I f':~ ren r. -s.- The sc'u'~ility .-,f sa-be,,-i 1 z n ethyl a--,etaf- and --1.uere has baeri ~-xam-.ned a-, C -'fl and pressures up '.6 atm. The sc-lut-loris W~ ~-7 f~2uni ,e 4d-?al T t is f-und from analys:~- results that tl,,- 47-qu at ~ on of I, P Kn -ht~vsk (Fef 5 d~" lu-~e s-D1u,:,. --~n-z of ncn~l tr~,lyfe3 -.s val-i for -.h--; sys'~eu'q st";di~d "f CO? -s no,. w.:z- than 10-'5 Th~~ zqua% Ca:-d 112  -,g The Solubil,ity of Carir.-.r, D~cx-.rJ,: ~n 8 /Cu 6 4Xt-6, () /0 CC) /0 0 5 /01: 1 /0 2 ' IXX Methy! Ethyl Ketcne. Ethyl Acel-a-. B024 30-10 and T:)Iuen--~4 at Low Temperatures Unrl~- P~,.-aju- RT -in QN RT I r K At N;, CO, N- I a r vracr.i,I-n oP CO ir. ~ht- solution;A' pressure but nct on ',b,: -ompcsitinn of the Elas; K Henry c!neff4r.ient.). "his equal-ion is a g~lreralization o' the equati.~n of (Ref,5) 1.,3 bin-ary systems. From '.h? !-esults of the expe-.im.,4rt5 methyl ethyl kefone and ethyl a---.;:--tat~ ruay b: 7-~---.,)mmerded as -.h-? most efficient Boi- V-r4s foT CO, Th~--re are 8 f'-gures- 4 tables, and 6 r~feren::es; r 3 scvj-?~. 1 Cermar. *. US, and ' Bri-~,sh. Card 212  SIENDEREYY Ye.-R.-_ ZELIVENSEY, Ya.D.; IVANOV,;KIY, F.P. Solubility of the mixture of carbon dioxide and hydrogen in methyl alcohol at low tempe:7ature under pressure. Khim.prom. n0.5:39-,-".12 My 161. (MIRA 14:6) (Carbon dio.,ide) (Hydrogen) (Methanol)  -- -SHINDFMY, Te.R.-, ZELIVENSKIT, Ya.D.; IVANOVSKIY, 1F.P. Solubtlity of carbon dioxide in methyl. ethyl ketone, ethyl acetate, and toluene under pressure and at a low temperatv-e. Khim.prom. no.5,070-374 Jl-A.g 160. (MIRA 13:9) (Carbon di oxide)  S/061/61/000/020/064/C)65 3 10 ciz /B 14 7 AUTHORS: Shenderey, Ye. R., Zellvensk-y.. D- Ivanovskiy, F. P. TITLE: Solubility of hydrogen, and methane in methanol under pressure and at low .--ERICD--,.CAL: Referativnyy zhurnal. Khimiya, no. 20, 19161, 283, abstract 20K-(2 (Gaz. prom-st',~n:)- 3, '1961~ 42-45) TEXT: The experimental data that were c"b':aned by examining the solubility of H9, N 2' CH4 in CH3OH at a oressure -'-f up to 60 atm, and at 0-600C can be well described by equat4crs for dilute solutions of nonelectrolytes. The solubility of H2 in the ~-onsidered temperature range dec--eases with a drop of t. The sign of them '--mperature coefficient of N 2 solubility changes at t~4100C. The heat :f solution of H N,, and CH 21 4 in CH Oil was calculated on the basis of e-x,~'.er--mental data. 3 E-1 bstracter's note: Complete translaticn. Card 1/1  NSnJY, la.D., 3HENDEFLEY, Ye.R.; 7 LIV& . IWOIQVSKI~, F-F. Solui-ility ~.f ----thylene in methancl at low temperatures. ailLr a - prikl,khim. 35 no.3-6)G--6'~;3 IIr '62~ (1-i R A I g -- 4-' 1 (Ethylime) (Methanol) . 4'  SHENDEREY,_Tp,Li,;-_~ELIVENSKIY, Ya.D.; IVANOVSKIY,. F.P. (Moskva) Ethylene solubility in acetme, methyl eth.,I ketone, and toluene at low tempp-~Wres. Zhur. fiz. khim. 36 no-43M~-807 Ap 62. (KRA,15:6) 1. Cosudarstvennyy institut azotnoy promyshlennosti. ',Ethylene) (Solvents)  SIIENMEI~G_Y, Ye.R.; IVA'~TCATSKJY, F.P. Separation of acetylene -from gases y--'elded during thermal oxi- dative pyrolisis of hydrocarbons by using a selective solvent. K.-i:7-pi-om. no.9.650-655 3 '63. (KERA 16:12)  LE Solu'bil'L-, of acetylene, et.~yjlene, propylene, and carbon. dio-f-ide in cHmethyl for,-~~.dde at lo-w temperature. Gaz. pro-. 7 no.8:3-;---J,-'  MIENDEREY, Ye.R.; IVANOVSKIY, F.P. .jolubility of carbon dioxide ir aqueous solutions of dirnothyll'ormitmilde tit low temportiture. Zhur. fiz. khim. 17 no.9:2125-2127 3 163. (MIJA 1(~,.-Jel) 1. Gosudarstvennyy nauchno-issledovatel'skiy institut azotnoy promyshlennosti i produktov organicheskogo sinteza.  SlIENDERa Y -R VA ~TC)11--,~:j v0 L.Y-~~; DOHP-SAN, 1.M. Sol li Li 11 ty of a~-,etylene in a-et.,,.,ne ht, priki.kh-;m. 37 in,.7-,1557-15-2 'l  SHLEYNIKOV, V.M.; TAGINTSEV, B.G.; Pr.nizal-i t6chastiye. IVANOVSKIY, F.P.; SHFMEREY, Ye.R. Separating acetylene from gailes obtained by the electrocraeldng of methane at low tamperatures. Gaz. prom. 9 no.6:38-42 164. (MIRA 17:8)  SHE.'iDE?E7!j Ye. R. Henry coefficients, for et-ivlen(, and carbon dioxide in ace'.one containinp acetylene at low temperatures. Zhur.,jr-JI,l.khim. 3~', no.9:2126-2128 S 165. (.mIPA 18:11)  SnNDEREY, Ya.R. Solubility cr ace-l-riere, methyjfnc-',7',Ane, prspad!Snel 11-nd r85 Ag 165. I I dincetyione in n-octuna. ?11-1m, prnA. 4'1nc.Ri'r6C--, (MMA ISO)  SHlKDERIKHI$,I.R.; SHARAVSKIT, P.V. Inv,gstigating the characteristics of germanium diodes. Fiz.tver. tela 2 no.7:1497-1505 JI '60. (MIRA 13-8) 1. Leningradakiy Inzhenerno-stroitellnyy institut, kafedra fiziki. (Germanium diodes)  POPOV, Yu.l.. inzhener; SHENMOV,, A.I., inzhener; KLFUCIW, V.P., inzhe. Rr; SLIZKIT-,-rT--M7-Esner. Excavators built by the Noiro-KraAatorsk machinery building plant. Gor.zhur. no.1:47-54 Ja '56. (MMA 9:5) (Ixcavating machinery)  A SHENDLILCV, inzh.; V.F.,, inzh.; KAIIINSKAYA, D.A., inzh,; KALASHNIKOV, Yu.T,, inzh. Increasing the prod-activity cf high-powered steam shovels by automation of the digging process. Stroi. i dor. mash. 6 no.2:4-7 F 261. (Power shovels) (MIRA .14:5)  lu,A.; MMIGH, 1:.V.; BASIM,'OV, A.S.; CHEMUGOV., Y-U.A., Select-;r~,, the efficient olxrating conditions for a high--alo! city rotary excavc.tor. Ugol' 37 no.9:26-29 s :6:~- ~ (IMIRA 15:9) 1 ~Zxcavating, machinery)  GRIGAS, V.A.; GE'-'ER, D.M.; :33FIENDEROV, A.I.; Martynov, A.S. Walking, movable equipment. Gor. zhur. no.2:76 F 165. (MIRA -;1-4)  I 1~ce,l #,50~ 11 IL .... IN 51x(!"kq ) 1 6ortiv Aol