SCIENTIFIC ABSTRACT KHAZANOV, YE.I. - KHAZANOVA, N.YE.

KHAZANOVI Ye.I.1 SHULITSp B.V. Kinetics and mechanism of the reduction of Jimenite and titanium-magnetite by car'bon at gintering tamperatures. Titan i ego splavy no,5:8.5-94 161. (MIRA 15:2) (Titanium oros) (ore drossing)  S/200/61/000/011/003/005 D202/D304 AUT HORS,. Khazano Ye. 1. and Shullts, B.V. TITLE: Reduction of titanomaguetite by sintering with a solid reducing agent PERIODICAL: Akademiya nauk SSSR. Sibirskoye otdeleni.ye. Izvestiyaj no. 11, 1961, 98,402 TEXTi In the present. work the authors studied the reduction of synthetic titanomagnetite on samples obtained by the fusion of pure Fe203and TiO2 in a~ atmosphere of Wo They found that by sintering this mixturs at 1200 , only ilmenite was formed. Fusion at 1500'C yielded a product con- sisting of two distinct phases: that of ilmenite and that of titanonagne- tite. Only the last phase was magnetic and its chemical composition was as follows: M2 TiO 2 =4.89, Fe203 = 63.44, FeO = 30A, Fe ~ 0.22. X-ray crystallographic data showed it to be similar to those of the na- tural mineral. Its chemical analysis was performed by %.I. Kapustina, Card 1/2  S/200/61/000/011/003/005 Reduction of titanomagnetite D202/D304 and its X--ray examination by S.A. Stakheyeva, This magnet-fe portion of the fusion product was used by the authors for their experiments by heating the product with pure charcoal in the temperature range 1000 - 13000C. It was found that at 'Lower temperatures, up to 1100 0C, mostly iron oxides wert reduced2 the rnduction of t1tantxii oxide being very slight. With rising temperature the rate of iron oxide reduction was lowered owing to the formation of anosov%te. It follows that for indus- trial purposes the reduction of ferrotitan~7 ~or,-fntrates t4hould be carried out at possibly low temperatures. The authors proposs a follow- ing scheme for the reduction process: (Fe 304- FeO.TiO2; FeO.TiO2)+ C = mFeO.nTiO2 p~T-.'203+ Fe 4 CO., the ratios m . n :, p depending on tempera- ture. These conclusions were checked on ne'ural ores. An addition of 20% soda facilitated the oxide reduction. Inere are 4 figuresq 2 tables and 13 Soviet-bloc references. ASSOCIATION,,, Vogtochno-Sibirakkiy filial sibirskege otdelen'-ya AN SSSR, Irkutsk (East Siberian Branch of the Siherian Department AS USSR, Irkutsk) SUBMITTKU:. September 14, 1960 Card 2/2  KHAZAROV, Ye.I. Processing alkaline aluninosilicate and other alumina-bearing rocks by sintaring granulated mixturos. Izv.Sib.otd.AN SSSR no.1203-63 161, (HIRA 150) 1. Yostochno-Sibirskiy filial Sibirskogo otdeleniya AN SSSR, Irkutsk. (Alumimmi,metallurgy)  Y'. (I I" tc,r :f c.;;. q -,Tl !nr. 11"i+ AN    KHAZA P 10010 Complex treatment of alkali alumosilicates and other Aluminer-bearing mineralos Trudy Vost,-Sib., file AN SSSR no*43:7-21 162, (MIBA 16&3) (Iluminum oxido (Alkali metal alumonisilicates)  KMANOV, Ye.I.1, KHMPINA, A.F. 7- Temperature rarge for the sintering of alkali aln silicate cb=ge mixtures. Trudy Vost.-Sib. fJ-I. AN SSSR no-43:22-35 '(42- (MRA 160) (Alkali metal ahmi silicates) (Sintering)  JHAZANOV, Ye.I.; SHUSHLYANNIMA, ZA; HUYUPIMS A.F.; KUZIIUNAP G.V. Industrial assaying of feldspar rocks as a raw material for the pro- duction of alumina* Trudy Vost,,-Sib. fil. AN SSSR no.43:36-39 162. (MMA 16:3) (F.Dldopar-Testing) (Aluminum oxide)  - KHAZANOV, Ye.I.; OTTOp D.D. Irmestigating the procaBs of granulating a2kali alumosilicate charge ndittures, Trudy Vost.-Sib. fil. AN SSSR no-43:40-54 162. (M,RA 16:3) (Alkali metal aluminosilicates) (Ore dresaing)  KHAZANOV~ I&J.; GALKOV., A.S. TAboratory equipment for modeling theaintering process of alunina..., bearing charge mixtures. Trudy Vost.-Sib. fil. AN SSSR n0-43-55-58 162. - (MIRA, 1633) -I:- (Sintering-Models) (Aliminum oxidoe)  GALKOVS SHMHLYANNIKOVA, E.M. Distribution of water-ooluble alkalies in sinter cakes of nepbollne- oodium-calcium charge mixtures. Trudy Voot.-Sib. fil. AN SSSR no*43t 59-62 162. ' I (HIBA 16:3) (Nephelite) (Sintering-Testing)  KUZIMBA, G.V.1 YHLYUPINA,, A.F,; KHAZANOV, rtf.L, SHISHUARNINOVAp F.*N.; Pr4niml ucbastiye GALKOW,-f.-S-.- Nepheline rocks of the Buryat A.S.S.R. are a possible raw material for the production of alumina. Trudy Voot,-Sib. fil. AN SSSR no-43:63-68 162. (KU?A 16:3) (B"t-Mongolia-Rephelite) (Aluminum oxideq, '  KHAZA.NOV, 18-1.; KUZIflINA,, G.V.;' 8"I'AMIEVA, S.A.; SHULITS, B.V. ------ - Changes in the phase composition of clays during heating In.s. neutral atmosphere in the presence of a solid reducing agent. Trudy Vost,-Sib. file AN SBSR no*43:69-76 IE2. (MIRA 160) (Alumimim oxide) (clay) (Phase rule and equilibrium)  KHAUNOV Ye Ii KUZIMLNAo G.V.; DONTSOVA) S.GIP Changes in the phase composition of an alumina-kaolin charge mixture in the process of charge-reoiotance melting of fused silicon and aluminum. Trudy Vost.-Sib. fil. AN SSSR no.43:7-1-81 162. (MIRA 16:3) (Alilminum-Electrometallurgy) (Slag) (Phase rule and equilibrium)  KHAMIOVO Y90014. I PhyoicooheOical principles and now data on the experimental investigation of the carbothermic method of preparing magnesium in tt~s vacuum. Trudy Voote-Sib., fil. AN SSSR no*4305.~Ill 162, (KIRL 16:3) um-Blectrometallu'r'97)- (Magnet --(Vacuum -metallurgy)  KHAZANOVj YesIti; SAYONOVA) Ye#G*;. STAKUTEVA, S.A.- KUZIMINAI G.V. 0 ~ Interaction of aluminum carbide and magnesium oxide. Trudy Vosto-Sib. fil, All SSSR no*43:112-128 162. (HIRA 16s3) (Aluminum carbide) (Magnesium oxide)  SAPONOVA,, Ye.G.;-KHAZANOV, Ye.l. Compovition of filtration revidueee Trudy Voste-sib, filo AN S43R no.43029-141 162. (MIRA 16'3) (Tailing (Metallurgy)-Analysis) (Electrometallurgy-By-I)roducts)  KRAZkNGVj Ye.I.; SAFONOVAj, Ye.G.; VRUBLEVSKAYA,, I.A. Composition and properties of dolomites from the Irkatsk Province. Trudy Voot,-Sib, fil* AN SSSR no.43:142-153 162. OCRA 16:3) (Irkatsk Province--Dolomitee-.~-Analysis)  YM7ANOVp Ye,I.j SAFONOVAs Ye,Ge Industrial testing of dolomites form deposits in the Irkutsk Provinces Trudy Vost,-Sib, fil, AN 35SR no.43t154~-157 162, (MIRA 160) (Irkutsk Province-Dolomites-Testing)  , 'V , . . .1 I I . I . 11 .   DROBOT., N.M.; KHAZMOVP le.l. Method of measuring electric conductivity for the study of sint-d-ring processes in alumina--adntaining mixtures. Izv. SO AN SSSR no.7 Ser.khim.nauk no.204-61 163. (MIRA 16:10) 1. Institut nefte- I uglekhimichaskogo sinteza Sibirskogo otdoledya AN SSSR, Irkatsk.  S.A'. Kui-fMIPIA; Ga. KPUZANOT 11'~-,)'Qj ~IM!Iff-TEVAt Y fiu -,:,I onIbeLween t4 odi Lm-eluminat~3 and dl-AlcIum sihcatao ,,liar. prIU.xhim, 38 no.6t!381-1383 Je 165a f kvim Isao)  KHfizANOV1.Y.s.T..; SHISHLYANNIKOVAj E.M.g RMX;HMO, Z.1. Simultaneous complex treatment of alumina-,ontaining high2y farTouep al)rali alumi-noellicates. TSvet.met, 38 no*7:58--62 JI 165* (MIRA IS ~ 8)  OUJINTSEV, Valldemar Ivanovich; YAKD-';UK, Vitaliy Zak~zrovich; KHAZANOV, Yevgeniy Kharitorovich; BRYZGAIC;A, N.., red.; VELICHKOY N.p tekhn. red. (Using large blocks in the installation of piping for industrial and sanitary systems] Montazh ukrupnenzWmi blokami truboprovodov sanitarno-tekhnicheskikh sistem. Kiev, Gosstroiizdat USSR., 1963. 55 p. (MIRA 17:1)  ODVIIITSEV, Valldemar Ivanovicb; YJIAMCLV-,-2D2goui7-Klw-rJl-oaqA-c-b-,*- YAYIMUX, Vitaliy Zakharovicb; KOWIDAM, red.; LEUSHCIMUKO, N.L.9 tekhn. rod. [Production of half-finished pipe units for sanitary engineering systems of buildings]Proizvodstvo trubozagoto- vok sanitarno-tekhnicheskikb z;istem zdanii. Kiev, Gos- stroiizdat, USSR, 1962. 45 1). (MIRA 15:8) (Sanitary engineering) (pipe)  LWANOV, Ya*N.y inzh.; BOGOSLMKIY, S.G., inzh. Efficient utill*tion of mustard seeds. Musl,-zhir, prom. 29 no.6:7-8 Je 163. (~MU 16:7) 1, GosucIBrstvonnyy institut po proyektirovariiyu masloboynoy., zhirovoy, mylovarennoy.. parfyumernoy i margarinovoy promyshlen- nosti. (Mustard seed)  KHA7ANOVI yu., inzh-ekonomist Traveling goods. Hest.prom.i khud-prorwo. 3 no.12s28 0 162. (HIPA 1W) (Siberia, W estern-Indus trial organization)  BYC!IKGV, S.M.; KIIAZANOVA A I -- -A," Tnteraction of chondromueoprotein and Oiondrol~,- insulfate A with polymyxin M. Vop.nrd.kiiin. 1.1 no.S~ 11-17 S-0 165. (MIRA 19SI) 1. Laboratoriya Ministerstva zdravookhran-~njya SSSR, Mo3kva. Submitted April 9, 1964.  tinsL .4fla-4-1.4-7 "'a n0-19111 ~'n A (MRA 18,-6) T n !3 'a rs v!~,,  BYCICKOV, S.H.; ZBARSKIY, I.B.; KUW.'OVA. A.I.; P014111A, V.A. 4 ,-~. ~;,.z I Mucopopyeaccharides and mucoproteins metabolism in cell nuclei. Dok1ndy Akad. nauk SSSR 76 no.1:99-101 1 MaY 1951. (CUS 20:9) 1. First Moacow Medical In3titute. 2. Presentea by Academician A.D, Speranakiy 23 January 1951.  BYCHKOV, S.M.; KRAZANOVA, A.1, - ------- Interaction of streptorqcin with chondroltin sulfate and chondromucoprotein. Vop. med. khIm.'q no.1348-5~ Ja-F '61. (KIRA 17:6) 1. Laboratorlya Ministerstva zdravookhraneniya 333R, Moskva.  MOGILEVSKIY, Ye.14.; KHAZANGVA~ A.S.; FINGER, G.G. Formation of viscose silk by a continuous process at hi h speed. Xhim.volok. no-5143-46 161. ~~MRA 14:10) 1. VBesoyuznyy nauchno-iorleeovatellskiy institut inkuastvennogo volokne* (Rayon)  VASILOYEV, Yu.S., dots., kand. tokhn. hauk; VELINER, M.A., dots., kand. tekhn. nauk; GINDUS, D.O., inzh.; GOM"CIIEVSK.TY, N.I., dots., kand. tekhn. nauk; GROICV, A.I., inzh.; DOMANSKIY, L.K., inzh.; ISATEV, Yu.M., inzh.; KULESS, H.P., dots., kand. tekhn. nauk; ICKBLEV, B.N., dots., kand. tekhn. nauk; IVROZOV, A.A., prof., doktor tekhn. nauk (deceased); NALIMOV, SaMop at* nauchn. sotr.j, kand. tekhn. nauk; REZNIKOVSKIY, A.Sh., kand. tekhn. nauk; SVANIDZE, G.G., doktor tekhn. nauk; TARAVAYEV, A.V., dots., kand. tekhn. nauk; KHAZANOVA,-A.Z., inzh.; CHERNYATIN, I.A., at. nauchn. 86-tr., kand. tekhn, nauk; SHCHAVELEV, D.S., prof., doktor tekhn. nauk; YAGODIN, N.N., at. nauchn. sotr., kand. tekhn. nauk; LEONOVA, B.I.,, red. (Utilization of water power) IspolIzovanie vodnoi energii. Mookva, Energiia, 1965. 563 p. (MIRA 19:1)'  KLINGFRT, Nikolay Vasil 1,,,ovich; KHOMARIN, Anatolly Kharitonovich; KIMMOU, A.2,, inzh.t rettenzont [Steel p1pellneg and oclijahzing, reservolro of hydrooleo-tric power stationil St-a3tnye truboprovody i urzivnitellriye re- zervuary g1droe"lektrIcheskikh stantsii. MosRvat Enprglia, 1965. 207 p. (KTIU, 180) 1. I.eyAnCr1A.9knya proyiktiio-.konstmiktor-kal.,~t konflora "Gldrostallproycktl'  I", KHAZANOVA, D.. Inch. For the increase in the coefficient of powor. Prom.konp. 14 no-2:12-13 7 160. (HIJUL 13'.5) 1. Proyektno-konstruktorskaye byuro Mosob1promnoveta. (Electric capacitors)  ROZ11,,,9iK1Y, L.B. (Rozynalkyi, L.B.1; BIC:IiKOVS'KIY, V-111. (afchkovs1kyi,VqV.] KHAZANOVA, D. Yu. Intestinal pneumatooiw in childron.Ped.lakush. i gin. 25 no.1:23-25 163. (1,11RA 16:5) 1, Kafedra dityachikh Jnf*tsiyn*h klivorob (zav.-dotoeut S.M. Gavalov (S.M.Havalov]), Kririetkogo medichnogo ftstitut-A frektor dotsent S.I.Georgiyovolkiy [S.I.Heorhiievsll~ytl) ta patalogo- anatomichne viddilennya 4-1 mislkoi likarni (golovniy likar Ya.I.Vidershayn). (114TESTI1,23-DISHASES) (CHILDREII-DISEASES)  I- MZANOVA, G.(Chelyabinskaya oblast'); PLATONOTA, N. (Chelyabinakaya oblast') Improve,the procedure for rel-jotering the staff. Fin.SSSR 19 no-8:76I Ag 058. (MIR& 11:9) 1. Zaveduyushchly Kopoyskim gorfinotdolom (for Khazanova); 2. Starshiy inspektor po shtatan Kopayekogo gorflnotdala (for Platonova). (Wages--Accounting)  Z[fEVNOVATYYO A.I.; Prinimali uchastiyet.KHAZANOVA 1,V.,; KUZUECREMKOV, I.G.; - CHUKHONTSEV, V.P.; SHENBERG, G.F. Agitation flowsheet In the leaching of alumina-bearing calcine with the use of hydrocy~lones as main apparatuses for separating the pulp. TSvet. met. 36 no.100-53 Ja 163. (K7n 160) (Leaching) (Ahmina)  0 00 iis aii& 00-6--s- -M6'- ~Wvo--~- 1 16, a a a d 4L-0 k I IL ~A- A-P- It f AL 110 fooctsits ..Q Italles .04. FAR-okwo c4limest tog WOUM, (j. S. V 'be. !lot Gomdwd. S'wtoywj. sea oil 1414. At'llvloo.. dpw1jitts 6 00C rumcm. *0 RdAdo N(h. 4./ 4 19 2W(1942),-L&b. laatigamms kxt to & t uLa .0t 00 1k mucut fut TM IRS& -00 sea tLd wantcyz C'30(9- UP tu 7.5'; 'Ah vul 344-U% CAD Wd U&tiV* =: wili &,w.. .1 -- F ea thce-r=,., ktlf LKFC&Wd t!MVI NOW =Cigft to 153 with cwweqwmt putW 0 Oc goe sk prw 00.3 Q"iM w4tvr-cot*d wift% bt uwd. moo 40* goo 00.3 2*0 GeV too moo see tfoo Ues -a-- KWAAAWGICAL I.R14,11,114t CLASWCATION woo Isfaw it 040 464 OASAST am 4- All I I Ill Pw a 4 4 1 ff 1 4 v 0 6 AV 00 Ll T " . ,, ; a, x 19 a I W4 04006:1200,00,111110 o 0 6:9 a 0 0 0 0 0 0 * 0 goo 0 0 0 0 0 0 0 4 0 0 0 0 0 a AMR, 43M,  15 (6) SOY/101-59-51-4/11 AUTHORS: Illina, N. V., Vlasov, I. I., Khazanova, Kh. A., and Shadrina, M. N. TITLE, On the Use of Light-Weight Refractories for Lining Rotary Kilns PERIODICAL: Tsement, 1959, Nr 5, PP 9 - 13 (USSR) ABSTRACT: The authors state that in the early days of the cement industry the lining of kilns was considered exclusively as a protection of the kiln body against the effect of high temper- atures. Consequently any fire resistant material was accept- able. The increase in the productivity of kilns has led to more requirements on the qualities of the lining. The physico-chemical process varies in depending upon the thermal conditions in the burning zones of the kiln. To reduce thermal losses, or to save as much as possible of the heat for the burning process, a suitable lining material must te used for insulation purposes. For years this matter has been rais- ed by various authors. Higb-porous fire-resistant chamotte Card 1/5 refractory insulation bricks were used for lining kilns in  SOV/101-59-5-4/11 On the Use of Light-Weight Refractories for Lining Rotary Kilns the U. S., England, Puerto Rico. Compared with the light- weight refractory material produced at the BorovichskAy kombinat "Krasnyy keramik" (II.Krasnyy Keramik" Borovichi Combine), it shows better thermo-insulation properties, a smaller volumetric weight, with a mechanical strength of 30 kg/sq cm. on the other hand the Borovichi light-weight re- fractory material has better mechanical resistance,which is for compressive strength 45 to 80 kg/sq cm for class A mater- ial, and 30 to 45 kglsq cm for class B material. Due to the lower content of alumina, the fire resistance of the foreign material is 16900 against 17500 of the Borovichi light- weight refractories. Table I shows comparative data on the materials originated from the General Refractories Com-pany and the "Krasnyy Keramik" Borovichi Combine, classes A and B. The Borovichi light-weight refractory bricks were first tried in the lining of a rotary kiln at the Pikalevskiy tsementnyy zavod (Pikalevo Cement Plant). The bricks used belonged to class B (GOST 5040 - 58). Their compressive strength was within the limits of 35 - 42 kg/sq cm (average Card 2/5 38 kg/sq cm), porosity 52% and volumetric weight 1.26 g/cu cm.  C-0 ~; V/101-519-5-4/11 On the Use of Light-Weight Refractories for LinJng Rotary Kilne During a thermal stability test, the material resisted more than 25 heat variations within the 8500C heat limit and intermediate water cooling. The fluxing action between clinker and lining bricks was also tried at a maximum termperature of 12500 for light-weight refractory lining, followed by a severe trial at a temperature of 15000- A photograph (Figure 1) shows bricks prior to and after the trial. No erosion was found in the lining after the first of the above trials. In a second test, after one hour of exposure to the effects of a heat of 1,5000C, the lining bricks were affected by the raw mixture to a depth ranging between 1 and 5 mm. Examination of the junction between two zonal linings made of Ts-l and Ts-2 chamotte bricks, and light-weight lining adjacent to the latter without temperature compensations seams, revealed deterioration in the light-weight refractory bricks. At the junction borders the bricks became friable, and a 2 mm wide gap appeared at the junction. Cracks were visible 70 to 80 ca inward from the junction. Photograph 2 shows junctions at the cold Card 3/5 side (left) and at the hot side of the kiln (right).  SOV/101-59-5-4/11 On the Use of Light-Weight Refractories for Lining Rotary Kilns After 6 months of successful operation of a kiln lined with light-weight refractories, the temperatures of the kiln body were measured. In the tested zone, the temperature was 180 - 1950 and in the zones lined with usual chamotte refractory bricks, the temperature was 2350 at the hot side of junction and 2200 at the cold side. Heat losses for 1 sq m of the tested surface was 2430 kcal/sq m per hour, or 69% of the heat losses of the sections lined with chamotte refractories was found to be 3540 kcal/sq m per hour. Consequently, use of the light-weight chamotte with a volumet- ric weight of 1.9 g/ccm for lining will result in a 30% re- duction of heat losses due to conduction through the lining. The author concludes that the first experience in lining the burning zone in the rotary kiln at the Pikalevo Cement Plant has shown that the qualities of the domestic fire-resistant material are not inferior ' to material of foreign origin, in relation to fire resistance, strength, thermal resistance and the flux between the clinker and bricks. The author recommends that in another test the trial zone be lined Card 4/5 with class A light-weight refractory bricks over a length  SOV/101-59-5-4/11 On the Use of Light-Weight Pefractories for Lining Rotary Kilns of 20 m. The brick3 should be laid on a chamotte-clay mixture. Precautions must be taken to exclude the possibility of a longitudinal displacement of the lining. There are 2' sets of photographs, 1 table and 5 references 3 of which are Englishp 1 German and 1 Soviet Card 5/5  ILIINA, N.V.j KIIAZAW)VA, M.A. -------- --. Wear of aluminum silicate refractories in the lining of a rotary cement-roasting kill. Trudy Giprotsoment no.24%92- 102 162. (MM 16s4) (Aluminum silicates) (Kilns, Rotqry)  MAMMA,, L.Ye. ReIntion of acquired resistnnee to nntiblotics nnd bneterlophnge to variability of properties of nnthopenic stnnhylococci. Zhur. mikrobiol.mDid. i immun. 28 no.12:61-65 D 157. WIRA 11:4) 1. IZ MDakovskogo nauchno-iseledovntellskogo institutn vAktsin I syvorotok im. 1.1. Mechnikova.' (MICROCOCCUS PYOGMS, acquired resist. to antibiotics & bactertophnge, eff. on variability (Rua) (ANTIBIOTICS, effects, on Hicrococcuo Pyogenesis, eff. of acquired resist. on variability (Rua) (DACTERIOPHAGE, Hicrococcoun pyogenes acquired resint., off. on vnrinbility (Rua)  ,KHAZANOVA, L.Ye. Bacteriological properties of blood sera in typhoid and para- typhoid fever. Zhur. mikrobial., e~id. i imun. 41 no.10:111- 116 164. (MIRA 18:5) 1. Moskovskiy institut vaktsin i syvorotok imeni Yechnikova.  KILZA!:0VA, N. yo I "Gas-Vapor Solution.,; at High Pressures". Zhur Fiz, Khim., 12, No. 1, 1939. Nitrogen Institute, 1,:o:3coi7. Rcd. 3 June 193"; Report U-1613, 3 Jan. 1952  0 a 0 0 a 00-* I I f o ri 9 Is t6 k It be 0 a 4- J. 4 4 1 1 111- v ~!" ~2. a 0: Cu it b - N KouTsmxvoxs &M 'N. F, CXAUXOVA (ArtA Physitso. 4hiul. UASS., IM, to. MW application of the Gibbill-I)SItOn 6W, tbV [A'Wi*- RAMW Me. SI-141 vq1tatiollo of P44440 (4) PAO-valvour "Mtk""49 high jwQA9UrVA I&MOCUSM41. (44tiftoftentm must pxWmW jbmr~jw I"Ittiftew (11 IMW 14t (Ovin 0 uW pa "utiatt. A thAvetl equattim viialifes - dmmW1 b f ( h e. mm an vxIw e ca foot eirms to % tietandnedimothem. PuNWirtidstsfirr1hrovi-trut Th h e e r, uotion Ms-1 oatlifictoirily fit in with t Z 00-1 r valour itt 4-14-0tow"110 lheiiiry f(W milutionit of jW 00 .411 lum-poW Itad limp lKvn devriolimi isivii sit ctit4stiott hit& *0 ir, Ix" tfeviv"I which sgrms with data for m4ut"ss of 9i U IIjO vatimus in vmriou* pawm%. AiA lievewurr inermov, - the- mal. firaction of vapour In the Xam Ikh-w tiecreamu tit a inin, tral, mul then hienmm*. An eijtmfit~o 0 Obtailting at 01101 t1kin, 116111 It&* beca rivoil but t6tA txmitirming it siv likekill It. If: 2, i J! WALLUN6KAL L1TfSA1U4q Ct4%%,fKA11QO ft f, 4; 11 11 11 1 A6 A I I) ftj 0 X, 0 * 0 so 0:0 0 0 0 0 0 * 0 0 0 0" is oi; P 0 0 0 0 O~O 0 * 0 * 0 0 0 a 0 0 0 0 o 0 g 0 4 0 0 0 a o e q o 0 0 -- - -- 0 00 0 0 0060 go 0060060 00 too C*o 09 ',,&go ve 0 40 0 tie I esso too to!  KHAZANOVA4N8YE8 600 1. ITICREVSKIY, T. R.; KIIAZAN(?VA, tj_,_ Ye. 2. USSP WO) "The Amonin Content In Conpressed Hydrogen and Nitrogen in Fquilibriwn With Liquid Amronla," Zhur. Piz. nim, 13, No. 11, 1939. Yoscow, Chemical- Technolorical Inst. imeni D. 1. Mendeleyev. Received 15 Feb. 1939. 9. 4W Report IT-1615, 3 Jan. 1952.  T 1~, ttt lot t 14 IA. a It so -09 Mitridintof Iran by M,.i I R, Kfi,. rv,klf an't NWI 0 M.,,"W). ~. /.A,, , I S so 00915)-A vr, the C.111if. so ph 00 4 I-00 00 00 so -0 0 so -go so is* is so -00 04 I- i Ire* u u n too of 91 it a 9ftm0 so o o 0:0 0 0 00 000 o000 Goes* 0 * 0 : 0 0!0 w 0 qp-  1 11 It 4 1 - N A~ 00 3", 0: 43 0 v 00 0 0 0 ti 10 w It IL -11 -11 10 ILI a I la --I J- 'W I it nk -.0 1 tot tot It, I I -FO 0 0 a 0 0 a 0 0 0 0 6 0 & 0 oi- I L a v 0 it a U a 440 1& 90 1& ILA AM - ... 1.61 .1. ffiftecensum 01 I= by Nolecalu Nik%w 1A Ekh Prealum 1, Kritchevsky and NJUQU& 10110'. (Aeta Phyxi(whitniva IT.H.S.M. 1946 -t1l. *it. ave'ralculated 1, 1). 187). The authorro h on thrrmodynamical grounds that thoequilibrium'. pnwure of nitnWn in the system Fe (i phaw)-- Fe, N(y' -phase) -N, at 41k C. is rquxl 14) .0.180 aim. and not ACIA) atm. As obtained in a simplified calculation by P. Emmett, S. liendricks, anti 8. Brunnuer.-c. o. 00; s, I L A&I fAL I UnrK &L LIVIRAV"I CLAsISPICAm. Val; -T- J u Vs 4v 10 is' 'w 0 1 w Ow 0 a 4 4 It 10 11tvit Ioo( a it it 9 4 a 4x t4 IM KO A I 1~t-k dew 0 0 Vo "S 0 VIS *00 Vo I too 1411 a goo goo *A 0 too too  -If T If W, 10. T a. I f, V 0 tit Ike. mawom). (V-5 S.K.) Z1. no j;j a Vapor prea- a w" of US ad am at N's pm- WAM t~hft hfthwto (d, e EWmKtt al., C.A. 34, 2M) tkl AA- Outried tvlkwl or p"fid Sam to he valu at ettsetmell Illah pre"Me" WW the wivit the 4d14 Plaw" awl tho fqw, dt -woo U4 06 wo to top" %Mto tuft "PALOMM4 "a not M4,14. The Nktaaq &w.) at M4 am (mw: a phaw + r as equa. pmesum r* 0 obaw + Pit. z1val 3000 and 27W as MI. + lqt. 3" at W aid MW M 6M"; + -e'+ N3100at W and 3MO at 3014; ad a + + T,. 4000 as 5w* And I (witusuble) a act". ~L qtatern"T point woe tested b V beading Ft. of Come. 114% of Awl~ "A 1.4mal r.O. Pw. NN in N at sz-wl and M atm. do R is The folAl phase obtak" Yaw k"Caddy do *at 44 delalle effect of pf"We at d dwWom of lmtkg cotald be &twttd ' Pre: 'Colewwww"Ovinaeued the cm vio" "C!,C!~ N tent up to 3.1 m. It is act bwwu wky aitriding stopped 4900 belom r-hl- wqWL. In -avermem, w" caksm.. the Y' too pbaw Is I P t (9-can) Ott 473* at 2WO abm~ but only the * Plid-ft is Sound alt 3370 atm. TW Snake &pacing of %be 7 Pbaft dwwtd Uml b was m(4. witts N. too f. J~ Rikes-Alml T!AL &IMAT11611 Ct"WICt"Oll 111*W 42wi9v *Nasal 009 a" All AV 10 All; .611 Ica ;J, V I v a ZIL j a 0 0 0 da 0 0 0 0 0 0 9,  Jun nigh Pressures adoes "Device for the zlgh-prosGpra Compressing of Gas$" D. S. Talklis, N. E. Xhazano'va, State last of Nitrogen Ind, 2 pp "Zavod lab" Vol XV, No 6 Industry frequentlv reqiilres large amounts of. very pure gas compressed tinder high presaureo.~ Describes a amiple apparatuu de7eloped to fill this need. It Is capable cf compressing no up to 720 atm. Advantagda are many, Iticluding: (1) ability to vork vith small amounts of eA8. OW 7MR/Phystoo (Contd) Jun (2) no contact between lubrication oil eLhd gas, thus insuring as parity; and (3) Pressure. which in obtainable it; limited only by size .and strength of apparatus.  --l L ~ I - - , . . - 7~ 1 -; . ..,- I , , . - z , ~ . . . ~ ~,: - - " I 1 4 . . !-.w. . .,:  1. R. Kricher.1vil and N. E, fousA. Of IN Irtre nitrklecl at X3, AM. 450. and 0i .r.t`M".=UfT in Nifs-11, mists, The NIII Content froging fiam 33 to 6317c. The nittidine fvActkm %top;x,,I llff~ftf (~OMPICtfjy &$ X IIMJII"l .1; CtIntent In tile Fe %,ji ltppccwbrd. the final N majent ImTeming with inm4w in (1) 2Vff, + 2SPe - WroN + :111j, And (2) WroN 2xVe + Np. RrAction (t) is Iinjitej by rate .( diffusim of N dwmgh Fe and Ve nitrides. Itud bcczu~ 4 the iow rate of diffusion tbrough Fe nitrid" the rrmt~m slows do" as the nitmts increaft Uslif t 1 11, b-tween ibe 2 reactitons Is altainrd. H. 1~t. Rxtbmann  Tko MUI& KUmm&"DV=j AW., too. tocid. h (of tite reactim (lot 0 - N)lVr*M - 12mAo - w)l t.N + Nu whe" Ft.N Is the ud F%N 60wrobaw,wait caW. (tow existius datalo.hr -11h. ovelecols cA KI . and for sbe roaction of Ve imi. trWm wkh If*. The valoes obtakwd fw kv K wvfv - 400' 5.610, 41101 GJA W &4911840e 6.433, &Awl &X). i.m. it? cosibitoin t" vww With data an 4hp fulacily fle Nq. 41. M$ j _P AM QqUR. Whit dW 0- a4d -Y-PhASOO At 4M)- H.W.R.  cj'#~n. AL't,... 'Xnwltroto~ r r MO ottil, ~o et~-"'Innfj from -1 lf~ 1-: kg &-'4  M . MI -d -- -n,c,tlrlt,d " f, - .. - - ~ - - - -- -.., C-101-11 i_ i.,- , i o- -.,  -Y, _-, 1q, - I 't" - It/ ,d --  t-, J~ -7- -_i I- ~ -, '~ -(~; , &1 , \ft/?' . KRICHEVSKIY,I.R.; KHAZAITOVA,N.Ye.; LIHSHITS,L.R. Dilatometry oi binary liquid systems in the critical region. Zhur.fiz.khim. 29 no-3:547-557 Kr '55. (KLR& 8-7) (Dilatometry) (Systems (Chemistry)) (Liquids')  fill w_'iio C~' If, rtv; th, lh, 1~' kv, -it Ilia, if '.I P 'i 2r.   In~l -irrccen intiustry r 3,o- n.. ed b Acridf-!,~17i~;n N. Fri I r I rg  JUL. v USSR/Fhyvical. Chemiitry Thornorh-arsioitry 33-6 USSR/1'hyvical Equ.libriom. Tay,-,I_(,.ochL-aIca3_ Tliasu Transitioll-' I ~. Ab s Jo ur Ref(-;rat 71var - -:11irliYaj NO 2s 1-957P 3""0 Author Krichevskiy LP. IgIalaEova Njo. Titlt! Foruation of Mists at Ifigh Pressu,,,_-3 Orig Pub Zh, tekha- fiziki, 1956, e,6, No 2, 1,0~2-429 Abstract A procedure has been worked out for icothc-eral ercation of oversaturation duzing formation of mist at LZ-tji pres- sures, which is based ol, utilization of the phenomenon of rininum solubility of liquid in gas. Included is a layout of a unit for tile investigation if the conditions of Liist '~Grrmtion at hi4i presuures, and the procedure of utilizinG it is described, Investi_r~ated wure the syctems bu~ izene-nitroren, n, e-thanol-nitrogen, Cr,'3-4-nitrogen, at preosure of -..- 900 atm, There was a ttainud a sharp lowe- rine of critical overcaturation, in comparison with the atnespheric pressure, which is, qualitativ-21y, in accord Card 1/2 - 66 -  -~*/l 7 1 AUTHORS: Krichevskiy, I.P. , Khazanova, N.Ye. , Linshits, L.P. 76-12-1607 TITLE: Liquia-Vapor-Equilibrium in the Benzene-Uethanol-Systet at Hlgb ?ressures (Ramoveslye zhidkost-par v sisteme-benzol-metanol pri vyaoklich davlaniyakh). FMODICAL: Zhurnal Fizicheskoy Khimii, 1957, Vol- 31, Nr 12, PP-2710-2716 (USSR) ABSTRACT: The lirdting curves of the liquid-vapor-equilibrium in the system of benzeno-methanol at various oomponitions and temperatures from 1500 C lip to the critical temperature wera investigated by means of the method of soldered ampules. The volumes of the benzene-mathanol-ayo- tem were measured at the limiting rurve3 of the liquid-vapor-equillb- rim. The investigated mixtures contained 16.7, 34.9, 5o.6, 63.4 and 83.1 percentage by weight of benzene. The critical temperatures and volume-values were found for each of these mixtures and the orit- ical t-.x- and v-t curves were dra7m. v - is the molar volume of the mixture: of a given composition, x - benzene content in percentage by weight. The critical t-x-ourve has a minimum which in observed with systems Ath steadily boiling mixtures under maximm vapor-pressure, These systems usually have such a minimum at the vapor-phase-line of the v-x-limiting curves. It is shown that the limiting curves Card 1/4 occupy the whole range of the ooq)osition of the mixture at tempera-  MqHA-Vanor-Bquilibrium in the Bermena-Uethanol-System 76-12-16/27 at High Preamirea tures below the temperature of the minimum at the critical curve (238.5) and that with all temperatures for which diagrams were plotted, they have minim at the vapor-phase-line. At temperatures above the temperature-minium at the critical curve, the limiting curves embraoa only a part of the compositions adjacent to the axis of pure benzene and show critical points. It is shown that in the v-x-diagram for the bemene-methanol-diagram at 2400 C (critical temperature of me- thanol) only one field of the heterogeneous equilibrium was detex%. mined, instead of the two expected. In the case of a further inorvase of temperature, this field embraces the reducing interval of compo- sition. The minim at the vapor-phase-line of the Y-x-limiting curves indicate the presence of aceotropes in the system. The ooWo- sition of the minim= coincides with that below the maxiamm vapor- pressure only then, if said when the vapor-phase follows the laws of the ideal gazes. It was assumed that the investigated mixture follows these laws and moreover the data available in literature on the oom- position of aceotrope mixtures were applied for this system at tem- Peratures up to 1310 0 [Ref. 7] . The curves for the dependence of Card 2/4  ti.ouid-Wkioor-Equilibrium in the Benzene-Methanol-Syntem 76-12-16/27 at HIgh Pressures the Isoiling temperature of the aceotrope on its composition were drawn upon these bases. At a benzene content of 17 percentages by weightt and 238.50 C the t-x-curve of the aceotrope attains the critical t-x-curve immediately in the proximity of the minimilm point. The data P-v-t for the bomene-methanol-system in reference Is and the here obtained data for cmputing the pressures at equilibrium for three mixture-campo3itions we've applied and the critical P-x- and P-t-our7es were drawn. The P-v-limiting curves for the three mix- tures ivere constructed from the here cbtained data for the volumes of the phases with the investigated system at the limiting curve at various temperatures and compositions, as well as according to the data of reference 1. (Mixtures with 54.2, 70.9 and Q3.0 percentage by weight of benzene at 1500, 2000. 250v and 3000 C). Tho critical P-t-curve was drawn according to the values for the critical para- meters of pure berzene, methanol, and the three mixtures, as well as according to the data on the temperature-minimm at the critical curve for this system. This curve differs from those desoribed in the references 8 and 9. It is shown that Ath the benzena-mathanol- Card 3/4 system the relation set up there is not observed: the component with  Liouid-V-"or-Equilibrium in the Benzene-Methawl-System 76-12-16127 at High Pressures the least critical temperature (methanol) has the highest critical pressure. On the other hand, benzene shon at higher critical tem- peratures the lowest critical pressure. Finally, also the P-x-iso- therms for the liquid-pbase at 1500 to 2200 C, and isothenn for the liquid- and vapor phase at 2400 and 2500 0 were constructed. There are 8 figures, 2 tables, and 9 references, 2 of which are Slavic. ASSOCIATION: Institute of Nitrogen Industry, Moscow (Institut azotnoy pranyahlormosti, Moskva). SUBMITTED: September 17, 1956 kVAUMLE: Library of Congress Card 'A  AUTHORSt Krichevskiy, I. R., Khazanova, N. Ye., 2o-119-5-37/59 Linshits, L. R. TITLEt Diffusion Within the Critical Range of Ternary Solutions (Diffuziya v kriticheskoy oblasti troynykh rastvorov) FERIODICALt Dokla0y Lkademii Nauk SSSR# 1958, Vol- 119, Nr 5, PP- 975-977 (USSR) ABSTRA.CT% The aim of the present work is restricted to the solu- tion of the main problem, namely the clear determination of the problem, whether a noticeab 'le enrichment of the solution with the third component occurs (playing the part of a small addition to the binary system) in the critical range because of molecular diffusion. The inve- stigation of the diffusion in ternary solutions was for various reasons carried out by the example of the tri- methylamine-water system with an addition of a small amount of butylamine. The investigation was carried out by means of the method of capillaries (about r,-2mm dia- meter and about *, 40 mm length). The experimental Card 1/3 lasted 50-go hours. The thermal stabiliting was accurate Diffusion Within the Critical Range of Ternary 2o-119-5-37/59 Solutions to an error of,~. 0,050C. The investigation of the diffu- sion in the ternary mixture is always carried out with solutions of the same ratio butylamines triethylamine (abouti--~_ 104), and always at the same temperature of 180C. In order to reach exact results a great gradient of the concentrations of the diffusing component was selected for the investigations. The following can be seen from the data mentioned in 2 tabless The diffusion coefficient of the butylamine is of the same order within the critical range and in diluted solutions. The little smaller value of the diffusion coefficient in diluted solutions is explained by their small viscosity as com- pared to concentrated solutions. Thus the diffusion ve- locity of butylamine does not decrease within the criti- cal range while the diffusion velocity of triethylamine within this range strongly decreases. However, diluted solutions the diffusion coefficient of triethylamine has the same order as the diffusion coefficient ot butylamine. According to the theoretical conditions the nystem was en- Card 2/3 riched with butylamine. The ratio butylaminct *1 : 6,  24(8) T al~cy~ 6 A'ksdCmlY& Mauk 333R. Ct:jcl--',-a kn.-rjc~ds"kh nauk Termodinamika I atroyanlya rastvarou; trtjI7 moveahchanlya... Mormodynandca ".3tructure of Solutlon3; TramactlOn3 Of the Conference Hold January 27-30, 1958) m3dow, lzd-vo AN S33R, 1959. 295 9. 3.000 copies printed. 24. : X. 1. Shakhparcnov, Doctor or Chemical Sciences; Ed. of Publishing flaw"I X. 0. Yagorovj Tech. Md.; T. V. Polyakova. PVJMN=s This book Is lztondod for physicists, chemiets, and chmalmal engineers. 'COVEMMEt This collection of papers-was originally presented at the Coriforense an Thermodynamic* and Structure of Solutions sponsored by the Section of Chemical scianc** or the Academy or sciences, assa, aw the Department of Chemistry of Moscow state UniveMity, and be12 in Moscow an Janus" ZT-30, 1958. Officers of the listed In tht_ rortrLTd A list of other reports but not I.Oludia- IiC Uff*-W0V-- 020 given. Among the problZa treated in this work are: elactrolytia solutions, ultrasonic =Asurcmant, d1olectrid mA thermodynamic properties of various mixtures, spectro- sonnin aa&lvats. &to- References accom,pa" Individual articles. 36 Skrlml-Y--r- Fluctuation or Inergy In solutions god Their -9 Mtias to~daat Capacity 43 and V. Z. MLE'Adeb. Molecular Theory at 11 Z :A 48 1. 1L. ad X. Yet Kh-X=vS, Cfttloal Fhe a" M 1 -I 1MV Ntu Sr-'- 1 49 T- P- Study of the critioai states or Individual omod of Their XLxtures With the Aid of L*"93onLa Methods 56 and A. A,_f2LlZ2XA- rhass Transitions In F-Elassirication simple Systems and Thirr 67 U" of 'Uttrosoula Measurements in the 3olutlons 72 ,l and 9. 1. Zmaborak. Tts"formation of Er- pe. into RaGAZOO OPOO sj~j HO=Z"trQp*& Almary dat=za T9 1tamakla-&-y- And A. 0. MoracheymX-y- ApPLIcabillty or - Lonov&Uv-o and Tema" solutions ST )C and Rolation of Thermo- - - tursted and Nearly Saturated Ternary la 4yuouLa Properties or Solutions, to Their ComposItlon 93 Thermc~lynsalo Propartlos or Water in Wolutlons of 1160trolytes 97 of kleatrolytod In xon&quoous W.-itions ICP5 Xvano~* Thermodynamic Proper- ' ;~ yt-, r mcnaz"ous Solutions Ila r1ov, 9. A., V. A. Kronor r. X rctsyna, and To. V.Titov. Study Or tzw JLrf'Ot Of 3-1-6418 an ibe Strength or Aolds by Mean& Of CPtlcal Nothads 122 X2)n5LD*1X-A-Z- DI5&*Oi&tIOn of Aside &W Complex Compounds Aiid Methods of studying it 126 ChaAge in Thenoodynomic ?motions In or ions in solutions 133 Ther1mod7namloa of o&q%cc=pj*=sO Z40 Study or Pxnjoa J;~aaum or Solvent In Aqu&0" Ulazlens of lloctrolyt4a 144 Interactions Or r=tOA Wlth Malsoulas (Water. Af- -2AA1 . . 152 At  r5 ( 4 1) AUTHORS. K~-icheyakiy7 1. R.,_Kha-.arov-, 1j. Yq~ SCV/76-33-7-7/440 Taekhanakaya, Yu. V., Linshits, L, R. T I T LE. C:itical Phenomena in the Systim Hexampthylcne Imine - Watr-7~t T. Equilibrium Lim!tln~, Curv,.i of Liq-jid - Fear the PERIODICAL; Zhu--r-nal fizicheskoy k1iiinii, 15159, Vol 331; 11:- 7, I)p 1104 - 1491 (USSR) L B 3T 1? i'~ C TFrow th-.~ data of the olassi,--,al theory ~n the 7,ia new thermodynar-io relatfons ?an b!~ obtaln,3d (Refs 1 3) wni:,h the ccurse of the liraiting ourue ( 'LC) near the pz,int (CP) with th? jumpaof the d~-rivatil~Os -,,' acne p-rop2rtaes durinj tliq transition of zhe system !rcm the hor.,:,ec~neoua to. th-~ 1--steroCenecus state. In-previous papez~s (Refs 4-6) 1-t waa f-olind for twc- systems by the method of the lump of the derivati--rc- U (9 Irld t )P;T of the course .~f the (Lv') -,,eax 'lie ~sri'ical point that th? limiting curves of 'hese systems are ser,--ond-degree pa.-abolas. In rontinuation. of these irives--igattons ths auth~ra ax-alyzed the system hexamethylene tmiia watRr -'II~. Tl,ey 13 nvestigated the course of the (LC) (Fig 1 Table n,~ar The  Critical Phenomena Jn the System Hexamethylene SOV/76-33-7--7/40 !mine Water. I. Equilibrium Limiting Curve of Liquid Liquid Near the Critical Point (CP), the partial and total vapor pressure, the spe.-Afic weight, thO Tefractive index, the viscosity,. and the diffusion ~oeffi- cients within the wide range of temperature and composition. Investigations were carried out near the lower (cp) at 66.90c and 22.5 wt% (1) by means of a gravimotric dilatometer (Refall- 14) (Fig 1) which was contained in a thermostat. The authors investigated six systems with a hexamethylene imine content of 13-7, 20-1, 24-32i 27.6, 31-4, and 35.6 wt% at various tem- peratures (Table 2). On the basis cf the results of the spe- cifit- -volumes; volume-temperature curves were plotted. and herefrom the authors calculated the derivatives (9-/)t)p on "he (LC) for the heteroeeneoua and the homogeneous range as well as the jumps of the derivatives at the point of intersecticn of the (LC). Results showed that the jump of -,he derivativ.~ kav/Ot)p,X attains a limit in the critical point, and thus the (LC) is a second-degree parabola near the (CP)~ In (Refs 18-20)., the -:umps of c and (Dv/at)p of some binary solutions atri Ca~d 2/3 1; P,x .7.  Cziti~:ai Phenomena in the System Hexamethylene SOV/76~-33-7-7/40 Imine Water. 1. Equilibrium Limiting Curve of Liquid Liquid Near the Critical Point the Jumps of cV of several pure vibstarwas were Investigated, bind it was found that these jumps always attain limits in Vic- (CP). It is therefore assumed that the (LC) cf the liqu` -d - liquid and of the 11.quid .- wapor in the s,rsterrs under i .Lgation is a rjecond.-degree parabola. near the (CP). There arz-~ 5 figures., 2 tables, and 211 referen~.es, 14 of which are Soviit. ASSOCIATION; Goaadazetvennyy institut azotnoy proayshlerno!iti (State Insti- tute for Nitrogen Industry) SUBMITTED; Septembem 11., 1957 Card  1-~ (4) JOV/76, AUTHORS: Khazanova, It. Ye., Linshita, L. R. (Moacow) TITLE: Critical Phenomena 'in the System 11examethylenimine - Water II. Some Physicochemical Properties of the System Hexanetbylen- imine - Water PERIODICAL: Zhurnal fizicheskoy khimii, 1959, Vol 33), Nr 8, pr, 1811-1812 (USSR) ABSTRACT: In the course of the investigations of the critical phenomena in the system hexametbylenimine (I) - water (II) it became necessary to determine a series of physicochem4cal proper- ties of this system as well. The specific weight of the system M - II) was aeterm'ned for compositions of 4 - 441/~ by weight of M at temperatures between 13 and 650C (Table 1). The measurements were made with a double capillary -)ycno- motor, the meniscus readings were taken by means of a cathetometer, The viscosities of the systern W - (II) vere measured by mean8 of a Heppler viscosimeter for temperatures between 0 arid 66 C (Table 2)... The refractive index was measured by a 0refractometer RLU for temperatures ranCing Card-474-2- from 10 to 50 0 (Table 3). There are 5 tables and 2 ,.')oviet 'refey-evices.  1A '? r FlIME I BCOX EeLOITATICT S011/5469 Sovor,hchaniyc po kritichc3kim yavlcni:~ L'z i flyuktuatclyam v rastvorakh. Moocow, 1960. Krltichoalci.ya yavlonlya i flyuktuatuii v rartvor-,'-:h; trudy yanvarl 19GO r, (Ci-Itical rliuna--ona and Pluo- tuat!,= in Solution3; TranuactIona of the Confortnico, January 1960) noscow, Izd-vo kI 5,3311, 1960. 190 p. 2,500 copic;i printod. Spown,oring Agonoie3t AllcadmAya nault COSR. Otdoleniyo khir"i- chauklkh nauk. Noskov3kiy go3udarjtvcnnyy universitot Im. N. V. Lonono3ova. j(hirAchesIrly falmlltot. Responsible Ed.: 14. 1. Shalthparonov, Doctor of Chemical Sciennea, Professor; Ed. of Publichln~ House: E. S. DraMinov; Tech. Ed.s 3. G. TikhomiroVa. PURPOSE 1 Thia collection of articles I* intended for scientific personnel concerned vrith chcmiatry, physics, and heat power engineering. Card 1/9  Critical Phenomna and Fluctuationa SOV151,69 CWrt--'V-GE i' The book contaira 24 of ' he 206 reports read at the Conference o-n Critical ?honomnna and Pluctuationa in -Iolut-Ion3 organizcd by the Chemical DIvI51on of 1.*ozco-,t Stato Univraroity, jdnu~,r-j 26-28, 196o. The reportz contaln reculta of Inve3ti- gations carried out in recent ycara by Soviet phycicist""-, ehenlz3ta, anil heat power enOin"--zo. ILe Orz;anizinz Cc-,-.-,Uttee of the Conference v;a3 co-,rnpoocd of Profe3oor Kh. I. 1,7-irdiz~-nov, A. Z. Golik, 1. R. Krichevakiy (Chairnan), V. X. Sczenchenko, A. V. StoronRin, 1. Z. Fii3hor, and 11. 1. Shakhparonov (Doputy Chairman). References accompany individual artiolea. 12ABLE OF CONT04TS: Forrword Am.irkhanov, Kh. I., A. M. Kerimov, and B. 0. Alibekov (Lab- oratoriya molelcalyarnoy fiziki, Dagentanskiy filial All SSSII Laboratory of M22ecular Ph~alcsp DagoDtan Branch, AS USSR]. Thermophysical Properties bf Matter at Critical Temperature Card 2/9 3 5  Critical Phenomena and Fluctuations sov/5469 X.,.hadov, Ya. Yu., and 11. 1. Shr0eInnaro-nov (Laboratoriya riziko- khimii raztvc-rovj Khird-CII-eddy ':0o':oV3!:iy rozudarot- v-~-~nyy univercitet im. 11. V. Lo.-ic-lozova -- Lr-borator-y of th~ Physical Chemistry of S61utlons, Chcmiotrj Divizion, ;oscoa State Untverrity imcni I.I. V. Lomonooov). Dielectric Pronorties of Solutions In a Suporhigh Frcquency ConcentrAtion Flu3tuationa B,aridze, D. R., and Il. I. Shakhnaronov (Laborator-j of Physi- cal Cha-zilstry of Sol`u~_i=, &EC:,iLz-!!TDivioion, Z:oncov State University imeni I.I. V. Lomonooov]. LIr~'it Scattering in Solu- tl=3 Having a Critical Stratification Point Vuka, M. F., and L. I. Linnyanzckiy (Laboratoriya molelculyarnay optiki, Fizicheskly fakulltet, Loningradoltiy gonudar3tvonnyl univor3itot im, A. A, Zhdanova -- L~boratoj of .olccular Optics, 2hysics Division, Leningrad State Univer3ity Imcni A. A. ZhJanovl. Intermolecular Interaction and Light Seat- toring ip Solutions of Pyridine ando(- Piaolino In Water Card 3/9  Critical Phenomena and Fluctuations sov/5469 Zat3epinu, L. P., and P1. 1. Shndinironov (Laboratox-y of the Phy3ical Choml3tvj of 36`1u--tiona, Diviaion, 1*0jeow State Un.Lvor3lty Imcni 11. V. Lomonocov). Rayleirh 14ght scattering in flitrobenzeno -- Cyclohexane and Ethyl Alchol - Diethylamine Solutions Knoinov, R. M., and M. 1. Shaldinarono-v [Laboratory of the .st 0'r A -_ -0 E Physical ChenJ ry -3-oliNfondi ffc.-,if6try Divicion, Voccovi State UnIveraity Imeni M. V. Lorionosov). DielectrIc Proper- tiC3 of Soluti.ons in Elcotrow,,metic Fields of the .1,1111imetric Band and Conce!ntration Fluctuations Kriahevskiy, 1. R., and 1!. Ye. Khazanova (Laboratoriya vycoRikh davleniy.. GIAP -- Laborai-o-r-y-o-F-Tff-g~-~j~e-ni3ure [Studical, Ioa- cow StatJ Design and Planning Scientific Research Inatitute of the Nitrogen Industry]. Diffunion of Liquid and Ganeous Solu- tions in the Critical Region 3P 37 45 Krichevskiy, 1. R., and YU. V. Tockhanakaya [Laboratory of Card 4/9  Critical Phenomena and Fluctuations Sov/5469 "If.h-Pro azure [Studical, GIAP]. Kinotica of HotoroSencous Frocalazon in tho Critical 11,77_rion Kriclv~vokly, 1. R., 14. Yo. Kh yn, and L. R. Llnohlts [Lab- orator,j oC High IGIAX) , Liqvid-V,,;,r (jullibrium In the Critical Rt.,Olon of Liquid-Syotci Zf;ratl- fleation Lo-.-,iova, N. N, andff'I* S1,,'I-hn rolov Elhbor~tory of the PhY31cal Chomictry or S-Olutioli-, Hvision, Illoccow St,tc Univeraity Imcni e1. V. Lo-onosov]. Permittivity and iliolccuhnr Struoturo of SolutIon3 L. V., and 1.1. 1. Ih_,1!,1,,,)nmnov ELaboratory of tho rhyZical Chnmistry Of h:.d6ti-j Divicion, 11,loacow Stato Univoraity Inoni 14. V. Lo;ionoaovj. I'ain 3tructura of tho Lino of Rayloigh LiCht ScattorinG in Solutiono M,okhov, 11. V., and Ya. M. Lablzovzkiy [Kafedra dc7orimontallnoy fiziki)Dnopropetrovokly goaudarstvonrU univeroltot --,Dopart- Card V9  Critical Fhcnomcna and Fluctuationa S0715469 r;.,-nt of Fcmorlmcntal Phynics, rnn,.)ropotrov3!,. 3tato Univoralty). 1=.-Gtication or Dm3lty Vluctu,~tic_-m In "thor and B~n,.;,;no on X-Ray Scattering at Narro-a Aw.Clc3 81 pAr",,-.-nt of F-mcririr.,ntal hw, 11. V., ond I. V. Klmh (D.-, P11-olco, Dnopropotro-vok St-ato U.Av,.)r.,A'-yj Variation In tho of Conc,.,.atration Fluctuationa in ~!,,)Iatlox-hlp to Tc-n- -p,ur,~tur.q amt Conamitration in Binary Liquid Sy~;tc-_-3 kkiving an. upp~ar Critical Diooolvin_r? TL~:;p~:.mtura 89 111o2.drov, V. F., B. 1. Mallyanov ond N. 0. Ohir',,ovich :;!siy oblaotnoy pcdagogichr~Ldy inctitut -- Pcd?,-'o,,~ical In3ti- tullo of tho I,lc:;co,,., Oblanst]. Hyporsonic Lnvostivatior. in C._~;c.nic Liquido at Const,,xt D:naity In tho Vicinity oL tho Critical Stato 93 Pott, L. A. Ninokiy losotc!chnJ.Ch03kiy institut -- Minck' Forcotnj En-inooring In:3titutol. Concorning tho Diffunion in- tho Critical Stratification Region 102 Card 619  30 Critical Phenomma and Fluctuationsk sov/5469 Roolichina, G. P. (Laboratorlya molckulyarnoy fi.-Aki, V-Izi- chenkiy falcul'tat, Xlyovakiy gcsudarntvennrj univeroltet In. T. G. Shavchenko -- ' ..Laboratory of Noleaular Phyalco, Divi- sion of Ohyoics, Kiyev State University ineni T. 0. ShcvchcnRo] Investigation of Fluctuations in Solutions by the Method of Licht Scattering Skripov, V. P. (Laboratorlya molekulyarnoy fiziki,Ural1s1ciy' rolitckhnicho31tiy inatitut im. S. M. 111irova -- Laboratury of 1:olocular nlyalca, Ural Polytechnic Institute imeni S. 14. Kirov). Special Structural Features of Ratter in the Vicin- ity of the Critical Point and Transfer Phenomena Skripov, V. P., and Yu. D. Kolpakov (Laboratory of Yolecular Physics, Ural Polytochnic institute imeni S. M. Kircr, and the Laboratoriya teplofizikiUral'skiy filial All SSSA -- Thermophysics Laboratory, Ural Branch, AS USSR]. Light Seat- toring in Carbon Dioxide along Pre- and Pont-Critical Isotherms A [Inatitut neftekhimichenkogo sinteza AN SSSR SmIrnov B 109 117 126 -- ' ' Card i/9  30 Cr~.tical Phenomena and Fluctuations sov/5469 Inntitute of Petrochemical Synthesis, AS USSR (Moscow]) Visual Observations in the Critical neg4 on 137 richer, 1. Z., nnd V. K. Prolchoronlco. Concerning the Fluct- uations of Coordination Numbers in Liquids 142 Finhcr, 1. Z. (Bclo:un;~dF Gonudarstvennyy Univcr~.Ltat -- Balo- runuian State University (M-nak)] Correlation Analysia of the Critical Point 148 ,pAlIqDai~qpov 4.1. (I.-Ix-ratcvy of thu R*nlcal Chemistry of Solu- ,_j,_ tiona, Ohcrmiati~r_Dlvision, Moscow State University imeni It. V. Lo-monooov]. Fluctuations in Solutions 151 Shimanskaya, Y.). T., and A. Z. Golik [Laboratory of Molecular Phyoica, Physics Division, Kiyev State University Imeni T. 0. Shevchenko), Investigation of the Critical State, Liquid- Vapor, of SolulAons by Topler's Method 161 Card 8/9  'Critical rhenomena and Fluctuations Z011/5469 Shimanakaya, Ye. T., Yu. I; Shimanakiy, and A. Z. Golik (Lab- oratory of Molecular Physics, Division of Physics, Myov State University imeni T. 0. Shevchanko]. Investigation of the Critical State of Pure Substances by Tepler's Method Resolution of-the Conference on Critical Phenomena and Fluc- tuations in Solutions AVAILA13LE: Library of Congress (qD545.S73) 171 189 J?/dVk1jw 10-28-61 Card 9/9  3/170/60/003/010/020/023x B019/BO54 AUTHORS: Krichevskiy, I. R., Khazanova,.-N. Ye., Linshits, L. R. TITLE: Diffuaion of Gases Near the Critical Point PERIODICAL: Inzhenerno-fizicbeskiy zhurnal, 1960, Vol. 3, No. 10, Pp. 117-118 TEXT: In the introduction, the authors point out that it is very dif- ficult to investigate the molecular diffusion of gases near the criticF.1 point. They observed visually the diffusion of iodine in carbon dioxide. Iodine pressed Into tablets and carbon dioxide were introduced into thick- walled glass ampoules. The diffusion of iodine in carbon dioxide causes a discoloration of carbon dioxide, and thus the diffusion of iodine in liquid and gaseous carbon dioxide was inveStigated. In this way, a dif- fusion coefficient of 1*10-5 cm2 /sea at 20 C was determined in liquid carbonic acid. Prom the results obtained, the authors conclude that the diffusion coefficient near the critical point is smaller than 1.10- 6arm 2/ sea, and that the diffusion coefficient near the critical Card 1/2  Diffusion of Gases Near the Critical Point S/170/60/003/010/020/023X B019/BO54 point Is reduced by at least three orders of magnitude. There are 4 ref- erences: 2 Soviet and 2 Scandinavian. ASSOCIATION: GosudEtretvennyy institut azotnoy promyshlennouti, g. 11of1kva (Stato Institute of the Nitrogen_Industry, Moscow) SUBMI'TTED: April 187 1960 Card 2/2  KRICHZVSKIT, I.R.; KHAZAHOVA, N.Te.~ TSIKKANSKILU, Yu.T. (Moscow) Critical phenomena in the system hexametlWlenimine - water. Part 3: Diffusion in the vicinity of the criti- calpoint. Zhur.fizekhim, 34 no.6:1250-1254 Je 160. (MM 13:7) 1. Institut axotnoy -protyeblemosti. (HexametbVlenimns) (Diffusion) (Critical point)  S/076/60/054/008/018/0-39/XX B015/3063 AUTHORSs Krichevskiy, 1. R., Fba-zanova. N. Ye-.-, TITLEa Critical Phenomena in he HexametMleniminq Water System. IV. ~7otal Vapor Pressure -! PERIODICALt Zhurnal fizicheskoy khimii, 1960, Vol. 34, No. 8, PP- '1702 - 1705 TEM The c-itical isotherm of total pressure above binary solutl a li~e'k on the isotheriis of the chemical potential'and partial pressure, exhibits an almost horizontal section in which the vapor pressure is practically independent of the composition of the solutior. This effect of %he critical point also extends to the homogeneous region, in a wide range of composition and temperature. The authors studied the thermodynamics of binary solutions near the critical point in -the hexamethy.lenimine - irater system, which has its lower critical point at 68.10C and 24.8 percent by weight of hexamethylenimine (Ref.2). In doing so, they measured the total vapor pressure above the solutions with 5-55 percent by weight of hexa- methylenimine from 40 0 to 740C by the isotheniscope method. The latter has Card 1/4  Critical Phenomena in the Hexamethylenimine - S/076/60/034/008/0*18/(139/XX Water System. IV. Total Vapor Pressure B010063 been developed by Bmith and Rensies ~'.'j .~mer.Chem.Soc., 32, 1412, V910) and is described here. Both instrument and method were checked by determining the vapor pressure of bidistilled v%ter. The measurement error of the total vapor pressure above solutior.5 of dit.'ferent compositions is indicated a,-) being 0.10 - 0.20 mm 1-g. The values obtained from the diagram logP w f(l/T) were interpolated for integral temperature valuea and tabulated (Table 1). From this the '~ - f(x) diagram was drawn and the limiting curve was plotted therein, the data on the liquid - liquid equilibrium in the system concerned being derived from Ref.2. The P .. gx)~L diagram (Fig.3) shows zhat the effect of the critical point extends over a wide range of temperature and composition. A thermodynamic interpretation of the data given here will be offered in a later report. There are 3 figureal 2 tables, and 4 referencess 2 Soviet, I U22, and I German. ASSOCIATIONt Inetitut azotnoy promyshlennosti Moskva (Institute of the Nitrogen Industry, Moscow) SUB14ITTED% September 26, 1958 Card 2/4  S/076/60/034/009/025/041XX B020/BO56 AUTHORS: Krichevskiy, I. R., !haz Ye., and Linshits, L. R. TITLE: Critical Phenomena in the System Hexamethylene !mine - Water. V. Partial Pressures of the Components PERIODICAL: Zhurnal fizicheskoy khimii, 1960, Vol. 34, No. 9, pp. 1920 - 1927 V/ TEXT: For the purpose of explaining the characteristics of the behavior of a substance in the critical point and the effect produced by these characteristics upon the behavior of a substance near the critical point, it is first necessary to determine the dependence of the chemical potential of the component upon the composition of the mixture in these regions. For the temperature dependence of the differentials of isothermal and isobaric lines upon the partial pressures of the components from the composition in the critical point of the binary solution the equatiuns (3/3T)(BP [(P1 N (RT 2)jj(B2jj/3N2)P (26) and 1)/(aN2)'P,T] PIN2;k k 2,k)/ k 2 T,k Card 1/4  Critical Phenomena in the System Hexamethylene S/07 60/034/009/025/041XX Imine - Water. V. Partial Pressures of the B020YB056 Components (3/~T) (aP P N /RT 2),(32 H/3N 2) (27) 2l6N2)1),T]P,N2k 2,k I,k k 2 IP,T,k are derived, where k is the index of the critical phase. The partial pressures of the components in the critical range of the binary solution were investigated in the system hexamethylene imine - water -with a lower critical point at 68.10 and 24.8 % by weight of hexamethylene imine (Ref- 5). The investigation was carried out by means of the dynamic method, where only the equilibrium composition of the liquid and of the vapcr was determined. The total vapor pressure over the solutions was separately determined (Ref. 6). The equilibrium is established only slowly near the critical point of a binary system, and therefore particular care was taken in order that the saturators be used effectively. Helium was the carrier gas. A scheme of the arrangement is given in Fig. 1. The equilibrium in the system hexamethylene imine - water was measured in solutions with five different compositions at 50-0, 62.1, and 67.60. From the equilibrium compositions of the vapor- and liquid phases, the partial pressures of the components were determined (the partial pressures of hexamethylene.-imine Card 2/4  Critical Phenomena in the System Hexamethylene S/076V60/034/009/025/041XX Imine - Water. V. Partial Pressures of the B020/ 13056 Components are given in Fig. 2). The proportionality of the partial pressure of the components with concentration holds only for diluted solutions (with 3 -- 4% by weight of hexamethyleno imine).. At temperatures near critical one, the partial pressure of hexamethylene imine from a concentration of about 8% onward remains constant within a broad range of compositions. At 500, the partial pressure within the range of this composition increases somewhat with concentration, but its dependence of composition remains very low, which fully corresponds to the conditions given in the thermodynamic equa- tions (26) and (27). In solution concentrations near the critical one, the composition of the gaseous phase changes only little with temperature. The temperature dependence P2 /p, j'or three ternary systems is shown in Fig- 3: triethyl amine - water, phenol - water, and hexamethylene imine water, from which it may be seen ,;hat this function converges to zero. when approaching the critical temperature. Between evaporation and the solution heats of the components nt the critical point, a relation is obtained, which does not follow f:.-om the general thermodynamics of the critical state, namely 'AR 1,ev 2,ev - A111,k,sol - 6H 2,k,sol' Card 3/4  Critical Phenomena in the System Hi~xamethylene 3/076/60/034/009/025/041XX Imine - Water. V. Partial Pressurea of the B020/BO56 Components T~here are 3 figures, I table, and S) references: 6 Soviet, I US, and 2 German. ASSOCIATION: Gosudarstvennyy institut azotnoy promyshlennosti, Moskva (State institute of the Nitrogen Industry, Moscow) SUBMITTED: Nov-ember 12, 1958 Card 4/4  84625 S/076/60/034/010/002/022 5~47'm X101,50 12.1-S *41 3015/B064 AUTHORS; Krichevskiy, 1. R., Khazanova, N. Ye.., isvetlova, G_ M.1 TDece-ased), a;7d-- TITLE: Total Vapor Pressure Over the Solutions of.Triethyl Amine - Water in the Critical Range PERIODICAL: Zhurn Ia\1 fizicheskoy khimii, '1960, Vol. 347 No. 10, pp. 2-j60 - 2166 TEXT: Investigations of the total vapor pressure over binary solu- tions in the vicinity of the critical point are interesting for two reasons. On the one hand, it is important to establish according to which laws a distribution of the critical phenomena In the homogeneous region takes place, on the other hand, it is important to study the problem of jumps of the intensive quantities when intersecting the limiting curve both in the critical point and at a distance from it, the importance of this has already been stressed by the authors of the present paper (Ref. 1). For the mentioned reasons the authors Card 1/7  84625 Total Vapor Pressure Over the Solutions of Triethyl Amine - Water in the Critical Range S/076J60/034/010/002/022 -BO15/BO64 investigated the critical parameters for the equilibrium liquid - liquid in the system triethyl amine - water. For this purpose spp--~al- ly p-arified triethyl amine was used (specific weight at 250C - 0.72345 g/cm 39 refractive index at 25 0C nD - 1.398). The vapor pressure of triethyl amine was determined (Table 3) and the total pressure of vapor over the system A. ziethyl amine - water in the temperature range of from 100 tc 250C (Fig. 2) and the limiting curve for the equilibrium of the system inv,~,qtigated, i.e. tht~ rr-ti.-al solution temperature (Table 4, Yig~ 1). As may be seen from Fig. 2.. tha iaosteric c-arve of the solution w�th a -Lomposition -,'csr to that of the critical (30-56 wt% triethyl amine) passea contlnUCU31Y over intc) the limiting courve, while the curves for the solutJons with different compositions form an angle with zhe equilibrJum curve. The experimental values and the calculated ones show that the derivation of the values of the total. pressure according to temperature Ptotal' A T)N 2 Card 2/7  Total Vapor Pressure Over the Solutions of Triethyl Amine Water in the Critical Range 84625 3/076/60/034/010/002/r,22 B015/BO64 an well as the derivations of the other intensive values show no jump on intereecting the limiting curve at the critical point. This coinci- dence of the experimental and calculated data confirms the accuracy of the theoretical assumptions. From Diagram logP - f(l/T) (Fig. 2) the values for the total pressure over the solution were interpolated for inte ral values of temperature (Table 5), the P - x diagram plotted ~Fig- 3), the limiting curve drawn, and thus, the values of the vapor pressures on the boundary line ob 'tained (Table 6). Fig. 3 shows that at concentrations close to the critical point a slight dependence of the total vapor preasure over the solutions on the concentration is to be tobserveLd I in the wide temperature range. Thid corresponds fully to the thermodynamic characteristics of the .behavior of substances-in the vicinity oV the critical point. D. Mayer and V. F. 'Alekeeyov are mentioned.There are 3 figures, 6 tablesp and 11 ieferences: 7 Soviet, 2 British, I German, 1 French. Card 3/7  84625 Temne 6 Rannewme. Temnel)a 06 Ablaell"a. MR. Am PT. cy. TIM AA PT. B01 i 13,&9" 36,7 40,M Tmj. 1 18,07 4815 60M 292,& 13.50 62,8 70, 12) M5.15 27,57 76,6 89,4" 760 0 32,20 94,9, HOMICHTPalmn Temnepa- aRIVIVIttle. Tpown Temliops. Asonetiffe, !,TpnmnnxmlfHS, TIP&, AL64 PT. VPtIDTNnA- Millis TICR. PT.j t ? % - 1 cl. , % am. . c 7 7~7 i4 0 78 7 0.9 0 '6 57,~ 8:9 22:0 10:4 " " 23,2 1814 56,8 M4 20,0 62,6 30,0 18,35 50.7 o 59 32,2- to,33* 56,00 Card 4/7