SCIENTIFIC ABSTRACT KHROMCHENKO, L.M. - KHROMKOV, I.N.

0 V7 o 0 f 0 0 0, A. rA Ofild fill 11to ff 1fua;djSb,7x )v IS 1, 9 U I,' it 0 1--, 1 -L *A Is Cc SIP U 00 ly f eon. Ittl, -,it' 0 4 been""" Ise d"Flad the metterivis of a -particles -00 Is sases, (1, Va. 14Wbirplilli And 1. hit J. Firow. Timtwel. Nyh. V. 1,11 10. It: 909111) OW meattafiled Ill W-PafikL III Kwwmi Ill 116111 V4,111,1114 WAS udw In sit 61@1 P'ttillillifla IIIYVIVWIJ(nt 14 ItIf WA-All" ilid tv Is 100 13 thu4 &-coca4itilc flit, IvAl-Lictmicul title I., -114fliviv. nre rtdtkvd tu FAIll. mild Ille .41111, wa. Ilk Ated itl,4%IV It A 141 muove orl"Ittlim Vot A 11ar of coo ibe mumbaralm-pWkies till calryly (ul) W N.Silu r. v. I *At ulmettled sumnalims depesiderwr with twu u2s. v Ima at 5 J"ati. v.. which ctmilif tir Interptriell as title rvmmobm. Ruk*Abuj Cmismw go 8 see, zoo 4 40 boo j-_I_ T- u 0 kv NO it r "a ,lo x 00-140 0" 0, 0, 0 l1a 410! 0 0 0 0 0 0 0 0 04 0 0 0 *to, 9 00 * 0 o, a go** go* '00 0 We 0 0 0 06000 go 0, : : : : : 0  , U I r LT-.,T@- @; -1 - -, I T ' 0 U CV! -, - a.- T. ; - r- u z W-, UM -,q. G. It Radium Institute Cyclotron: I, Arc Type of Iron Source," J Phys (USSR) Vol 8, 1944, PP 506-61. W-394, 20 Apr 48  ***$go *fee* **fee -A-- ",- 11-2-1 L-10, ja cr as -. - .. go go 00 4ooo9;;;e0ooo .(, Q, howfairwas pbs"One" lot 60 wattaing of aow "Ou go L. trwb4i Fit. Nawk is. =(IS646 Zn 770. -A tv,tcmmiv 4 the e%jIlI, 4IAtA SIMI lh@-114-41 I`tvijthl@"" ri, 0 so 0* go go - so A r 10 S L A of IAL&U*GK4L M1114160114 CLASUPKA1100 I- Ito.. 44-01@ T S.4j." .10 C., .1" Ill U 6 AV SO Itj@ -F-T s "'ll'townall all NOR 11101[111 left p 0 * 0 0 0 0 00 00 0 0 0 0 0 0 0 0 a 0 0 a -is 0000 0 90900006 .00 .00 doe Zee Ago Gas 00 soo 00 Ise As too  -C; t4 k" bon mcluvi ad" by t" ft*dn4 of - PAWY Abd. S.S.9. 930 pmdwu (mm the Aucku W(th t wee o IWW by wAvsedc "Wyde. .-The kd:b b i@ thkk4 d d etec m or a wen ayctt m y tt phm n- Web wm * b M w y mm y CA' Udaomon@_,. C. Ug, ad 0 we 3 1.1ted kvd. (,,. .glp 3.101. &M, aim". ej"j, 00 etky*M a kvpA (OLV. 0=1 SAM *Avh ad, Ug* adLRAted 23 (ay plergla: _ __7- 7 7-  MROmMHKO, L. 1-1. 11u; ,4&W �61@Fe Abstracts July lot 004 phy*� IMVMATION Of TKE ZNERGZTIC LEVELS OF TIM NUCLEI OrALUtMOUND Q992UY TIM WRTNOD OF MAGNETIC ANALY313, D*W Akad. Nauk &M.P. 04, 103T-491 Its" -b4rdod with 3-and 4-Mov d At targets wero.6Z _m;irg", and the aLpL20o #sner" war* anlyaW imi a magoetic Spacing . Twordy-olght proton groW were samigpeM to Uum Al"(d,p) Al" reaction. The Q value corroapoodW4 (a the At" ground date was measured an 5.476 Mov. Tito 5jectra of B" mul B" were also Investigated, am Utt Q values of the levels or* tabulated. (M.R.)  Z1. Al USSR/ Nuclear physics Spectral- analysis Card 1/1 Pub. 22 - 17/47,. Authors Khromchenko,@L. M. Title Ener*gy levels of Si-nuclei investigated by the magnetic analysia matkid .Periodical. Dok.. AN SSSR.98/5, 761-763, oct 11, 1954 Abstract The energy spectruTa of a Si-nucleus, in the zone of high excitation.energie Iso .was investigated. The method of magnetic analysis of nuclear reaction pro-, ducts, applied inthe study of the energy levels of Si nuclei, is, describedi' The targets in.this investiption consisted of Si of natural isotopic'com- position which were bombarded with a high energy pencil of deuterons with an energy of up to 4.4 mv.' ' The results obtained are shown in a table in re- lation to the@results obtained by other foreign researchers. Seven refer-;.,' ences: 2-USSR and 5-USA (1950-1953). Table; graph; illustrations. Institution Presented by: Academician P. 1. Lukirskiy, May 18, 1954   r\ v itwo f L%A-kht _nudd by the atethod GUM Oil -RIF- I I . 1 11 . .. a m 1,11. .4 L. M. rotwhenka. am "SLIT, T., , A S M, .7 WAS bombarded . MA e %ith @4 7- v. 'd uterons. The -were .-d hiv a,'magnetic field reactlon products M ctlected through an aperturif'on a ph phic plate. One lialf 1 0 1-1 of tht plitle was covend by in A I filter of variable thick-- nea. ca ble of "014j.douterond and ppslag rotons. i The Forowing excitation @ ktvl" - MAX.. were ottal"00, -CIO (from 40.0t) 3.107, imi. 8@0_ p"Ifrom'-wol-of mr) 02113, 3005- 3JWI M(front Ll@0) 0,476 (d.d*). 4. 54 (d p) , 6.6 0 54 - 0.977 (Wiii the reaction Lit Rg@. the-11"' Ifes has' been calcd.@as r014553); Dif 2 1 985i OAM'9278; Bit 0.040,,l.W4, 2.50, 2.1):22 (2.471), 2.005, (SIA71), 4.030.:4.M.,4.?37o-4.060, A.147j 5.341,-6410. '7.Mi.4- Al- OMNI, 1.1107, 2.1M, 6.097, 6.240, 0.542, 6,M, 2.574.-2.OM. 3.334. 3.W. (3.747),' 3.014. 4.Zni 4.469. -4.720, (4,883). 6.7M. 5.9011 0.148, 0.298, 0.438, 6.0% OM5. 7.013.@7.19?i 17.5m),IM; -475 ..Al" (d,p) Alm S. 010.6 M10 J.Zls. 2MS, * 416 3 083 3@w 4 0.453, 0."28. 'no: 7:6": FRI. The enniplicated I; tra. of MgN, Allil, MMIlk are Z4ibitted to the farina- t ron of a Ord layer ofletrons. S. n,  USSR/Nuclear Physics Energy levels of Li FD-2355 Ca@d 1/1 Pub.*i46 20/34 Author ; Khromchenko) L. M.) and Blinov, V. A. Title : Study of the energy levels of the lithium nucleus by the method of magnetic analysis Periodical : Zhur. eksp. i teor. fiz. 28, 741-743, Jun 1955 Abstract : By the method of magnetic analysis of the products of nuclear re- actions (method described by L. M. Khromchenko, Doklady Akad. If,--.Uk SSSH, 93, 451) 1953) the'authors investigated the energy spectrz,@'@ of the lithium nucleus, this method making it possible to obtain on a photoplate lines visible to the eye, instead of the locali- zation of discrete groups of particles. They present a repro- duction of photoplates obtained in the case of the irradiation of lithium oxide by deuterons; they also present a table of data for the levs-ls of excitation of @17* nucleus compared with data of others from the reaction Lio(d,p). They thank the late Academ-f-, cian P. I. Lukirakiy and also Professor Yu. A. Nemilov. Nine references, including 3 USSR (L. M. Khromchenko' DAN SSR, 94, B. S. Dzhelepov and L. N. Zyryanova, Uspekhi fiz. nauk 19 1 47, 5 Institution : Radium Institute, Academy of Sciences USSR Submitted : January 24, 1955  -- - ------- 7624.': UAGNE :ANALYSMMDYOPTf!]' HUY LE7ftj� 61@ NUCLFUS. L.WKhrorn.-fienko, Zh. ftspor. toor. Fit., Vol Russian. 4&A Th# rnA_=_etIr__a xlysts=L w"usedto-avestigate the jecargies of- the &atws obtAtned fa ft e (d. tt@j iP reaction, prOton jroto$ were recorded of w",h one corres- Ocauds; to the gemnd state asid the others to 20 cit. Hed levels of the S@s nucleus. Excitation one rgies up to 9. 2 MeV -ere investigated. Besides the 12 e=ltcd lev&IL previously known 8 new levels at high excitation energlea tv@re d.,- e, fvdA I  AUTHOR KEIROYAGHENKO L M 20 PA - 266o TITLE: inv@s' @ga @Wohhe Energy Levela of the F Nucleulo by 11agnetic Analysis. (Issledovaniye urovney yadra P me- todom magultnogo, axallxpq Russian) PERIODICkLi Zhurnal,.Fkkeperis. i Teoret. Fiziki, 1957, Vol 32, Nr 2, PP 194 - 198 (U.S.S.R.) Reasiveds 5 0957 Reviewedt 6 / 1957 kBSTRACTs The present work studies the level of P 20 within the domain of higher excitation energies and furnishes the not investi- gated interval between the hitherto known series of data. The method and the conditions of the exgerimenti The author here determines the level oigthe FZU nucleus by analyzing the products of the reactions P (dvp)P?O. The proton groups with different energies were separated by means of a magnetic field. The magnet of the same cyclotron that was used as a source of the accelerated deuterons for bombarding the targets served as analyzer. A thin silver foil, to which a layer of finely ground CeP powder was applied, served as a target. The resultaliven here are the average values of measurements carried out on 6 plates. Dlsoussion of results: Within the investigated domain of Card 1/2  PA - 266o 20 Investigation of the Energy Levels of the F Hucleun by Magnetic 1nalysis. excitation energies (of up to 6,75 MeV) the author-was able to determine 24 proton groups. The 24 groups characterize the ground state of the F20 nuglous and 23 excited levels. The levels of the p20 nucleus found here are shown together in a table. For the roaction energy W the reactions F'9(d,p )F20 the author'found the value (Zo a 4,383.;t 0,015 MoV. The onergy of this reaction obtained from the mass difference ,amounts to Q0 a 4,375 UeV. Comparison of the results found here with tho'so of other authors shows the following: Besides good agr ist of results in the case of most of the levels of th nucleus there ar6 also some discrepan- n cies which are more than measuring wrrors. In conclusion, these discrepancies are shortly discussed in detail. Card 2/2 (1 illustration'and I table) ASSOCIATION# Radiological Institute of the Academy of Science of the U.S.S.R. PRESEWED BYs SUBMITTEDs 11-T-1956 LUIURLEt Library of Congress.  . i KHR%IGHENKO, M. Michael Servotus. Zdorovie 7 no.12:26 D 161. (MIRA 14:12) (SERVETUS@ MICHAEL, 1509 OR 11 - 1553)  FalomellmKO, m. I%- Vitaminologiste in the shop. Zdoravle 7 no.8:13 Ag 161. (VITAMINS) (MIRA 1419)  KHROMCHENKO, M. StOrY Of medic1nal ampules. ZdorovIe 8 no.10;16-17 0 162. (SERUM) (VACCIM) (KrRA -15tl0)  KHROMC1041CO, H. A life devoted to Russia. Zdorov's 8 no.n123-24 N '62o (MIRA 15: 10) (.ERIM4AN.. FEDOR FMOROVjrH., .1842-1915)  mufflemop M. --- - - I--,.-- - . . . j, vrach You are worklng 'n-* hot wOrkshOPo SOTePrOfooluzy 19 nos2s3l la 163. (BEAT--PMIOIDGICAL EFnCT) (KMA 16 Q) I (331)USMUU HIGIM)  KTM,MCHT-,'IW, Mikball Andreyovich, m1adshiy nauchrqy sotrudnik Circuit breaker fnr disconnecting branches from d'c. power lines. Ixv. vyR. uchAb. zav.: elaktromekh. I no.6:im-124 158, (Knu 11:9) 1. Lnboratoriya pnotoyannogo tolm @Ioeknvskogo onorgetichnnkogo instituta. (Electric circuit breakers) (Electric power distribution--Direct current)  -KHROMCHENKO, M. In a genetics laboratory. Zdorovie 8 no.5ilO-11 My 162 (BACTERIOPHAGE) iMIRA 1595)  MOMOHICITKO, 14. S. * Banitarun vrach Sanitation problems In "Vodonnabzhenle I sanitarnala tekhnDm"; review of the periodical for 1957 and the firat half of 1958. Gig. I san. 24 no.6:83-84 Je 159. (MIRA 12:8) (UMTARY ING11MING-PRRIMICALS)  KELISIITBYN, js.Ya., sanitarnyy vr#oh; JMOMMMO, 14.S, sanitarnyy vFAch 1 -1 - ... .-- - @@easantv usefulp,*hygienic. Zdorovle 6 no.10,.24,,p .160. I - .(P4 i3:9) .(SVMING Poqros) . -... ''  EHROMCBENKOt H.S. Sanitary features of Moscow ponds. Gig, i san. 25 no. 6197 Je 160* (MIRk 1412) 1., Iz sanitamo-opidemiologichookoy otantoii Mookvyo (MOSCOWAUTER-POLLUnON)  KMWW4%wo 9 M. Swdtation problems in "Vodoonabzhohie i aanitarnaia tekhnikaw (second half of 1958 and 1959). Gig. i san. 25 no. 6:104,106- is 16o. (KM 24-:2) (WATER-POLLIUTION)  SOKOLCYVSMP'- M.S.; SKIDALISKAYA, R.I., sanitarnyy vrach; KHROWHMO, M.S., sanitanVy vrach 14becowle reservoirs and their imWovement. Gor.khoz.Mosk. .35 jid..7:20..21 Jl 161. (mm 14:7) 1. Glavnyy sanitarnyy vrach Moskvy (for Sokolovskiy). (Mbecov-Reservoirs)  4' AUTHDRS: Golldshtsyn, N.L.o Khromchenko, N.S. 32-ii-W60 TITLIt A Device for the Determination of the Ability for Regeneration of Agglomerates (Ustanovk& d4a cyredelenlya Yosstanovinceti aglonerstov) PUMMAL- Zavodsk@y& LabomtorlYa. 1957, Vol. 23, Nr li, pp. 1391-1392 (USSR) ABSTRACT: In this paper a device Is noosmanded which Is said to be adapted to the conditions of Industrial produotion. amples wers dealt with In powdez7 oonditi=6 As a regenerator-gas bydrogen was useds abich me cbtainad by electrolysis. As a cathode a cylindrical veseelp ddak could be so"t vu employed, the lateral parts of which were perfo- rated and covered with asbestos. Thus, the purest Wrogen, with = asnon content of not mors than 3% was cbtained. Purther purification in carried out by means of filtration with oopyer cadde powder and a tub* furnace. According to the scheme given the device comainte of 2 manostate (apparently a pressure stabilising device), a rbacmeter, a shiftable furnace, a qwLrts motion tube with 10 ma diameters a heaterp and a re-dating valve for the regulation of hydrogen =OILY, Constant supply of hydrogen is attained by fitting 2 manostats (see above). Uniform hosting of the aWle in attained by first heating a Card 1/2 shiftable furnace on me side, which is then pushed over the reacting  32-1 I-W60 A Device for the Determination of the Ability for Regeneration of Agglowerates tube containing the powdery sample. After beating of the sample gas supply Is tarmW on. The results are determined either according to the loss of wsiot of the sample or according to the increase of "lot of the moisture abooster. For precise weighing the "AAD-200" device Is zvoommended, In practice the following experixiental data were doterodned: aulainomtion powder sample 2 go temperature or the shiftab2o fiamos 6600o duration of regeneration W minutest gas om- sumptim 285 KVmin, duration of mperiment 35 minutes. 'Then In I fig=* and I 82avio Worenos. ABSOCIATICKs Magultoprok lutitute for Mining and XotallurV ImW G.I.Nesay (Napitogankly gorna-metallurgidwakLy imstitut I& GeLlosova) MnAils i4brary of Congress Card 2/2  SOV/ 137-58-8-16379 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 8, p 22 (USSR) AUTHORS: Gol'dshteyn, N.L., Khromchenko, N.S. TITLE: The Reducibility of th@,_MagnitogZ"rsk @ggo@nerates (Vosstano- vimost' magnitogorskikh aglomeratov) PERIODICAL: V sb.: Domennoye proizvodstvo. Moscow, Metallurgizdat; 1958, pp 3-15 ABSTRACT: A rapid method of determination of the reducibility (R) of agglomerates with electrolytic H2 (0.37o 02) was investigated on the installation of the Magnitogorsk Mining and Metals Insti- tute with a horizontal quartz reaction tube 10- 12 mm in diam. at 500-6500C, 0.132-4.75 cm/sec speed of the stream of gas, a powdered 2-g test sample and ten-minute duration of the ex- periment (30-35 min. with the auxiliary operations). The in- vestigation of the R of powdered test samples of agglomerates (125 specimens) with 50.7-61.75o Fe, 12-29% FeO, and a basicity from 0.25 to 1.58 (R from 27 to 481o) shows that the powdered weighed sample obtained by the pulverization and the cutting down of the initial sample of the agglomerate is Card 112 more representative than the weighed samp, e of the coarse  SOV/137-58-8-16379 The Reducibility of the Magnitogorsk Agglomerates fraction of the same sample. The rapid method of determination of R can be recommended for mass -production tests. The variation in the FeO con- tents of the agglomerate has a greater effect on the R than the variation in the basicity. A relationship exasts between the R of the agglomerate and the Fe2+: Fetot content ratio in it. Bibliography-. 17 refere e's. N. L. 1. Ores--Production 2. Hydrogen--Performance 3. Ores--'Fest results Card 2/2  S'@V/133-58-7-2/29 AUTHORS: Gollclshteyn, v.L., Candidate of Technical Sciences, Docent and Khromchemko , N. S. 3Asl@istant TITIE; Properties of Fluxed Sin@er-(.zaq-@Fo@-tva oflyusovannogo aglomerata) PERIODICAL: Stall, 1958) Br ?, PP 586 - 593 (USSR) ABSTRACT: The investigation was carried out in order to determine concentrations of combir-ed iron oxides in various sintcrs by a method of reducinE under moderate temperature conditions and in order to obtain kinetic characteristics of the re6uction process. About 100 samples of industrial sinters, mainly fluxed, from Magnitogorsk and Krivoj Roocr ores of various chemical composition (Table 1) were tested. The reduction experiments were carried out on powdered samples wi@h hydrogen as a reducing medium at a temperature of 600 C. The apparatus, experimental procedure and the method of treatment of the experimental results were previously described kRefs 1, 2 and 3, respectively). The proportion of oxygen in iron oxides which are combined into complex compounds and solid solutions was determined as an addition to 1OCfl@ reduction of the final stage of reduction after 150 minutes of the Card 1/4  'Fropertie..- of irluxed Sinter SOV/133--8-7-2/27 'duration of an experiment (Tables 2, 3 and Figure 1). The ,,reduction rates were determined on the basis of the con- sumption of hydrogen (ml/min) and the reducibility of sinter was characterised by the apparent velocity constant. T-hie latter was determined in the time inti@rval at the -`-@Oth minute after the beginning of an experiment (at 30-5C% reduction) which was determined from the equation: k dB 20 1 (2) d't 1 - B20 where k - apparent velocity constant, -t@ - time from the beginning of experiments and B2. - the degree of reduction attained at the 20th minute from the beginning of the experiment in relative units. d B20 / d--v, was graphically determined from the velocity curve (Figure 3). It is pointed out that the use of the above criterion for the comparison of the reducibility of sinters is justified as it reflects the rate of reduction of sinter up to about 700/6, which is sufficient, as the proportion of indirect Card2/4 reduction in blast furnaces does not exceed this value.  Properties of leluxed Sinter SOV133-@)8-7-2/27 The relationship between the apparent velocity constant and basicity, reO content and (Fel**/totual.Fe). 100 is shown in Figure 5 and kinetic characteristics of some sinters are given in Table 4. It is concluded that: in sinters, iron oxides are present in two sharply differing states - "free" and "combined". The concentration of ticombined" iron oxides is determined mainly by the concen- tration and the composition of gangue materials in sinter and is practically independent of the content of FeO, providing it does not exceed 22-25%. The proportion of oxygen in "combined" iron oxides usually does not exceed 10-12% and is independent of sinter basicity. Combined iron oxides in sinter are reduced in blast furnaces by direct reduction (by indirect reduction, which removes less and 62-67% of oxygen, only a part of free oxides is reduced). The reducibility of sinters is primarily deter- mined by the state of free iron oxides - their abSOrDtion chemical activity and accessibility for interaction with gases. These factors depend mainly on the temperature - thermal level of sintering process and the proportion of Oard3/4 gangue which can be approximately evaluated by the proportion  Properties of irluxed Sinter SGV/133-58-7--2/27 of divalent in the total iron content of sinter. The content of :EbLylite and other complex iron-containing minerals is not directly related to sinter reducibility as its kinetic characteristic. The relationship between these two factors is observed only at an excessively hij@h- temperature thermal level of sintering procesn during which the proportion of divalent iron and the anount of combirlpd iron oxides is simultaneously increased, A cLange in t1lie basicity of sinter has little direct influence on its reducibility. The dependence observed in practice can be explained by the fact that an increase in basicity as a rule is accompanied by a decrease in temperature-thermal level of sintering. There are 4 tables, 5 figures and 18' references, 2 of which are English and 16 Soviet. ASSOCIATION: Magnitogorskiy gorno-metallurgicheskiy institut (Magnitogorsk Mining-metallurgical Institute) 0 1. Si4ering--Effectiveness 2. Sintered iron oxide--Analysis uard 4/4 3. Hydrogen--Applications  GOLIDSIIPLY.klj@ N.L.; -. Reaction of water gas in blast furnace conditions. Stall 25 no.3:197-200 Mr 165. (MMA l8s4) 1. Magnitogorskiy gornometallurgicheski.y institut.  WROMHENKOP O.M. Statistioal evaluation of antiepidemic vork of a sanitary and spidoddlogioal station. Zdrav..Ron. Feder. 7 no.6: 27-30 J9,163. (KERA 17:1) 1. Is kafedry organizataii sdravookhrananiya (sav. - prof. N.A, Vinwaday) TSentrallnogo instituts, usovershenetvo- VWdya Tmebby.  OSIPOVA, T.N.; PZTROV, To.A,,, FARBMVA, B.P.; RRq@qHWKO Y.T.-_VBSXMNA. A.A., red.; NIRMOVA, N.A.. takhn.red. [Mumemm of Industrial Safety of the All-Union Central Council of Trade Unions; a demoription.of szhibits) Nusei okhrany' trade VTsW5.;,opleants, skeponato-ve lad-To VTsWS Profisdate 1936. 22*9 po (NIU 12:3) (Industrial safety) (Moscow-Inaustrial musawn)  L 24221-66 LVT(m)/EWA(d)/LW(t) -rjp(c) TOW ACCNR- Ap6oO5281 SOURCE CODE: UR/0413/66/000/001/0023/0023 INVENTOR,.;" Rodina, A. .@. j, Doronicheva, N. Illin, N. S. Khromchinko--, Ye, F, ORG: none TITLE: Devic for the fine purification of hydrogen. Class,12 No. A 2_=414. announced by the State Scientific Research and Planning Institute-ro-r the Rear-Metal Industry GosudarstXenTn@ auchno- iSBledovaUellskiv I DroveRE Inatitut vAdknmat .TT SOURCE: Izobretenlya.. promyshlennyye obraztsy., tovarnyye znaki,, no. 1, 1966, 23' TOPIC TAGS: hydrogen, hydrogen.purificationj, hydrogen filter ABSTRACT: An Author Certificate had been issued describing a hydrogen-- refining purification device containing a filter diaphragm made of metals or alloys possessing selective penetrability for hydrog,en.P' To prevent the penetration of impurities from technical-grade TUar-ogen into pure hydrogen through leaks in the filter diaphragm and to make possible the rapid detection of such impurities, the filter diaphragm is built into an air-tight'housing maintained under vacuum.(see Fig. 1 uDc: 66-:o67.23 - 66i.965 j Card JL2   SMOV, ru*A.; CHIRNOV, G.M.; LAVRUKHINk, AL.K.; KHROMCHENKO, Z.V. Investigating neutron-deficient isotopes of osmium. lzv.AR SSSR.Ser.fiz. 24 no.9#1119-1123 3 160. (HIPA 13:9) (Ommium-Isotopes)  WRLTHIPAP'S A.K.1- YUKINA, L.V.; MOMUMO, Z.V. I Extradtion of rare-earth elements. Trudy Kom.anal.khis. 14:202- 206 163. 1 . (Mr-A ;6:11) I  LEVIN, A*S., masluzhennyy vrach RSFSR; RR-@ Goiter of the radix linguae. Vestootorine 22 no,5t69-70 5-0 060. (KMA 13 t1l) I* IZ-Hookovskogo mmu go otorinolaringologicheakogo otdeleniya I detskogo lechobno-Mofilaktichookogo obO@redineniyav Krannoyarsk. (GOtTMQ (MMlUZ-DISWW)  KMOMCBEK, B. I. Amount of vitamin 6 and its use in surgery in children with , tonsi3litim. Vest.otorin. no.6s35-39 161. (MIRA 15:1) 1. Is otorinolari glebeakogo.otdeleniya 1-go detakogo boll- niebzio-polilrliinichookogo,obwyeaiianiya i kafedry biokhimii (zav. - prof. I.I. Kotlyarow) wditsinskogo inatituta,, Krasnoyarsk. (ASCORBIC ACID) (TONSILS-DISEASES)  S/08OV60/033/008/014/022/XX D213/ '304 AUTHORS: Leshek, F., Sytarzh, N., and Khromechek, R. TITLE: Methods of producing ion-exchangers by globular polycondensation PERIODICAL: Zhurnal prikladnoy khimiig Y. 33, no. 89 19609 1745 - 1755 TEXT: The paper begins with a detailed review of literature on the development of ion-exchange resins and their uses, The purpose of the investigations reported in the paper was to study the effect of operating conditionsg particularly of mixingo on the production of copolymer globules by polycondensation and polymerization in suspensions. In the experimentog a 29-liter reactor was mostl used, some experiments being made in larger (65 and 180 liter@ onesp in each case fitted with tubes for temperature measurement@ Globule diameter of the product was determined using the equation; Card 1/4  S/080/60/033/008/014/022/XX Method of producing ion- D213/D304 d = d dixi (2) op 100 where di is the arithmetical mean of the diameters of the holes in this si'eve used (in mm.) and xi is the gravimetric proportion of the appropriate fraction retained on'the sieve (%). The mixer dia- meter varied from 100 to 400 mm and reactor diameters were 300, 390 and 600 mm. Mixer width varied from 0.,225 to 0.375 of its dia- meter and its slope was constant at 450 to the horizont-al. The den- sity of the disperse phase was within the range of 0.86 - 1,61 at 200C. The liquids used in the experiments were xylol, monochlorben- zeneg o-dichlorbenzene, tetrachlorethane and mixtures thereof. The relation between globule diameter and the following operating fac- tors was examined& mixer diameter, mixing speed (rpm)p density ra- -tio of dispersed to disperse phase, volume ratio of the two phasesq mixer efficiency, Reynolds number, Weber number. The following for- mulae are derived which summarize the results@ Card 2/4  B/080/60/033/008/014/022/n Method of producing ion- D213/D304 tz 1.9 1 D where d - globule diameterv T - reactor diameterg D - mixer diame- ter, d = k2N-o.65 (4) for large diameter mixer (N - rev/min.) and cationite FN, d = k31-0.80 (5) for mixers of smaller diameter, cationite FN. d = k4N-2.0 (6) for anionite MFD, [Abstractor's notea ki, k etc. are constantsi-I Pormulae in similar form are derived to rephsent the other rela- Card 3/4  S/080/60/033/008/014/022/XX Method of producing ion- oaa D213/D304 tionships with operating data and are shown in a series of curves* There are 13 figures and,26 referenceog 3 Soviet-bloc and 23 non- Soviet-bloc. The 4 most Tecent references to the English-language publications read as follows: E, Trommadorf, Makromol. Chem. 19540 V. 139 76; Th. Vermeulen et al., Qhem. Eng. Progr., 19559 v. 51, - 85 F; N.A. Rodgers el alq ibid., 1956, v., 529 515; Van de Tusse, Chem. Engo Sci., 1954, v. 4v 221. ASSOCIATION: Issiedovatellakly institut sinteticheskikh smol Chekhoslovakiya kResearch Institute for Synthetic Resinsq Czechoslovakia) SUBMITTED-. March 149 1950JAbstractor's note: 1950 probably mis- print for 1960J Card 4/4  GLADENKO, 1.N.; PROSTMOV, A.Pel FORTUS1114YYI V.A.; KHROMMO, L.I. Biochemical changes in the blood of rabbits Jn experimental hexachloran poisoning. Farm. i toks. 26 no.IsIO8-113 Ja-T '63. (MIRA 17:7) 1. Otde-1 farmak-clogil Ul@rainskcgc nauchnc-issledovatellskugo instituta eksperlmentallnoy veterInarii.  KHROMENKO, V.I. @chi@evements in socialist competition at the Magnitogorsk cement plant. TSement 27 no.4:31 JI-Ag 161. (MIRA 14:8) (Magnitogorsk--Cement plants)  S/078/61/006/003/012/022 B121/B206 AUTHORSt Zvyagintsev, 0. Ye.t Khromenkov, L. G. TITLE: Composition of thorium compounds with malic acid PERIODICALi Zhurnal neorganicheskoy khimii, v. 6, no. 3, 1961, 593-60o TEXTs The systems thorium nitrate - malic acid - water, thorium nitrate - acid sodium malate - water, and thorium nitrate - sodium malate - water were studied by determining electrical conductivity, pH, and by potentiometric titrations. Two types of complex compounds of thorium with malic acid with a ratio of the components of 1 s 1 and 1 : 2 were found. These complexes exist in different forms, depending on the pH. Determination of the trans- ference number disclosed that thorium migrates to the cathode in an acid medium at a ratio of the components of 1 : 1, and to the anode in a weakly acid medium at a ratio of the components of 1 1 3. It may be seen from this that in the compound with the composition I t 1, thorium appears in the com-. plex as the cationg and in the compounds with the composition 1 : 2, it is V in a complex anion. The following thorium malates were sythesizeds Card 1/4  S/C-18/61/006/003/012/022 Composition of ... B121/B206 (ThOH )2 Mal 3 *4H2 0, Na2Th(Off) 2Ma'2* 4H2 0, and NaTh(OH)Mal 2 * 6H20. Two methods were used for the production of basic thorium malate (ThOH)2Mal,,4H2 02 methyl alcohol was added to an aqueous solution of thorium nitrate and malic acid. Basic thorium malate was obtained in the form of a white.amorphous precipitate which was washed out with water and acetone and then dried at 1000C. In the second method, an aqueous solution of thorium nitrate was ad- ded to an aqueous solution of sodium malate in a ratio of Th(NO 3)4 t Na 2Mal- 2 1 3. The composition of the compound with (ThOH )2 Mal 3 '4H2 0 was deter- mined by chemical analysis. This compound is insoluble in water, alcohol, benzene, acetonep and other organic solvents; it is decomposed when treated with mineral acids. A stable complex compound with a ratio of the compo- nents of 1 t I could not be isolated in an acid medium. At a ratio of the components Th(NO 3)4 1 Na-malate- 1 ; 3, and at PH - 4, a white precipitate of the composition NaTh(OH)Mal 2 - 6H20 results when methyl alcohol is added. This compound is comparatively easily soluble in water, but insoluble in Card 2/4  Composition of ... S/078/61/006/003/012/022 B121/B206 alcohol, benzene, acetone, ether$ and other organic solvents. Mineral acids destroy this compound. No thorium hydroxide can be precipitated by adding alkali lyes to the aqueous solution. The following structural formula is suggested for thorium malate with a complex anion and cation: coo COO-_@'_ ----OOC H CHOH\@ H 0 CHOI---,T, hH_ I 'a I II I I I H20 CH Th