SCIENTIFIC ABSTRACT SHUMKINA, O.B. - SHUMKOV, YE.B.

,7 3ll*,!,-G'il'.'A, C~ L li . '. r,~ "I', mbr-fonic Development of the Medical Leech." Sub 4 MRY 51.9 Moscow Order of Lenin State U imeni M. V. Lomonosov. Dissertations Dresent-~d for science and engineering degrees in Moscow during 1951. SO: Sum. No. 4!!0, 9 May 55  -vine -u "jO-t: Of ~e tlarl 353  Deve -,Tre ni n.,--t T-'ctann-,r--;~ -,si L.-i in--, of a, Mr-i cj~n eech 7? Inst r-)f Anin-al M A. Scavprtscvl to w3a  :' ' -TTl.,** - ' - ' , . D . `1 1 i -e. Embrionic B-,..nd --ami the `:ead -,Iixlir-rent of the Y~edicllnal Leech." 7 - ' k , , - - -'I )~Jkll. Ak 7S, 4, 1~ -51 , P', -24 , I- ".  GTRSPL Vol. 5-No. 1 Jan. 1952 !,I k,. -, , ( I,A-r.~tory ,f Cmi.1-r..t, , , , . A. ~- Sc~ ert .,v In, tit,it, ,i ~ '. , !, I pl- I," -~ , 1;.~; -, R A, -1, #,,y ,j ,,, i, , - - ), P, ri-j, ,t 1,-, I,,pt--nc ..t gt., 1- ~!., I . . I I.?, th" -, Akedemlys Neuk, S.S.S R., Doklmdy Vol. 78, No. 4 1 grl I  SHUMKIIIA, O.B. --- .... ..... Embryonic devel:)-iient mei~iciaal leect,,s. Trud.,- Listu.morff.zhiv. no.8:216- 27q fc:3. (mm"i , -- 9 ) .J. 0 (Leeches)  SLrLTMKINA, O.B. Development of embryonic discs and mesoderm formation in Karakul sheep. Doki. AN SSSR 103 no.LL:741-743 Ag'55- (MLRA 8:11) (EMBRYO, germinal disk & mesoderm in sheep)  Farm _LnLaaals. 3ziall Horned Stoc"~'. r1-3 -*.bs Jour: Ref Z-hur-!3iol. , Yo 23, 113-53, 10556 3. uthor : Shu.,, k-ina, Inst : Fn_s_t_'1_tuta of i'lorphology of Animals, -,S US~~')R. Title : Periodization of the Early 33tages of the Diev- elopment of Karakul Sheep. OriE- Pub: Tr. In--ta raorfol. zhivotnykh. i~.!' 1957, vyp. 22, 157-132. .~~bstract: L'. study was conducted on 116 embryos of the _-lac_!,: 1'~arakul sheep. The age of tlhic --idbryos -was counted from thc, tim-C of covc~raga u-p to slaught- ering. The measurements wo-re eff---ct--d on fixad material. The early cubryonal in sheep lasted 29 days. It was found that tais - eriod, as in cattle, is divided into 5 stages. The Ist  SqUMKINA, O.B. TIC.rmus develoyment in the cov. Dok1. AN SSSR 112 no.2:363-365 Ta '57. (XLRA 10:4) 1. Instit-at morfologii zhivotnykilim. A. N. SevertsovA Akademii nauk SSSR. Predstavleno akademikom Ye. N. Pavlovskim. (Tbymus gland) (Embryology--Mammals) (Cows)  17(4)i 300) SOV//2o-"27-2-69/70 AUTHOR: S h-amk in a0. B TITLE: The Development of Mesonephros in the Embryonic Period of Sheep and Cow (Ovis aries and Bos tairus) PERIODICAL: Doklady Akademii nauk SSSR, 1959, Vol 127, Nr 2, pp 477 - 46o (USSR) ABSTR_kCT: In order to explain the reasons of the changes which occurred in the mescnephros of ruminants it is necessary to investi.gate its development course in different representatives of these mammal group. The anterior section of the mesonephros has apparently a special structure in all ruminants since it be- comes an enormous complex. This circumstance enables -their embryos to begin with the secretion very early. The experi- ment was carried out with dated embryos of the karakul sheep (27 embryos) and undated cow embryos of a meat-supplying race (11 embryos). Several cardinal development stages of the rnesonephros were selected in order to make possible a more convenient comparisoni 5 t a g e; a) o f t h e m e s o n - e p h r o s r u d i m e n t; b) o f t h e b e g i n n i n g Card 1/4 o f i 1-1 sf a n c t i o n a 1 a c t i v i t y; c) 0 f  The Development of Mesonephros in the E-mbryonic SOV/2o-127-2-69/70 Period of Sheep and Cow (Ovis aries and Boa taurus) t h e b e g i n n i n g o f t h e a c t i v i t y o f t h e Id a 1 p i g h i a n b o d i e s; d) o f t h e h i g 11 e s t d e v e o p m e n t o f t h e e n o r- m 0 U s c 0 m p 1 e x e) o f t h e b e g i n n i n g o f t h e m e s o n e p h r o s d e g e n e r a t i o n. The comparison of the development of the mesonephros of the two mentioned animals with that of other animal groups (Refs 3, 14, 15v 17) enables the author to draw the following conclu- sions: 1) Mesonephros is in the ruminants probably produced on the whole at the expense of the mesonephros rudiment; only the first canalicules of the enormous complex mi.ght be an exception. They may be formed from the rudiments of the pro- nephros. 2) The peculiar development of the blood circula- tion of the enormous complex may be regarded as new formation which is connected with the specific development conditions and an early beginning functional activity of the mesonephros of the ruminants. The differentiation of the nephrogenic cord (nefrogenny tyazh) and of the vessels of the enormous comnlex occurred here in 7ery early sta--es. 1*1 that time the pro- and Card 2/4 mesonephritic rudi.,:-.ents are not yet individualized and. are  The D e v e 1 c~pm en t of iulp- s c, rieph rrjs in t h e Emb ryor-, i cSOV/2o-127-2-69/70 Period of Sheep and Cow (Ovis aries and Bos taurus) kSSOCIkTION: Card 3/4 connected with 'the part of the mesoderm middle plate which is consumod for the formation of the blood vessels , 3) The moment of the beginning of' the mesonephros rudiment of mammals, its stricture, and the be:~in of the activity 4S closely con-- nected with *be structure t,,pe of the -placenta. (aef 9). The late implantation of the foetal membranes ~in the last 1/3 of the embryonc period) of sheep, co-.,;,. and pig (Refs 1,2,A-01, i8) is assumed to be the reason of an early mesonephros deve- lopment. The adap-tationto the last circumstance proceeded in the ruminants and non-ruminants in two different directions (Ref 16). The rapid growth of the allentois in Artiodactyla is not so much connected with 'the beginning of the mesonephros function, but serves for the establishment of a close contact between the extremely long foetal membranes and the uterine wall. Allentois serves, moreover, as deposit for nutritive substances (Refs 11, 13, 19). There are 19 references, 5 of which are Soviet. Institut morfologii zhivot--ykh im., A. N. Severtsova Akademii T nauk SSSR (~nstit,-ite of' Animal Morphology imeni A. N. Severisov of the Academy of Sciences, USSR)  SilUl,'.:dNA, 0.13. anbryonic Period tn the developmrmt ol- K--ra!ml s, cc-,-. morf. zhiv. no-30:192-24r/ '6C. (F~tbryolog-y--4~.',a:.,i,:.a--i s) (K.~a!-,U sheep) Trudy Inst. I (11'IF~', 14:2)  SHUMKIIIA, O.B. Development of the embryonic sac in Karakul sheep. Trudy Inst. morf.zhiv. no.33--124-133 160. (MIRA 13:6) 1. Institut morfologii zhivotnykh im. A.N.Severtsova AN SSSR. (Karakul sheep) (Embryology--Mammals)  SHEN, R.M.; SHUYLKINA, O.B.; VANAG, K.A. Ultrastructure of Babes - Negri bodies. Vop.virus 7 no.4:55-59 Jl-Ag 162. (MIRA 15:8) 1. Institut virusologii. imeni D.I.Ivanovskpgo AMN SSSR, Moskva. (ELECTRON MICROSCOPY) (NERVES) (BRAIN)  VANAGY K.A.;__SHUMKINA, O.B. Staining of thin section8 of nerve tissue embedded in methacrylate as a control for studies with the electron microscope. Vop.virus.7 no.5:619-621 S-0 162. (MIRA 15:11) 1. Institut virusologii imeni D.I.Ivanovskogo AMN SSSR, Moskva. (ELECTRON MICROSCOPY) (METHACRYLIC ACID) (STAINS, AND STAINING (MICROSCOPY))  B LY U CIER Anatoliy .-edomvich; 13EZFI(OLZIVAPINYY, boris Nonstantinovich; KLII-,'i3OVSKIYY, Aleksandr lvanovich; -SITNIEL 1111 IKOVA, Mariya Petrovnia; SM-TIHIIA., 017-ga Boriso-vrna; 171YIERSKAYA, 0., red. [Fine structure of the liver in some pathological processes; an electron rde=scopy atlas] Tonkaia struktura pecheni pri nekotorykh pa-,,ologicheskikh protsegsakh; elektronnomi-krosko- picheskii atlas. Riga, Izd-vo MI Latviiskoi S&R, 1964. 165 P. (KIRA 17: 12) 1. Kafedra infektsioraVkh bolezTley Rizhskogo meditsinskogo instituta (for Blyuger, Sinellnikw,.). 2. Universitet druzhby narodov im. Patrina Lurmnrby (for Klembovskiy). 3. Institut virusologi- AMN SSSR (for Bez,,rozvannyy, Shumkina).  - -NAP O.B. PO?aC)VSI:IY-, A.A.; ARCHAKOV, A.I.; DIEVICHENSKIY, V.11.; SHIUMIKI 14 Miaterials on the distributd-on of al"dolases, transam"nases and esterases in liver cells. Dokl. AN S-SSR 158 no.2:474'-176 S 16". (MIRA 17:10) 1. Predstavleno akademikom A.N.Bakulevym.  BE2',PR(VI-PNITYY, .6.K.; LHUN'RINA, O.B.; SUIENDY.A.YE'VzI, MI.Ye. (Mosl--v,-,) So-called ballo~.;n dyrtrophy of liver ceiiss in qt;idemic ~.epjutitis. A--kh. pat. 27 no.1:67-74 165. (MIRA 18:4) 1. Laboratoriy~~ owtomor-fologii (ispoln'-flyuslich-fy ob~yazannnstj zaveduyushchego - kand. med. nauk B.K.Bezj)z-ozvuruiTj) Instituta virusologii im~-ni D.I.Ivanovskogo (dir. - pr-f. V.14.Zlidanov) iV,'N S.;SR i laboratori-ya deystvitelt-o-o chlfn M-IN S-'-'SR prof. 'fe.M.Tareyeva.  BEZPROZVANNVI. B.K.; SHITMKINA, O.B.; AFINYAN, V.M. (Moskva) Changes in the ultrastructure of human hepatic cells in --hyrotoxicosia. Arkh. pat. 27 no.8:64-66 165. (MIRA L8710) 1. Taboratoriya patomorfologii (zav. - kand.med.nauk B.K.Bezrrozvannyy) Instituta virusolo-aid imeni Tvanovskogo (dir. -; deystvitellr-yy chlen AMN SSSR prof. V,M.Zhdanov) AMN SSSR i GorodskaYa infektsionnaya kliniches~raya bollrdtsa No.82 (glavnyy vrach - kand.med-Pauk Aj. Yeremyan).   L 14397-65 ACCESSION NR: AP404,629.0- J, caught in a vieak state-of - aiv_ i -is 0.5%: ttle a fthe tota:l:lntenslty, ~~_. Orig. art. has; 3 f i gures and - i -f ormul-as- - ASSOCIATIO N* Radiofizicheskiy_ Ins,tit'ut- pri- gas u4 a ra tv'e'ft-~ nom.univer sitete (Radio0hy s-ical ,.In St'itute~-.' Gorki~ S"te_l'..Un_tvetslt0.---- Y SUBMITTED: '17Apr64 ENCL. 00 SUB CODE: AA N 0 bo 1'~l REF, SO V: ,-0001 .,OTHER: 'Card 2/2   -,~Ii'bcn a  00 0 0 9 0 0 0 0 0 a 0 0 o 6-0 ---,a -[~-* - 0 0 0 0 0 0 a 0 0 0 * 0 0 0 0 4 0 0 0 0 0 IC It 11 11 14 11 7, 'A 1. x 11 2~ :7 A 0 L it W III k V M V t: .1 LS 0 a 0 00 -00 0 * -so 00 -00 00 Counter ruessure, against color and time salts its sugar products. D,.F,.;jhumku,v~- 00 8 J, Nuta, Ind. W. S. S W) 5, 613-23(11`131): Supir AbJ1rdC11 (in Forts Atntut - iittir' -00 27. 416 ',-Among much nicamuc4 aicz (1) rapid work in the diffusk-r-4. the ImAtcIrv *0 Cycle 6-Ing limited to 4.1-65 min. with max. of 60 min.; M operation of the iliffei%ion -11110 00 itattt-rv at a 4-miewhat lower temp. (this method, however, involv" a %ornrwhat hilthrv -00 ign. when tcrts of poor quality l,m% of sogar in the pull), but toward the end of the campa 00 are bring work-rd, the 1-, of sugar by using low diffu%ion trinp4. may be much 1r%.4 titan 00 the lo" in fit,- final ni,,la-". from higher diffusion tcmp~.); M) control of the natural b1 i i 00 e ta ce at sonic su ;ilky. of the juice 1,y of so&: And (4) sulfuring of the ju ,t;tRr in the procr-ii. The most buitable stage has been the ~ubjtvt of much disputc- 00 Sulfitation of juice firinn the 2nd carbonation is irtrutional for 3 rrusons: Ca.SCh i% =00 00 more sol. in thin itzit-f- than in Sirup and increases the subsequent incrustation Of thr rvuf~)rators: the drc,ditriziug effect is partly nullified in the juice )toiler and evaporn tor%. -moo C 0 and twife S is rcquir-1 %when the juice is alk. The use of S is moat effective whrn it i, 1 -;:0 0 1.0-6.;". applied to the thick juice. the amt. of S here %hould be sufficient to reach a pit of 1 afts-ir which the reaction is restored to pil 7.5-7.8 bv addn. of %Oda. G. G. -J 0o f 00 00 .100 00 00 06 S L A 0 ;~e 0 ~-O- I 'zA I 0 ~ 7 , D 14 ti V. ii .1 r'HL3 A " 0 4 0 0 0 0 0 0 0 0 0 0 0 G 0 6 0 0 0 4 0 0 * 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 * 0 4 0 0 a 0 0 0 0 0 0 0 0 0  0 Is 'W W P 'W 0 J J 4 5 6 1 1 0 -1 11 Is 14 is 1. 111& "XIII a )d 21 26 V X 29 1 15 M ly All JR 4.1 Q 43 45 A it I a It U IF AA IX 00 .; so 00 -0 0 00 Experiments with suffocarbonadon applied to sirups and remelts. B P.Shu!~k 0v. 00 (11. S. S. R.) S. OTI-701XII); Faili AboutSular27. 4 ~T I 00 J,.t c"rJ ..21alp'n lucV. thick juice and remelts the prtniuct was h.1 led I., 111Z and 1-00 %restell fly one X, methild'I: (1) aft" wildn. of wxlu tile %vin was sulturrd to an acid -00 11 Is% pht-nol ph t hulvin still cresill felt, CIAO was addeit "fill tile hquid was carbon- fractio Aited with C(.4. -hereupon (lie Product was divided Into ;-' 1-ftions. one of wh,4-h was -00 00 sulfured before and the other after filtration; (2) all the fmrgoing operations were -00 00 performed exct-pt the aildn. fit sfK[a; (3) as in the Ist method, but substituting Cao for me 0 soda. Conclusions: Carlmlsulfistation is of distinct value in sugar manuf., bmauve color 0 00 31 may be impv~vcd Wrc*. purity increased by 1.0"I.P. and the quantity of time salLs 041 decreased by 70%. The best results were given by the following procedure: the ju" ze 0 or sirup receives an addn. of sofU corresponding to the amt. of CaO presc 1 0 nt; the liq"T 00 is then gassed with 0, CaO to the amt. of I to 2% on sucrm,;e is added. and the liquid is 00 treated with COT to a PoH of 9.0 or 8.5; thereupon the liquid is reheated and sulfured to zoo p" 6.8-7.2. Sulturing the unfiltered juice results in an increase of color. It is much so r-o 0 better to apply this process to the thick juice or remelt than to the thin juice. because in zoo so the latter met hod there is more likelihood of corroding the beating surfaces. Ingeneral. the decolorization achieved by this process is permanent. G. G. aeo 1300 0)11 "00 -_-oo too AS.-SL,I ETALLURGICAL LITERATURE CLASSIFKATIOm lo* o aK If- Lil 1 W S a 04 0- -PI I X of 43 a if T 4W, U 19 AT It OP M IN if It U K CK ft It 0( A I .7.X d"43'. 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 6 0 0 0 a 0 0 0 0 0 0 0 0 a 0 o 0 6 0 0 0 a a 0 a 0 0 01 o o 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 * 0 4 0 0 6 0 A a 0 0 0 0 0 a 0 0-0 0 0 0 0 0 0  v a Its ) & #1 .2 o 0 EO s 14 is it x I )I jj n JA JS 16 V X 29 b~ Is M &1 14 b I Is v , . - A 7 1 L 11 11 11 0 AD Stamidard alkalinity and removal of Calclum "Its. A. St I'MIP'NIC PINT-Iff AND 11, 1- u Kov. Na uk Zapiski Ttakrinvi Prom. 14, 407, Its caw ' .( 1". it i'l a , 00 alky Ivi%able to acid wxfa to the juicr at the %-oind sit-fecutim, sit the prol,cwtion to -,f two Illols ' ' I JKXLL W 1 11101. Of CIAO. Illa"11V hx, 1-11 prol"ligs,'I the in 00 Ca i-% vv r y noticv 1e, txjil ng of he ou'Wellite lsq~olll" dillicult and the Yield of 06 V, F- 11AIKOW 00 It ze 0 00 =0 0 - ~0 Fee 19 1 0 z0 i6o I : E-Z S L A &jTALLURrKAL LITIFINAtLANE CLAWFICATICI, C.i 11 Al In EV n, it or K At 000 0 0 o 0 a a 0 0 Ole 0 94 00 0 0 0 0 0 0 0 0 0 e, 0 0 6 0 0 0 0 0 o a 4 0,0 0 0 0 0 0 0 0 0 0 0 0 0 0 0000,00 0 0 0 0,  r a R I I U --A T Z AA a A 1 he color of sugar factory products " a factor in sugar campaigns of long duration. -00 00 A. M. P51IFNICHN1,11 AND B. P-SnumKov. Nauk. Zapi3ki 7'-ukrurvi P,o. 14. 4-21410 -00 00 ir (IMI).-The coloration of juices. sirups and ma%secuites irIerta-cs sometimes 3 or 4 -410 00 R tinlcs whcn the duration of the campaign is prolonged. especially when rotten [vets i high n invert sugar are worked. The cohor of the products depe nds on their alky. -00 go a!! When an excess of gas in used the color of the juices increaws. The darkening of thick -60 *0 a1. I 7 juices and nia--Lecuites is greater with high alky. than with low. NCTCUSed aJIIU Of ; Ca() at the dr(etation decreaws the coloration of the juic". but not proixrtionally 00 r to the arnt. of Ca(P used. V~ F. 14AIXOW 00 X. 1. 00 0 so 0 00 a* 30 00 kid .00 0 0 -ir !-;zoo E.- r 00 pie 0 00 06 r 00 EZ . 0* A S I L A 0ITALLUPGKAL LITFXAT~01 CLA%%IFICATIC" woo 00 8 C.C "1 11, 00 00 - - - -f-7A If -3 A3 Q 3 a v il ~ T 0, is ; 0 0 0 0 0 0 0 7,00;,4 0 0 1 T- a P A l 1 ; , 11,010fic Ktt KIM it IT it at vq!WL3 (I I I. 00 * 0 0 0 0 0 a 0 0 0 4 go 0 *so* 04 0 0 0 0 a 0 0  03 1 S A Y A 1, IQ 11 1: 1, t4 t, L4 1, is 1, In 11 a n 34 25 26 27 A 29 X, 31 11 if M n it 11 is it 41 U &I 4d a f! 0 A I Is L A- M F 9 It I I if Y_ 0 A T --A AA be cc cc 91 4 a 4 , a ll i 00 - ' 00 0 d of cl,,rigIcatim of airups and remelt. A I'SlIENIC"Sull AND th -00 0 a!- o A now me ZIpiski 7':ukrovoi Prom. 23, 73 -M(I932_)- - The Prt*cnt ft- Sauk -00 0 of . -0 0 0 0 J! ,rarch wtork Via% ft, det. tile lsletll,.l I, nlas. effret .,( clarifiratimi Amt At the -0 0 0 it ~ Ad fed anic tints, tJrcrr._,,,r tile Unit. 111 CH "Alt, in iuict" Anti rvfllvlt- Wt"' C"() ' ( %ullitated juievs they tio not darken. but the arrit , tit Ca %&1t% increa-", Aild"I Na,C('ij -00 0 0 tit sit CA *Alt.%. but %lightly incTrawn the color tit the juicei. The inice l~Crtraw% tile at Aso 0 00 J; if the first carlmination or renirlt. when sulfitatett is) psi 9-8. Iecoinr% darker and Ittrthrr : sulfetation to psi 7 or lower incrmws the amt. of Ca salts. To the thin or thick juicrs =0 0 0 0 0 sulfitated to pil 6 i% Added 0.2% %a,CO. and 0.2.") 5% CaO (in the wt sit juice and 0 so carbonated to N Is 5. After this operation the juice is rrheat"l and filtered hrough t a fiftcr prrssrs. The restielt is treated with 1-2% of CaO tin the wt. tit sug r. then car. I-nated to pit 0 0 5. filterrd anti sulfitated to 1>11 7 n-7 .5. The purity increases 2 units. 441 &s%. .-I toss)% 4 tht, C. -Its i~ ---1. Th,, ... t-thod if lisssri. ficatiottl (if retnelt 1by dlefeci-cartkination and sultitation, with filtruti-At as an niter- 0 0 V iortliate. incrra~% the purity 1 5 units and color itilstwbed fly at least rA)C' . The eiltra. I ion lwforr nulli tat ioll i% ab,iol utrly nrct:~~ry. Filtrrrd and nors4,Itrrv*I juic-%ullitated 0 by the assit~ of S012 give a lower psi in the first ca.se anti highcr in the second. 0 A 0 - S L A -ITALL~VClrAL LITERA76RE CLASSIFICATICh ~ 11 n AV 4n 8 ad As, A 1111,11,x6( Kit ?is[ KIT if O 0 0 0 0 0 0 0 0 0 S T Asi O 0 0 0 0 0 0 O 0 0-0 0 0 0_0 0 0 0 0 0 0  g0& 0 0 0*00 9 00 00000000 00W 0 604000000roooootoloo T I ? 1 4 1 6 1 1 v 0 C0.0" WARIAGM M091 TVs U 0 40 -0 -d -2 04 63 3 P 0 0 0 0 0 0 0 0 0 0  - - - W W W W W or M M W a 00 A it C__A__L_L G K I L AI I T -L 9IF r M in Ix op, i4Z_b_.L t-x--L 1L..4 . . C Of S 09 -rc'Ms -0 et, go 00 00 A;~ use of activated carom with high content at water- of sugar products. S. 1. saiuble, ash fa 00 KorfXkov. B. an,l N. A. v= so 1"a"j. Central.Sri. Rtira'Ch 1"5l. sue., 1.d I . S. -,,R, I No. 13, 11-920(ligKI).- Activated C hilth in wat~r-sol. a41 00 (0.8%) han a PuKCr vfl~t nt-11 tile '11rar 1"'hIllet, thall C low in -wl. wnh (0.4St,,A. Mnk"W 00 CO l A S . - S LMETALLURGICAL LIIJRATI~RE CLAWFICATIGPi )a -'a". 0., 'at j7 I -j U " 1"; M fl P 11 C' Is of tt It Is KIt ft If 09 o o 0 9~0 0 * 0 0 o o 0 0 o o 0 o 0 : 0 00 0140000 046 00 000 V 0 04 00 -00 -00 -00 .00 coo 1,00 =00 so* 00 see Iwo* '00 woo _~j too k1l" A 1 deal 0 0 0 0 0 0 0 *1* 0 0 0 0 40 0 so 0 0 a 0 0 0 0 0 0 ez  -4~- 0-0 I I o; 11 it 11 W 13 16 IF Is " a 1 I T U Y 21 n n id Mas u v . X T z A V 41 a a a 4S - - S11 P fL- a J-.D -- 0 - -- -ikT-o 8 T -'A- tIW JuI=9-thd-V0-=-V and T=o1i mdooftuosdis 1 1 04 - . . . . ' - A. M. Pshenichnuil and 111. p. Shurnkov, * N4mk. Zaptiks 7 00 ir Ts.kr.,i Pr.. 32, &R~WMJ-3) - itices treated with a l small amt. of CaO by the Teatini ~n V- N. 1. S. methods arc of the same purity as juices tres, ted by 2% CaO at the Ist and with 0.25% Cat) at the 20nd defecation. 00 Ca salts give the same results in all 3 cases. Max. cobyr was decreased by the V. N. 1. S. method. Filtraticirt of 04 juice% treated by the TcaLini and V. N. 1. S. methods i-4 0 good; filt d %parkling and have a shightly ' C'w see Ich indicates the absence of colloidn grrvnizih cotor-INI h 06 %5 The treatment A low-purity diffusion juices (76-80) by 00 0 !he~c methods also gave very g~l results. Of Kreat zoo importance in the coagulation of colloids is the maintc- 00 nancr of optinturn c-miditions. Frtan IAI,. expts. it can IK- 00~j stated that the m&%. naigulation of etAinicLs tinder acid o conditions is at pit 4.7-4.1) and in alk. at pH 11.5 V. H. Haikow - =06 V ooz I S fro* 1 14:6 zoo 0- L A It" FALLURGiCAL LITIVIA761E CLA$SIFICATIGOd C-z- naea dot iI.310-t i.LJI Cot 0. Lit Joe U is kv "~ 1, S a Od 0 4 PA M o go 00 0 orru, SPK Kit VIESE KrIff It or 0 0 0 0 0 0 a 0 0 0 0 0 0 I In to d e!  , cc U is w v 1 11 A A a do 40 41 Ata a Aa1. Ar 11~ it r 2 a I v Of -At _-i -1 -1 1 1 00 00 0 0 06 Sugar-beef inslp and its effact upon The quality of tas 00 A; juice. A. M. I'shenichnuil and 0 1, ShuyLkj SakhaP AM4 No C~-9 " c4 Z 4W _419 . em e"Ir. , , ; . 5.110S -Under (lie conditions of t1 fevail l O l b l 00 . c m i1 a a . wa e with 2-?-2.5% CaO, the prescum of bect pallp MnAilling .00 its the Jukv as a restilt cd poor filtration itilluirrol be 00 titiality of the juim It Itic"'awd the %'unwit W jW1110. see Dam. N-COMIX. 3-uhslanevs slid tNA'w. W A. Moure 00 00 =go 0 0 00 00 " o ze :0:9~1 z ,00 j, 40%9 00 j 00 '00 0* A I I L A -t?ALLU.G.CAL Ljjj'.J~Wt CLAIJWICAIFCft t it, a" 6.. it s - too R It ; 0 00 r v ; ' -d w .w Li a ew o i mr a CK K it rt if of 'KW nI xm 0 0.0 0 0 0 0 0" g 0 o *1 00 5 " a 3 9 v We d"a 00 0 600 0 0 0 0 0 0 0 0 900000000000 0  lw~ IS 4, is is 16 11111 Iox!.1121 13M IS 36 V a 291101, uu MIS ULY HOW 1 .141 new A -1. r Q It I a p 1 1.0 1 1 -04 00 so E xperiment on decoloritition with no'nite. M 00 and it. 1'. Shunikov. SaUCh. Z,flpisks -00 'Wha'"ei P,effr. - - , Op -lm itm). - rite olt. -00 00 timitiv, rconditititi, fi-r the tvIinn of nr,ritr are- 1 1) The 00 --v- ,( file Imum iltsmig the fr~,tinvnt towtt he M, - -00 00 a 110'. 12) The lengill of the "intact with thin jnicv.4 -00 -hpuld lie Vi min. anti with the thick juices. 16-ao min. (:I) 00 0. The fit _41ould lie 7,0. (4) The amt. used for thin juices 9 shou ,I be 0.5%on the wt. ofstAids. and for thick juices lCi- 00 1 Decithirizalion itic-retuc% with the increase of the amt. of 90 "kir it,, used . 'rite circolorittation of thin juices is twice as Roe Xrvat as the dectolotiLation of the thick juices. it is mortt 0 r 4 difficult In dd-citforize turbid liquors than clear liquors. z 00 3 1.1; 25,41,;, if CA -tallif are removed by roxife, and R%h is 60 mine readily temoved in linw- than in bixh-purity prod- OV 3, uct3. C.,lov rcun,vrd front the juices of 2nd carbonation 00 i a 0 W W 'A with 1% of norite was 54.6%; for the thick juices, 39-3170; for rc-tneit, 60 '4% and for the ffrerns, 29.4%. For Clari- 121 C 0 0 9e r, fivation of the Ihin or thick juices by norite. in connection with UlfitaZ., the bt-si scheme is: sulfur to 7-7.h pff. Le"D filter, treat with porite and filter again. V. H. H. Joe 06 ;=go Z:oo 00 00 f -ITALLLJP.GKAL Lltt*AT6RE CL-SSIFIC-TIC- Moo A S 0 1 L A 0.0 S 1, _K a- is. 00 0 r - 4- -- i - -1 If 34 5 A3 C1 3 6 IF U 51 1, 0 0,61 Kit I(ST K CE Imb It I %a 40,143 0 0 0 0 0 * 0 0 0 0 0 * 4 0 & 0 0 0 0 a 0 0 0 a 0 0 0 0 0 6 0 to  0 0 0 0 0 0 All 0 0 0 00 0 0 v r 'j Is If Is It x 1 11 U 23 27 -f x 11 v Ij m D k p m r T v T-7 A I ~L_ AA 00 Q pp LC, _V 0 0 if-, 00 cl"cation oN diffusion juices by cold and hot defeca- 00 It tion-saturstion. A. M. Pshrnichnui and B. p. Shunikov. AD 0 400 1 -mdmt Zatvdskskh 6ruppinnskAt Lab. 400 2. :t 9~ WWII)- C.&I defecaticin-,Iam. has ad%nantages - 450 h.n. I-pt for gim fact that les.- N is removed sitxv -00 * 0 a hirlt tenilp. is rrqtiir"l ftw the din.4milln. of N' stabstan"-s. 46 00 . 00 00 00 00 00 00 00 j, '00 00 -.00 -AD & 00 A % I A ~t?,LLI,r,,&CAL LITIRAILNI E i T 1 too t 11V O u It It f t Ala 4'X AA L & Od o w 5 lba In iv! 0 0 0 0 0 0 0 0 0 0 a 6 0 0 0 0 0 j a 4 0 0 0 & 0 0 0 0 0 0 0 0 0 0 0 0 0 o 0 0 a o o 0 0 0 * * 0 o 0 4 o * o o 0 * 0 e Z * 0 * 0 a a 0 9 0 0 0 0 * I a  ::V900*0006 -06 -10-0 0 0 6 a 0-0-W-10 W W-W 0 0 * a 0 0 0 0 0 a 0 0 0 0 0 0 0 0 C111, 0 0 0 0 a 9 0 0 0 0 0 0 0 0 0 0 . I I A I X 11 11 Is W 1% 1. VW Maj iln 2324 b is H x M x it V u W 15 St 11 U 4 1: Q #1 4Sv 00 C L, L 1 1. A -.L-- A - I.- A PF QR I I U I I -Z - As 14 rx PQ U,j I & t f. "'A 4. - 0 00 09 A 00 -00 L-- 00 -00 The application of norite for clarification of sugar V Y 04 z products. A. AL 11,lictitchnim atul 11. 1'. Shurq~vv. --09 00 lrwlut Zin-edikikh Gruppmmikh bib. -00 -%, 2, -PIV-1 It IMM). -Opturnon conditions for applica- --400 00 x of noritt, are (1.5-2.0% on the wt. of %olids, 15-ritin. I.4tritact at M Its)' and a pit of .it for thin (IT thick juiceI -00 Freatructat of thin juicr~ given better results with re%pect Oft f lo 1--th Cs, ad-r-ption and Mor trium-al V F- 111. -00 00 so A9 00 4i zoo --09 --09 z0 0 00 00 =00 za 0 00 0 I S L A ~ITALLLPGKAL LITEAPATLPf CLASSIFICATION s- -P -y- 07 qP P rV 41 'N 61 IN A Of U K ff rns it qi~L S Od- -rA IS 1 .14 640 0 * 0 0 4P 0 0 0 0 41 0 0 0 *0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 46.0 0 0 0 0 0 0 0 6 0 0 0 6 a 0  a, 0_45--a je- 4_1 AiL _61-0 10. 4111-41-till V F 0its t . *Its 00 ovement of Inorgsak nonsugars in sugar-factory 0 All 00 A A. Ilf. Illifiellb. h1lull And it. L.-WMInkov- Gruppprittish 1,a6. SjJV?'rZaradiv No. 2. Q Surar Abortsett (lit Farl, AMed Sairarl 31, 1417 8 I'lle 1,1111tv lf dityll'o.-I l'urva-, Ill.'s if lllrdllla~ I, islill t""1" . 'It, I" , "t she 1,atletv '11- little dilli-Felic", III 1,1111tv. Fhc 1-31 dvclcalc~ Is, she fil't threv of G,Ill then atul thlr end ,I the twit, tv 1, I'll, ltwlcw~ Its the lMtt"V 14 ta-HIII)AMC41 IIV A VlMt%id"All1` In oo in Insists, Alld a J., srall. Its -b all.] .,Ix. II.MNAIK.I. z Ili-ftil covil. frotis lite fir,t 41ilinses I., the lost. the devreww.. living illvrrwly correlated with ill- etruse its psi. the decrea-,sc of the salt voell. bring les% wit It ei4d working of lite Itatt"y than with hot working. Ash 00 t val in lite -liffit-son twiterv I, alsotil 4411;;.,f the a,hol III, the t-rts. liviscritfirix largely ots stir tents'. at whivil lite Witery is I.-ing worked. and ordinarily is isidependent of the degree of sugar extri. An addril. Ik%of the lv-h is rr- 0 =4i inoved in (he defecation, carlioriation still evapri. procr..'stes, leaving 45~ to reach the final niola%- The rc~itslt% as c 00 # regard. n'ti -nuival ohfaittv,l I,v I-. and S. all- hilthrr shalt - d [ I A lit Nl W I 41,1 , t It,- I'l.w I, , .v si t. s . . 411,j 06 00 f A 0 L A ett &tL%,l-6KAL LiTtRATLAt 00 so* 00 It I -,~) Ill . D u is U1. Q1. ~.l 2m 414410 v a e -.; 1 -11 . o v i a _. 4-71 m L I IS OW 0 1 IF 110 5 Q 2 tftI4 Kit Wq( K IT I rss mLo n 1 1. js 2 w 0 : tv j : : : : : : : : : : : : : : :: : : * : :  a OF OF cp p rip A L M 11 & a -.L-JLA f -- -- d bo- com Ol JL PMENM=n Md, P. A . 'Ink NO 11 Lek o0 , &doem" -(pt 4m Ism . Z lci= ~= 00 imposes at 1-2-6. pwfty se o~M*wmd ith 00 CA Aftom (04 w-An ask @subsea, - t 00 beling isbe" do moves in- be" comme, %be "Abs 00 , first ambiiamommom.- $be -mm-dolsomsed isim -bad_. ibe litu e bo1w umber, bot --m" &be,- seemed ohows Was l din IF VMS, at. 00 somb bmw 0 bollbst, wbd~om the whole a 00 moddlostion of the offilbo-t- P. 0. J . , vz" -------- &I I UPOKAL. LITFOATUXt CL-A%iWK&T 01- gi~z .0.1m. !,A, sit mw A i t% AV Po tv IV 64 0 o Is -00 -00 -00 -00 0 r* e c;00 see tie 0 too UOS We 0  inzh.; KQROLIKOV, Sergey Ivanovich, kand. tekhn. nauk; tk~~; I.P., inzh., spetsred., retsenzent; KRUGLOVA. G.I., red.; KISIRL, Ye.I., tekhn. red. [Technology and chemical control of sugar beet manufacture] Te~hno- logiia i tekhnokhimicheskii kontrolt sveklosakharnogo proizvodatva. Moskva, Pishchepromizdat, 1957. 399 P. (MIRA 11:7) (sugar manufacture)  SHUMKOV, B.P.; UDAWV, N.K. Needs of the Zherdevka Technical School. Sakh.prom. 34 no.10:14-15 o ,6o. (MIRA 13:10) 1. Zherdevskiy tekhnikum sakharnoy promyshlennosti. (Zherdevka--Sugar industry--Study and teaching)   SHUMKOV, M.A.; POKROVSKIY, O.S. Areas of concentration of the lax-rae of the mosquitoes of the genus Aedes and their control in the Don floodlands udder conditions of unusually high flood. Med. paraz. i paraz. bol. 34 no.1:109 Ja-F 165. (~9RA 18:8) 1. Rostovskiy nauchno-issledovatellskiy institut meditsinskoy para- zitologil.  ACC NR:AP6034118 A'tl SOURC.E- C ODE:- -tR/O 3 58 16610 ~5/00 5/b 61 5/o61.7 AU211OR: S11unil"ov, M. A. 0'~G: Department of Entomology and Zoology, Rostov-on-Don Scientific Rcscarch Institute of Medical Parasitology, Ministry of Public Health RSFSR (Otdcl entomologii I zoologii Rostovskogo-na-Donu nauchno- issledovatcllslcogo instituta meditsinskoy parazitologii Ministerstva ze.ravoolcl-iraneniya RSFSR) TITLE: Methods of detect-ing AEDES mosquito eggs in soil SOURCE: Medltsinslcaya parazitolo,-,iya I parazitarnyye b.olezni, v. 35, no, 5, 1966, 615-617 TOPIC TAGS: Insect, insect control, mosquito),,5--/k ABSTRACT: soil samples were Lower Don (Rostov before the autumn six Aedes species Ae. kohningi, As. laboratory examinstLon, taken from the Northern Donets River and oblast) flood plains in September-October, rains, and were examined for eggs of (As. oaepius, As. vaxana, Ao. oineraus, ftavescens, and Ae. Gxo ruoians)* During air temperature was 24.5-26.5'C. Card  -t ACC NR:A~6o34118 and water temperature, 19-21.5*C. Multiple rehydration and dryIng of sail specimens showed that mass emergence from diapausa in Aedea mosquitoes was in February in the steppe zone. In analysis of the soil specimens, hatched .larvae were counted, and species was determined for those breaching age III-IV. The number of hatched larvae of a :given species.served an an index of soil infestation with that species. Orig, aiZ~~. has: I f:lgu.re (WA-50; GBE No. 141 (ELI suB com: o6/ suBm DATE: 1OMar66/ ORIG REF: 001/ OTH REF: 001 i Card  L=INA, Ye.S.; GUSEYNOV, G.A.; KOTOVA, Z.N.; SHUMKOV, M.A.; DAVYDOVA, M.A.; MiOtEDOV, N.A.; TUAYEV, S.M. Epidemiological characteristics of ancylostomiasis in two villages in Lenkoran District. Med.paraz. i pa-raz.bol. 28 no.4:387-394 '59. (MIIIA 12:12-) 1. Iz sektora eksperimentallnoy parazitologii Instituta malyarii, meditsinskoy paranitologli i gellmintologii Ministerstva zdravookh- raneniya SSSR (dir. - institute. - prof. P.G. Sergiyev, zav. sektorom - prof. V.P. Pod"yapollrkaya) i Jz gelimiutologicheakogo otdela Insti- tuta malyarii i meditsinskoy parazitologii MiniBterstva zdravookhra- neniya Azerbaydzbanskoy SSR (dir. instituta A.K. Kasimov, zav. otelom G.A. Guseynov). (HOOKWORM IN-YECTION epidemiology)  gornyy inzh,; PFRMYAKOV, R.S., kand. tekhn. nauk; KULESHOV, A,.A., gornyy- Inzh. Experience in the combined system of mining the "Apatitovyi tsirk" deponit. Gor. zhur. no.6238-39 Je 165. (MIRA 1817) 1. Murmanskly sovet narodnogo khozyaystva (for Shumkov). 2. Kombinat "Apatit" (for Yuleshov).   SHUMKCIV, G. Our common business. NTO 4 no.8:24 Ag 162. (MIRA 15:8) (Agricultural research)  ~IIDON'07, F.5 TIEMIAROVA, M.; f3fLOVAPOVA, !,~ K:1.RA,'--.!,.*CILEV, I., SHLTIKO-V. G.J STUIANOV, N. 9 - ~ Study of the etiology of infecticus hel:a-,.171S. no.9216-23 164. (MliA 18-.A,4)  Sh-UMKOV, G.M., inzhener. Mechanization of cable changing on hoisting machines. Gor. zhur. no.7:78 Jl 157. (MLRA 10:8) 1. Rudoupravleniye Imeni K. LIbIcnekhta. (Hoisting machinery--Maintenance and repair)  BUWA RIA. and KUSHEV, V., Chair of Pharmacology (Head Prof. V. PETKM V.9 �f Petkov and Chair of Pathology (Read Prof. Iv. Goranov), ISUL "Effect of Some Psychopharmacological Agents an the Incorporation of 3 -5S- 149thionine in the Cytoplasm" S of la, jiLXrem a MedLtskzz., Vol 17, No 6, 1966, pp 461-470 Abstract: By applying histoautoradiographyj the effect of psychopbarmacologi- cal agents on the incorporation of 35S-methionine Into cytoplasm was studied In experiments on rats and mice. It was established that the psychoanaleptic methylphenidate Ingreased, while the neuroleptic chloropromazine reduced the Incorporation of 3-3s- methionine Into the cytoplasm of the eel-Is of the brain and liver. Centrophenoxin reduced incorporation of 35Ej- methionine into the cytoplasm of liver cells. Serotonin reduced Incorporation of 35s-methionine into liver cells whileincreasing incorporation into renal convoluted. tubules. 11 thisergid, which has antiserorotonin activity, increased Incorporation of -methianine, into all organs Investigated (liverg spleen,, and kidneys), while psylocibin, which also exhibits antiserotonin activity, Increased incorporation into liver cons only. Combined administration of serotonin and methisergid or psylocibin disclosed a distinct antagonistic effect of the two types of substances an the incorporation of 35S-methionine. The results indicated that psychopharmacological agents exert an effect an protein metabolism. 1/2  1-313-58-5-4/31 -AUTHORS: Strashnikov, I. B., Astakhov, A. G.. sendz7 G. V. Y k Fedorovskiy, INT, V, and Shumilov,, K. A. 70*1 TITLE: The Dependence of the Cok~e ~-tM Output of a Blast Furnace on the Basicity of Sinter (Zavisimost' raskhoda koksa i proizvodituellnosti domennoy pechi ot osnovnosti aglomerata) PERIODICAL: Stal~, 1958, Nr 5, PP 398-402 (USSR) ABSTRACT: The influence of the basicity of sinter on the coke rate and the output of blast furnaces is discussed on the basis of data collected from periods of experimental and normal operations of blast furnaces on the Southern Iron and Steel Works (Table),, The dependence of the decrease in the coke rate on the basicity of sinter - Fig.1; the dependence of the increase in the output of iron per unit of coke on the. sinter basicity - Fig.2; the dependence cf the intensity of coke combustion in a blast furnace on the sinter basicity - Fig.3; the content of +25 mm (a) and 0-5 um k"u) fraction in sinter after the P. G, Rubin drum tests in samples of sinters of various basicities - Fig.L~; Card the content of fractions +40 mm (a), +25 mm (v) and 0-5 mm(b) 1/2 in samples of sinters of various basicitles. collected from blast furna(-,e b~'Inkers - Fig.5, tiae dependence of the  133-58-5-4/31 The Dependence of t-he Co'cl-le R-te amd the Output of a Blast Furnace on the Bas4r-j-,- of S41-jt- e r -j -L intensity of combustion of coke in a blast furnace on the size distribut-ion of sinters of various basicities - Figs. 6 and 7. Conclusions: Coke rate is inversely proportional to the sinter basicity. Up-der operating conditions of the Sout'hiern Works the maximum savinv-- of coke is obtained when limestone is completely reinnoved from the burden anJ amounts to about 12-14%. The intensity of the combust~-..cn of r--oke de-Deads on the size distribution of sinter and ialnrnases with `L;icreasing proportion of coarse fractions, The output of a blast furnace is determined by the relation bet-ween the burden to coke ratio (increasing -aith increasing sinter basicity) and 'the intensity of the combustion of coke in the furnace (decreasing, with r increasin- sinter basic-Lti due to the decreasing content of I'-- coarse fractiuns), It is necessary to take some measures to improve I-he size distribution of high basicity sinters. It would be advantageous to take as the main criterion of "ard the sinter c:,Uallity thhe content of +25 min fraction after the 1 , - 2/2 test in the P. G, Rubin drum and not the content of 0-5 mm fraction, There are 1 table and r? fiGures, ASSOCIATIOTq..-.--Tr-.+- cherr-oy metailurGi-i i vorno-S;o de" a AN Uk-r.SSR (Ferraus f~et43*j~iWinstitute and Mining Institu-te of the Ac.Sc. of the UI:r-ainila-n SSR)  SHW,IIWV, K.A.; MIKRYUKOV, V.G. Automatic control and regulation of blast distribution in tuyeres of open-hearth furnaces. Avtom.i prib. -no-1:17-22 '59. (MIRA 13:10) (Open-haarth furnaces) (Automatic Iontrol)  vyl I Rt 59 1 r- 33 ta i E tx 15 ~4 V I j:j -it d .'s 3a e g t :, , . . E -j Ell A 4 9 4.3 4 5 os o stk 0. Iq MIN 49 jt .Ss  Ve if IZ A v, 8 Non t j A s  AKUT IN, G'K. CA)mtin, H.K.J; GATSVMO. Tia.0. [Haievenko, IU.0.1; DTACHZWO,- K~Ta.;,ZRAROV, K.T.; IVJINOV, S.K.; XARIMSHIN, L.B.; KLODNITSKI'T', I.I. [Eloduytelkyi, I.I.J; KCBUS, Th.T. [Kobus, IU.1.1; KOZLTU, T.T. [Kooliuk, V.I.]; KCRTTMIKOV, V.P.9, KORCU3KO, X.I.; XOSTOGRIZOV, V.S. [Xojtohryzov, V.S.]; LADIYEV, R.Ta. [Ladlkov. R.1&1; MART 1, 4.7.. (X%rty-nink, -j- ILINIX, P.M.; kand.takhn.nauk; NAf6L'NBV, $.Ta. .B4,X, , ML [Navol'niev,,S.IAA;,SIN'X07, V.M.; SPM, G.O. [Spyna,.H.0.1; SHOMBT, L.A.; SHUMILOV, K.A.; KGRSAK, Yn.Te. [Koreak, IU.13.1, -iFed.; LAGUTIN, ~n. I.A.1 tekhn.red, [Automation in industry] Avtomatizataiia v promyslovosti. Kyiv, Derzh.vyd-vo tekhn.lit-ry URSR, 1960. 288 p. (MIRA l4tl2) (Automation) (Industrial management)  SHUMILOV., K.A.; MELINICHUK, V.L. I - - St -udy.i.ng the influence of natural gas and oxygen thermal and aerodynamic processes of the tuyere blast furnace for the purpose of their automatic tion. Met. i gornorud. prom. no.6:3-7 N-D 162. on the zones in a stabiliza- (MIRA 17:8) 1. Institut avtomatiki Gosplana UkrSSR.  SKRYNCIIENKO., D.A.;- SHUMILOV, K.A.; 19OVIKOV, N.A. -Automatic cast-iron weight control unit in the charging boxes of a casting machire. Avtom. i prib. no. 1:155-18 Jr- 'Ir 164. (MM -17: 5)  . -. --- I I I - - I ~- ---, - L, " ~,-, ~, SHUMILOV; K.A. Using automatic control in ferrous metallurgy in the Ukrainian S.S.R. J,~-at. i gornorud, prom. no. 2tIO-12 Mr-Ap 164. (MIRA 1729)  1 11 SKIRYNICEfell-IF,f). ".A.; SFUM3-1.,c;V~ kand. tekrri. naulk~ TERMHTN, N.P. ~ or cart-irccin ladling -wl-;-h a tamLng ma~~hineo A~Utclr,,tic control, I Ayit.. ,.pj-j.b. no.! T64 (MRA 18-.2) .1 -  .51iUMILOV, Ki-rill AndreyeTich,, kand. tekhn. nauk-; SfCF.YN.!CIIR-;KO, Dmitray Anatol5yevdchs Inzh.; MOGILICHRIKO, V.S-., 4nzh.. retaenzent (Automating the pouring of pig iron in blast furnace plants] Avtomati~atsiia razlivki chuguna v doi:-.emiykh tse- khLkh. Kiev, Tekhnika 1.965. 106 P. (MIRA 180) .7  18.2000 65684 AUTHOR: ShUMICOV, O.A. sov/i36-59-10-1/16 TITLE: Fas~ Flotation Method, its Practical Application and Ways for Further Improvements PER10DICAL:Tsvetnyye metally, 1959, Nr 109' pp 1-10 (USSR) ABSTRACT: Card 1/13 Based on the analysis of eight years exploitation of a new technique of running the flotation plant, developed and tested at the Sikhota-Ali-n.'- Factory, a formulation of the basic principles and laws of so-called "fast flotation method" is presented and recommendations are made as -to the correct way of introducing this method in various ore dressing plants. The useful qilnerals in the ores processed at the Sikhota-Alin' Factory are closely aggregated so that they can be successfully treated after being comminuted to contain 35 to 40% of -74 micron fraction; the starting material constitutes a high grade lead concentrate containing 74 to 75% lead. The need for increasing the output of the flotation plant (without increasing the power rating of the electric motors) arose in 1950, when the productive capacity of other sections of the factory came to exceed considerably that of the flotation plant. To achieve this end, several measures  S Q V/ 156 - 5 Fast Flotation Method, its Practical Application and Ways for Further Improvements were adopted. (1) The peripheral velocity of the impellers was increased from 8.5 to 10 m/sec in cells Nr 24 (roughing and control flotation) arid from 8.5 to 9.1 or 10 m/sec in cells Nr 21 and 15 (cleaning flotation). (2) A large proportion (73%) of the partitions between cells was removed; only those were left that separated the various stages of the process or whose removal would result in the pulp flowing straight through more than four cells (these large sections formed by the removal of partitions will be subsequently referred to as "direct- flow" sections). (3) The depth of cells in the roughing lead and zinc flotation stages was decreased by 200 mm. (20.5%) and 100 mm (10.3%) respectively; this helped to compensate the extra load on electric motors due to increased impeller speeds. As a result of these modifications, the output of the flotation plant was increased twice and the degree of aeration increased by 80 to 100% to 5o-60 cm3/cm2/min; the electric power consumption was reduced by 30 to 35%; consumption of the Card 2/13 basic reagents and water was reduced bY 5 to 48 and 20 to  65684 SOV/136-59-10-1/18 Fast Flotation Method, its Practical Application and Ways for Further Improvements 25% respectively. At the same time, the i-ecovery of lead was increased by 2.5% having reached 90.25; and that of zinc by 2.3% having reached 84.6%,'; the quality of the zinc concentrate was also improved owing to the reduced copper content and improved selection of lead from copper was achieved. Further measures adopted in the subsequent years included: increasing the impeller velocity to 12 m/sec which necessitated replacing the existing (5 k-w) electric motors by more powerful (7 kw) ones; employing 6- instead of 4-blade impellers; disp,i-nsing with the use of the baffle grates. These imp---ovements made it possible to maintain the efficiency o-' the process at a steady level, in spite of the reduced r.ietal content in the ore and the increased quantity of the treated material. However, the flotation plant continued to be a bottleneck in the factory; in addition, the flotation machines were worn out and needed replacing. Consequently, it was decided to reorganize the flotation plant and double the output of one section by the Card 3/13 introduction of floating machines "Mekhanob" 5A". In its  65684 ~50V/136-59 10-1/18 Fast Flotation Method, its Practical Application and Ways for Further Improvements existing form, this machine was not suitable for the process employed at the Sikhota-Alin' Factory for several reasons. (1) Its capacity was too small (600 t/24 hr max for the cell volume of 1.27 m3). (2) It could not be used for treating coarse (30 to 40% of the -74 micron fraction) or heavy ores. (3) As the disperser blades became worn out, the clearance between them and impeller gradually increased, so that at the end of the period between two consecutive overhauls, the degree of aeration decreased 3 to 4 times. (4) The efficiency of the machine was adversely affected by the large size of the air bubbles. (5) The semi- automatic regulators of the pulp level did not function properly. The machine was, therefore, redesigned by the author of the present paper, working in cooperation with a team of designing engineers consisting of G.N.Kurbetlyev, G.I.Kosi-lov, K.I.Syrchin and I.M.Kokorin. Several changes were made: (a) The peripheral velocity of the impeller was increased to 11.3 m/sec; its diameter Card 4/13 was increased from 530 to 600 mm without changing the size  65664 SOV/136-59-16-1/18 Fast Flotation Method, its Practical Application and Ways for Fuvther Impvovements of the cell; the power rating of the electric motor was increased from 4.5 to 10 kw. (b) A two-stage impeller, with 6 internal and 12 external blades, as designed by N.P.Sagotelov (Ref 3), was introduced. (c) The stator grates were replaced by a solid, 800 mm diameter disc, provided with four baffle ribs and placed coax�ally over the impeller, the clearance between the baffle ribs and the impeller being 50 mm. (d) The circulation in the direct-flow sections was ensured by means of apertures in the impeller hood, closed to two-thirds of their area. (e) To facilitate the passage of large quantities of pulp through the machine, the diameter of the intake pipe was increased to 250 mm and the area of the windows between the cells was increased by 15%. (f) The size of the direct-flow section was increased to comprise four cells; the semi-automatic gate valves were replaced by slide valves; a replaceable lining was introduced in the cells (cast iron at the bottom, wood at the walls). The application of a two- Card 5/13 stage impeller with a high peripheral velocity made it  65684 SOV/136-59-10-1/18 Fast Flotation Method, its Pra-tical Application and Ways for Further Improvements possible to attain a high degree of aeration (70 to 120 cm3/cm2/m!n) and agitation, even in the case of a thick and heavy pulp, while the size of the air bubbles was reduced to 2 to 5 mm. In effect, a new flotation machine was created, which was given the name of "Fast Flotation Machine SIKHALI11 and which was used for equipping one complete section of the lead flotation plant comprising, in all, 22 cells: agitation of the pulp - 1 cell; roughing flotation - 8 cells; first control flotation - 4 cells; second control flotation 2 cells; first, second and third re-cleaning flotations 3, 2 and 2 cells respectively. (The flow sheet of this process is reproduced at the top Of P 5.) The section for flotation of zinc-bearing ores was equipped with the "Farenvold Nr 24,1 flotation machines operating under the "fast flotation" conditions (impeller diameter and speed - 6o0 nun and 10 m1sec respectively). The results of six months' tests are given in Table 1, showing the values of the Zn, Pb and Cu contents (%) and Card 6/13 the recovery (%) of these elements for the lead (top) and  65684 SoV/136-59-10-1/18 Fast Flotation Method, its Practical Application and Ways for Further Improvements zinc (bottom) concentrates. The material used in these tests consisted of a sulphide lead-zinc ore, comminuted to contain 38 to 50% of the -74 micron fraction; the average density of the pulp -was 50%, the following reagents being used in the lead flotation (g/t): activated carbon - 57; sodium sulphide - 50; ammonium sulphate - 201; calcined soda - 75; zinc sulphate 267; a 2;1 mixture of the butyl and ethyl xanthogenates 20 to 30; cresol - 76; cyanide - 173. The next test consisted in running the flotation section for three days under the conditions of increased loading (higher output). The results are reproduced in Table 2 under the following headings: quantity (t/24 hr) of the treated ore; Zn, Pb, Cu contents (%) in the lead concentrate; Zn, Pb, Cu, Fe contents (%) in the zinc concentrate; Zn, Pb, Cu contents (%) in the tailings; recovery W Of Pb and Zn; duration of one complete cycle of the lead flotation, min. It will be seen from these data that the acceleration of the flow of the pulp through the Card 7/13 flotation machines (with a corresponding shortening of  65684 SOV/136-59-10-1/18 Fast Flotation Method, its Practical Application and Ways for Further Improvements the duration of the cycle) not only brought about an increase in the output but also raised up the recovery of zinc and lead and improved the separation of copper and iron. During the six months trial period, it was established that the newly designed machine "Sikhali", functioned satisfactorily and without overflow, even when working under the conditions of wide variation of the volume of the treated material; aeration remained steady during the whole period between two consecutive overhauls (1 to 1.5 months), the size of the air bubbles being 3 to 5 mm and the clearance between the impeller and the baffle ribs increasing by 4 to 6 mm. only; no clogging of the machine by coarse particles occurred; the life of the exchangeable components was: impeller - 2 months; disc - 4 months; the machine could be stopped suddenly and restarted, even when fully loaded; it was possible to reduce the consumption of the reagents; cyanide by 10-5%, activated carbon by 42%, cresol. by 31% and sodium sulphide by 16%. The improvements achieved in the Card 8/13 efficiency of the process are illustrated by the data  65684 SOV/136-59-lo-1/16 Fast Flotation Method, its Practical Application and Ways for Further lmprovements given in Table 3, showing the Zn, Pb and Cu contents and the recovery of these elements (%) for the lead (top) and zinc (bottom) concentrates during the four months preceding the trial periods: it will be seen that recovery of lead and zinc was increased by 2.87 and 2.08% respectively and that the quality of the concentrate was imp-roved; at the same time, 1 t of the material treated per day required only 0.008 to 0.012 m3 of the cell volume, the corresponding figure for the normal process being o.o8 m3. Having taken all this into consideration, the pvesent author formulates his ideas in the following manner: fast flotation means acceleration of the flotation process brought about by a maximum increase in the rate of flow of the pulp through the machine, accompanied by a corresponding increase in the degree of aeration and agitation of the pulp. The various features of the process are then discussed in greater detail. Fast rate of flow of the pulp t1irough the machine: the puj.p should not remain in one cell longer than I min; Card 9/13 at the Sikhota-Alin.1 Factory, the lead-bearing pulp  65684 SOV/136-59-IC-1/16 Fast Flotation Method, its Practical Application and Ways for Further Improvements tz,Izes 0.5 to 0.8 min to pass through one cell, the duration of the complete cycle being 8 to 10 min. High degree of aeration: contrary to Mitrofanov's (Ref 4) opinion, the deg:-ee of aeration should be directly proportional to i-he rate of the pulp flow and should amount to 60 to 120 cm3/cm2/min. High degree of agitation3 this is attained by increasing the peripheral velocity of the impeller, maintaining at the same time, low impeller diameter; cell width ratio which, at the Sikhota-Alinsky Factory, is equal 1:1.8; there is no risk that intensive agitation (necessary to prevent clogging of the machine, particularly when coarse ore or heavy pulp is being treated) will affect adversely the conditions on the surface of the pulp, since in the absence of fast circular motion of the pulp (which should be prevented by the baffle ribs of the disc situated over the impeller), a sufficiently thick layer of froth will ensure quiescence of the pulp surface. Reduction of the cell depth: this provides a means of Card 10/13 either increasing the degree of aeration without a  .iOV/136-59-j o-.L/ 1.8 Fast Flotation Method, its Practical Application and Ways for Further Improvements corresponding increase of the power consumption or of reducing the consumption of power without a corresponding decrease in the degree of aeration. Application of the "direct-flow" sections: this increases the capacity of the machine and facilitates its maintenance and repairs. After stressing the fact that the application of the new technique not only increases the producti-ve capacity of the flotation plant, but also improves the quality of the concentrate, the author points out that when a change-over from the normal to the fast flotation technique is contemplated, the local coriditior,s (the type of the process etziployed, equipment and, particularly, the characteristics of -the treated ore) hav,.D to be carefully considered. For plants equipped with the flotation machines of the "Farenvold" (or similar) typed t'ie author recommends :Lncreasini~, the impeller speed and a cliange-over from the single coll to the "direct- flow" section method, the need for jincreasIng the power rating of the electric motors beln~~ avoided by reducing Card 11/13 the depth of the cells; in determining the relative  6568h SOV/ I 3b-5 9- IG.- 1/16 Fast Flotation Met;-Iod, its Practical Application ard I-I'ays for Further Improvemen-Ls changes of the various operating conditions, formulae derived by V.A,,Rybakov (Ref 10) cari be conveniently used, according to these forr-.iulae, a 1'/-o i-ncrease in the pe.r-ij..'ieral impeller velocity necessitates a 2.65%~ increase of the -o%ver- and increases the degree of aeration by 7.7%; a 15. reduction of the depth of the cell reduces the requIL-Ud pou-er by 1.50 and increases the degree of aeration by 0,,4'/u; an 0.015u decrease in the pull- density reduces the Io-oer re(-.1uirements by 1.64" and increases t.he decr /a gree of aet-,Ition by 0.35"/b. Regarding 1,lants equipped with the flotaLiori rnac'~iines "Mekhanobr 3A, 4A and ~)Afl, the author recot-,-~! ends that these machines should be modified along the lines described above; 1e converted into the "fast flotation machines Sikhalill; however, he points out tliat to ac'iieve the full benefits of this change, the rate of flo-t%r of' the pulp through the machine must be increased. In Vn,, final chapter of the present paper, its author discusses the anomalous position existinL; in the Soviet Union regarding the Iroduction of flotation machines, Card 12/13 criticizes the uniformity of their design, as a result of 1~  65684 SOV/136-59-10-1/18 Fast Flotation Method, its Practical Application and Ways for Further lmpvovements which it is not always possible to select equipment best suited for a particular purpose, and stresses the need for a more modern and rational approach in designing new equipment with particular reference to the application of the "direct--flow" principle and increased rate of the pulp flow, There are 1 figure, 3 tables and 10 Soviet references, Card 13/13  SHUMKCV, O.A.; KURBETIYEV, G.N. Rapid flotation is the road toward the full use of potentialities for the increase and cost reduction of nonferrous metal recovery. TSvet-met. 35 no.8:5-10 Ag 162. OUR& 15:8) (Flotation) (Nonferrous metals-Yotallurgy)  1. SHIRMKOV. P. V. I PL-v'OV, M. D. 2. USSR ((00) Ik. Lathes 7. Efficient repair of the lathes by mechanic. Vest mash No.9 1952. 9. Monthly List of Russian Accessions. Library of Congress, kDril -1953, Uncl.  SHMOV, V. Blast-furnaces on the Oder. Vokrug sveta 5:2-5 My 153. (MT-RA 6.6) (Germany, Eastern--Industries)  SMEKOV, V. Take fuller advantage of your rights. Mast. ugl. 8 no.7:13-14 Jl '59. (MIRA 3-2: 10) (Coal miners) (Trade unions)  SHUMKOV, V. Sod composts. Nauka J pered.op. v sel'khoz. 9 no.3;27-29 Mr 159. (MIRA 12:5) 1. Machal'nik rayannoy inspektaii po sel'skomn khozvaystvii. Iseninskiy rayon, Hookovskoy oblasti. (Compost)  .-.- SHUMKOV,- V. - KCPMYEV, V. -, MAKSMOV, M- ', CHUM. B- (g.Lunganak) SENIMOV, S. (g.Shakhty, Rostovskoy oblasti); LERMM, I. (g.Shakhty. Rostovskoy oblasti) Our women heroes. Mast-ugl. 9 no-5:9-11 My 160. (MIRA 13:7) (Women as miners)  SHJMKOV, V. At a lov level. Mast.ugl. 9 no-12:17 D 160. (MIRA 13:12) (Donets Basin-Coal miners) (Trade -anions)  SHUMKOVY V, In tie neighborhood-'-of Ap 61. .p (1.6iiin, Vladimir I II .1 ~J, the Kremlin. Sov.shakht. 10 no.4:5-7 OURA 14:9) Illich, 18'70-1924w.-Musd'ums, etc.)  SHTYMKOV, V What we have gained through the October Revolution. Sovshalkht. 10 no.1-1:43-/+4 N 161, (MIRA 34 ~ 11) (Great. Erltain--.Coal miners) (Russia---Economic conditions)  SINT-AGIN, I.I., doktor sellskokhozyaystvennykh nai*, red.; DMITRIYEVA, A.I., red.; TEMMIYANOV, F.V., red.; SOKOLOV, G.R., red.; SUT-ALOY, I.S., red.; SKLEPANOV, V.M., red.; SHUMKOV, V.A., red.; ANTONOVA, N.M., tekhn.red. Era-pers of the anniversary session of the Lenin All-Union Academy of Agricultural Sciences dedicated to the 40th anniversary of the Great Socialist October Revolution] Materialy iubilainoi sesaii Tsesoiuznoi akademii sellskokhoziaistvennykh nauk imeni T.I.Lenina, posviashchannoi 40-1 -odovshchine Velikoi Oktiabrlskoi sotsia- listicheskoi revoliutaii. Moskva, Izd-vo H-va sel'.khoz.SSSR, 1958. goo p. (MIRA 13:2) 1. VseBoyuznaya akademiya sellskokhozyaystvennykh nauk imeni V.I. Lenina. 2. Glavnyy uchanyy sekretarl Prezidiuma Ysesoyuznoy aka- demii sell skokhozyaystvennykh nauk imeni Y.I.Lenina (YASKhNIL); chlen-korrespondent (for Sinyagin). (Agricultural research) (Forestry research)  L;GFX(',flAYEV, Ivikha-11-1 moioeyovich, doktar takiin. nailk, spetsiulist- 11,11'rY-mik; SHU14 red. stop., R,-,colleciions of a blasterf n--tano-v;s'l Vospominaniia vzi-,-,rnika. MoAvs, . ;,al 146 p. ~1- La Rossiia, 1965.  AP7003; SOURCE CODE: 133/ 7/000/001/0053/0057 ACC NR: (A) AUTHOR: Brovman 1-1. Ya. ; Skorkin , N.V. ; -qhxxmk_ov, V.D. Vydrin , V. 11. Dodin, Yu.S.; Makarov, V.G.; Rimen, V.Kh.; Lind, I.K. t;ORG: Yuzhuralmashzavod; Chelyabinsk Polytechnic Institute ~`~(Chelyabinskiy politekhnicheskiy Institut); Chelyabinsk Metallurgical *:*.Plant (Chelyabinskiy metallurgicheskiy zavod) ,~JTITLE: Investigation of a new 900/700/500 continuous blooming mill SOURCE: Stal', no. 1, 1967, 53-57 it-TOPIC TAGS: "etal rolling, hot rolling, rolling mill, continuous rolling mil 00-700-500A mill 1/9 1e0,4 Z /A) r, "!ABSTRACT: The new 900/7bOi5OO continuo*us blooming mill, designed and built at the -Yuzlino-Ural'skiy Machine Building Plant, is in operation at the Chelyabinsk and Krivorozhskiy Metallurgical Plants. The new mill is designed for rolling square blooms with a cross section of 80 x 80-170 x 170 mm and flat slabs from 370 x 370 mm carbon and alloy steel blooms weighing up to 9 tons. Provision is also made for rolling round'bars~105, 120, 140, 150, 170 and 220 mm in diameter. The mill is designed to produce 5.5 million tons of rolled stock per year; the metal delivery rate at the last stand Card UDC: 621.771.26  ACC NR: AP7003872 is 7 m/s-e'c- and the specific-efficiency per.ton of the equipment is said to 'be 25% higher than that of the most efficient existing blooming mills. The .new mill consists of 14 stands. The first group consists of two separate '900 horizontal stands and a continuous set of six stands (two of them witfi vertical rolls). The second -group of stands consists of three vertical and ~three horizontal stands. A planetary flying shears, made at the Staro- Kramatorskiy Plant, is used for cutting bi-llets to size. Rol-ling large billets, 150 x 150 mm and up, is done in the first group of stands; the billets are shifted to a side roll gang and cut to length with 1000-ton shears. The stands have an individual electric d-c motor drive with continuous automatic power regulation. For furth~-r automation and higher precision of the rolling process, provision is made for installing magneto:- elastic sensors of the metal pressure on the rolls. Experience showed that for continuous safe operation the billet surface temperature should not, be lower than 1000C. The design of the stands and the technology used ensure the necessary accuracy for rolling commerical stock. -Orlg,~- art.. [14S] SUB CODE: __Card___2/2 ...... 13/ SUBM DATE: none/ ORIG REF: 006/ ATD*PRESS: 5115  SHUM'~-UV. V.D~ bsing organominerqI mixtures for cereal crops. Zwrloc~elle 1-5 fLo - 5: ~4-65 14Y ' 57 . (M:,~ 1-: /y 1. Glavnyy P_-rono-n I.eninskoy Mashinno-traktornoy st!antzii. (Fertilizers and manures) Orrain)  1JIS-11HLEMKOV, f4. F. V. SIHUNALUVY 0. N;. "Zx-r-ra,.,-t iort of the irradiate-" ro-~' in cart)on tetra,-- hioride. report sl-~waitted for J-rrd Intl Conf, Peaceful Uses oC Atomic Energy, Geneva, -41 Aug- -;) Se  YERMAKOV, Prokopiy Dementlyevich; KOLEGOV. Aleksandr Yermolayevich; MALYKH, Aleksanctr Aleksandrovich; SHURKOV1Y'l... redaktor; TSYMBALIST. N.N., redektor izdatel,stva; ZI&IF, le.m., tekhniche- skiy redaktor [Safety engineering in the work of metallurgical plants] Organiza- tsiia raboty po tekhnike bezopasnosti na metallurgicheskom zavode. Sverdlovsk, Gos.nauchno-tekhn.izd-vo lit-ry po chernoi i tsvetnoi metallurgii, Sverdlovskoe otd-nie, 1957. 135 P. (MIRA 10:11) (Metallurgical plantd--Safety measures)  SHLJMKOV~ Ye., inzh. Automatic control of conveyor systems. Rech. transp. 22 no.10t 15-16 0 163. (MIRA 16:12)  SMJMKOV, Te.B., inzh. Push-button rudder control from the upper pilot house of tvigboate. Rech.transp. 17 no.9:33-34 -- (,MIRA ll:,Il) (Tugboats) (Pilots and pilotage) (Remote control)  SHTJ14KOV, Ye.B. , inzh. Automatic photoelectronic control of feed-water supply to steam boilers. Rech. transp.. 18 no.4:33-36 Ap '59. (MIRA 13:1) (Boilers, Marine) (Electronic control)  SHUMKjDV, Ye.B., inzh. Mechanization of anchor lifts on barge-type, vessels and Its power supply. Rech.transp. 18 no.9:26-27 S '59. (MIRA 13:2) 1. Volzhakoye oblyedinennoyerechnoys parokhodstvo. (Anchors) (Barges)  SHUMKOV, Ye., inzh. Automatic control of the feed-water supply to steam boilers. Rech. transp. 19 no.3:2/r 26 * 160. (MIRA, 14: 5) 1. Tekhnicheskiy otdel Volzhakogo ob"yedinennogo rechnogo pa.3~okhodstva. (Boilers, Marine) (Automatic control)  VALIKOV, G., kand.takhn.nauk; SHUMKOV T ae , inzh. -- - ~ 3K Automatization of conveyer equipment in river harbors. Rech.transp. 19 no.9:38-4o 3 16o. (MIRA 13:9) (Conveying machinery) (Automatic control) (Harbors-1quipment and supplies)  VALIKOV, G.P., kand.tekhn.nauk; SHUMKOV, Ye.B., inzh. Automatic control of belt conveyors. Plekh.i avtom.proizv. 16 no.7:13-15 J1 162. OURA 15:8) (Conveying machinery) (Automatic control)  VALIKOVI G.R., kand.takhn.nauk; SHUPIKOV, Ye.B., -inzh, Speed relay with two limIts, M--kh. i avtom. proizv, f7 no. 3.- 36-37 Mr 163. (MI RA 17.- 9)  SHU"i-MV, Ye.B., inzh. Belt conveyor with automatic control. Trudy GILIWI no-49:27-36 163. (MMA 18: 6)'