SCIENTIFIC ABSTRACT YAKHONTOVA, N.YE. - YAKIMASHKO, O.YE.

  cc "" AP7004137 SOURCE CODE, : UR/0051/67/022/00110014/0018 AUTHOR: Bogdanova, I. P,I_ya ~tova, V. Ye. ORG: none TITLE: Time-dependent characteristicls of population processes of excited levels of mercury SOURCE: Optika i spektroskopiya, v. 22, no. 1, 1967, 14-18 e*=tta#qa, excitation function, mercury TOPIC TAGS: spectral line, "level, electron bombardment, C, 6.11-- - ABSTRACT: An analysis is made of measurements of the excitation function of the 5461 A spectral line of mercury. The dependence of the population of level 73S, :on time was calculated*It was assumed that the level 73S1 becomes populated when mercury atoms are excited by electron bombardment and cascade transition. Comparison of the results of calculation with experimental curves shows that such an excitation mechanism can explain the observed shape of the excitation function of the mercury line 5461 A. The authors' thank S. E. Frish for his help. Orig. art. has: 5 figures and 5 formulas. [Authors' abstract] [NT] SUB CODE: 20/SUBM-DATE: 03Mav661ORIQ REF'- 003/OTH REF: 001/ cnrdl 111 1 - I I ! . I 'UDC: 539. 184.~546. 49    0 Off, 0 1117-WE- p A Jo SO of ff Q a di a 40 11 O d I I 13T A.0 _"2_q!0 q a I lot% -,f -L, __ 0 or" C .4 --* PAIX111tit AND P310P.10141 MOO A , r ;00 , , 0 i filekatito of tho Abaniption 0(lihs, ovidem at alt"Gou - ' limitove riduatikh, W L. vsk is ulfuric acid. 1. N. Kox is u a, 14 A, Ntl~ mail not a% Ctvrr " 14 Rhowl a 'l Nilt 'li b ee sm I rilti s 116. 110 .1., a 1 7 141 Asia" ! , * e L d With file i se I - ~ v,mamir fit. Tilts .I sit v 4 00 I t I%ity of lite %tvil Is With at lo- 1~ily 1 00 1 I ct 3 1 .oft the scalp. dwreaxcm she late id ahsoliAlon samilv. l ether are at,!mwtwtt in equitol. to NO nil NO t Z r t, A . , g am i, imssfastasisNOralone. Noluin.almmls- 6 ,h.wwu with increasing arid strength, but himawd oo p. decmawn the amt. at almittlikin walewhat, In- de' p lu the 1"Ut. a( SO in tile %a- thlea lust Airmt the b too 3, ut of a rate. The SA-4cls we flat abvwtwd 6-1 NOs. y We the IVO. simultaneously and react with j it r a cc. . In practice, Is m trimps. and a II ratio of NO Ia.- 1, A favor skjrewi.... zoo w ee Use ff lam wee 4 14 a a., $14611 amt Gov its 'Ile U 0 0 00 111 111 IN 9 AS a 3 4 9 AM e r o  T?1`061611916 10 up 1*1 101 1 to It bill Is - 2 if u n 14111121117JOIN lull list jit a i I JL L U-1 of I I I _&k_U_q_1V_U j_A_si, sL__j A be V'slimir 'flat. isild a11$ I ".Us ... i"14 4410 ililly two Vill Vj, S41V phs(ted of tile Mll]Plr 6 xivest, of) she wilijusir, tile vithit, W A Detolmd"don of catras .Wu in wel&M majorlsoof twftwe aild after scotrui.'a. illeattL11) - i, ta~y to judge tile ement of " HI-i'"t ill tile dilyclent V, yu,,11"ILlmly solid R. l- Vsolilitmitim. Korrostya I Imst, of the 'ample, Awe Ow dill. mwe ill its lif-tc, llor&j jjV#q S, N,P .1 .;. N kwfo- lowlt lilva,mv, IN o(..qt_t, 'kill -4 liselifell wait)-, file 141111.1c N 111111setwil I,% a Y"`e, I.Ah M.. 411100-8 Willi Willi JlUotr lltllisi.~Al. fi.1%441 (14011. fill JUStalleel. lilvid 011,1 Ilse ill dt .'.fill 114-14111 t Ail altmacifird wissle- N xivvs (lie ift-lifils ul humershms-6r .0.1-1 us"fal im-lef, 4,1111tely '41folm 4-midifooll, 0, 11,01 .4 00 It IW part of this, Pietv. Sillet ally PtMt on Ilse Sample ca.7.01~ if.1 ii 1144ift. %I;tMV; tile 00 13 1! ldrilas 111%, Evil) Istsint, A %itlc capillary tulw fig cuntleciv oam4 Air vvesi I-- tile IM", ~! ~ Willi 4 SVISIC 1. Offill Alto 11111111VIttil tit thl? VVWI In 6 1111111fell i. r,mr-IM istoy .1mOv. I lifirp to.1i.- if lwI 114,41, 13 itimitkiii, As the minlitor It vallumilly filled, m 1.1111 Willi X4. Kiw Ilse "wit. '1-A 0.1 43 Ilse level ill the liquid challsei cellitill value A kild so JmI IlIvIr 1. ljo It., "It"t 6,11 Ow 1.6- by dom the mcni'cus Ill the C&PillArY (,%L)- The Kate L is. iful ot, the writlof 111clal. C-11-ioll At Mr s ill j go 0 thell c"broAlml its tcrins of vA. The graphs S - FM a lwal pf',ve-'. Ill lilt- actim: of If,?$ N h0lb- 'a lisid 4 IM age first coustrucled. The first girrs Ism, G as 0 0 L -ttots, wr(ikk its it tu"i-I atrit, ill,- J...ft 4 the jr 's cv. of vuL; the foriond gives the els"Ir [it the 'In.)JIfe issmirlwil it, tit, lu)"i't 1, 1,.,( .0 46 t level ight A a. I lutwilon "! Ir The 41iflnerice AN - she i.110-gligibiv It- -11. t~ 00 9 St - N + A. - A give, I lie drift Is of huttimloas of a given i* title. t4 tile lmli in Ow m-1 all al..V, ih. mix part 0( the stample. The V-4. Cif 111 given Patt Pef "In), , lijilliji. 111st lilt the hqtluktic 1-stiliddlY lite 11141~ 1~ In- a** )II tilki-S Plier, lilt- vcl,k ity OV.101itt)c P9 111111. ithl"n drill The loccula.-Y of ille ilsOmmulif I-all fir ill, Ir's,rd bV yvar. A tolti,lx file wals, 0 site mm -mt tit Vests rill lie r-i1v 14"'A -1 w ill .1~, .14Y ellwfilliclit life -wilit)(Y .4 file 1--t tj** Yc-jr, 'I'lic 11K.Oft.,ti of jilw I lilt. ifit- "m age mITAILLURCKAL tITERATkitt CLAISIFICADCA I!lrc measure"IelitS, itivtilvinlZ 19tilsOtIlittiC 14 lie Simpito Veto It Ines, fle"ram- he t.,4, is 41 -0 it,, fit*#( wa wig PC tc 4 000 0 00 0 0 0 a  6 1, 0 :10 0 0 0 0 0 0 0 0 0 00 00 ON 06 I 4 so a of Q 43 ,4 v X it 0: 0 t , M 4 1 of 40 1 P LkIL 0 #SGCI$tII, AND PAPOPCOMi 190fl -00 - - 'Th. at nluo9yusLIU& i~wi~da ~Wu 4 it acid ~ J. N. Xuj,'tnlnykb sad , 76 4 5 ova. J. Chem. INd. (U. S. S. R.) 16, off 8 SQj-1 do the wild Phoft In 1,0 is given at Q-50'. At-we N ti NA is f So t h oo t e ta o l ull, Mail. i&HNSO*, but atO 004 0 at bfgher, Thtft Is no dwigtr that HNSOs cr7wals 00 00: it will clog the oxldlxWg space In Me tower sy0tera., - H-L Leicester -00 0,04 =04 00 &:oo 400 doo see Woo , Ift-SLA 1 NITALLURGICAL I.IiIJOATIME CLASSIFKATION 000 1110"t %1"411vo ----I -.I--------- - NNW VOWIAV No* told" .10 C.. a#( Ollilloot 43SA31 Qt a.. III - u 1 ~ a I F An I % Od 0 a a -1 W 0 5 a a .2 0 IF 0 0 0 0 0 4 : 1 0 0 0 o 0 0 0 : : 1 0 ~o 0 * * * 0 00 40 q_ 0 pr_q 0 0 * 0 0 o 0 0o 00 0 * 0 0:0  INS moo u Ast-13 eva 1W &-rut m Swim 0 pd of Into the Of the '00 ofils 09 too the COW too to det TU f '20 jir-'Mod r urat debit. wool, tm a -WW11 411 cis 0 OIP Wad. Um *or- I ='a av. c wg alk- The a Jtted On a - lot the 10:0 0 tba twu wc~m v of Maio" r Val sedve tim IT ta. g" Ol ths O"ed MA an cm tow is from ;VL moo a"lo d tM9 6 PO Vjkdda- Imm we so ji 0 Aw" so W*w. C-A. foe &;:i~_ Ki iA766 WKW w IVA I the iss a of so f-w t1w ww -to goo tatasum of Nor wtm =.0f% -is lato the see of* I I'S" thes.*4 . dw I** :-_01COM v VMYS 0 t it of w no ffom bcorps [&,a of the e.g.,bY IL thb4'jwd thkil) - 014 too led 10 tugs 25 n,. 8. of Val. (10 64 " 75% "A tbm ' b to Id. Host Ve* 0. to woo TUSIE CLMOICATA* w a 4 v 424 ASII.SL a wITALLU"KAL ,"I.Icpg L al lo -__ Got 4'-w .0 olow ""OW Sao K 'It U 410 0 10.0 : " I o u VD is C, to It -46 0 0 0 o t o  Cand. Technical Sci- YAMi0jjT0VA, yE. L. de Concentrates of Ferrisulfate From SUM Building "ExtractiOn Of Zinc moscow Inst of ChemIcal-Mach-Ine - Sojutjons."~ sub 9 Jan 47f gineering ance and eng- Dissertitions presented for degrees in sci in MosdOw in 1947- SO: Suns Nov,457, 18 Apr 55  '6014IMS of forric suffsto soludo" an glu swerle. I. N. Kuz'Mht kh and H. J.. Yakhontoy I 0. ~ . __A_ Zhu,. ppikW. Khim. d Ej;d Chem.) 113, 1 j ODSO)~The amts. of Za tit . thNc reaction ZnS + Fe,(M)s - Zjjo, + 2FeS(h + 6 Inwit a Zug concentrate (151 47.9, Ph O.M. Fe 801. Cu 1,63; sieve anstlysis., more than 1).2 mm, 1.9, O.J.L_ OA02.45; OX"XiS, 4.75;0.07".00, &3; less than 0.03, 30-MV at 80. 90, and Ilk), increase with the tem by a factor Of LIS-1Z8110'. Le. the process is cotit 'MW fly diffusion. At cixist, trinp., and coust. coren. of the soi~l mspension. variation of either the coacti. at Zn+#- or of Fe" in the soln. haspructically no,cffect on therateol extri. of ZnSO~. or, in other words. the reaction Is not inhibited by its products. The rate of "In. is vVy nearly pmp)r- tio"al to the emcn. 0( Fe3(SOJs in the soln., and its in-N crease Is the faster the higher the concri. of the sWid sus- pension ("MAIquid ratio, 0- At differrut r, the same v,xress of Fe * * ' Its the soln. over the stoichloractrk slat. Pmluc" 431 equal increase of the amt. of Zn extd., ;.e. at any r and any compri. of the soin., the same ratio of the conen, of Pt prc".nt and the stoichimnetric unit. cives - the same increase of the rate. Thus. an increase of th; ex- "ss of Fel" from 24old to64old increases The amt. of Zu ciad. by a factor of 1.3. The greatest effect on the proct" is exerted by the lit portions of excess Fel": the inlenal. fying effect of Fe decreases with Its Increasing elms. At the mcne conen. of Fe,(SO,)g. the amt. of Za eitti. de- creases lineafly With Increasing cmicn. of free 113SO4; this 6 attributed to suppression of hydrolysis of the Fej(SO~)I. The accumulation of extd. Zn in the silln, increases linearly - wit tit high r is due only to 1111. Fei(SOh. For the r-ame reu. pontishment of the me. the rate of extn. falls somewhat with time. The completeness , of the exta. decads on the structure of the ore. Wbacus' frotnoneoce.c ram crized by well-sepd. sphalerite crystals and a low chalcopyrite content. mom than Sn% of the Zn tmild be estd. in 5 firs. of r - 211 x./l,another ore. of very acAtly the male clivin. Maim, Nit Willi 111111liately. inter- sphalcrile And rIL'Ikn)yfllC, y1chled lit nuat only about 33% of its Zu. lit the Ltter ore. part of the Ztt Was undoubtedly present in the form of ZnFeSp which is not attacked by Fel(504)v. De;pite the very great difIcrence of the total fractions of the zlis which couhl lie card. (MM the 2 *4""ples , the rules of the extn. under hlenticul miditimis were very nearly the surtic, The ainta. of (ice S obtained corresponded to the stoich"nefric tilustiml. N. Thon  Ri Militia Wet lixtrseatlit of An ffm 11 Mift" d was". 1. M. Kut'Wnykh anti It. P ikkd ;I the pe'(SO.). coWent of the soln. betw- inand S) q./l, CC Zn Of CXtn t f h r . Kkim. (J. Applied Client.) 23. 1142-H(M.93).-Extil. Of 2'110at;On I coll"23trate of t l M Z - e rA e t either reptits in a linear increase O t rate, depending on whether the of has no influence on ttu, ie rtimlin. n 17.2, P6 . i.32. % 3.72, Mn 3.52 Cu 0.24 $1j Fe 5 AS (I A W 1 amt. of pcii(Sod)& Is not or is in exec", c.i the stOichlOmet"c futtiter increaw it f , - , s . . A . ,06 12.2, t1 72 S 10 921% (.irve arialyxis: isime Outs 0.2 min., W.46, I Fe t'yomt . "-fotd Clem o efiect. on I he " of " " more Z", Pt 0.1-41.(r5, 6.45; O.OsS-11.19$ I 4AYA; kss than "Ifficral(vicill siio*vlg pyrite t ts, of znso~ lowen the rate lation In the solo. of small A the Intflactienew of ZnSO. t" to I Z e- , p f, 4tw"q4tite. pyrrhotinc, Cie.) lj~ Soln, of a ptl(soal Ylelils Illost tu plill n l n con n' of extri. of ever, AIX)VC 26 g. ZIIS(h/l-- In the txtn, (run, a Z113 ore; b- t h i y u l most comp ely Un, then Zij aml 191 (Ot taller In the f Il f j l e ra e it, further h=mw Is without further Influence on t the rate r t' id Ii id orin o nso . b!;(jij, slid no So anti Ca. Iletween S) und 100*. the tcrnp. coeff i ' ra o - qu / 01theexto. With Increasinf." of Za first increases Une2zlY. then hicreasinglY I- of exta 10 is 1.2-1.45, ind"ting thAt the process iscontrof kd E;rdiffusion. Variation at the Ft*# cant nt i h . Wly, owing to Progressive impover6liment of both the ate Of exto th e n t e solo. from 0 to 50 I.A. lwd rw effect on the rate of xt f Z . e l and the ore. For the same reason, "Ou of Ph to PiW C i e .n. o u. Unlike the extil, of Zn from a ZnS ore (cf. prtceding variation of the fret! JiSO content betwe n 11) d 50 4 Onv me, decreases slowly with t I the amt. lap behind the citn. of Z"; between 'I) "ad '()() ; The Is to 0 I f f , e an I.A. sho" no Influence on the accumulation of Za In the sotn. 2. . rom . of PbSO' increas" by a factor o of converlion is Proportional to r Ilevictri 2U and top t In ccrtain expis..,vvith a low 11,504 content (103 than 2f) the wt s.11 U ke or ) in d i b e v ra g./I.). andpracticallYcOost- with time ("ve"Illirs' at 1001, t . . e , crease n t ,=s of extn.. e,r, + wine no doubt to Put it rf basic F The inal. C1901t Of cooM51013 was 55% of the Pb presen Th N e , M V.'6tIou on . In the ore.    ZZ. ii 0 R C) , Ki  -Z i"Olubility 0 st-diuns nitrite and nitrate In water when so"a 14 Po"'t I . N Kurminy1ch anti U., ~ hont,,, Iti-t - Client. Technol 1qfm ;j;; 7 ; .. W c pVAq 1 VS.SR :4 Hot l __ e . Initimlation).- Thr N4IN')*,tn.f phs% NnNo, Ito olir poitien ce 'Itt'stitillr4 14 ";so 111ractiml its the tvitill, 0411P. It, 311, f A.Allivia-MIt it, the hill"al Itirlhisil" n( Alrkk"v 1-4 No. "S it .t I, , . I l IM77 21v4) In OhN stirthtsil the rtsip v. 'e.0 % i-milly Whru [fir Initi l . ,m "t. . . .4 I m two %r- 1141flivol", lit 41401 'tNIVII, . h (( Na t a mital oplicur's AI the 4411W 1. -4^1 and when Its- In-t crystal df-aplic r~ . It tha I -'sit'sile m co:.N-1160 .11!0 gubank, - ", C a a~ Al- --In i0srm"l 'rho. inrar; .f Ile I"() toritilinaw is taken SA, i.,therin, (4 Ole - I aitnitit join" III Worst, r 41 tit 4%. 'Jittile at flam Py-trin Aim it IWsid it 1; 7% N'lit0h in moist inifirall,1 1 th In thr %OW- 1 e aptiorstrance Oita tie" 1W.11,111, livotrialrit NaC(JI,. When Xm,Co~  The action of a solution of forric amillate upoo Im stanae, 1. N. Kninsinylth and H, L. 'j'stIthrmova (Nfcntlclcvv InAt. Chrin, '[Whn-l, U.S.S.R. 24, 4M)-fM(IO5lXHnSl. lra~%latloo).-Pefi feActs quAnti. tallycly with aq. fleg(SOA it) itivr Pe.40., and S. Fr3 was i,rrrxl. by heming pytit" to 7.'PO-NX)' Its stram, to yield it Im-hict conig, $4.4% Ile& Another sample FeS) wjk% Obtafiml Imm the VKbZ 1 11080. phint. Untples.werr Imitnt with 100~v, portimigs of achlailaird 11CIVIK10" stoichlosittifiv, ykkls were obtained, Imfrase. In teInP. 2CCCICMtC* the PrOCIM; P60, MCCUMU12tiOn S14WA ittlown. Increase In Ft*** amlerates the Initial maction. Increasing acidity decelerates the reaction. 71c rate Is pmr4wifonal to the quantity of FrShc, C- hf. Afamn  R.t~ f S.lu"- 1~t c If .~.,=r I!, ~. -1c Cid auflng a~rmti.n i, .__; ~O~w 1-; IL-11- 11,1-- i ~ ;, : - 1 1, .; . 4 , 1 .1 ) :: 1 : . 0  Rate of tofu doll lerittlan. fdill cageer ! . , --- - I kill, ad na ~ I *WOW gk--. ta so . a .as studied ander the foijb~ing conditions: temp. 20-70'. H,Q0, in soln ; A .. CuSO, 5-2 1-4 9A, 1760- 11 -," g I., Fev~SO, 1., iir stream V~-WO and 1,11anor. Jf)-, S"~n -as accelcrvLd with rito, in temp '~'p t~ e pvl--t- i& I.t affected bv CuSO., but at Y)' and .~o' t '-er~ !i I -~-vfcrable irceleration of the -ntent of H'So. 71--~' ~~,AS4 a-clzritm the proc- eI4 tc, 1 1-- -1": - Ig ~.f% oxulan.n b~ virn oxygrn -13c, .-;c we .1 -in a little 'n 1-  /U J_&~-Vll Categori USSR B-11 Abs Jour: Zh--Kh, No 3, 1957, 7657 Author : Kuz'mir-ykh, I. N., Yakhontova, Ye. L., and Voroblyeva, V. T. Inst : Moscow Chemical Engineering Institute Title : Some Properties of Aqueous Solutions of Ammonium Sulfate, Sulfite, and Bisulfite Orig Pub- Tr. Mosk. Khim. -Tekhnol. In-ta, 1956, Vol 22, 202-205 Abstract: The density, viscosity, and pH of aqueous solutions of ammon- iurn sulfate, sulfite, and bisul-fite have been determined. The effect of ammonia on the solubility of ammonium sulfate and ammonium sulfite in H 20 in the presence of each other has been investigated. According to the data obtained by the authors, the investigated systems appear to be unsaturated in sulfite. Card  Itato (d oxidaticim at ammouium sWrlue, and wzvpT9u= 'n the 'L Y'iaiOll- 7-7 -W- z'. audation of rikijibrO,~Nh,~~SO, ' nults. it; furfurall -cant g. sains. by 3ur w ~s in vcstigmcd. At-OQ-40* (itht MIS OfliCaCUOR WILS iUdCPeMdeat Of ttMti~ ;Md W= 1prOpQrtI=aI to the cuum. rf sCh in the Sala and to air ' I'va rrho. v2wl- m the rate occurred at L~- 5.6 pl! of Lhe ~31n. Lhaz app-mi clnmpcrided Lo tb~ crituili,Jar cuacn. of suKte azzd NsWilte ia the Uader tl:csr co(Arwu.". the PH of Itfir "n. mnminc-d const. The mt. of oxiJat; meTeased   50 AUTHORSt (Deceased), SOV/1 53-58-3-1 5P0 Kuzlminykh, I. N., Y&khQato_y&,_Yb"., Rodionov, A. I., Yermakova, Ye. I. TITLE: Drying of Superphosphate in a Boiling Layer (Podsushka superfosfata v kipyashchem sloye) PERIODICALz Izvestiya vysshikh uchebnykh zavedeniy. Khimiya i khimicheskaya tekhnologiya, 1958, Nr 3, PP 80 - 85 (USSR) ABSTRACT: The superphosphate produced in Soviet factories from apatite (continuous method) contains 19#3 - 19,9~ assimilable P 20 5' including 10 - 12~. H20. As 1% H2 0 corresponds to 0,2% P 205P the removal of the humidity would increase the content of useful substance which again offers further advantages. Superphosphate may, h8wever, not be overheated, as tempera- tures above 130 - 150 retranaform part of the P20 5 into a non-assimilable form. The method of the boiling layer sug- gested in this paper could also be used for the purpose mentioned. The lack of references in this field stimulated Card 1/4 this work. In this method the heat exchange takes place  Drying of Superphosphate in a Boiling Layer SOV/153-58-3-15/30 intensely and the whole substance scattered over the grating has the same temperature. , In the present paper the degree of the drying of superphosphate as dependent on temperature and the duration of the blowing out with air is to be deter- mined, and it is to be made clear to which extent the degree of drying depends on the content of free P 20 5' As far as the ripening represents a bottleneck of modern superphosphate production it would be interesting to find out whether the ripening reaction is not accelerated in the boiling layer. Therefrom it could be concluded which superphosphate (fresh or ripened) is suited better for blowing out by air. The first experimental stage was carried out on a laboratory basis (Fig 1). Then the experiments were continupd at the Voskresenskiy Xhimkombinat (VagamswAsIk Obwdce 'I KwablnWh.) . RimUlta- obtained showed-the. authors that the method of the boiling layer is a simple and good means of afterdrying the superphosphate ready for shipment. Especially the waste gases of the sulfuric acid plants (the completely anhydrous ones from contact systems or those with a low water content Card 2/4 of the tower systems) may be used for this purpose. The  Drying of Superphosphate in a Boiling Layer SOV/1 53-58-3-15/30 additional expenditure for the afterdrying of the super- phosphate is probably the least expensive one with the method of the boiling layer. On the other hand, the transport means are relieved by about 7% and the transport costs of a then more valuable fertilizer per unit of useful substance are decreased. -The possibility of simultaneously neutralizing the free P 0 by ammonia seems possible. This would further 2 5 increase the quality of the fertilizer. The authors draw the following conclusions from their.resultat The humidity content decreases in superphosphate with the decrease of the content of free P 0 and with the increase in temperature: 0 2, 5 0 at 40 the humidity was removed to 50%, at 50 to two thirds. After 5 - 10 minutes the drying is finished. No perceivable variations of the degree of ripeiiing are noticed during the drying of superphosphate. A more intense drying delays the ripening during the subsequent storing. The treatment with air in the boiling layer (without evaporation of the humidity) does also not accelerate the ripening. In spite of a consider- able humidity content superphosphate is easily brought into Card 3/4 the pseudo-liquefying state. The bigger the amount of  Drying of Superphosphate in a Boiling Layer SOV/153-58-3-15/30 puperphosphate on the gratingthe higher is the gas velocity in the apparatus required to form a pseudo-liquefied layer. There are 5 figures. ASSOCIATION: M08kovskiy khimiko-tekhnoiogicheskiy institut imeni D. I. Mendeleyeva (Moscow institute of 'Chemical Technology imeni D. I. Mendeleyev); Kafedra tekhnologii minerallnykh kislot i soley (Chair of the Teohnology,of Mineral Acids and Salts) SUBMITTED: October 12, 1957 Card 4/4      A,. j A. G. 1~-c-::aratloyt of ',lcric -,ci-d Irv sul."UrIc aciC~ ',,,bur,,prik).IhiDl. 38 vio..3,1:2401-21,06 11 165,. hi!;xovskiy Wh4XI,ko-takhnologicheskly instittif.' imnrul c 1.963. Mcmdulayevae uLyndt"'o-O October 17~  # ---I *  ASKAROV, A.A.; YAMIONTOVA, Yu.V.,--.,-,. Biomycin treatment of right-sided colitis. IzvXl UZ.SSR- Ser.mod. no.4:5-9 '58. WRA i2'-5) J.-Tashkentakiy gosudarstvennyy meditainskiy institut. (COLITIS) (AIMMMIN)  ASIKAROV, A.A., prof.L_R~~O~~~ kand.med.nauk; PARPrM, K.H. Clinical aspects of right-oided colitim. Ned.zhur&Uzbo no@"; 18-23 Ag-S '58. (MMA 13 1. Iz 2-y terapevtichemkoy kliniki Tashkentskogo gosudarst- vennogo moditsinskogo instituta. (OOLITIS)    ~itS~__Ir-lia7lfll~ P.V~_m CX~~I=ISVR ~VZM I AMZRWF~~_91VPT-_,~_ - -'d MIKRyUKOVA, Lidiya. ovinarka; YAMONTOVA, Z., red.; GOLUBKOVA, G*q tek:hn.red. CH3, happiness] X08 schsst#O- Moskva, lzd-vo TsK VIKSK fiMc,lodsia gvardiia." 1960. 29 p. (JURA 13:11) Sovkhoz Gazyrakly" Krasnodarskogo kraYs (for mikryukova). (Swine breeding)  RUDMA,Bvgeniya Maksimovna, 1920-; YAKHONTOVA,Z., redaktor; GOLUBKOVA, G., tekhnicheskiy redaktor [While the heart beats] Poks stuchIit serdtae. [Moskva] Izd-vo TsK VIESM "Molodain gvardiia," 1955. 126 p. (MIRA 9:?) (Women in aeronautics)  MOE S.O.F., kandidat tekhnichesk$~h nauk; KELM'BV, L.P., kandidat tokhnichesirikh n-au-k,, UMIOV, X.S., inzhener. Now norme for coustmcbing jud maintaining -rails on the curved parto of tracke. Zhel.dor. transp. -38 no.10:64-69 0 '56. (MLM 9:11) (Railroade-Curyips and turnouts)  YAICIOV) M. S.: ~~er T ech Sot (diss) "Standardization of the ourvature on str,3.ight and. winding Portions of railroad lines". MOSCCYT, 1958. 12 pp (Min Transportation USSR, All-Union Sci Rea Inst of Railroad TransPort), 150 copies (KL' 140 5, 1959~ 152)  YAKHOV, M.S., inzh. Use of separate fastenings. Pat' I put. khoz. no.9:32-3) S '58. (Railroads--Rails--Fastenings) (MIRk 11:9)     NIRA 18:7)  V V 6elk~. 6~6~`ufi' d' Recoidiir iW'an Utideafenedla, :."I rik' IJ`b~ It liar hatova and V. Ya. Yakhov., Uch. Zap GorIkovsk. Un-ta 30, 1956, 137-141 (from Referativrwy Zhurnal.-- Fizika No 10, Oct 56, p p Abstract No 29654) A schematic of.converBion of varying de electric voltage into ac is .,presented.; It facilitates recording on a high-speed logarithmic level -.-recorder. The converter consists of a multivibrator operating on SL fre-. ~-:.quency of 10 kc, a modulator and limiter, built on two rectifiers. Re- _~ults of measurement are presented showing the dependence of the level sound pressure in the tank on distance in a'stratified unhomogeneous ~,medium with a constant-Aemperature gradient 0.80 for each cm. of depth. :~F.The measurements were carried out using pulse techniques. The results ..:,agree-with compu 9,~s:based on.geometric-acoustics.  11 -rl . Totil rztrogeri. case-In, and cant- In --he milk of hzlkaniya fine-wool. ard ahoop dartmg perllo-d., Dop. All 1JR-R -no.10,.!1'l36-i339 '64. the lo-c-Lbatior" OCTRA -M~12'1 1. Nauchno-issledovatells'Kiy instttut. fiziologli i blokhLmil tn.ykh. Predstavisno akademikom rie .;.Ko~hozyayrttQnrqkh zlil.,4r ullll.~ZR MIF, Guly'la '1111ilyiq MI.F.I.-     USSR M-4 ATMYORY J01JR. RZU014 /f, '1959, 1,10. 86998 AUTHOR Yakhte nfel Id i A. Zyus-lkot Ya.G. T ITILS: Secid Distribution in Dif ferent Procedwe S of Sowing Spring Wheat. ::Zemledcliye, 1957, No 17 (8-71 ORIG; PUB. ABiMACT In 1951-1954 were tested, at the 6iberian Scientific Resca.-ch institute of Agriculture, different procedures of sowing spring wheatz narrow rows, broadcast, C7 n 1. Greatest wrilformity In ti, crossigise, and conve tiona lc, distribution of plants was attained on narrud-row sowing, and the least -- on conventional row sowing. IJ'gh-est yield of grain was obtained on na.-row-row and particularly on crosswise nowing. Crosswise sowing resulted in a better Stand of seedlings and higher viability of -the plants. G. N. Chernov. CARD:  AFAMAS'MA,A.L., kand.biol.nauk; BAYWRTUYEV, A.A., kand. sell skokhozyaystveu- nykh nauk; RALICHUGOV, A-V-, kand.sellskokhozyaystvennykh neuk; mmmm' II.A., agronow; BBLOZOROV, A.T., kand.sellskokhozyayetvea- nykh aauk; HMIHEIIKO, V.P., agronom;- BXMIKOV, V-V-i doktor sellsko- khozyaystvennykh nauk; BOGOMYAGKOV. O.T., kand. sell skokhozyaystven- nykh.nauk; VOLYNXTS, O.S., agronom; BODROV, M.S., kand.sellskokhozyay- stvennykh nauk; BOGGSIAAVSKIY, V.P., kand.takhn.nank; KHRUPPA, I.F., kand.takhn.nauk; VFM4XR, A.R., doktor biol.nauk; VOZBIJTSKAYA, A.Ye., kand.ssl,'skokhozyaystvemykh nauk; VOINOV, P.A., kand.sellskokhozyay- stvannykh neuk; VYSOKOS. G.P., kand.biol.nauk; GAIDIN, M-V., inzhener- mekbanik; GERASIMOV, S.A., kand.tekhn.nauk; GORSHENIN, K.F., doktor sell skokhozyaystvennykh nauk- YELSITEV, A.V., Inzhener-makhanik-, GMASKEVICH,.S.V., mokhanik tdoceased]; ZHARIKOVA, L.D., kand.sellsko- khozyaystvennykh nauk; ZHEGAIDV, I.S., kand.takhn.nauk; ZIMINA, Ye.A., agronom; BARANOV, V.V.. kand.tekhn.nauk: PAVIOV. V.D.; IVA110Y, V.K., 1r-and.Sellskokhozyaystvennykh nauk; KAPIAIT. S.M., kand.sellskokhozyay- stvenrykh nauk-, KNTIN-YARTSEV, L.V., kand.seliskokhozyaystvannykh nauk; KOFTRIN, V.I., doktor aellskokhozyaystvennykh nauk; KOCHERGIN. A-Ye., kand.se1lBkokhozyaystvaWkh nauk; KOZHEVNIKOV, A.R., k9nd. Sol Iskokhozyays tvennykh nauk; KUZOTSOV, I.11., ka nd. sell skokhozyay~ stvermykh nauk; LAMBIN, A.Z., doktor biol,nauk; IXOIITIYNV, S.I., kand,aellekokhozysymtvenny1,b nauk; HAYMODA, N.H., kand.sf)j'zko- khozyaystvannykh nauk; MAKAROVA. G.I., kand.sel'9kokhozy9ystvennykh nauk; MICLINIKOV, G.A., Inxhener; ZHDANOV, B.A., kand.sellskokhozya~-. stvannykh nauk; MIKHAYI&IKO, M.A., kand.sellskokhozyaystvennykh nauk; MAGILIIVTUVA, H.A., kand.sellskokhozysystvennykh nauk; (Continued on fiext card)  AFAMASOYEVA, A.L.... (continued) Card 2. HIKIFOROY, F-Ya., kand.sel'skokbozyaystvennykh nank; IMIIASHEV, N.I., lesovod; ,MVUSHINA-0 A.H., agronom; PWTUIKOT, N.A., ksad.bLo1.naqkj L@G.; kmnd.sal0skokhozyaystvennykh nauk; PAVLOV. V.D., kand.tekhn. nauk; FRUTSKOVA, X.G..,~-k~nd.sellskokhozyaystvennykh nauk; OURCHENKO, V.L., agronom; POPOVA, G.I.. kand. ael'skokhozyaystvennyka nauk; PCRTYANKO, A.F., agronom; RUGHKIN, V.N., prof.; RUSHKOVSKIY. T.V., agronom; SAVITSKIY, H.S., kand.sellskokhozyaystvannykh nauk; BOLDIN, D.T., agronom; NESTEROVA, A.Y., agronom; SERAPIMOVICH, L.t., kand. takhn.nauk; SMIRNOV, I.H.. kand.seI'skokhozyay9tvennykh nauk; SHWRYANSKAYA, P.I.. kand.tikhn.nmuk; T01CHTUYNY, A.Y., kand. seltako- khozyaystvannykh nauk; FALIKO, O.S., iznh..- YRDYUSHIII, A.V., doktor biol.nauk; SERVLYAGIII, A.I., kandws9l'skokhozyayztvemykh nauk; YUMOV, V.A., kand.sellskokhozyaystvennykh nauk-JAMEWELID. P.A. kand.se1'akokhozyaystvennykb nauk; SIDUCHOVSKIY, ;.X Z.D., takha.red. (Ifandbook for Siberian agriculturists] Spravochnsia kniga agronoma S,ibiri. Moskva, Goa. izd-vo sellk *hoz. lit-r7. Vol.l. 1957il?14 p. (Siberia-Agriculture) (MIRA .2)   Ad~pting the sigriaalture system to various soil and climate conditions in.Rovosibirok Province. Zemledelie 6 no.10:3~10 0,158. (KIRA 11:11) 1.,Sibirskiy ordena Trudovogo Krasnogo Znameui nauchno-4ssledo- vatellskiy Inatitut mallskogo khosyny (Novosibixsk.Province--Agr cul  YAKHTEWWDI--Prh--*, kand. eel I skokhoz.nauk Clean fallows in Siberia in their partial replacement by green fallows. Zemledelis 7 no.10:35-42 0 '59. (KIRA 13:1) 1. Sibirakiy ordena Trudovogo Krasnogo Znameni nauchno- iseledavatellekiy institut sel"skogo khozyaystva. (Fallowing)      prof.; BALASHOV, V.V., aspirant mendations. Zemledelie 26 no.O: Erroneous concepts in reconi 93-95 S 164, (m IRA 17: 11) 1. Volgogradskiy sellskokhozyaystvennyy in.-titut.  T11 .. . ....... d r-erio~.j of rab, Sar. g0s. mea. ini't. ,tyialtal perlod. Obor. n (11FRA ctdplr-rA",,e (,,c,,j,czIjrcy kliniclieskoy bol?nItsil Privol-obakoy 7,11clezrioy derog-I I Saratov. 2. Nuchallnik for aki-i.-ihprsl,-o-g.,Lnel-olotfi,elie,,ikogo obtl yf,, dine n Iya, Sarato" k yakiltina.)  rULIyEV., S.)I.; KAMEDOV, A.B.; IZMAIWV, T.Z.; SHAKHRAZBEKOV, K.B.; SHIJ' RALIUV, I.A. IOAMSYAN, R. A. YAKH1 TA ILI- YULLA OGLY Susiaining formation pressure in gas-condeneatepoole by means of water injection. Trudy Azerb. ind., inst. no.lg:'65-101 '57. t (min 11:9) (Apsheron Peninsula--Condensate oil wells)  J C 4: nI I Ir 3aY C II L ni: eec t r .3 n - Dositron beams SOURCEt Zhurnal eksperimentallnoy i tooratichaskoy f iziki v. 47 no. 4, 1964, 1463-1467 TOPIC TAGSt pair production, proton, an,.iproton, colliding beam, electron beam, positron beam, polarization, angular distribution, energy distributioa ABSTRACT! The authors investigated the Zroduction of proton-antipro- ton pairs in the reaction e- + e + ~ p -4-- p, with account of the ef- .;ects rf the form factors and t1lie longitudinal spin polarization of alithe narticles Involved ~although a-, present there is no experi- mental indication that electrons have a finite dimension). Expres- mions were obtaiaed for the angular and onergy distributions of the produced pal rs These e xpre-aLl ions pe rm', t an axaminatior o f the Ccrd 1/3  15012-65 ACCESSION NRt AP4047913 effects of the form factore of the particles on these dLetrLbutionk :ind on the longitudinal spin correlption in this process, These . 11,ri-ilations we rE made in the low,~5' cr_'er of perturbation cheor,", -:.anirig that or ly 3ing"t-phot')n ex~:',.,inpes 1~etween the elect tron and protor -antipositron vert,,ces are considered. TL h 15 ana 1,1 5 is of interest in view of tht possibil! ties that have been opene., L, P b)r colliding-biam experiments desLgnec to check on the applicability cf quantum ele,:trodynamics a- very high energies. ~,e an-ular de- pendence ot' th(: clegree of latigitudina: polarization c,f the prot~)n- anciproton pai-a shows that it sma'! ~rgleq almost all the proton- i4ji t~p ro ton p ai,.-s p roduced h ave a s p i it cio r re I a t i on - I , -.11 th the frrac- e~on of the paLrs having a spin corre'-'ation +1 increasing with the an 4 le . The en,trgy dependence o f the le gree of longit udirial po la ri- Zatior. sho~rs C 'at fr~icl~ 1- Pairs with. V :dependence is very sen elle.rgy -The rm me r of;the proton, so tFat the longitudinal; polarization for the. eXtended proion'is alwa-s larger than for the point proton. "In conclusion we lihartk-Pt.. Kv- Keriviov, A. 1. sukhcarov, and If.. A. GulLyev for a dis-,~ Orig, art, hils, cussion of the results." 2 figures and 11 formulas,' Card 2/~  L 15012--i65 ACCESSION HRt AP4047913 ASSOCIATION: institut fiziki Akademii nauk Azerbavdzhanskoy SSR (In- st,itute of Physics, Academy of Scieacea,.AzerbSSR) SUBMITTEDs 15,&pv64 ENCLi 00 SUB CODE, NF 110 REP SOV: 002 OTHERi 005 ArD PRESS:'3143 Card 3/3  L 643u-65 _7 - IT /10, 1 A 2 ACCESSION NR: AP5012764 UR/0020/65/161/006/1317/131- tAU7HOR: Sokolovip A Sadykhov, A.; Kerlmov B. K. TITLE: Lepton anxiihilation of proton-antipraton pair with account of the form factors and of the polarization _Eo-rre1&_t_1oii_s_ SOURCE: IM SSSR. D:)klady, V. 161, no. 6, 196-,,, 1517-1319 !TOPIC TAGS: particle interaction, correlation statistics, lepton, prolton, electron, positron, muon, proton pol&rization ABSTRAM., The: &uthorm- 1=estigate:-the- annihilstIon process - + p e- p Tor P t e or m+0 with simultaneous account of the form factors of the proton and of the polarization correlation between all the particles participatir4q In the process. The matrix element for the Drocess Is written out in the rirjC,IP_nh,-itnn approxi'-B~11~,,n ind a -S g'V-n '-,r cr)~:~z z-