SCIENTIFIC ABSTRACT ISHKHANOVA, Y. - ISHLINSKIY, A.

MONGAYT, I.L.; KULAKOV, Ye.A.;ISHKHANOVA, YO.B.1 VANDMI N.Y. Biological purification of waste water ftom synthetic fiber plants. Ochis. stoch. vod. no.3:1~~166 162. (MM 16:5) (Ilmkitriai waste a-ftrification)  ISHIMAITYA111, S. G. "Data on the History, Occurence, Clinical Course and Epidemiology of Leprosy." Sub 30 Oct 51, Central Inst for the Advanced Training of Physicl&nB. Dissertations presented for science and engineering degrees In Moscow during 1951. 301 Sumi No. 480,, 9 flay 55.  ISHMUNTAN 9 BAYRANALIBMI, I.T. Comparative evaluation of the results of combined sulfonotherapy In Azerbaijantan leprosarium. Aserb.medshar, no,3t58-60 We 160. (MIRA 13:6) Mmus--wMAPIMIC UU) (Umff )  Tb,ili.si Sta-Le smamia.f. 19M Adpo.o.aq. 96 a pac.pocipoweiWe ""ran* wommo 1963. 30.46 4*mx R-o"afts 6 Rp"wAr. 7W K.**.&AS* Am**& Sac- 19114. 75 [431 c, .56~ Came. wnAv dovelamb"I "op. 3&g. 1953, 24,5. WmKcwmI 765- H-C*-A-MB-AN HAb. Ap- 1944. 64 & -NAD844, "c"o4o"Kne a4socavoevm -3010. It*. " sma"maw.14 tommam"Ya.. B .. A a "a- 757, Kmp4mocm , 3#wiojp- Am- moss sommorp"ns. 1937, 111 Paboams. MCCACANOWN0 4 326. 1957, 22.6. 91 fteolmimeNcesoO .0, 766. n .... m.vcv-Hmvo.*Aav Arvess, Am smacor, 3200 O"s "A H..o..m 0 apswo. rposse. .Pa. 1957. got. wasaw "pud"s .... B.P.8 . &ammawrps. im. 11"T. 14.9. amossaam; a"."As, 1044, 11), 33 c. 734. Kapas.wAs. Hp..A.2 3sag. 1944, 23.10, Amasos*s-q. K smasp-cl Nev-st-o 767. n*ANTDD HUBOASS rpX, 1040. 33 C.. '. Pa 0 a a %. U..,Pw me.. opw 3M. 1w. sx& mma;poao4..Wsw'cm.Wk,u p.c,~.~ Aop-To- w.a.a.a. 19%. 2W c., 66 pae. (H.Cf. #.-- AH rpys. CCP). AOg*s 06 oalwavaess. D.ovra~ 3~,U. 1936, 29, 12. ON~AO&Cr*&& ANTS ~2 W P&CC- 7". C.NoPcaail 10P.4 A.Ap.- Me . ~ ommog U~JW po~a.aa "._. samat 'ps."ormal. 1"#. 46 c, as. 390- 1*54, 23.1 1- -0. - --P&--P& 74& Kot.sawo... IdN.*.A fl.o~- '949. 46. 3,W. 1944, 26 12. A.... 769 81.,.A. rams Pam&.- ,-" .6sam_7a ",,- 1936, 68 , XYV- 1957, 21--L sos.%. rkp...A..d o".4,w mmW4 761. T.I.Y- ON. .2 WSAY$4 . WAY. 1946. 24 c 34M. 19", 30,1. Pa* H an H~Av.wva, Pon- Q-o4.r.- -- XAPa- C 770- Uall.maft... PYCIASK 60' -a - 'p-aos. 1957, 90 . ......... H .... p- Om"o.1p.. 131 C., 73 Pam. ~ CVOICT" OCT ... Was.% NOW.p- 3M, 1"7, 21.0. ~.v cop.. 1933. 69 ,, a P.c. Ir". 70. Mr.4p.. 0'.860 Macao. c, a. ".cv. rjyx~ CCP). *a, X C&OWSrOmo-1-ft - Sam. 1956. 1.6. mAs .#Wp."a Twp,,~-, 76 -, 3 771. 4 .... v.,486 BaBAmm.p Ua.. 6 pac. sa.epwsm.w... Crove-uc." a.- 3,W 900, 5-7- pas ... omw a uct.atmova.san NW- 763 Map.&.&aw rp ... p.m "" a " rom"T.Oro pa."4... a oy.p.. aEll 100 c.. I A. P- (Mo". I.000 T rooossam. AKas. Hays rpj~ CCP). WO 0 NNA- Am ONOW10 MMMD- 3M- jft3, v.4, 19.4. ft~~ AV SOO de  x v v A m is v u is is 40 4, a.1 TI vi 0 a r Yy 1 .. A i 11T Afto Ito Mom --o 'o IWO 00 asmall o0-' -00 *0 As 0: 41'by see so too 7-. Alm'.2161% MITALLNOMA Ln*#jiTW~ C'LAVOKAIM Dow 8444mo $*too* Nip 4mv out AV la 14 0-0-- a li : : :q :': 00 0 f* 0 0"00 *.ALA 0, 0 ~ 0 0  W X a 4 41 '41 ' I M-LUA A . 'I A k a '1'.4 !go C. A. Ull Ow. I ~ son* d" t N I g I I s U O o me . Opitimms '- #w MU. A we obtsind w" s 37-0% ad 0. owbk -in of vw 0 mad N is ikk in A Md toa As lit s l: 010%41 of In the 0 IRS of da low adma i . - t in wommy to ccu- xog~ It. p F l: 40 fix 0dow Get. MUA" as ORA A 81 SW am 4#t v it-; It 09 " w '43A,  a a V Ll 9 m & t a 4~ * I v P 0 0 0 0 46 0 0 R 9 . U' 0 4 4 :W )a It a u m w sa it t j'4V j.; 00 00 A It -00 o wAddru skoss In Ormul. with a nmurqwmt stetakwkwesel ol goo "a Sok 9308dw 2. the NWW at Ism lengiss liD to -tor) i Tbw 4 Ygr od . . 4 m t IW* Ill, l Av . CAP". viuQu to Ad& Inft the - '-dMnk =00 ZOGN 190 MW-Ru 1 tu l l d bWW d h 600 . m o s , . e we as t p e owtW. the cbW caum d MP43" is the p~ 4d god "'Polms for IkOW Ot MOY Omw " tk rutift of wildre kele is tim mterW la the kwm of inchakm or a emm- ewmn. wlich gm a rapW lurrmw In PremAm med agralmd stnectum. M. 0. Cog efu gee R-L&I -Its WVALtU4GiCAL 4,1141110011 CLOWICAVOM nt. *AN 10 IF 0 0 0 0 0 0 0 0 0 0 U 0 I &L 0-0 0 0'* * * 0.0V 0 0 0 Wo a 9 0 0 0 0 Og~* 010.0.OiL& g  *000000000000006 0 0 4 -'swele 0 a 0 0 0 0 0 0 0 0 0 a 0 0' 0:F1 I I I . t . r 1 0 1;" 1; .1w ts ..vN, I. ,- - - -.-...- A I N If .4 A A It A ?v 11 M I, jo IV v it ii #1 j, Y--L-J- L-M- WA. is Mi -IMISOW wj INS! l"i -.1. 0 Od ON "Oty1fte mad wirb" dwitide in uqwd 0 41 a d P. Z.* IM.-EXPIL data Aivrn ill.' figults and Infilts 00 1.00 11ho %bor wfultillitin of wild CV11j and Cth in 1xitio& bqvW 0 will N wild their mists. lu ttmps- frmt 17.4 to 0 OOA*K.= tk* 11MM ftktim W4 N (Aln - 8 -so witb A TOR. 8 - 4AWAM 1w C*Ht and A - M.M. (or fWa. F. Rathinavvet -00 .00 'R 60 0 0 1 0 1.00 00 coo 00.3 coo Koo 016 40 see ttoo troo woo J.c In b u is AV NO W` IV a 11 a a it 46MAXIA 00*000;000000~Ooooooooooooolo*oooooooooof 00 0 0 0 0 411 0 0 00 000*000-000000 see 0 0 w0 0.6 6 ;o* 00 0 a & &I  *see**** 00*0 00* *cuall"' 0 @*a 0 614006600060066496 0 0 0 9 0 0 0 a 0 0 41 9~'. A 7 [7~ 00 01016C91441 AND 046P641141 W"S i ca"W" tor The owwUNS"S propuillas of 6KInI. Igo GrI. pw* , "d SO " - H k AQ;r, C" N4. (U: S bl'i 1106 apffatim of an &pp. Ivith md the points at whkh A- %=bt in'1111oftwup to Wivr. aluvost "Mpkte wpm. d 0 md N. we dkvmd. .0.0 Igoe Go* t a** 00 flow a file-$ A ORTALLVMGWAL LF"NATI11011 CLAISIFICATIMP was" loujov 11441M #a 144490 -to amm, 041C 111111111619 651t.51 dK MW All 1k - if a I T I v 1 6 a A A % a 06 4 a 0,11 111 1119A 4 3 4 of fell goll 044:0.9*10ASSAPS OA 0 SA 0 WO-O 0* 0_0 0 Ole, 0 0 0 46 0 Soo 000  *149*0049000041000000 00, 00, al 0.2 of 00400000 kto MIA J ) _4 ~ 4 1 A 0 4. -- o 0 00 ig R 4 -00 .0* ld 1a r I 1.00 ki, aw famillp"U" .00 OPPOWAIL A. 1. thttitzirva. 1. 11. JAWn mW M. U, -00 Kal'aiiiiiiii icb. J. CAM. led. No. 4-A, 43, 14VNO). - Alop, -motg, a i4iordal t-Wanso Im rmlifying .00 the k fractka hom sk 6 &ft-filwd, In 06 slop, 6) 7 .40 #A tim Xf CM hir ICIIIOMI friNVI OW 0 a-I 4 Kf-Xv 11-lif. Lek-ewt 0,00 A-,00, a saaamo IF 4"IF Oat u A. so al; Ito In J1 .0, opt a, 00000004 0 0 0 0 N o o 4 00004 0-000 L60 Soo too '00 nee 11101a TA- ~ri a -1 w IR 0 a 'a 31 Its 000000*0900004,0901--, .0 a #1 0 0 0 0 t & 0 Wo o , :1: *0 o Io  0 0 11- -.1000 so* 0 0 0 a*# a 900000- --0l 4 , - -T:O.o fR 0 0 0 0 01~ 000 000 of 0 e-0 * 0 : , A rf .1 u p I k to tj it 4 ~j is r, 0 AS et 09 -r- - -00 ISO Ii oW exp6dom -mopmatim appats, 00 _a Is the alr ruc P. X. flarbis 4"11 k IC"'I III. j 0A.. 4r, 7-8, n-4 1961. No. to W-,%; KUM* 0 09411),-Kw~ al alf-mom late thle fit the Itt". 0 C" in dw *VW 0. wampkiim 14WIN141 low the 0 km cam 0 iti. ~ ii lives de o I-,-, ~ t I SA wd b md as the obweaims wm. Tko W,40 '-oo 6v The "Mgbm to tbr -so at. 4r, Mrs is mm. 0 40161110MMINCOdNWAMO. W. 11, Ilva" 010 of ago: -V 001 Qoo :I. Z's it astw Itblick It WOO L71 -I- It'll a W-0 It kV 00 AA I a pal"O" flit a it it a if a No A I ,)is 0 000,00 00 *1* 0000 0 0 0:0 0 W, 410 0-0 * ;%, 41 ; U  610 0 0 0 0 0 0,0 0 IS 0 0 0 as as a it III At 41 of S It I I Lv I, u 0" 0 " !1 4! it CIA jov u tn IL-a, 0. , I I INI, At( 401vt 4 St Ole- o 04i 01 00:: 00 *ww4v 014 puom J,; jo seinasuad uavAloq 00 0 BuTivando &Togo pToo v soon p",pvsop juadTnbe olqnjod-pw eq, 00 00- 0 6 60. '(VIP* '77 *TOA '056T "-tlgqV 0043 uV Pull *960T 4T -10A U 00-! #9#16T "'ll "Wello III J!tsqv tic-qz '10,11, '916t l(u-J"O) 4 Oe P0,015TV "UMWT pug AA .N A03410,401pom WADLXC) I - -I v0 -40 NOTIOlaOrd i HOA MIA SMO a0 JMI MOM- W7 -11M 00 00 00 00 It -ii t A Itt...1 00 f .1 to 00 to it q lCouff QK4 t1lifoll *III n 41 1; It It III 0 to 0 0 0, 0, 0 0 0 0 0 GCO :;Vie 0 do 0 0 111 0 0 a 0 00,94 4k -M-0 0 0 *-#oo** 0-0 0  .P meow 1111 as 10 oppomit" for arm) 1".. moz: 2i-,irwiftf so. 3. m"4&M Z*I*. 1"0. 7'jl.-A OW MdW i$ FOPMOd OW tht MWVAI a# Coils ken the sk. TM m"bod is boaW *pm a asody cl the System cosirm"m 0" of The dy"Ooke of the adool"Joe of C#Hs fram OrfNI Mo.. md jl* of the wil. "Iftent (Sil" 601). Thor Cor lood air P& thrmall a pftbmtw OW a Owns Mo Sol show thoumb ckmtk volvv isto the fog cohms. T% voklik Aractiom obtalmml in this colitmi ow posod late the 2*d cohoran she". The liquill fmm The evepwatur. wbkb is a low. al CJlq in O~ &at S.. in led fmo bighow 1, , Ims abodwr conte. Wits &L The, CJlrfr" OPM pow" Ibmall The Oo thriffile Vill" imle'llor *M VMJIYMII 406~, 1614c with the saks 90 iomlicatid that -- f, - .. -dw 0 wwfi with C411o wm due to a of 16A Mm i. I C*.% j?h&W shco prmuf in a Miss. wif M. C.- U.  P.1, Engineer Matribution of Argon in an 03ygen-Argon Separating Apparatus mW a Nothod for Intensifying the hveass Of Its'Production.0 Sub 16 Apr 47# Noscaw Order of TAnin Cbeideo-technological lust Imal CJ& 11endieley", Dissertations presented for degrees in science and engineering in Moscow in 1947 'Cot Sun No. h579 18 Apr 55  ISHKIN' I*P* Burbo, P.Z. and Ighkin,_IP, "Drying air with silica gel," Kislorod, 1948, No. 3, p. 1-10 - -'RItl4-cC: 10 iteps SO: U-2888. Letopis Zhurnallnykh Statey, No. 1. 1949  ISIEIN, I. P. ISIVIN, I. P. and SEMBFffANSHAYA, B- L IMxpand. the production of compressors and -flasks Tor the o-V--en industry", (First portion), Kislorod, 19118, No. 6, P. 1-4. SO: U-301t2q 11 Yia=h 53, ("etopistZhurnal 'Rfth Statey, Ho-7 19149).  ISEIN, I. r-. Mm" I. P. and SEREBIRYANSKAYA, B. L' "Cold losses in vessels to preserve and trans- port liquid o-V,,en", Kislorod,, 191~8, No. 6, p. 16-22. SO: U-3042, 11 March 53, (Letopis 'Zhumal Inykh Statey, No-7 1949).  LIPAdORIMMALAC"216 (Ind.= S&P. Ab., Xwo. ak, *o-a-; in am" d 2 ("we Ow Ms.. a po-m bWly ft a Now "m .00 so" ow do ra"d&M 10 to awd boo" akpn& lu t* dm ml~~Wft t" Noma  C)."Thermodynamic Analya is. of Irreversible. Low-Tempormv. II. Analysis,Of Individual-Trreversib~l*-, rr-f L '' ! ? I'D Processes in Low-Temperature Technology," 1. P. Ishk:in and V. M. Brodyanskiy Zhur Tekh Fiz" Vol 22, No 11, PY 1783-1793 Authors derive formulas for computation of the coefficients of thermodynamic reversibility and I astaticity, concepts of-:which.:vere introduced in Part I. On the basis ofthese tvo new coefficients 236iioo the. authors make subject analysis and point out tfie. possibility of &.general method for analyzing sIX processes in refrigerator and thermal installations.- Indebted to Prof A A. GukhngLn. 236TIOO~  Dissertation: "Trotection of the Aix- Fiactionation Apparatus Frrz Acetylene." 'J-- Tedh *-',ci Yoscow Chemicotechnological-"T-nst, F'oscow) 1953-3. (Pefer.~.Uvn.,rj Zhurnel-_ Khiriya, VOGcow ITO 5, Var 54) SO: SUM 243, 19 Oct 1954  USSR/Statistical Physics Thermodynamics. D-3 Abs Jour : Referat Zhur - Fizika, No 5, 1957, 11433 Author : Ishkin, I.P. Kaganer, N.G. Inst Title : Investigation of Thermodynamic Properties of Air and Nitro- gen at Low Temperatures Under Pressure. 1* Determ-1 tion of the Isothermal Throttle Effect of Air and Nitrogen. Orig Pub : Zh. tekhn. fiziki, 1956, 26, No 10, 2329-2337 Abstract : Description of a Betup for the determination of the isother- mal throttle effect of gases; the isothermal throttle ef- fect of air and nAtrogen was determined in a temperature range from 30 to -1830 a at pressures from 1-5 to 50 atmos. The magmitude of the effect of the air and of the nitrogen diminishes with increasing pressure at tenperatu- res above -500 C, and increases at temperatures less than -500 C - The magnitude of the isothermal throttle effect of saturated vapor passes through a minimm Card 1/2  I Z" r,- IN, I ~ 0- SUBJECT USSR / PHYSICS CARD 1 / 2 ?A - 1563 AUTHOR KAGANER,M.G. TITLE The Investigation of the Thermodynamic Properties of IAir and Nitrogen at Low Temperatures under Pressure. II. The Thermodynamic State Diagrams of Air and Mitrogen. PERIODICAL turn.techn fis 26, fasc.10, 2336-2347 (1956) Issued: 1; / 1�36 On the basis of the experimental results described by part I (~urn.techn.fis, .~.6, 2329 (1956)) the thermodynamic parameters and the thermodynamic state diagrams of air and oxygen are determined. These diagrams are supposed to be more accurate than those previously published. In the course of the construc- tion of these diagrams the following additional data were used: saturation pressure, heat capacity of the liquid, evaporation heat, thermal capacity of the gas at infinitely low pressure,, Next, the formulae used here for the computation of the following thermodynamic parameters are given: entalphyt entropy, and specific volume. In the present work the pressure ranges were extended up to pressures of 200 atm. Measuring results of the differential and of the integral adiabatic throttle effect of air are in sufficiently good agreement at pressures of more than 50 - 60 atm. For the computation of the thermodynamic parameters and for the construction of the diagrams the data ob- tained by H.HAUSEN, Forachungearb.a.d.Geb.Ingenieurwes. H.274 (1926) were Used. Deviations and necessary corrections are mentioned.  USSR/Physical Chemistry - Thermodynamics, Thermochemistry, B-8 Equilibria, Physical-Ch,2mical Analysis, Phase Transitions. Abs Jour Ref Zhur - Xhimiya, No 1, 1958, 330 composition within the temperature range from 26 to -1400 and under pressures up to 48 abs at that the divergrence of values of the isothermal choking effects from additive values is positive at a higa temperature and under low pressure and it is negative at a low temperature and a hiGh pressure. The thermodynamical properties of Ar were computed and graphs were plotted on co-ordinates enthalpy - temperature, temperature - entropy and pv/RT - pressure. Card 2/2  AUTHORS: --.Ishkin.-LX,.L Doctor of Technical Sciences 67-58-3-16liB katina, N.F., Engineer - Consultants TITLE: Technical Consultation (Tekhnichaskaya konsulltatisiya) Reply to Readers' Questions (Otvety chitatelyam) PERIODICAL: Kislorod, 1958, 11 , Nr 3, PP. 45-45 (USM) ABSTRACT: To Tov. Boltenkov:* C.luestion: Is it possible, in the case of the permnent absence of acetylene in the liquid of the vaporizer and in liquid oVg~n, to reduce the prescribed analyses undertaken for the'p~xrpose of do- termining acetylene to a minimum, e.g. to carry it out only,orice in one day, and to~'continue working in accordance with instru.6- tions only if the presence of acetylene haa:actually been as.tab- lished ? This question is raised in connection with the fact that the oxygen station concerned is located in a high mountainous region where the air is always pure and acetylene couB never,be found to be present in the apparatus in the course of the analyses carried out in accordance with instructions in the course of two years. Card 1/2 Answer- Independent of the fact whether acetylene was found to  Technical Consultation. Reply to Readers' Questions 67-58-3-16/18 be contained in the evaporation liquid or in the liquid o3ygen or not, control analyses must be carried out in accordance with instructions. In consideration of special local conditions, your chief engineer may order the working instructions to be modified to the extent he may deem opportune tinder the given circumstan,:eS. 1. Acetylene--Determitation 2. Oxygen--Production  AUTHORS: ' Ishkin I P Doctor of Technical Sciences, SOV/67-5&-4-18/29 1- - ttn-atl. ~21!1 1 ngineer T I T I,: Reply to Readers (1) (Ctvety chitatelyata) PERIODICAL: Kislorod, 1958, Nr 4, P 42; (USSR) ABSTRACT: To; Ibragimov and 14unasypova of Begovato TasbWirtalmys Oblast C,uestion: Is absoil.,tion of acetylene from tha`i~air on the solid caustic on the drying block possible 7 i Ansvim. Investigations of this problem carried ou t by the VNI IKIYash" 7A1-1-Union Scientific Research Institute for the Construction of Oxygen Machines) showed that such .an absorption cannot be fou .nd to occur ;n.the case of-an acetylene content in the air of"UP to 0,2 cm-)/mP. Question:.71hat precautions must be taken in connection ~rith oxygen condensers ? Answer: As starting, e.g. in the case of the . I apparatus NG-30, takes 18-24 hours, and~as in the case of existing %voVAng conditions ~ the presence of acetylene gas in air is quite -possible, it is possible that solid acetylene forms in the lower column of the apparatus during starting, which may cause an ex- Card 1A plosion. It is therefore.expedient to see to it that reliably pure  Reply to Readers (1) SOV167- 5&4-18/29 air is conveyed through the pipes from outside. These pipelines can also be fitted with acetylene-absorbers.~ Questiow. Where are apparatus for the determiruxtion of ao.eiWIo.,ne -in-a-Tr S ch a device can be madeaboording Tavailable ? Answer: u to drawings and descriptions available from ViNIIKIYash. Question: Is.it necessary to take the co 'rTection Yrith respect. to the loss of acetylene when.determined by the~condensation-oolor- imetrio method into &Qcount Answer-.. This is liot necessary be.- cause errors remain YrIthin permissible limiu. Question: Must the.colorimetrization scale4be, .submitted for oon- firmation to the chief engineer ? Ansiven Colo rime triz ation scales for the determination of acetylene content can be moxiced out by any laboratory, but they must be confirmed by the head of the laboratory. Question: Why is it not -possible to determine the acetylene content in the liquid of the vaporizer by analysis in;spite of the fa:ct that at the same time considerable quantities:of acetylene are found to be contained in the condenser ? Answer: With the 6,5 1 test it is possible to determine the acetylene content if its  Reply to Readers (1) sOV/67-,qa-41-18/29 concentration is not less than 0,009 cm3/l.:In the case:of a lower concentmtion it may not be possible to dete=ine it, but it may accuimlate in the liquid oxygen in thc~conaenser. Question: What method should be eikoloyed for the purpose of, determining acetylene in air ? Answer. The:method mentioned in "Vestnik Instituta fizicheskoy khimii AN USSR" (Reports, of the Institute of Physical Chemistry, AS 'Ukr' .'SSR), 1956,.Vol- 13, pp. 147-151 must be employed. Question: Is it possible to carry out t eL control- examination: of the unused remnants of the lye solution by means of the potentibmetric method ? Answer: There exist more simple methods as e.g. the method of titration (IN mi). Question: What are th,; la---t constructional changes carried out with respect to the ozySen plant XG-30 ? Axiswev: The production Pf such plAnts was stopped in 1955. Instead, new oxygen plants of the type MN-30 are now being built by the I. Moscow Autogenous Flant and the Odessa Plant for the building of aut6genous machines. Card 3/4  - Reply to Readers (1) SOV/67-5;8-4-18/29 1, Acetylenes 2. QVgen 3. Colorimetry  AUTHORS: I s rhkk 67-58-4-4/29 a, Doctor of Technical na.+ Sciences, SOY/ na, ?'.,-Engineer i TITLE: Reply to Readers (7) (0tvety chitatelywn) -FERIODICAL: Kislomd , 1958,, Ar 4,. P. 44-44 (USSR) ABSTFACT: To: A. G. Apostolov of Nikolayev, 0b]AMt# Question- Is it possible to regenerate a lye solution which was saturated with carbon dioxide from the air in the course.of operation ? Answer:.In chemical works regeneration of this kind is carried out with the solution of calcium Wroxide. In view of working conditions at o.Vgen stations this is not done be- cause such a process %muld be unprofitable with respect to the small quantities concerned. Question, What kind of leather is used for the purpose of making sleeves for piston rods ? Answer: For this purpose chix~wned leather (in accordance with-ftt71,398-48), which is speciall .y prepared, is used. The leather is saturated with synthetic wax having a dissolution heat of 82-880 or with a mixture of hydro- cazbon having a dissolution heat of 56 60'. Saturation is carried Card 1/2 out at 950. The sleeve is then punched in a hot conaition and  Reply to Readers (7) left in the punch until cooled. Card 2/2 SOV/67- 58-4-W29 1. Sodium hydroxide-Regeneration 2. Potassium hydroxide- Regeneration 3. Leather-Applications 4. Leather- Properties  SO-V/24-58-5-7/31 AUTHORS: Brodyanskiy, V. M. and ~P--.,(%oscow) TITLE: Thermodynamic Analysis of Irreversible Processes in Refrigerating Plants(Termodinamicheskiy.analiz neobratimykh protsessov v kholodillnykh ustanovkakh) PERIODICAL: Izvestiya Akademii Nauk SSSR, Otdeleniye Tekhniche skikh Nauk, 1958, Nr 5, pp 40-45 (USSR) ABSTRACT; Losses due to irreversibility in refrigerating plantsare normally analysed by comparison of actual cycles with the Carnot cycle. Assessment of thethermodynamic efficiency of the cycle demands complicated constructions. A simple graphical method of determining the thermo- dynamic coefficients of various cooling cycles is outlined which is based on earlier work of the authors. Schematic diagrams outline three systems: 1. An air compressor and air expansion turbine cycle. 2. A conventional vapour compression and expansion valve system. 3. An absorption system. Under each diagram is a linear representation of the heat and work quantities introduced and taken out of the Card 1/5 cycle by the individual elements of the cycle. Heat or  SOV/24-58-5-7/31 Thermodynamic Analysis of Irreversible Processes in Refrigerating Plants work put into the system at each unit is represented by an appropriate length of line running from left to right, and heat or work taken out of the system by lines running from right to left immediately below the input lines. For simplification insulation losses are ignored. This linear representation of heat or work input and output at the various units of the system reappears as the central abscissa of a coordinate plot of energy quantities, of which-, Fig.4, p.42, is typical; it gives the Q - K t diagram for an air expansion cooling systm, The ordinate in the diagram is a quantity Kt = I - TO/T where To is the temperature of the medium surrounding the system and T is the temperature of the working substauce at different points in the cycle and virtual temperature in rela8ion'to work. When Kt = 19 r-V when Xt 01 T . 293 K (i.e. T 0) and when T = 0 K9 K t Cho (corresponding to an infinite amount of work). In Fig.4 the large rectangular area bounded by = 1 at Card 2/5 the top and Li on the abscissa is proportion 1 to  SOV124-58-5-7131 Thermodyn Analysis of Irreversible Processes in Refrigerating Plants alve amount of energ, put in by the compressor. The area bcand by the amw bebw he abscissa 6nj the I]eEt arztj ty Q4 is g-opw -T-evapordtor tional to the enwU eftbwing the system through fl e (i.e. the heat ta-Ken out of the body being cooled), These areas are considered as positive. The smaller rectangular area bounded b7 Kt = 1 at the top and L 2~ on the abscissa is proportional to the energy expended in the expansion turbine. and the fourth area bounded by the curve above-the a'bscissa and the heat quantity Q3 is proportional to the energy taken out of the system. by the cooler (i.e. a heat exchanger between the compressor and the expansion turbine). These two latter areas are considered as negative. The difference between the positive areas and the negative areas is proportional to the "external" loss due:to irreversi- bility-in the cycle. The ratio between the negativ e quantities and the positive quantities gives a "coefficient of thermodynamic reversibility" for the actual cycle. The full lines and.the dotted lines:in the diagram indicate the temperature level of the working substance, and that of the cooling medium (in Card 3/5 the case of the cooler curve) or that of the body being  SOY/24-58-5-7/31 Thermodynamic Analysis of Irreversible Processes in Refrigerating Plants cooled (in the case of the evaporator curve). The, shaded area between the full and dotted lines represents an "external" irreversible loss in the System through imperfect heat transfer. The ratio of the area below the abscissa, representiiT the heat energy entering the system at the evaporator i.e. heat taken out of the cooled body.), to the area representing work energy put into the system by the compressor, gives the so-called "coefficient of thermodynamic reversibility of cooling". The advantage of this method of representation is! that it enables direct evaluation to be made of these "coefficients of thermodynamic rev6rsibilityll. The usual T - Q diagram gives areas whose algebraic sum is always equal to zero. The coefficients,obtained by this method are an immediate measure of the efficiency of the cooling cycle. Further diagrams are given which detail the losses clue to "external" irreversibility in the evaporator element of the cooling cycle. These are plotted on a similar co-ordinate system for variouB conditions of heat exchangel cross-flow, counterflow, Card 4/5 etc. Minimum loss occurs where the,cooled body changes  SOV/24-58-5-7/31 Thermodynamic Analysis of Irreversible Processes in Refrigerating Plants its temperature, spatially, at the same rate as the working substance. The analysis concludes with observations on "internal" irreversibility due to the "energy mass" of the various elements of the cycle, (cf. thermal mass and inertia). Atiention is drawn to the importance of attaining good efficiencies in the units where the "energy mass" is high. The authors refer to 11B - I" diagrams given in an earlier paper (Ref 8). These give the necessary functions for, determining the "energy mass" more conveniently than the conventional entropy diagrams. There are 5 figures and 9 references, 6 of which are Soviet, 2 English, 1 German. SUEMITTED: December 17, 1956 Card 5/5  AUTHOR: Professor, Doctor of SOV/67-11-5-14/16 Technical Sciences TITLE: On the Caudes2of Explosions in 'the Lower Columns of Oxygen Apparatuees (0 prichinakh vzryvov v nizhnikh kolonnakh kis.1orodnykh apparatov) PERIODICAL; Kislorod, 1950, Vol 11, Nr 5, pp 65 68 (USSR) ABSTRACT: Comrade Zheltov asks in a letter to inform him about the causes of explosions in the lower columns of plants for oxygen liquefaction. The author answers c-.s follows: The directions for the prevention of ex- plosions are insufficiently complied with. Evaporation of the liquid air in the lower columns during the standstill. The.liquid not being alloved to flo;T away, if.more than 0.4 cm3 acetylene 'are observed. A larger amount of.acetylene in the air of the working place. The,presence of acetylene in oxygen is especially dan-erous because the latter readily t~ ignites with acetylene. Acetylene in liquid air and Card 1/2 liquid nitrogen is less dangerous. There are 3  25(5) AUTHORS: Ishkin, 1. P., Professor, Doctor of SOV/67-59-2-7/13 TecFn ~ca ~Mlences, Katina, N. F., Engineer TITLE: Adsorptive Purification of Air From Acetylene and Carbon Di- oxide in Plants for Gaseous and Liquid Commercial Oxygen (Adsorptsionnaya ochistka vozdukha ot~atsetilena i dvuokisi ugleroda na ustanovkakh tekhnicheskogo gazoobraznogo i zhid- kogo kisloroda) PERIODICAL: Kislorod, 1959,kllr 2, PP 37-38 (USSR) ABSTRACT: Various methods have hitherto been devisedlwhereW aii used, for.engines driven by compressed gas is purified from acetyl- ene by adsorption (Ref 1); further, experiments were made concerning the purification of air from acetylene and carbon , dioxide at low temperatures (Ref 2).11n this experizient-the authors investigated the possibility of purifying air si- multaneously from acetylene and carbon dioxide by way of,ad- sorption For this purpose, the process of adsorbing!acetylene, carbon dioxide, and simultaneously a mixture of both:at low temperatures and high pressure, both under dynamic and static conditions, was investigated in the VNIIKIMASh (All-Union ' Card 1/2 Scientific Research Institute for the Construction of  Adsorptive Purification of Air From Acetylene and .90V/67-59-2-7/18 Carbon Dioxide in Plants for Gaseous and Liquid Commercial Oxygen Oxygen Plants). The capacity of various commercial adsorbents for CO was investigated. From among the used adsorberits the achve carbon AG-2 and the crumbly silica gel KSM:exhib- ited the strongest adsorptive power. Besides, the authors in- vestigated the conditions of desorption from the adsorbents. As a resultg virtually the whole quantity of:acetylene anA carbon dioxide was.adsorbed at temperatures of between -100 and -1600 and at high pressure. The data obtained served, the purpose of designing commercial adsorbers for oxygen:plants. There are 6 references, 2 of which are Soviet.  5W AtTHORS: Filippova, G. P., Engineer, SOV/67-59-2-8/18 Ishkinp 1. P.p Profeesorp Doctor of Technical Sciences TITLE: Viscosity of Air and Argon at Temperatures of Between 0 and -1830 C and Pressures of Between 1-150 Atmospheres Absolute Pressure (Vyazkost' vozdukha i argona pri temperaturakh ot 0 do -1830 C i davleniyakh ot 1 do 150 ata). PERIODICAL: Kislorodt 1959,1~Nr 2, P 38 (USSR) ABSTRACT: There are no data available in publications on the viscosity of the afore-mentioned gases. at pressure and low temperatures, already indicated by other authors (Refs 3*4"5).', In order to fill this gap, the Physico-technical Laboratory of the VNIIKIMASh devised a method for determining the'V3.S- cosity of compressed gases at low temperatures. This.method is a new variant.of the flow method. Accordingly, the' gas passes through two capillary tubes, a determinant and. a cqm- parative capillary. In the latter atmospheric pressuie~and* room temperature prevail. The desired viscosity is proportional to the ratio of pressure drop in both capillary tubes. A table Card 1/2  Viscosity of Air and Argon at Temperatures of Between SOV/67-59-2-8/18 0 and -1830 C and Pressures of Between 1-150 Atmospheres Absolute Pressure contains data on the dynamic viscosity of the air and argon at low temperatures in dependence of pressure. There are 1-. table and 5 references, 3 of which are Soviet. Card 2/2  AUTHORS: TITLE: S/17 61/004/003/009/013 B1 17Y5209 Filippova, G. Viscosity of air, nitrogen, and argon at low temperatures and pressures of up to 150 atm PERIODICAL: Inzhenerno-fizicheskiy zhurnal, v. 4, no- 3P 1961, 105-109 TEM The authors employed a new standard method of determining the viscos- ity of gases at temperatures from +200 to -1960C and at pr ;essures of up.to 150 atm. The method is based on the principle that the gas flows thr .ough two capillary tubes. Through one of the capillaries, the gas flows at a pres et'pres sure and temperature; through the other tube, i. e., the standard capillary ' it streams at nearly atmospheric pressure and room temperature. When th~e masses of gas streaming through both capillaries are adjusted to be equal, one can derive a formula for calculating the kinematic viscosity: V1 - Fy 2&p, /ApV where V, denotes the kinematic viscosity of the gas in the test tubeg F the constant of the arrangement) V2 the kinematic viscosity of the gas in the standard tube; Ap, and LP2 are the pressure gradients in the Card 1/3  89930 S/17,0/61/004/003/009/013 Viscosity of air B117/B2.09 capillaries. As the determination of P requires muchitimet a much simpler. relative method is used for this purpose., In this case, P'is' found on the basis cf gauge tests when the viscosity.of the gas in~the test tube is known. The maximum error in:the.determination ofthe~kinematic viscosity coefficient amounts-to 3%o The accuracy of the results may be improved by repeated experiments. Interpolated viscosity curves supply values with an accuracy of,up to 1-1.5%- The authors determined the.viscosity of wateri 0 0 ..nitrogen, and argon between 0 and -163 C and at pressures of,up.to.150 atm; 0 7 the viscosity of hydrogen was detex-mined-at.-100 C.:,A:comparison between the values obtained and those of other authors showsigood agreement.i The maximum deviation is 1.5%. The values of the kinematic viscosity were cal- culated by averaging over several (2 - 13) experiments in the case of maxi- mum pressure fluctuations of +1 atm. The dynamic viscosity'Was ascertained from a transformation of,kinematic viscosity. The density of air) hitrogen9 and argon wasloalculated from their compressibility... The:isobaric lines: were continued until 500C according to data of I. F.,.Golubev (Fig. 1)'. -the entire character of the family of curves corresponds to that of other sub- stances near the critical point. The authors thank I. F. Golubev for valu- Card 2/3  FILIPPOVA., G.F.; IUxZ4--I-F- Viscosity of emprosood nitrogen and argon. Izv.vyx (,ucheb.zav khlm,i-lchW-tekh. 4 no-5063-866 161. IRA 14:3.1 1. vaesquaw zaochW politekbnichaskiy,institut, kafedra mashin i aborudovaniya khimichookikh proinvodetv. (Nitrogen) (Argon) (Gase,s, Compcress~d)  27548 3/170/61/004/010/002/019 S.- A? / 0 B109/B125 AUTHORSs Filippova, q. P., Ishkin, I. P. TITLE% Calculation of the viscosity of compressed gases by means of' the similarity method PERIODICALt Inzhenerno-fizicheakiy zhurnal, v. 4, no. 10, 1961, 9 - 14 TEXTz The methods used so far in approximatively calculating the viscosity of compressed gases are not satisfactory. The authors present a new technique of calculating the viscosity of compressed gases from critical temperature and pressure. Density must be known. The essence of this very accurate method is the proper choice of the dimensionless quantities . ~4/3 T7/6 /& Ttp 2/3 M5/6 and o - FTc /per M. Pdenotes the density, S cr cr r T - the critical t cosity, or emperature, I%- the via -IT T - "er cr is the critical pressure, M - the molecular weight. L. P. Filippoy (Dissertatsiya, MGU, 1951 ) and A. S. Predvoditelev (Sbornik, posvyashchezM& F. P. Lazarevu, 1956, str. 84 - 112) interrelated the above dimensionless Card 1/5  27548 B/170/61/004/010/002/019 Calculation of the viscosity of ... B109/B125 quantities through the equation Cr- o4-OLa , where the dime nsionless quantities aCand/3 are identical for similar substances. The authors found the same relation Irm 5.33 - 0-0387Lo (7) for N21 021 Col C021 "41 C2H 4' CA , and C,H.. Consequently, this relation can be used for calcu- lating the viscosity of a comp,~.esse#.,- in. a wide temperature and pressure range. Only critical tem it'# 'a d!4.4('-1.R itical pressure must be known. th CO - It proved to be The accuracy of formula 'Nis"'J? 2 positively supeiUor to th A%Hc'j 6 og, Shirokov, Panchenkov, Stolyarov, and Golubev of the great significance of this method in engineering',*~-the.-.! scosity of:oxygen was calculated for the temperature rangd~betvi~.,' .5-1000C at pressures of up to 400 atm. The known quant'i -tiilii' e'k TV- 154.80K and P '* 51,7 aim. The cr results are shown in Fig. 3. 0 Leypunskiy (Sb. trudov po tekhnicheskoy fizike, 1548, star. 31) and M. G. Gonikberg (ZhFKh, 2, 7, 1947) are amtioned. There are 3 figures, 1 table, and 17 references: 13 soviet and 4 non-Soviet. The three most recent references to English-language publications read as follows; Uyehara 0. A., Watson K, M. Nat.. Petroleum Nevis, 3-6, 764, 1944- Card 2/5  2750 S/170/61/004/010/002/019 Calculation of the viscosity of ... B109/B125 Pitzer K. 3. 1 Journ. of the American Chemical Society, 21, July 16, No. 139 1955. Grunberg L. Ind. Eng. Chem., A2, 5, 885, 1950. - A330CIATION: Vsesoyuznyy zaochnyy politekhnicheskiy institut, g. Moskva (All-Union Correspondence Polytechnic Institute, Moscow)' SUBMITTED: April 17, 1961 Table 1. Change in the viscosity of C02 at 1000C with pressure. Legend: (1) P, atm, (2) experimental TL-107 g/cm.sec, (3) from the formula by Enskog, Shirokov, Panolfenkbv-, Stolyarov, Golubev. Card 3/5  57. 111 S' A71 S/080/61/034/012/005/017 11,11S3 D243/D305 AUTHORS: Ishkin, I.P.# and Katinat N.F. TITLE: Statics of the absolute adsorption of carbon dioxide from mixtures with nitrogen at atmospheric pressure (lst report of a series of papers on the:adsor tion of carbon dioxide from air at low temperatures5 PERIODICAL: Zhurnal prikladnoy khimii, v. 34, no. 12, 1961, 2623 - 2627 TEXT: The present series of papers was devoted to the study of the properties of industrial adsorbents during the removal of car- bon dioxide from air mixtures, at a concentration of 300 cm3 co,) per 1 m3 of air'9 at low temperaturesp high and low pressures, an'-d in static and dynamic conditions. The authors state thatp hitherto, investigations in this field had only been carried out above -8606 and in static conditions. Data for the isotherms were obtained by the dynamic method. In preliminary tests the static capacity of the following adsorbents was determined at -1100C and C02,concentration of from 0 to 300 =3/0; Ar-2 (AG-2) activated carbon, KCM (KSBI) Card 1/3  31471 S/08 61/034/012/005/017 Statics of the absolute D243%305 and KCK (KSK) silica gel, activated alumina, and three ultraporous silica gels - CY (SU)q C200 (S200) or No. 6 granulated silica gel# and 0204 (S204). These tests showed that KSM lump silica gel and S200 ultraporous silica gel were the best adsorbents. The isothems of absolute adsorption for these two and activated alumina were plotted at temperatures of -78-50 to -14000 and concentrations~of 0-2400 cm3/m3. The main physical features of the three adsorbents are given. [Abstractor's note: No details of the other adsorbents listed are given]. Data obtained showed that the absolute static capacity of the adsorbents increased considerably with temperature fall. S200 silica gel had the greatest adsorption capacity being approximately 1.5 times that of KSM silica gel. Activated alumina had the lowest capacityo but may find use in adsorbers because of its greater stability. Identical mixtures gave different shaped isotherms showing the importance of adsorbent structure for the ad- sorption process: The curves only approximated to the single sub- stance curves of Langmuir and FretLqdlichv despite the very low car- bon dioxide content. The increase of the adsorption of KSM silica gel with concentrations greater than M021 molar parts Of 002 only Card 2/3  31471 3/080/61/034/012/005/017 Statics of the absolute ... D243/DjO5 holds at atmospheric pressure and not for mixtures compressed to more than 7 atmospheres. There are 2 figures, 1 table and 13 refe- rences: 8 Soviet-bloc and 5 non-Soviet-bloc. The reference to the Engliah-language publication reads as follows: S. Brunauerp Pe Emmett, J. Am. Chem. Soc-9 59, 2682p 1937o ASSOCIATION: Vsesoyuznyy nauchno-isaledovatellskiy institut kislo- rodnogo mashinostroyeniya (All Union Scientific Re- search Institute of Oxygen Machine Construction) SUBMITTED: August 49 1960 Card 3/3  1WWWOM 31V" S/080/61/034/012/006/017 D243/D305 AUTHORS: Ishkint I.P., and Katinav N.F. TITLE: Statics of the differential adsorption of carbon dioxide from air at high pressures (2nd of a series of reports on the adsorption of carbon dioxide at low temperatures) PERIODICAL: Zhurnal prikladnoy khimii, v. 34, no. 12, 1961, 2628 - 2633 TEXT: The static capacity of adsorbents at high pressures was found by absorption of carbon dioxide from compressed air, contain- ing 0.0003 molar parts Of 002- Measurements were taken.on an appa- ratus described by Ishkin and Katina (Ref. 1: Zh.P.Kh. XXXIV, 12, 2623p 1961) modified to deal with air under pressure. Compressed air passed slowly through the adsorber the pressure in the latter being controlled by high pressure microvalves placed in the air cur- rent before and after the adsorber; two microvalves, placed in se- ries in front of the adsorber ensured accurate control of the air Card 1/3 V~  1 72 008Y61/034/012/006/017 Statics of the differential ... D243 D305 supply. On completion of adsorption the pressure was brought to atmospheric and desorption proceeded in the normal way, beginning at -8000. The differential adsorption capacity for KCb1 (KSM), NO '6 and KCK (KSK) silica gels and activated alumina were determined at -1200C and in the pressure range 1-140 atm, KSDI and No. 6 silica gel had the greatest static capacity and the differential adsorp- tion isotherms for the substances were plotted. It-was found that adsorbent capacity rises initially to a maximum between 15-25 atm. then slowly declines. The position of the maximum depends on the ratio of carbon dioxide concentration in the gaseous phase to its uniform concentration. Above 125 atm. the adsorption capacity re- mains constant and independent of pressure. The plotted isotherms satisfy von Antropoff's equation (Ref. 2: Koll. Z., 989 2499(1942); 99P 35, 1942). It was found that data on the absolute absorption Of C02 at atm. pressure agree with those for the adsorption Of 002 at partial pressures of up to 0.0021 atm. There are 2 tablesp 5 fi- gures and 6 references: 2 Soviet-bloc and 4 non-Soviet"bloc. The reference to the English-language publication reads as follows: T. Y.'Webster (Iz materialov VIII Mezhdunarodnogo kongressa po kholo- Card 2/3  31h72 8/086/61/034/012/006/017 Statics of the differential ... D243/D305 dill-nomu delu -Data from the 8th International Congreea on Refrige- ration) 25) The Effect ot'Indifferent Gas'es on the Vapor Pressure of Carbon-Dioxide. ASSOCIATION: Vsesoyuznyy nauchno-i8sledovatellskiy institut kislo'- rodnogo, mashinostroyeniya (All Union Scientific Re- search Institute of Oxygen Machine Construction) SUBMITTED: August 4, 1960 Card 3/3    L 16334-65 !'q-4./Pr-4/P8,-4 Y-JP-(C-T/-9T-L JDf4W1JW1dH ACCESSION NR: AP4049178 S/0314AV00/00/002-5/0026 AUTHOR: Ro&Lvmvr., I. A. j(Candd2te::of lechhlcg's 131i, ctdri' Id P) sciences, Professor technical I..--.ft,-.; -a'. ro.c -Pac~-- tam- M~ ophis cgfoi6 At per es &idd6t 0: ap ra rtg fractionating apparatus regenerators, q SOURCE: Kh1midhealwye n tyanoyefilAs tto 4q$ W... WiftO TAGS:: '-PAr ffac6nation apparatuC i!6#6rk rook: (MaMar-: alurninirm packing, packing ffiermophyflicAl property, oxy n productioti, affrogett pro- ge daction, air fractionation A ABSTRACT: It Is now possible to obtain technicanypureRoxm-eri 00. Z-19.jack) and% (99.95-99.998%) in units with regenerators hving ra( heitt oxahang( h histead of the previously used aluminum band packing. T e present paper discusses flia results of a study of the thermal and hydrodynamic propertles of rocks, as well as metted basalt, and rna-kes some recommendations for their applicationaling appalalufi packingF. The bests were made wid) natural crushed rock which had been pRs Bed dimigh ba.11 mil!,-. The hydrodynamic properties were tested only in the case of smooth rnolttii 1/3 Card  L 16334-65 ACCESSIONNR: AP4049178 basalt, but the thermal conductivity and hleaI capadity itleke detdiAllied hit! basalt 001(i4 ,Z-'-, Q"rtzite-~tnd-granite~ThG--~--quivalentAmre-dimneter--aen 4-Or-e-MiuatIOR the- hydruli V., onal-to-Iffi-e-Tree' directly proport! volunie a 10erabiy, I~ttt~~46 tW -d~iaiidiiio ore diameter. The thermal conductivity was determined in a calartmeter with lfquIdaXN-*,eM. The quantity of oxygen evaporated iti the calorimeter due to heat f I ow through the samp! e was measuxed by a rheometer snd the temperature of the outer surgace was ineasuMI by a thermocouple. ne thermal conductivity of the packing was detairmined by pouringthe crushed rock between two concentric copper spheres. The quantity of huat passing thr,3uLth the rock was then calculated frarn the poNver of the heater. The heat capacity was te8t(,d by cooling a sample of materizI in a thermostat to, a certain temperature, then pla~ciag the rock in a copper calorimeter having a certain temperature. I ''he cahorimeter teni.- perature dropped and the heat capacity waz, calculated from the quantity of heat passing from the calorimeter to the sample. Compa-risaa of the data obtained indicated that tho thermal conductivity of a solid lump, ~s LO times higher than. for crushed: stone. Quartzite has the highest heat capacity, being the best pacidag for, this peasan, but the quarri q~jartzite is not aa good as.basalt and cannot.- be used in large reganera;tars Card  L 16334-65 ACCESSION NR: AP4049178 C) S/9314/64/000/000/0020002a Tests showed that replacement of corrugated alunihim packing E.15t- roA LACreases 116 regenerator cross secUonand lowers the air velocity. Decre2Mng the transfer dMe also lowers air losses from 3.5 to 1. 3% and increases oxygen deLivery f rom. 96 to 93SIL L.Dwerim- the air velocity leads to a content of only 5-7 p. p.m. (if carbon. dioxide. C-ieckLng the caeffictont of' ap~-Hcatioii of the i-ock packiiig of the B11- 1 hpplianee shomiti Uiat iiwi-asing the transfer driie 4 7 roid leads to negifWffile tempei,aiture 1~1,wfleritr, iii Ihe rock gi-am Orig. art. has: 5 tabief~ aiid 2 equations. ASSOCIATION: noac SUBMITTED: 00 EUCL: 00 SUB; CODM: M. aa  - 0:!HKIN, T.F.; DIJBILI.7 Yels. Hydrodynamics of granular materials for soda prewlitaction in a fluidized bed. Zhur. priki. khim. 38 no.1:107--11.1 Ja 165, (VURN 16:3)  16 i U1, i N I A . z . BOGOYAVLENSKIY, A.F.;~~ISHKINI A*Z.. - -"" Investigating the awdlo passivation of aluminum alloys. frudy K&I 31 156. (KIRA 10:5) (Al=in= alloys-Mectroustallurgy) I  Gil _i iiKIN I()., Inzh.; RUZIMIN, V.; BOIUSOV) L.; LAKIN' _V.; G. Z::L:L~L -- information. Avt.transp. 42 no.12:52-54 D 164. (MIRA 18;4)  28446 S/153/61/004/004/011/013 0/ 9'~ 9141^135 AUTHORS-, Sokoloya, YO.B.9-Shebanovag Mt.Paj and Ishkinag V.I. TITLEs Alkylation.of toluene with.crude iaogct,*ne PERIODICAL3 izvestiya vysnhikh uchebnykh-zavode .niy. "imiya i khimicheskaya.tokhnologiYaq vol.49 ji**A, 1961, 657-66o TEXTs. The authors attempted to synthesize the-n-dia-lkyl- substituted C,15H30-cyclohexaneg'a p4o*xibl* component of:hydrocarbon fuels. Toluene and isooct one were used as starting-materials. 2,4,4-ti-imethylpentene-I and'2,4,4k-trimethylpentens-2, the isomeric forms of the-isobutylene-dim*r .(Refolr A.D. Petrov, Xhimiya notornogo topliva (Chemistry of motor fuel) Izd,, AN SSSR, 19539-P.101) were obtained from crude isooctene by,threefold distillation. Crude Isooctene contains consIderab-11k. fvactlon (5 weight %) which boils at a temperature up to 101 OC; this frattion was distilled on a 1100 mm high column, The,:fra,ct'ion boiling-between 99 and 102 OC~(constituting about:7 weight-'%) was also used as -alkylating agent. The alkylation- reaitt-i6ir-was carried out aceordingAo the Friedel-Crafts-reaction, in the.p Iresence of AIC13, under reacti*n conditions as described by Sanford Card 1/2  1. A. K. ISHKNELI 2. USSR (600) 4. Barium Titanate 7. Dielectric properties of isomorphous mixtures of barium titanate. Soob. AN Gruz. SSR 11 no. 5. 1950. Monthl List of Russian Accessions, Library of Congress, Apin -1953, Uficl.  BUTOMAJ, B.Ye.; YEGOROV, M.Ye.; DEREVYANKO, Yu.G.; KHARAKHPAS14EV, A.A.; BAKAYEV, V.G.; 15HKQY, A.A.; KOLESNICHENKO, M.S.; KAMENTSEV, V.M.; GORSHKOVY S.G.; KASATONOV, M.A.; ISHCHENKOV, N.V.; AFANASIYEV, S.A.; TITOV, G.A.; LARIONOV, M.F. Boris Evgenlevich Klopotov; obituary. Sudostroenie 30 no.11:81 164. (MIRA 18:3)   -ACC 77 57 -NR:---ATFW00 -i~dliR-CE CODE: im/do8~/6~/622/ooi/OW3/0006 -AUT11OR: Voroblyevo A. A.; Didenko, A. .N Kolomenskiy, A. A.; Lebedcv, A.-N.; Yushkov, Yu. G. ORG: none TITLE: Investigation of autoresonant method of particle acceleration by electroma.rr- netic waves SOURCE: Atomnaya energiya, v. 22, no. 1, 196,( 3-6 TOPIC TAGS: particle acceltration) magnetic L resonance electron waveguide, electron accelerator A13STRACT: This is a continuation of earlier work (in: Trudy Mezhdunarodnoy konfe- rentsii po uskoritelyam (Trans. Internat. Conf. on Accelerators] (Diibna, 1963), M., Atomizdat, 1964, P. 1030jand earlier papers)-which demonstrated the feasibility 0.0 resonant acceleration of particles by a transverse wave in a longitudinal --agnatic field under suitable conditions. The present.paper contains the results of an ey, perimental investigation of this method of acceleration. In view of the limited possibility of obtaining the required strong field in a large volur,-.e, the etudy is confined to acceleration by 10rcm electromaanetic waves inside a Straight smooth waveguide (HI, and H3.0.modes)- Equations are derived for the aingula- velocity and phase of a particle accelerated in such a Aructure, and for the leng-th of the,wave- guide over which the particle. energy will increase. The accelerating system was. a c6rd 1/2 621-384.62  ACC NR. AF(005707 -rectangular waveguide (72 x 44 mm) for the HIO mode or a 76-mm diameter round wavegulde for the HI, mode. The length of the waveguide ranged from 150 to 1WO rim. Pulsed microwave power (not more than 600 kw) (3000 b21z) was fed in 3-gsee pulses at a re- petition frequency of 50 Hz- The 1000-oe dc field was produced with a solenoid The particle energy was determined from the deceleration produced by aluminum foils and reached 700 kev, at an electric field intensity of 3- 5 kv/6, which is higher than obtainable by ordinary cyclotron acceleration. The ancillary tests made on the equipment are briefly described. The experiment 'al data agree with the earlier the- oretical predictions and it is concluded that the autoresonant mechanism can be used for effective injection of particles into magnetic traps. Orig. art. has: 1 figure .and 9 formulas. ~[021 SUB CODE; 20/ SUBM DATE: 05sep66/ ORIG M: oo6/ ATD PRESS: 5117 .2/2 Card  ARKHANGOAODSKIY, L.A.; BUKSHTEYN, Ya.A.; VOROBIYEEV, S.V.; GAY-MIKO, P.A.; DOLGOV, Ye.N.; ZHIGLIN, A.A.; ZUBOVSKIY, G.P.; ISHKOV',, I.G.; KRYZHANOVSKAYA, G.L.; LISTRATOV, A.A.; LURIYE, R.I.; MO110ZOVj N.P.; OSTROZETSER, A.S.; PAVLOV, N.A.;PEITROV, L.M.; POPOV, V.N.; TARTAKOVSKTY. 1A.A.; TAUBE, D.U.; KHAN121, L.T.; SHAPIRO, TS.S.; SHMTSBURG,I.A.; SHEVTSOV, V.D.; DENISENKOVA, L.M., red. (Assembler's handbook on performing mechanical assembly and special work on grain elevators and grain processing enter- prises] Spravochnik montazhnika; po, proizvodstvu mekhano- montazhnykh i spetsial"nykh rabot na elevatorakh i predpri- iatiiakh po pererabotke zerna, Moskvaq TSentr. in-t nauchno-tekhn. informatsii i tekhniko-ekon. issl., 1963. 519 P. (MIRA 17:7)   ISMI, F4., (do coaq4l Occurenee of ,,,tic vaves In a stratum 1YIng On an 01"tic foundation* Izv.AN SSSR.Ser.geofiz.n*.2:1A-133 7 056. Mves) (NLtA 9:7)  a v oica z;c alf.- ~p,to~ and ll,;:~ 1 u f j, t( T fit' 11 n, ~11 V 1 7 t:  Vath jual 116vienAls Val.,14 Voi, 7 july AUgus-t, 1953 Mechanic a 2 W6,vn. A. G., Bending of a circular lyfifff on dh old elastic half-space under the action Wan axially sYffl-', metrlcal uniformly. distributed load. Moskov; Univ.'Mcaye Zapiski 152, Mehanlka 3, 202-2 25 (19SI)t (Russian). 'rhe fourth order differential f t6 dellectio equaltion or n of the plate wiih, fite edges dixribed in'the 64 which was nd S. Germain, and the ikegral "Ua-w given by Utgrangen tion for the rag of the foundation which4as gW6 by icher, together with the Wur,&~y con-- Aoussinesq and Schle ditiono contain the wlution:of the, problem.~tlile,tAnow-ni reaction of the foundation present In both."uitioni'Mak" it very diffictilt to find the exact solution. Thelproblem tackled bcfnre In, Borovik and Gorbun6v-Pd"vi (rdit- Clices not given) "I'licy assumed the action to a m M OOVW es in radius vector r, and the problem was reduced to- seri all infinite syAlem of critiations'determining the coefikk6b of the series. The system wiii not solved, Wt' ;the first (e* coefficients were approximately determined. rhc author of this paper asi~umes aW that thi'riact"~ is a power series in ir but of:a very.speciai Imm. She aw c6itr I obtains the infinite system of equations in, tits ~6( 4 I ~ T16: the series and manages very ingeniotWy t6 solve t. solutions, i.e., the Coilfficienti, are infinite seritil The soluti ns are cheeked ;tnd. the serk~*.mprmkift reaction is tested for convergenw- T. 14W  ISMOVPj_2~. G:..L and TULAMV, A. N. "Some Problem on the Flexure of Plated.-Lying oi an Islastii Sim ispace," by A. G. Ishkova and A. N.,Tulaykov, Moscow, inzhenernyy Sbornik, Vol 23, 1956, pp 47-62, submitted for publication 12 Jun 54 This work studies problems of the flexure of an infinite strip uni~r.:--j. the conditions of a plane problem and a circular plate with differezj.-*:"-i V:~ loadings, lying on ground assumed to be an elastic, isorropici bomogevacw.~: sesispace. Nonsymmetric and concentrated loads are not considered. T ,I problem in question was boiled down to the determination of the reaction- t theground to theplate w th the pla e being in equilibrium under the., action of external loads and r6active pressures and with thei plate beii in solid contact with the ground a int. t every po a 3  IT, AUTHORs TITLE: PERIODICALs ABSTRACTs SUBMITTEDs AVAILABLEs I#hkova,__A_. G. _CMo a cow) 40-21-2-19/22 Some Generalizations for the Solution of the Problems on the Deformation of a Round Plate and an Infinite Strip Which Lie on an Elastic Half Space (Nekotoryp obobshcheniya, kasayushch- iyesya resheniya zadach ob izgibe krugloy plastinki i beskonechnoy polosyp lezhashchikh na uprugom polupr'ostranstve) Prikladnaya Matematika i Mekhanika,1957,Vol 21, Nr 2, pp 267-290 (USSR) The author considers the deformation of a round plate and a strip during the influence of a shunt loading (axialoymmetria- al one or not) and,during a simultaneous shunt loading and compression (in the plane of the plate or of the strip). The solutions are sought in the form of infinite seriess Several examples are calculated. Similar methods have been proposed by the author in an earlier paper [Ref 5]. There are 6 Soviet references. November 5t 1956 Library of Congress Card 1/1 1. Plat**-OefwftUft*-Tb*wY  AUTHOR: SOV/24-58-5-13/31 TITLE: Bending of a Circular Plate Located on an Elastic Semi-space under the Effect of a Load which is not Axis Symmetrical (Izgib krugloy plastinkil lezhashchey na uprugom poluprostranstve pod deystviyem nekotoroy neosesimmetrichnoy nagruzki3 PERIODICAL: Izvestiya Akademii Nauk 883R, Otdeleniye Tekhnichaskikh Nauk, 1958, Nr 5, pp 78-84 (USSR) ABSTRACT: The bending is considered of a circular plate by a load which is not axis s t 1 1 and varies according~to e = q(,)yme ri a the law coB n 6, the plate being placed on the soil, which is assumed as being an isotropic, elastic, uniform seml-space. The problem under consideration is reduced to determining the reaction of the ground on the plate under conditions of the external load and the reaction pressures being in equilibrium and the plate adhering tightly to the ground at each point. For the. same conditions,the author of this paper solved some axis-symmetrical and plane problems in earlier work (Refs 1 and 2). It is assumed that q(l?) can be developed Card 1/2 into a power series which is convergent inside a cixcle.  SOV/24-58-5-13/31 1~ .Bending of a Circular Plate Located-on an Elastle Semi-space under the Effect of a Load which is not Axis Symmetrical Relations are derived, the use of which is illustrated by means of an example, There are 1 table and 5 references, 4 of which are Soviet, 1 German. SUBMITTED: September 269 1957 Card 2/2  AUTHOR: Ishkova, A.G. SOY/140-58-6-lC/27 TITLE; The Problem of Bending of a Round Plate Resting on an Elastic Half Space, Under the Influence of a Single Force Acting in the Center (Zadacha ob izgibe krugloy plastinki, lezhashchey na uprugom poluprostranstve, pod deystviyem sosredotochennoy sily, prilozhennoy v yeye tsentre) PERIODICALsIzvestiya vysshikh uchebnykh zavedeniy. Matematika, 1958, ur 6, pp 96-104 (USSR) ABSTRACT: The author considers the banding of a round plate of radius 1, resting on an elastic base which is charged by a single force in the center. The unknown radius force of the base is sought in the form A 00 00 p(s) M I bns' + r S2n8 ln s.. noo noo By separation of the singularity (I-s2)-l 1/2 the author succejeds q' at in obtaining a rigorously solvable infinite system of e u ions for the determination of the coefficients. The solutions are compared with formerly obtained approximate solutionsi there are relatively small differences. There are 6 references, 4 of which are Soviet, and 2 German. Card 1/2  The Problem of Bending of a Round Plate Resting on an SOV/140-58-6-10/27 Elastic Half Space, Under the Influence of a Single Force Acting in the Center ASSOCIATIONtMoskovskiy aviatsionnyy institut imeni Ordzhonikidze (Moscow Aviation Institute imeni Ordzhonikidze) SUBMITTED: October 24, 1957 Card 2/2  SOV/24-58-10-13/34 ;AUTHOR: Ishkova., A. G. (Moscow) TITLE: 'On ~the ~~en 1~ngf a Circular Plate and Infinite Strip:Lying on an Elastic Half-Space (Ob izgibe krugloy plastinki i beskonechnoy polosy, lezhashchikh na uprugom poluproaltra4st-ve) PERIODICAL: Izvestiya. Akademii nauk SSSR. Otdeleniye tekhnicheskikh nauk, 1958, Nr 10, pp, 87-91 (USSA) ABSTRACT: Solutions of problems on the bending of a circular~.pla..te and of an infinite strip placed on an elastic half-spam,and loaded in various ways may lead to the solution of some in- finite systems of equations with infinite numbers of-unknowns. In each Droblem one must find iinknown coefficients %~Ln which- satisfy the following infinite family of infinite systems of equations: 00 Mun 1.9 2 i = 0 m =-O 2n - 2m - Jim n-O The solution of such systems may be represented in the form: Card 1/2  SOV/24-58-10-13/34 On the Bending of a Circular Plate and Infinite Strip Lying on an fElastic Half-Space 00 2 (2n - 1)!! V (2s C"An (2n)!! (26)11(2n 28 S-0 The fact that Eq.(2) isa solution of Eq.(l).may be verikied by a simple substitution as was shown by the present author in, Ref.l. In the present paper it is shown how this solution was found. There are no figures; 4 Soviet references by the;ipres- ent author. SUBMITTED: November 2?, 1957. Card 2/2  t4t 4~,A, f, f4 46 a Doe Sci Curvo .16 741 cli all 0 -,E:'tzC f:Cfifz SO' pp I , I. q of of 125)  -ISIULVA, A. G. (Moskva) Bending of a strip and a circular plate support-ed by an elastic semispaces Inzheeb.ore 28s171-181 160* (MIRA 13:10) (Blastic plate@ and shells)  ISHKOVA, A.G. Flexure of a circular plate lying on an elastic half-space under the action of a concentrated force and,longitudinal forces. Izve vymeuchebe savo; mate no.3:37-47 162, (KMA 15:9) 1. Moskovskiy aviatsionnyy institut imeni Ordzhonikidse. (Elastic plates and shel1a)  ISHKOVA, A.G. (Moskva) Bending of a strip and a circular plate on composite support. Inzh.zhur. 2 no.2:270-279 162. (KRA '15 -.6) (Elastic plates and shelle)  ISHKCVA,A.G.;KGRENEV,B.G. (Moscow)  RYAUZOVt II.F.t prof.; ISBKOVA# A.K.9 red.; SUDAKg D.M.f tek-Im. red. . (Statistics of Soviet cot'mrcel Statistiks, sovetskai torgovli. Moskvap Gostorgisdat 1948. 3-17 Pe'' (MIRA 14:8) lftseia,--Commerce)   KULICHITSKIT. T.S.; ORLOV. G.N.; CHMOIVAIINIK. A.Ya.; ISHKOVA A.K., redaktor; SUDAK, D.K., tekhnicheakly redaktor (A catalog of commercial and technical equipment] Spmvochnik- katalog torgovogo I. takhnologichookogo oboradovanits. rsd. 2-9. Moskva, Goo. Izd-vo torgovoi lit-ry 1954. 139 p. (MM 8:4) (Food industrr-Iquipment ;;! supplies) (Retail trade-Squipment and supplies)  NOCHITOY, Nikolay Dmitriyovich; ISHKOVA, A.I., redaktsr; ROSLOV, G.I., takhnichookiy (Befr1geration, oulaeoring for commercial anterpriies and general food stores] KholqI111mals, tokhalka v profttliatilikh torgovIl'i ebahchost,wesafte pitmalla. Moskva. Gos.lsd-vo t*rgovel lit-ry, 1955. 227 po (KM 9Q5) (Itefrigeration sad refrlpratlft uschimpry) I  DjtDUV,Ill,'Aie,isa,i2~~~rlo~horovich; YEDOROV, Patr Nikolayevich; ISHK0VA,-k,F., red. [Organizing the marketing of collective farm produce] Organizataite kolkhosuoi rynochnoi torgovIi. Moskva, Goo. ixd-vo torg. lit-ry, 1957. 150 P. (HIRA 11iD (Form produr-e-Harketing)  ZAVILOVICH, Mikhail Avraamovich,;~JSHKOVA. A.K.,red.,- SUDAK, D.M., takhn. red (Principles for tbe-methodology of planning the national econory; lectures in a course on OPlanning the national economy."] Oanovy metodologit planirdvantle narodnogo khosiaisiva; lektsii po kureu "Pian'iiovanie wrod~ogo khostaistva.0 Moskva, Gos. 12d-vo torg. 1ILt-ry. 1958. 105 p.' (MTRA 11-12) (Iconomics)  NOSKOVA. Glafira Leonidovna; PIK, Georgiy Tullyevich; ISRKOTA, A.K.. red.; BABIGMA, T.T., tekhn.red. [Kicrobiai rood spolage of perishable food products in storage: a scientific report] 111krobialInala porch& skorop'ortiashchlkhota pishchavykh produktov pri khrenenli; nauchnoe moobehoherAe. No*va, Gos.tzd-vo torg.lit-ry, 1959. 62 p. (KMA 13:4) Orood spoilage)  STATS&KO, G.L.-, IWMOVA. A.K., red,; BABICHOVA, V.V., teklin.red. [Industrial hygiene and safety manures in the organizations and enterprises of conwroe and pablic food service] Okhrana truda i tekhnika bezopasnostl Ir Organizatallakh I prodpriiatlialth tor.-ovli i obshchestvennogo pitenliso Moskva, Goe.izd-vo torg, lit-ry, 1959. 247 pe (NDU 13:4) (Russia-Conneroe) (Industrial hygiane-Jov and legislation)  BAKHWALOY, A.F.; EMGO. Z.Kh.; ZHITOMIRS[AYA, L.K.; ISMOVA. A.K.. red.; KAKONTOVA, N.N., takhn.red, [Coin mechanisms of vending machines] Monatnp mokhanisay torgovykh avtowtov. Moskva, Gos.isd-vo torg.lit-ry, 1966. 79 P. (KM 13:12) (vending machines)  FOMIN, G.Yas; VAMINA, N.I., red.; ISHKOVA. A.K., red.; ELIKINA, E.M., tekhn. red.; GROMOV, A.S.,, tikk_hn. red-, (Work and vages in state comercel Trud i zarabotnaia plats, v 901, sudarstyemoi torgovle; sbornik rukovodiashchikh materialov. I.,zd.2., perer, Pod red. N.I.Vasenina. Moskva, Gos. izd-vo torg. lit-ry 1961. 335 P. (HIRA 14: 13. (Wages-commrce)  AUTHORS: TITLEs PERIODICALs ABSTRLCTs Berdichev, and Card 1/2 Ivanov, S.I., Shalinets, B.k., Myshlyayev, A.M. 47-6-x6/37 A Conference on the Method of Teaching Physice(Konforentsiya po motodike fiziki) Fizika v Shkolop 1957P # 6, Page 93 (USSR) A scientific conference on the method of teaching physics took place at the Moskva Oblast' Pedagogical Institute with teachers from the city of,Moscow and the Moscow OblastO,and representatives of the Moscow, Stalingrad, Krasnodar A Wriyskiy [in Yosbkar-Ols Kabbirdine-Palkarskiy, Tula, Yaroslavl, 9huya pedagogical institutes, the Institut of Psychology AFN and the Naluga Oblast' Institute for the Improvemonf of Teachers. The following reports wore heard and discusseds $.I. Ivanov - "The Methods of Nothodical.Researches", O.N.Lapina "The Rise and Development of Concepts of Temperature and Quan- tity of Beat"_(At-tho 7-class school), Yo.Kh. Lyatkor "The Rise and Development (at the pre-school age and ;he 7-class school) of Basic Concepts in the Tiold of Electri- city", jo~v - "The Rio* and Development (during the pre-school age and at the 7-class school) of Concepts of Nagnotism", A.V. Solonginskiy - "On the Development of  9LADKIY, M.L(deceased]; SHANIN, G.A.; IODKO, Ye.K.; WAMKOVp S.D.; MIKHAYLOV, E.A.; GRIBOVA, U.N.; LUGOVSKIY, P.P.; KULESHOVi-S.M.;.SHATOV, A~L; SHNYft&VAp N.N.';_IHAOVA V.M.; LYKOV,,A.I.; TYULYAYEV, A.N.,,otv..r*d.j MOROVA, T.S., red.; SHEM, G.I., takhn. red..._.... [Determining the economic efficiency of new machinery in the communication system] Opredelenie skonomichookoi offektivno- sti novoi takhniki v khodalot" sviazi; infomatsiomWl sbor~ nik. Mookvaj, Sviazlizdat, 1962. 174 p. (MIRA1160) (communication and traffic-Technological innovations)   KUCHFMNKOj, H.T.; ISHKM, Ye.V. Carbonate conontiono from the Upper Visean coal formatien in Pavlograd and Novomoskovsk District. Isv.vya-,%GMftIW.; geoi, i razv. 5 no. 5:74-42 My 162. (MIRA 15:6) 1. Dnepropetro-vokiy gooudarstvennyy universitet. (Donets Basin-Coal,geology) (Donets Basim,-Conegetions) (Carbonates)  I ISHLINSM., A. Yue "Imsitudinal OscilUtiow of &'Bar When for the R~Uutlon and the Slastia Post-Action tho Unear Lm is Adopted,," PrIks vat, i makhey 4p N~els 1940