SCIENTIFIC ABSTRACT MIKHAYLOV, G. S. - MIKHAYLOV, I. F.

MEN M AP7001126 ___A)__S-0-UR`CE C-O--DE-: -4 _2~~9_6/6_66_/o o - - - - - - - - ACC NR, UR-76 -3 3/0019/0023 1AUTHOR: Kan, Ya. S. (Candidate of physico-niathematical sciences); ~Kllqlml_oy, 0, S. (Candidate of technical sciences); Rakhubov8kly, 11. A. vnu; none .TITLE: A model of a cryotron digital computer with programmed control iSOURCE: Mekhanizatstya I avtomatizatslya upravlenlya, no. 3, 1966, ~19-23 ITOPIC TAGS: cryogenic computer, computer design .ABSTRACT: A small-scale model of a cryotron computer was built and tested at the Fhysico-tp~.nnicjl Institute of the Academy of Science-, ~UkrSSR. The model corcalned on.'y essential blocks such as the arith- ;metic unit, number memory unit, Instruction memory with machine halt ,unit, control unit, anti an 1/0 i,nit. The model could add, subtract, land multiply 4-bit (Incliding rjIgn bit) words In fixed-point notation. !Instructions were of the 1'hreF;-address type, and the memory unit was random-access. The computer was built using 504 lead-tin wire cryo- trons mounted on micarta cards. Three tests lasting 11, 17, and 21 1hourB were made during which every 3 hours the machine was stopped Card 1 Z2  ACC NR, AP7004264 while liquid helium was added. No malfunctions were encountered. !Certain simple algorithms wer,; tried out using eight 9-bit instructions. iIt was established that multiplication required 3 sec and subtraction 15 sec of machine time; clock period was therefore made equal to 6 sec. A.he authors state that the test conditions were not optimal In the :sense of maximum speed, and propose certain modifications which would ,bring the computing speed Into the megacycle clock-frequency range. ~Orlg. art. has: 2 figures. [VIA-81) [BD) SUB CODE: 09/ SUBM DATE: none/ ORIG REF: 004/ oTH REP: ool UDC: 681.142.6t537.312.62  '-r~ H - G . -1 MA jashiny I OboradovLnlyo Poro-ab~,tyvayu-shchikh Preipriyat- ,yr Rybnoy Pro.%.ys.:lcnno:3t. 0,:achinos an! "quifr!ent of The Proc2ss~n;, ::nt,:r,,)ri3es -" tiiE- Fish Industry) i~oskva, P.1shQpraniLdat, 1951.' 491 P. OLitarat,ira": P. 487-(438) N, / 5 741. 'Y~ . n')  ,Y,.qs9r6y Wasillyevich; MINIX, H.K., redaktor; KUZIKIK . iz~- - -.4.9 , 'r~,L KIXHgW I r wasNTLIB, N.M., takhalcheskly redaktor. A [Technnlogical equipment of fish processing plants] Tekhno- logichoskee oberudevante ryboobrabatyvatusheMkIi preopritatti. Mosirwa. Pishchapromisdat. 1955. 310 P. [9LRA 9:1) (Fisheries) (Canning and preserving)  ZAYTSIV, Vikentiy Petrovich; HIWLOV,, G.V., retsenzent; PAKHOMOV, A.I. " _' ' laktor: HOROZOVA, I.I., redaktor; retsenzent; PISKAREV. A.L. speisr"e CHY.BYSHNVA, Te.A.. tekhnichealciy redaktor CRefrigeration of fiahery products] Kholodillaoe konservirovante rybnykh prroduktov. Koakva. Pishchepromizdat, 1956.-339 p. (KM 10:4) (Fishery products--Preservation) ' (Refrigeration and refrigerating nachinery)  ,/ II KOELSUM. G.S., polkovnik neditainakoy sluzhby; MIKHAYLOV, G.T.. podpolkovulk me&itsiuskoy sluzhby Some problems in the clinical and physiological rating of radar operators. loan.-med.zhur. no.9:32-36 S 156. (MIRA 10:3) (RUCTRIC ITY--PHYS IOLOG ICA L 11FMT) (RADAR--HYGLENIC ASnCTS)  24M 3 PHASE I BOOK EXPLOITATION SOV/1365 Materlaly I VSQSOYuzn-913 soveshchanlya p0 apektroakopii. t. 1, Molokulyarwa gpekt.-~osk'piyd' (Papers of the 10th All-Union Conference on Spsotr,soopy. V01- I- M11*0ular Spectroscopy) (L'Yov) Izd-vo L-vovskogo -AnIT-t&, 1957. 1 499 P. 4 000 copies printed. (Serissi tat P197ohnyy abir.-Wk. M. Vih Additional SPQnScri" Agenoys Ak"emlys nauk 333A. Koftlaslya po op?ktrookopil. 9d.s Jazer, 3.L., Tech. Rd., S&r&rquk T.V.j Edit Ial Doar4s Landst:rd O.S., Academician (Reap. id., Deasas Nopoomrnt, B.S., Do"tor f 6~sidal and Mathematical 3olenc*a, ad). F.b.11nakly, I.L. Doctor of Physical and Mathematical Sciences, FabrIkent, V.A.. bootor of Physics! -nd Mathematical Sciences. KOrEdtakiz, V.O., Candidate of Tac~udoal Sciences Rayskly, 3.M.* Candidate of Ph/sl*41 AM Mathematical Sciences. kilmovakly, L.K., Candidate of Physical and MAth*switical Balances, Pdliyanchuk, V.S., Candidate of Phjaijal and Mat.1wrAtical Science& and Glamberman, A. To., Candidate of Physical and Mathematical iolandes. Card 1/30 Foulnov, I.S. Study of Ion Salvation In Alcohol- -aqueous Solutions by Means of Absorption Spectra 213 5horygLn, P.P., and L.L. Kruahinekly. Dependence of the Intensity of Rama Lines on the luitatIon-light Frequency in the Resonance Range 215 goodilenko 1.1 and I L. Babloh. Dependence of the Intensity orlZut ' a;~. on the M I w tin Vf;II t Fm quenay for various Forms of Molecular rations 28 bobovich, Ta. B., and V. M. Plyovarov. Lntermolset4ar Interaction and Intensities In Raman Spostra 223 Sokolovskays. A.I. and P.A. Bashulin. Effect vor Temperature on kL;;., Spectra 1. Li uid, q 22!5 Effect of ToWersta"a an UA Raman eas p nam of Isopeatane 227 Q&r4 ISY.-  24(4) THOR I Mikhaylov, G. V. SOV/56-36-5-8/76 TITLEs The Influence of Pressure and Temperature on the Raman Spectrum of Nitrogen (Vliyaniye davieniya i tem~eratury na spektr konibinatsionnogo rasseyaniya azota PERIODICAL3 Zhurnal eksperimentallnoy i teoreticheskoy fiziki, 1959, Vol 36, Nr 5, pp 1368-1573 (USSR) ABSTRACT. The aim of the present paper was the experimental investigation of the widening of lines in the Raman spectrum and of the rotational structure of the q branch in the vibrational band of the spectrum in nitrogen. The investigations of the Raman spectrum in gases at various pressures and at constant temperature were carried out by means of a high-pressure illumination device which is schematically represented by figure 1. Work was carried out in collaboration with the Institut fiziki vysokikh davleniy Akademii nauk SSSR (Institute Of the Physics of High Pressures of the Academy of Sciences USSR). The Card 1/4 device is described by the present paper. Excitation of  The Influence of Pressure and Temperature on the SOV/56-36-5-8/76 Haman Spectrum of Nitrogen the Haman lines was carried out by means of the lig-lines 4047 and 4558 1 , and they were recorded by means of the spectrograph HUET B-III with a linear dispersion of 22.7 cm-1/mm (at 4047 1) and 36.2om~-,'AmLs% 43581).ftwwe of Ow Etamm-ortho Agfa plates lasted from 3 to 40 hours (in the thermostat). The pictures were treated by means of the microphotometer MF-4. The Raman spectra of nitrogen gas consisted of O-and S-branches in the rotational band and a Q branch in the vibrational band. The spectra were investigated at 270C within the range of from 7 - 114 atmospheres absolute pressure. The results obtained for 4 different pressures are shown by figure 21 tabici 1 shows the dependence of line width on pressure, and tl,e same is shown by figure 3 in form of a diagram for the rotational and the vibrational lines. For the former the curve shows a steep incline with increasing pressure up to about 25 atm, after which the incline becomes less steepi the latter show a hardly noticeable linear incline with increasing pressure. The Card 2/4 results obtained are discussed in detail. For the pressure  The Influence of Pressure and Temperature on the SOV/56-36-5-8/76 R~~man Spectrum of Nitrogen dependence of the widths of lines the formula d- 21iNv-? 2 holds. (N = number of molecules/cm3, - average velocity 2 0 of molecules); for nitroeen of- 0.027 p holds at 27 Table 2 shows the computed and measured values of the impact broadening of the vibrational and rotational lines for various temperatures, figure 4 shows in form of a diagram the rotational utructure of the i~ branch of nitrogen at 3000 C. For the ~j branch of the vibrational band 0-43 and for the pure rotational band ?W - 3.9 k was found. The results obtained agree satisfactorily with the theory. The author finally thanks Academician G. S. Landsberg, under whose supervision the first part of this work was carried out, and Professor P. A. Bazhulin and 1. 1. Sobellman for advice and discussions; he further thanks the collaborators of the Institute for the Physics of High Pressures, Professor L. F. Vereshchagin, Ye. F. Shcherbakovs and 1. Ye. Surkov for their assistance. There are 3 figures, Card 3/4 2 tables, and 6 references, 5 of which are Soviet,  The Influence of Pressure and Temperature on the SOV/56-36-5-8/76 Raman Spectrum of Nitrogen A550CIATION; Fizicheskiy institut im. P. N. Lebedeva Akademii nauk SSSR (Physics Institute imeni P. N. Lebedev of the Academy of Sciences USSR) SUBd1ITTEDi December 79 1958 Card 4/4  24(7),24-5000 76970 SOV/56--3~t-6-110/55 AUTHOR: -Mikhaylov, 0. V. TITLEi Effect of Pressure on the Combinational Spectrum of Oxygen PERIODICAL: Zhurnal eksper,imentallnoy i teoreticheskoy fiziki, 1959, Vol )7, Nr 6, pp 1570-1574 (USSR) ABSTRACT: A study was made of the Raman spectrum of oxygen at pressures between 7 and 125 atm. The Q-branch of' the vibrational band 0.( A v = 4,358 A) at 15-125 atm and the rotational band appeared as ohown in Pigs. 3 and 4, respectively. Card 1/5  Effect of Pressure on the Spectrum of Oxygen Curnbiriat!-(,rial 76970 11 0 V/c7 6 37 - 6 -Vr, c,-) Fig. Q-branch of the vibrational I-)and of' combinational disper~3'Ln of 0 2 4, 35 8 A a t 15 t 0 12') a t tr, Card 2/5  Effect of Pre.3jur- on the Cumblriatl~mal "pectrum of Oxygen '(b97() Vi cl Fig. 01. Card 3/5 RoLitional L3tcuctui,(- arid -alculatud form ol* the .~-Lran-h AV -40 ~lv Ilu  Effect of Pressure on the Combinational 76970 Spectrum of Oxygen sov/56-37-6-10/55 Card 4/5 At these pressures the broadening of lines In the rotational band bor2 tne nature Of C011131ons. The effective collision broadening parameter was P uj= 4.43 A. The parameters characterizing the width of the rotational lines In the Raman spectrum were Identical to those for 0 as measured on the basis of abscrptlon in the mi3rowave region. Dif- fering from the lines of the rotational band, the Q-branch of the vibrational transition of 0 2 did not broaden with the increase in the pressure. The ob- served width of the Q-branch was explained on the basis of the splitting of the Q-branch with respect to J, the splitting being due to the Interaction between vibrations and rotations. This work was carried out under the guidance of P. A. Bazhulin; I. I. Sobellman, V. I. Malyshev, and S. 0. Rautian participated in the discussion of this work. The text contains 1 tablej 4 graphs; and 7 references, 5 Soviet, 2 U.S. The U.S. references are: (1) P. W. Anderson, Phys. Rev. , 76, 647, 1949; (2) R. S. Anderson,  Effect of Pressure on the Combinational 76970 Spectrum of Oxygen sov/56-37-6-io/55 W. V. Smith, W. Gordy, Phys. Rev., 87, 561, 1952. ASSOCIATION: SUBMITTED: P. N. Lebedev Phjs. Inst. Acad. Sciences USSR, USSR (Fizicheskiy ins-.itut imeni P. N. Lebedev Akademii nauk SSSR, SSSR) July 9, 1959 Card 5/5  MIOAYLOV, G.V. Raman affect in methane at pressures of 15 to 250 atm. Opt.i spektr. 12 no-5:646-647 My 162. (IMIRA 15-5) (Ranmn effect) (16thane-Spectra.)  MIKHAYLOV, G.V. Structure and line width of Raman scattering of gases at high pressures. Trudy Fiz. inst.27:150-lS9 164. (MIRA 17:9)   77 r~- 7--  'ACCESSION "i' Udi ZManc  W122VM M -.IYKP FEIMP5 ~~q2 6075, T jw. ACC~ b ed serv eve, for.-. psee:-'. !tip'ile`r-.eqliPpdd_.'ld li mat iLble filt aser-, e s_for~.. him&' ru T.- gi4em_]~inc. --po yeri -4.'s.combined n- e connoti-focus,oVe ~p g. system;xas,,use y placidt a.:ru y;crystax, th ddable pum b ,,a _7 h' iimbei,, ('100.-. wid`n~6~ cri. -an, ell gal. kefledt ci ~FL pp _,s q arge mm mm, htteter' ,,~AACdW-- Afi6k-fpcii he qAattibudAh&-.j* 4ed'-eidss'dn-- re e V44; ag" reig 98SR AS8 (Ph -COD SUMVED 1-62JU'.7' .EMCL 00 46 PIRM i. ft 7~9 z 5 -_Ir a: n _.~ I.  4-M7-66 WAM FBDI94T(I)IEEC(k)-?,/TIEWP(k)./FdA[m)-2/~-WA !'R_W__WU hacwt AP6aoOl93 Vq SOURCE CODE: UR/0056/65/O)t9/005/1408/1410 AUTHOR: Andreyeva T. .; Dudkin, V. AA Malyshey V IWMIkhalov, G. V. Sorokin, V. N.; Rovikova, L. A Phyn' Tnntitutp ORG. zicheskiy institut Akadenii nauk SSSR) Ll Ll TITLE: Photodissociation SOURCE: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, v. 49, no. 5, 1965, i4o&i4lo TOPIC TAGS: laser, to4A4u- A4oAp- laser, photodissociation ABSTRACT: The authors-investigated the dependence of the oscillation threshold and .the pulsed energy output of a photodissociation laser based on CH31 or CF31 (recently fabricated by J. V. V. Kasper and 0. C. Pimental [Applied physics letters, v. 5, no. , 11,119649 P.,2311) on the pressure of the gaseous CH31 or CF I. In the first series of experiments, the authors used a 50-cm-long argod_fillea flash tube with a 50-pf capacitor 1~ank (voliage 2-10 kv). A 60-cm-long quartz tube with a 7-mm inner diameter equipped with Brewster-angle windows was used as the laser tube. The flash tube and the adjacent laser, tube were wrapped in aluminum foil. A confocal cavity formed by,. two.concave gold-surfaced mirrors (radius 1 m) was used in the experiments. The output energy of the CF.1 laser pulse van observed to reach a peak at a pressure  ACC MRs AP6000193 of 810-100 torr. At this pressure and at a pump power of 1600 J, the average output energy of the.CF31 11aser was 10-.2 j and the peak power, approximately 1 kv. Up to a pump energy of 1600 J, the output energy was a linear function of the pump energy. In another series of experimerts withan elliptical lamp, dielectric coated mirrors$ and an effective cell and lamp length of 250 no, the threshold for oscillation de- creased by more then a factor of two: For the CF31 laser, the threshold reached a minimum at about 80 j at a pressure ;f 10-20 torr. In the case of the CH31 laser, the threshold was at a mini-,- at a pressure of less than 1 torr. From the stand- point of high power output CF31 appears to be more promising than CH3I since higher power output le.obtained at higher pressure. Orig. art. has: 3 figures. [Cal S03 CODE: 20/ SUBM DATE: 02Jun65/ ORIG REF: 003/ OTH REP: 003/ ATD PRESS:  ACC NRI AT6033040 SOURCE CODE bR/2504/66/032/000/0107/0111 AUTHOR: Likhachov, V. M.; Mikhaylov, G. V.; Rabinovich, M. S. ORG. none TITLE: Investigation of the radiation of a straight sol-f-comprossod diLcharga (pinch) in the visible and ultraviolet regions. 2. Fast discharge at largo current densities SOURCE: AN S55R. Fizicheskiy institut. Trudy, v. 32, 1966. Fizika plazmy (Plasma Physics), 107-111 TOPIC TAGS: plasma pinch, plasma radiation, UV spectrum, plasma discharge ABSTRACT: The basic experiments on the dependence of the radiation of the discharge on the voltage supplied (energy) were carried out in a chamber with a diameter of 50 rZ, and a len th of 100 mm (the walls of the chamber were made of quartz and the electrodes of copperl. The chamber was filled successively with hydrogen. helium, and ~~rypton at a pressure of I torr. For each gas, photos were taken of the s5ectrum at battery energies of: 135 Joules (3 kilowatts), 540 Joules (6 kil . and 1200 joules (9 kilowatts). 7he results are shown in a series of figures. In general the results point to the Possibility of using a self-compressod discharge as a pulso source of radiation of small duration with a continuous emission spectrum. In the ultraviolet region, this source yields stronger radiation than a xenon lamp. "In conclusion, the I Card  ACC NRt AT6033040 authors thank their coworkers in the laboratory, A. 11. Pantyushin and A. V. Spiridoncrva for their help in preparing and carrying out the experiment." Orig. art. has. 4 figures. I 'SUB CODE: 20/ SUBM DAM none/ GRIG RUt 001/ OTH REFj 001 Card 2/2  ACC NR' AT6033039 SOURCE CODE: UR/2504/66/o32/ooo/'0G97/G1L06 AUIMOR: Bodilav, M. R.; Likhachov, V. M.; Mikhaylov, G. V.; Rabinovich, M. S. ORG: none TITIZ: Investigation of the radiation of a straight solf-comprossod discharga (pinch) An the vizible and ultraviolet regions. 1. Fast discharge at small current densities I iSOURCE: AN SSSR. Fiz'AcheskJy institut. Trudy, v. 32, 1966. -Fizika plazmy (Plasma Physics), 97-106 iTOPIC TAGS: plasma pinch, plasma radiation, UV spectrum, plasma discharge i iABSTRACT: The experimental apparatus is shown in Fig. 1. The distance between ielectrodes was 16 cm and the diameter of the electrodes was 20 cm. Tho source of energy was a battery of condensers with a capacitance of 20 microfarads. Commutation !of the current was accomplished with a vacuum discharger with igniting electrodes. The parasitic inductance of the loop was approximately 6 cm. To the electrodes of the chamber there was applied a current of 9 kilowatts, which corresponded to an energy supply of about 1 kilojoule. The apparatus made it possible to generate current ~Pulses UP to 300 kiloamps at a discharge time of 4 microseconds. Disonarge !investigations were carried out for He, No, Ar, Kr, Xe, H2, and air. The discharge  ACC NRt AT6033039 Fig. 1. Scheme of experimental unit. 1-discharge chamber; 2-battery of condensers; 3-vacuum discharger; 4-feeding unit; 5-control unit; 6-ISP-30 spectrograph; 7-Rogowski loop; 8-FEU-14B photomultiplier; 9-OK-17M oscillograph; 10--photocharber. ifor each gas was studied at pressures from 10-1 to 10 torr. On the basis of the ;experimental data calculations were made of the distribution of the radiation over the ichamber, the time characteristics of the discharge, the spectral composition of the i Card 2-  ACC NRs AT6033039 radiation yiold. A large table shows the onergy characteristics o' tho rau'-IatLon of I I a pinched plasma for the six gases studied. "In conclusion tho authors exTro--5 t.-.oLr thanks to their laboratory co-workers A. N. Pantyushin and L. N. Spiridonova for holp in carrying out the experiments." Orig. art. has; 6 figures and I table. SUB CODEN ZO/ SUBM DATEs none/ ORIG REF: 002/ OTH REFs 006 ~ Card  . . I- f ~ ., - L 11 :~--. --~ ~ ~t ,m~ - -. II . - . I I 'L~, - I I ~ ~ ~ 'L~-., - -'r - T-1. -1., -',   5(.iG " PHME I BOOK EMDIMION SOV/3255 Iw'-Ssov.. G.P and I. Pik-haylov Reaktivnoye oruzhiye (Missile and Rocket Weapons) Moscov, Izd-vo DOSAAF, 1959. 46 p. 58,ooo copies printed. Ed.: M.D. Kanevskaya; Tech, Ed.: G.I. Blazhenkova, PJRPOSE. The booklet in intended for the general reader interested in military science and armaments. 'VEPA~;E: This booklet, based mainly on non-Soviet sources, surveys the leading types of missiles used by the military, The first part of the booklet discusses the principles of reaction propulsion and analyses the different types of fuel employed. The second part of the vork describes Individual missiles and rocket@,, mainly those of the United States Armed Forces. No personalities we mentioned. There are 6 English references, TAIqk 4Eorzw=d 3  MIKHAnav, i. Aggreseora climb Into space. Kryl.rod. 14 no.6:4flr42 Je '63. (WRA 16:7) (3pace flight)  MIKEATLOV, I. (Rostov-na-Donii) State controllers. Fin.SSSR 38 no.2:82-86 F '64. (?ERA 17:2)  MIKHAYLOV, 1. In Kharkov after the liberation. Voen.znan. 41 N 165. (M.-RA 18,12)  DOKOV, R.D.; POPOV, At.G., GEORGIYEV, 4MAU40V,, IV. k4* depo~lta in tl--e IAadan Morphology of some metasomatic 1~q ore region. Geol.rud.mostor( 4.,t29-46 J1-Ag 162. )Zh. 'n6'm (KIRA 15:8) 1. Nauchno-isaledovatellskiy geclo Skly institut pri Upravlenii geologicheskoy razvedki i okhrwW-- e nedr Narodnoy Respubliki Bolgarii. (Madan region, Bulgaria-jaadkbres) (Madan region, Bulgaria-J;Uw~ores)  - C.", - II . .. Sewing Machines Fendi-nE tasks of sewing machine constructicn. Leg. Prom. 12 no. 4, 1952 Monthl List of Russian Accessions, Library of Congress, July 1952. Unclassified.  MIKHAYLUV-, I.A., mayor meditainskoy aluzhby Measu.res for preventing chronic poisoning with mercury Ya rs. Voen.- mod. zhur. no.8t4&--4 Air 161, (ITij 1W) U-RCURY-TOXIGOLOGY)  SOV/1 37- 59- 3-6852 D Translation from. Referativnyy zhurnal Meta;iurgiya, lq5Q. Nr 3. p 2-6 (USSR.j AUTHOR Mikhaylov, I A TITLE An Investigation of the Plastic Properties of the Heat - resistant Alloy EI-617 and the Development of a Precision-Starnp ng Process for Jet- engine Turbine Blades (Issledovamye plasticheskikh svoyst", z)-n-op- rochnogo splava EI-617 i razrabotka tekhnologicheskogo pro?scssa tochnoy shtampovki lopatok turbin reaktivnykh dxigateley) ABSTRACT Bibliographic entry on the atithors dissertation for the degree ()f Candidate of Technical Sciences. presented to the Mosk av:cits tekhnol in-t (Moscow Aviation Te( 'rinulogical Inst Tute . Mos( ow 1058 ASSOCIATION Mosk aviats tekhnol in-1 Wos( k)-,k Aviation Te( hnoi(-)g Institute), Moscow Card I /I  I!TY%"A'i'IC '.'9 7 . A . 9 F111'r. Ca n I . To cl~ . ')c I - Y- 7,f-,ertj t ' r :"CitpAnint, (,f -,, , "rr-- ! ~ F, ~ ~ I - - ~ ' p -~+ -,;.r. " Xr-r -. ~ [-F,* 'I -' , 21 - ct 4". - r , 'I "' -., , , r ; . SC : Vec',.ern ct, 1"""? (, .P, -wfa Vioskva, C -  SOV/81-59-16-58512 Translation from: Referativnyy zhurnal. Kh1miya, 1959, Nr 16, p 411 (USSR) AUTHORS: Zherdeva L.G., Mikhaylov , I.,A., Demchenko, A.D., Cherchenko, N.V., Timo- feyeva, ~.M. TITLE: The Possibilities of Using the Continuous Process of Adsorption Separation of Petroleum Fractions PERIODICAL: Tr. Vses. n.-i. in-t po pererabotke nefti i gaza i polucheniyu iskusstv. zhidk. topliva, 1958, Nr 7, PP 93-103 ABSTRACT: In a laboratory installation experiments were made regarding the con- tinuous purification by an adsorbent (crumbled Al-Si catalyst) of dis- tillate and deasphaltized residual fractions uf sulfurous (Tuymazy, Ro- mashkino, and their mixtures) and low-sulfurous (Emba, Zhirnovo, Baku) petroleum. The purification was carried out in the counter-flow system at continuous contacting of the descending adsorbent layer with the as- cending raw material flow and with continuous desorption by solvents and regeneration of the adsorbent. The process chn be applied to products of various viscosity and used to obtain oils, paraffins and fuels. Card 1/1 Ye. Pokrovskaya.  ZHERIOVA, L.G.;,.jjjIaIk - D&XIEINKO, A.D.; CHERCHENKO, N.V.; Tjp~~. I. A., 4 LEVINSON, S.Z.; TfZtSft'VA. K... Production of lubricating oils by adsorption refining with a moving bad of adsorbent. Trudy VNII NP no.7:103-119 '58. (14IRA 12 - 10) (TAibr1catlon and lubricants) (Adso rpt Io n)  ZHERDWA, L.G.- MMLAYU)V I.A.: KROLI, B.B.; CIUMINNO. N.V.: --"" Tmmting new allics alumina gel adsorbents for the adsorption stripping of oils. Trudy VNII NP ne.7-155-166 '58. (KIRA 12: 10) (Pntrnlewum products) (Adsorb"nts-Testing)  .3/ 06 '/ 0 2 /06G/ GG 6/0 01/(,() 7 C. E675/E136 AU THORS: Denisenko, , Badyshtova, K.M. Mlikhaylov, I A. 2 ~:hosnokov, A.A. , 3urinistrov, G.G. a_n_&_i'~Lo-sova, V.A. TITLE: "Nays of increasing the yield of high quality residual oils from Eastern sulphurous crudes PL~Rlui)ICAL: %'.himiya i tekhnologiya topliv i masel, no.6, 1962, 11-15 T:~;XT: High quality brightstocks were obtained by adsorptional refining of vacuum residues from high-sulphur Eastern crudes. The adsorbent was a granulated catalyst and benzine was used as a solvent. Tile moving bed process was described previously (Trudy VNil NP, v-7, Gostoptekilizdat, 1958, 93-103). The extraction,*even for phenol to oil ratio of 4.7 to 1, gave raffinates with L).81,, coke values instead of the specified 0.45-0.65,,. One promising refining treatment was the adsorptional refining after phenol extrac,tion. For phenol to oil ratio of 3:1 and adsorbent to oil ratio of 1-5:1, light raffinates were obtained having the viscosity of 17.80-17-51 ca at 100 OC and coke values 0.36-0.21~o. Even better results were obtained using Card 1/2  Ways of increasing the yield of ... 5/065/62/000/006/cc,1/007 E075/El36 only the adi3orptional refining, with the adsorbent to oil r.-itio 3:1 and 3.5:1, which gave very light raffinates having the viscosity at 100 *C of 16.62-15.99 cs and 0.26-0.19',, coke values. The latter method had an additional advantage in that it gave raffinates from which wax could be filtered 'J(,-50c,o' more rapidly than from the solvent raffinates of a less viscous deasphalted residue. Application of the adsorptional method to a deasphalted residue having a coke value of 1-15',j gave brightstocks with coke values of G-2-0.13,,;, colour 1.5 Points, viscosity af 100 OC 2C.13 to 18.38 cs, viscosity index of 85-95 and pour point of -20 OC. The yield of the oils was 15.6-13.6,o' of the vacuum residue compared with 12.5-11.2,,, obtained when the solvent extraction was used. The use of the adsorptional refining together with or without the solvent extraction obviates the use of cXay treatment. There are I figure MtId 2 tableas Card 2/2  Ml KHAnov, I.A.; LOKTIONOVA, Ye.L. Adsorption properties of molecular sieves during liquid phase sorption of hydrocarbons. Kh1m.i tpkh.tcpl.i masel I nc.11: 4-10 N 163. (MIRA 16:12) 1. Vqosoyuznyy nauchrTo-issledovatellskiy Instifut po pererabotke nefti i gazov i pollichenlTi iskusstverinogo zhidkngo topliva.  IZOTOVA, V.P.; MIKRAYLOV, I.A.; LEVD;SCII, S.21. ViscmB distillate lubr!ceLnt.s from adarrption purif.Imt-f-m. Khiz,. .-I takh. topl. i masel 9 nn.6,L~8-34 Je364 (MITU 17gl) 1. Vseso~ruznyy nau-~imc-Issled-vatel IFkiy institut pn perera- hct~ nefti 4. gaza i W.Iuchfff:i7u isnusatvermogo zh'Likr)gc,, 1.-)y- liva.   tl--uatior. an ~ aftlite. t4e- supervi,s"on tabkg  'dK:,iAYL(Yi) !.A.; IZOTOV,,, '..i . ; L--. 1- , 1. ', ~.d - c r- t i,~, r, kir i ~ , ~ - - - .", 4, . . .:. - . - --, -- . - ': -;. , 1-- 11 1 . . ; I ~ ... , : , i. ,V ~;, ~ j,,.7,zn,,-,, a;.~ -- -,(, -: ',- i ' . ~ ~- i i t,.. '- c) . '-- . I - .- I . I/ . . . I I I j~ i . o~ ~ .!',I .~ . . , -. I- I -~ I  KAZIM121, V.G.; MMIAYLOV, I.A.; SHATSKI-Y, V.N. Rift structures in northwestern Syria. Sov. geol. 7 no.6:81-92 Jo 164 (MTRA 18:1)  _ POLYAKOVA, A.A.; KHM L'NITSKIY, R.A.; IZOTOVA, N.P.; ~Nj LUjfg~A E MEDVEDEV, F.A.; CHERNYSHWA, M.M. Mass spectrometer investigation of the hydrocarbon composition of the paraffin-naphthene component of distillate lubricants. Khim. I tekh. topl. I masel 9 no.12sl5-20 D 064. (KM 18t2) 1. Vsesoy-uznyy nauchno-lasledovatellskiy inatitut po pererabotke nefti I gaza i poluchenlyu isaxusBtvennogo zhidkogo topliva.  ,---_---L-3360-66 --Dn(M)[EPP(C)/T/EWP(t)/&fP(6) AW ~$AiS025602. UK/0129/65/000/010/00SO/00st 621,78 5 $32541.132 AUTHOR*. Nthb=10V.. 1. A. tit(, 1i 5 Ati TITLE., ratio# In charge nitriding -SOURCE: Metafto'vedeniye i ternicheskaya obrabotka.metallov, no. 10, 1965, 50-51 :_TOPIC, TAGS: :',n 7 itridIng, Slow discharge, nitrogen,jon source,.ionization spectrum ABSTRACT: -The authors present the results of an experimental spectrometric invest- ~.igation~of:the':Oi(.icesses.accu,rring around the glow-4ischarge on using for this pur- pose :&.specially developed ion source w ith.a built-4ti discharge tube. A small aperture was made in the'cathode, and positive tons entered this a erture through p inertia, ~, thus *6mbarding. the cathode and forming . the, so-callid canal 'rays. Th se rays were examined.by means of a mass spectrometero' The o0rating conditions :f the.- source corresponded to the regimes of discharge-'nitridlfilg,.with-pure nitrogen used tht. Wxlkttl' s',The investi tion revealed tite,pre encilk Ithe nitrogen ions a ga a 9a N 0 alv 4 T, N' N'T and weak hydride and oxygen containing. ions. It was established that ithel iatensity of the ions of molecular nitrogen st-oridouLasted in the overall ton 2 current and ~ thAt'the~. -composition and Intensity of -this-lons.are a. function of the re- Simles of Slow'. discharge, . i.e., pressure- In the discharge- voltage, and the. density :.of,diichsrSe current, since atomic.attrogeawas of principal Interest* the invest;-i 11 1/3 I Card  T ACC Nih APS025602 igation.dealt:with the ratios of atomic nitrogen to molecular nntt+rog!r NZ and to the sum total of all the ions of.molecular nitrogenb' I.e. to N + + M3 N In different 2 4 regimes of discharges As the pressure increases from Oil to 6 torr (voltage 800 v, current density 3 ma/cmz) the overall ion current decreases and the amount of atomic :I- nitrogen increases from, 18. to: 25% owing to molecular ni.trogqn, although the proport- of atomic nitrogen decreases with respect to nitrogen K.' (see.FIS. I of the 3n- 2 closure). As Fig., 1,b of 'the 4closure shows, in the presence of r a. pressure of I torr and current density of 3,ma/cm the amount of atomic' nitrogen sharply increases (from ii to zn) whaft discharge voltage rises from 400 to 1000 v. The overall iou.curren tralao rincreases',. and, hencerthe percentage of,atomic nitrogen sharply in- creaeiia4'There Ls,' hoviver9r no further appreciable Luc rease In the reentage of ~stomic.nitrogeIa vh2n the current density to increases abov*3 me/car Hance it ap- that 3_m&/cm4.is to. be regarded as the optius~'currtnt densitie OcLg* art6 has: Peara If igUre. A.SSOCZ&TICO kjkg`~jn. BajMj4". SUSKITM*., aus CMt, *I, IM W RW S0Vj 7. Z T~-!~_, p 2/j  -.ACC AP5025602 MCLOSURES 01 Fig. I .Ratio betwelp Lou currents (u 800 V; w 3 ma/cca-9; p - 1. torr): L  WE SOURCE CODE: AUTHOR: Hikhaylov, is AS; PolyqkOva, A- A4 Khm"llnitskiy, R. A.; Loktionova, re, L.~ Medvedev ORG: 'VNII Nr TITLE1_--HYff*5-carbon comiosition of dearomatized liquid paraffins SOURCE: Xhimiya,i tekh logiya topliv i masels no, 8, 1965# 8-12 TOPIC TAGS: hydrocarboEtaromatic hydrocarbonp petroleum refiningp petrochemistry ABSTRACT: 'the *vhvca n composition 6f hijhly dearomaiize*d liquid para- ffins of different fractional compositions was investigated. It was shown that they consist of paraffin hydrocarbons of normal and branched structurop naphthenes andaromatic hydrocarbons - In marketed samples of (paraffins o scow Piatroleum Ref iner;~ f the Mo nthe content of normal paraffin !hydrocarbons was 95%, paraffin bydrocarbon~ of branched structure 3-4%, e~ !naphthene hydrocarbons up to 1%, and aromatic hydrocarbons not-more than :0.5%. Formal paraffin bydrocarbons were represented by compounds with from 14 to 22 carton atoms per molecules iooparaffin hydrocarbons - from 17 to ~24j. and naphthene - from 14 to 16 carbonatoms. Marketed paraffins of the GroznYY Petroleum-Oil Plant are characterized by a reduced content of normal- istructure paraffin hydrocarbons (90% and lower) tuid a high content of isopara-l' _ffin_.Wr~pcarb na (from,S to 17%)& Distribution of normal-structure pa _qi - . - __ Tak;p i , oY 'number' 'of carbon atoms in the molecule was the same as hydrocarbons in terms in paraffins from sulfur-containing 4troloum stocksk~but in a different quantitative ~ratio. Origo art. bast -3 figures and 3 tables. LJPRS1 SUB CODE: 11, 07 SUBM DATE. none Card 1A k UDC.- 665#41:553-98  a I. B. 5/06 62/00/006/019/027 10 3186 D 2Y AUTHORSs G. T. and M. R. TITLEo "auohn:y: konferentaiya Moskovskogo inshenerLo-fistoheakogo Instit t (Scientific Conference of the Moscow Engineering Physics Institate) 1962 PERIODICALi Atomnsya enerdlya, v. 13, no- 6, 1962, 603 - 606 TEXTi The annual conference took place In May 1962 with more than 400 delegates participating. A review is given of theme lectures that are assumed to be of interest for the readers of Atomnays suarglya. They are followingg L, 1. Loypunakly, future of fast resatoral &, A. Vasillyevg design of accelerators for euperhigh enersise'l 1. ft. Pomeranobuk, analytioity, unitarity, and asymptotio behavior of strong interactions at high energisel A. D. Migdal, phenomenological theory for the many-body probloul Yu. D. Fiveyakiy, deceleration of mediuni-*aargy antiprotons in aatterl Yuo W. ogan, Va. A. joellevskly, theory at the Massbauer off*otj M. 1. 17assnovo theory of ionisation losses in SOVAGGOSOO*OUS sediual Yu. B. Ivenovg A. A. Rukhadso, h-f conduativitj of euboritloal. plasmaj Card 1/4  :/089J62/013/006/019/027 Rauohnays konferentoiya... iv/BW Vo Platnevq Fo M, SPOWSkOV, A, M, Stalov, supply of synchrotron sleatro- Magnotal 0. Lo Saksaganskiyq V. Y&. Moineyev, flanged separable hast-r*. sistant junctions f t-diasetorl Do 0. Klinov, A. So Vayradyan, V. F. Yovesy V, Do Mikhoyloyl 1. No Afonskiy, B. No Belov, To. 1, Kea*- nov# B. 1. 3. A. Shobukint optical principles to computer engineering toohniquel R. 3. Nakhaanaon,*I. No Roysin, M. So MostovIyanakly, Yu. A. Volkov, electronlool To. L. Salim, transmitter for alectronagnet:j flow-motor, V. No Ovoyankin# To No Plushnikov, applica- Sion of varloondea for transforming d.o. into a.*. Card.4/4    i, -'L,0093846 1JP(C),` A"-.." -ACCiS9i6t6M:'AP5019731 4 0229 ;,r.-:1(M/0379/65/G0:VQ02/ /02 1 44 OV. AUTHOR:. K6 6y, S. FY TITLE-.' Calcidatibnof kinetic coefficients for'Ceirtaln oronic semiconductors SOURC&I-Te&eAl6heskayri eksorixnentalfna~a lmtya,.v.-L-'rA0 2. 106t*-- 26-241 kh PIC, TAGS: organ gem 0 tor electron mobfilty,, anthraceae, naphthalene, electric', 0 T conductivityo band theor tar0 -A~titAibt., An approximate'solutlon to derived for the kinatis equation for semiconductors tion batid - (axibb as as hthalene'6d anthiacene).4., On the is of this -*ith'a narrow ocadub n n 'an bag car i- edd 60effictents :olutl Wn Mn were calMaMg T65"FoOnt-rMutidn of transfer proc- SOCOMIntothe'r6laxation'time was taken Into account A nvancrical estimate of this contri-r bution for the alectricifoonductivity shows that when transfer prWegses are considered, once :thb conductlvi~r: deoreasea L approximately 4 a factoroUtwo. The betnimrature depend tal I otitained a0ees, qualitatt, with thoexperimen data, which lead to a rels-' the molA Ity Vely tMer, consid tion, v y tion, of the type A Using an a or Mesoproxtmation 7  -L -0093 8-66, ACCESSIONNR,. AP5019731''. SIMPle forinuta- was obtained for the thermoomf: buttlaelackpf experimental data o4the'temperalure dependence 6f,thethermoenif .jO It is conclu permit a comparison with the experiment. ded that the, kinetic equation to . cable when A~ 1 cm2/s9c. Orig. art. bas: 4 figures and 54, equations. F ! ~! ASSOCIAtION: Institut khtmicheakoy ftztld AN SM. Moscow (ins urde of Chemical 19 -AN. SSSR). SUWJMPD- 260ct64. ENCL.-- 00 CODE: SS OC ' A2 '001 OTHEM 00 NO REF SOV: ., ' I CqdL!n  UVOWTU-) L RH ,*c Nib GWR(X OMMI URj03W/6WWZWW6A93 AIA~ OF- -,LA AL.": !ALL~-!'-46 NgL--A--, Am ma~ I modimuduotors, approximtIong antweame TOMOTA08a, organ o ABSMQTt:. lifis, full." oonstant, lidaftetioreelitAftoe and Hall notion pdua~ors are calculated on or per a , A14p semlaoi q. OIX02t he baids r i6lutio, ~ of the'* I* a tion I ion 'a W kinet qua for-the.oage of-narroW sner xOnseg-derived:eirlier-by the authors see -TERho N6A9':,19.659 p.229K. A.oomparison with the experiment or.the-oase,of phthalooyanine lndidat~ss-that the scheme developed, ~Is in satisfacto'ry,'agreement with.the,experimental datas Certain vaiuss for'anthraoefte pyrene i -: frie'-phthalcoymine j- -- and copper phthaloo;VanIft,6 ' are - presented In a ~ table s soiw , oC which were taken the, IIt6ratur4;'vhIle others were derived4rop the otpeent f In the --wa his BID OM34 M2: f. OTH RIW 1, 00 A  SOV/1 24- 57- 3-2955 Translation from: Referativnyy zhurnal. Mekhanika, 1957, Nr 3, p 45 (USSR) AUTHOR: -Mikhaylov, I. E. TITLE: The Effect of the Gross-sectional Shape of a Volute Turbine Chamber on the Efficiency of the Turbine, and the Selection of the Design Con- dition for the Volute (Vliyaniye formy poperechnogo secheniva turbinnoy spirallnoy kamery na k. p. d. turbiny i vybor usloviya rascheta spirali) PERIODICAL: Tr. Moak. inzh-stroit. in-ta, 1956, Nr 16, pp 55-71 ABSTRACT: Bibliographic entry Card I /I  ACCESSION NR: AP4009078 S/0016/64/000/001/0112/0119 AUTHOR: Mikhayloy, 1. F.; Pers. TITLE: Isolation of antibodies from the antigen-antibody complex with the aid of ultrasound 0 SOURCE: Zhurnal mlkrobiologil..epidemiologif I Immuno0lologil, no. 1, 1964, 112- 119 TOPIC TAGS: antibody production, immunology, antigen-antibody complex dissocia- tion, ultrasound, dysentery antibody, diphtheria antibody. tularemia antibody, corpuscular antigen, fluorescent antibody 0 ABSTRACT: In an attempt to Improve upon existing techniques for the preparation of purified antibodies, which are needed for many immunological reactions, the authors studied the dissociation by ultrasound of the antigen-antibody complexes formed by specific adsorption of Immune sera against Flexner dysentery bacilli. diphtheria bacilli and tularemia with the homologous bacteria. The complexes were suspended In saline and subjected to ultrasound from an RFT generator for 45 minutes at an intensity of 5 watts/cm2 and a frequency of 800 kilocycles/second, after which the purity of the aitibodles In the eluate was determiaed. A 15-20% yield of pure antibody could be obtained. freed of all heterologous antibodies and Card 1/2  ACCESSION NR: AP4009078 serum albumin. There were no contaminating antigens from the adsorbing bacteria. Electrophoresis showed that the eluted antibodies were globulins (50% alpha, 21.5% beta and 28.5% gamma). Their specificity was confirmed by positive agglutination reactions with homologous bacteria, negative reactions with haterologous micro- organisms, and by direct and Indirect fluorescent antibody techniques. OrIg. art. has: 3 tables. ASSOCIATION: Moskovskly institut vaktsin I sy*vorotok Im. Machnikova (institute for vaccines and sera, Moscow) SUBMITTED: 23Feb63 DATE ACQ: 03Feb64 ENCL: 00 SUB CODE: AM No REF SOV: 002 OTHER: 010 .d 2/2 C,w  WeHa~ov,x.r-- . VMKIN, B.I.; MIKHAYWV, I.P. Vlr,wn" ~1,1 ~~,! !". ~ ~.-. ;, Kagnetic properties of metals at low temperatures. Part 2. Zffect of a magnetic field on the magnetic susceptibility of zinc single crystals in the temperature range from 20.4's to 3000 K. Zhur.sksp. i teor.fiz. 24 no.3:342-346 Mr 153. (NTAA 7:10) (Zinc--Kagnatic properties) (Ketallography)    KEKHAYWV, lo Fel IMITREHIM) 14, Mo. LAZAREV.~ B. Go, VERKIN, So I., (Kharkov) JIMagnetic Proyer*Aea of Non-Ferromagnetic Metals at Lov Tempercitures," a paper presented at the International Conference on PbQraics or magentic Phenomena, Sverdlovsk, 23-31 MOY 56.  24(0) SOV/89-7-2-3/2~ AUTHORS: Borovik, Ye. S., Lazarev, B. G., Mikhaylov, I. F. TITLE: ), Hydrogen Condensation Pump With a Built-in Liquifier (Vcd=odnyy kondensatsionnyy nasos s avtonomnym ozhizhitelem) PERIODICAL: Jktomnaya energiya, 1959, Vol 7, Nr 2, pp 117 - 121 (JSSR) ABSTRACT: Most drawbacks of the pump described in reference I are elimi- nated in the newly developed pump by the f&.t that the hydrogen is liquified directly in the pump. Two sectional views show the components and the construction of the pump as well as give, to a certain extent, description of the components and their functions. The liquifier is in connection with the compressor (10 m3/h), but can also be attached to a 17 m3/h compressor be- cause it has sufficient cooling surface. The operational capacity of the pump was tested with an iron container of/\) 1.5 m3 con- tent. As the container had a number of flanges and threaded pipe connections, special inside cleaning was impossible and due to this fact a vacuum of only 5 10-8 mm Hg was achieved. The ouction rate of the pump was experimentally determined to be 37 103 1 ' /sec Card 1/3 in the 10-7 _ 10-5 pressare range, and it 7as also established  A Hydrogen Condensation Pump Witn a Built-in Liquifier SUV/8'1-7-2--,,/24 that this rate as independent of the pres.9are. A separate test established that the pump functions even if there is a considerable formation of gas in the vessel to bi, evacuated and if there is a considerable amount of dirt on the cooling sarface By inserting a water cooled shutter between the recipient and the pump the saction rate was decreased to 17.105 I/sec and even under these conditions t the evaporation of Iron for example, a vacuum of I - 1.5,10-t mm Hg was achieved. There are diagrams showing the dependency of hydrogen consumption in case of strong secondary gas formation and the dependency of the liquifier's capacity on t-e pressure and the thermal stress respectively The maximum capacity of the liquifier is ftj 4 1 of liquid hydrogen/h at 60 atm. Calculating this data for a 10 m3/h- compressor, it means 2 5 lit/h. The maximum evaporation of the whole installation is v 21/h. The aggregates of the pump consume ~j 13 kw at a pumping efficiency of 37 103 I/sec, inclading the electric energy needed for liquifying the nitrogen In the liqul- fier. When the energy consumed for producing the nitrogen needed for cooling the main cock is also considered, the total con- sumption is ^~17 kw. An oil diffusion pump of the same capacity Card 2/5 has a higher energy consumption- B. P. Batrakov and V I Sharonov  A Hydrogen Condensation Pump With a Built-in Liquifier SOV/89-7-2-5/24 participated inaiMing out t-te measurements. There are 6 figures and 2 Soviet references. SUBMITTED: February 13, 1959 Card 3/3  1 11 . S/1-6/t,0/009/0~,/021/0%) 00 E lk~E AUTHORS: Mikhaylov, I.F., Kogan, V.S. anh __ W? N.-A. TITLE: The Reasons for the Brittleness of TunZ_!j_ten,'~AniP_,3i ,,I in Vacuum PERIODICAL: Fizika metallov i metallovedeniye, 1960, Vol -). Nr 2, pp 283 - 287 (USSR) ABSTRACT: The apparatus used in the experiment is shown lit Figure 1. A high vacuum was obtained by usingr low- temperature methods. The specimen (in the form of a wire) was heated by passing an electric current through it. Annealing was carried out for one hour at tempera- tures of 1 000 to 3 200 0C. From 1 000 to 1 200 oc a surface film of oxide is forined and the mechanical properties of annealed specimens in an ordinary or in a 11cold" vacuum are the same. Above 1 200 0C the oxide film disappears. At 1 300 OC specimens annealed in a 'Scold" vacuum are plastic and those in an ordinary VaCUL1111 are brittle. The wire heated in a "cold" vacuum has a considerably lower elastic limit than the original specimen. The specimens annealed in 0a "cold" vacuum Cardl/2 retain their plasticity up to 2 100 C~ It is )roposed ~K  S/126/60/009/02/Ozl/033 The Reasons for the Brittleness of TungsHeilil/RaNe,led in Vacuum that the reason for the brittlenesb ol' samples anneale(i in an ordinary vacuum is the formation of a layer of tungsten carbide on the surface. This is confirmed by X-ray analysis. Removiiig this layer by etching restores the plastic properties. Above 2 100 0C the change in plastic properties is due to recrystallization This has been shown by X-ray analysis. Ackno-viedgments are expressed to Professor Ye.S. Borovik for his Criticism and useful comments. There are 2 figures and .10 references, 3 of' which are English, I German and 6 Soviet. ASSOCIATION: Fiziko--tekhnicheskiy institut AN USSR (Physico-- SUBMITTED: technical Institute of the Ac.Sc., Ukrainian SSR July 7, 1959 Card 2/2  20387 3/184/61/000/001/001/014 A104/AO29 AUTHORSt Borovik, Ye.S., Professor, Doctor of Physics and Mathematics Mikhaylov, I.F., Engineer TITLE- Automated Hydrogen Liquefaction Cycle Without Gas-Holder PERIODICALs Khimicheskoye Maininestroyeniye, 1961, No. 1, pp. 1-2 TEXTz The increased use of liquid hydrogen and other liquid gases for cooling large machinery (Refs 1-4) is discussed. In order to simpli- fy the complicated maintenance of gas-holders, a closed cycle liquefao- tion device without gas-holder and with automatic pressure adjustment of the circulating gas was developed (Fig 1). The cycle was used to 3upply the hydrogen liquefiar of a condensation pump at a rate of 4,104 1/sec (Ref 2). The limit amount of liquid hydrogen is determined by the posi- tion of the hydrogen outlet tube in the liquefier collector. Liquid hydrogen collects up to a certain level, above which it is carried away by the outgoing gas. Finally, the entire amount of gas can be pumped in- to cylinders through a filter (7) and a valve (8). Both automatic valves (6) and (11) are pneumatic; their performance is based on the deflection of the membrane caused by varying pressures. The constant counterpressure Card 1/6  20387 S/164/61/000/001/001/014 A104/AO29 Automated Hydrogen Liquefaction Cycle Without Gas-Holder of valve (11) is insured by gas contained in the ballast container (9) and of the valve (6) by atmospheric pressure. Fig 2 shows the design of the ultimate pressure valve; its body consists of two parts (1) and (5) divided by a 20 mm diameter rubber membrane (2). The valve ensures the upper pressure limit to an accuracy o" 1 atm at a 200-atm maximum pressure. Rubber membranes of 1 mm thickness withstand pressure drops of 300 atm. Fig 3 shows the design of the automatic gas supply valve con- sisting of a short c linder (1), the ends of which are covered by two rubber diaphragms (2~. The operating diameter of the diaphragms is 105mm and the valve maintains a constant pressure to an accuracy of 0,002 atm. High accuracy is essential in order to prevent air intake through the pumping line of the compressor. A two-stage k8a(KV-D) air compressor of lo m3/h capacity per operating pressure of 60 atm was used. High compres- sion in the cylinder leads to intensified decomposition of lubricants, which necessitates careful purification of high-pressure hydrogen before entering the liquefier. Purification with the help of an adsorption fil- ter and a freezer ensures continuous operation of the liquefier for six Card 2/6  S/184/61/000/001/001/014 A104/A029 Automated Hydrogen Liquefaction Cycle Without Gas-Holder months. Analysis of the operating gas after six months showed that the content of oxygen does not exceed 0,0504, which freezes 4uickly. The freezer is a counter-flow heat exchanger with its lower part immersed in liquid nitrogen. The consumption of nitrogen for one compressor is 0-5 - 0.8 liter per minute. One compressor is sufficient in continuous opera- tion, whereas two must be switched on prior to attaining the normal opera- tion rate. During operation with two KVD compressors liquid hydrogen be- 6ins collecting after two hours. In steady conditions the throttle valve rejuired no regulation. The liquefaction cycle of the installation con- jists of: two KVD compressors, two 40-liter containers, one of them fill- ed with hydrogen; a BH-2 (VN-2) forepump for pumping out nitrogen; and purification devices as described above. The installation rejuires a working area of 1.5 - 2 m2. There are 5 figures and 4 references: 2 Soviet, 2 English. Card 3/6  BOROVIK, Ye.S.; MIKHAYWV, I.F.; KOSIK, N.A. Hydrogen liquefiers with high-efficiency heat exchangers. Prib. i tekh. eksp. 8 no.3tl65-168 My-Je 163. (MIRA 16:9) 1. Fiziko-tekhnicheakiy institut AN UkrSSR. (Liquid hidrogen) (Heat exchangers)   7~7 7 r7 77 Jm % t4,;, eik k6v-. l; ebolec TD IN'- 'IML sula, MIMI, jma~- --WMW ~00  BOHOVIK, Ye. 3.i XiKHAYLOV, - ?., Kand. te-krin. na-Lj'K; K',X;T?~, .';~ :nzr-.. a I cula t L on of tne rip at ~ix -tLa nee r-.,3 of i -I uefy! ng --a '--.n-~ .- zv. ( 1~1 - .- "I. I vys . lj~,npb. zav. ; enerp-. " no. ' , : ~ I F- ~ 2t~ "'1 1-,4 . I ;,I - o F i ziko-- tek~mic he,, ~ 1 y i ns t i Lut AN I!k-rSSK. 2. "~' ., i ~,. i~r. *, A', IJkrS:;H I f (-)r Bo rov .' ?~ ; .  y rogpm,!~., e um 044:1, clul 9 -A -.wle son I-V -pre Utria. .-.bydrt 10 co-- beat trans ldar6d a.. g4t,~Oxi~ a .-dotibloung of pipur of d Oro to tat$* togethie at' -tue'. -thetmal:. ~Ontadt,- and-.00 !16 roe ow, be. used -eviswin'rolativoij larp 'I queftiat n-kmchlft*i~`,-,~ of d'ounterf ov 6bange.ro ~l queftere.. q., W  FR  tj  PAVLOVSKIY, Ye.N., akaderaik [derF.,ase-,I); :IilA1,',Y'-CVI ~.F.; "".B. Reviews. Zhur. `=--~n. -'': nc.F:152-153 A 165, (,. I I ill A 18 : 1) 1. Direktor GosudarstvenriciLyo I~ontrollnogo inE:I.Ltu,~a ined"t.j.'nskikh biologicheakikh preparfAtov irnoni ha (for MiklAylov',. 2. Zaveduyusbehaya laboratorlyey proparatov Gosudarstvennugo kon,-,Lrotlnrp,,) 7~0ditoinnkl,'O, b-': )I ty,~(,heqki&h preparatov imeni v a  vm-  77. L -.383;-05' M AFF4, ik-CC-ESMO -,Xba rkiv. -(P a -SVB --'007 IREF 2 1 LEI a TM qu  I ' i. F. -- "Immunization Against Tijarpvda With Orally Adjainistered Live I~jlaremia Vaccine (Under EXT,erjrenta- Conditicrs).11 Sub 12 Play "'2 Seccnd Morcow S+,ate Mec~cal InEt ineni I. *". Stali,~. -"cn 'or the Degree of Candlcia-.( j r, '.jeCl 4cal -'ciericFE.) 51 : Vechernaya MoLkva Januax-,r-Decemt,er 19~,2  "Comparative Ey"uation of Bla=&th-Sulfite Neclia, for the Culti- vation of Typhoid Fever BacilDis," by T. 0. T).Qshkpv-ich. T. F. Mikhaylov, and A. L YaroslavlBev, Ailitary-Medical Academy imeai S. M. Kirov, Zhurnal MiArouiologii, Epidemiolo6ii, i Immuno- biologii, No 3, Mar 57, PP 78-81 Three media for the isolation of typhoid fever and paratyphoid bacteria from polluted water are compared for their effectiveness: (a) the original Wilson and B-air medium (1927); (b) the Minkevich medium whioh liffers from the original by the addition of the culture medium components to a meat-peptone agar and by its use in unboiled form. H a medium prepared according to instructions by Ivanov, Ploskiryev, and Bitkova, containing all the components in suspension form. The media were studied in agar and bouillon form. The authors' conclusions are that: 1. The bismuth-sulfit,. medium prepared according to the original Instruction6of Wilson and B-LaJx and according to Hinkevich is soot effec- tive.  2. Growing of the t"hoid fever bacilli on the binuth-sulfite medium with limited access to oxygen gives the best sulfite reducing reaction, accompanied by the appearance of a black coloration. 3. The bismuth sulfite formed as a result of the addition of bis- ntuth citrate to the microbial mixture inhibits the respiration of intes- tinal bacilli in the stage of pyrotartaric acid oxidation. 4. Changes in the concentration of SO ions in the medium cannot be utilized in the diagnosis of typhoid bac?Ui, because a decrease in the number of ions takes place due to both the growth of these microorgan- ism and to that of B. coll. (U)  JASHKSVICH, I.C.. MIKHAYILV, I.F. Preparation and testing of fluorescent 171Mune sere. Zhur.mIo---I1!n epid. i i7oun. 28 no.6:66-73 Je 157. (PIRA V~ 1~-) .4 1. Iz Vafedr biologicheak-oy khimit t mikrobiologti ioyennc- -34i'sir- skoy alcademii imeni 6-M.Kirove. mim SJUIUmL. fluoroscent serums, preo. & stuly (Hus,'i  KIKHAILOV, I.F. ~evlew of Volune 32 of 'Arperience of Soviet nedicine in the Great striotic War of 1941-1945.' Zhmr.mikrobiol.apid. i imsun. 28 mo.B: 135-138 Ag '57. (MIRA 11:2) (WCRLD WAR, 1939-1945-KIDICAL AND SANITARY AFFAIRS) (COXMICABIN DISBASES)  EXCERPTA XEDICA Sec 4 Vol 12/11 Med. Micro. Nov 59 3559. THE POSSIBIUTY OF EINIPLONING I'LLORESCEINT SERUMS IN BACTERIOLOGICAL DIAGNOSIS OF PATHOGENIC MICROORGANIS'MS OF THE INTESTINAL GROUP - %likha,lov I F and Li -h - ZH MIKROB. EPID. I IMMUNOBIOL. 1058.12 (10-14) 'rables 2 Illus 9 Antityphoid and antidysenteric y-globulin was ob(aint,d from rabbits. Cinjugationfi were made according to Coons with lsocyanate of fluorescein. Conjugate of anti- typhoid Y-globulln contained 5.51&g. of fluorescein n I nig. of protein and anti- body titre was 1: 1600. Conjugate of antidysenteric y-globulin contained 3 7 /Ag. of fluorescein in I mg. (A protein and antibody titre was 1: 2800. Luminescent micro- scopy employing specific fluorescent sera is a quick diagnostic procedure TaralAlk - 41,  M-IZHAT~U.- IYr Possibility of using the fluorescent sern ~.nethnd. Zhur. mlk'ro~iol. epid. i imoun. 29 no.8:122-1~6 Ag 158. (mLrm 11:10) . ( IMMM13 Swim, labeled by fluorescent substances, review (RUB)) (FITTORX.%CZ11CII. labeled immme se-s., review (Rua)) V.  r, MIKHATWV. 1.F.; Ll LI Detection of Vibrio come in objects in the external environment with the aid of fluorescence sera. Zhur.alirrobiol.epidA immun. 30 no.807-34 Ag '59. (KIRA 12:11) (TIBRIO) (IMMUNE SMMS)  ROGOZIN, I.I.; MIEUTLOV, I.FA--- Achievements in epidemiology in the Chinese People's Republic. ZhtLr. mikrobiol.epid.i immm. 30 no-10:3-8 0 '59. (MIRA 13:2) 1. 1z Voyanno-meditainakoy ordena Lenin& alcademii Iment Kirova. (ICPIDIKMIOLOGT)  MIKHAYLOV, I.F.!k-LI Ll Variations of the method of fluorescent sera. Zhur.mikrobiol. epid. i immu4s 31 no.3:9-13 Mr, 060. (MIRA 14:6) (SERUM) (FIZORESCEIN) (STAINS AND STAINING (MICROSCOPY))  SINITSKIY, A.A.; DIYANCV, S.I.; MIKHAYLOV, I.F;j NIKITIN, V.M.; OSIFOVA, I.V. Use of an indirect method for staining P. pestis with fluorescent antibodies. Report No.l:Specificity of staining and morphological characteristics of plague vaccine cells. Zhur.mikrobiol.epid.i immun. 31 no.1105-39 N 160, (MIRA 14:6) "4 1. Iz Vapbno-meditsinsko ordena Lenins, akademii imeni Kirova. (PIAGUE) TVACCINES) (ANTIGEHS AIID ANTIBODIFS)  MIKHAYLOV., Ivan Fedoravich; DIYAKOV, Sergey IvanoTic~. Prinimali ucbasti- yet JASHKE71M, 1.0.j YERMAKOV, N.V.; IVANOVA, M.T.; LI LI; OSIPOVAp I.V.; KUWRGDAy G.H.; USPENSKIY, V.I.., red.; ZUYEVA, N.K., tekhn. red. [Fluotescence microscopy; app4cation in medical microbiology,] Liuminestsentnaia mikroskopiJA; primenenie v meditsinskoi mikro- biologii Moskva, Medgisp 1961. 222 p. (MIRI 15:1) iFLUORESCENCE MICROSCOPY) (MICtLOBIOLOGI)