SCIENTIFIC ABSTRACT ILIN, B.V. - ILIN, GEORGIY SERGEYEVICH

88168 5/144/60/000/010/003/010 Y.'roo 002,y, 1031,~ //xx) - _z14o/z335 AUTHOR: Tit III & AP, Candidate of Technical Sciences, ActingDocent. TITLZt Choice of.Mon-interacting Control Circuit With Simplest Corrective Networks (II) PZRIODICALs Investiya vysshikh uchobnykh zavedeniy, glektromekhanika, 1960, No. 10, pp. 20 - 37 TITISt The first part of this paper was published in the 1960, No. 8 issue of this jourhkA, pp. 27-43. It deals with non-interacting control .syste". ioe, automatic control systems for several parameters in which the interactions between the parameters are compensated in such a manner that each channel in effectively non-interacting. In previous work the author investigated four basic non-interacting conjtrol-system structurest 1) automatic control system with "external" auto 'nomy and forward corrective network; 2) automatic control system with "internal" autonomy and forward corrective network; 3) automatic control system with "external" autnomy and reverse corrective network; 4) automatic control system with "internal" autonomy and Card 1/10  88168 S/144/60/000/010/003/010 9140/Z335 Choice of Non-interacting Control Circuit With Simplest Corrective Networks (II) reverse corrective network. In the present study these types are investigated from the point of view of simplification of corrective networks. While the four types have the same general properties there are differences in detailv presenting various advantages and disadvantages, depending on the dynamic characteristics of the process, character and pjDint of introduction of external disturbances, etc*, which were examined in the previous work, Since the quality obtainable with each type in essentially the same, the choice of type in dictated by simplicity of corrective network obtainable. Thia result is valid for linear systems; in-earlier work the author has considered ~the effects of nonlinearity of the type of insensitive zone. For a given structure variations are obtained by shifting the points at which signals are collected and summed. This leadi to varying requirements on the corrective network complexity. Various criteria of complexity areadvanced such ast 1) simplicity of detecting, summing and transformix)g Card 2/10  88168 8/144/60/000/010/003/010 Z140/9335- Choice of-Non-intbracting Control Circuit With Simplest Corrective'Notworke (11) coilrective signals,'whoreby transformation moans such operations an transforming mechanical displacements into electrical signals, *tcl 2) requirements on amplification of corrective signals; 3) complexity of the corrective networkso Since the first criterion depends on the concrete system considered, only the last/1'ritoria are examined here, Analysis of the gain required in the corrective networks shows that systems with reverse corrective networks are superior to those with forward correctivenetworks since the gain in the control circuit enclosed by the corrective network generally in outricient to permit purely passive corrective V~ networks in the former. The simplest corrective network is the "stiff" correttive n4twdrk which in, however, useful only for realization of static autonomy. For dynamic autonomy in the majority of cases dynamic couplings are needed between the regulators. which may be too diffi~mult for technical realization. Card 3/10  !Jolbu' 3/144/60/000/010/003/010 t140/2335 Choice of Mon-interacting.,!Control Circuit With Simplest Corrective Networks (11) Limiting performance is obtained by circuits and methods permitting a complex automatic-control system to be separated into individual slatess-both statically and dynamically by'. tiff corrective networks. Where this is not possible partial : implification of dynamic couplings will also be useful. It is desirabld%in.paiticular, to eliminate ideal differentiating networks and integrating networks, which may be achieved by structural variation. With n .\ 2 9 the number of regulated parameters, iheinumber of corrective networks increases more rapidly than the number of control channels, In this case, it may be frequently found desirable to accept more compli- cated controller circuits to permit simplification of the carective networks, Where the dynamic characteristics in the various channels are essenti~klly different, It may frequently be possible to group the channels with respect to similarities in the transient processes, permitting simplification of the forward corrective Card 4/10  88168 9/144/60/000/010/003/010 2140/2335 Choici of Non-interactins Control Circuit Vith Simplest Correetivo-Notworks (11) networks between controllers of a single group, while, asKmg the groups they retain the original complexity. The possibiliti9s of simplifying revorse corrective notworks, condect*d from the output of one controller to th*,input of another# ore, not very propising since the controller characteristics-enter Into the transfer characteristic-of the corrective network. The greatest-flexibility is given by systems in which the structureond-paromet,ers of the.controllers can be widely varied. Then the overall transfer characteristics of the controllers are selectedwith respect to control quality, the output networks of the controllers designed to simplify the corrective networkag- while the transfer functions of the input networks match the two critiria. Most present industrial controllers have not been designed for operation in interacting systems so that the full possibility of . simplifying the corrective networks or choice of transient Card 5/10  8/144/60/000/010/003/010 z140/3335 Choice of Non-interacting Control Circuit With Simplest Corrective Networks (it) characteristics is not available. In this second part of the paper, the author first considers the possibility or reducing the number of or completely eliminating the corrective couplings between controllers. 'Analysis shows that automatic control systems with internal autonomy are superior to than with external autonomy in this respect. The conditions under which the number of corrective networks can be reduced for systems with internal autonomy are found and it is shown that this is possible when the transfer functions of the-controllers are selected for the autonomy condition. In this case, however, freedom in the choice of process quality in restricted or lost. This came in further analysed in Appendix 1. It is found that.for a certain class oV automatic-control systems the separation into independent systems in obtained merely by unlimited increase of the controller gain factors. Card 6/1o  $8168- -9/144/60/000/010/003/010 -9140/9335 Choici.of Non-interacting C"tral Circuit with simplest Corrective NetworksAII) Thim.limiting',r*sult is only approximately realimabl* in practi.cs,_.biAt in -general t-he autonomy conditions ore, -always reallsed,,opproximotoly, so that this result in not a cause of dif ficulty. On the contrary, for processes'in which the regulated parameter interactions are very strong, even approximate autonomy cannot be realized without the use of corrective networks between the controllers. This case is further analyzed in Appendix 2. In the second part of this-article the author considers the use of corrective networks with industrial type controllers containing one internal feedback. A number of Soviet types of industrial controller are mentioned and it is stated that theme controllers*usually-operate in a creeping mode. The analysis is usually 16ased on'line'arisation and the relay in this mode in effectively an ififinite-gain amplifier. Two possible configurations are analysed, one in which the corrective networks (either forward or reverse) are connected to the Card 7/10  88168 s/144/60/000/010/003/010 S140/3335 Choice of Non-interacting Control Circuit Vith Simplest Corrective Networks (11) outputs of the feedback network or to their inputs. The dynamic characteristics of the controlldra are defined principally by the feedback networks, in which the basic controller adjustment eloments are located. which results in the requirement of more complex and difficult to realize corrective networks. With forward corrective networks the advantage of coupling them to the inputs of the feedback network in that unilateral autonomy is preserved, i.e. with readjustment of the a-th controller the autonomy of the regu3ated parameter x is preserved without requiring adjustment of the forw:rd corrective networks to the a-th controller. However, automony in the reverse direction of the other regulated parameters with respect to xs is disturbed. This required adjustment of the corrective couplings from the a-th regulator. Unilateral autonomy, Card-8/10  88168 s/144/60/000/010/003/010 9140/Z335 Choice of,Non-int.oracting.Control Circuit with Simplest Corrective Networks (11) however, does facilitate adjustment of the automatic-control system* With reverse corrective networks, coupling to the inputs of the feedback loops can only be used if the inputs to the corrective networks are not taken from the outputs of integrating circuits. In automatic-control systems with external autonomy the use of reverse corrective networks acting on the inputs of the controller internal feedbacks permits bilateral autonomy to be preserved with respect to controller adjustment. This does not apply to systems with internal autonomy, In such systems, when using forward corrective networks technical difficulty way be found in realizing ideal differentiating networks. This in avoided by introducing derivative control in the controller circuit, as discussed more fully in Appendix 3. Analysis shows that -the order of the equations of the individual systems in automatic-control systems with external autonomy Card 9/10  sA44/6o/ooo/olo/oovoio RAO/E335 Choice of Non-interacting Control Circuit with Simplest Corrective Networks (II) in higher than in those with internal autonomy, which in one of the advantag a of the latter. There are 10 figures and 14 Soviet refor:ncess ASSOCIATIONs Leningradskiy tekhnologicheskiy institut (Leningrad Technological Institute) SUBMITTED: April 19, 1960 Card 10/10  S/144/62/000/006/005/009 D230/D308 B.V., Candidate of Technical Sciences, Docent TITLE: Theory of combined control systems of interrelated magnitudes. 11MUODICAL: Izvoctiya vyschilch uchebny1ch zavedeniy. Elektro- mckhanika, no. 6, 1962, 632-645 The author considers a general structure of multiple; control systems of linear objects having a number of interrelated inputs and outputs. 1`4Tressions for the evaluation of the perturba- tion compensating loon ,s are of two types: (i) Suktable for an object, represented by linear differential equations'of a given type and, (ii) Represented by channel transfer functions, taking into account., the overall affect of the controlling, or the perturbing, actions ow the controllable magnitudes in all channels of the first case. For-r mulas for the evaluation of the perturbation compensating loop's are also given for the case of autonomy control. Systems with both in- Lernal and e~~tcrnal autonomy are considered. The degree of coinci- once petween the autonomy and the invariance conditions, as a func g ard 1/2  S/144/62/000/006/005/009 D230/D308 Lheory of combined control tion of the external perturbing actions' is examined. This coincl- dence is greatest for objects in which direct'connection between controllable magnitudes does not exist, and when each external per- turbance acts only on one of these magnitudes. In automatic control" systems of such objects minimum number of compensating loops is re- ~ quircd, onc for each perturbance; all other objects require, for the. realization of the compensation conditions, a greater number of loops. Autonomously controlled multiple systems having direct and reverse compensatirV,, loops bet3ieen the control elements are examined; a?-?roqriate formulas for the calculation of the transfer functions are deduced. There are 7 figures. 1=0CIATION: Leningradskiy telchnologicheakiy institut (Leningrad Technological Institute) SUBMITMD: Ap%-~l 28, 1961 C ard 2/2 `W*9`!,V`1 "-#MPNMN-'1 W  S/144j62/000/007/001/002 D289/D308 AUTHORs Il'iA2 Baornis Vladimirovicht Candidate of Technical Scienceeg Dodent-_ TITLEs ,Theory of combined schemes of regulation of inter- connected quantites I%v*BtiA'Vysshikh uohobnykh zavedeniy. Blektro- mekhanika, no- 7--19629 759 - 767 TEXT& Invariance with respect to control actions in sys- tems of intercoupled regulation produces absolutely.exaoVreproduction of control action from each regulating quentity.And also independence of regulated quantities from #foreign# control actions. This is achiev- ed by the use ofoompensating couplings from'oontrol actions. This paper is a continuation of the first article on this subject (Elektromekhanika, no. 6, 1962), where all symbols were defined. The author analyzes-con- ditions of invariance with-respect to control aotionsand obtains for- mulas'for compensating couplings of the form Card 1/3 r-7,.'M  s/144/62/000/007/001/002 ,Theory of combined schemes too D289/D308 A n 3~~ 467kr W qy k-1 Q comp r wiW ~i rpq 1# 2p oo.**, where ni-- D it qq ?kq 11 C31 Combined schemes of self-regulation with ntornal and external self- governing are analyzedi also,oombined sohimes of self-regulation with direct and reverse compensating couplingo'between regulators are con- sid,ered. Conditions of invariance of interconnected quantities with respect to control actions are considered4in both self-governing and non-self-governing systems. Your different a' of self-governing schemes are analyzed and ,formulas -giien. kn %sessohemes with external self-governing the oonditions:of self-governing coincide with the con- ditions of invariance with respect to $foreign' control actions. In schemes with internal self-governing these coincidences do not occur, Card 2/3  s/144/62/000/007/001/002 Theory of combinedsohemes D289/D308 therefore the nu:pber oficompeneating ties has to be increased. An appendix gives formulas for compensating ties for conditions of in- variance with respijot to both control actions and perturbing actions. There are 3 figures. ASSOCfATION: Leningradskiy politekhnicheskiy institut (Lenin- grad Polytechnio Institute) SUBMITTED: February 8, 1962 -VP Card 3/3  AmATLINI, Napoleon Laonovicho dots.j BARDINSKnp-Sorgey Ivanovich, dots.; DIM, Georgiy Vacheslavovi4b, dots.; WIN BorisjUdIalroAc k; sl~yto . _ -b, dots.; KNORRING, Glob Mi kaAd. tekhn.nauk; PASECHNX, Stepan Yakovlevich, prof.1 PIMOBRAZUENSKIT, Alsksoy Alskseyevich, dote.1 ROZENEEMER.. Boris Fed-wovich, dots.; SOLOVIYEV,-Vladimir Ivanovich, dots.j YASTBZBDV, Petr Parfenlyevioh, prof.; IEWVIDOV, B.S., doktor tekhn.nauk, prof., retsonsent; ARTEMOVA, T.I., red. isd-va; TUPMTNA, L.A,, red.iad-va; SHVETSOV, S.V.j, tokhn. red, [Electrical engineering &W electric equipment Elektrotekh- nika i slaktrooborudovaniel obahchii kurs. [Byi N,L.Amatuni i dr. Moskyao Hoevusisdat, 1963. 646 p. (MIRA 160) 1. Novocharkasakiy politakhnicheskiy institut (for Beloviday). (Electric engineering-Handbooks, manuals,, etc.) (Electric apparatus and appliancea--Handbooks, manuals,, etc.)  ..ILIIN, Boris Vladimirovichs kand. tekhn. nauk, doisent; RUKIN, Vladimir 1,1voviclu, MMONIMy nauchnyy sotrudnik Limitations imposed by objects on the realization of conditions of invariancy and autonomy. Izv., vys. ucheb. zav.; elektromekh. 7 noo8t979-?90 064, (MM 17:10) 1. Wedra, avtomatizatnii khimicheskikh proizvodstv Leningradekogo tekhnologicheekogo instituta.  Obnovlenskiy, Fetr Avenirovich; Korotkov, Pe,tr Arkhipovich; Gurey1ch, Aleksandr L'Yovich; _111in, Bodo. Vladimirovich FWdamentals orAutomatid control Md outomation in chemical industries (Ognovy artomatiki i strtmatizateft khimichaskikh proizvods.tv) Wscov, Izd-vo "Khimiye'. 1965.' 6o7 p.! illus.0- biblio., index. 9500 copies printed. TOPIC TAGS i automatic control awAnar, automatic control technology, industrial auto=&t.ionjehavical"plint equiva"t PuMOU AND CDV3RA(Z: Ther book-deals vith the automation of the production processes In the chemical Industry. 7be components of automatic'control system , checking and masuring devices, automatic regulators, and general principles of automation of chemical processes is described* Diagram and drawinp -of some processes and devices are supplied, The book Is Intended for engineers and technicians of chemical enterprisea and for students of hilfter technical schools specializing in this field. TABLZ OF O0VTJ=i__ Yoreword 8 Introduction 10, Cwd UDC: 62.5O&62.52-,66.ol2_52I66.oi2.i F/,  Part 1. Components of Monistic and ~ Remorte Control System, - 15 1, General information an components of automatic and remote control system 2. Electromechanical components - 22 3. Ferromagastio components ~ 61 4. Electron-long el9atrotbermaIg pb6toelectrieg and redioactiv 9 components, --.75 5. Electrical machinery 100 Part U. Automatic Control of Chadial-Technological, Processes 6. General' information ou automatic controL - 113 T., Measuring circuits and secondary general-purpose devices U5 8. Tenperature'sessuring devices -IU 9. Pressure messurinS devices 139 lo. nwmaters - 150 11. Level pps 163 22. Devices for determining the composition md'ooncentration of materials 13. Devices for determining pbysic&I'Vrqportl*s of matter 191 Part nI* Remote and Messuring Ontrol. System and Computers 14. Short-range remote measuring systems - ZU 15, Long-range readtie measuring and- control systems 230 Card 2/4  16. Computers -- 242. Part IV. Automatic Regulation 17. Automatic regulation system (basic information) - 277 18. The propekies of the objects of regulatic~ -- 282 19. The properties of automtic regulators and simplest system of automatic replation - 303 20. Regulator coiVonents 355 .21, The elements of the linear theory of automatic regulation 2,2. Basic industrial replatori 437 Part V. Automation of.Production Processes in Chemical Industry 23. General problem and prerequisites for autowtion of production processes perstica webi nes and apparatus - 24. Automation of continuousto 489 25. Automation -of periodic.~operation machines and apparatus 526 26. Automation of production areas and vorkshops - 547 27. The possibility of using computers as An ex=Wle of automation of sodium produation - 576 28. Centralized control-of'nodern chenia'al'enterprises 587 Cwd 3/4  ACC NIj -AN6016W 29. Bas Ic problen ot reliability of automatic ccutrol apteme and c ants in. chemical production -- 592.. . I I I  -0 Post = me n Soto sea 001 a 014,9 0 ll4 6 4r,4 si 0-0 *-Oio 0 0 go 0 "MOST4104- "*-10 1; .0. ~Pi 14, - ~1,1- p 'It t. "Opt*$ got-Is C4"L W. oir ft amb. Wb Mau "It M~ is rb as C430 MC. Immic *so so. w W P"* = goll aw b W d m. It. Uum"m so* .400 see Igoe :00 4*0 See Joe 06 go ;to- 0J.610 we* Ow 4i4 IL o 0 4 ois 0 0 0 0 **fee*$ 0 0 0 oi 0-00 0 0 0 0 0 0 0 # 0 0 0 41 0 0 0 00  000#00000041000000 004000000000000000: Ont FIF * I oil 0,1 of .." q of a a go 16 1!!0 0 004 ,00 -A a" "Wou Sm" ad dw awk. JIM d adlorpo" as dauft ImW W a* Worbod p$- a. V, mm afty of adoorptim (,mc #d Cos aclostod) A an IMMIS Im OW OW dmw coast. 0mkvdw Cal m the athrr. ctom fir elpf"Wal so forow"? %a - ly.~vj add A - No,.no iN. n*)((*6- IINATJ *00 r -5 1 P960itM 00 M00064 KINIAM. 4 - dWkV- CWM- W OW N" 0 00 8 -- 86:6WO6 me - a& of ad& 4 ON in I cc. 41 ul OW ','&I mal. pf momod. Mom ME so. POW Slickwom, of a&wA*d ky", na - d. J Ox ps in W ffte daar 0: row we dMYW wilbow t1w bmitims .00 0 comm= tik twowil Cawood 116 k, -Wk C06 096 ca am am" 94 P" MOIL 11. L. M, see sew goo coo Mee I piclc so L,-: At* WI.A 441"tIPOSItAk L"INAIWAI U&SWCAIVIN = *. - . - - - - t Ofto Of-alive its I vl~ .80 *-f OPS4 is *ell 0.0 bit it, - 4- '1"1 p T~vw- wmll~-Ivl fA 8 As 10 4 11 6 ad a 4 0 1 0 IN 9a d 3 0 ail 0 0 of 0 0 0 0 000 00 a tie 0 got so 0 f * 0 0 moomr  j0*00*000#40 0:0 . - . I t ,I,. ~ - - 644*0 0040 0* 0 a 0 1 z X, I - ~ I ~ r I I . ~ v a 0 0 a d at a 0 A -1 4 A it - 11 1-- 0 lbo at Nft "d byebm0a b d1ow" asksot, $*&womb" a abomw 10100b" ft - V. W&S AND 1. 0. 1411189M. ON ) d approdow W" pwtkks 1-do0w 1101116=1 Vim" WAAL 0="n 11youllwoJoUlockow In K44twel4om an W of #Aw on"Nol". The "11vo oAmada d fbrmmm 2W2 1 FLmmum X0 coo 00 4) see eow , fee art* do* 009 mod -ji fife 1#0 -go a got 11 a I OWA 010 0 0 0 010 0 0 0 0 0 4 0 0 4 0 0 0 0 0 0 4 C; 0 0 0 0 0 0 4, 0 0 0 0 4 41 &-A" a 0 04 o 0 0 9 0 0 * 0 0 0 0 0460 0010 4 000 0 0 4 0 * 4  #sit I A-A-A-A--A-A-A - i - A-A, -9 W& 4=_.9T_4 "% .p #w.;,*vfF. *Iolispn too "Orset"s OW44 07 %",boo own by "raw 00 t ask X._X_7jmmWmjg_"nV4~ -.,, (.;,*. 4.&_ (tj. 14 4 owo k.. q 6440. al a 1, a Via, O"Idud" lLbwnmjpa_lrrh"4C4 wwwr "-WAgWkbthvwlUvrfW2-4wwks 1 1 lmwr . E wt I to us Mir %his I Wk. w su In I" londww fm We* In 4r= ir MADOMY goo lase NO* woo 4r f4 S 0 0 0 0 0 0 0 0 0 a fel a 0 a a I; ;o 0 0 0-6910 00 00 0 is L 0 4 0 0 0 0 0 0 0 0 0 0 0 A * 99 00  goof 9 C d is fr A-4. i0pow "-.I SOUP W-Vkibo" .60 so 6. Ad&m~. Ass. Wt. OW, OP- al"w of "is., dOw*46 ce 2 at a ON AC#O, !MW so mob vii set see -j,joi fill !-'-Tv-i i tj Howl is* 0 0  oi:::,* IDS 009 44's god 004 so. so oof 0 000 0 0 0 0 41 Nis [a aww- TAW&W. me. IS.An 'a~ M As s"emp U me& an the be to awl ow wk. Water. cows the f t form I I It --9 but Go W"t*4 de- 484 budmu led@ -aftlywo. W. A..Macm tote :Ii i 0 0 0 000 0 -00 .00 ;C-o .00 -00 -00 -00 000 see SO* see AGO* so* 800 sob I LA goo t C Z- -- F flow 6"Smv goo 40# so will* di 0.,i iio T - T- 4 -&s& 4;4d6 4 0 1w Imi-No 1 000000 00000 0000009000000  '_7w,662-00 L'96, 6 IT 0 0, a 0 a I. a 6 a 4% a 1 1, w III afto Le tome ab,ft" oft semi I so 9011 am"m -H -,I 606. "I"Iff"Pa"IP f son l Ima Am" "So A- 8111 61"Wif Snamp loop a an Ime to I _. to WO ' Ok 1 * 6 All 1 ' st P 00 !.Iraq is vg 9 ITC911 ti ag 000 n l . SRI rm; ' I I t *,%Nlaqx A V v wd ~ w I ~ 00. so- of. "For -goes* :0 100000 10- IF a a Is mluwxmnm wiffun 113190"sia fit-ait NP 11 11A." UPWOMOU", -4*11 ww"""Woul W4 of, 0 he@ too roe 00 00 off roe &9e 00 00  a sea a 9 sevessoll ow"Oem 40100 :-00 0o pw ooj ud I A .00 4v, Li. F vk 0.4 ix4 1;~ 1; ~; 211-12 b mWe wet p by trutlat the pulp -00 00 With now" Imabs It an the Tift- 18 bw sbi6l drtab Wl==."k humman -00 .00 *of pea 00W 0 0 goo not 4694441 ANITALOWL MIAMI CL&WX&TW goo lwm 1"MR Wto* WSO fty off US P : Ujj A I a %d I if a 0 a 03 v 00 Is ~11101 00 0000000:::*Gooo ; :40000*000000 00*00: ::   no adwo.d wp dw Wak, bmw on So ki"~ of low. M I FOAMN. Abd jrw*jjj.R. at 16 ow' :6 lw W. IL Kwftbw looowt* of  mull 6 f* 0.8 116 OAIN IL" * a A-sl 4W 114  -1tviul jk,~rjff JQ;ldjmjrzvjc~h, Nature of adsorption forces Yloskya, Goo. izd-vo takhniko-teoret. lit-ry, 1952. 124 p. (54-26698) Q0182.15  Will IA 1, p p- ep, wr = IRLIS Ii 11 Oil L rg L t t, 0 rwir IL   Z_ 11'rey, If, V, WIN. B.1a, prof.; UOYOBIMOTA,, A.V.~ prof,j otyereds [Program In physical for the ChemisU7 racultyl Programs po fislke (d,11a khislohookogo fakulltets)e 1956s 5 V. (MIRA 110) I* Kolcow', Universitet. 2. Chlen-korrespondent AN SSSR (for Novoselova) (P~slcs-UU4 aid teaching) -ru R v M SAM ffl  Category: USSR Physical Chemistry - Surface phenomena. Adsorption. Chromatcgraphy. Ion exchange. Abs Jour: Referat Zhur-K.himiya.. No 9, 1957) 30174 Author : Illin B. V. Inst .-Not given Title Nature of Molecular Interacticns During Adsorption Orig Pub: Zh. neorgan. khimii, 1956, 1, No 7, 1559-1565 B-13 Abstract: A review of the data found in the literature and of thore secured by the author and his associates) relating to the measurement of surw.ative heat values 0, of vetting of solid surfaces by polar solvents and the determination of the component parts Q : Q., and Qj) corresponding to the wetting of the surface by the non-polar and the polar portion, respectively, of the molecule. The neces- sity is pointed out of gathering experimental data, relative to Qy for different series of polar molecules, for the purpose of pre- paring tables of Q,-jand Q, values which are of great importance in calculaticna of adsorption energy values ef various molecules. Card 1/1 -2-  BILIK, A*Tq,-.,-.jnshensrj WO .- ...7 .2.406~ . is;;Visi V"*.9,;i*li 006tilillps'lluotAsOL San$ be boated. Besop. tru" v pros. I no.W23 AP ' 7, (KM 1016) loases, Compressed)  WIN, B.T.;KISMY, V,F,j KWILIKIKOV, X.G. Zffect of the surface nature of silica on its absorption properties. Part 1. Tests Nook* une Bar. not., mkh.. astron. fis., k~im. 12 no. 6.t33-30 157. (ICOU 11:10) 1. Xafedra obahchay fisiki dlia khimichookoge fakul'tata X44kovskogo gosudaretyannogo universitate, (Silica) (Absorption)  5M AUTHORSi Kiselevj.F., and SOV/55-58-2-31/35 krasillniko"79:X.O. TITLEt Heat of Wetting of the Silica Gels of Different Degrees of Hydration (Tepldty amachivaniya silikageley razlichnoy stepani gidratataii) PERIODICAls Vestnik Yoskovskogo Universiteta.Beriye astamtW' . mekhmik4j, . estronomil.,-~ fizikii~ khWix ' 1958,11r 2,pp 223-232 (USSR) ABSTRACTs The-paper contains the results of a systematic investigation of the heat of wetting of different kinds of silica Soles The wetting of the surface was carried out by waterv n-propyl- alcohol's and n-heptanes The structural water content of the silica gel was taken into account. Already known properties were essentially confirmed. The opinion of A.V. Kiselev and his collaborators (Ref 9-161 was not confirmed according to which the unit of Ae surface of the silica gel possesses certain "abouluts" energetic properties. This Is not the case t The properties of the surface essentially depend on the preceding treatment (annealing eto)t i.e. on the bound water content of the surface layer. There are 6 figures, and 25 references, 15 of which are Sovietp Card 1/2  Heat of Wettin g of the Silica Gels of Different SOV/55-58-2-31/35 s ofRydration 7 American, 1 Englishl and 2 French. 14-IsMITIONt Kafedra obahchey fitiki dlva khimiaheskozo fakullfA+xt (Chair of General Physics of the Faculty of Chemistry) ,11j:)~,(TTED% ARril 14p 1957 Card 2/2 R IIIX. 01 ~ U-- W-0 ME ME IN%. m tMA A  OBNOVIAENSKIY, Fetr Aveniraviohi dots.1 KORDTKOVt Petr Arkhipovichp doto.1 GUREVICH, Aleksandr Llvovich, dots. I rIfi Visdug= ha.dots.j MUSTINOV, L.A.# kAM vauko redel OMKANj A6BSj Jnzbe# reds [Fundamentals of automatic control and automation in the chemical industries] Osnovy avtomatiki i avtomatizat9ii kbimiabookikh proisvodsty. Moskvap Khimiia 0 1965. 607 p. (MIRA 19il) 1, Kafedra avtomatizataii khimlebaskikh proizvod9tv Leningradskogo tokatillnogo instituta(for Obnovlenskiy).  --TYUTYt-;-1ljKOV-jYl. -,I L--IlYu.-D. 2. USSR (600) 4. Sausage casings 7, Progressive work.practicas in producing of casings., Miss.ind.SSSR# 23, No. 5, 1952. 9. Monthly List of Russign Accessions, Library of Congress, February 1953. Unclassified. IK A-01" N. 'MIME ';YB;el'"lVv-k5 WIN ' 0" ~ L~x wl. A - V  - --------- ILI IN for locating metallic objects. Radio 00.8:22-23 Ag (MIRA 13:9) (Metal detectors) I I -,- W-,, "I"110 T  ION WIN. D,F., inzh* Comparat.ive efficiency of-standard reinforced concrete and ateel, crane b~uw for one-stmT 1nd"trial .43.24- INTO ASW4 nolOSM3 '620 (MIRL 1631) (Wustrisa UdIding"quipment, and suppIlles   I -M-ECEASIM C1959 ee BIOPHMICS  SMAGUROT, A,Ao piofd~; DOMOVMIStAU., T.I.,, dotoonl4.,,WMp.- Hool R&tlnn and treatment of patientB vith myocardia* infarotion complAcated by oo2lapooo Xlino mod* 40 nooni 62-M N t6Z (KM 16M) 1, Is kafedry opedeftiki vnutronnikh bolezney (zave - profe, A.A,,%ela=rlechelriogo fakuliteta 11 Mookovokogo meditain- okogo inotituta imeni W.Wirogovae,   ILSIN D.T.j TERMNO TO.S. Effect of preheatin,gof gas in Qe electrouracking of metha to acetylene. ZhurprikI.Ithime 35 noon:2496-2504 N 162o (KERA 15 iJL2) (Methane) (Acetylene) (Cracking process)  S/076/62/036/007/009/010 B101/B138 AUTHORS: I ~11n, D.T., and Yeremin, Ye. N. TITLE: Pyrolysis of gasoline vapor to aceiV.1 ene -and olefins in water!vapor plasma PERIODICAL: Zhurnal fizichiskoy khimiij v. 36, no. 7, 19629 156o - 1562" TEXTs *Wfater vapor'plasma was produced in a plasmotron (7 at 145 kvt I kwhr/liter H 0), mixed with gaaoline-vdport and fed through tangential inlets into thipyrolysis ohamben After liberating'the water vapor the pyrolysis products were investigated by gas analysis and chromatography* Wator vapor consumption 3/hr. 'At 0.25-0. Resultst was 14 m 35 specific consumption of gasoline litiir of liquid gasoline per liter of liquid H 0) 30 % by volume of unsaturated compounds were obtainedt __11% 2 by volume of C H and v19 vol,% of olefins. The energy consumption 2 2' 3 did not exceed 7 kwhr per m of unsaturated compounds. In contrast to pyrolysis in hydrogen plasma, about 5 % by volume GO about 5% by volumes 2! Card 1/2  S/076/62/036/007/009/010 Pyrolysis of gasoline ... B107/B138 CO, and about 1% by volume 0 were formed in Iaddition.' With Inor;asing the maximum yiold of unsaturited compounds and minimum a~ are rapidly attained. It is suggested that large plants would yield 40-50 % by volume. of unsaturated bompounds at lowera . There are 2 figures. ASSOCIATION%. 1,;oskovskiy gomudars.tvennyy,universitet im. M. V.- Lomonosova (Moscow State University imeni M. V. Lomonosov) SUNAITTEDt November 14, 1961 Card 2/2 'MOM 11 E i1: 1 q1 PA-ftftm 0 t W. P Memo 2N V  ILI IN YMWN, YO.S. Ohlbe Improvement'Vr the method of electrocracking of metben to'acetyl6ne. Vest.'Wobk. Ser. 22 Min. 18 no.3241-44 Ny6Je 163 (MMA, 16t6) 1. la*ft fisicheskoy kbildi Moskovak o, universitsta. (Metbans) - (Cracking proosels (Acety3.ene)  ILIIN, D.T*; VMMIN, YesNe' Pyrolysis of benzene, vapors to-soetylone and olefins in the hydrogen plama. Zhur.fiz.khim, 36 no.lOt2222-2224 0 162. (MIRA 17t4) Modkovekiy gosudaretvannyy universitet imeni Lomonosova.  WIN, D.T,; YEREKrx, Yea. Effect of the dimensions of the reaction channel and discharge chamber on methane electrocracking. Zhur. prikl.khim. 38 no.11:2479-2487 N 165. (MIRA 18:12) 1. Submitted December 31s 1963.  1 ACC NRs AP6022138 AUT11OR: Illin, D. Tel Yeremin, Too He ORGs none TITW t ~ Pyrol sislof vapors of certain hydrocarbons and gasoline IV mixing them with a stream--onaril-logen plasma produced in an electrio arc SOURCEI Zhurnal priUadnoy khled', vo 38. no. 32. 1963. 2786-2796 TOPIC TAGSt gasoline, pyro3,vais, hydrocarbon, electric arc, hydrogen plasma, plasma boam ABSILRACT: A study of the pyrolysis of vapors of low-ootane gasolinAl and certain hydrocarbons (n-C6Hjr4e, n-C?lq6, n-C8HO , and iso-Ce'18) in hydrogen plasma produced* in a high voltage d ot-o-krrent elee io arc, at a pressure of about 1.1 - 2 absolutA atmosphores and equivalent in temperature to up to 30000, under the condition that hydrocarbons do not enter the discharge zone. has shown that the qualitative conposi- tion of ond products of pyrolysis depends bat little on the nature or the original compounds@ Pyrolysis of a gasoline representing a mixture of 76 individual compounds,: as well as pyrolysis of the specific hydrocarbons led to the formation chiefly of acetylene, ethylene, and methane. The degree of overall conversion of gasoline into gaseous compounds approximated 100%, while formation of carbon black wA other solid . F Card 1/2 UDC: '542.444&.092+547  L 30778-bb ACC NRs AP6022138 products was slight.d The extent to which gasoline was converted to unsaturated compounds Cacet leneland ethylene) in this case amounts to 60%, and the maximum concentrati aturated, compounds-to 17.5 volume %o Orig, art* hass 7 figures and 1 table. JPRC ~SUB CODEt 07, 21, 20 SUEM DATF-t 3lDeo6a ORIG REF: 004 OTH REF: 007 Card 2/2  IL.IIN,, D.,P. 20orience of leading workorg of the Gnivan' Factory. Sakh on, 33 no.402 Ap 159.. (MIU 12 0:6r 1.Tgsntrallny~ konitot profsoyma rabochikh pishohavoy promrshlonnesti, (Oninn'-Sugar manufacture) M  MUNI T, TEREM ya. N. 2~rQFsis..ofgasoline vapors to acetylene and olefins in "te'r vapor plam. Vest- Xosk.- un. Ser. 2t Khim. 3.6 i.e.1710 no.6:1a-42 N-D 162. (MML 16: 1~ 1, Kafedre. ftsicheskoy Wail Moskovskogo universiteta. (Gasoline) (P(Ar one) (Olefins) in) I NO   -1 ~, r--upnorl-c anhqdAridu t!4/- Krams). The stepe in proparIng the ail'll'uAlve are given. The off"t of the am if i-- -- .,,. ., -,.- , ' _ ~ ~ .q ~, t I 'I ~ ~ A ~ - 17 ~ " n I I . ~, : !nni: in ' - - --  RLMHOX. G.I., IWIN, F.M.; Iv"Ov. N.I., kwodldst elmnomicheekikh awLk. On the possible elimination of short hauls on tho Stalino Railroad line, Zhel.dor.transp. 37 no-1-.68-70 J& 156. (an 9:3) 1. Zamestitell nachallnika komerchaskoy slushbjr dorogi (for Baryshok); 2. Nachallnik otdola planiroyanlys parevosok (for Illin) (Failroada-Management)  ILI INI, G. On the place of the old Gushon Plant op.ekon. no.10:162-163 0 '57- (XIM 10: 12) I.Direktor Mookovskogo sayoda "Borp i solot.11 (Nosoov--wNotallurglcal- p1mts)  ILIN, G.t and others. Cost steelalloyed with copper. p. 235 Academia Republicii Populare Pomine. Beta de Cercetari StAintificet Timlsoarao STUDII SI CE?CFTAR1 STIMIFICE. MFIA It STIMME 114ATEHATICE, FIZICE~ CHIMICE, SI TEMUCE. Vol. 2P No. IA, An./bect 1955 Timisoara,, Rumania SOUPCE: East European List (BEAL) Library of Conkress,Nol. 6, No. 1~ January 1957  AKHAMV, N.P.: ILI IN, G.A. ;xperivental mining with over-all mechanization and automatization in the "Proletarskmia-Glubokaia" - mins, of the Donets Basin; over-an mechanization and automatisatiou are mineral main objectives. Ugoll 34 no.8:45 Ag '59. (KMA 12212) I.Glayr47 Inshoner shakht 0*010 tarskaya-GlubokeyO tresta Makeyevugoll (for Akhauov . 2.Pomoshchnik glavuoro mekhanikapo aytomatizateii shakhty "Proletarskera.-Glubokara" tresta, Mak;yevugoll (for Illin). (Donets Asslia..-Coal mines and mining) (Automatic control)  ----PASALI SKITS- 8; Se- -ILI IR,- G-e-A-*-, Automatic recording of the number of man entering and leaving the mine. Ugoll 34 no.8:47-48'Ag 139. (KMA 22:12) I.Nachallnik shsMty "Proletarskaya-Glubokayal treats, Makeyevugoll (for Pasal'sk1jr). '2.P6moshohnik glavzogo makhaniks shakhty "Proletaiskaya.-Glibokaya" trests. Makeyevugoll (for Illin). 3.PomoshchrAk glaynogo insheners, shakhty lProletarskayaGlubokeya" treeta, Makeyevugoll (for Sergayev). (Coal mines and mining) (Automatic control)  Category sUSSR/Folid Stnte Fhysico Pheso Trvnaformation in Solid Bodies As Jour tRef Zhur_-,,Ff4kc, No 3p 1557P Ho 6668 Iluthor ILUchk1n,'Gj,, Win, O.G. -Inst IMining nnd MaCP711urgical tituto, rrkutak, USSR Title IStudy of the Frocess of the High~.Temporaturo Oxidation _of.Motallid Titanium in Weter Vepor. Orig Yub IFiz. motallov i notallovedeniye, 1956; 2, No 3, 521-523 Lbstract IExperimental drtFt are given on high~-torperrturo oxideticn of titentun In wotor vapor in the ranga from 700 -.- 12000. It hrs boon 66tabli Iahod thet the o7idizpbility of titeniun is higher in wetor vepor then Weir. X-rry-diffrrction study hre ohovm thF-t only the TiO2 phese enters into the compositiop of the scale. Other 'phrBes (T1201; Pnd TiO) have not been,datected by X-oroy difftection. rePns.' The size of the grain'of the ocrlo diminishev monotonically from the out- side 'pqrtion to the surfPco of the motel. The greater oxidiz.ability of titeniur in wetor vepor ie connected with the facilitatod diffutiOn Of 02 through the leyer of scale) which in turn is*used by its structural features, Card  M"I I BOOK ZMAIMICK 30TA216 t' 3. hehanl Iss po, *141stralchiall, 4th. macaw. 29!56. Trudy... I 14sbornIkj (Transactions of the Fa~rth Conference an KI t- rochoulstryl Collection of Articles) ftmeow, lad-va AN 33Sr." 1959. 868 V. Zrrat& $11Y ln&4rted. 2.500 copleS printed. Sponacring Agency% AkadonlyR nauk 3331. Otdolonlye khUmIchookudl A&Uk, Zdit*rUl Boards A.R. PrLmkln (Romp. Id. ) Acadeadel". 0.A. Tessin. Professors s.z. zhdanov (ung. secretary), B.S. NabLoov, rim- feomorp 5.1. Zhdamv (Romp. &cr~tu7)1 #.N. Zkbanov, Profeamor% To. M. Xolotyrkln, Doctor of Chemical ac4onetal V.V. LoOsev. T.D. Lukovta". Traremears Z.A. 3clay-yeval V.V. 3tander. Proftssor; MW O.K. Platrissonvicht 14. of Publishing No"*% X.O. To... v.- Tech. Rd.t T.A. Prusako". PU.RPM% This book is intended for chemical and electrical fact- liters. physicists, MetautAralsts and researchers lAter*at*d in various aspects or tlectrochawLstry. CM.a The book contaln* 227 or the 138 reports Vr$94Ot*d at the Fourth Cantgroneg an jasetroctonistry sponsored by the Depart- 2-n wont or Chemical Sclersce-x and the I"tItutO Of ftWslc&l Che"Istry t academy or 3clencom. UU3t. The collection portatna to different branches of sloctroche"Ical ItInetles, dooms IA7*r theories Sad n Slavonia processes in metal olectrodepositan A" industrial elect- rolyals. Abridged dIoGY2410" A" given at the OrA or ass" dLvl- ~ *loss. The majority or reports not Included be" have be* published in periodical literature- SO V&rSO"IIUtSQV&" sleftil""d- Rorepences am given at the end or mat or the articles. %taMdM(DoOpj'bp~trQjSIr Z"t,tUt& of Chemical Technology Issonl P.R. VzorablaskIll. Polarization or Qrsphite Itlectrades During the Anodle 341paratloss Of CblorlrA 823 ,-Bwyxsn;VW-,'XI To.. and O.A. Tomnoy (Institute or Chemistry. Academy or overvoltage at Ilectro"s With Housgoagouss 3urraeo #-A X-Z--Xaa=. and XV_Xaa&tUp ("Icachoulcal InstItuts Isoni L. In. tarpov). nocitismiLon of the 3Lml- tan**" 91*ctrothemical Formation or Foroulraric Acid, Doom and Oxygen at a Platinum Anode In Sulrurle Acid 3olutions 434 S. To. K. Susarava and X. an the aloa. iarrucice or Surrair Pat~ of Decomposition of 3odlum Amalgams $41 11 la - ~Q- and V-1-SkrIpstbanko (XGvQch*rbMI*k ftllt*Chftlc G&A 33/ U SM/2216 Transactions or the Fourth Conference (Cont.) Inatitutg Imenj -5. OrdshonlitlAzt). innuento or the xatur* of 0. KlectrolytIc Cation on the Anode Process During the ZlectralYs Is of AlkILIt"s and &lkltoA-g&rth-Ngt&l Chloride 3olutions Yodl a I Varenin (Detemsed)p a. 0. ?rtkh*deh~nkoj A -0--V'--XrWkova. L-2-2*:U4AX*---T .'.).- lchx~~-14 M -- Ur.I-. 101troirtle 6%9 -Ao4-UctIo;-0Yftyg'; at Pero" cathodes Discussion 19. A. Fed0t*v. R-I Kags"OvIch -g#. M. guchtneirly. C.N~ Jokhenov. and *OntrI*U;lAg autiscrol 01A JVAIIAM& Ltbr'"V Or CO"Vr0** V"e Card 34/34 9-3"0  L 1116s-6fi m tix SWTA 0) VIW/GG UW0058/65/000/01,/I)017/DD17 ACC NRs AR6016103 SOUM CODE 57~ ','-:TITIE- 12fect- of shift of spectral lines in inhomogeneous sources of light on the -integral qwurtities SOURCEr Rif. zh. Fftikap Abs. 3.lDn9 IMF SMCE: Sbe Itoge rAucbno konferentsiya Kazansk. un-ta. za 1963 g. Gems.: pari~- magnit. rezonansap opektroskopii, i fix. pohiWevp radiofiz. astrono., bione bLzanlp 5- 3 37 ,Pj,~'LTOTM TAGS:" line shiftp line widthp light sourcep light dispersion., spectral linep ;.line intensityp Aight absorption The a~xtltqr Igated the influence of the shift of a spectral line and invest a change of the heU_vidth of its contour along the radius of a cylindrical source,, ..onIquantities that characterize the emission of inh2MSeneous sources of light 0. For 'N implicity., the case of a source with separated radiating and absorbing layers of atoms is considered., and tbe.following assumptions are made: the line contour is of ,the dispersion'type and its half width varies linearly to zero in the peripheral jArt -of the source, the concentration of the absorbing atoms is constant over the entire -...,volume. The results.otjhe calculati, show that the change in the shift of the con- on tour of the spectral line over the cross section of the source compensates for the Influence of the changeln the half width of the contourp that the integral intemity a 1/2 C rd  L, - -J-Ij~y AqC NRs AR6016183 "of the 'spectral lines depends little on the character of variation of the concentra- of.the absorbing atomse 7he dependences of other integral quantities exhib a~-.oiznil behaviorp whereas the visible line contours may differ strongly. Yus Mrtev. '-[Trimalatiozi of abstract] *- 2D MM CODX . O i-0  ACC NRs AR60161& SOURCE CODRS WOO56/65/OO0/On/mO17/DD17 Ar AU2HOR: et Flaboan I* Oe G. G Concerning the influence of asymertry of the contour an the integral cbar-' 'Acteristics of the radiation ..SOURCE: Ref. zh. Miks, Abs. 1ID22D MW SOURCE: Sbe Itogenimbn. konferentsiya lazanske un-ta z& 1963 g. Sektse: PAr&_ magnift. rezonansa., opektrookopli I fiz. p3~~, radiotizop astronep bions Kum$# "AX4., '7B-39 ~TOPIC MS: spectral line light dispersion., radiation intensity -ABSTRACT: 7he authors cons)Aer qualitatively the influence of asy=wtry of the ini- contour of the,spectraliline on the observed contour and on the integral char- acteristics of the AMationo Zthe calculations., the initial contour is taken to be one made up of two halves of dispersion contoursp which differ from each other in ntour ert in -hilf width. It is establishedtbat In the case of an arjantricLI co a c a deformation of the observed contour takes place,, but its integral quantities do not -change* Yus Mrteve (Translation of abstract] mm CME: 20  M.1-IL~m~---*.~i-RAB&II,~gvzco--,-d n im"Mm FISHMANt.1,S,; ILSIN, G.G. Applicability of the linear absorption method to nonuniform light sources, Opt&'i spektre 15 no.3s4OO-404 S 163s, :(MIRA 16slo)  I.S.;,SHAYWOV,, I.Sh.j G.G. Some experimental relationships of the integral characteristics of rhdiation in an arc. Opt. i spaktr, 15 no.*5095-~W N 163. (HM 16t12)  Acassiox NR-. AP4032862 s/0051/64/016/004/0559/0561 AUMI'On: Illin, G.G., 'TITLE- Effoot of radial VariatioA Of the spectrum line contour OA the .1ategral characteristics of the radiation of inhomogeneous sources SOURCE-. Optika I spaktraskopiya, v*16, no*4j 1964, 539-561 TOPIC TAGS: spoctroscopio source, light source, self-absorption, spectrum line, light absorption, Cowan-Dieke model, Cowan-Dieke theory 'ABSTILACT: Generally, the radiation from an inhomogeneous source Is calculated on the assumptian that the line contour for an infinitely thin layer remains constant along any given radius, that is, in moving out from the center. Attempts to take in- to account radial variation of the line contour encounter serious mathomatical dil- f icultios. An attempt to evaluate the influence at this factor was made - by H.Bartels (Zs.Phys.126,108 01949) , who showed that in this case the. peaks of the self-absorp- .tion lines do not remain constant with increase in the concentration of absorbing atoms, but grow to a certain limiting value. Thus, Bartels' calculations indicate that the visible line contour is strongly dependent on the variation of the initial Card 2/2  ACCESSION NR: AP4032962- line Contour over the source radius, Whereas the integral intensity changes to a lesser degree. According7Xy, in the present work there were calculated the integral intensities of spectrum lines and some parameters chargoterizing thoir.self-absorp- .tion on the assumption that the hall-width of the initial contour, in accord with actual variations ol the temperature and electron density, is constant only in the coniral region of the source and decreases more or less rapidly towards tho edges.. It is assumed that the line contour for an infinitoly thin layer has tho classical, dispersion (Lorentzian) shape, which in true for sparks and arcs burning at atmos- phoric pressure. The results of the calculatiops are presented in the form of curverb Cases when the Cowan-Dieko (Reva.Mod.Phys.20,418,1948) model is and is not applica- ble are discussed; the Cowan-Disko theory is valid fo4r arc sources characterized by a relatively low degree of inhomogenoity and minor variation of the tomporaturh and electron density inthe central region. "The author expresses his deep gratitude to I.S.Fishman for proposing the topic and discussion of the.results." Orig.art.hast' I formula and 2 figures. ASSOCIATION; none StMMXTTED:-O7Jun63, DATE ACQs 079aY64 EXCL: 00 SUB CODE: OP XX RV SM 004 0=R1 002 Card  L 26699-66 EwT(I)/F.Tc(f)/Epr(n)-2/zwo(*Y IJP(c) AT ACC NR: AP6011551 SOURCE CODE:. -UR/0051/66/020/603/0387/L)393 ,AUTHORS#. Illin G. G.; Fishman 1. S# 5 ORO: none TTTLE: Concerning-the problem of plasma-diagnostics ~by means of self-inverted aontours-of'spectr al lines emitted by inhomogeneous layers SOURCE: Optika i spektroskopiya, v. 20,, no. 3, 1966, 387-393 tTOPIC TAGS: plasma diagnostics, spectral line, plasm temperature I plasma density,. line, bros~dqning., line Intensity, line width ABSTRAM. This is acompanion-,to earlier work (Zh; Prikl. Spektr. v 3 320,. 1965) dealing with various errors that arise in the cal- c~latfion of the temperature.,-atom and ion density, inhomogeneity, electron density and the 'broadening of spectral lines when the self'- l (inverted contour'method is used for plasma diagnostics. The present larticle presents improvements to the calculations obtained by repro- -isenting the line contours.-in tbe.form of a Voigt~ contour. The in-  L 26699766 "J'ACC NR: AF6011551 homogeneous light source model proposed b R. D. Cowan and D. H. (Rev. Physo, v.,20., 418J. 194Wwas Dieke Modern used; The formula used for theintensity'distribution of the line contour was reported,, by the authors elsewhere (3:togovaya nauabn. konf. Kazanskogo univ. Za 1962 [Summrizing Scientific Conference of the Kazant'University in 19621, p. 47., Kazan$,, 1963). The tabulated values obtained for ''Ithe width of the line contour and for the intensity ratio.. and plots of the line contour.and of the intensity ratio against the line widths are presented. The results of the calculations were. verified --experimentally and agree well.witb experimental data, with a few ex- deptions in the case c~f--tbe_lineo--of-sodium-plasma-f--New-plasms baised,oh this method are prbposedi It is proposed that the results of the calculations be used-to supplement hnd refine existing plasma diagnostic procedures. The authors thank 'N. K. :.ABegovatova and R. V, Surinova for*help with the calculations. Origo' ijart.bast 5 riguresj formu asi and 3 tables. ,SUB CODE: W/ SUIBM DATE 21JO165/ :o'RiG Rsp: o23/ oTH REP.,_ ook Card  ILIINY G.I.; ANATOLIY~ S.A.; PADERINA) Ye.M.; SAFRO, L.N. Signifies nce of biological activity of microbes for the development of experimental staphylococcal Infection. Report Ho.2t Pathomorphological and microblological characteristics of stalihylococcal pneumonia depending on the virulence of the a pathogen. Zhur. m1krobiol. epid. I immun. 42 no.6s77-80 "5. (MIRA 18:9)  ARUM]ILIM=l, L*V,,, lnxho; ZOXBMN, LJ., iushqj~~~sh. Redesigning the M2 trammitter. Test. oviazi 19 no.11S7-10 N (NDA 13 8) la Oktyabro persdaMbohly radlotmentrt (Madio-2ransmitters and transadesion) kx N�RRM,  twvi  WIN, G.I. (laningrad) --.WNW, -Diig-fteels of mWocardial lWpe.rtr*pVq by the suspension n*htodo Arkhe Pat- 18 DO-807-101 (KEM lOt2) 16 In kmfedr7 patologichookoy anstomil (save - prof, N.A.Zskhmr$y*v- skmys) I laningradekoge, seditainskogo institute Imeni akad. I.P. sumpenslea wtbed (Mus))  ILIINp G.I. Influence of cortisone on the course of experimental staphylo- oocoal infection. Diul. eksp. biol. i mod. 51 no.6:4&49 is 161a (KUU 15:6) 1. Iz laboratorii'infektoionnoy patologii (zav. - prof. MS. Voyno.-y"Onstskiy) otdola patologicheskoy anatomii (zav. - akadiim 'N.N. Anicbkov) Inotituts, okeperimentallnoy meditoiny AMN Leningrad* Predstavlena akademikom. N.N. Ani"ovymo (STAPHYLOCOCCAL DISWE) (CCRTISONE) W-, a  BIRrUKOV,. D.A.,, prof.; SMODINTSEV,, A.A., prof.; szLivANOV, A.A.,, kand. nod. nauko starshiy nauohuyy notrudnikj JjtlW,_", kand, made naukj PIUMSM., V,,Te,p doktor mod. nauv;--GMMEMMO Gol vrach Grippeo Nauka i shisul 30 no.402-78 AP 163o (KMA 16:7) 10 Direktor Instituta'oksperimntal 'nay mmUtsiny ANN Ssa.. lanlngrad., deptvitollqy chlon AMR SSSR (for Biryukov). 2. Otdolvimologii Inatituta ka rimentallacy maditainy AS SSSR, Leningrad (for Se:Li%:Omvr. 3o Otdol patologicheabby anatOmii In3titut, OkM*rimentallnoy maditainy Alf SSSRv Isningrad (for Win). (nDVMA MZMH)  MARKOVICH; A. V. SOKOWV; B, V.; MISLntw&u ) A. -,FROLOVA-jM-.-k. J WIN) as L "Therapy of expeimental coccal Infections by soluble tetracycline derivatives and by t6tracycline." report submitted for Antibiotics Cong, Prague, 15-19 Jun 64. Sci Res last of Antibiotics, Uningrad.  ILIIN 0 Methodology of reproducing the palmonary form of staphylococcal infection. Lab. delo no. llt690-692 164. (MIRA 17:12) 1. Laboratr,siya infoktoionnoy patologii (zaveduyushchiy- Prof. A.V.Voyno-Yasenotakiy) otdela patologicheakoy anatomii (zaveduyushchiy - akademik N.N.Anichkov) Instituta eksperimentallnoy meditainy AMN SSM, Leningrad.  PIGAREVSKI*Y, V.Ye.; WIN, G.I.; ANATOLIYI S.A.; CHALKINA, O.M. Paradoxical mitigation c ' toxic inflilew-a manifestationn wnder the influence of a mild course of a staphylococcal infection of the respiratory tracts. Vop. virus. 10 no.2:181-187 Mr-Ap 165. (MIRA 18:10) 1. Institut eksperimntalinoy meditsiny A14N SLZR, Moskva. :I  WIN, GM, ~ , Temperature conditions in the hydrothermal processing of natural phosphates. Trudy NIUIF no,208:133-142 165. (MIRA 18t.11)  NI ZOV, A.A. SKJSHKOV.TCH, B.L.1 ILIINS C Automation of a device for cupping test of sheet metals. Zav.lab. 30 no.4t491-492 164. (MIRA rl-.4) l.:Spetaiallnoyalkonst.ruktorskoye byuro po razrabotke avtomaticheakikh aredstv izmereniya mass i priborov ispytatellnoy tekhniki Verkhne- Volshokogo sovets, narodnogo khozyaystva.  ACC NR, Ar6021478 SOURCE CODE: UR/0413/66/000/011/0105/ MENTOR: Win, 0. P.; Rublev, P, A. ORGi None TITLE: An aircraft instrument for measuring the velocity of wind gusts. class 42, No. 182422 SOURCE: Izobreteniya, promWeblennyye obrattay, tovarnyye znaki, no. 11, 1966,, .105-io6 VOPIC TAGS: vind meter, auxiliary aircraft equipment ABSrLTACT: This Author's Certificate introduces an aircraft instrument formeasuring the 'velocity of wind gusts. The unit contains an intake section and a metal dia- phragm. The instrument is designed for improved measurement.accuracy and for elimi- rating the effect of extraneous factors on the measurements. The intake section of the device is made in the form of a movable hemispherical cap which is rigi con- nected during measurement to the center of a diaphragm located between and 2 oustic receiver and a radiator of acoustic oscilliLtious -. The radiator and receiver are con-, nected in an electronic unit with a signal generator, resonance tu ning'indicator and monitoring instrumentation. Card UDC; 551-508-54   BERDNIKOVt Leonid NIkolayevicb, Inzb.; Ij 'j-&, L Geargiyjetrovic Inz.h.j SHATERIN, Mikhail Andreyevich., inzh.; SHIFRIII,'"A.M... red. [Drilling and milli beat-resistant and low-magnetic steels; verbatum record of a lecture deli%ered at the Leningrad House of Scientific and Technical Information in May 1963] Sverlenie i frezerovanle zharoprochnykh i mELlomagnitrjykh stalel; steno- grair,ma lektaiip proebitamoi v LDNTP v mae 1963 g. Leni"red 1964. 23 P. (MIRA l7s~l  illy ~Ovj V.A.- 1.1,11110 G.Pq MAKSIMOVP YU.J. Direct phase CoIrpowding sYstem w5ing a p-n-p-n device. Sudostroenle no.8t40-42 AC r'65. 18  80848 8/050J60/000/06/o6/021- B007/BOO7 J, 5" '0'0 0 AUTHOR: Win 0. P. TITLE: Determination of the-Lower gloudiness Boundary PERIODICAL: Mateorologiya i gidrologiyal 1960t No. 6, pp. 24-25 TEXT: A samiespirical formula for the.determ1nation of the lower cloudiness boundary during'the warm season (April - September) is derived. For the purpose of determining the increase on the lower .cloudiness boundary# the observations,made from aircraft between 1953 and 1958 during the time from April to September in the area of Moscow were used. The-results obtained are given in Table 1 and Fig. 1. It is shown that,,if the temperature and the relative air-moisture at the preceding and present instance of time are known from the weather records in consideration of the constant of proportionality k (which depends upon the season of the year), it is possible to determine the lower cloudiness boundary. By adding this increase to the preceding height, the lower cloudiness boundary at the given instant of time is obtained. In Card 1/2  Determination of the Lower Cloudiness 8/050160/000/06/06/021 Boundary 3007/BO07 the case of sufficiently accurate air-temperature- and air-moisture data the height of the lower cloudiness boundary may be calculated at dartiae (during the warm season) from the formula (3) derived here with an error of 6 to 8% of the quantity to be determined. There are I figure and I table. Card 2/2  ILI IN O.P The speed of cyolone xovonent. Hateorgi gidrol. no.8:33-34 Ag ,6o. (MM 13:8) (Oyolones)  ~. a. .. . ILIIN, 0. P.- "Investigation of Sowing Machines for Sowing Oak Acorns in Oroups.1 Min of Higher Education 'USSR, Moscow Forestry-Engineering Inst, Moscow, 1933 (Dissertations For Degree of Candidate of Tsobnlcal Sciences) SO.- Knizhnava Igetovis' No. 26, June 1935, Moscow  -WlmlJkwdiy Favlovioblusmovg Alsksandr Vasillyevichl MUMN, A,I,j red.j IUZUUVAV TIVaBs 9 rOds i Sd--Ta$ LABAMMAp RoY*o v tekbno redo lKwhinery and equipment for the reforestation of cutover areas] -Manbizw torWiia dUa, vandaulla-lexurkb Witur na. vMbkakbe lio*vag ComUmbmisdati, 1963., 95 p. (ML 2418 (Forest# sad forestry-41quipmut and mpplies) (Reforsetationi  AIIN, O.P.v kan&.t*kbnox&Uk -The KM forest seeder* Traktoi, selikhomsh& 32 uo*905 3 162o (KM 15M) (AHWstatim) (Wee p1mUng-Wymeat and supplies)  ACC NRs AM004216 SOURCE CODE: UR/0331/65/000/009/0000/0000 AUTHOR: Illin G. P. (Candidate of technical sciences, Engineer); Ishmanstov, A. S. (Candidaie of4ifchnrcal sciences, Engineer) ORG: none TITLZ: Equipment used with skid tractorJAin forest husbandry SOURCE: Lesnaya promyshlonnost', no, 9, 1965, Inside front cover and inside back co 'TOPIC TAGS: agricultural machinery, tractor ABSTRACT: Plows, cultivators, ditch diggers, seeders, tree planters, and sprayers us- ed with skid tractors in reforestation. soil preparation, fire fighting, and fire pre- vention are described. The basic technical specifications of the tractors are given, The authors identify the manufacturers and model numbers of the machines and recommend ithe various tractors with which the hook-on equipment should be used. Orig. art. has: 2 figures, 8 tables. SUB CODE: 02/ SUBM DATE t none 2 UDC: 631.3 634.0.377.44 Card  1_~IIN..,Georgiy "argeyevichl BOKOV, V.A.,, red. [Ceramic piezoelectric elements) Keramicheakie plezo- elementy. Leningradp 1963, 19 p* (Loningradgddy dom nauchno- takhnichookoi propagambre Seriias Elektricheakie metody obra- botki-materialov,.no*2) (MIRA 17:9)