SCIENTIFIC ABSTRACT KHOCHOLAVA, G. M. - KHODAK, YU. A.
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CIA-RDP86-00513R000722120001-6
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S
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100
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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Body:
L 9781-66
ACC Vits Ar5025483
hi 3h latitule stations (up to 50P of geoma-gnstio latitude) were user] iii tha study#
by t6,cing the parameters fmin and foF2 from ionospberic -1sta. Grapbs wero
plotteA on the iejendence of time (t) of-the sno~aly beginning on the offective
latitule :~ (In coordinates TL Va. t and '~ Ve A t; where A t is the dumtion of
phertomena wore in-
anomalous absorption In the polar cap). The hellop~ysical
vestigated for the same perial. Two active areas (A ani 8) were present in the
sun during the periol from ~hrch )0 to April 20 (See Solneohnyo (jannyel, 1958, No*,'
4. and Quart. Bull. Solar Activity., 1958, No. 2). The entire complax of dis-
turbances which occurred 6etween April 10 and 20 was tentatively explatned on the'
4asis of these data. The flocculus in area A emittall on April 8, a corpuscular
stream (stream 1) of low velocity which reached thelearth orbit and cati
gbt the I
narth on April 34, enusing a stom with a grarlual baginning (the earth.entered
the stream from The lateral sile)p The' chrom
oapheric solar,flare
Y-1VINI, X=41M occurrai at 14 hre. 30 min* in the rogton B of the sun
Wstern par~j - latitude 10-2W _- W). It- generated. -htsta-enatgy ~ partic] es -ca-a-sing!
an -anomalous-absorption In the polar cap on April-10, The prolonjed wandertre, of'
partlelma in apace was caused by tha presence of stream 1 ard-wpetic
heterogeneity. 7his expisinea-also the-taotropic intrusion of particles In-6o .ne
Ionosphere of the,entire yolar cap, The some flare emitteA another corpuscular
2/3
NUM ~11 W& W!Q;i UjO~_Zr~_g *rl ik -M TRRX;1~ A~VNII tF~' P~IV019111NUCOPMZ _rIMMWOff VM_.PF
L 9781-66
;ACC WRt AP5025483
stream(stream 2),which papsea the eaittj without reazt1n3-with the earttile m%gnetic'
field because of its higi velocity T13.1 the evenirv of April 11 stre, : 2 caused
a local effect of a.decrease In cosmic rays ani lonnisphore for European zo
ncj
which was at this moment- in the evening sides The Txmupetic i9torm of the SO
.-type,.which occurred at 20 hrao 48 min. on April 15 couli have been caused by
corpuscular stream 3P mitted ty the chromospboric Bolar flare Spinerated! in the 1
area B and having the ooorftnates YaI40N and 1=360W. Orig. art* hast 4 figurese,
,SJPUBH'DkT&s
=964/ NR REF SOV& OD4/ OMERI'i~ 002
313
-or 0
I
J~XTJI)__ G1
Zffa-66
ACC NRj Ai619172
SOURCE CODR-' UR/0251/65/09/05/0553/05601
AUTHOR: Gachechkadze,.R. G Khocholava, G. M6
J
OIRG.# Institute of Geophysica'a AN 2ORSSR (Institute gpofiziki AN GruzSSR)
Problem of anomalous ibsorption in,
TITLE. the~polar cap
~SOURCS: AN GruzSSR Soobahcheniya, Vi 39, no- 3, 1965, 555-560
~.MPIG TAGS: solar ilare, solar' chramosphejrep~ solar radio emission, ionospheric
sounder, solar corpuscular radiationt magnetic elvormp solar radiation absorption,
storm
ABSTRACT: This study is devoted t9a detailed inve'att'gation of a part~qjar case of
anomalous polar cap absorption associated with the chrDmospheric flarJ of~7 July 1958
.-The,-nuthors-used data from vertical soundings.of the.ionosphere at 67 stations in the
~northern and 34 stations in the southern heid5phare, The particular flare was of
importance 3+ and it and the related active region are described. This flare was
accompanied by powerful solar radio emission at all froquencies* the onset of the
flare coincided with a tM-.II radio burst and the matAum of Re flare coincided
with type-IV radio burst. The entire development of the process in the sun-E
earth system is aralyzed. The corpuscular stream emanating from this flarp a
the earth's orbit and caused a geomagnetie'and Mi iono, h ric stonn as well as earth
7": corpusc
current and cosmic ray storms,- -When the earth entered h uiar stream tartiolts
'with 1 Hey or less penetrated into the ionosphere over the auroral zoneal,~ng he
lines of force thereby causing anomaLlous tvne-Il absoription. The techniqae used in
detecting the lims of imomalous absorption 16-deacribed16 The anomalous abiorption
began simultaneously at. all stations in the northern hemisphere southward i*,o latitude
64*. This paper wa.s presented by Corresponding Henber AN GruzSSR, Acattordcuyl M
Mirimashvili -on 14 January 1965, Orig, art, hast. 4 figures and 2 formulase Ld
SUB CODE: 03, 08 SUBM DATE.- 14J.-m6$ ORIG REF t'~ 007 OTH REF; 002
Cori
bag
I~M f-M
-"ACC NRt AP6018924 SOURCE CODEt U90203/66/06/003/00/0589
AUTHORt Khocholava G. M. Gachochiladze
ORO: Institute of Geophysics, AN GruzSS -(Institut geofitiki AN OruzsSi)
TITLE: Nature of disturbances in the F2 region of the iono ^ at middle latitudes
SOURCE:. Goomagnatitm i aeronomiyal v.,69 no. 3# 1966# 588-5B9
TOPIq TAGSt ionospheric disturbance, F layer 'y_0V-V\CL(yw-*kC
ABSTRACT.* In an analysis of the character of ionospheric disturbances at middle lati-
tude was made of data obtained from vertical sounding of the ionosphere d1uring
15
hp Y 9 of 02-650N. Zia initial data
,51C six stations located in the latitude rang
t
evx~loyed were the critical frequencies of the F2 layers- Gr hs were plotted for devi-
ations of these frequencies from the normal level P29 Z The disturbanco patter
was studied.by using different methods of processing the datal in order to detormine
whether positive disturbances are due to errors inherent in the method itself or
whether they actually occur at middle latitudes. The follawir4 conclusions were
reached: (1) the modian.oalculated for magnetically quiet days can be used at all
latitudes; (2) positive disturbances are observed only at low (equatorial) latI.tudest
and also during winter months at geomagnetio latitudes above 470 (nocturnal wiziter
anomaly); (3) positive disturbances are lacking at middle latitudes. Isolated cases o.
positive distrabances observed by some stations at middle latitudes are strictl~y local
Card
L 43160-66
ACC NR, AP6018924
in character and have nothing in common with the development of the overall planetar7
character of the disturbances of the egr_th's magnstjo fie d. Orig. art. has: 2 fig-
ures.and I table.
SUB CODE: 04,08AUM DATE:. 04Deo65/ OM REFs 003
Card
MA. NK& AR6032355 SOURCE CODE: UR/0169/(;6/000/007/AO52/AO52
AUTHORF Abuladze. N. B.; Qcholava._g,, M.'; Chikc.X~LA D
L LS
TITLE: Some parameters of type Sc geomagnetic~ storms
SOURCE: Ref. zh. Geofizika, Abs. 7A317
REF SOURCE: Sb. Nekotoryye'vopr. issled. elektromagnitrr. polya Zemli,
no. 1(23), Tbilisi, Metsniyereba, 1965, 46-61
TOPYC TAGS: storm, magnetic storm, geornagnetic storm, anomalous ab;sorption,
polar, cap,.geomagnetic latitude
ABSTRACT: Some parameters of fluxes for magnetic storms following anomalous
absorption in the polar cap (AAPC) were investigated on the basis of data cbtained
at the Dusheti Magnetic Observatory and the ionospheric data for the IGY. These
parar6iet-iifs-iii--co' -m'-p"'-a'r--e'd-'w'i't'"'h'*t'h'-'e parameters of usual fluxes. Also, AAPC
dynamism in the period of the development of a geomagnetic storm was studied.
On the basis of the condition that the energy density of the corpuscular flux at the
boundary of the magnetosphere and that of the geomagnetic field are equal, the
authors derive a formula connecting the magnetospheric radius R with the increase
Card 1/2 UDC: 550. 385. 4
L 10838-67
MA. NKI kinuutizaDD
of the geomagnetic field and on the equator into the initial stage of storm .'WU
R and flux densities n are calculated for various storms. It is concluded that
in comparison with ordinary storms, the storms correlated with AAPC have a
larger R and a lo-,aer n. It is stated that denser fluxes possess more intensive.
magnetic fields. It is noted that there is a divergence between theoretical and
experimental values of the geomagnetic latitude of the external zone of anornalous
absorption. This divergence is especially noticeable at the moment of the highest.
geomagnetic field depression. I. Kovalevskiy, '[Translation of abstract)
SUB CODE: 08/
card
ACIC NR'
ARG032354 SOURCE CODE: U1110160/66/000/007/A042/A043
AUTHOR: Katsiashvili, N. A.; Matsaberidze, V. S.; Khocholava, G. M,,
TITLE: Magneto-ionospheric disturbances correlated with anomalouo abisorption
in the polar cap
SOURCE: Ref. zh. Geofizika, Abs. 7A254
REF SOURCE: Sb. Nekotoryye vopr. issled, elektroinagnitn. polya Zemli.
No. 1(23)., Tbilisi, Metsniyereba, 1965, 52-61
TOPIC TAGS: ionospheric disturbance, geomagnetic disturbance, anomalous
absorption, geomagnetic storm, polar cap absorption
ABSTRACT: Magneto - ionospheric disturbances correlated with anomalous
absorption in the polar cap (AAPC) were studied on the basis of data for''the
International Geophysical Year obtained at the Dushet-1 Magnetic Observatory and
at 12 Soviet Ionospheric stations. Their characteristics are compared wi.th storms
which are not correlated with AAPC. The following conclusions were reached:
1) So* type geomagnetic, storms with*a preliminar ne ative momentum (for
Dusheti) have almost no correlation with AAPC; 2 the presence of the preliminary
~brd 1/ 2 UDC: 550. 338. 2:550. 385. 4
AR6032354
negative momentum is explained by the influenceof tho daily course of dicturbed
SD variation; however, the Zinger hypothesis on the influence of hydromagnetic
waves is not excluded from the investigation; 3) n the majority of cases, sharper
and deeper subsidence into H is'eharar-teiistic of geomagnetic storms whi,zh
correlate with AAPC; this is explained by the ht,,,,h energy of fluxes which,cause
these storms; 4) the conclusion of Hokura that iii the p(,-rIod of AAPC the state of the
F2 layer is normal before the start of the geomagnetic storm, a fact indicates that
the AAPC is of a local nature, is confirmed by numerous data; 5) the majority o -f
ionospheric disturbances connected with AAPC are negative; 6) the amplitude of the
F2 layer disturbances decreases, while the de?ay time in relation to the magnetic
storm increases with a decrease in latitude, which demonstrates the*corpAiscular
nature of the agent responsible for this phenomenon; 7) the delay time of the start
of an ionospheric disturbance in relrotion to a magnetic storm depends onwhether
at the start of the storm the station -%.s within cr outside of the forbidden zone;
8) in the majority of cases, a lowering of fj,", is accompanied by a sharp increase
in the layer, while. pLt normia layer heights fRF2 rises. I., Kovaleirskiy.
[Traaislation of abstract]
SUB CODE: 200 04/
Card 2/2
ACC.NR' ARG-035547 SOURCE CODE: UR/0269/613/000/010/0058/0008
~UT'HOR:0'dachechiladze, R. G.;
TITLE: Ionospheric disturbances caused by great chromospheric flares
SOURCE: Ref. zh, Autronomiya, Abs. 10. 51. 419
REF SOURCE: Sb. Nekotoryye vopr.. issled. elektromagnitn. polya Zemli.
No. .1(23), Tbilisi, Metsniyereba, 1965, 62-73
TOPIC TAGS: ionospheric disturbance, solar flare, ionospheric absorption,
magnetic storm, anomalous ionospheric absorption, polar cap, corpuscular
stream
ABSTRACT: Several cases of type-M anomalous absorption recorded for the period
July 1957-July '1960, are investigated. The possibility of a connection belween SOMI
periods of anomalous ionospheric absorption In the polatr cap and solar fla;res of
force 2 and ~+'is suggested. Two types of anomalous absorption, "simultaneous"
and the "gradua-V types, have been detected in the polar cap. The phenomena of'
type-I start with a small delay following the start of a solar flare (most frequently
in the western section of the solar disk) and embrace the entire polar cap simul-
1/2 UDC: 523.75:525. 23
AM NR' AR6035547
taneously. Type II phenomena start at*one or several stations and gradually
embrace the entire polar cap but in the first 10 to 15 hours the absorption -is not
total. Generally, these cases follow flares occurring in the eastern -solar hemi-
sphere. It is supposed that the magnetic field intensity of the corpuscular stream
may be one of the factors determining the division of anomalous absorption, in the
polar cap into two types. Daily variations and the duration of anomalous absorption
in the polar cap are investigated. The evolution of anomalous absorption Xnay be
divided into three stages: prior to, during, and following the magnetic storm. On
the basis of experimental data, a mechanism of the origin of all the three otages of
anomalous absorption is suggested. Bibliography hda.20 titles. L.Odintsova.
[Translation of abstract] JDW]
SUB.CODE: 03/
212
.6741
ACC-tNlLa AT6028209 SOURCE CODEt UR1250216T!Wii i216
AUTHOR: Gachachiladze, R. G ocholava. Go X*
ORG: none
TITLE3 Ionospheric perturbations caused by large chromosphieric flares
SOURCE* AN-Gr-uzSSR.--Instktut-4cofiziki. Trudy, v. 1(23), 1965. Nekotoryye vopiesy
issledovaniya eletromagnitnogo polya Zemli (Some problem im the investigation of the
earth's electromagnetic field), 62-73
TOPIC TAGSi solar chromosphere, solar flare, ionospheric disturbance, ionoopheric
absorption
ABSTRACT: This paper studies all cases of type III anomalous absorption recorded fiom~
JullP.1957 to June 1960 in the polar cap and the laws governing it. The material
,used is from the world data center for lEff"Moscow (mirovoy tsentr dannykh HGG). The
topics discussed include the relationship between anomalous absorption and solar
activity. It is noted that of the 37 cases in the polar cap 29 may be linked to
chromospheric flares of intensity 3 and 3+, and the other'eight to flares of intensity
2 and 2+. Two types of-anomalous Absorption in the polar cap corresponding to the
flearly" and "late" types of Sakurqi are considered. Daily variation and lengtb. of
Ve_
anomalous absorption in the solar, cap where absorption continuously increases for abou
one day and deteriorates over several days is discusseds onis flare causes 2-3 days
ACC MRs. AT6028209
The---C -F
o t on several fl res. _i -i - - 8---
ab-s' rp 'i a 8 a~~te a'y*e!'~~of the ionouph
ere
-6i A that', it is
during anomalous absorption in the solar cap is distussed and it fi
almost impossible to determine in the polar cap and at high latitudes, Its state ca~
be determined below 60% but no planet-vide picture can be establinhad. Soviot data
on 14 ionospheric storms indicates normality of the F2 ~&yerv- Orig6 art6 has 1; 1
formula, 2 tables, and 6 figures.
SUB CDDE: 1:14,03/SUBM DATE anone/ ORIG REPt 016/ OTH Wt.. 004,
Cqrd: 2/2
7- 'At, 'R.
R95
KROCHOLAVAP 1. A.
lava,, 1, A.s "A more precise calculation of in;ut coefficients of
Ab2pho
raw tea per unit of finished product", (For four tea factories of,the
Chay-Gruzlya Trust), - In indext A. A. Khocholavap Byulletent Vaesoyuz.
mauch. p issled. in-ta chaya i subtrop. kullturp 1948, No. 3p pe 104-08.
SO: U-3042, 11 March 53, (Letopis Inykh Statoy, No. 10,, 1949).
KHOCHOLOVA, 1. A.
Khochojovaq 1. A. : non the selection of finished tea"s (For four tea
factories of the Chay-Gruziya Trust)p Byul-letontVaesoyuz. nauch. -issled,
in-ta chaya i subtrop. kulltur, 19481, No# 4. P* 114-21.
SO: ~ U-3042, 3.1 Itarch 53, (Letopie Irgkh Statey, No. 10, 1949).
Name: KHOCHOLAV, Ivan.:Andreyevich
7'
Dissertation: T~~hnology of/Irea
Degree: Doc
Affiliation: All-Uni
Industr
i Res Inst oll the Tea
Defense Date., Place: 5 Jur/56, col
of lAbor Red
Certification Date: 12/jan 5?
of Gaorgian Order
r Agr Inst
Source: B~VO ?15?
_,,j.A., doktor takhn.nauk.
I-
,,, A
Peaks In the tea Industry and ways of ellipinatlig, them, Trudy
VNIICHP no,1:3-15 0580 (MIRA 12:5)
(Tea trade)
IILVITAU, I.P., profeemor; IIMHOIAVA. K.U.
Intracerebral pne=ocephalus. Vop.nsirokhir. 20 no*2:55-57 Mr4P 156.
(ML 9M
1, Is fakalltatskoy kh1rurgichaskoy klinill Ischabnogo fakull'tata
Thilieskogo meditsinskogo instituta.
(BRAIN. die.
pneumacepbalue caused by gunshot wound of brain)
(WOUNDS AND INJURIES
gunshot wound of brain causing pneumocephalus)
NOSACH, Ye.G.; KHOCHOL"A, V.N., inzh.
Phase registration of the disconnection qf short-circuits by
switches. Energetik U no.1:17-18 A '63, (WILA 16:1)
(Electric power distribution), (Electric protection)
IRODA, T. (Odessa)
Coating the chassis with lacquer. Radio no.6:56 Je 157. (Mil 10M
(Radio--Apparatus and supplies)
USSWPharmacoloa. Toxicology. Tranquilizers v
I
Abs Jour Ref Zhur - Biol.., No 11, 1958, No 51!M
Author Galenko V. Yeb Khodaba A.I.
Inst
Title Experimental Applicatioft of Serpasil in Psychiatric Di=Lses
Orig Pub V. ob. Vopr. psikhiatrii, Vyp 2~ M., 19571 36-38
Abstract No abstract
Card
KHODAK-. A. - N/5
615.918
Ja
Nomenklaturnyy spisok detaley oborudovaniyap podlezhnshchikh plamennoy
poverkhno tnoy zakalke (Classed List of Equipment Subject to Flaming
Case Hard:ning, by) M. V. Naboka, P. I. Rodzevich, A. H. Khodak.
Kharikov, metallurgizdat,,.1952.
71 P.
At head of title: Russia. Nauchnoissledovatellskoye byuro organizatsiy-
proizvodstva chernoy metallurgii.
IT
RATKO. V.V.nail bnyy sotrudn1k; VOLKOV. Ya.R.nauchnvy sotrudnik;LNVITSKIT,,
D.A.nauchnyy sotrudnik: QAWM*V*O-NI-nauehnyy votrudnik,-RLTM, Tu,,Z.
inshener; TORODIMOV, N-I.inzhener;,GRI3HhTITq N.N.Inzboner;
SHULTATSKIT, D.L.Inzhener, rodaktor-, ANMBY]gV'. S.A.,tekbinichaskir
redaktor
[Rules for the technical operation of cransel Pravila takhnichaskot
ekspluatatsil pod" emnykh kranov. Kharlkov, Geis. nauchno-takhn. isid-
*o lit-ry po charnot i tovetnot metallungii, 3,957. l(7 P.
(MLRA 10:5)
1. Russia (1923 U.S.S.R.) Ministerstvo nbernay metallurgii.
2. Viasoiyznyy nauchno-iseledovatollskiv Institut organizateii
cbernoy metallurgii. (for Rayko, Volkov, Levitskiy, Khodak)
3. Weil glavnogo makhanika Ministerstva chernoy metallurgii. (fo:r
Shulyatskiy) 4. Zavod 'Azovstal'"'(for~Ratner) 5. Zavod "Zaporozhistal'O
(for Vorodimov, Orishayiev)
(Cranes, derricks. stc.)
RAYKO, Met neuchnyy sotrudnik; NMERG, I.M.. nauchnyy sotradnik;
.1i.., nauchnyv sotrudnik; FAYBDUSHCHIT, A.I., nauchnn
sotrudniki V=OVj Ya.R., nauchny7 setrudnik; PITCHEV, G,P,g o4v.
rod.; IPATOV, P.P., red,; SMYATMCIY, D.M., rod.; BURKSER. L.D.~
red.; BALASNVICH, Yuju., red.; SVICTCHUKO, Y.N., red.; KRYWVOKIT
A.P., red.; SIKYAVSKATA, Ye.K., red.izd-va; AHMM, S.F.. telchn.red.
[Regulations for operating the meehanical equipment of rolling mills]
Pravila tekhnichaskol skeplustataii makhanichaskogo oborudovani.ia
prokatnykh teekhov. KharIkov, Goo.nauchno-tekhn.izd-vo lit-r7
chernoi i tavetnoi metallurgii. 1959. 247 p. (MIRA 12:5,30
1. Moscow. Veesoyusnyy nauchno-issladovatelltikly ingitut organi.-
zateii proizvodetva itruda chernoy metallurgii. 2. Vaesoyiznn,
nauchno-issladovatellekly inatitut organizataii proizvodetva i %ruda
chernoy matall~rgii(VNIIOCU=)(for Rsyko. Ilikborg, Khodak, Feve-
dushchiy, Volkov). 3. Otdol glavnogo makhanika byvehego Ministeiretva
chernoy metallurgii SSM (for Ipatov, Shulysts)dy). 4. Zavod imeni.
Dzershinskogo (for Burkeer, Balasevich). 5. Zavod imeni Kirova (for
Svetchanko). 6. Zavod imeni Toroshilova (for Krylovskiv).
(Rolling mills-Equipment and supplies)
XBODAK A.S,., (Dryansk).
Determination of small concentrations of ethyl &I.cohol. Apt.delo 2 no.2;
69-72 Mr-Ap '53. MU 6!;5)
(Alcohol. Denatured)
(CA 47 no.16:7949 '53)
rjapm me%w' of doittim 4a 110111byl SUOMI 14.41fit4MV
Ar 4i Na. CV-h
M--Oll "I
in jjil~vv. I JAA tv 2% X I ICh In - M/P 11 SO, 110 1 * 04110 4 il 0
31 01 The tiller k ~urkd own to a sdn. of a tdm
d tgher morphifir, "eldel a, dimIrm In ct.14MIK)j.
1HOM1, A.S.
ve determination of small concentrations of etbyl aloohol.
In. biological materials and pharmaceutical preparations, #pt.dillo 6
KLIRA 100)
no.1%42-45 Ja-7 157o - .0
Is Is byuro sudabno-seditsinekoy ekspertisy-Dryanekoy oblasti.
(nachallnik S.P.Zubkov)
(STHYL ALCOHOL)
BWDSKIT, LL, inth-; GWILXM, B.A.; )PXMV. G.Ta.; YARSM, V.I.:
XHODAje' I.Z.
Modernisation of a continuous pipe-rollint; mill, Makh.i avtom..
prolsy, 14 no.1:24-26 is 16o. (MIRA 130)
(pl* Bills)
OAF
KHODAK, K. N. "The functiom-1 state of the nortionz of the
central, ncrvo,;m symteri in variou-3 ph.::ln~!:s Pm, J.nsr1im-
c,%! forms c' rlicmatism in children." Khmr'kov bNlimd Inst.
Kh,irlkov, 1956.
(Disz,crtation for tyie Degree of Cmdidate in Medical Sciences).
SO: Knizlmm~ letoris'. No 23, 195'
morbaftlim of 60 stoodle O"n~ in 60 91060917011
01*404hpaiju sopW. 0, 1. RnmW and L*-Pi-itbo
INAWy All", Noult VI I It 71 xVl4(1WM--
tit cok s"Iting the bf;i""ilsl W of r astatirt "I 1
r IS. otisov"d Sit file Ow"V-40 W 6010111- Of AWN in (I
ah partiAl pm
Noshire, to ammlits1i'm 4.10, it is So
"11741
,C) amt I
WrItir"I Atkialiffil of the Cammle NY 111h4liq as-"It" '1-i4
ris"". lifirm. arv rMilmlirl"I IV It
kWalliMe i4owtvatinnit III 1br change of W set-0 IN""
, '44molmis efirfrof. T
V. 101Wfolo Its ba-V
In it fallol XI
1.6 to I T. shm" The mat - W tummtb"nkOY "tit
tn be ilsomsende of th"re the amt. ftkd. (Of the 011 V11
With inctr"ag c d.. P III a brA mmilw6timi C omit in-
I wit expoortitiAtly, %harA, it irrittAitit Isract"D
ITU -r I mist.
or a kag Sim %%btn the I; d. I% Isiseted hum 0., lo 0.3
oJeal. em. Thus. A catowt be deW. by Slit Initial
Will,
r"0184"OU4016 1 u4sinuch use &*A Ifiteractl them.
im" 04 (- Im ) the C-(h ekcito& citurm lot con-
" 11 *JAW" vismarous, to iii, C-C4 ewl"W's,
SUM r"O cbrul. Int~im birtoltit C am$ V4,
0consti C-L :Owillorraml of E often sbow 4 sms.
US of he it ("to ot) tbt conibuktion of C. fl
4
rotlaw rffrrt of the LROAtr lot mygenoted pkm
Althetu II
1"* C. Omit OrvtWilling jiliKTOWN Ill ibis OurfAtr Ct"IIIXI
mv, 111411voly Ard. NHII the 11114, 11181r, I% (Im"Op" of Or
1111MIWIWO joctwCAtili AIM dr.41-khtil 19 jjitillUt C
At low C.-I , dim-hmar Wkvi p1mv of the mu-1 orttiv jp(wif,
*$we 1) Is timot olmilly 64mil Amodlit V,41 We 4 d
The doompti- IliviratiAl, 0114 v I, lk"W 4. the, 1.
v"bitpotentiAld AIO.'4 + 3 C 2 At 1 :1 CO. With III,
1rdfox lit high" C d to a PWUI of Iowtf hi'At
it Wib take pfis;~ ;I Inem%In b1lIff
wilfly
eatiala. mW the rumv lotp-cir heki 0 kme .. to Z
~;kivtrvlyte at a h1NIWf E. It is the stolidity of tise:M01"
oakfet jurinott at high c,d. gnill high R which iom"imt% Itor
0A ;wactlcal absence of a change of IT on limeting I be c.ii
T1w slow procres So the decompts. of the Internwd4lit our-
14MC-0compiI4 as 6known from combustional C. It
is No 1he stalf rif f4wit-itsr of Aldn"s Slid 64 10MA604 of the
adompskin notisIA-am. Most
M_ezhwiTn_*fthi,or gin of overvolug"n a tatbon
cryalite
awe melts. S. Ren I Und I
2T,
_'UA. 0, 6519c.-A detailed disms-ion suppottvi by many
references tQ the work of other- an(I to cxl)tl, dc&t obtqj-jvj
by the authom In this and previous publications am- pre-
mted to refute the theory nf Drosshach (C.A. .10. 40M1)
nnd his "followers" that a C anode in an AI:O& bath ', n
reversible 0 electrode. The specific capacity of the Ilouble
layer on a "fresh" C electrode is 16-20 riicr~farad %/sq. cm *
During and after electrolysis it I-, npprveMly grcatm It 1~
concluded that neither coned. polatization nor marlation of
the dischirge reitct(on are primary factors of appr"Lible
ovgxvoltage. ~'The di!~6urgc of 0.~ontg. Ions on a C rl(-c-
trode rtsults In the formaticut or "chrinkirbable C~O emn-
plexts" and not It" 0. The low rate of devoinpit. vf thtnie
complexes anti the heterogeneity (criergy) or the C mirGice
Fause the ivereasc of the awYlic Pot-timal With the WCMI-A,
in c.d.. i.e. the primary caum: of (mrvoltagt wt a C nuode iN
the low rate of fortnation of g;Lxcou.-t C o6les froul Olt.- coul-
pl-xrs and their 5itba-vt1urnt, dev)tptlun from the surtler of
the aiiodc.
kin A
UM~/Cherdstry --oThy*icaI chemist
rd
0
.1 /-J,
I pub.
Vdbbl* I ~Rempejf S! -1 Anjish6'va '_N A d K
Fin 0
h dak, L. P.
n a of cryolite, ~im!lnn fusions
Comparlson -electrode f or tea6ureirat al
Dok. AN-55SR.'9
7/15s: $59-862 j August 11, -l~954
Antract The characteristics of,various .gas comphrison-alectrodes, itsed for the
aryolite-alumi-na fusions are analyzed. Thtt oxygen-
weasumment - of : p
carbon electrode.is considered to.be-the most stable comparison elec-
trode and because, of its high accuracy is best recommended f or measure-
raents of cryolite~alumina-fuslons. Means of securing compcsition con-
stancy of the gaseous M-liture surrounding the comparison electrode and
-to prevent-anode-gasesifrom falling int'D the gas mixture, are describ-
ed. Five USSR.references (1 944-19~3). Graph; drawing.
Institution Acad. of So. USSR, 11ral Branch, Institute of Chemistry and Retallurgy
-by A cad emiclat -A N Frumkin April_3_ -lq 51;
Presented
Urn), r d- E r4' a
hith Pllentlal F if C =rxl t high ll'urIC3 44 rmll e '-;t, C'
!0w fl
tV~ eler-trolv&1% of Wits of A! n The lichi .f t h, Ic-L-.-
I.-Im !.~! ~~" Of 17~ Ir A h-gh r"
rr f ~P- r-,,
-SUSHKOV, Akim Ivanovich; TROITSKIY, Ivan Alek-seyevich; SYDBUZON, Moi5G7
Aronovich; XIMAK L.P., kand.tekhnonsuk, red.; IVANOV, A.I., inzh.
W-1 -
red. ; RH S.I.. prof. doktor tekhn.naixk. red.; IUCHKO, YU.J.,
red.isd-va; ZU, Te.H., takhn.red.
[Metallurgy of light metale] Hetallurgita 'Iogkikh metallov.
Sverdlovsk, Goo.nauchno-tekhn.izd-vo lit-zjr po chernoi i tevetnoi
matallur li, Sverdlovskoe otd-nie 1957. 510 p. (MIRA.11:2)
~Ugbt meta le-Hats 11urgy ~
SOV/137-58-12-24284
Translation from: Referativnyy zhurnal. Metallurg:iya, 1958, Nr 12, p 51 (USSR)
AUTHOR- Khodak, L. P.
TITLE: The Principle Underlying the Plotting of the Energy Balance of a Cell
(K voprosu o printsipe postroyeniya energeticheskogo balazisa elek-
trolizera)
PERIODICAL: Tr. In-ta metallurgii. Ural' skiy fil, AN SSSR, 1957, Nr 1, pp
139-143
ABSTRACT. A correlation of the processes proceeding in pyrometallurgical instal-
lations and electrolysis baths (EB) leadq to the conclusion that it is
impossible to apply the principle employed in compiling the: heat bal-
ance of metallurgical furnaces (addition of exothermic processes
within the installation to the balance) to. that of EB energy talances
In the energy balance of an EB the major item of input is the energy
of the electric current, while the mijor output.dtems are the energy
requirements for increasing the heat content of the flow of material
passing through the EB (including that required for initial heating of
the materials) and the energy required for the compensation of the
Card 1/1 heat loss into the ambient medium. Ye. Z.
50 137-59-1-460
Translation from: Referativnyy zhurnal. Metallurgiya, 1959, Nr 1, 1? 58 (USSA)
AUTHORS: Khodak, L. P., Rempel', S. I., Kuznctsov, S. I.
TITLE: On the Effect of Periodic Charging of Raw Materials on the Energy
Balance in an Electrolytic Bath (0 vliyanii periodicheskikh
zagruzok syr1ya na energeticheskiy rezhim elektroliznoy vanny)
PERIODICAL: Tr. In-ta metallurgii. Ural'skiy AN SSSR, 1957, Nr 1, pp
144-148
ABSTRACT: Utilizing the case of an Al bath as art example, the authors analyze
the significance of the heat of dissolution of raw materials intro-
duced into the bath in batches and the significance of an increase in
electrical potential occurring in the bath during periods, between
charging on energy-balance equations for an electrolytic bath. In
computing variations in heat content, of a system undergoing an
electrochemical reaction, e.g.: A12,03+1-1/2C -2AI+1-1/2CO2,
the right-hand side of the equation must show the AI?O:$ in the form
in which it is introduced into the bath rather than in tho form of
A1203 already dissolved in the electrolyte. In coniputi,ng the ener-
Card 1/2 gy balance, the alumina (A) must appear in the same fo.)rm as that
SOV/1371-59-I.-460
On the Effect of Periodic Charging of Raw Material.s on the Energy Balance (cont.)
in which it appears in the material balance. An increase in the electrical potential
of the bath, which occurs as the concentration of A in the electrolyte is reduced,
results in the consumption of an additional quantity of electrical energy Q9* If
the increase in potential is brought about merely by a change in the concentration
of A, then Q 9 AZ , where AZ is the change in the. isobaric -isothermal potential
magnitude of the AZ will be
of the system If Sther causes Aso are active, the p
fully compensated by the electrical energy supplied externally. The magnitude of
the Q 9will be the sum of two items: Q 9- A Zp+ Ql:, where a represents the* addi-
tional quantity of electrical energy consumed in the bath as a result of an increase
in the potential due to any causes aside from a change in the concentration of the A.
Being a separate item on the input side of the energy-balance equation., the heat of
dissolution of the raw material in the electrolyte must not be taken inl;o considera-
tion. Amethod permitting computation of the mean increase of potential in elec-
trolyzers operating with raw material introduced periodically is given together with
the computation of the mean value of the potential increa-~e in an Al bath (this value
,being 0.105 v in said instance). In computing variations in the heat content of a
system undergoing an electrochemical reaction the output side of the 'balance equa-
tion must be based on thermodynamic data for solid rather than dissolved A.
L. S.
Card 2/2
KHODAK, L.P.; RFAIPELI, B-Is; KUZNDTSOV, S.I.
gner(7 balance of njuminum bathe Trud;r Ural.politakh.inst.
no.58:8&96 '57. (MIRA 1i:4)
(Aluminum-e-Blectrometallurgy)
W4, y
4
it
fit
it
p r
9 1 1 1 0 i ,
all
lie
...........
IMMAK, L.P.; 1VANOV, A.I.
Using 'blast furnace slags for the produation of alumina* T7udy Inst.
not. UFAN SSSR no.2:253-256 158. (MIMA 12:4)
(Alumina)' (Blast furftaoes-By-products)
0.
VSDDAK L P IVANOV, A.I.
ComPlex prooessing of aluadna Iron oren and high-Iron bauxites.
Trudy Voetw.-Sib. filo AN SSSR no-13:237-241 058. (MIRA-12-.32)
1.Ural'skly filial AN SSSR*
(Iron oreej
"EM Pilo
jq;lTnba Ites-pasna-
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9!WAOV XDI.LVtT0U= XDD9 I SOM
XHODM. L.P.t k-WLNBTSOV. S.I.: IVAMV, A.I.; SSINDIMMUOTAt O.T.;
Imp
IMMMITA, N.G.
Obtaining alumina fron blast furnace slags rich in the eompowA.
Izv.Sib.otdA I (MIRk 12:7)
J;,SSSR no.2:1 2 59.
Wumina) (Sl~
- --- -- -- ------ - -_ - -- - - - ---- - - --_ I
Iffect of the calcium oxide content on the structure and proportion of
easily crumbling aluminuo-oalolum slags. Izv. Sib. otd. AN SSRR no.8:
58-61 '59- (MIRA 13:2)
LUrallskir filial AN SSSR. '
(slag)
KHODAK ~t LP,; VARLAMoVA, N.N.; KOZHEVII]KOV) G.N.:
]ktraction of sivmina said alkali from aintern obtained in the:
reduction melting of red muds. rzv. Sib, otd. AN SWR no*79
64-" 1(0 .
1. Urallskly filial AN SSSRp Sverdlovsk.
GIrWITIOV, V.N., alcadem1k; MIXHAYLOV, V.V.,, alademSk; ZIU0,L&J~f-0 Rand.
tr-khn.nauk; MIKIIATLOV, S.V.; RAKHD40V, A.Rq IMITIN, G.fl.
Utilization of the brown ores of the Lisakov deposit. Vest.
Ali Kazakh. SSR 21 noo.U'-9-13 N 165.
(AURA 18.-L!)
1, Akademiya nauk Kazakhskoy SSR (for Gruzinov, Mikbaylov~ WV*),
arva9w 04- Abs omtutim
In Mul. -P. B.M. M, Ostroukht'v,
ci~
4-
1
hw-dei's Oro 034agd.
Wast furascs -W, L. 4,
v -Lmt'- ChrIv
VoT~v, arn.-W.I
t
-i
N with-re 47-49% zkA siderifes
S%Ihtu sbttf ii tskd' itc.1=1alas Ft 44-46% mod
Is boil i1sliturd briWe., Av;.bitrdm al"sws'O Mlt*m
d
m-A.) W-W. bimp M. 10~-10, 63ter 35-40.
sh,
halvi7f
m -
In tht -21im
IV ti.
waffobDin
v
u
b
iw
m
bea
s
pff,
Axt a
t
y
abaft. G*" tmlftl mmily, ft 06A rVAP1*17 :di It
,ht
Ilmaldns it gnp, m= im
R m the ntslitir
,
q
!,-"7 , 1' 11-4- ! %( ~, .~~
,!,p - .
.4.; ". ~ I . . : - I I !- - . .
E~aerpma,? E7
r"v IiM
Y,
-~-ybl
nMy T"Cle by tile blast in tr-* varle am, "W u
I oo-n~o U I I'li -St
ults cavfL; p,
QV4 -,r V". 'ifyp
A tile "Ori-a
-------------- V-
I ME
OSTWUMIDV, H.Ta.. kandidat tokhaichookikh sauk; MIDDAK, L.Z.; LEB=V, V.V.
Cluenategraphic study of the process of coke buming. Priroda 45 mo-7:
7MI A 056. (KUU 919)
LInstitut metallurgil Iment AA.Baykova Alcademii nauk SSSR, Moskva
(for Khodak)*2.Laboratorlya mauchao-prikladney fetegrafli kinsestografti
Akedemli nauk SSSR, Moskva (for Lebedev),
(Calm) (Combustion) (Ginemategraphy-Scientific applications)
Z) 137-19518-2-2393
Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 2, p 27 (USSR)
AUTHORS- Bardin, I.P., Tsylev, L.M., Ostroukhov, M.Ya., Khodak, L.Z.
TITLE: On the Process of Coke Combustion at the Tuyeres of a Blast Fur-
nace (0 protsesse goreniya koksa u furm domennoy pechi)
PERIODICAL: Tr. In-ta metallurgii AN SSSR, :1957, Nr 2, pp 3-8
ABSTRACT: In 1954-55, in different regions of the Soviet Union, a study
was made on six blast furnaces having effective volumes of 330-
1386 m3. Gas samples were taken along the axis and above and
below tha axis of a tuyere. The diagram depicting the change in
gas composition in the combustion zone differed markedly from the
11classical diagram." From the path Df the isorithmic lines for
C02, CO, and 0 in a vertical plane it was possible to establish
the direction of &e blast and the pattern of circulation ol" the coke
particles. These experiments led to the conclusion that combustion
of the coke does not occur in the bed layer but inside the blast. In
addition, the focal combustion zone mras found to be distributed
along a spherical surface nearly at the boundary of the combustion
zone. The length of the oxidation zorke was determined basically by
the kinetic energy of the blast and did not depend appreciably on
'Card I/V other factors. G.Ch.
1. Coko-Combustion 2. Blut furnaces-Armlications
Ail
oil 0v
t%
Oft
IN
AKI L Z
7~.Kt, L,, Zo
A
jib;
If-gull
goo
.:
JA 1
tole
I AJ,
A! -:,Raj 1.
3 .42
VIA
!IV
VI ZUNI 1
8,3 Zill" N
41
--------------
XHODAKO L. Z.,0 Canclidate of Tech Sci (diss) -- "Processes ocourring in t2te com-
bustion zong of a blast furnme". mosccrw2 !959.. 26 pp (Acad Sci US,-;B, J:nst of
MetallurE7 im A. A. Baykov).. 150 copies (KL.. 14o, 21., 1959,, 117)
T6TM, Leonid Nikhaylovich; Ob'MOUIROT,'Kark Ta'kovlevIch-,-JWpR*#,,
-J&qnidt_:Z -1cht ZINWM, 3.L., red.ixd-val ATTOPOVICH,
almanov
M.X., tekhn.red.
[Process of coke combustion in blast furnaces] Protsess
goreniia koksa vdomennoi pechi. Xoskie, Goa.isd-vo lit-ry
po oh3rnol i tovatuol metallurgit, 1960. 98 p.
(KIRA 13:5)
(Blast furnsoes-Coubustion) (Ocks)
ICU,, Sergey VladWrovich; LUMM, Boris Leonidovich; STARINVY9
Modest Andrayevich; OMMOT, Boris ViktiDrovich; EMMY, I.&,
kaud4tekhn,,n9ukp.,rotesizent VON j L.Xop re4.;.CWA7KINAj.
[Methods for experimental Investigation of the blast-furnao4;
prooess) Metody eksperluentallnogo Iseledovaniia domennogo
protueesa, Gverdlovakg Govomuchno-tekba.isd-vo lit-ry po
ohe=oi I tavetuot netallurgil. Sverdlowskoe otd-nis, ig6o,.
254 p. (MIRA 141:3)
(Blast furneous) (Cast Iron-Ketallurgy)
I
ff&~4~ uk,-On tiil~ yI&V.,f-h~wyb74 ISIMIVO-If
052BOUaw. M-Ta. (Chelyabinsk). PMAK. L-Z- (Ploskya)
AmlysIs of the c*e combustion process 'In blast furzaces bjr fur-
nace am come titution dUWass. In. AN BSSR. Otd. tekh. Mk- Met-
I topl. no.60-13 N - D 160* (NIU 10:12)
(Blast furmces-CombustIon)
8/133J60/000/012/015/015
A054/A027
AUTHORS: Dashevskiy, Ya.I., an~
TITLEt All-Soviet Meeting of Fumoemen and 4,glomeration Workers.
Pimiobim: stalt, 1960, xo. 12, pp-456-L157
TEXTt The All-Soviet Meeting of Furnaoemen and Agglomerati6n Workers
convened by the State-Plan Committee of.the Council of USSR Ministers, the
State Scientific Research Committee of the Council of USSR Ministers and the
t Scientific-Technical Association of Iron and Steel Metallurgy was held in ,
Magnitogorsk from 25 to 29 October 1960. All the Soviet metallurgical I)lants,
scientific research institutes and planning bureaus were represnnted at the
meeting. P-esidential address was given by P.I. Korobov, Vice-President of the
rWTY, (GNTK) of the USSR Council of 1,11inisters and dealt with the present state
of the blast furnace and agglomeration industry in the Soviet Uni;n. The main
topics of the section "ore-dressing and agglomeration" were: intensification
of agglomeration an& improving the quality of the agglomerate; applicatton of
heated and oxygen-enriched air in the agglomaration of iron ores; cooli~n.- the
aggregates, introducing the most up-to-date types of agglomerating equipment;
au~cmation of agglomeration; developing pelletisation. Besi-des general remarks
made to stress the need of improving enriching and agglomeration and more
Card 1/5
gjiK aga
S/1,1~3, 60 000/012/015/015
AONXA02~
All-Soviet Ileeting of Furnaoemen and Agglomeration Workers
efficient =achinery for these processes, it was proposed that: the upper limit
of particle size of the agglomerated or* be lowered to 6-8 mm, that of Dial and
fluxes for agglomeration to 1 mm; a uniform quality of ores-and'ooncentrates,
fuels and fluxes be produo8d; the amount of lime in the agglomeration. charge be
raised to 4-5~15; the process of lime calcination be intercalated in the a~,,glo-
meration technology; the weight system be introduced in-the dosage of the! charge
and all plants be supplied with the appropriate equipment between 1961 atd 1963;
the mixing of agglomerate charge be improved through 1-,wo-stage mixing, the
mixing drams extended I etc; the amount of air pumped through the ag.-lomeration
charge be increased to 1003/M2 of agglomerate; the agglomerizing equipment be
fed with two chsrges having different fuel contents in the beds; hot air and
combined. keatin,- be applied during agglomerization; special cooling equipm3nt be
constructed for the production of agglomerization fuel from weakly agglomorizing
,lomerate be air-cooled by forced draftp two agglomeirizing
coal and peat; the agg
machines with automatic control be inotalled; high-oapacity agglo-,arating
machines be desib-ned nnd constructed, new technolo.gical procesue3 be establishedt
etc. *,.kith rezard to blast furnaces the following- problems were disc-assedt
theoretical and experimental investigation of the combined blasting method,;
Card 2/5
S/133/60/000/012/015/1)15
A054/AO27
All-Boyiet Meeting of Furnacemen and Agglomeration Workers
experiments with high-oapaoity blast~furnaoas and their auxiliary equipment;
mechanization and automation of blast'furnaces and their auxiliary equipment.
It was' emphasized that the Soviet Union was the f irat in the whole world to
apply natural gas and that the oombiniLtion of natural gas and oxygen blasting
had improved the teohnical-econokoal.conaitions and, reduced the coke-oonsump-
tion considerably. In order to extenit the use of natural gas, it was hVld
necessary to make high-capaoity oxygen equipment (units of 35sOOO O/hoiar
capacity) at short notice. Another problem to be solved was the reconstruction
J of blast furnaces for operation at higher (1-5-1.8.abOp5essures. All now blast
furnaces would have to be built for a volume of 2,000 - or morel and must
operate with a pressure of 2.5 atm in the charging ho:te, utilizing the exiergy
of pressureized top gas in turbine-aistributors. In order to increase the
efficiency of natural gas, equipment should be designed which automatically
maintains the constant proportion between blast and natural gasiblown through
and moreover, insures a uniform distribution of blast and gas through the
tuybres. Practice shows that blast furnaces with a volume of 19719 m3 o,perate
satisfactorily; it istherefore,justified to increase the blast furnace-rolume,
further. Among several-recommendations for improving the furnace construction
Card 3/5
3/133 60 000/012/015/015
A054 A02
YA
All-Scyiet Meeting of Furnacesen and Agglomeration WDrkers
it was suggested that the bt=ners of the tLir-heating system be provided~ with
fans having acawitY of 70POOO-800000 S-7/hour, val,res oonstruoted for the air
beaters, capable of operating with the blast heated up to 1120000, at a.pressure
of 4.2 atm and equipment provided for mixing, sieving, weighing and loading
the charge with the aid of vibrating screens, oonveyore and stationary weighers,
It was found that the present state of automatization of blast furnace t-peration
was uneatisfaetory. More attention should be paid in this respeot to itauring
a uniformiquality of the charge and a high degree of stability of furnace oper-
ation. It was pointed out that the mechanization of heavy labor in theifurnaoe
chamber did not keep pace with the increase in furnace volume. A special
institute for planning the mechanization of these operations was recommended.
To improve labor conditions a number of proposals was madet special equipment
for ohanging the tuybres and slag apparatust remote-control of charge-f6edingt
delivery of the charge by conveyorej hydraulic dust rtmoval from the bunker
areat pneumatic transport of dust from the colleotors. For tho scientific re-
search institutes tho most important tasks aret to establish the optimum methods
for utilizing reducing gases, liquid fuels and oxygent the optimum heat -.ondi-
tions of blast and gas pressure in the charging holel suitable basioity Df the
Card 4/5
Cj/133 60/000/012/015/015
A-054YA027
All-Soviet Meeting of Purnaaesen and Aggloseration Workers
slag whioh would make it possible to malt low-sulphlux irons. Methods should
be established for desulphurization of iron outside the furnaos and fox- refin-
ing the iron in the furnace chamber. Turbine distributors should be construct-
ad for utilizing exoess-gessure and the excess furnace gas; methods abould
be invented to increase he useful life of the furnvioe installation, refractory
material of longer useful life should be established,, equipment.for grading
the agglomerate and coke into fractions before loading, equipment for process-
ing the sl t the blast furnace with mechanical collection of the sem;L-finish-
ad product without ladles) should be constructed.
Card 5/5
---- -------
~L.Z. ~Moskva); MALYSHEVA, T.Ia* (Moskva)
Reduction and primary slag formation processes during the forced
malting of ore and slag granules in shaft furnaces. Izv.AN SSSR.
Otd.tekh.nauk. Met.i topl. no.4tlO-19 Jl-Ag 162. (MIRA 15:8)
(Blast furnaces) (Metallurgical laboratories)
KHODAK, L.Z.
Spread of CoMbUstion zones in blast furnaceso Trudy Inst. mte
no.n,16-3o 162-. (WRA 1615)
(Blast furnaces-4orabustion)
CHERNYSMV,, A.M.; GESS, B.A.;- KANAVETS, P,.L; MELENT#YEV, P.N.;
TRMAI* - L-' rh -'j, SOKOLOV, G.A.; MISOV, Yu. I.; CHERITM, V.I.;
1~~inizali up',*etiyez VAVIU)V,, N,S,; MARCUM, V4G,;
KIS~LXV, G,P,; VOLNISTOVA, R,A,; MOWEVA, G.R.
Testihg granules made by:the method of'ohemical catalysis
in a ]Abo-rat6ry shaft furnace. Tn* IGI 22170-78 163.'
(MIRA 16~11,
KHIODAK, L.Z.; MALYSHEVAq T*Yas
Changes in phase oomposition and the mochaniBm of primary
slag formation durinj the melting o.fo3m-fuel granulos$
Trudy MI 2209-92 630 (MIRA 1611l)
MALYSHEVA, T.Ya. (Moskva)y KHODAK, L.Z. (Moskva)
Rfduction and primary slag formation during the smeltirg of
raw matarial prepared for blast fu- -n nelting. 1%v. AN
SSSR, Met. i gor. delo no.6341-V N-D 164. (MIRA 180)
W,
MET
Use of blowers for feeding carbon dioside gas to eaturators, Sakh,
prom. 31 noo'2:45-M 7 157. CML 10:4)
1. 1upyapskly eakharMy saved.
(Blowers) (Carbon dioxide) (kcar machinery)
I W A; A I, IN
KHODAK, P.A.; RUTINNAUp IX, blyus, TS.K.
mizing spent allmll In the ibylix process for gas purification.
Util
Oes.prom. 4 no.8tl?-18 Ag 159. (Nin 12,11)
(Gorlovka-4ke purification)
KHODAX, P.A.; VASIKO, T-T,
---------------
Reoovery of monoetbanolamine after the purification of
coke-oven pe# Ibis* prom#.not 61311 8 160. (MIRA 13:11),
J# Gorlovekly axotu 0-tukovyy zavoda,
Oltbanol) (Coke-ovwgav)
I iiI.;i-2 L7 ~~w . - '0 ~
_M14,
KHODAKI T.
Fuel Abet. k,-"" 2693. INKP witim ;DR stn!,w p.-D sTrtjjy Djj,j,jNr. v
01r,01 (ruil 6 Yhodak, T~L
r
Vol. 15 No- 4 0 ,t. IcY,3, ~7-39). A short. 111tintmw de's" 11 tfbin-Tj'~Ivicn,
A Mavmm, or the 1,,var iriven rdw ojectrjual 01
pr. 1954 L a Iloys V1111ch
vilth cull -it-ter or r tit tur- livitior. it, Iti remotc-c(ritroilod tr- tim
Natural Solid Fuels: (Pctlltlfi~ thu cutter.
Winning
SAU Q!I-llfl,5.~,t~F"~,~~y~.~v;~iP'~l,~2-1~~,~'I 1KC
IGIODAK V.
Our present-day plans. Sill. bud. 13 no.11:11-13 N 163;
(W RA 17: 1)
1. Predsedatell soveta Pogrebeshchenakoy rozhkolkhoznoy
stroitellnoy organizatsii Vinnitskoy oblasti.
5-361o 78304
S)OV/19-30-'.~-1*8/6 9
AUTHORS: Nikolenko, L. N., Karpova, Ye. N., Khodak, V. A.,
Chirakadze, G, G., Borovik, V. P.
TITLE: Investigation of Aromatic Compounds With 9~ Loi,.ig Side
Chain. III. Reduction of Alkyl 4-Aminophenyl Ketones
According to Modified Ki~shnerls Method
PERIODICALi Zhurnal obshchey Ichimii, 1960, Vol 30, Nr 3, Pp 1028-
1031 (USSR)
ABSTRACT: This is a continuation of the previous work (L. N.
Nikolenko, K. K. Babiyevskiy, ZhOKh., 25, 22310 1955)
on preparation of aniline homologs according to the
following scheme:
11G0/--\C1 Ile. ',"-->Ntl, - IICII~/-\Nll,
ruell 011-
Card 1/6
investigation of Aromatic Compounds With .783o4
a Long Side Chain. 111, Reduction of SOV/79-30-3-518/69
Alkyl 4-Aminophenyl Ketones According to
Modified Kishner's Method
A series of alkyl 4-chlorophenyl ketones (see Table 1)
was obtained by the condensation of aliphatic acid
chlorides with chlorobenzene In the presence of AlCl
1 0 3*
The reaction mixture was kept,for 2 hr at 20-~?2 and I
additional hr at 1000. TheN alkyl 4-aminophenyl ketones
shown In Table 2 were obtained by amm3nolyois or the
corresponding alkyl. 4-chlorophenyl ketones. 4-Alkylani-
lines shown in Table 3 were obtained by reduction of the
corresponding alkyl 4-aminophenyl ketones witti hydrazine
hydrate according to the modified Kirahner method. There
are 3 tablesj and 9 referenCEIS, 1 U.S., 3 U.K., 2
Japanese, 3 Soviet. The 4 U.S. and U.K. rlefet,ence-- are:
E. Cline, E. Reid, J. Am. Chem. SOC., 119, 315" ( 27);
G. Baddeley, J. Kenner, J. Chem. Soc., 303 (T935'
W. J. Hickinbottoffi. A. C. Waine, J. Chem. Soc., 1E
(1930);" W. J. Hickin-bottom, J-Hickenbottom, J. Chem.
Soc., 1119 (1937).
Card 2/6
yB- ' ',9
T-ib1c, 1. Alkyl /I-uhloi uptienyl keto
rlcL~ P-RCOC61"Illcl
Key: (,I) Ylel(I (1)) )np; j~p of 2,11-dinitrophenyl-
hydr-azone.
c
80 32-, :1" -175.30
CO 1113 94 5 - 1 6
07 I:V. -135
CIO Iv 98 46.5-47 M:115-ioli.5
lit 01-40 m)- I UOJI
Card 3/6
78304, SOV/T9-30-3..58/69
Table 2. Alkyl 4-aminopheriyl ketones p-RCOC, k![H
0 2'
Key: (a) Yield (b) mp.
R 6
Co H 13 95
08 90-90.5
Ot-02
Cloil.
C, ~, 1131 08 101.5-102
102-tO2.5
Card 4/6
78304, SOV/79-30-1~-58/69
JfjjN'f2 Key: Yield
Table 3. 11-Alkylanilines p-RI.16
(b) bp (pressure in mm) and mp.
call so 194-196 (16)
cItI1,23 85 W-168p)
n%; 19.5-20
98 r4 44,5-15
Card 5/6
Investigation of Aromatic Compounds With 78304
a'Long Side Chain. 111. Reduction of SOVI'79-30-3-513169
Allcyl 4-Aminophenyl Ketones According to
Modified Klshnerla Method
ASSOCIATION; D.,I..Mendeleye--,~, Moscow institute of Chemical-Technolo&,
(Moskovakiy lchimiXo-tekhnoloSicheekiy institut~imeni
D. 1. Mendeleyeva-)'
SUBMITTED: January 12, 1959
Card 6/6
KWDAK.* V*Mo) inzhe
Reduction of physical and mechanical indio,es of slabo to
comparable valuee. Der. prom. 10 no.7sl4 11 161. (MIRA 14:7)
(Hardboard-Testing)
DRUZHDI.N, V.N.; FEDORISHCHEV, T.I.; ~IIODAK, V.M.,, OSHURKOVA, I.K.
Use of hydrophobic additions obtained froin turpentine industry wastes
in the manufacture of particle,boards. Dor.prom. 11 no.I;Z5-26
Ja 162. (MIRA 15-.1)
(Hardboard).
KHMU, Tu.A.
"MUNWAM
Bitumen stratificAtion in Cambrian deposits In the Aldan Distsict.
Yakut A.S.S.R. Dokl.AN SM. 103 no.3064-363 11 155. OUJU 9:3)
1. Inatitut geologicheekikh nw, Akademli imank $6M. Predstavleno
akademikom IT.S. ftatekim.
(Aldan District-Bitumn)
----------
USSR/Cosi~o chemistry. Geochemistry. Hydrochemistry. D
As Jour Ref Z.hur..- fq4pliya, No. 8' 1957 26560.
Atthor
Inst : Kho
0
: ~vgo v .. ~Uhni v er =~tt y
Title : Secondary Alt6rations.of Lower Cambrian Rocks
In Aldanskiy -Region of. Yakut, ASOR.
Orig Pub Vopr. mineralogil o3adoch. obraiovaniy. Kn.
3- L.1 v kip', un-t 19569 468 1+85.
Abstract Some_newlk formed minerals were discovered
at the stud:~ of'alterat-Jon of sedimentary rocks
which have n'ot been-3ubject to
the action- of
.
intrusicifis.' Quartz- and cl-..,Rlc
e-d;ony were pro-
.
duced In the 'resuit3.of a Ioneentration of the
original 802'and of Ats.tr'ansl,~6r Into the
rocklayerc, Argillac6ous mInOralsserved
,as sources of K-for the formatIon of felapars.
Card 18
;c 'd mu
bAl
AJI IT-
ri
ju;.Cl
kc,
it)
td rr%tll
TAW" of r~JCk-,LUK,
cul~,rl
1W.
w= -.7=
7-
R-0
~p r-
14 MR, 91
`OWw~OSRM --A,41 ;~, -, -.
ilaffit 0
IS M PON R. MONVIWAM",
Iffil
XHDDkK, Yu.A.
On fluorite from Lower CambrIan rocks of the Aldan region of the
TaImt ASSR. DokI. AN SSER 106 no.3;533-536 Ja 136. (MIRA 9:6)
I&Institut goologichesklkh nauk Akadsmii nauk SSSR. Predstavlono
akademikom NA.Shatskims
(Aldan regloa-Morits)
KHODAI, Tu.A.; KMMTLOT,A.A.. doktor geol.-minerals nauk, otv. red.;
Yalo, red, lzd-va-, ASTAPITSTA, G.A., tekhn. red.
[Petrographic and mineralogto characteristics of lower
Cambrian sediments in Alden District) Fatrografo~mineralo-
gicheskain kheraktaristike nizhnekembriiskikh otloshenii
Aldanskogo rsionn. Xoskva._Izd-vo Akad. nouk sm, 196o.
n6 p. (KM 14:5)
(Aldan District-Petrology)
KHODW, Yu.A.; SUN' SIX [sun shul
Main structures of northeastern China and tho adjacent terriltoPy
of the Soviet Far East. Izv.AN SSSR. Ser,geol.26 no.10:97-110"
0 161. (MIPA 14:9)
1. Sovot po iMucheniyu, proisvoditallnykh oi-1 Gosudarstvennogo
naucho-okonomichookogo soveta Soveta Ministrov SSSR, Moskva.
(rhins ology, Structurul)
(Soviet Far East--Geology* Stmetural)
.1--K-HODAK, YuOloc, CHROBOTAMs M*V*
genesis of Sinaean magnesite rocks in the Loeser Xhingan Mouz.,taim.
Dckl.AN SSM 138 no.1:184-187 MY-Je 16le (MIM 14:4)
1. Sovet pojzucheniyu proizvoditellnykh ail AN SSSR.1
Dallnevestechneye geologicheskoye uprayleniye. Predstavleno
akademikam; D.Sokorthinskim.
(teaser ningan Mountains-Magnesite)
WN-WIM:iv
KHODAKIP YU.A.
Sequence and age of ancient formations in the Soviet Far East
and adjacent regions of North China. Sav,9601- 4 no.12:96-lC6
D '61. (laRA 15:2)
1. Akademiya nauk SS811.
Woviet Far East-Geologyp Strattraphic)
(China-4oology, StratigMphi,a
ACCESSION NR: AP4009628 S/0293/6j/OCII/003/0460/0464
AUTHOR: Khodak, Yu. A.; Koziov, Ve V*; Tomson, I. N*; Khoroxhiloys 1.9 V.*
TITLE: Significance of geographic and geological methods In lunar studies
SOURCE: Kosmichesklye issladovanlya, ve 1. no& 3, 1963, 46o.464
TOPIC TAGS: lunar research, lunar geological study, lunar geographic study,
lunar structure. lunar relief. lunar history, moteortte lunar theory, astranomy,
moon
ABSTRACT: The report offers a brief review of lunar research to date, clarifies
the significance of geographic and geologicalmethods for future studies ot lunae'
structure and relief, proposes close coordination of such methods'(91ving considera' -
tion to comparative terrestrial material) with astronomillcal methods, evaluates
various studies of geographic and geological aspects completed thus far,and dis-
cusses the meteorite approach to an explanation of the avolution of lunar structural
and relief. it Is suggested that It will be Impossible to clarify the origin,of
I lunar structures and relief j, or their pattern of distrilwtion, without the parti-
cipation of geologists, nor will It be feasible to compile adequate topogra
geographic or selenological-goological charts or. diagrams. "The authors ac=!
ledge the contribution of Dr*-Ae G. MasevIch In posing the problerd'. OrIg. art#
Card- 1/2
tVCMS1CK NR: A?4009629 8/0293/631'001/003/0465/0471
AIM10.11: Ubodak, Yu. A.
TITLE,-. The moot important str4ctural elements of the H(M
SOX=,: Kosmicheskiyo issledovanlya, v. 1, no# 3, 1963o, 465-471
TOPIC TAGS: moon, moon sti=twai elements, lunar tcpqgra_r4-, albedo., lunal"
albedo,, lunar reliefY moon nap
ABSTRACT., The character and location of Jun" topogral*dc features are analyzed
to trace the principal structural elements of the Moon.: Recent photographs,~ maps,
cuid other data an lunar relief are employed. The paper fomwes an three fUada-
mental structural elements said by the author to have been formed about 300:
million years ago: 1) a meridionally extended ancient massif embracing the4estern
portion of the far side aiid the amtha-Apoirtion of the Nisible side; 2) the'Great
Belt of large depressions (seas) loeatedvithin the-maself and--extendlug cowexly
in the form of a -semi-circle to the north poli from the South Sea to the Sop. of
Moisture; 3) the meridional belt of large depressions ol'the far side of tht Moon.,
located on the edge of an uncharted lunar ar6a, Within. these, it Is possible to
Card
141/
tl"T_I'kt'~ -ONE .