SCIENTIFIC ABSTRACT LISOVSKIY, D. I. - LISOVSKIY, L. P.
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December 31, 1967
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SCIENTIFIC ABSTRACT
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SOV/1 37-58 -10-20423
Model Investigation of the Distribution of the Gas Flow in a Shaft Furnace
uniform gas distribution, while a decline in lump size causes a greater flow
of the gas toward the periphery. The most uniform distribution of the gas
flow results: a) When a 15-20 mm fraction is charged, which, allowing for
the dimensions of the model, would represent 60-80 mm in an industrial
furnace; and b) when larger lumps of charge are placed in the middle than
at the periphery.
Y a. S.
1. Sintering furnaces-Operation 2. Gas flow--A~alysis
Card 2/2
LISOVSKIYO D.I.; VANMXOVI, Aolfo; MOVSKIY, A.Tu.; SWIEto, YU.L.
InveBtiA4LtIn& awt furn"a smelting of oxidezed nickul ores by
freezirg the furnsco. lov. v7s. uchab. say,; tffrat, not, no,2&
55-70 '58. -(KIRA 11:8)
1; Xoskmrskiy institat torettykh metallov i zolota. ]kfedra
metall-argit tyaxhele& tffiStMift7metallo*e~
(Mckel-Metallurgy)
I
AUTHOR: LisovsqZ.,,.,~Ll.- SOV/149-58-4-10/26
TITLE: Investigation.of Reducibility and Stability of Gypsum-
During-Smalting-of Ores in a Shaft Furnace (Issledovaniye
vosstanovleniya gipsa i yego ustoychivosti v usloviyakh
shakhtnoy plavki rud)
PERIODICAL:Izvestiya Vysshikh.Uchebnykh Zavedeniy Tsvetnaya
Metallurgiya, 1958, ITr 4, pp 73-82 (USAR)
ABSTRACT: Qxidised nickel ores are smelted in shaft furnaces with
an addition of gypsum, pyrite and limestone flux.
Reduction, oxidation ani decomposition of gypsum as well
as the reactions occurring between this mineral and
sulphides of various metals affect the formation of raw
matte and, to a large extent9 determine the yield and
composition of the.final product. Little is known about
the kinetics of these processes -and, so far, it has not
been possible to control the yield of raw matte by
adjusting the quantity of jZrpsua charged in the furnace.
The results of the present investigation., whose object
Card 1/4 was to study the effect of various factors (compq~pition
SOV/149-58-4-10/26
Investigation--of..Reducibility and Stability of Gyp-qirn.During
Smelting of Ores in a Shaft Furnace
of gypsum, grain.size, temperature) on the behaviour of
gypsum in both reducing and oxidising atmospheres, can
be Aummarised as follows: Calcium sulphide (CaS) is
not a direct product of reduction of gypsum:
Its formation is preceded 'by formation of an intermediate
product of the "calcium sulfite" (CaS03) type. (Fig.5
sho,
,Ws how the composition of the reduction products at
900 C changes with time: After 2 hours the CaSO3 content
is ?Wo as compared with 25-,o of CaS). The rate at which
gypsum is reduced by a synthetic gas of a composition
corresponding to the comgbSition of the furnace gases
is 4 times slower than the rate of reduetion by pure CO.
The presence of water of crystallisation slows down the
rate of reduction at 700-9000C. The higher.the temperature
the faster is the rate of reduction. Lastly, with
increasing size of the mineral grains, the rate of
reduction process decreases. When heated in an oxidising
atmosphere both naturally occurring and chemically pure
Card 2/4 gypsum are chemically stable up to 1200-13000C. When
SOV/149-58-4-10/26
Investigation 6f Refteibility and Stability of Gypsurn During
Smelting of Ores in a S2haft Furnace
naturally occurring, granulated gypsum is reduced by
CO,, some sulphur is lost in the exhaust gases: The
smaller the size of the gramules the lower the
temperature at which dissociation of gypsum and
evolution of sulphur bearing gases begins. However,
the quantity of the evolved gases increases with
increasing granule size and with decreasing rate of the
reduction process. It is concluded from the results of
thelaboratory experiments that the coarse-grained gypsum
used in actual smelting practice is reduced very
Card 3/4
SOV/149-58-4-10/26
IAvestigation of Reducibility and Stability of Gypsmm During
Smelting of Ores in a Shaft Furnace
slowly and at very high temperatures, i.e. in the
lower zones of the furnece. There are 8 figures,
5 tables and 2 Soviet references.
ASSOCIATION: Moskovskiy Institut Tsvetuykh Metallov i Zolota,
Kafedra Metallurgii Tyazhelykh Tsvetnykh Metallov
(Moscow Institute of Noix-Fexrous Metals and Gold
Chair for Metallurgy of HeIvy Non-Ferrous Meta185
SUBMITTM: 19th October 1957.
Card 4/4
AZOS, S.; ARMIYEV, A.; ARTAMONOV, I.; BABINA, I.; B3MOVSKIY, V.; BLOZHKO,V.;
BRAVAMN, A.; BYKHOTSKIY, Yu.; VIRMPADOVA, M.; GATA INA, Ye.;
Gli'UMIMSH, 7.; GLCBA, To; GRXYVAI, N.; GORDCK, Go; GULIDIN, I.;
GULYA,Y37A, Ye.; GUSRCHM. I.; DAVM)OVSUTA, Te.; DAMSKAYA, Go;
DIRKAGRIT, Do; UVD0KIMOVA, A.; IMITHOV, V.; ZABBLYSHINSKIY, I.;
ZAYDEMBIRG, B.; AZMOSIMKOV, L; ITKINA, So; K&ROWSKIT, To;
KWSHIN# 'Do; KUVINOV, Ye.; KUZNICTSOVA, Go; KURSHAKD7, I*;
LAMMIK. No; LITMOVICH, Go; L;LSM jTk D.; LOSKMOV, F.;
MAWSKrY, Yu.; MASLYANITSKIY, I,; MILMR, L.;
MITROYAN-07, So; MIKR&YIDV, A.; MYAKIIMNKOV, I.; NIKITM, I.;
NOVIN, :1.; DGNAV, Do; OLIKHOT. No; OSIPOVA, T.; OSTRONOV, M.;
PAKHCKOVA. Go; P3TM, So; PIAKSIX, I.; PLETMWA, No; POPOV, V.;
FMS, TV.; FROKOrIYEVA, Ye.; PUCRKCf7, S.; RMOVA. F.; RUMYAHTS3ff,M.;
SAKHARar, i.; SCBOLI. So; SPIVAKOV, Ta.; STRIGIN, I.; SPIRIMNOVA,V.;
TDMO, Ta.; TIT07g So; TROITSKIYp A.; TCLOKONNIKOV,,K.; TROYMOVA, A.;
FJDOROV, V.; CHIZHIKOVI Do; S137N# Ya.; YUKHMOV, D.
Roman Iussarevich Teller; an obituary. TSvat. met. 31 no.5:78-79
W 15B - (mm n s 6)
(Teller, Roman Iwarsvich, 1897-1958)
LISOVSKITp D.I.9 pri-ofs
Ketal sulfidation 4urirg the principal stages of oxidized nickel
ore processing. TSvet. met,, 31 no- 7.44-50 71 '58. (MIRA 11!8)
1. mintevetmetsoloto.
(Nickel--Metallurgy)
LISOVSKIYJ, D.I.; BUROVOY, I.A.
Investigatimg reverberator7 copper smelting furnaces for the
control and improvement.of automatic control diagrams. Sbor.
nauch, trud, GINTSVEMET no-15:403-419 159. (MM 14-4)
(Gopper-Hetallurg7) (Smelting furnaces) (Automatic control)
LISOVSKIY, D.I.
neducing the loss of c6 41t in waste alage by replacing ferrous
oxide by calcium oxide in their composition. Izv. vys. ucheb. zav.;
tsvet- met- 2 n0-3:52-59 159. (MIRA 12:9)
l.Moskovs1dy institut tsvetnykh metallov i zolota. Kafedra metallurgii
tyazhelykh metallov. i.
(Cobalt) (Slag-Analysis),
1~-5000 75383
sov/149-2-5-9/32
AUTHORS: Krysenko, N..S., Lisovskiy, D. 1.
TITLE: Preparation of Oxidized Nickel. Ores by Gaseous Reduce-
tion and Sulfidizing for Drossing or Smelting
PFRIODICAL: Izvestlya vysshikh uchebnykh zavedeniy. Tsvetriaya met-
allurgiya, 1959, Vol 2, Nr 5, PP 50-58 (USSR)
ABSTRACT: In 1935 Mostovich, V. Ya., proposed a reduction-sulfi-
dizing melting of nickel ores with gypsum or pyrite.
However, low temperature of the furnace in its zone
between the charge hole and the tuyeres (450 to-6000)
impairs the conversion of CaS04 into CaS. Pyrite is
more advantageous as a sulfidizer, but it involves a
contamination of the melt by additional it-on. Gaseous
sulfidizing Is scantily studied, and there are no data
on a simultaneous 3ulfidizing, of Fe 203' Fe304, FeO and
Card 1/4 2FeO - S102' The possibility of such sulfidizing
Preparation of Oxidized Nickel Ores by Gaseous
Reduction and Sulfidizing for Dressing or Smel-
ting
Card 2/4
75383
sov/149-2-5-9/32
can be proved thermodynamically, and the values of
isobar potentials and logarithms of equilibrium
constants show that these reactions have a high nega-
tive isobar potential causing the formation of iron
sulfides. Laboratory tests were made to study these
reactions, and the following results were obtained:
Iron oxides and silicate enter into a reaction with
s02 jat 9000 and become sulfidized in the following
proportions after a 1-hr treatment; Fe2o 33 40%;Fe 304)
35.8%; FeO, 44.4%; 2FeO - SiO 2' 29.6%. Higher tem-
peratures intensify the process with the given gas
volume; for all practical purposes such sulfidizing
is more than adequate, as in the subsequent electric
smelting of oxidated nickel ores, 1.3 to 1.4% of sul-
fide sulfur must be present in the ore to permit the
extraction of nickel and cobalt into the matte. During;
this process-the action of a gas mixture containing
Preparation of Oxidized Nickel Ores by Gaoeuus 75383
Reduction and Sulfidizing for Dresolrjir or 3mel- SOV/1119-2-5-9/32
ting
CO, CO 2Y N2 and SO 2 produces,besides sulfidizing also
a film.of elementary sulfur. The presence of a neutral
gas permits this elementary sulfur to sulfidize iron
silicate at higher temperature. The apparent energy of
activation in the interval between 600 and 9000 is cal-
culated to be 5358 cal. The above data on sulfidizing
by gaseous phase permit the creation of new methods,
especially in fluidized bed furnaces. Further work
is done by the authors in this direction. It will per-
mit the utilization of flue gases to Intensify the
extraction of nickel and cobalt from ores. There are
5 tables; 8 figures; and 11) Soviet references.
ASSOCIATION: Krasnoyarsk Institute of Nonferrous Metallurgy. Chair
of Heavy Metals Metallurgy (Krasnoyarskiy institut
Card 3/4 tsvetnykh metallov. Kafedra metallurgii tyazhelykh
ireparation of Oxidized Nickel Ores by Gaseous 75383
Reduction and Sulfidizing for Dressing or Smel- sov/149-2-5-9/32
-tf ng
metallov)
SUBMITTED: May 19, 1959
Card 4/4
LISOVSKIT. D.I.; UMSIMO, N.S.
Reduction and sulfidized roasting of oxide nickel ores in a
fluidized bad. Izv.vys.ucheb.'x&v.; tevet.met. 2 no.6:60-65
'59.' OaRA 13:4)
Is Krasnoyarskly institut tsvetrykh metsalov. Kafedra
metallurgil, tyashelykh tsvetmykh metallov.
(Ore d~sssing) (Fluidization)
7 772" 0
sov/.Pi 9--6o-.i -9/~27
AUTHOR: Lisovskly, D. I.
TITLE: Metal SulfidAtion Between Slag and Matte in MelLing
Cobalt Containing Charges
PERIODICALz
ABSTRACT:
Card 1/12
Izvestiya vys3hikh uchebn kh zavedeniy. T,,~vetnaya metal-
lurglya, 1960, Nr 1, pp Nl-'72 (USLIM)
Silicates, the main componenta of slags, consist of
molecules, atoms, and simple and complex J.ans, rather
than oxides. Ions carrying positive or negative charge3
assume a preponderant role in slag formation, especially
at high temperatures. The crystal lattice is partially
preserved in the liquid state. Silicates, aluminates,
and ferrites dissociate to different degrees. As
indicated by Acad. N. S. Kurnakov (Introduction into
Phy3lCo-Chemical Analysis, 3rd Ed., 1936) the rate of
dissociation is inversely proportional to the amount
of heat generated at the formation of a chemical com-
pound. With reference to slags this rule places mono-
silicates in the following series in proportion to
Metal Sulfidation Between Slag and Platte in 77720
Malting Cobalt Containing Charges sov/149-6o-1-9/27
their increasing dissociation constants
2'C;iO-S10,; 21:v()-9jO.,; 2CO()'_';iO,,; 2NiO-Sio,.
Metal distribution among slag and matte In liquid state
depends on a MUltitUde of reversible reactions. If one
classified these reactions into groups, one would find
that the dissocation of silicates and related compounds
(ferrites, aluminates) consists in the formation of
metal and silicon oxides. Simultaneously, complex sul-
fides dissociate Into simple Sulfides, while the latter
dizsociate Into metal and sulfur, and the oxides, into
metals and oxygen
Card 2/12
(Ale)2p,)2
0 V
Meta ,I Sulfidation Detween and Diatte in 77720
Melting Cobalt Containing Charge!; C,OV1l4C)-6,O-.1-q12-(
Dissociated sulfIdes and orldo3 enter Into reactions of
the type:
Alt!S + AWO - AN)
An equilibrium between slag and matte is achieved by the
dissolution of 3ulfide.,j in slag and of oxides In matte.
A conditional dissociation constant at the boundary can
be written as
Ica= S1 (2)
A. N. Vollskly (Basic Theory of' Metallurgical Smelting,
1943) considers these processes. as a result of the
affinity of metals to oxygen and sulfur and indicates
that all metals present in the charge must be also
Card 3/12 present in both slag and matte so as to achieve
Metal Sulfidation Between Slag and Matte in 77720
Melting Cobalt Containing Charges sov/149-6o-1-9/27
equilibrium. As a result of mutual dissolution and
chemical interaction, sulfides are formed in slag as a
very fine suspension of colloidal nature. Fe and Co
sulfides formed in Ni-Co smelting are such examples of
dispersoids ranging in sl2e from submicroscopic to
coarse. The elimination of sulfides from slag into
matte Is promoted by low-viscosity slags which have a
low dispersion rate and are poor solvents of sulfides.
T-eots have shown that slags contain cobalt in two
formst oxides (the major part) and sulfides. Matte
consists of a metalsulfide alloy. In his tests, the
author ascertained the total metal content In slag and
matte without attempting to identify the actual forms
of compounds in its content. Studies of this kind are
complicated by the material of crucibles (platinum, Iron,
ceramics) entering into reactions with its content.
Alundum crucibles are recommended. Typical for the
tests was "hardening", a procedure consisting of keep-
ing the melt at a given temperature, then rapidly cooli.,.~-'
it on an iron plate. To begin with, an investigation
Card 4/12 of reactions between sulfides and oxides was made
N7~tal-Sulfldatlon Between Slag and Matte in 77720
Melting Cobalt Containing Charges sov/-149-6o-1-9/27
Fto + cis Fes + CIO. (3)
0
The melt was settled at 1,1150 . Results of chemical
analyses are shown in Table 2. Dissociation constant
K1 versus slag content is plotted in Fig. 1. It is at
its minimum when ratio CaO:b'eO in the slag is equal to
the molecular weight ratio of'these oxides, and does
not change with a further CaO increase In slag. Cobalt
sulfide Is formed by the following r.-actions
coo + Fes '-- Cos + 1--*C-O'
('00 4- CIs 7, Cos -1. cuo.
Card 5/12
Metal Sulfidation Between Slag and Matte In
Melting Cobalt Containing Charges
T TPP--
fec mu re to -W AP 20 IP
77720
sov/149-6o-i-9/2-1
Fig. 1. Dependence of
dissociation constant
for FeO + Cas t= FeS
+ CaO at slag/matte
boundary at 1,450'
on FeOiCaO ratio in
slag,
Card 6/12
77720,
Table 2. ChtMlcal analysls of 21ags and rriatte-
%
siO2 FeO Fes cao GIS A1,O, cas Fes
.k FeO CaS C30 Fk'S
1 B5,1 0,44 1-1,'J A) 9, '-X) 3%63 -16.73 2,311 1 UXI 11.07 "'SJ O..A VJ,47 24.7 IV"
2 U'4,9 0.31 15.1 99,66 A9.S1 -1-3.18 2.67 9.'m) Ogi -1 17 0.14 9) 19,3 1o-1
3, 77.3 0,43 22,7 99,57 45JO 35,72 2,2ti 13.17 ()j! .).,S1 O.L 1 K-19 13,47. 10-'
4 74,3 0,44 2,517 9 9. 5 31,93 4 j'()3 3,61 10.15 ()"22 3,001, 04 '~)l 99-41"
5 --9.3 0,57 130.7 99,43 4 1.0 32.60 -3,45 15,52 :1.6,*, Rr'9 99,31 12,2,2 - 10-
Card 7/12
77720, sov/149-6-o-1-9/2'T
Table 2. Chemical analysis of slags and mattes
(continued).
61
1,,., '1
11,3 91) (A 413,71 27,1r, -1.33 20.1.0 0,25 3.`t; 9.41 99,59 v,
71 56,0 440 0,28 W 72 37,10 2 6, 1 1 26,40 0.21 M 0.:~j A.07 3,23
81
1
-51,11
4811 0.32
63 44,10
22,13
4.04
26,40
0,1211 1 2,87 0,39 99,61 3 "2 7
9 50.3 49.7 0,34 v),fif; 10.68 22,03 -1,26 '27.7.3 0,25 5,05 UA 1 3.27 h)
10 .31.0 0.0 0.65 99,33 38.63 1:182
' 4.03 3~).88 0 '20 3,39 0,79 99.21 2 76 Vj
11 8,G 81.4 0-70 99,30 41,77 7
84 .1.01 43,87 0 29 2. V- 0,56 99,14
%bard 8/12
K-etal 'Sulfidation Between Slag and Matte in 77720
Melting Cobalt ContainLig CharjW3 SoV149-6o-i-9/27
Reaction (11) wa,,3 studied, juut as the previous one, by
melting a charge In alundum crucibles in a-nitrogen
atmosphere at 1,3500. FeO, CaO, S102-1 Al203-1 MgO, and
elemental S additives to slag and matte in variable
proportions as shown in Table 3 were introduced. A,
separation of' plant matte by a permanent magnet sho,~jed
that the ferromagnetic portion to contain more Co a.nd
less S than the paramagnetic portion. Hence, an
introduction of sulfur would promote the formation
of the paramagnetic component and intensify Co
extraction into the ferromagn6tic component. In
drawing his conclusions from the data of the above
tables, the author finds that charges con two
tables, the author finds that charges containing CaO
form slags and matte containing CaS. An Increase in
CaO and a decrease in FeO Promotes CaS formation. A
bettei, Co extraction from slag into matte is achieved
with calcium rich charges, and metallized matte.
Metallized matte with low Co content is the active
Card 9/12 Co-extracting phase from slag. There are It tables;
2 figures; and 6 Soviet references.
77720, sov/149-6o-1-9/27
Table 3. Contents of sla93 and mattes and
constant of the reaction CoO + FeSZ---'CoS + FeO
Comodo6lrlov,
R'In. /,v
yp
04 T Tf*
4 r
4 fiddi- (Coo)
r
J
.
tive K~, - F~ -
Cos Fes coo slo, cao FCO AI,O, AIq( C.1 0 F e 0
1 68.68 31,42 8.48 35,76 3,32 17,31 5.13 -7 FeO
.2 66,13 .33.87 8,93 29.36 1,24 53,3S 7,09 -
3 r8,77 41,23 6,57 27.31 2,10 56,26 7,76 - S.19. 10'
4
9.83
"O, 17
,88
8,56 'I
53 --
35,37
-
4,GG
-
-710
76 0
ao I - lo-2
5 71.93 28,07 7.42 28.31 24.21 35,40 4,65 35,2 68,8 S,20 .10
6
68.06
31.9-1
4.63
27,83
37,02
30
52
-
48
50
r.
5i 7,12-10-
7 65,81 34,19 2,73 25,15 39,84 ,
24,53 7,70 ,
56,0 .
44,0 ;,OS - 10 -
8
-
- 7.3,87 26,13 2,85 30,79 37,08 14,21 14,17 67 6 32
4 7,10- 10-
7 29.76 4,46 3 -1.~6 -35. 11 -26,07 -- 1 ,
-
8.,g SiO~ (i.91 - 10
10 26,68 4.02 42,615 33,39 18.30 1,6.1 r)8,3 4U, 7,85 10
11
77 22,32 -),.lo 46,1,1 28,rb 19,55 0,112
I 53,2 .16,,~ 7,75 10
12
7 .1
22.62
3,81
51,38
24.91
15,78
1
09
I 7,07- 10
Card LO/I ~) .
77720, Sov/Vig-6o-i-9/27
Table 3. Contents of Lilags and mattes and equilibrIum
constant of the reaction CoO + FeSz::tCoS + FeO
(continued)
-1
13
1-1
15 73,99
.70,42
71.4.4 26.01
29,58
28,52 4,41
.3,70
3,50 37,02
311,07
26.81 30,511
32,99
30,40 21, 50
20,58
15.46 6,.q
12,66
23,83 58,7
GO
66,2 11.3
38,7
IRS A1,O, 7,18.10-2
7,57-10-2
9,05-10-2
16
17 60.11
60.41 39,89
3 150 3,91
3,97 40,53
40.33 1,75
056 36,57
28,62 8.82
4J)7 14,85
2-21-10 4,7
1. 95.3
9 '1,, 1 '%Igo 8'.31-10
0,07 10 - 2
is
9
74,32
.3.12
6
26,69
36,88
4.02 42,65
4,64 39,83
33,39
26,31 18,30
8,39 1,64
.83 -
- 55,3
8,0 7
41
S*
7, ;- 10-2
SG
10_2
Card 11/1P
Metal Sulfidation Between Slag and Matte in 77720
DleltinL Cobalt Containing Charges SOV/1149-60-1-9/27
ASSOCIATIONz Krasnoyarsk Institute of Non-ferrous Metals. Chair of
Metallurgy of Heavy Norferrous Metals (Krasnoyarski,--j,
institut tsvetnykh metallov. Kafedra metallurgii
tyazhelykh tsvetnykh metallov)
Lc- -iMITTED; May 18, 1959
Card 12/12
S/137/62/000/005/039/150
AOO6/A1O1
AUTHORS: Lisovskiy, D. I., Mikhaylenko, A. Ya.
Tl=: Melting of charges with coal-plaster briquets in an electric
are furnace
PERIODICAL': Referativnyy zhurnal, Metallurgiya, no. 5, 1962, 21, abstract 5G129
(11Sb. nauchn. tr. In-t tsvetn. met. im. M. I. Kalinina", 1960,
v. 33, 67 - 82)
TEXT: The use of coal-plaster briquets as sulfurizers in the melting of
charges in electric furnaces, ensures high Cc extraction into the matte. On a
laboratory scale a method was developed of preparing briquets from raw and par-
tially dehydrated plaster anci coking coal. It is recommended to carry out'semi-
industrial checkings of the use of plaster-coal briquets in the melting of
charges in experimental water-jacket and electric-ara furnaces.' There are 7
references.
[Abstracter's notet Complete translationi .0. Svodtseva
Card 1/1
S/149/61/000/006/001/003
A0061AI01
AMORS: Lisovskiy,_D.-I., Kuztmichev, 0. V., Krysenko, N. S.
TITLEt Investigating the sulfurizing of iron, nickel and cobalt in silicate
melts
PERIODICALz Izvestiya vysshikh uchebnykh zavedeniy, Tsvetnaya metallurgiya, no, 6.
1961, 38 - 42
TEXT: The authors studied sulfurizing of iron, nickel and cobalt with cal-
cium sulfide in silicate melts, depending on the amount of the sulfidizing agent
and-the content of these metals in the melt. The thermodynamical calculations
of the isobaric-isothermal potential and the equilibrium constants in the sulfi-
dizing reaction did not establish the.dffect of various factors on the sulfurizing
of metal oxides in the slag. Therefore, equimolar mixtures of three silicates
corresponding to a ZKeO'SiO2 composition, were prepared, which were sulfurized with
different amounts of CaS. The oxides (Nio, coo, Peo), contained in the mixtures
in equal amounts, showed their individual capacities of sulfide formation in the
melts under equal conditions. The amount of NiO and CoO was reduced in respect to
PeO by a factor of 20, 40 and 60 in order to establish experimental conditions si-
Card 1/2
S/149/61/000/006/001/003
Investigating the sulfurizing of... A006/A101
milar to industrial ones and to determine the effect of a decrease in Ni and Co
in. the silicates on the sulfurizing process with calcium sulfide. The following
initial materials were used: artificially prepared silicate of ferric oxide
(69% FeO, 31% SiO2), nickel oxide (98% NiO), cobalt oxide (92% CoO), calcium sul-
fide (84'.3% Cas), and quartz. The experiments were performed in a hermetic tubular
furnace with carborundum heaters in nitrogen atmosphere, with a 25 g batch, at
1,3500C. The experiments showed the*-different behavior of Fe, Ni and Co during
sulfurizing with calcium in silicate melts- nickel, having a considerably greater
ability of sulfide formation than iron, sulfurized first of all. Small amounts
of' nickel and cobalt contained in ferric slags, can be sulfurized selectively by
the addition of small amounts of calcium sulfide to the slag. Due to ~he indivi-
dual properties revealed in nickel silicate, i.e. to sulfurize selectively with
calcium sulfides from slags with low Ni oontent, this property may possibly be used
for impoverishing waste slags of nickel industry outside the furnace. There are 2
tables, 3 figures and 4 Soviet-bloc references.
ASSOCIATION: Krasnoyarskiy institut tsvetnykh metallov (Krasnoyarsk Institute of
Non-Ferrous Metals); Kafedra metallurgii tyazhelykh tsvetnykh metal-
lov (Department of Metallurgy of Heavy Non-Ferrous Metals)
SUBUTTED: November 18, 1960
Card 2/2
IJBOVSKIYP D.I.; KWIMICREV, G.V.; KRIBWAO, N.S.
Studying the milfidizing of iron.. nickel, and cobalt in molten
silicates, Izv. vya, ucheb. zav.; tovet. met. I+ no.6138-42
161e (MM 14: 12)
1. Yxasnoyarskiy institut tsvetn7kh metallov.. kafedra metallurgii
tyazbel7kh tsvetn~iffi metallov.
(Nonferrous metals-Metallurgy)
(Ore dressing)
LISOVSKIY., D.I.; KUZMICHEV, G.V.
Method of preparing oalcium sulfide from 67pom for purposes
of its use in metalbirgy. Sbor. nauche trud. GINTSVETNET
no.33:83-88 t60. (MIRA 15-3)
(Calcium sulfide) (Gypsum)
LISOVSWq D.1
"Steigerung des niikelausbringens aus oxidischan erzen in elmr sulfidisch-
metalUsch6n. phase."
Report, submitted to fho-14th Congress on Mining and Metallurgyp
Rreiberg, OR 13-16 June. 1962
VINTOROVICH,, G.S.; LISOVSKIY, D.I.; MALEVSKXY, A.Yu.
Studying the interaction of nickel oxide with iron in the solid
phase* I*,, vys, ucbeb, zav,; tavet, met. 5 no.4t86-94 162.
(KCRA 160)
1. Moskovskly institut stali, kafedra metanurgii i fizicheskoy
kbWi tave,tnykh metallov.
(Nickel oxiae) (Iron oxide) (Phase rule and equilAbrium)
LLqOVSM- D-T- MALEVSMO A.Yu.; VIKTOROVICHS G.S.
Interdation of the components of the system Fe - Ni - 0 in
solid phases. Izv,. vys. ucheb. zave; tovet. met. 5 no.6:
50-56 102. (KIRA 3.6:6)
1. Mo.skorrskiy, institut stali i vplavov., kafedra metallurgii i
komplakenogo is I
.pol sovaniya polimetallicheskikh rud.
W79tem(chamistry))
ass ruls and equilibrium)
R
ASHIMOVI A-; LIS
MathemaLical modol of the active heat exchange zone in shaft flurninces
for purposes of the automatic smelting of oxide nickel orc,~s. Izv.
vys. uchab. zav.; tsvet. met. 6 no-3:151--156 '63. (-".!A':.A lG-:C/-,)
1. Moskovskiy inAitut stali i splavov., kafedra avtomatizatsii
proizvodstva redUkh i radioaktivnykh motallov.
(Nickel-Me tallurgy)
(Metallurgical furnaces-Mathematical models)
IVANOV, V.A.j L1301A'~~-kj.; SHAPIROVSK.1y, 14.R.
Controlling the procesa of dr~H-ng a charge mixture ir, rota.-I
kilns with the use of-dAorediction model. Izv. vys. uchelb. zav. ;
tovet. met. 7 no, 4tll%;~-160 164 (MIRA 1:3 11)
1. Moskovskly Institut stali I 3pluvov~ kafedra avtomatizatsil
prolzvodstva redknh i rad'LoakL.'vnykh metallov.
IdSOVSKIY,
AutomatinL the analysis of solutions in the hydrometal2hirgy
of zinc. TSvet. met. 37 no.llt46-50 N 164. OKRA 1314)
IVANDVP V.A.; I,ISGVSKIYp D.I,- TFXIYF-,V', V.M.
FAthematical model off a periodic camntatvlon process.
Tzv.vys.ucheb.%av.; tsvet.met. 8 no.2s!59-166 165.
(MIRA 19&1)
1. Kafedra avtomattzatsii Pr012vodstva redkIkh trPtallov
Moskovskogo instituta stali i splavov. Sutmitted March j,
1964.
IVANOV, V.A.; LISOVSKIY, D.I., prof.; SHAPIROVSKIY, M.R.
A method of constructing a high-quality 5.yrztem of
con,',rol of delay-time metallurgJcal equipment. 1zv vys. ucheb.
zav.; tsvet. met. 8 no.4:144-151 165. NIRA 18i9)
1. Kafedra avtomatlzatsli proizvndstva redkikh i radioaktivnykb
metal,lov Moskovskogo instituta Atali ispDivov.
PIANOV, V.A.- LISOVSFIYI D.I.; 311APIROVSKIY, M.P.
U-7
Limits for the use of automatic control systerds in the operation
of rotary kilns for the drying of copper-zinc concentrates. Izv.
vys. ucheb. zav.; tsvet. met. 8 no.3%16/,-167 165. (MIRA 18:9)
1. Moskovskiy institut stall i splavov, kafedra avtomatizatsii
proizvodstva redkikh i radioaktivnykh metallov.
LISOVSXIYP B.I., prof.; TASHEVSKAYA, V.M.
Mathematical model of the process of metal reduc-Lion by
carbonaceous fuel from liquid slag. Izv. vys. ucheb. zav -
tavet. met. 8 noo4sl52-161 165. (MMA 1869)
1, Kafedra. avtomatizatail proizvodstva redkikh i radioakt,,'Vnykh
matallav Mookovskogo 'Anstivita stali ~ uplavcv.
AMNS11TEYN, A.G.; IVAIJOV, V,A,
Measuring the deposition rate of pure mtala fram. the vi.lrjr jpb-ise.
rovet. met. 38 no*9~,65-66 5 '65.
(MIRA 38:1.2)
- --- - - - . ft
LISOVSKIY.. D.I.; KMHAYLENKO, A.Ya.
Malting an electric are furnace charge adXture with coal~gypsum
briquets. Sbor. nauch. trud. GINTSVETNET no-33s67-82 160.
(MIRA 15:3)
(Electrometallurgy) (Briquets)
LISOVSKI .- MAUMDV.N.V.
WR
Pressing crown magnesite bricks with blind holes. Ogneupor7
21 no.5:229-230 156. (WBA 9:10)
(Yirebrick)
. I
ALIMOV, 0. D.; BASOV, I. G.; MALIKOV, D. N.; ILISOVSMp E. I.
Remlts of trials performed b3r a test crew on the RUP-2 coal
chute vids'nor. 'Ugol'.38 no.4-.41-43 Ap 163. (MIRA 16:4)
(Coal mining machinery-Testing)
LISOVSKTY, F. :'.
37589. Primeneniye platifiUlmi 'I dia-7,nostike k--rdiosp~Azr-4. Trudy tomskcgo mel. 11--t-;.
im. Molotora, T XV, 1949, S. 182-85.
SO: Letopis' Zhurna-llnykh St~,tey, Vol. 37, 1949
I
LISOVSM, F. M.
Lisovski.v, F. M,
"Duodenal Stasis in Lambliasis and Opisthorchosis.11 Tomsk State Medical
Inst imeni V. M. Molot6v, Tomsk, 1955. (Dissertation for the Degree of
Candidate in Medical Science)
So: Knizhnkva letopist, No. 27, 2 July 1955
-k.L2208-66" FBD/EWT(1)/EiC(k)aWT/EWP(k) IJP( 0 WG
ACC NR: AIP6020793 SOURCE CODE: UYV0386/66/003/0-12/0476/0480
AUTHOR: 1ds0VsLjX' Fe Ve t Monosovs )Lao Al
ORG: Institute of Radio Engineering and Electronics, Agademy gl-aclingsa-UM
(Institut radiotekhniki I elektroniki Akademii nauk SSSR)
TITLE: Retarded nonstationary reradiation of electromagnetic signals by a para-
metrically regeneiated ferrite
SOURCE: Zhurnal eksperimentallhoy I toereticheskoy fiziki. Pis1m& v redaktaiyu,
Prilozheniye, V. 3p no. 12, 1966, 476-48o
TOPIC TAGS: parametric amplifier) ferrite., parametric oscillator
TRA The aut hors report observation, for the first time, of nonstationary
ST CT:
P
parametric amplification of electromagnetic oscillations half the pump frequency
,V in magnetized ferrite. The instant of emission of the amplified signalwan de-
layed sorn.ewhat relative to the pump front. The experiments were made with single-
crystal yttrium-iron-garnet samples of 1-3 mm size and of various shapes (unfln-
i ished chips, discoje spheres). 7bey were placed In a cavity with Q - 600 tuned to
the pump frequency f - 9340 Mao. 7be signal of 4670 McB was applied and extracted
with a coupling loop. The pump power was 0.2-1-3 Wi, which in higher than the
threshold for parametric excitation of spin waves but insufficient for noticeable
Card 1/2
-66
L-32208
NR: AP6026793
"parametric regenertition of magnetostatic oncinations In the ferrite. The not~-
statiODOXY amPlific'StiOn took place at several fixed valusi of the magnetic field..
-ranging from I= to 2700 Ose 7he tests show that there exists a certain active
tAkes place
time inter4al c1bring vh1ch retarded rerildlatiOn at the SOM frOqUODCY
be,
in the presence of a signal of frequency f/2. No reradiation Is observed if t
Input signal,21es outside this active Interval. Xnaide the interval, iersdiation
Uok p3Ace at a delAWo:f about 80 psecl in the foris of a radio yolse with carrier
f/2 az-4 a steep'leading frot*. To observe the effect It is necessary that the
pA* be turned on continuously* The least interrtotIon of the pW proven a r*-
radiation* Me power gRinp defined an the ratlo, of the Mad-nme aivilitude of the
reradisted %%did pulse to the asolitude of the 1qput signalp fluctuated with the
1-w-111 toapaw
PURT POM f,7& 4 to 25 db,, the maxAmn gain c%Wz' Power of
wattse, The authors thank Professor V* Ve His"Idr continuous ftterest
V, P.,ftr b0p. vitb the aqwrlsentse.
in the work wA useful advicep and M.~ ~iffl
Orig. art..bas: 2 figures.
am DA7z AAyw&/',.i~` On
MM CODE 2q/
L-Cord
ACC NR, AP7oo353o SOURCE CODE:
AUTHOR:
_j~sovqkiy, F. V.,; Monosov, Ya. A.
ORG: institute of nadio Engineering and Electronics, Academy of Sciences SSSR (In-
stitut radiotekhniki i elektroniki Akademii nauk SSSR)
TITLE: Echo pulses in yttrium iron garnet
SOURCE: Zhurnal eksperimental'noy i tqoreticheskoy tiziki. Pis'ma v redaktsiyu.
Prilozheniye, v. 5, no. 1, .1967,,3-6
TOPIC TAGS: yttrium iron garnet, ferrite, radar echo, microwave component
ABSTRACT: The authors present results of experiments2aimed at observing echo pulses
in an axially magnetized ferrite parallelepiped, and indicating that the observed
effect is nonlinear. A single-crystal yttrium iron garnet in the form of a parallele- '
piped was used in the experiments. The microwave signals were fed and picked-off by
coupling loops comprising continuations of the internal conductors of coaxial cables.
The experiments were made at 1 GHz and the microwave-signal peak power ranged from
fractions of a milliwatt to hundreds of milliwatts. The ferrite sample was glued to
a brass plate, on the opposite side of which was secured an electroacoustic converter.
to apply lateral elastic oscillations to the ferrite. The magnetizing field was di-
rected along the largest axis of the parallelepiped. When the magnetizing field was
varied from 350 to 370 Oe, echo pulses are observed in addition to the exciting micro-!
'wave pulse. The observed echo-pulse duration does not depend on the duration of the
Card
NRs AP7003530 f
exciting pulse (if the latter exceeds 1 psec) and amounts to approximately 1 11sec.
The echo-pulse delay time-does not change when the duration of the exciting pulse is
varied from 1 to 20 psec. The delay time depends on the peak power of the exciting
pulse, rising from 1 to 4 psee as the power is multiplied 50-fold. The observed echo
pulses are strongly influenced by lateral elastic hf signals (f -a 300 kHz). By pro-
perly choosing the frequency of the external signal, the amplitude of the first echo
pulse can be increased by 10 - 15 db. A number of the observed characteristics
(range of magnetization fields in which the echo pulses are observed, strong disper-
sion, character of dependence of the delay time on the magnetizing field) are similar
to those of magnetostatic echo pulses, but other characteristics (independence of
echo-pulse duration of the duration of the exciting pulse, shift of echo pulse with
change in duration of the exciting pulse following its trailing edge) are unusual. it
is possible that the anomalous behavior of the observed echo signals is due to the
same causes as the nonstationary delayed re-emission. The authors thank Professor
V. V. Migulin for interest in the work and useful adirice.. and G. S. Mikhin for help
with the experiments and preparing the mock-up. Orig. art. has: 2 figures.
SUB CODE: 20/ SU13M DATE: 278ep66/ ORIG HU-. 0021 OTH REF; 002
Card 2/2
ACC NIR; Ar6o-, 054 SOURCE CODE: UR/0056/66/051/005/1288/12911
37
'-AUTHOR: Lisovskiyj F. V.; Monosov, Ya. A.
I ORG .1-nff1-,_ ~tute of:Radio Engineering and Electronics, Acadeqr of Sciences SS~R (in-
I I
istitut radiotekhnill i elektroniki Akademii nauk BSSR)
Nonstation ry delayed re-emission of electromagnetic signals from a ferrite in
the case of parame~ric regeneration I
SOURCE: Zhurnal eksperimentallnoy i teoreticheskoy fizikil V. 51, no. 5., 1966., 1288-
1291 1
TOPIC TAGS: ferrite.. parametric converter, yttrium. iron garnet, microwave oscillator,
spin wave
A3S7WCT: This ig ~!:a cont~muation of earlier work (ZhETF Pis1ma v, 3o 476, 1~66) re-
porting observation of nonstationary retarded re-emission of electromagnetic signals
by parametrical-ly regenerated ferrites. The present article describes the experiments
in greater detail and presents the dependence of the time characteristics of the pro-.;I
cess on the pump power. It is noted that there exists an "active" time interval after::
t
turning on the pump frequency) in which the presence of a. signal at half the pump fre- i
quency gives rise-to re-emission. The experiments were made with single-crystal yt-
trium iron garnet (YIG) with saturation magnetization 1750 G and a resonance-curve
width 2 - 3 Oe# The ferrite samples had various shapes and were placed in a resonatori
tuned to the pump frequency f 9340 M. Nonstationary delayed re-emicsion of the
1/2
ACC NR3
Z.~.'electromagnetic oscillations by the ferrite was observed at several definite values of
,.:"--Ithe constant magnetic field, the range of variation of which was 3.000 - Z700 Oe, irA
in a wide range of pump power levels. The pump power level was somewhat higher than
Ithe threshold of parametric excitation of the spin waves and much lower than the
threshold of the excitation -of magnetostatic oscillations in the ferrite. A selection:
phenomenon was observed, wherein the active interval was delayed relative to the pump
front by 1 - 5 psec, and the instant of the appearance of the re-emission relative to
the active interval- was delayed by 5 - 50 psec.' The results have also shown that. the
application of an elastic force on the sample affected the duration of the active in-
terval and the delak times. 2he authors thank Professor V. V. Migulin for continuous
interest in the work and useful advicep and also B. X Mikhaylov for help with the
experiment. Orig. art. has: 5 figures.
I.SUB COD:S: 20/ SM DAM 07MLY66/ ORIG PM: 003/ ON PM: 005
2/2
LISOVSKIY, G.A. [41sov'sligri R.A.], tekhnik-mekhanik; NUIFOROV, G.V.
-----------Rikiforov, R.Y.1, takhnik-mekhanik
qoupling for connecting damgad home. Mokhaill.bosp. 10
no.12:26 D 159. (MM 13:3)
(Home couplings)
N -
iUZh.j--_MOjS;rTr, G.A.. [Lisovelkyi,,
STORCM, -I,M,,
tekhnik-mekbanik
ROPair of R-40/75 hydraulic distributors* Nekh..zill. hoop.
11 uo,6:20-22 Je 160, (MIU 13M)
(Tractors-ftines-Valves)
GONCHAR,I. I.S.[Houchar, IJJ, nauchw sotrudnik; STORCUK, I.M.,
- nauchnyy ootrudnik;_I~S.OVS41Y, G.A. [2sovski7,_iH;Aj,
mekhanik
Special-aspects of repairing ISh gear pumps. Mekh. sill.
hoop* 11 no.10:9-12 0 t60. (MIRA 13:9)
1. Ukrainskiw nauchno-iseledovatellskiv institut mekhanizatsii
i 61ektrifikatsii Lel'skogo khozyaystva.
(Gear pumps--Maintenance and repair)
18
BOV/127-59-4-6/27
AUTHORS:- Akimov
in 9 Ye* To and Lisovskiy,G,D,j Mining
Bug eers
TITLE: A Comparison of the Exploitation Qualities of a
Sifting Grate With a Reinforced Concrete Slab
with a Slot. (Sravneniye ekspluatatsionnykh
kachestv grokhotnoy reshetki i zhelezobetonnoy
plity & propusknoy shcheloyus)
PERIODICALI Gornyy zhurnal, 1959, Nr 41 pp 35-37 (USSR)
ABSTRACT: Sifting grates installed on ore-chutes in under-
ground galleries were usually'put out of order
after a short.time by falling pieces of ore.
Their repair caused serious losses of working
time* VNIItsvetmet proposed to cover these
ore-chutes with slotted reinforced concrete slabs
which permit only pieces of ore of the prescribed
size to pass* Their installation was more ex-
Card 1/2 pensive than that of sitting grates, but on
SOV/127-59-4-6/27
A Comparison of the Exploitation Qualities of a Swifting Grate
With a Reinforced Concrete Slab With a Slot,,
the whole they proved to be more economical, as
no repairs were required for a long time. Thia
method is used in many mines abroad. Different
types of sifting grates were proposed by:
M.I. Agoshkov, M.Te. Mukhin and G.G.Petrenko.
There is I photo, 1 set of diagrams and 2
Soviet references.
A69SOCATION: VNIItsvetmet, Ust*-Kamenogorsk.
Card 2/2
S:;A'1.3~;LINIKCVt G.P., kancl,te!tlal,naiec;_,LISGVSI~lYI G.D.9 c;orn,inzh.;
A.11., gorn.inzh.;
Single-state inclined tuop alicing and eavin.- oystem. Go-.~-.zhur. no.6:
211-26 Je 160. (VJ:-.A 14:2)
1. Vaesoymnyy nauahnc-la~-Iodovatel skiy institut tsvetny'--h metallov,
Ust'-Kmonogorok (for Shal-ellnikov, Liaovskiy). 2. Salaizs%oye rudo-
upravloniye (.for hudenko, Lodyay%in).
(Minin- on-ineoring)
0 u
AKIMOV, YeT#j inzh,; LISOVSKIY G D inzhe
New methods for roofing ore chutes. Bezop. truda v prom. /* no. 5s22
My 160, (Mining engineering) (KIRA 14-0)
SHABELINIKOV ==2-L
., G.P.; LISOVSKIY, G.D - STAMMICH, I.M.; RUDEIZO, A.M.;
UMUYKIN, S-.D.,- ZEMUNOV,, V.P.
Testing a system of sublevel caving with breaking and drawing
of the ore in inclined layers. Gor. zhur. no.6:23-21+
je 16*?. (MIRA 15: 3-1)
-1. Vaesoyuznyy nauchno-issledovateliskiy institut tsvetnykh
metallov, Ust'-Kamenogorsk (for Shabelinikovo Lisovskiyj,
Stankevich). 2. Salairakiy rudnik (for Rudenko, ledyaykin,
zemlyanov).
(Salair region-Miming engineering)
SHKABARNYA.. B.M., insh.; SOIDVIYE;V, G.A.0 :Lnzh.; STANKEVICH, I.M., inzh.;
LIBOVSKIY, G.D., inzh.
I~- ~- "-Mllqzf
Using reduced diameter boreholes. Gor. zhur. no.8:74
Ag 164. OURA 17:10)
1. Salairskiy rudnik (for Shkabarnya, Solov'yev).
2. Vaesoy-uzriyy nauchno-issledovatellskiy institut tavetnoy
metallurgii (for Stankevichl.,' Lisovskiy).
IORN) S-T,.p kand.tekhn.nauk; MILICHENKO, D.V., kand.tekhn.nauk; LIS,OVSKIY,
kand,tekhn.nauk; MIMMOVP V.V., gornyy inzh.; RODIONOVA, N.P.,
goi;ij7- inzh* -
Reviews and bibliography. Gor.zhur. no.l.-78-80 Ja 165. (MIRA 18:3)
1, Vaesoyuzny-y nauchno-issledovateliskiy institut tavetnoy metallurgiip
Ust'-Kamenogorsk (for all except Rodionova). 2. Izdatellntvo "Nedra"
(for Rodionova).
LISOVSKrr, G. M.
I'Agrobiological Characteristics of the Poppy in Relation to Its Selection." Cand
Agr Scij Bashkir Agricultural Inst, Min Higher Education USSR, Ufa, 1955. M., 110 17.,
Apr 55)
SO: Sum. No. 704j, 2 Nov 55 - Survey of Scientific and Technical Dissertations Defended
at USSR Higher Educational Institutions (16).
Country : USSR 14
Category: Cultivated P~xnts- Comercial. Oil-Dearinr,-
Surgar-Zaar-*.ne.
;,bs Jour: IMIDiol.) Nu 11, 1958, No 49056
Author : Lis )vsAjXA-LjL-
List : Buhkir Agric - Inat
Title : Biology of Florescence in the Poppy in Bashkiria.
Orig Pub: Tr. Boalikirsk. s,ldi. in-ta, 1956, 7, 99-107.
Abstract: Hosults frora observations and tests) carried out
in the years 1951-1953 at the uchkhoz of the
Dashldr Agricultural Institute with the following
poppy varieties: Chishminskiy 171 (for oil) and
Tarbasatays1dy 20 (for opium production). The
poppy flowers alxays open in the morning hours.
Card 1/3
Country ; USSR Y
Category: Cultivated 113.ants. Comercial. Oil-Dcar-.~n(;.
Sugar-DearinG.
-49o56
4s:Jou.r.-,.I=DIoI
Tho.opening of:all plants takes 1-2 hours in clear
weather coijAitions, it lasts about 3 hours in cloudy
weather. 3-1; hours after the full opening, the
anthers.-no longor-contalWpollen and the arri-ial
of.-insecte~almdst~stope.--:Towards tho evening, the
petals'-are closed. They open- again:the naxt morning
and start:.to, fall~off at-the samo tim.' The fl overing
of'.a -,single -flower 2asts;12,;;14: hours ufidar'dry wnther
conditions.'~ 36-40 hours in.humid'46ather =d some-
tines . up to: 60 Iours *,, - For the whole pl--nt, the
corresponding number is 4-6 days. The min stem
flower of a plant is the first to open, then the
flowers on the side stem open in turn from the top
Card 2/3
m-132
0 -Y ~S-h-v y
11SOVSINly G,M.
-Iwft~
Abnormalities in the perianth structure of Papaver somniferan L.
Bot.zhur.42 no.8:1282-12a5 Ag 157. (MLRA 10:9)
1. Bashkirskiy seliskolrhozynystvennyy institut, Ufa.
(Popi3y) (Irfloreseence) (Abnormix1ities (Plants))
LISOVSKIT G.M. kand.seliskokhos.nauk
14ore about working up mathematical data from field experiments.
Zemisdelie 7 no.9!87-88 8 !59, (KIRA 12:11)
.1. Krasnoyareldy Sol lakokhozyaystveunyy institut.
(Agriculture-Axperimentation)
NMFOROV, G.,;- LISOVSKIY, G.
I-i~~
Sbarpening knoves of the cutter cylinder of SX-2,6 cozbines.
Tekh. -Y sellkhos. 20 n0-7:45-47 Jl l6o. (MIRA 13:9)
(Combiues (Agricultural machinery)-gaiutenance and repair)
LISO'VSKLI_,SL.M,r kand. eel I ekokhozyaystvennykh nauk; KOIDRATIM, R.B. ,
kan-d.sel'skokhozywystvennykh nauk
Conditions for determining volume weight in the evaluation of
griLin quality. Zemledelie 23 no.9:74-76 S 161.
(MIRA 34:12)
(Grain)
imm
LISOVSFIY, G.M., I-and.sel'skokhozyaystvennykh nauk
...... ----
Hard seeds in forage beans. Agrobiologiia no.1:147-148 Ja-F
,62. (MRA 13:3)
1. Krptsnoyerskiy sellskokhozyaystvennyy institut.
(Beans)
LISOVSKIY GA, otv, red,
[Controlled. cultivation of microalgae) Uprav4aemoe- kull-
tirovanie-milcrovodoroslei. Moslcvas Naukap 1964. 151 P.
(MIRA 17.n)
L Akademiya nauk SSSR, Sibirskoyi otdeleniye, Institut
fizikio
L 11549-66
ACC NRI APW5027 SOURCE CODE: Un/0103/65/000/001/009010090.
AUTHOR: Aleksandrpy, Be K.; Dormn, Be A.; Drozdavo No Go; Dubinskiyp Lo Aq
7-a1esskiy,,Ak'.'X.; Kamenskiy'-p He Do; Kozlovo Me Do; LJjQygkLy, G2_8j; Sinelobov,, K, Soj
Trebulev, P. V.; Uspenskiys Be 15.; Kheyfite,, Me Do; Shvetaov, Me A.
ORG: none
TITLE: Nikolay Mikolayevich Xr&ohkovskiy
SOURCE: Elektrichestvo, no. 1, 1965p 90
TOPIC TAGS: electric power engineering, electric engineering pers.ormel
A333TRACT: 'Brief bi;graphy of suojecAq a senior'scientific aisociate of
*the Institute of Power Engineering AS USSRj on the occasion of his 75th
birthduy an 18 Dee 64. He was graduated from the Leningrad Polytechnical
Institute in 1916. Worked for a number or -years in the planning, surveys
ing, construction and.operstion'of the first MY trsuAmiesion lines knd
substations; From 1922 to 1-92(1,-participate, in the planning and construe-
.tion of the first Soviet hydro(ilectric station (Volkor GES Im. Lenin) and
IM) ky transmission line. In 1.927-19329 designed 'transmission lines at
tho GET (State lltotrioal Uginsering Trust) and the Leningrad branch of
Duoprostroy. Chief of electric power end tronsisission station at Syerdee
lovokp Volgostroy and Leningrad,.Zaergoproyekt (1932-1938)1 simultaneously
studied 100--tycle carroat.foir AS USSR and. partitipated in planning the
Ku)tyah~v GES - Mdic_&-ir'ansmissic~ line-#' Worked at Leninjjrad-GidropiFo~;kt'untn
1947, and at Moscow Gidrenergoproyakt until 1955o Among the first to propose
L Card 1/2 MCI A21 31
L 11549-66
ACC.:. NRg AP6005027
converting the Kuybyshev - Moscow J~ne from 400 to 500 ky. An ardent advocate-of
d-c fcfr HV and EHV tranamission'o Authored over 73 scientific and technical articles,,
and two inventions# Awarded the Order of the Red Banner of labor and other
decordiones Orig, aA* has: 1 filpuv gm-9-1
SMI CODE 109 SUEM DATEs, none
/2
ccwd
AID P 4104
Subject USSR/Electricity
Card 1/12 Pub. 27 15/24:
Author' Lisovskiy, G. S.., Eng., Leningrad
N4 K44
"'
-
Title :tionzdiagr
ams of hydroelectric power
re
cir c co ec
stations. (Discussion of the article of N. N.
Os. I
.,.Krachkovskiy, this journal, No. 11, 1953 and N
6nd-5. 1955).
Periodical Elektrichestvo, 11, 7T-80, N 1955
Abstract The author is of the opinion that the selection of the
right kind of electric connection diagram of a hydro-
electric power station is one of the most vital elements
in designing such a station. He goes Into the details
of various types of connection diagrams and discusses
the merits and demerits of those presented by the author
of the article and of those presented In the discussion.
Tabulated data with types of connection diagrams and
3 connection diagrams are given.
ALEKSWROVt B.K.; DEPd,10, B-I,.; I)POZ"DOV, N.G.; DIJBINSYIY, L.A.;
21JUJISISKIY) A.I.I.; V-101SKlY, V.D.; KOZLOV, M.D.; L-~SOVSKIY) G.S.;
Sll~elf)BOVY K.S.; TRERILEN, P.V.; USPENSKIY, B.S.; "".D.;
SlIVETSOV . M.A.
Nikolai NikolaevJnh Yxachkovskii, 7.389- ; on his 75th birthday.
Elektrichestvo no.1:90 Ja 165. (MIRA 18:7)
e,;-. s-
284
I BOOK riglyi.01TATION
lektricheskoy
ektirovaniya e
SoveShchaniye elektrikoV P0 1100681i proy
.h.stj gidrostants:ly, 140500wo 1956 chastj gidroelektros-tantsiY
nij elektricheskoy elcspluatatsii)
Novolre v proyektirova niya po-proyektirovani'Yu I for Uydro-
erjaly.soveshch8 I pes:L,Sn of Rlectric EQUIPMent
t; Del ta of the Conference on Design and
~'N~ev velopments in the (Da 957, 222 P.
electric Power Plants, Gosenergoizdat, 1
operation)) MOscow-Leningrady
4,500 copies printed., r-ence): Vsesoyuznyy treat PO
SponsoVin& agencies (of confe: tantsiY I gidroelektrouZ10v;
ektirovaniYu gidroelektros IfticheskogO obachchestvB
proy, ye nauchno-teld
Mosj'~OVEjkoye otdeleni,, ticheskiY inBtJ-tut'
energ0ProMYBhlennosti' 14osicovskiy energe Ed. of the
DemkOv., Ye* D*,* Tech* Ed.; Fridkin, A.X*;
Ed.: Pineer -
Collection: Kheyfits, 144Fa.p Eng
orts are addressed to engineers
PURPOSE: These collected rep operation and maintenance
engaged in the design) con1struction, to students at power
of electric power Plants, Bs well as
card 1/9
New Developments in Design of Electric Equipment (Cont.) 284
engineering and electrical engineering Vuzes-
COVERAGE:: A conference o~C electrical engineers engaged in the
design, construction, operation and,maintenance of hydroelectric
power plants and electric power distribution systems was held in
Moscow from May 16th to May 24 1956. The nference was
yekt on Trust for the Design
organized by Gidroenergopro ' (All-Uni c0
and Planning of Hydroelectric Power Plants and Developments) in
collaboration with MONTOEP (14oscow Branch of the;'Scientific and
Technical Society of the Electrical Industry) and the Moskovskiy
energeticheskiy insitut (Moscow Power Engineering Institute).
Several related design organizations, as well as the Ministftes
of the Electrical Industry, of Electric Power Plants and of
Electric Power Plant Construction also participated. The reports
in this collection reflect the latest views on the design and
planning of the electrical equipment of hydroelectric stations
and on their requirements for equipment. Special attention is
given to problems.of-automation and remote control of stations
and systems '. These reports are concerned to a very great extent
with the descriptionvand appraisal of considerable quantities of
Card 2/9:
New Developmentoin Design of Elecixio Equipment (cont.) 284
Soviet- produced electrical equipment. There is a list of Soviet
personalities and organizationa which took part in the conference
(pp. 205-215). In several of the reports reference is made to
Soviet power engineers who have made important contributions in
the field. There are 34 references, of which 27 are Soviet
(pp- 157, 169p 197 and 205), three English, two Italian, one
French and one Swedish (p. 196).
TABLE OF
CONTENTS:
Preface 3
Usppnskiy, B.S. Recent Trends in the Design of Electrical
Equipment for Hydroelectric Power Plants In the USSR 5
Antoshin, N.N. Some Special Featuretv,,of the Electrical
Equipment of Foreign HydroelectricPower Plants 14
Venikov, V.A. Recent Trends in Stability Problems in
Long-Distance Electric Power Transmission 19
Card 3/9
New Developments in Design of Electric Equipment (Cont.) 284
Grudinsky, P.G. Fault Analysis in 110 to 220-1cv Power
Switchboards and Conclusions for Design Purposes 29
Lisovskiy, G.S. Main Electrical Connection Systems for
Hydroelectric Power Plants 35
Chumburielze, I.P. Main Electrical Connection Systems for
Hydroelectric Power,Plants and Substations 44
Karaulov, A.A. Alternating Current Requirements for
Auxiliary Power System of a Hydroelectric Power Plant 50
Nikolayshvili, M.S. Alternating Current Plant Auxiliary
Pnwer SyBtems for Medium Capacity Hydroelectric Fbwer Plants 58
Khey;fets, I.D. Standard Open-type Switching Structures for
35 to 220-kv Hydroelectric Power Plants 61
Zlobina, V.I. Electrical Equipment of Run-of-River Hydro-
electric Power Plant Structurea of Standard Design 69
Card'. 4/9
New Developments in Design of Electric Equipment (Cont.) 284
Gogue, L.K. New Standard 35 and 110-kv Stepdown
Substations 77
Dvoskin, L.I. New Designs in 6 to 110-kv Enclosed-type
Switching St,-i*uctures and in 35 to 400-kv Open-type
Switching Structures 91
Bykov, G.P. Observations on the Deeign of the
Electrical Equipment of the KakhovkR Hydroelectric Power
Plant 93
Oranskly, I.N. The Electrical Equipment of Hydroelectric
Power Plants Built on Irrigation Canals 95
Shakhov, G.V. Exberience in Operating the Electrical
Equipment of' the Krasnopolyanskaya Hydroelectric Power
Plant 102
Men'shikov, S.V. Experience in Op~rating the Electrical
Equipment of the Lenenergo System Hydroelectric Power
Plant 103
Card 5/9
New Developments in Design of Electric Equipment (Cont.) 284
Makeyev, M. Ye. Experience in Operat4ng the Dubossary
Hydroelectric Power Plant 105
Ratsbaum, V.D. Experience in Operating the Electrical
Equipment of the Farkhad Hydroelectric Power Plant 106
Kazaryan, A.As The Electrical Equipment of the
Tsimlyanskaya Hydroelectric Power Plant 108
Tsetlin, B.M. The Electrical Equipment of the Knyazhaya
Guba Hydroelectric Power Plant log
Kalina, M.F. Observations on the Design bf the UstL
Kamennogorsk Hydroelectric Power Plant ill
Zarkhi.,''M.I. Experiencein Operating.the Electric
Equipment of it Kolenergo System Hydroelectric PowerFlant 113
Sakov, A.D. Over-all Station and Individual Unit Control
Stations 116
Card 6/9
New Developments in Design of Electric Equipment (Cont.) 284
Khodnev,, V.V. Assembled Panel Structures for Automatic
Control and Protection of Hydroelectric Power Plants 118
Kheyfets,, I.D. Direct Current Requirements of Hydro-
electric Power Plant Auxiliary Power System 120
Uspenskii, Yu. M. Hydroelectric Power Plant Relay
Protection and Au.tomation System Operating on Plant
Alternating Current 126
Neyman,- V.A. Assembly of Hydroelectric Power Plant
Electrical Equipment and Requirements for Improving
Planning and Estimates 131
Petrov, B.M. The Automation of Water Wheel Generator
Units 133
Losyatinsklly, A.Z. Improving Design and Equipment of
Water Wheel Geneitator Unit Automation Systems on the Basis
of Experience in Operation, Maintenance-and Adjustment 139
New Developments in Design of Electric Equipment (Cont.) 284
Pokrovskly, B.M. The Question of Doing Away with High-
Speed Gates in Hydroelectric Power Plants 147
Rosman, L.V. Some Problems of Generator Excitation in
Completely Automated Hydroelectric'Power Plants 148
Krumina, V.A. Automation Devices at the Keg3paskaya
Hydroelectric Power Plant and Experience in Their Operation 158
Barkan, Ya. D. Possibilities of Automation of Voltage
Control and of Reactive Load Distribution in Electric
Power Systems 1 159
Fedorov, B.A. Main Tendencies in the Automation and
Telemechanization of Electric Power Systems and Hydro-
electric Power Plants 170
Dorman-, B.A. Hydroelectric Power Plant Staff and Operating.
Pe~!?Bonnel 174
Antoshin, N.N. Assembled Switchboard Structures in the
-USSR and Other Cot;mtries 185
Card 8/9
New Developments in Design of Electric Equipment (cont.) 284
Ramendik, E.B. Standard Substations to Meet Temproary
Electric Power Requirements at Hydroelectric Power Plant
Construction Sites Sy-hopsis of Addressee Made Concering
the Reports 205
Resolution Made by the Conference 215
List of,.Organizations Participating in the Comrerence 223
AVAILABLE: Library of Congress (TK1081-S651956)
JJP/kav
7-30-58
Card 9/9-
LISOVSKIY, G.S.,. inzh.; USPERMY, B.S., dots.; KHEIMITS, M.E., Inzh.;
SMOMIMN,. M.I., Inzh.
On the article *Arrangement of the main step-x;p transformers in hydro-
,--*3.e 4PU. W- Ilek. sta. 30 no-3:91-93 Mr '59.
:power r3tation
(MIRA 12:5)
Ollectric transformers)
LISOVSKIT, Grigoriy Semenovic),; U14ANSKIY, Boris Zinovlyevicb;
KHEYFITS, Mikhail
Emumanuilovich; SHUNIWVSKOAp I.F.8, red*
[Electrical section of hydroelectric power stationaj
principal schematics of electrical connections]
Elektricheakaia chast' gidroelektrostantaii; glavwye
skhemy elektricbeskikh soedinenii. Moskva,, Energiia,
1965. 367 P. (MIRA 16:7)
LISOVSKIY, h,
~LL_i ~-imz
Pickup @tacker for placing hay on drying racks. Tekh.
v selikhos. 20 Tio-7:27-28 JI ,6o. (KIRA 13:9)
1. IeniWidekiy sel'skokhozyaystvennyy institut.
(Hay--Drying) (Ioading and unloading)
VILIKOUKATA19 Te.M.; rALIYOVSKIY, D,$,; MGANOV, A.A,.; DOBRTAXOVA. L.I&,-
MMOCHKIVA. Z.V*,- LISOVSKIY, I.I.
Synthetic drying oils* Patent UsS.S.R. 77,050, Dele-31. 1949.
ACA 47.no.ig-.10244 153)
wim- RIPI WMMIMZW-WRT~i M RN am W-42-~
GIJUGUNOIVI L,F,p inzh;; LLSIOUKIY,-~ inzki.; Ylat"112IN) V.A., Lnzh.;
KUMEKfIGV, B.S. T ["f~GIJS, N.G., Inzil.; FRIV.0KOV, N.A.,
kand. tekhn. nauk
Technical progresn at the "Molibden" Mine. Gor. zhur. no.9:6-10
S 165. (MIRA 18:9)
1. Tyrnyauzskiy vol'fi-arr.-.o-mo1RxIenovyy kombinat (for Chugunoirp
Lisovskiyj Yarmizin, Kumekhovp Vergus). 2. Imst'.tut gornogo
dela im. A.A.Skochiriskogo (for Krivenkov).
KOBAKRIDZE IV. N. ; LISOVSKIY
Work and plane of the miners of Tyrnyauzb Gor, zhur. no.32:7.-
10 D 161, (MIRA 15:2)
1. Direktor Tyrnyavzs~Dgo kombinata(fccr &:)bakhidze). 2. Nachaltnik
rudnika"Mblibden" Tyrnauzekogo kombinati (for Uaovskiy).
(Tyrnyauz Region-44ining engineering)
., ~ ~ , , ~: I I~ ;, z ,
LISOVBKIY, I.T.
PA" , W, - ~~ I "I -
[Safety engineering in agriculture] Teich-aika besopasnosti v sellskon
khosiaistve. CLeninqfad] Ioaningradekoe gazetno-zharnalInce knizhnoe
Isd-vo, 1955 46 p. (MLRA 9:11)
(Aogrl;ulturo--Safety measurea)
LISOVSKIT, I.V.
[safety engineering in agriculture] Takhniks bezopasnosti v
sel'okom khoziaistve. Izd.2., perer. i dop. Lenizdat, 1958.
74 P. (KIRA 12:3)
(Agriculture--Safety measures)
i UM _" I z~ t~., t~~ 5 1~ C : I
T IT .
LISOVSM KITSP B.M.
Device for the formation of air channels in hay bales.
Zhivotnorodstvo 23 no-5s52-54 My 161, (PIRA 16:2)
1. Leningradakiy sel'skokhozyayotven rary institut.
(Hay-Harvesting)
GILENKOP A.; 4pqVSKIY. K.. red.; MEYSAKI N., rd.; PADERIN, G.,
red.,rfO_SffL_OV, -G.,-red.; SELIgINA, D.G., red.; GOSTISHCHEVA,
Ye.M., tekhn. red.
NWR505" sails to KuYumbal 505 idet Y Kuiumbu. Novosibirsk
Novosibirskoe knizhnoe izd-vo, 1962. 86 p. (MIRA 16:7~
(YenigiV Valley%--Inland navigation)
TAURRI, Frants Hikolayevich;._L1SOVSfjj7 -h red.; IZYSAKj R.,
1, .-j,-
red.; FADER.H1, G., red.; POSPELOV, G.s, red.; SELIKIVA,
D. G., red.
[Bright oil] Svetlaia neft'. Novosibirsk, Novosibirkoe
knizhnoe izd-vo, 1963. 39 p. (MIRA 17:4)
LISOVSKIY. Kazimir Leonardovich
(Stars of distant roads; travelogiie2ij -Zvezdy dalln1kb
dorog; putevye achorki. Krasnoiarskf Krasnoiarskoe kWzhnoe
izd-vo, 1964. 70 p. (MIRA 18:4)
LIZOVSEIY. ISesimir Leonidovich ~i
------
[Siberia's morning) Utro Sibiri. Moskya. Profizdat, 1959.
117 P. (Siberia--Description and travel) (mna 14a)
I
/I
LISMSYM, L. P.
Inst. Pbysiest Moscow state Univ.t Lab OscillabiOnsf _1939-
"0n Dry Friction Forceept, Wk. ANj, 24, No. 2v 1939;
"On the jerUy CWeLcter of Frictiowl Forceoll Zhar.
Fis. Khjz.v 2, No. 3t 1940-
83264
S/lo9/6o/Oo5/oo9/olo/o26
E.14o/E455
AUTHOR: Llsovskly,_6p,
17~
TITLE% Experimental Study of a Backward-Wave Tube with
Inhomogeneous Delay System
PERIODICALs Radiotekhnika i elektronika, 1960, Vol.5, No.9,
pp.1442-1447
TEXT: Experimental work was carried out to determine the
possibility of employing inhomogeneous delay systems to broaden
'the band of oscillation of backward-wave tubes. The work also
indicated, for example, the required precision of production of
the delay system. The double-comb delay system studied is
indicated in Fig.l. A ribbon electron beam, passed through the
system in a longitudinal solenoidal focusing field and was
almost completely located on the delay system. The z-varying
parameter was the height of the tube h. Four experiments were
carriedout: 1. A BWT with constant tooth-height 170.
2.. In the same tube the combs were machined so that the tooth-
height at the end near the gun remained as before, while the
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