SCIENTIFIC ABSTRACT LOZGACHEV, V.I. - LOZHKIN, A.V.
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Collection:
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CIA-RDP86-00513R000930620015-5
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RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
August 23, 2000
Sequence Number:
15
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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Body:
39004
S/057/62/032/008/013/015
B104/B102
AUTHOR: Lozgach-v V I
TITLE: Theory of molecular currents at low pressures. I. Flow of
a rarefied gas' through tubes with diaphragms
PDRIODICALs Zhurnal tekhnicheskoy fiziki, v- 32, no. 8, 1962, 1023 - 103.1
t
TEXT; This flow iu studied on the assumption that the mean free path of
the molecules is longer than the dimensions of the tube. Neglecting
adsorption on the walls of the tube and assuming uniform temperature
distribution on them the outflow of the gas from a cylindrical tube of
length 1 with circular openings s I a`nd a2is studied. Thereby a re-lation-
ship id established between the molecular density decrease along the wall
and the penetration probability of the molecules through the tube in
direet and reverse direction.
6al 4s (R - 2r) - X12 (R - (24)
Card 1/3
S/057/62/032/008/013/0'15
Theory of molecular currents..* B104/B102
is obtained where
pr (1),
2, R A,= 1 r2r
S2 8
!1 2 �2 11
L
A, 1 -4- P!~ B, =
s2 a NJ a
a, s2-4# C2 s2 sl -4s
C' s2 2, at 2s
Wj(l) and W2 (1) are the penetration probabilities of a molecule from a
to s or in reverse direction, r is the radius of the tube, r are the
2 1,2
radii of the tube openings s 1 and B2* This formula holds for long tubes;
it is modified for short tubes and a further relation is obtained for W
which makes it possible to calculate the penetration probability of a
moleoule through a tube systems There gko 9 figutod and I ldbl~*
ASSOCIATIONs Vaesoyuznyy institut minerallnOgO 8yrlya Moskva (All-Union
Institute of Mineral Raw Materials, Moscow)
Card 2/3
Theory of molecular.ourrentss*o
SUB14ITTED: August 5, 1958 (initially)
Juno 9, 1961 (after revision)
Card 3/3.
-9/057/62/032/008/0-13/015.
B100102
LMGACHEV, V. I.
Distribution of molecular beams on a plant duriN evaporation
in a vacuum. Zhur.tekh.fiz. 32 no.8.-1032-1022 Ag 162.
(KM& 15:8)
1. Vaesoyuznyy institut minerallnogo syrtya, Moskva.
(Molecular beams)
LOZ=HW, V. I.
Theory of molecular beams A low pressures. Part 1. Flow of
rarefied gases through pipes with diaphragms. Zhur.tekh.fiz.
32 no.8:1023-1031 Ag 162. (HIPA 15:8)
1. Voesoyuznyy institut minerallnogo syrlya Moskva.
(Iblecular beams) (Gas flowl
Theory of molecular flow. Part 2. Passage through vessels of
arbitrary shape. Zhur. tekh. fiz. 32 no.9:1123-1133 S 162.
(MIRA 15:9)
Vsesoyuznyy institut minerallnogo syr!yap Moskva.
(Molecular beams)
n- ag- -
S/076/63/037/003/011/020
B1 01/13215
AUTHOR: Lozggaghov
Lwl -I
TITLE:
Effusion method for measuring vapor pressures
FERIODICAL-- Zhurnal fizicheskoy khimii, v. 37,,no. 3, 1963, 644-646
TZ(T.:' It is'suggested that the approximate equations of H. L. Johnston,
A. R. Spaiser:(Trans. Amer., Soo. Metals, 42, 281, 1950) and M. G. Kossman,,
1. Jarwood (J..Chem-Phys. 1,.1406, 1953) be replaced by an improved
t 4
.equa .4on to eliminate errors in vapor pressure measurements by effusion:
p /p (aftf),~(a)j where a is the condensation coefficient, f = s /S.
0
eff
s- surface ofou tlot, S - surface on which the vaporization process i
0
takes place; ov(a) is the probability that one particle leaves the surface'
and enters-the vacuum, averaged over the entire vaporizer surface.
1/(l,+:I/r)', where 1 is the length of tube, holds for K. The X
cal-,cul-a--t.ed-,f.'Qr-,di-fferent--I/~r values,ar,~_ in good-aGreement with the data-
~'known;from p .ublications. The.equation suggested.above is applicable for
--:-various outlet sizes.- --There are,: 2- figures and -1 -tableo
C;-
rz
LOZGACHEV (Mosk7a)
Methods of measuring the pressure of vapors of law-volatility
subotanaes.' Izv. AN SSSR. Otd. tekh. nauk. Met, i topl. no-4:31-
38 J1-Ag 161. (MIRA 108)
(Vapor pressure)
(Volatility)
Mft~. M"
X-- ON
-Q 11
I F4~1
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i 13 03 2 3
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fQr deLe=iP.:n,,! naj ,a
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rc- K orop,- r! y ph%,- ~L r - -c ii:- r-~/ w, r,, pre~s~~re -ress
re s c 0 e ie s 5 E
a-vallable on thig problem, partly dueto the comple)dtv and cost of the necessary
ACCESSION NR: AP5001523
it-n Aln experimental model wag built at the. GrnznensK-Iv nr-P, nv institut
tnstitute) rind (7 q
rpsults with this devico and, r r ~z %I, h in. A no il d c,: a r,,
,Ml Of whien property ahould be ta-kt--n i~F, a mf-a..;urp -if ho )ardm,.R8 rorks
-'refieures Orig
art 2
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DSTINOVA, T.S.-; LOZGAOEWA. IV.A.
Mechanism of gonotrophic harmony in the common malaria mosquito
(Anopheles maculipennis Mg.). Zool.zhur. 32 no.6:1178-1188 R-D '53.
(MI-RA 6:1~)
1. Ratomologicheekiy otdel Institute. malyarii, meditainakoy parazitologii
i gellmintologii Hinisterstva dzravookhraneniya SSSR. (Mosquitoes)
M
SIYDNYANTS, L.Ye.; ZIIIX)BlNo'KlvA, B.A.i IOZGhGIIFV. Ye.G.
The effect of plasticlV on the disintegration of rocks.
lz,v. vys. ucheb. zav.; neft' i gaz 7 no.3:19-23 164.
(MIRA 17.6)
1. Groznenskly neftyanoy institut.
2w
7
,31
SMILGAjYa.(SmilgaqJ.j(Riga); LOZHAgV.[Loza,V.I(Riga)
Hemolytic tent for the ftagnonla of leptoppiromis, In fhwaian,
Vestis Latv al, no.M159.162 160. (MU 100)
1. Ilmdamiya nauk L%tv$yqkoy 6ORl InoUtut mikrobiologii.
(=~OLYSIS AND NWLTSINS) (LEPTOSPIROSIS)
6~~ksndidut takhnicheekikh nauk.
Increasing the output of vool-carding machines. Tekst. prom. 17
iko.7,.29-32 J1 157. (KMA 10:9)
(Carding machines) (Wool carding)
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Translation from: Befortitivnyy zhurnal, Geologiya, 195,1, Nr 1,
153 (USSR)
AUTHOR: Lozhechkin, M. P.
TITLE: The Principal Faults in Exploratory Work and the
Determination of Nlineral 1-7teserves (According to Data
from GKZ)(?) Z-osnovnyye nedostatki rabot po razvedke
i opredeleniyu zapasov mestorozhdeniy poleznykh isko-
payemykh (Po mterialarr, GKZ)7
PERIODICAL: Sov. geologiya, Nr 49, 1955, pp 11-20.
ABSTRACT: The author remark,-, on the inadeqt~.ate study of the
geology and tiale structure of mineral deposits and
adjoining districts. This lak;k is reflected in the
absence of detailed geologic, geologic-structural,
and morphological map's and it is thus impossible to
appraise the prospects of a deposit or properly to
direct prospecting and exploratory work. He also
~3 comments on the inadequate coordination of geological
Card 1 exploratory work and the absenee of composite studies
The Principal RLults in Exploratory Work (Cont.)
15-57-1-958
on deposits and districts; the inadequate stud of the possibiliti-es
of composite use of the mineral raw materials Tof components and
elemental admixtures), the absence of techniques for determining
the density of points in an exploratory net for exploring the limits
of the deposit; the absence of comparative data on exploratory work
and actual production; the -inadequate use of rapid methods for
analyzing samples to obtain preliminary data on the content of
useful components in the ore3 (a failure which leads to excessive
loading of the chemical laboratories); the insufficiently broad use
of geophysical work and the lack of direction in applying the
results that are obtained. Drilling operations are not always
carried out in sufficient volume and are commonly characterized by
poor quality (low core recovery, extensive curvature of the drill
hole, lack of sampling muds). During a number of exploratory
operations on particular deposEts, mining operations were not
considered, thus making it impossible to judge the internal
structure of the ore bodies and the variations in thickness and
content. The technical study of mineral raw materials often lags
behind exploration and delays the industrual utilization of deposits.
Card 2/3
The Principal Faults in Dcploratory Work (cont.)
Proper attention has not yet been given to the establishment of
correct conditions. Reports are extremely cudbersom,'.i. In the study
of a majority of deposits, there is no general plan for geological-
exploration work, and this lack increases the time required for
exploration, adds to the difficulty of discovering the general
prospects for the deposit, and leads to excessive outlays of
capital.
Card 3/3 A. P. P,
LOZHEC.H.KO, A. , -
Golden earv-of corn in the Moscow region. Nauka i zhisn' 30
no.5:26-28 My 163. ~MM 16:10)
ACC NRi SOURCE CODE: UR/Oiij/66/OOO/O12/Qol6/ooi8
'AUTHOR: Belen1kiy, Yu. B. (Candidate of technical sciences); Imasheya, N. P.;
Furunzhiyev, R. I.; Lomako, D. H.; Lozhechnik, F._D.
~ORG: Belorussian Polytechnical Institute (Beloruaskiy'politekhnicheakiy institut);
'Minsk Automobile Plant (Minskiy avtozavod); IM AN BSSR
iTITLE: Effect of the damping properties of a tire on the vibration parameters of an
:automotive vehicle
ISOURCE: Avtomobillnaya promyshlennost', no. 12,1966, 16-18
PIC TAGS: machine vibration, vibration damping, tire, vehicle engineering
1ABSTRACT: A method is proposed for calculating the effect which the improved'damping
properties of modern low-pressure multi-ply tires have on the vibration parameters of
a motor vehicle. The mathematical analysis is based on the dynamic models shown in
Figures 1 and 2. Figure 1 represents an oscillatory two-mass system while Figure 2
is the dynamic model of a two-akle vehicle.' The "Blektron" analog computer and the
"Minsk
1 -2" digital computer were used for solving the following system of differential
equations describing the oscillatory motion of an n-axle vehicle:
~
Card uDc: 629.113:629.11.012.5.001.5
x
ACC NRs
Card 2
Fla
Fig. I
&I Irk
N--Tcg-
14 4
All.
Fig 2
Fig-~ 3
+ P1 + PJJ) 0;
+
At (Fit + Pit + F1J) 0;
Y1 71 (Fit + P12 + PIA + Fit + pit 1= 0,
where i=l, 2,,.., n is the ordinal number of the axis (n-2 for a two-axle vehiclo);
P. , P. , P. are the characteristics or Lite elastic element, shock absorber and con-
11 12 1,3
ventional. "dry friction" unit; F.),, F. are the elastic and damping characteristics of
the tire. The forms of the tire characteristics are shown in Figure 3. A dynamic
model of the MAZ-500 truck was selected as the object for study. It was found that
raising the dampingicoeificient of the tire increases additional power expenditures
on vertical oscillations'of the vehicle. Computation or the power dissipated by the
tire should be done in conjunction with calculation of the vibration parameters of the
vehicle. The resultant data may also be used for evaluating the thermal conditions of
a tire. Orig. art.'has: 5 figures.
SUB CODE: 13 SUBM DATE: None
L-Card 3/3
SOV/137-57-6-9945
Translation from: Referativnyy zhurnal, Metallurgiya, 1957, Nr 6, p 88 (USSR)
AUTHORS: Baranovskiy, M.A., Lozhechnikov, Ye.B. __Y A
TITLE: Effect of Speed on the Deep Drawing Process (Vliyaniye skorosti na
protsess glubokoy vytyazhki)
PERIODICAL: V sb.: Mashinostroitell Belorussii. Nr 1 (2), Minsk, 1956, pp
43-46
ABSTRACT: An investigation is made of the effect of speed (S) upon the draw-
ing (D) process when the forces are brought to bear by impact. The
material employed is Nr-10 steel, of 0.5, 1.0, and 1.5-mm thick-
ness. The dies used are 10 to 100 mrn in diameter. Curves show-
ing the relationship of the reduction ratio to the die diameter at var-
ious deformation 5 are presented. A fixture for determination of DS
is described. The reduction ratio is not dependent upon the S during
a single pass. In subsequent operations, if large objects are to be
drawn without a hold-down, high S may also be employed. The
temperature to which the item is heated in high-speed D impairs the
conditions of lubrication and is inadequate to eliminate the work-
Card 1/1 hardening of items made of steel. A.M.
17Z
OV':
SOV/ 137-57-.10-19133
Translation f rom- ReferativnyV zhurnal, Metaliurgiya, 1957, Nr 10, p 100 (USSR)
AUTHOR- Lo zhechnikov Ye. B.
TITLE: Influence of Speed on Deep-drawing Pro~.ess (Vlivanive sko-
rosti na protsess glubokoy vytyazhki)
PERIODICAL: Sb. stud. nauchn. rabot. Belorussk. poli'tekhn. in-t, 1957,
Nr 3, pp 9- 10
ABSTRACT: Drawing without a hold-down is performed on a vertical
impact-testing machine with a maximum rate of motion of
7.65 m/sec, and on an IZh-50 hydraulic press at the usual
speede. An increase in speed during the first pass has a verm.-
negligible effect upon the reduction ratio. A point of inflection
is, found on the graph of reduction ratio versus die diameter
owing the conditions under which the use of a hold-down is
cessary.
i
M.Ts.
Card 1 /1
SOV/ 137-57- 11-21347
Translation from: Referativnyy zhurnal, Metallurgiya, 1957, Nr 11, p 101 (USSR)
AUTHOR- Lozhech
TITLE: An Investigation Into Certain Questions of Plastic Deformation
(Issledovaniye nekotorykh voprosov plasticheskoy deformatsii)
PERIODICAL: Sb. stud. nauchn. rabot. Belorussk. politekhn. in-t, 1957,
Nr 3, pp 17-19
ABSTRACT: Experimentally determined relationships between unit pres-
sure in metal flow and the volumes of the specimens are
adduced. These data may be employed in determining charac-
teristics required for deformation of equipment.
Ya.O.
Card 1/1
LAPIF. N.A., inzh.; LOZUCfMIKOV, Ye.B., inzh.
Standard ty-pes of multiple-bucket loaders. Stroi. -i dor. mashinostr.
3 no.9:13-15 S 158. (MIRA 11-10)
(Road machiner7)
LOZHECHNIKOV. Ye.B., inzh.
The D-415 tractor-drawn multiple-bucket loader, Stroi* i dor.
mashinostroi. 4 no*3:17 18 Mr 159. (MIRA 12:4)
iRoad machine%7)
MLI
LOZHF.CHNIKOV, Ye.B., inzh.
bucket loMers. Stroi. i dor.mashinoRtr. 4
no.6:38-39 Je '59. (KM 12:8)
(Barthmoving machinery)
J.
14(2),12(4) 3 Oil/ ;::)0 -59-5 - 8/1-4
AUTHOR., Lozhechnikov, Ye.B.,
TITLE: Self-Propelled Loaders
PERIODICAL: Mekhanizatsiya stroitailstva, 1959, Nr 5, PP
ABSTRACT: The article gives a list of tha 6Xistj!?,9 type.'i of 3irgle trackell self-
propelled loaders and a list- of se;lf-pi,opelled loader,;:Z
showing the technical chara,~teris-.-Ics of each typs of loader. It
further describes the latest typ~z of loaders p:~-~~aaed 'iyj t-lie prLrlcipal
Soviet Plants: 1) Kharfkovskiy za-vod doz-oz1 .rrjkn mashLn (0_ar'ko,.r Road
Nilding Machine Plan-IV,) s6vlal ")f the- loading bi.Aildozer
D-443 designed for taking 10 diffare"it typop-3 of mouqted eq:_-ipment.
2) Berdyarskiy zavod do:?o-_h_-,ykh R)aft D;ild:Lng Machine
Plant) has completed tests of a sing.le bu,,~ket '*~ract"Dr -L~ype 1,)P-der D-1151
1 4.
(illustrated on front cover) whiQh li-~ a de,,~eIc-pment, of the D-380; t'
has the back axle of the chasuis ZIL-150 with -::--!1coil tires 12-20; t1he
front axle is from t1he ohassis ZIL-15-1; tte geaz, i)ox is fr~;m the eilassis
GAZ-51 and the cardar shafts from tno ch-a-zlLs s;~-..d Zn'-115D. The
loader D-451 carl take 13 d_fffarant t~rTez: of mountE!d _4-,(--1ud:Uig
3 different sizes of bucke-ts, '2j Br-
y~c skiy zq:-,-%)d dr,-:)z:-~ykh mashin
Card 1/2 (Bryansk Road Building MaohLna Plant has stai-t-nd p::,c>t_r..LrAg self-propelled
Seg-f-r-Propelled Loaders
multi-bucket Joading tra:3tnr D-415 w'L' mi-xi-ng mar.;hi-o-- D-370 and drying
dnim D-381. The'D-415 is da3ired in .cl a Way az t-:~ ',,a able to push
mixer and. drum in front of it; tLa '11.-.-,adin~, t~-a;.--tnr 1'. P. of
A-3 a , s in,.-.'ive
loader D--371 being equipped with. a fliasf-- di t
feature of the D~-415 sbpu-,d be r--onalder,~!d 'Lhie of
the elevator on the oha~rziis,'whieh adjusts '.'.o tLrt proftle, of the
ground indapendenl;ly of t2he, posit"Icc-A off the ftnski-y --avod
"Udarnikn .(Minak a loader mounted
on the chassis T-166M, which '% intrfadsd v-hiefly-fcz, t-vilcading PR plat-
forms: it is equipped wIth a worm fjl~~tdez,, a b-uckfst &Ia-7ator a-rid a revolving
belt, conveyor. -~'-166M hari tc-o".Pt. aijd wnctz. driva. A new -t7jpe now
being designei 'd will be the D-4,P2 4n1f.!h, 13 a of the D-451. The
Plant, tArned oiat experimental ri--cd.als of type D--:353; which is similar to the
T-166M, but equipped with Diesel slec:t---i-:, d:47,,t.
Theie are: 4 photos, 2-iables and 2 Sc-viet
Card R/2
GATOV, D.M., inzh - LOZHZCHNIKOV Ye.B.. inzh.
lkl~~~-
Mesel-electric bucket loader. Mash.Bele no.6:29-32 159.
(Conveying machinery) (MIRA 13:6)
S,
VOWHEK,iYa,A.j I13ZHECHNIKOV Ye.B BERNSHTEYN, H.D.; BAZANOV.,_A.F.P
9 - It#
kand. te~Z "uki,-1vtoensent; OTDELINOV, P.V., red. izd-va;
GORDMVA, L.Z,,.-tekl*. red.
[Automotive loaders) Samokhodnye pogruschiki. Moskva, Goo*
nauchno-tekhn. izd-vo mashinostroit. lit-ry, 1963o 242 po
(MIRk 16:6)
(Loading and unloading-Equipment and supplies)
S/250/63/007/001/004/005
A0061A~Ol
AUTHORS: Severdenko, V. P., Lozhe
v
TITLE: Distribution of specific pressure over the'grip arc in rolling
iron powder strips
PERIODICAL: Doklady Akademii nauk BSSRY v. 7, no. 1, 1963, 27 - 29
TEXV: If the distribution of specific pressure on the rolls over the
grip are is known, the resultant of metal pressure on the rolls and its loca-
tion can be determined. These factors are required to calculate the working
stand the transmission and power of a rolling mill drive. Iron powder strips
were dolled on a special rolling mill with 180 mm diameter rolls. The roll bar-
rel was 180 mm long. The mGtor power- w as 13 k4. The rolling speed was 0.055 m/sec.
A special roll with an incorporated dynamometer was used to determine directly
the distribution of specific pressure, The BM(BM) powder employed was additionally
reduced at 800 0C, in dissociated ammonia atmosphere. The powder was rolled to
0.8 - 1.47 thick, 90 mm wide strips of 6.3 to 4.5 g/Qm3 density. The pressure of
the-powder on the rolls was non-uniform. Initially pressure increased smoothly
Card 1/2
ri Y
C
n t S/250/63/007/001/004/005
Distribution.of specific pressu:Fe over... r AOo6/Aloi
from zero to a given value, and"rpse then to a maximuT.-The drop of pressure from
the maximum to zero was even moFe.abrupt over an are corresponding to angles
1020 1'- 2030'..Comparison tests,show that in rolling iron powder to 0.8 - 1.47 mm
thick strips, the maximum specitip': pressure over the grip are is 20 - 25% beloK
that of strips.pressed to analogous density. There are 2 figures.
ASSOCIATION: Fiziko-tekhnicheskiy.institut AN BSSR (Physical Engineering
Institute of-AS BSSR)
SU13MITTED: October 16, 1962
L -16612-63 -EWP(k)/Pa(q)/EWT(m)/13DS -AMcAsD - Pf-41 MAW
S/250/63/007/004/005/005
AUTHOR: geverdenkq, V. and Lozhechnikov, Ye.
.,,.TITLE: Forwardslip in rolling powdered-metal strip
rERIODICAL.- _Akademiya Nauk PSSR. Doklady. V. 7, no. 4, 1963, 244-246
TEXT: Forward slip inthe rolling of powdered-metal.strip was investigated on a
special rolling mill with rolls with diameter of 120, 150, and 160 mm,, of 4oKhN
i-1 depeiidj,~-_om~ t-h- e--,-d- ensi- -
tb - stripi increasing as_--~It Increase -as -the roll-Aiameter- increa-
ses, forward.slip increases. In cases-where powdered-metal strip is rolled with one
.'-roll,working and the other idle, forward :slip differs for the working and idle rolls.
The,authors experiments revealed that forward slip for theworking roll when rolling
T
an iron-powder strip increases,from 0.43% for strip density of 5.5--6.5 9/cm3 to
ld'. for strip density 0f.7--7.2 glCM5,, for the working roll. The corresponding figu-
res for the idle roll are from 1.5 to 5 7%, respectively, When rolling copper-powder
strip, however, the forward slip forte; working roll changed from 0.01 to o.o2%,
and for the idle roll, from 0.75 to 1.57%.
Card 1/2
LOZHECHNIKOV, )~evgeniy Borisovich, kand. telchn. nauk; NEKHAY,
V.T., red.'-
[Production and use of ceramic metal articles in the
manufacture of machinery; methodological instructions and
lectures on the course "Processing and use of now mate-
rials in the ranufacture of machinery" (topic no.l)l Pro-
izvodstvo I. primenenle metallokeramicheskikh izdelii v
mashinostroeniii metodicheskie ukazaniia i lektsii po
kursu "Obrabotka i primenenie novykh materialov v mashino-
stroenii" (tema 1). Minsk, Izd-vo I'Vysshaia shkola," 1964.
55 Po (1141RA 17:12)
SEWRDENKO., V.P.; LOZE-l*0HflI.KQV, Y9.13.
Lnera in the rolling of a powder metall at.-'-. 7;
I p
no.11:77-,:-778 14 163.
.1. rizikc-tekhnichealdy institut AN Wzlit i E~~Ioj, Ici I texh-
nichealdy institut. y
1-54
ZT-
L AP40490;8 'J -.j V '.' j0 0 8 8U'.~ 9
e- v f r~_~ n kF Lo z 'i e'ch nj o vYe D -ejamoy
T"7LF: Rolling SAP foil directly from powder
I ~ - 1~ I ~ i 4
SOURCE: Tsvetnywye meLafly*, no. 11, 1964, 88-90
TOPIC TAGS: aluminum powder, APS-1 'aluminum powder, SAP strip, SAP
foil, SAP strip rolling, SAP foil rolling, optimum rolling technology
A~lSr~:.ACT: T-To variants of making SAP strip and foil directly from
aluminum powder have been tried, In the first variant, green strip
was railed wi~a the powder and rolls at room Lemperature. The highesL
density of green strip (2.35 g/cm1) with no breaks or cracks was a
achieved by rolling at a speed of 0.055 m/sec and a gap between rolls
(the strip thickness) of 2.3 mm. In the second variant, the powder
was preheated to 450-500C, and the rolls and bunker wers kept at
100C. High-quality strip with a density of 2.4 g/cm 3 was produced
at a rolling speed of 0.023 m/gec. lict-rolled and cold-rolled strips
;~'e :-.,? rolled into foil, up to 150 u thtck, w, th a 10~ max reduction per
p:,s,-z dnd with process annealing at 450C after each pasa. 1he foil
Card 1/2
..... . . . . .
ACCESSION HR: AP4049078
had a density of 2.8-2,9 g/cm2 and a tensile strenzth of 5 kg/mm2
Anneal!ng of the st .ripat 600C fcr 3 hr befnre final rolling
~~asec the tensile iltreni-,:-~ it 7_~.le ~,-i ' ~_' I I;, - , ~!J' imirlate
otnerwise woul,! Gccur
and flaking which in hizh-tem 'perat,.;re
nnealing. AnnealLng at 600C for 3 hr
c.-Use- r rvstalltzation in the
-oil and a further decrease in tensile strenath-K--o-3 kz:/,nm'. The
'e-7'~-101ozv recommended for rollinR APS-1 aluminum u)owder into SAP
15f) U thick -on 9 ~ 9 n D c. e r
abour 2.5 MM thi ck , a r.:. e 31rl ;z a 3 r ani_~ r. a
7iz. with a 1OZ max reduction e r s s 'i r,:, c e 5 5 a n. n e a I i n g
a :&.r each pass F o 11 u p t o 1 vmm wiue ano seve ral meLers loag was
the same technolog, 4. art. t"as: r e
ASS,.-~CIATTON: none
S'_~641TTED: 00 ENCL. 00 SUB CODE:
n4
NO REF SOVi 007 OTHER: 001
ATD PRESS: 3147 vff~
Card
Ma
MN~Wks
ACCESSION IIR: AP4049065
bands and c-ym-sactz
cf S h a s
A - 5 __1 1~
`~~r ynir
of strip.
DOWders, the energy Ja kilowatts consumed for rolling 1 ton
figures and 7 formulas.
zh. -3 11 r g 3
ve rd-enk
7 . IFT,
g AJ,
-ED SOUPCE: Tr. 7
Vses, nau::hno-te~hn. k-~)nfer--~rrqi i -k)(. rret,311,jrg,
Tests are des c- r j r-, Pl
Ll I
Ff.
71 W
IX', I 17 7: 1P. ~ IV 'band. tekhn. nauk
`~jlm.;"atlng stresses on the r-unri-ing rart of =Itilucke
las4a-lB. 3troi. 1, dor. mash. 9 nc.) :16-17 Ja 16.14. ~MIPA 18:7)
SIOLMVA# L* (MakboolovWdya); JDZIIEK, Vo7en 17 P, Vol (Owww1maldyn)
Strutigraphic and pn1coclirmtIc significance of Qmter.-zx7
fevail noila in central Europe, Biul, KrAm, chetv. per. no.30:
26-46 165. (P-M 19:2)
Nt
:8.0
SHOSTAKOVSKIY, M.F.; VLASOV, V.M.; LO;,rENITSYNA, A.S.- GAVRIIJOVSKAYA, A.A.
Y
Synthesis of primary-tertiary acetylenic 6-glycols. Izv. AN SSSP.
Ser. khim. no.4:709-712 165. (MA 18:5)
1. Irkutskiy institut organicheskoy khimii Sibirskogo otdeleniya
AN SSSR.
X
S/169/62/000/009/049/120
D228/D307
AUTHORS: Vanlyan, L. L., Morozova, G. M. and_Pzh=i_U ~~aL~.V.
TITLE: Theoretical curves of the induced polarization method
PERIODICAL; Referativnyy zharnalg Geofizika, no. 9, 1962, 39, ab-
stract 9A261 (Geologiya i,geofizika, no. 10, 1961,
118-123)
-TEXT: The induced polarization phenomenon is considered as a qua-
sistatic process, describable by Laplace's equation. Electric di-
poles, arising within a polarizing body under the action of the
field current, are presumed to be the.sources ofthe induced po-
larization's emf. When calculating theoretical curves, a chan6e is
made 'from-'the volume distribut -ion of secondary dipoles to the sur-
'face distribution of charges. The main quantity studied in induced
.polarization vertical electric sounding is the apparent polariza-
bility lapp- lapp is calculated on the basis of the formula given
for its magnitude (which is correct when the polarizability values
Card 1/2
S/169/62/000/009/049/120
Theoretical curves of ... D228/D307
of separate beds are low); the calculation's basis is the expres-
sion of the subintegral function through hyperbolic cotangents-.
The theoretical curves of lapp9 computed from the derived formula,
are compared with the corresponding ourvee of vertical electric
sounding. It is noted that the curves Of lapp Po asess.s. high re-
solving power. ~_Abstracterls note: Complete translation--7
Card 2/~
ta
_4 'K,
VANIYAN, L.L. ; MOROZOVA., GJI,; LOZ9ENLTSYNA, 1,3'.
Frequency sour4lrg above an anisotrop-lc be.-I. Truay ins'.. --ol.
I goofiz. Sib. otud. Al ~ISSP, no.3~,:60,75 l6i.. %~MTMA 18%4)
VAN I YAN $ L. L. ; MOROZOVA., G. M. ; ~~~ ~LV ~
Theoretical curves of the induced uolarization ethod
Geol.i geofiz. no.10:.U8-123 #61. ' ~MIIFA 1~4:12)
1, Institut geologii i geofiziki Sibirskogo otdeleniya a SSSR;
Novosibirsk.
PolarizatiolofElectricity))
"i -,z
SHMMIMO, V.M., inzh.; LOZHESMIIK, T.K., inzh.; ASKINAZI, Z.H.,Inzh.
Improved nethods of removing samples of oils and fate. Jfasl.-zhir.
Drom. 24 no. 6:41 '58. (HIM 11:7)
1. Knybyshevskiy chirovoy kombinat(for Sheredeko, Lozheshnik).
2. Laningradakiy zavod "Selolin" (for ABkinnzi).
(Oils and fate)
MZHESIINIK,V.K,., Ime'll.
Deodorizing whale fat before hydrogenation. zhir. provm.
21 no.12%36 & 161. (1 a-RA 1-4 !2)
1. Ku-.bysbevskiy zhirovo kombinat,
r-M-
LOZFIESHNIK, V.K., inzh.
Def&tterLing of technical phosphatides in ISA,3 separators.
Haol.-zhir.prom. 28 no.906 S 162. (MIRA 15:9)
1. Kuybyshevskiy zhirovoy kombinat.
(Phosphatides)
GLkDKAYA, V.F., inzh.; KOZHEVIIIKOVA, I.M., inzh.; LOZHESHNIK, V.K., inzh.;
KAPLUNOV, S.Z., inzh.
Processing of whale oil. Masl.-zhir.prom. 29 no-11:43-46 N 163.
(IAIU 16:12)
1. Ukrainskiy nauchno-issledovateltakiy institut maslozhiravoy
promyshlennosti (for Gladkaya, Kozhevnikova). 2. Kuybyshevskiy
zhirovoy kombinat (for Lozhashnik). 3o Kitoboynaya flotiliya
"Slava" (for Kaplunov).
220), 6(1) SOV/176-58-7-7/24
AUTHORS: Lozhko, K., Guards Colonel; Komarov, P., Guards Lieutenant
Colonel; Lozhichevskiy, A., Guards fiajo:L-
TITLE: The Radio Training (Area) i5 the Foundation of the Training-
Material Basis (Radiopoligon - osnova uchebno-materiallnoy
bazy)
PERIODICAL: Voyennyy avyazist, 1958, Nr 7, pp 20 - 24 (USSR)
ABSTRACT: The authors describe the equipment and operating procedures
of a radio training (area) located about 10 km from the
permanent quarters of a Signal Corps unit of-the Soviet
Army.- The radio statiDns used for training are operated
from shelters and trenches. The training ground is
operated from a central control point from which all radio
stations receive instructions. The switchboard used for
this purpose is shown in Figure 1 and its circuit arrange-
ment in Figure 2. For creating combat-like conditions,
Card 1/2 a jamming transmitter is used, consisting of a SO-241
SOV/178-58-7-7/24
The Radio Training (Area) is the Foundation of the Training-Material
Basis
master oscillator, a SO-257 power amplifier and a
SO-257 modulator. The soldiers undergoing training
are billeted at the training ground. Class-rooms for
theoretical instructions are also available. There are
2 photographs and 2 circuit diagrams.
Card 2/2
LOZHICHLT.TKIY, A. A.
The planning and preparation of metal molds Mo.-;kva, Gos. naucrinc;-tekan. -Jzd-vr,
mashinostroit. lit-r..., 1951. 241 p. (52-19098)
TS240.L7
LOZHICFEVS0, A. S.
YetalUcheskie modeli. Moskva, Mashgiz, 1949. 293 p. diagrs.
Bibliography: p. 292.
Yetallic patterns.
DLC: TS240.L69
SO: Manufacturing and Mechanical Engineering in the Soviet Union, Library of
Congress, 1953.
LOZHICHEVSKIY, A. S. and M. E. ERSHOV.
Proektirovanie i izgotovlenie metallicheskikh form. Moskva, Mashgiz,
1951. 241 p. diagrs.
Designing and manufacturing metallic molds.
DLC: TS240.L7
SO: Manufacturing and Mechanical Engineering in the Soviet Union, Librar7 of
Congress, 1953.
PHASE I BOOK EXPLOITATION lop-6
loozhichevskiyl Aleksey Simonovich
Metallicheskiye modeli; proyektirovaniye i izgotovleniye (Metal Patterns; Desiga
and Fabrication) 2d ed., enl. Moscow, Mashgiz, 1958. 349 p. 6,ooo copies
printed.
Reviewer: Sergeyev, V.S., Engineer; Ed. of Publishing House: Sirotin, A.I.,
Engineer; Tech. Eds.: Gerasimova, Ye.S., rova, A.F.; Managing Ed.
for literature on heavy machine buil-14- (Mashgiz): Golovin, S.Ya., Engineer.
PURPOSE: This book is intended for engineering and technical personnel in
foundries and pattern shops as well as for students of teknikums and vtuzes.
COVERAGE: 'The book contains the fundamentals of design and manufacture of cast-
iiag equipment. The engineering considerations for design and the special
f4atures of constraction of various equipment are discussed. The organization,
equipment and tools of pattern shops, the development of techniques, and the
manufacture and putting into operation of casting accessories are also dis-
cussed. No personalities are mentioned. rniere are no references.
Card 1/4
Metal Patterns (Cont.)
TABLE OF CONTENTS:
lo26
PART I. EESIGN OF CASTING ACCESSORIES
1. 7x-.sim of Mold Assembly 3
Type of mold 5
Placement, of the casting in the mold and parting the mold 6
Gating system and pouring technique 9
Mold ventilation 11
Number of cores and their fixing 12
Shrinkage and allowances 37
Pivparation. of draving of a mold assembly 41
Casting accessories 42
Dasign of castings 50
2. Design of Casting Accessories 50
Pattern plates 50
Patterns 50
Pattern plates for flaskless molding 61
Pattem plates for making molds using flasks 72
Pattern plates for shell molds lo6
'Core boxes U5
Gas outlet plates 153
Yetal, Patterns (Cont. )
io26
Shaped dryers and drying boards
Core fitting fixtures
Gages for core inspection
Assembly tools .
M sks and jackets
Pressure boards
Bottom boards
Engineering considerations for design of casting accessories
PART II. OWAXIMMON AND THCHNIQJUH PF KOWACTURE
OF CASTING ACCESSORIES
1. Organization of Yanufacture of Casting Accessories
2. Equipment, and Tools of the Pattern Shop
3. Development of Technique' -
Group I - Pattern plates
Group II - Core boo-.s
Group III- Core fitting fixtures
Group IV - Types of drying boards and dryers
Group V - Flask accessories
card 3/4
155
161
173
176
181
201
206
206
220
PPP
237
247
247
247
247
247
Metal Patterns (C 1", . )
lo26
4. Manufactixre of Worxlen Patterns
5. Casting Parts of the Ce.-iting Accessories
6. Special Feat-ares of Manufacture of CAsting Accessories
Marking
Machining
Bench work
Motmtl--zig the p1n;;;as for molding the cope and drag halves of flasks by
dmy,rlft~~
Ypunt-Ing the, pip;!;,--s for molding the copes by drawing and the drags by
revol-eing
Mounting the p3".--s for molding the copes and drags by revolving
7. Inspection of Completed Casting Accessories
8. Setting up Casting Accessories and Butting Them Into Service
AVAILABLE: Library of Congress
Card 4/4
GO/fal
1-16-59
270
272
276
276
287
292
310
316
317
340
342
PETRUNIN, A.M.; LOKTIONOVA, N.A.; ALITMAN, M.B., rukovoditell raboty;
Prinimali uchastiye: LOZHICHEVSKIY A.S.; SHKROB., V.A.; POSTHIKOV,
A.S.; ARBUZOVj B.A.;--PKNT2ffffO-!A, r9:':, POBOCHINA, T.V.;
PATRUSHEVI L.M.
Mastering the production of large A18 alloy castin s. Alium.
splavy no.U150-159 163. ~KM 16:11)
LOZHIKOVA, K.
E#and the utilization,of waste wood as a f'qel a~d a source of
chemicals, Gidroliz, i lesokhim.prom. 14 no-3:29 161.
(MIRA 14:4)
(Waste wood-Congresses)
LOZHIKOVA, K.V.
At the All-Union Council on the problem of the utilization of
pentosan-containing raw materials. Gidrollz,, I lssokh1m.prou.
13 no*7:30 460. (NM 13:10)
(Wood-Chemistry) (Pentogans)
n,P
lAnPIK0%. K.V.
l,for the exah~nge of experience.in the
First. intA., k6tbry athoo
fodder yeast. iidustry, Gidroliz. i le'SO)OUm. prom. 14 no.8t
29-30 161. (MIRA 1611l)
:)f the
-;r: ~~ac. r) z.
G d 1 1
17
N".
EM _R
-A 1. 11 "1 1., U P", a .4 1 f u
410
A
0 & o 0 0 6 0 0 0 0 0 0 OTW-
T.
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-00
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00 A j
- us in ft a cako-r~ from swur N. N. poly'.
M ft C
kov and A
P
b .00
4
.
I .
.
- Ckw. Ind- (
.S.S.R.) 17,
WW1940)-L;S0hm- 0t K&,AAO after use cm.L~
.00
tab, COUQUIL6
solm. are evaPd
fil 1o -t2. of Na.SA and NSXN. Thm
. at 400-500 sm. aW 80,-90s, t, d. 145 see
Zee
tered wW cool ed rapidly t, 15-20'. They give 80~1
their ~~M-StW cwt9- 2-37, NSCN &W 0." acW,
Also, recrysta. from VoO. the Na..W
is Q
0e
s
,
purco with loss g( a turtha 10% in the total yield. C
H. Af. Leicester coo
ASIIII-SLA UTAILLIMCAL LITINAIMI CLAMPKAY10111
coo
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too
slam W.Ow No*
d is A a I -ow a. v -5-1 Is*
Aft A I V N 0 4 1 1 is Of 9 10 4 3 9 1
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3,
iUTHORS: Lozhkin, A. F., Subochevap N. L. BOV/156-58-2-45/48
TITLE: Reduction Burning of the Chiatury Manganese Ores by Means
of Gases (Vosstanovitelinyy obzhig chiaturskoy margantsevoy
rudy s pomoshchlyu, gazov)
PERIODICAL: Nauchnyye doklady vysshey shkoly. Khimiya i khimicheskaya
takhnologiya,11958, Nr 2, PP. 381 - 384 (USSR)
ABSTRACT: For the production of artificial manganese dioxide (iskuset-
vennaya dvuokis' margantsa - IDM) oxidized manganese ores
are subjected to a reduction burning in periodically
fed furnaces. Usually solid fuel (coke, coal) is used as
reducing agent. The reduction of pyrolusite aims at the
formation of compounds which are easily soluble in sulfuric
acid. In order to intensify this phase of operation and to
establish a continuous process burning tests of the ore
were carried out by means of solid fuel, hydrogen and generator
gas. The results may be of interest for plants disposing
of gas - reduction - apparateso Table 1 shows the analysis
of manganese ore of different fractions, figures 1-3 illustrate
Card 1/4 the results of the burning tests. The data of figure I give
~2
Reduction Burning of the Chiatury Manganese Ores by SOV/156-5c3-2-45/48
Means of Gases
Card 2/4
evidence of the important role of the volatile coal components
in the reduction process. At 500 - 6000 a relatively
calm precipitation of the volatile substances in a nitrogen
atmosphere takes place. In this connection hydrogen, methane
and other hydrocarbons have time enough to enter inter-
action with pyrolusite~ Above 6000 a violent precipitation
of the volatile substances from the coal takes placed In
some cases they have no time to enter the mentioned inter-
action. This fact probably explains the smaller degree of
reduction in the range of from 600 - 8000 (Fig 1). An in-
crease of reduction in the range of from 800 - 10000 is ex-
plained by the acceleration of the reduction process. Figures
2 and 3 show that the degree of reduction caused by hydrogen
increases with the increase of temperatureq with the con-
centration of hydrogen and with the duration of the action.
Table 2 shows results of experiments with ore picked out
according to fractions graded with a 1 mm interval. They
agree with the rules of diffusion kiuetics~ The following
conclusions may be drawn from table 3; 1) At a temperature
of 7000 in the reaction zone and in the case of a duration
Reauction Burning of the Chiatury Manganese Gres by
Means of Gases
SOV/156-58-2-45/48
of the processing of approximately 2 hours a small excess
of the reducing gas guarantees a high degree of reduction
of pyrolusite of the 1-2 mm. fraction. The introduction of a
burning process into a mobile layer under a counter flow of ore
and gas makes possible to reduce the burning time by 3-4
times as compared to the periodical feeding of the furnace. It
establishes favorable conditions for the mechanization and
automation of this phase of operation. There are 4 figures,
3 tables, and 3 referencesq 2 of which are Soviet.
AS30CIATION: Kafedra tekhnoloeii neorganiolieskikh veshchestv Permakogo
gosudarstvennogo universiteta (Chair for the Technology of
Inorganic Substances of the Perm',~~P,,te University)
SUBMITTED: December 13, 1957
Card 3/4
Reduction Burning of the Chiatury Manganese Ores by SOV/156-58-2-45/48
Means of Gases
Card 4/4
R
5(1,2) SOV/153-2-4-32/32
AUTHORS: Lozhkin, A. F., Subocheva, 311. L.
TITLE: Reducing Burning of Pyrolusite by Mlears of Gases in a Mlovable
Layer
PERIODICALt Izvestiya vyashikh uchebnykh zavedeniy. XhImiya i khimicheskaya
tekhnologiya, 1959, Vol 2, Nr 4, pp 642 - 646 (USSR)
ABSTRACT; The usual industrial method of the above mentioned burning
of manganese ores in the production of synthetic man7anese
oxide shows considerable shortcomings. In order to intensify
this process, this way of burning was investigated by means
of hydrogen and generator gas as reducers in a stationary as
well as in a movable layer. The gaseous phase is supposed to
play an important role in this process according to P. V. Gelld
and 0. A. Yesin (Refs 1,2). Reduction takes place without
previous dissociation according to Ye. P. Tatiyevskaya, G. I.
Chufarov, and V. K. Antonov (Refs 3,4). It is certain that
the 1AnO 2-reduction by means of0COTor H2 proceeds quickly and
completely between 527 and 700 . he reaction products CO 2' H20,
and MnO are formed. The authors determined the reduction rate of
Card 1/3 manganese ore depending on the burning conditions in special
R
Reducing Burning of Pyrolusite by bleans of Gases SOVI-1155-2-4-52152
in a Movable Layer
experiments. Table 1 shows the technical analysis of the ore
of Chiatura, table 2 shows the reducticn results according to
layers. It can be concluded from table 2 that the increase of
the linear gas speed from 0.7 to 4.2 m/min causes no noticeable
variation of the reduction degree in the first layers. The
redaction rate of pyrolusite, however, increases considerably
with the linear acceleration of 'the gas current. This can be
used for increasing the capacity of the apparatus (Fig 1). it
may be assumed that under stationary conditions the layer ex-
tension with a constant reducing degree is numerically equal
to the rate of ore advance in a movable layer. If a direct
dependence of the height of a layer with a prescribed reduction
degree on the burning time is assumed, -the shifting rate of
this layer can be determined from the relation
U = H (4); U = height of an immovable layer in cm, T
T
burning time in minutes. In order to examine these data, a de-
vice (Fig 2) was set up by which corresponding results could
Card 2/3 be obtained (6). Table 3 shows resultso'A similar experi-
~W'
Reducing Burning of pyrolusite by Means of Cases SOV1153-2-4-32132
in a Movable Layer
ments with generator gas. Hence it may be concluded that the
reduction degree of pyrolusite increases with an increase in
the coefficient of gas supply (6) (Experiments 1-3). In order
to attain a degree of 90-95% of the reduction, a small excess
of reducing gas is necessary as compared with the stoichio-
metrical one. It can be maintained that the reduction period
with this method takes only 1/3 to 1/4 of the time used in a
hearth furnace with solid fuel as reducing substance. Intensi-
fication of the usual process and establishment of favorable
conditions for its mechanization and automation are rendered
possible by the method suggested. L. S. Buloshnikov and M. I.
Yakovleva cooperated in the experiments. There are 2 figures,
3 tables,and 7 Soviet references.
ASSOCIATION: Permskiy gosudarstvennyy universitet; Kafedra tekhnologii ne-
organicheskikh veshchestv (Perm, State University; Chair of
Technology of Inorganic Substances)
SUBMITTED: March 25, 1958
Card 3/3
LOZHKIN A.F.- FECHKOVSKIY V.V.; SUBOCHEVA, N.L.
Y 31 .9
Effect of additives of some potassium compounds on the reduction
process of barites. Uch. zape Perm, g9a, un, 17 no,1:55-60 160.
(MIRA 14:11)
(Barlto)
(Potassium compounds)
LOZHKIN., A.F.; SYCHEVA., T.V.; SIZENKOV, V.G.
Rbducing_firing of natural pyrolusite in a tubular revolving fur-
nace* Ucho zaps Perm.'gos. un. 17 no.1:97-102 160.
(MIRA 14:11)
(Pyrolusite)
'YM
pFCMoVSXjY, V.V.; -SUBOCHEVA., N.L.
FormatioE 6f araid-soluble barium compounds in the reduction
Toasting of barit,4e Izv# vyss ucheb. zav.; khim. i khim.
tekh. 4 no., 2:242-246 161. (MIRA 14:5)
1. Permskiy gosudaratvennyy universitet im. A.M. GorIkogo.
Kafedra, tekhnologii neorganicheskikh veshchestv.
(Barium salts) (Barite)
LOZHKIN,, A.F.; PEECHKOVSKIY, V.V.,- SUBOCHEVA, N.L.
HeducUm firing of granulat94 barite concentrates. Izv.vjs.
ucheb.zav; khim.i khim.tekh. 4 no.5:832-836 161. (HIM 14:11)
1. Permskiy gosudarstvennyy universitet,, kafedra tekhnologii
neorganicheskikh veshchestv.
(Ba,tite)
V W"K
7
--iUZ-,nh-Lhj, A. i._ , LIOC!'LOT O-E TeCli. L3c -1. r.)17 L lie f,;e-ntr aj. -1-310-iler T a rb-iri-e -Lnst .
"With the Increased Importance of Gas as a Power Fuel It was Becoming
Possible to Construct Heat and Electric Power-Stations with Com]bined Steam/Gas
Installations and That by Using the Steam/Gas Cycle the Amount of Electricity
Generated In Connection with Heat Supply Could be Increaaed by 30 50%."
All-Union Conference on the Future Development of District Heating in the USSR,
11-13 July 1958~ Moscow,
(Teploenergetika, 1958, No. 11, pp. 90-92)
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14ZIT'll', A. 11.
"Binary Installations," 1-bscow, 1946
LOZUT, TIT 7
Binary vapor installationsl working process and construction of the equiFment.
Y.oskva, Goo. nauch.-tekhn, izd-vo moBhi-nostroit. lit-ry, 19~,6. 2282 D.
(49-22579)
TJ780.L6
- - -
Heat transformers. MoGkwa. Goo, fiauch.-tekhn. lzd-vo mELshinostroit. lit-ry, 1948.
198 p. (49-29749).
TJ266A6 CTY
Opt T
.A.L
4
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so
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0
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Amd-A a-- cme-gag
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ODMWZX PRESSM. LozW4n* A.N. and Golltmant A.B.
Go,
(gotloturbostroonle (Boiler and Turbine Manuf.), lrov.4)ec.
1948, 11-16)o Theoreticall y ImetIcatoe the above. Shove
mee
offootivomoss of owbialng the gamus and vater-vapour
coo
phases In a elftle cycle In a power Instopl2ation. Ifflolency
and soomW of operation of different types of such
Fee
installations a" oompaW. (L). D.L.R. Woo
TALLIONCKAL LIT940041 CLASSIFKATION
L A N
too* SIV,4524wa
%old** 410 ORV cot
U1. .. 5 W .. 4 f I . I a
_jb USA410 0 Pro& It & K a a 9 a 4a, ny
Is
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400,
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all All Go Ofty As'i
IN
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0 ~000*40
e 0 0 0
so A
KORNEYEV,'M.I., kand.takhn.nouk; SaONOY. N.I., kand.toklm.nauk;
LOZHKIN 04 1.. doktor takhn.nauk, red.; GONCMOV, N.G.,
Te"~. r ~ a -a- -
[Steam-gas power plants and prospects for their adoption
into Soviet power engineering] Parogazovye energoustanovki
i perspektivy ikh vnedreniia v anergetikLL SSSR. Pod red, A.N.
Lozhkina. Mosk7a, Gos.nauchno-tekhn.komitet Soveta Ministrov
SSSR, 1959. 45 P. (MMA 12:12)
(Electric power plants)
77~
:?5SX-,
RINI,
LOZHICIN, A.Y., ddktor tekhn-nauk, prof.; ZELENIN9 V-M-t kand.tekhn-nauk
Using nonjustable steam extraction in sms,11 and medium-sized
turbines for district heating purposes. Inergomashinostroenie
6 no.5:14-17 W 16o. (MIRA 2.3:9)
(Steam turbines) (Heating from central stations)
1 5 iA
RM
AITDRYUSHCHENKO, Anatoliy Ivanovich; LAPSEOV, Vital-A'.Y Nikolayevich;
LOMINI A.11., prof., doktor tekhn. nauk, retsenzent;
G.G... red.
(stean-,-gaa systems of electric power plants; thermodynamic
and technical economic analysis of operating cycles and
thermal networks] Parogazovye ustanovki elektrostantsil;
termodinamicheskii i tekhniko-ekonomicheskii analizy tsiklov
i teplovykh skhem. Moskva, Energiia, 1965. 246 p.
(MIRA 18:3)
MGM
,S5
-07349!-~!
--A 1/~688/60887-
SOURCE CODE: U 0 13
(A)
AUTHORSt Lozhkin., A, Nq Petrichenko, a. M. 57
ORGz none
TITLE., An assembly for utilizing the exhaust heat of an internal combustion engine.
Class h61 No. 180433
SOURCEt Izobroteniya, piromyshlennyye obraztsyt tovarnyye, znaki, no. 7, 1966, 88
TOPIC TAGSt heat transfer in rarefied gas, aerodynamic heat transfer, heat exchanger
heat energy conversion, heat effect
ABSTRACTt This Author-Certificate presents an assembly for utilizing the exhaust
heat of an internal combustion engine. The assembly contains a steam generator
placed in the strewn of exhaust gases and in the water cooling circuit of the engine,
and an ejector absorbing'tho gases from the engine through the steam generator by
using the steam produced in the generator. To increase the power and improve the
economic efficiency of the engine) a heat pump is placed in the stream of the exhaust
gases between the steam generator and the ejector. It converts the heat energy of
the gas into pressure energy for increasing the compression behind the ejector and
~or lowering the pressure in the exhaust pipe of the engine. To decrease the size of
Card 1. UDCi 621.41.066.3,-J
L 0?349-6
ACC NRs AP6012164
0
0
4
r4 a)
tko I I
C', M
the assembly., the steam generator may be made in ~he form ofaseparator with a'
throttle. Orig. art. has2 1 figure.
SUB GODEx 13/ SUBM DATEs 28Dec64
I Card 212 afs
I ACC NRi AP7002599 (Al iv SOURCE CODE: UR/0423/66/000/0;-3/0107/0108
INTENTORS: Lozhkin A, It.; Petrichenko R. M.
ORG: none
TITLE: An assembly for supercharging a diesel engine. Class 46, No. 18921j.8
SOb-RCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 23, 1966, 107-
108
TOPIC TAGS: diesel engine, supercharged engine, supercharger, turbine
ABST11ACT: This Author Certificate presents an assembly for suporcharginE: -- diesel
engine. The assembly contains a turbine keyed to the exhaust collector for driving
an air compressor-which feeds air to the engine cylinders (see Fig. 1). To increase
the operating economy, a vapor separator is installed in the engine coolir4,c system
:Converted to provide an open high-temperature cooling. This separator feeds the
:vapor to the exhaust collector so as to produce a vapor-gas mixture feeding the
iturbine. A reducer may be placed between the turbine and the engine. This reducer
I
.has a variable transmission ratio and changes the turbine rpm according to the load
Ion the engine. The assembly may be provided with a regulator for optimal operation.
:This regulator changes the transmission ratio of the reducer according to the fuel
iand power consumption.
Card 1/2 UDC: 621.
N~
ACC NR: AP7002599
Fig. 1. 1 - turbine; 2 compressor;
3 - vapor separator; 4 - exhaust
collector; 5 - reducer; 6 optimal
operatiofi regulator
Orig. art. has; 1 figure.-
SUB CODE: 21/. SUBM DATE:. 09Sep65
2/2
Him
LOZHUNj A~V*
History of the development of rellef wW the age of allu7ial
sediments in the Fromezhutochn.T.* Creek basin (Indigirka. River
system.) Trudy SVKNII no*3:37-52 1639 (MIRA 17tl-'L)