SCIENTIFIC ABSTRACT KUZNETSOV, A. L. - KUZNETSOV, A. N.
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Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R000928110015-4
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RIF
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S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
June 20, 2000
Sequence Number:
15
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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61191.,)
S/096/60/000/011/003/018
E073/F-135
Increasing the Power of a Gas Turbine Installation by Injecting
Water into the Combustion Chamber
the drop in temperature tj in the case of a constant power
output Cidling~ nominal r.p.m.) as a function of the amount of
water in4ected into the combustion chamber.
0
There is 1 figure.
ASSOCIATION; Nevsk17 mashinostroiteltnvv zavod
(Nevsk Ingineeri wor
Card 3/3
~17
26530
s/114/61/000/009/001/002
E194/E435
AUTHORS- Kuznetsov, L.A.7 Candidate of Technical Sciences
Kuznetso-v. A.L., Engineer
TITLE- The influence of cooling on gas turbine zharacteriatics
PERIODICALt Energomashinostroyeniye, 1961, No,9, PP.5-8
TEXT. Gas turbine performance is improved by raising the inlet
gas temperature which. in modern gas turbines, is 650 to 825*C.
To achieve these temperatureathe blading is made of expensive
scarse material or cooling is used. Cooling complicates
,~.-)nstru;--tion and gives rise to additional losses but reduces the-
demand for expensive scarce material or permits of higher gas
temperature. ' Significant temperature increase can only be
secured by cooling all the parts of the flow path including the
blading, Cooling gives rise to additional lo3ses be7.ause:
thE gas temperature is reduced and so it :,an do less work;
the cooling agent (air) must be compressed)- regenerative air
heating is reduced be--ause the gas is cooled more in the turbine.
Other minor --ausee are enumerated. The balance of advantage is
aseessed by comparing cooled and unLooled turbines. For
Card 1/4
26530
S/114/61/000/009/001/002
The influence of cooling on gas ... E191A/E455
purposes of analysis, it is assumed that the metal is cooled to a
more or less uniform temperature throughout the flow path and
-that this temperature is lower than the gas temperature.
Theoretical expressions are then derived from which the exhauat gas
t6mperaturvs in :;*o'Led' and untooled turbines -zan be aral,:.ulated and
thes&- and other expressions are used to calculate the various powbr
!oases due to -.ocling enumerated-above. For ~~-on-zreteness, a '
humeri--al analysis -'a made of -ooling losses in gas turbines in the
3 to 12 MW range with the following methods of ~_oolingt
1) liquid screen vooling of rotor dis-.a, as deazribed by G.Fusner
(Ref.6: Me:;hani-~al Engineering, 1950, N 4)1 2) air cooling of
roiir as by blowing air'through blad'tt roots--, 3) cooling of rotor
and blades by --irculating a --ooling liquid. The blade speed at
-,.hs root diams-.er is taken to be 180 m/ser,; and the stage heat drop
La 17.5 kral/kg. Othex dsaign details are given. The sooled
m~otal temperAture is taken as 500% to permit the use of pearlitic
The maximum -;,ooling air temparaturer is 400'C. The
..alculations admittedly underestimate the -~oolLng losses.
Fj-g.2 shows graphs of Turbine ~haracteriatic3 as functicna of gas
~'smperature, nam&ly the officion:y i1a the relative useful power
delivered and the specific gas tonsumption
C~_z-d' 2/4 (P GYA.
26530
S/114/61/000/oo/ool/oo2
The influence of cooling on gas ... E194/E455
The dotted lines correspond to no cooling; the numbers against
the other curves correspond to the cooling methods enumerated
above. Further data are given for power loss 'and for losses
specific to air cooling. The following conclusions are then drawn;
all kinds of cooling appreciably reduce the efficiency but losses
with screen cooling are much less than with air. If the savings
in turbine manufacturing costs are set off against extra fuel and
air consumption, it is found that air cooling is unprofitable,
although it may still be needed in some cases to improve starting
and operating conditions. Liquid cooling, even of runner blades
alone, gives still greater losses which are not covered by the
savings in construction costs. Screen cooling combined with
partial air cooling is thus the most promising for gas turbines of
medium output. Air should mainly be used to prevent leakage of
gas through the labyrinth glands and only incidentally for cooling.
There are 4 figures and 6 references; 5 Soviet and 1 non-Soviet.
The reference to an English language publication reads as follows:
G.Fusner, Mechanical Engineering, 1950, N 4.
Card 3/4
7777F:~_~
Experimental study of heat transfer from a rotating disk in
free space. Trudy Llq no.38:183-186 162. (MIRA 16:7)
1. lafedra mdoVkk *ovykh kotlov Leningradskogo korablestroitell-
nogo instituta.
(Diskso,*tating) (Heat-Transmission)
ACCESSION NR: AP4041637 S/01141641000/006/000810011
AUTHOR: Xuanetsov, A. L. (Gandidate of technical sciences); Sudarevs As Vs
(Engineer)
TITLE: Aerodynamics and heat transfer of a flat turbulent jet spreading along a
plane surface
SOURCE: Energomashinost'royenfy~*, no. 6, 1964, B-11
I TOPIC TAGS: gas turbine, gas turbine plant, gas turbine cooling
'ABSTRACT; Formulas and graphs are presented for approximating the width of
the boundary (near-wall) layer, length of initial sectkon, heat-transfer coefficient,
and velocity distribution in the boundary and free-turbulence zonve. Laminar and
transition sections of the boundary layer are neglected. The cane of a semi-
constrained jet in a cumulative stream and of a submerged jet are considered$
Published data is used throughout and compared with some experimental results
~,Curd 112
ACCESSION NR-. AP4041637
obtained by the authors. Orig, art. has: 6 figures# 14 formulas, and I table.
ASSOCIATION: none
SUBMITTED: OD ENCL: 00
!SUB CODE, PIR NOREF SOV: 003 OTHER: 007
Card 1.2/2
't r 'va F, f r ri r
manv nrizzles with each diameter half as large results in a heat transfer 1,355
ino Lu torrriuias.
p 1 a
A-~ r, I I k
NR F rtr. 72 24 ENCLOSURE- C)l
7
ve
cont "nu,3'] t~o E,"c' 03 1:-
Card
F Nc' L,)S. LrUl
..........
-'XUZNETSOV,--,t.A.,,--dtktor tekhn. nauk;-BOGORADOVSKIY, G.I., inzh.;--
KRINSKIY, A,A., inzh.; P~PTSOV,,.~k,~L., kand. tekhn. nauk;
MALITSUROV, I.I.,, Jnzh.
Principal results of the tests of an experimental industrial
GT-750-6 gas turbine system. Energomashinostroenie 11 no-5:
1-4 My 165- (MIRA 18:6)
L 27U4_66 EWP(f)/EPF(n)-2/T-2/ETCW-6 W4
j~ CODE
ACC NR, AP6017727 S66RC : UR/0114/65/000/005/0001/M
AUTHOR: Kuznetsov. L. A# (Doctor of technical sciences # Boporadovskiy, G 0 if 0
(Engineer); Krinskiy,, A. A Engineer), K- nets4 A. L*(6andidate of technical
sciences); ~4 =sur~i- ngineerl
15., (E
ORG: none
TITLE: Basic results of tests on an experimental-industrial sample of the OT-750-6
gas turbine unit of NZL
SOURM Zn~rgow9hinoetro:--4"..-no,
'bl w r -t-th
a a a s ump ng stations. or gas mainis,
some or the constants or the gas turbine are$ Temperature of
~the gas ahead of the high pressure turbine 7500 C1 power at the
Iblower coupling 6000 ,kw; fuel consumption 1.93 tohs/hr; rpm or main:
ahart 5,6001 degree or regeneration 0,701 arriciaincy or the unit i I
~
gas flow through the turbine 190
tons/hour, The paper gives,,
curves of temperatures, pressurps,,
efficiencies and outputs for
variou3 operating conditions., Orige art. has: 6 figures and 7 fomulas* OPPO)
SUB CODE: 13,20 SUE14 DATE4. none ORIG FM 002
Cur UDC: 621.428.001-45
ACC NR,
AP6027315 SOURCE CODE: UR/0114/66/000/005/0001/0006
AUTHOR: -Kuznetsov A. L. (Candidate of technical sciences)
MG: none*
iTITLE: Experimental and calculated characteristics of gas turbines
SOURCE: Energomashinostroyani-ye, no. 5, 1966, 1-6
TOPIC TAGS: gas turbine turbine design
GT-100-n qo-sAvvAa~vNe,
ABSTRACT: The article reports the results of a comparison of the
experimental and calculated characteristics of gas turbines Types
WT-790-5 and GT-700-12 made by the Nevskiz Machine Construction Plant.
The calculations are based on the results or tests using model stages
and calculation for the flow through section of gas turbines, using the
efficiency-q which is found from the expression:
-it) t
CO
Here
ujw is,tbe efficiency of the central portion of the flow, not
incl ing end effects; /,&is the sum of the end losse's and the loss due
to flow through radial gaps; bi is the pressure drop used; bb is the
I
Card
ACC NR: AP6027315
drop with respect to the.statistical parameters, Results for the two
types of turbine are shown in tabular form. The article proceeds to
calculation of the discharge characteristics of the two turbines, and
the results are shown in a series of curves, Orig6 arts bast 6 figures
and 1 table.
SUB'CODE: SUBM DATE: nono/ ORIG REF.%' 007
Card 2/2
- - - XUANIMOV, A.M. - -
- If,
Braking the shuttle on a mechanical underpick loom. Tekst.prom. 14
no.9:21-26 6 154. (MI-RA 7: 11 )
1. Master tkatskogo prolsvodetva Ivanovskoy fabriki im. Dzerzhinskogo.
(Looms)
KUZBTSOT
06~~
Shuttle braking on a mechanical loon with under-pick notion. Tokut.
pro=914 =912:23-28 D134o (Wak 8:2)
1e Master tkatskogo proisTodetva Ivanovskoy fabriki im,Dzerzhinsko-
go*
(Looms)
--- KUZNETSOVi--V.M.----- --
Filling yarn contraction at the edge of the fabric.
ucheb.zav.; tekh.tekst.prom. no.4:61-65 161.
Izv.vys.-
(MIRA 14:9)
1. Ivanovskiy tekstillnyy institut im. J~V.Frunze.
(Weaving)
KUZNgTSGV,, A.M.
Tension of the wrap in beating-up during the process of
linen-wedve fabric formation. Izv.vys.ucheb.sav.; tekh.
tekat.promo no.5;78-88 161. (mim 14:n)
1. Ivanovokiy tekatiltnyy institut imeni M.V, Frunze.
(weaving)
L Z4622-66 EWT (1)/EW (m)/EPF(n) ~2/VW-1,(j')/T1/ET(; (m) -6 IJP(c) (10 F.411"
ACC NRi AP6012436 (A) SOURCE CODE: UR/0364/65/001/012/1434/1442
AUTHOR:_ DQgonadze-, R. R.,- Kuznetsov, A. M.; Chernenko, A. A.__
ORG: Institute of Electrochemistry. Academy of SciencesjSSS (Institut ele
Akademil nauk MSR)
TITLE: Theory of low-enerrf electrons in liquids
SOURCE: Elaktrokbimiya, 1, no. 12, 1965, 1434-1442
TOPIC TAGS: electron mobility, polar crystal$ liquid property, 'high temperature ef-
fect, low temperature effects temperature dejendence, electric conductivity
ABSTRACT: Recent data are given from,the theory of electron mobility in,polar.crys-
tals as a basis for-explaining the physical mechanism responsible for electrical con:~
durti,-*tv in liquids.1 The theory of electron mobility in polar liquids is qualita-
tively analyzed with n,o attempt to derive any new formulas. The problem of electron
mobility in nonpolar 'liquids is studied in greater detail since therv is no satisfac-
tory theory for this case at the present time. A qualitative model is proposed for
the structure of the electron energy spectrum in a nonpolar liquid and analytical ex-
pressions are derived for electron mobility as a function of temperature in this case.
It is shown that the temperature dependence of electron mobility in nonpolar liquids
is qualitatively similar to the case of small-radius polarons in polar liquids. At
Card 1/2 UDC: 541.13 + 541.15
L 24622-66
ACC NRt AP-6012436
low temperatures, dispersion increases with temperature while the probability of elec-
tron migration decreases, which reduces mobility. On the other hand, mobility should
increase with temperature when dispersion is high. We are grateful to Corresponding
member AN SSSR V. G. bevich for constant interest in the work, as well as to V. L.
ong To -chev and Yu. A. Chizmadzhev for numerous discussions.
-h-Bruyevich, V. V. M=
B
Orig. art_._has-- I figures -,-2WTormulas
SUB CODE. 07/ SUBM DATE: 04Aug65/ ORIG REF: 013/ OTH REF: 009
Card 2/2 4(b
DOGONADZE, R,R.;.KUZNET.-,OV. A&,j GH1ZMADZHEVp YU,A.
Kinetics of some heterogeneous reactiona at the semiconductor -
electrolyte interface. Zhur. fiz. khim. 38 no.5s1195-1202
Vq 164. (MIFIA l8sl2)
lo Institut elektrokhWi AN SSSR. Submitted June 8, 1963,
?"rX I R; I'N' , , r -, -, .. , " t - V. t,, ~ )I I]
~ 0 ~ a , ". - - -.1 ,4 n-uuh; KU,",1,1E,T-3CV, A.M. , inzh.
P,.1.,3im,inir.aUcn of a relative change in tho efficiency of a steam
virbine oyatem using an equivalent heat drcp method. Teploenergetika
12 no.6o],-55 A 165. (MIRA 18i9)
1. ftskovskV energotichetikly In-qtit;at.
KVZIETSOV, A.M., inzh.
Analysis of changes in the network of a turbine unit with in-
termediate steam superheating. Teploonergetika 12 no.7:66-69
Jl 165. (! IIIqi 18:7)
1. Moskovskiy energeticheskiy institut.
KRYLU.-F, A. YA.; KUZFI--ErSOV,--A.11. OSERREBRENNIKOVA, !.I.; UGODCHROV, A.G.-(Gorlky)
"On the solution of some plans problems of applied elasticity with the aid of
electrical simulation of conformal mapping".
report presented at the 2nd All-Union Congress on Theoretical and Applied
Mechanics, Moscow, 29 Jan 5 Fab 64.
411
M
,IKUZIIETSO)~2 Aleksey Matveyevich; BUMIIKOV , P.P.) akad., red.;
dfi-YA-1-MIKOVA~ Z.G.p red.; MUSHOVA, V.A., tekhn. red.
[Technology of binding substances and of products made
from them) Tokhn-logiia viazhushchikh vesbchestv i iz-
delii iz nikh. Pod obBhchei red. P.P.Budnikova. No-
skvcL, Vysshaia abkola, 1963. 454 p. (MIRA 16:12)
(Binding materials)
KIJZMSOV, A.M.. inzh.; CHISTTAIN, G.N., inzh.
e Kizel-Perm' electrified railroAd line. Transp.stroi- 7
no-5:30 Yq 157. (MMA 10: 11)
(Blectric railroads)
KUZNETSOVY A.M., inzho
Adjustment of ejectors. Energetik 10 no.7:11-12 Jl 162. (MIRA 15:7)
(Turbogenerators)
A
RYZHKIN, V.Ya., kand. tekhn.nauk; KUZUETSOV, A.M., inzh.
Effect of the feed pump on the efficiency of a turbine ayatem.
Teploenergetika U no.2t29-30 F 164. (MIRA 17:4)
1. Moskovskiy energeticheskiy institut.
RYZHKIN, V. IA.Idoktor tekhn. nauk; RUZRZTBOY
,_A&.,, inzh.
Determination of the effect of the food pump on the efficiency
of a steam turbine installation using equivalent heat redue-
tion of the selected steam. Teploenergatika 11 no.12:50-53
D 164 (MIRA 18:2)
1. Moskovskiy energeticheskiy institut.
KUZNETSOV, A.Mj MAKSIMVICK., G.A.
Characteristico of bromins ion acclsw3lation in underground briness
Dokl,a SSSR 138 noo5sll79-1282 Je 161a (xM 14g6)
1. permekiy universitet im. A.M.Gorlkogo. Predstavleno akademikom
D,I,Shoherbakovyme
(Bromine) (Water, Underground)
~ w,
KUZNETSOV, A.M.; KUZNETSOV, V.A.
Symetrical shapes of bodies of natural abrasion. Izv. AN SSSR.
Ser. geofiz. no.9sl462-1467 S 163. (MIRA 16:10)
1. Permskiy gosudarstvennyy universitet im. A.M.GorIkogo.
S/276/63/000/002/041/0152
[77- A052/A126
AUTHOR: Kuznetsov A.M.
TITLEt Problems of precision machining on centerless intfirnal grind-
ing automatics
---Tekhnologiyd--mishindateoydriiy#i--_--
0___ . nos2f,-
1963, 208, abstract 2B1160 (Tr. Vass. n.-i. kostrukt.-tokhno-
log. in-ts podshipnik. prom-sti, no. 4(28), 1961, 92-116)
TEXT: The results are reported of theoretical and experimental
investigations on the preoision of machining racers on centerless internal
grinding automatics with a roll clamp. The effect of geometric errors of
the machine on the precision of machining is considered (including the er-
rors of the lateral feed meohanismv kinematic characteristics of grinding
on a machine with a centerless clamp) as well as the effect of the setting
of the diamond for the disk adjustment and the errors of datum surfaces on
the precision of machining. . An experimental investigation of initial er-
rors in centerlese internal grinding was carried out including the errors
of machining resulting from the heat liberation in the grinding process,-
'Card
S/276J63/000/002/o4i/o52
Problets of precision machining... A052/A126
and those depending on the abrasive-disk wear. The results have shown the
character and the degree of influence of various factors on the precision
of machining which is of great importance for designing, modernizing and
operating centerless internal grinding automatics. The results of the
investigation make it possible to stipulate correctly technical conditions
concerning the precision of datum and ground surfaces of elements subject
to machining on the automatics in question. There are 20 figures and 4
references.
G. Lurlye
(Abstracte r's note: Comple'te translation.)
Card 2/2
KU72A'.TSOV, A.M.; VASILOYEV, A.M.
Securing the preciBion of part shapes in circular center grinding.
Avt.prom. 30 no.202-35 F 164. (MIRA 17:4)
1. Moskovskiy avtomakhanioheskiy institut.
J
4~ ~A
K!IRJ~7~OV, A.M.; GOLOSOV, I.P.
.111 .. 1.1.11, ............,
Effoct of geometrical parameters of synthetio diamond grains
on their cutting properties. Stan. i instr. 35 no.12t28-29
D 164 (MIRA 18:2)
UGODCHIKOV, A.G. (Gorlldy)o KUZNEMOV, A.M. (Gorlkiy)
Calculating static stresses in gear teeth. Inzh. zhur. 3
no.2:348-354 '63. (MIRA .16:6)
(Gearing)
KIMFETSOV, A.M,
Determining the streo3ea in the twtb of* gear wheels. Trudy GISI
no, 50- 59 163. (MIRA 17:11)
Solving systems of linear algebraic equatIons in the theory of
elasticity on high-apeed electronic computers. Trudy GISI no.44i
72-80 '63. (MUU l7sll)
AUTHOR: Kuznetsov, A.M., Engineer SOV/118-58-11-11/19
TITLE: Hydraulic Truck M ounted Cranes, Type dO3O and 4031 (Gidrav-
licheskiye avtokrany 4030 1 4031)
PERIODICAL: Mekhanizatsiya trudoydmkikh i tyazhdlykh rabot, 1958, Nr 11,
PP 31-32 (USSR)
ABSTRACT: Thp Llvovskiy zavod avtopogruzchikov (the L'vov Truck-
Mounted Loader Plant) has started serial production of
hydraulic cranes mounted on trucks of the type ZIL-150
(type 4030) and GAZ-51 (type 4031). All operations of the
crane (turning, hoisting, control of the boom and the
stabilizer springs) are carried out by hydraulic drive. The
hoisting capacity of the 4030 crane is 500 kg, of the 4031
crane - 250 kg; the maximum boom of the 4030 crane is 3,60r- mm,
that of the 4031 crane - 3,000 mm. The maximum lifting
height is 6,000 and 5,000 mm r8opectively; the turning
range of the crane boom is 200 for both types. Both cranes
are equipped with claws and bucket.
There are 2 photographs.and 2 diagrams.
1. Mobile hoists--Control systems 2. Mobile hoists--Performance
3. Cargo vehicles-Applications
Card 1/1
MASLOV, D.P., kand. tekhn. nauk, dots.; GURIN, F.V., kand. tekhn.
nauk, dots,; KUZNETSOV A H inzh.; VASILIYEVp A.M., insh.;
LYKOVp A.G., insh,, masment; PINSKER, A.L., insh.,, red.1
IMNICHZNKOp I.Lp red.1 HWZLI~ B.I., tekhn. red.
[Technology in the motor-vehiole and tractor industry]Takhnologlia
avtotraktorostroaniia.(By]D.P.Maelov i dr. Moskva, Maahgiz 1962,
432 Ps (MIRA 16,12)
Motor vehicles.-Desip and construction)
4ractors-Design and construction)
LMCH, V.G.; KUINETSOV,_A.M.
Motion of drops in liquids under the effect of surface active
agents. Dok3.. AN SSSR 146 no.1:145-147 S 162. (MIRA 15:9)
1. Institut elektrokhimii AN SSSR*, 2. Chlen-korrespondent
AN SSSR (for Levich).
(H~drodyamnics) (Surface active agents)
KUZNEISOV, A.M.1 DOGOMADZE, R.R.
Stationary photoelectric effect in the system aemicondurtor -
electrolyte solution. Izv. AN SSSR. Ser. khim. no.lOtl885-
1887 0 164. (MMA M12)
1. Institut elaktrokhimli AN SSSR.
~v
- - -
. .- I . ~ I " - f ,-r t -! 7 ~ ! - , -,- ~ - . .
- -1
F.f p
- I - I ~ - --
-ra ues f,3r an irfinit,3
KOVALEV, A.L.; ISAYENKO, V.F-; KUZNKSOIII A.M.
Apparatus for deteridning the speed rates of air flow. ftim.
volok. no,4t72-73 '65. (KRA 1M)
1. VNIIHSV, Chernigov.
7,
DOGONADZI% R.R. _kq?gM~V_, A.M.
Kinetics of redox reactions in the system impurity sonic OtAuctor -
electrolyte solution. Elektrokhimiia 1 no.6042-7" A !65. (MIRA 18#7)
1. Institut elektrokhimii AN SSSR.
410
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0 0 lo 0 0 0000 00 0 of@ 0 0 44 so 0 4 0 0 0 0 0 0 0 0 o 0 0 0
00 A
11 00
*0 .4
000
got
411*
00,41
00
00,
V W-W W 1WTdL
0 411 * 0 0 411i w
id 4 a u a Is 0 44 4 a a *-~Gs
A--* _11, - A.-
wt-L- I A.
Salwalmem Of *AMP WMftb OF POW" Rd if-
'Cla,111" , , , W A. Matvwv AM A. Lt., ktu-
--Pr*w. %~" Mskrid. 1941. Mae;
190, U. WA.-4AUDP NO sifiCSIC is &WAYM i1
water fly dkwt Oem besting. hv a P"It agitator.
Lular silkste 6% cbmw in frorwip"st than the aq, ass.
eerie. H. M, symmes
see
000
see
900
too
U09
TALLWGX" LIT1114111016 CLAUWKATM
a
151004 .10 4-V aft All Get w. sit
a
to isle; It land 0 a a I Or p s 0 a I T
a 0 0 0 L
:0 0 0 0 0 a 0 a o
09 A
41",
j ;,
0
*a,)
so
vnc? cw s" Tuffow on sv=m or cmmm wt vm
ACTITAM DOILU CL==* IMMIMmy
0,,A,XG and Kashimp AJ#
Nall straltol, TaIdle, 1946g voI*jv (9-10)t U-15; abotr.,
in DrIt. Abstro Mg J~mmo 1949, 923). The effect of stomp
at 55-7r for parlods from 8 to U braj, on the mbe strength
at 9 and 26 days, at "Imome owe fron a aft ova"Ining
biUor sW "Unted IV SrIWI" (45.8% throv* 0,15.6.n*
mob) 63, fvzwoo ab 20, earblds, ad 15, &W Vpm 2% vItb
f' Want 120 to give a sultable consistence, vas Uwastipted.
A Cuba Strength of IM keg* par sq* can. was obtained witb
test bboake @*goad for 2044 hr. The 9- mW n4ay straegaw
of the Wake wers 104 and 108 k.g. per sq.o.m. compared
vitb 80 k,,#. par sq& can, for blacks stored to aLrI Ow former
&Mwod a small Increase In atr*Mtb between 9 and 20 days
oomp,red with the latter. 9.A.
a**
000
8#
goo
%0
woo
F* 0
006
1%6
000
WO o
see,
woe
goo
141404 "4v 049 gal JUL&JIIPII 414481 CINK 40V 491
AV NO A A 1 0
0 0 0 o 0 a 0 0 0 0 0 4, 0 0 0 0 *1* 01: 9 * 0 0 0 0 0 0 0 0 0 0 0 ato0 0
.T:
0 0 0 0 0 0 6 4, 0 4, Is 0 0 0 0 0 IS 0 0 0 16 0 0 0 0 0 0 0 0 0 0 0, 0 * 0 * 0
0*0::
'AA
so*
00
of I
Of
'00
sod
oo
go .3
sell
1 -0o
MISPOSIAfrocm elfttrou-MOIAI stag. A. ^00
CIMMO. (U.S.SA.) j lee
(19141).-The probim Of i4niation of Uwful ntatefitaf, front
" wells Of Ifil Anil ifs atio" in rorijunctim! UQ
4-41ZIm"Acclive dust- irvis Stu'll"t as to Imutwtion ow
"
winskally pure 240. Tim slag can be fewfily calcin~f so
of VtX)-I(KIO* after the pmttwi has been etilwwd In Air lee
In storage for about 2 trionths tn imure ozMatbon t4 Nit
r-blufs to NIKO and MqM. TIw r"illinit Mcf) pa4-
bw "'Oliti-Im
A S A. S f, a OFTALL110111CAL LMNATWI CLAIWICATM
so 111,14111VO - -
a u 0
iff ;1
so 0 0 *so o000-00
0 0 0 411
11 u
4.
goo
too
we*
off
NOID
goo
We 0
see
I lugs
is&. 60.1n. we 0
11112i INS 4-V Its
L ", of 6, oc e" 0' 'go
0 * so 0 & 0
00 00 0 0 00 0 0 00 0000000
r
I V
-01 It
7
SULFIDD-SUVATE jRfLROSjQU Q] IA A, M, Kusnetsol
J. Avolied QhWA. (U.3.5,11js 19 f5-!W' 489-91
(1946)1 abstracted in Qx& k2ak- 9 118 ~/6j 370 (1947).
Cement of ton different oompostions vere exposed for four
jears to the action of water containing, besidet sulfates,
0*41 gm. H2S in 1000 gm. of the liquid* Tests 'of the
cements for breaking strength.revealed the strongly cor
roding action of this water. "Portland cements were so-
pecially daterioratedo Alumina-containing, Al-Si, and
slag-alumina cements were# however$ resistant. The
.cement structure was destroyed b.
v the reaction of H2S
with the Fe of the cements Ca(OH)2,diffuses partly into the
surrounding medium and partly reacts with the SO
wh'
forming gypsum. Those cements are moot resistan ich
obntain vAry little Fe and Ca(OH)2- M.Ha.
AJ
A.I
a as
00 A'
00
00 :
00
9
00
go
o0
0o
0 Ar 11
0
0:
0
j
00
oo
Its rp Its
a - It it it
POIKIMS AIM "CvI!Lj.-!t
by%trawads; Add
so
the add itreattesssat Ast Wells. -A. It. Kusurt-tv.
&a. 24. No. 314.311,400410.
:t-jm.Kj" the wAy. u1 C&M), in ther sy,trus
1,43. the man. 114.3 viscu aval in
contain
VpfoO-I'*,Sk)%i%p-rmstIv4
its the caw of umedows Im from C&S(X.
"JOICII. 131W Dot 9UVW 101f Ila. With
the rocks, tbe widcoom. is UMted tab-G%.
I'a MUNINGICAL ILITINATtIll CLAIWICATION
141
u S AV go AS -r
Its 0 a a Its IIIa 9 91 of I I"
o,:o::Iooooooooooooooo
0006
a 0 a 0 0 0 0 0 0 0 0 0 0 0 0
a 0
--I-
--'~ 99
as a Isctor i0
'
*0 o
-N
ff$Y- '-oo
VA93-
C&IM-110-
coum. fur 664-
-
'00
Im than O,t)l'
.
but the "
-00
I IY~ CASO, in
H.C.M.
%o
to 0
CO o
"o*
'
c
* 0
too
to 0
F*o
sr I
0 0 0000400
a A MIT A
404 ~ -A- - 11
-
MKCMW AMIN 040"Olds-wl"A
r-_ #-
0
.00
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600 1 ----- . --- _.__---- - -
-iskilmis as" 111 the
*&Nmwk 0414-weler. A.
fu
l
-06
c
aff Blats, univ A AMW Ckw.
, "-
9
1
13"100)(10 Led")
"@a
.
lit
30
1
6
It 4 it It to lict Is Ma"m I
Af
004 mob I in. towt
in
I Is am. Iat HCI.U% (IT" _dak in
18
7Ad 11cl). I CAC16 Ok IIV*h tw can .1 initwT
-Siak,
-
-
T
c
60-9
I .
.
a tfild 1.
0" CACII. in adw.
"
a, (It upmuns from Ow son. ar-
Wgl C1804 wah"almm p
i I
ovw d7lba li'cl . C.
I
004 s GPPM. the $am an
t
9
In 0 Of (be [~Cww dur 1.5 in. No 2t) min.. few., OW was cim-
b;. in The Ist and kd em. MP. In
I - pide ater $4 -W I
Z' 290
'
004 . the 110 attack of limmemone wA 4okukkk Pet-k-
In "P
t
W
W P"
_i beeft rodw. the a Z. _t
VWNA oftballaktion of HCI hads t
fM
b
r
=
9 4o0
206
gov
o
em.
1
gets,
4,
.
C
l.,
l
_,4 t" cam. HCS S!
Cam. xxgl4
raff mists. of ca(xh I ~
OAWaAl% for the not"Al twits coats. vow mt.
w
l
ge
m
to wm c
In so am. of 10% 1!, CA^
1
1-
v
d
jj4jbwmcomtf"##fmwll*
2
a
.
kt
5
or
:!:
:011 th", horm a 6% C430. rock 0.
%
LAX Is Hq;s;wap to 2w k8. C&SO. an pptd. In 2D cu.m.
the pamissibit
data qUained
tb
C,
Cl
*
.
g a
.
. wen
.16%
of ",I at &-5o. vwtem tan be detd. an a
I - of t1w Cs9k Content of the rockt from rocks
.e 0.015. WJ may 0"
CIJ an I HCl (
-
I is, jog. CAM
&'
7,
~
2
05
.
N. Ilan
"VALLOW" LetWINN CLajWV
Alsk
xmw ""Mal raw lowifff
1#14so 0001" WIN allill 5K e-v kil
fm 0 m 7-1 1 11 as 4, 1 4 04 0 0 0 1 In a 9 A a 3 4 1
00 00,40 Sees 0 So.,
V 4*6 0 * 0 so* 0660646496 0
0 ~ 7en -'se *rg..*_--,Lq_, 'All v 0~016 so M* 446
. . . . . . . . . .
4t
-4
SOA
comms and som
00; MOU OA
__9 . N. um-4-
an't, Oak
Get( W &W mapesits or kod IAIIV~ ~2-2=pw OWN
0 0 aboomd a UnAk
d
th
l
L
tt - I kisher
h
k
d
404 iss
e
a
er
e
from LAW ratio w mw t
an
im
Ocate" (3-3.5). 0" 06% wit
. I In the Was
.
ba IN wmeh The -mt of was
W&I liar Mumm of The for S 4 and Vin am malleird am* bw 91 a (artme
34ky%
again" isawyl.b. pme.
of W=
l L- d" to dw
fic
d t
w d
of C
CO doloooke Is am In kwd buwM but
ow-li
Ibis s
ved !Vmb refiki
Was Mo o avo
e
&
l1
wor
I" an Wd,,$ 04
d"y smare ad
~
,
d OR mammus umade 0111
`
"
b
It don b0cats too high or too Ime firing, Le., Am of bind-
Ing activity of tw Milo: " am empirkal iodm IIA-U73
004 0w
w9ft iw
skes Arad go a d. 2
50
am
I%:
OW S
W
s
f
p C&O am be talms to indicate cot firing
t
d
6i
Atd
d
1
4ft
000 .
.
,
,
.
!
r
CsCOP (OW xmh/ ); 0* the massm witik r
t
a
e
0
"ates
r
MA N
Tboa
~
I
N
" LOD had &=o (12.9 &W 17.4 kj./sq. .
N
00 iVi
=d
111
1
M 7 vv . k t&dv* lower content
I
I
l
i
i
AAL! SZ-
0,
07 "
t
o r
I
now
w hionsul~j
d
t
lo
I
o
w
Oak =
s
e
mag
mpmeco
wn
a
bow The admly of k8o; this b pm by tdbw.
hows lag of vater-oody., the boat of b~mfw tbt
rat* of Milan of Mr bostati at am Dv (mod.
odw ( A. 24, 4081)
te results
massawke. 0 at
MP. I.W..d
-
wthity of &W.- after I and 6 bra, J. -8J3 am! SAO, -
swul 18.2; after 28 IdQa 24.9 and 22.1.
=~"Y=
t 700*
W s
i
6i
d
t W
a re
a
m
m a
y
p
A S 2 - S L A SN'T"LINKA4 LOINATIMI CLANOPKATION
flow
r.
-
-
m
t a
4 "H" .49 a
*" off all
AV 10 LI
:
9 0 a &I : 04 1 In j 14 In ; all JI
4-FTI
T
*00000
4
T *000000000000000000 00000000000000*oo 0
.
0 0 0 0 0 0 000 00 0 0 0 0 0 0 0 0 0 0 0 ~O 0 0
00
.0 0
6*0
see
1900
roe
190*
lose
Wee
ago
KUZNZE~30V, A. M. The -mnuf-tcture if e--!ku!;+Ac ra,7 -nciitp from local raw natpriqll and its
uti I I zation. lb*vs, !on. izd-%,o lit-ry po strol".. TntnrI!Axm, 194P. 210 p.
15553 )
,rN948.-M-PX8
KUZUETSOV, A. M.
KUZNETSOV, A. X.s "Inveitigation of the hardening of aluminate, and sul-
fate-aluminate cement." Inst of Chemical Silicates., Acad Sci
USSR. Moscow., 1956
(Dissertation for the degree of Doctor in Technical Sciences)
SO: Knizhnaya Letopist, No 36.9 1956, Moscow.
IUZMSOT, I.. kandidat
High-production
S '57.
tekhnicheskikh nauk.
kiln for calcining line. Stroi.mat.3 no.9:38
(Omishan, China-Line kilns) (mm 10:10)
SUBJECT3 CHINA/Cement ioi-4-6/i3
AUTHORS: KovalevjYe.S.9 Engineer and Kuznetaov, A.M., Candidate of
Technical Sciences.
TITLEt From Experiments to Produce Alumina Cement by Means of
Clinkering in Rotary Kilns (jz opyta poluo'heniya glinoze-
mistogo teementa spekaniyem vo vrashchayushchikheya pechakh)
PERIODICALi 0
"Teement", 1957,4# 4, pp 23-24 (USSR)
ABSTRACTs Exporimgnts with rotary kilns were conducted by the authors
in a cement plant in the Chinese People's Republic in 1955-1956.
Local high quality bauxite and limestone mined in the TSYUANSI
province served as raw material. By employing the sintering
method, different compositions of kiln charges were t 5ted)
:
nd CaO.2
mainly using,low bass calcium aluminates - C&O.Al 0
. 2 3
Al20V Fineness of grinding was found to be from 2.9 to 6.5 %
on 0085 sieves. Calcination temperatures ranged from 1350-137009
and were controlled by optical pyrometors. Based on 19 test
charges, the contents of main oxides varied from 4.9-9.84 ~
and from 30.0-39-42 % for CaO.
0
for SiO
, 45-71-59.26% for A 1
2
2
3
Card 1/2 The strength of camentt using standard Chinese sand (10), was
Tfif Uftf- At the- Libriiry of Vongress
2/2
rJZNNSOV, A., kand. tokha. nauk
Manufaoturing high-strength asbestos slate in China. Stroi. mt.
4 no. 7:37-38 JI 158. (MIRA 1117)
Olienheing, Ghina--Asbestos)
q::s
KUZIMTSOTI Ae~j;_4nd.tekhn.nauk
Machine for Making concrete pipes. Makh. stroi. 15 no,4:29 Ap 138,
(Pipe, Concrete) (MMA 11:5)
Alsks y-Itat h kand.tekhn.naukI ISLAWINA. LIN. red.;
SAYGEUMO, rasT., tekhn.rid.
[Building materials of China] StroitalInye materialy Kita4a.
Moskva, Isd-vo *Znantes" 1939.- 31 p. (Voesoiuznoe obehohestvo
po rasprostrananiiu politicheskikh L nau'ohnykh ananlis Sers4s
Naulm J teleh"J"t 4) - (MIRA 12:3)
(China-Building materials ind- itry)
Ak I
v t
4.
al
I V 4 1
-33,z
it
4 iz
It
I
XUZMSOV, A.M.; KOVALLFV. Ye.S.
Using rotary kilns in producing aluminous cements. Silikatjr no.1:70-77
'59. (MI.RA 13:2)
(Cement) (XiIns, Rotar7)
KUZNETSOV, A.M.
Iffectof lithium sulfate additives on aluminous 9YPsum--
cements and their use In Industry* Silikaty no.2:58-66
159. (MIRA 13:6)
(Cement)
teichn.-nauk
Sesting-'alumilnum alMssalci-Ging ihiez inImaking-tiAding-
j--'GAerlals. stroil:0.jit.75
1.*tN USSR.ahlen-korreepondent AN SSSR (for Budnikov)
nding mterials)
HIMallov, N*H*, kand.tekhn.nauk; KUZNBTSOTp A~M,j kandetekhasnauk
Investigating the binding properties of waste materials obtained
in kilning magnesite. Stroismat. 6 no.2:31-33 1 160.
(MM 13t 6)
(Magnesite) (Binding materials)
KIXWLOT, N.N., kand.takhn.nauk; XUZNITSOV. A-M-, kand-tokhn.nauk
Artificial carbonization as a means for increasing the acti-
vIty of dolomite binderse Strois mat. 6 no.9:28-30 S 16o.
(MM 130)
(Carbonization) (Binding mterials)
-Alskny
KUZNETSOV. -Xatv9yAyjqjh_WVALEVv Ybvgeniy Semenovich; LYSAKf D.A.v
redil MMUSTALEVA, N.I., red. izd-va; VORONINA, R.K.p tekbn. red.
(Now maano of manufacturing cement containing alumina] NoM sponoby
proizvodetya-glimumistogo toementa. Moskvap Gos. izd-vo "Vysshaia
sbkola,w 1961. 86 P. (MIRA 34:7)
(Cement)
DOGONAMEj CHMENKO, A.A.
Thaor7 of homogonoous emd baterogensou olootronic prooesses
in 2iquide-, Uopokhimo'34 noolOtl779-1812 0 165, (MIRA l8all)
I* Inatitut slektrokhimil AN SSSR~
DOGONADZE, R.R.; KMIIETSMI. A.M.
Some steady~-state processes in the system semiconductor - electrolyte
nolution. Elaktrokhimiia I no,8:1008-1011 Ag 165. (MMA 18.9)
1, Institut elektrokhimii AN SSSR.
STROKOVI V.I.; KUZN'-":'")GV9 A.Me
Position.circuits of the automatic temperature regulation in
spinning heads with electric heating. Khiz. velok. no.5t
63-64 165. (MIRA 18110)
1. VNIIMSV.
KUENETSOVY AA. (Leningrad)
of the non*-homogeneous plastic layer. Archiw mach
12 no.2:163-172 160.
1. Leningrad State Universityj Leningrad.
S/120/62/000/001/002/o6i
E032/E514
AUTHORS: Glarlyahev, V.A., Katsaurov, L.N. and Kuznetsov, A.N.
TITLE: On the use of a jet of vapour as a target for
producing nuclear reactions
PERIODICAL: Pribory i tekhnika eksperimenta, no.1, 1962, 20-22
TEXT., In nuclear physics it is frequently necessary to have
a thin target capable of withstanding large ion currents. The
present authors report an investigation of the possible use of a
jet of vapour for this purpose. The principle of the apparatus
employed is illustrated in Fig.l. The vapour was introduced
into a vacuum chamber through the nozzle 3 and was condensed by
the liquid-nitrogen-cooled trap 4,5. Water vapour was emplpyed
as the working substance. The density of vapour in the central
part of the jet was investigated by placing small rings inside
the vapour trap and measuring the amount of water condensed on
each of them. The experimental results obtained suggest that the
water vapour jet does not follow the laws of gas dynamics.
Empiral formulae are reported for the density distribution in the
Card 111
On the use of a jet of vapour S/120/62/000/001/002/o6i
E032/E514
jet. With a pumping speed of 1000 litros/sec and a vacuum of
10-5 imn Hg it is possible to release 0.1 g/sec through the nozzle.
If it is assumed that the velocity of the jet approaches the
velocity of sound, then the thickqess of'the vapour target turns
out to be of the order of 2 pg/cm-. For 2 MoV protons the
corresponding energy loss is of the order of 600 eV. However , in
the latter case a considerable amount of vapour still misses the
trap and enters the vacuum chamber. In order to obtain thicker
targets, it is necessary to use vapours of liqui0s whose vapour
pressure at, any, room temperature is lo-5 - 10-0 mm Hgor to
develop new types of nozzles which would confine the jet to a
smaller angular range. It is stated that vapour targets having
a thickness of a few keV can be produced-for use with a focused.
beam having a cross section of about 1 cm2. There are 5 figures.
SUBMITTEDt August 24s 1960
Card 2/3
ACCESSION NR: AT016825 S/2604/63/000/048/0063/0065
AUTHOR: Kuznetsov, A. No
TITLE:, The accuracy of determining the parameter K by the telluric current
method
SOURCE: Moscow. Vsesoyuzny*y nauchno-Issledovatellskly Institut geoflzichaskikh I
metodov razvedki. Razvedochnaya I promy*slovaya (Prospecting and Industrial geo-
physics), no. 48, 1963, 63-65
TOPIC TAGS: telluric method, telluric current, geophysics, telluric current
method
ABSTRACT: The telluric current method Is widely used for the study of high
electrical resistance horizons. The problem of accurate field observations for
the telluric current method and rational map sections of the parameter K has been
worked out only vaguely, In fact, the accuracy of K In previous publications was
estimated only approximately (3-5%). The relative frequency of errors of K In the
Western and Eastern parts of the West Siberian Basin Is approximately the same. On
the basis of probability theory It was found that anomalies of parameter K exceed-'
Ing 6% are explained by features of the gecalectrical section. Plotting of Iso- 1,-
metric I nes every*6% of the parameter K thus has a sufficiently sound basis. It
Card
ACCESSION NR: AT4oi6825
should be noted that all conclusions In the article based on probability theory
took Into account a large number of observations. Therefore, when separate pointsi
do not conform to the results of adjoining ones, the first observations simuld be
excluded. Orig. art. has: I figure and I table.
ASSOCIATION: Vsesoyuzny~ry nauchno-issledovatellskly Institut geofizicheskikh.
metodov razvedki, Moscow (All-Union Scientific-Research Institute of Geophysical
Prospecting, Moscow)
SUBMITTED: 00 DATE ACQ: 13Feb64.., ENCL: 00
SUB CODE: 'ES No REF SOVt 000 OTHER: 000
Card 2/2
KUZNETSOV, A.N.
Pneumatic-drive machinery for form removal. Mekh. stroi. 24-
no.3jW?, lIr '64. (KM 17:3)
1. Gla- inzh. Kemorovskogo domostroitellnogo kombinata.
KAKALADZI, S.I.; AIAVIDZ1, B.Z.; Kb"ZMSOT, A.N.
Loading and unloading bricks in circular kilns with 'she aid of
lightweight conveyers. Rate. i isobr. predl. v stroi. no-5:50-55
158, (MIRA 11:6)
1,3aburtalinekly kirpichWy savod polumukhogo pressovaniya,
GruzSSR, solo Saburtalo Voillookogo rayons.
(BricbWdng) (leading and unloading) (Conveying machinery)
KAMENSKIY, I.V.; ITINSKIY, V.I.;,~UMTSOVp_~.N.
Polymers on the basis of condensation products of furfurole
with acetone, Copolymers of difurfurylidereacetone with wthyl
methacrylate and stMne. Plast. massy no.12:21-22 162.
(KM 16:1)
(Pentadienone) (Methacrylic acid) (Styrene)
Kutnetsov, A. N. "Services of the TsNIIGA and K,' Sbornik nauch.-
tikhn. i proizvod. statey po geodexii, kartografli, topografii, aeroal
yemke i gravimetrii, Issue 20, 1948, p. 51-58
SO: U-2888, Letopin,:ghurnallnykh Statey, No. 1, 1949
1. KUZNETSOV, A.N.
2. USSR (600)
4~ Astronomical Clocks
79 Parabolic equalization and interpolation of the results of
ob'servations made in the Time Service. Trudy TSNIIGAU
no.. 640 Mg. t.1.13f
9. Monthly List of Russian Accessions, Library of Congress, January __j953. Unclassified.
2. u= (6o-))
4. Longitude
7. Effect of errors in coordinated moments on the determination of longitude. Trudy
WHIGAA no-64, 149. Of-47
9. Monthly List of Russian Accessions, Library of Congress, JanuarY 1953. Unclassified.
777M-
~ ',' '
25501. 0 Sostavlenii Svodnykh Momentov Peredecl Ritmicheskikh Signalov Vremeni. Trudy
Tsentr. Nauch.--Issled. In-ta Geodezii, Aeros"yemki I Kartogrefii, VYP. 64, 1949,
a. 48-59
30; Letopis' Zhurnallnykh Statey, Vol. 34, Moskva, 1949
2. USSR (600)
4. Chronometer
7. Using chronometers for measuring shorttime intervals in cartographic and geodesic
operations. Trudy TSHIIGA11 no.64, 1949 - P .2 5 - IS"
9. Monthly List of Russian Accessions, Library of Congress, January -1953. Unclassified.
2. ussR Wo)
h. Astronondcal Clocks
7- Smoothing out errors in Time Service clocks.
Trudy TSNIIGAIK no* 64, 1949. t. WI?
9. Monthly List of Russian Accessions, Library of Congress, January .1953, Unclassified.
1. KUZNEMVR A. N.
2. USSR (600)
4. Astronomy, Spherical and Practical
7. -Using a shutter in determining time and longitude Trudy TSNIIGAiK,, no. 64 1949
t. 81-Af
9. Monthly List of Russian Accessions, Library of Congress, January .1953. Unclassified.
-e i", /V/
AUTHOR.0 Kuznetsovs A, N,1 Candidate of Technical Sciences. 6.12.2/14
TITLE: A Comparison of the Fundamental Methods for the Determination of
Time (0 sravnenii oanovriykh sposobov opredeleniya vremeni).
PERIODICAL: Geodeziya i Kartografiya,, 1957, Nr 12, pp. 15 - 22 (USSR).
ABSTRACT.4 On the basis of this paper the following may besaid. 1) Tsinger
(references I and 4) is right when he says, that in determination
of time the position of the "horizontal cirole" (almukantharat)
in the celestial sphere is simpler and more reliable to determine
than the position of any vertical circle, Instruments of simplest
const,ruction are usedlin observationsaccording to Tsinger's methodo
The influence of most of the accidentalerrors of observation is
in this method smaller than in the meridianawthod. It is only when
the most favorable conditions of observation are observed that.
both methods are equally accurate. 2) The azimuthal methods of
the determination of time are more subject to the influence of sy-
stematic errors of instruments than the Tainger method. 3) Tsina
gerla method offers the best possibilities.for excluding or redu-
cing the influence of the star--coordinate-error. The repeated
Card 1/2 length-determinations of the starting points must be bilateral.
A Comparison of the Fundamental Methods for the Determination 6-12-2/14
Qf Time.
For the determination of the local time the Tainger method with
the use of a photoelectric recording of the otar-passages is to
recommend. This method sha U. also be employed for the determinaw
tion. of the clock-corrections in the time-aervices (office&)*
4) AUhough So Hayne ("A comparison of methods most frequently
employed for the determination of time"o Bulletin Geode3iqueo
O-H-1938) gives the preference to the azimuthal methods of the
determination of time., almost everything stated in this paper
speaks; against this* The azimuthal methoda shall only be used
for the determination of time when the employment of the Tainger
method becomes difficult. In high latitudes the Dellen method is
to be employed.
There are 5 tables, and 13 references, lo of which are Slavic.
AVAILABLE: Library of Congress.
Card 2/2
/7, A
(Cand. Tech. Sai.)
"State and prospects of the development of geodetical astronoy," Geodeziya i
Kartografiya, 1957, Nr 12, pp. 69-10 (USM).
report presented at the Sci. Tech. Conf. for Geodesy, Aerial Photograhy a-,jd
Cartography, 24-28 Oct 57, in honor of 40th Anniv. of October Revolution)
Organized by Plain Office for Geodesy-nd Cartography, Home Office U:3,;R,
The Military-Topographical Office and Inst. for Engineers of Geodesy, Air Survey
and Cartography, Moscow.
KMNNSOV, A.N., dots.
Zenithal and azimuthal methods for determining time and latitude,
Trudy XIIGAIK no,27191-93 157. (HIM lltl)
1. rafedre, astronomil Xoskovskogo instituta Inzbenerov geodazii,
aerofotos"yeiki I, kartografti.
(Astronovy, Spherical and practical)
I
77- -
3(2)
PHASE I BOOK EXPLOITATION
SOV/2152
'Moscow. Institut inzhenerov geodezii, aerofotoollyemki i kartografii
Trudy, YYP. 33 (Transactions of the Moscow Institute of Engineering
Geodesy, Aerial Photography4and Cartography, Nr 33) Moscow,
Geodezizdat, 1958. 123 P. -'1,000 copies printed.
Editorial Board: A.I. Mazmishvili (Resp. Ed.), V.I. Avgevich (Deputy
Resp. Ed.)" G.V- Bagratuni., N.Ya. Bobir.. N.M. Volkov, A.I. Durnev,
S.V. Yeliseyev, P.S. Zakatov, G.P. Levchuk,, N.I. Modrinakiy,
M.D. Soloviyev, B.V. Fefilov, and P.F. Shokin; Ed. of Publishing
House: A.I. Inozemtsevaj Tech. Ed.: V.V. Romanova.
PURPOSE: This issue of the Institute's Transactions is intended for
geodesists, photogrammetristsand cartographers.
COVERAGE: This collection of articles covers a variety of problems and
questions of interestto personnel in the mapping field. Several
instruments employed in cartography are investigated and evaluated.
These include a photocartograph, the Photo Reductor MIIGAiK, and
Card 1A
Transactions of the Moscow Institute (Cont.)
SOV/2152
marine chronometers. Other subjects treated Include Stokes'
formula, correction of instrumental errors, Dellen's Method, relief
generalization, aerial camera orientation3and others. References
accompany individual articles.
TABLE OF CONTENTSt
Drobyshev, F.V. The Photocartograph 3
Brovar, V.V. The Derivation and Investigations of Stokes'
Formula 15
Konopalltsev, I.M. Determining the Corrections in Horizontal
Angles Due to Malalignment of the Shaft and Bearings of the
Axis of Rotation of a Theodolite Teleacope 19
Kuznetsov, A.K. Dellen's Method [Time Determination] 25
Bollshakov, V.D. Relief Generalization in Large Scale
Surveys (l12OOO; 1:1000; 1-500) 27
Gusnin, S.I. Conversion of Relief (to Graphic) by the Method
of Field Projection 41
Card 2/4
Transactions of the Moscow Institute (Cont.) SOV/2152
Bludova, I.M. The Use of a Correlation Ellipse as a Charac-
teristic Curve for a Series of Geodetic Measurements 49
Zakaznov, N.P. Constructing Conical Sections by Means of
a Central Projection 55
Ziman, Tq.L. Autoination of the Azimuthal Orientation of an
Aerial Camera 59
Naumov, AX. Some Probleros in Mapping Economics 63
Gorbatbv, V.A., and K.I. Elbakyan. Evaluation of the Photo
Reductor MIIGAiK 71
Pozdnyakov,, V.M. A Now Method of Instrumental Approach to
an Aerial Survey Flight Line 79
Card 3/4
Transactions of the Moscow Institute (Cont.) SOV/2152
Guryevich, V.B. Testing and Evaluation of the Marine Chrono-
meters Manufactured by the Stata Clock Factory im. Kirova 93
Gurshteyn, A.A. Some Problems in Evaluating the Accuracy
of Series of Measurements of Equal Precision 99
Bronshteyn, G.S. A Method of Establishing Micro-triangula-
tion for Detailed Construction (Building) Nets 113
Mastitskiy, Ye.P. Comments to (on) Critical Observations
of Docent M.A. Girshberg 121
StJ4
Girshberg, M.A. Comments on Ye.P. Ma vskiy's Letter 123
AVAILABLE: Library of Congress
MM/~d
Card 4/4 B-12-59
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KV~F"QXwA#K*V-TdnW.tekhn.nauk, dotsent
Comparing Talcott's and Peytoov's methods fordet ernining latitudes.
Trudy HIIGAIK no,32:17-0 158. (MM 12:7)
1. Kafedra astronomil Hookovskogo institute. Inzhenorov geodezil,
aarofotoslymki i kartografile
(Latitude) (Astronomical geography)
KUZNETISOYT,. A.N.- tjota..kand tekhn. nauk astronomii
Dellen's method. Trudy HIIGAIK no.33:25-26 '58. (MIRA 12:8)
l.Kafedra astronomit Moskovskogo institute inshenerov geodezii,
aerofotoe"yemki i kartografii.
(Astronomy, Spherical and practical)