SCIENTIFIC ABSTRACT UVAROV, N.A. - UVAROV, G.V.
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Collection:
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CIA-RDP86-00513R001858310012-2
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RIF
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S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
August 31, 2001
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12
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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S/12o/63/000/001/022/072
z140/E135
AUTHORS; Gorbachev, V.M.., Korolev, V.N., and_Yygxpy_,_N._A.
TITLE: High-speed oscillograph using travelling-wave tubes
PERIODICAL: Pribory i tekhnika eksperimenta,,j%__11A, 1963, 98-ioi
TEXT: A high-speed oscillograph using 13J10102 M (13LO102M)
travelling-wave.cathode-ray tubes is intended for photographic
registration of two non-repoating high-speed processes. The
vertical sensitivity is 2 V/mm, the timebase duration for
deflection across the 100 mai screen varies between 0.1 and 3 )18;
the delay in triggering the timebase is not more than
30 x 10-9 sec.
There are 4 figures.
SUBMITTED: February 20, 1962
Card 1/1
OORUCHN, V.M.i WIAROWo N.A.
rategral detector ,for determining the
moutram pulsex* P:rlb. I tekh.ekspe 10
1. SubmItted July :210 1964.
Intensity of short
no.50740 f6O 065.
(Mrm IL9, IL)
GORBACHEVP r.m.; YIISLOV, G.N.; UVAROV,, N.A.
Wide-range intOnsitomcter. Prib. i takhn,eksp. 10 n0-5:
82-85 S-0 165. (MIRA 19t1)
1. Sutmitted July 22, 1964.
', 28037-66 EWA(h)/EWT(m)
ACC NRs 5027010 SOURCE CODE: UR/0120/65/006
AUTHOR: Gorbachev, V, I.; U~v~r2yLN.
ORG: None
Inte&ral d the determination of the intensity of
TITIS: etector fol!
short neutron pulses
SOURCE: Pribory i-tekhnika eksperimenta, no. 5, 19659 77-82
TOPIC TAGS: neutron detection$ scintillation counter, nuclear physics,.
apparatus
ABSTRACT: The use of integral scintillation counters with a delayed
recording of neutrons is discussed. The counters were placed in
paraffin wax to slow dovm. the fast neutrons and then to capture them by,
paraffin hydrogen. The capture gamma rays were recorded by a scintilla-
tion counter. After reviewing various methods and devices, the use of
integralmethod of counting (instead of a discrete one) was recommended,
The FEU-36 integral detector diagrammatically shown in Fig. l(Oard 2/2)
was described. Its counter range reached 100 counts and 1,he neutron
sensitivity was about 0.05 neutron per sq om. The detector signals are
recorded by a three-beam oscillographio tube. The two-beam tube of'an
18L047 type could also be used. A detailed conneotion diagram of such
Card 1/2 UDC: 339.1.074.3"
ACC,~___.'_ -AP5027010
a recording arrangement was presented and briefly explained. The
samples of recorded osoillograms were shown in a photo. The dimensions
of various scintillation crystals and the voltage ratios were given in
a table. The voltage'oharaoteristics could be improved in oertain cases
by applying a back-feed arrangement to the integral detector. A sohem-
atio diagram of such an arrangement was presented and various voltage
characteristics were illustrated. Orig. art. has: 5.figures and
1 table,
pliiw M~961
CAV/
T 7Ti,
T'T T T I
T __T
VIA
41 b 4AI 4
a 45
1
CODE: 18 SUBM DATE:
2
Fig,
.:21,Tuly 84 ORIG REP:
007 OTH RNF'. 001
SHOSTAKOVSKIT, H.F.; PRILEMM4, Te.N.; U7A.ROV,__&j,
Synthesis of sulfur compounds from vinyl others and acetylene.
Report No, 17: Vinyl ethere of monothioethylene glycol. Izv.
AN SSM- Qtd,.khi%.n%uk no.10:1245-1249 0 158. (141RA l1: 12)
1. Institut orgsnichookoy khimii im"i N.D. Zolinskogo AN SSSR-
(017cols) (11therB)
GRINEVICH, M.A.; UVAROVA, N.I.; XUDIII., A.M.
Symposium on Eleutherococcus and ginseng. Izv.SO AN SSSR no. 8.
Ser. biol.-med. nauk no.2:139-141 163. (14IRA 16:11)
UVARov, 1. v.; CsIPCV, A. I.; PAVWT, E. A.
The TsilIDE-K-5 Light-m~ty Electric Saw (Cbiegehennaya elc*.-:trorJ"la
Tsl,III14E-K5), Goslesbumizdat, 1.949~ 40 pp.
UVAROV, N.V., inxhaner.
Internal combustion ongina-driven chain saws,
16 J1 '53,
Nekh.truti.rab, 7 no.7:IU-
Off-IM 6: ? )
(Chain saws)
GCHBACHNVBKIY, red.; MERZY.ANOVA,'
OOMO, red. izd-va; XARASIX, IT-Pp, telchn. red.; VOIY.HOVIIR, P.S.0,
tokbu, red,
CXAZ-501 log tmckl tesovosiWi aytonotill XAZ-501. Noskvs, X-vo
le=A promyshl. SSIII 1956. 9 P. (KERA 11:10)
(Uniber-Transportatiou)
(Notortrunks)
WAROV, NOVOSELITSEV, 11J., re&.-, OSOKINA. A.M.. red. izd-va,;
---~KARASIK, H.P., tekhoo red.
CuDruzhbam gasoline chain saw with a Bingle control; design and
operation] BOnxtnomotornsia tsepnaia oila odinochnogo uprevIeniia
"Druzhba"; konstruktaiis I ekspluetatsiia. Noskval H-vo leano
promyshl. SSSR 110,571 17 P. (%IRA 11:11)
(Chain (laws)
t; V, " ~ (~ '/ A, e,
UVAROV, N.V., in2h.
Affectiveness of the "Drushbal gas engine saw$ in logging, yekb'
trud.rab. 11 no.9:31-36 6 137. (KIRA 10:11)
(SOWIS) ("boring)
UVAR,921jiltPlay Vilaillyevich; VILICMM, G.A.. rod.; VMS, Ye.A., rod.lzr'-vii;
' red.
(Using zasoline e"ngine chain saws in lumbering] T;Sepnys benzo-
motornye pily na lesorazrabotkakh. Moskva, Goslesbundzdat, 1959.
130 P, (MIRA 12:12)
(Sails)
-L-2584h-66
ACC NR: CODE: URT0196/65/000 RUW~IC0016
AR5018683 SOURCE
AUTHOR: Keshechkin, N. I.; Moreyev, A.K.; Perellmutor,, ff. M.; Vva=A~
Shvionov, I. V.
ORGI none
TITIEs Portable power station Itruzliba" for Lighting parposee
SOUME: Ref & zh. Elektrotekbnika I onergetika, Abe. 7S55
REF- SOURCE: Lesoekopluat. I leen. );h-vo. Ref. inform,, no- 5, 1965, B-9
TOPIC TAGS: power generating staticmi., bodAnp 11ghting equipment/ JAC4'V:t "W4^
TRAMIATION: This power station is to supply light and heat up to 1.5 kw and can be
used on construction sites.. wood clearinge, timber conveying points,ete. For primary
motive power,, a one-cylinder, two-cycle motor is used (from a gasoline-motor saw).
Through the reducer, the motor is connected with a generator of 1.1' kwp 220 v and
200 cps (ohorteirculted and asynchronous)., For excitatlon, a battery of condensers
of 24 microfarades is switched In. A diagram of tbe portable power, station and d1rec-
tives for its operation are given.
SUB CODE: 091 SUBM DATE: none
Card 1/1 wat 62i.31i.23:634.o
UVAMV. 0., inzh.-tekhnolog
Quenching of thirst. Obshchestv. pit. no.11:63 N 158.
(MIRA 11:12)
(Drink:ing water)
UVAROVA, O.A.; ZEMSKOVA, Z.S.
Healing proce3ses in exj,--rimntal tuberculosis d%ring the use of
preparntions of the second series. Probl. tub. 41 no.~:56-62 163.
(~a RA 17: 9)
1. Iz patomorfologichoskoy laboratorii (zav. - prof. V.I.PuzP)
TSentrallnogo Instituta tuberkuleza (dir. - deystvitellnyy chlen
APD1 &SSR prof. N.A.Shmelev) Ministerstva zdravookhraneriiya
AID P - 1924
Subject USSR/Electricity
Card 1/1 Pub. 29 - 4/31
Author : Uvarov, 0. F., Eng.
Title : Design and mounting of the piping system of electric
power stations
Periodical : Energetik, 3, 8-10, Mr 1955
Abstract The author presents his design in which the pipes are
located differently from the usual arrangement.and
are more convenient for futura repairs and replace-
ments. Four drawings.
Institution: None
Submitted : No date
14V,RROY, O.F.
Subject
Card 1/1
Author
USSR/Electricity
AID P - 1953
Title
Pub. 29 - 2/25
Uvarov, 0. F., Eng,
: Necessity of improving the structure of separate de-
tails of high-pressure boilers
4, 5-7s Ap 1955
Periodical : Energetik,
Abstract : The author analyses the deficiencies of the TP-170
type boilers produced by the Taganrog and Podollsk
boiler plants, Tho major deficiencies are located
in the drums and certain sections of the steam piping
system, Other deficiencies are found in the welded
connections of feed-water pipes and in the air pre-
heater,- The author suggests improvements. Five
drawings.
Institution: None
Submitted : No date
AID P - 3353
Subject USSR/Electricity
Card 1/1 Pub. 29 - 11/27
Author Uvarov, 0. F., Eng.
Title Mounting vinyl-layer conduits for feedwater condition-
ing
Periodical Energetik, 9, 22-23, 3 1955
Abstract The author describes details of installation of vinyl
pipelines at a newly built electric power station.
These pipes of various diameters and a total length of
250 m serve to carry a solution of sulfuric acid and
coagulant. The connection of pipes to the tanks was
node with vinyl flanges. Four drawings.
Institution : None
Submitted : No date
UVAROV, O.F. inzh.
Mechanical removal of waste products from acetylene stations.
Ignergetik 5 no.10:17-18 0 157. (MIU 10: 12%)
(Blectric power plants) (waste products)
UVAROV. U.F.,insh.
Work of mtal and weldiing laboratories. learg6tik 6 no. 1:5--b
is 158. (KIJLA 11:0)
(welding)
(Turies)
UVAROV, O.F., inzh.
Xfficient method for securing machinery and equipment to fou-zda-
tions. Rner-o. stroi. no.2;40-42 '59 (MM 13:3)
1. Treat OVOIZODromenargomonta2h."
(Electric power plants-Equinment a-ad supplies)
(Concrete footings)
25(l) SOV/91-.59-6-1/33
AUTHOR: Uvarov, O.F., Engineer
TITLE: On the Quality Control of Welding in the Assembly
of Power Equipment and About the Regulations of the
Gosgortekhnadzor
PERIODICAL: Energetik, 1959, Nr 6, PP 1-3 (USSR)
ABSTRACT: The author criticizes the inadequacy of the quality
control methcds prcacribed by the Gosgortekhnadzor for
use in the assembly of certain power equipment,
especially the piping. He suggests abandoning mecha-
nical testing and the testinG of pipes on bending
stresses. The Institut clektrosvarki imeni Patona
(Institute of Electric 'Jelding imeni Paton) has
proved that the bead testing of sam-ples with trans-
verse seams, estimated by the angle magnitude, is not
quite reliable and suggested to replace such testing
by testing of samples with lengthwise seams. The
Card 1/3 impact resistance control norms for carbon and molyb-
On the quality Control of 'Welding in the Assembly of lo,.-,-er Equipment
and About the Regulations of the Googortelchnadzor
denum steels are 6 kg.m/cm 2 and for chrome-molibdonum
steel - 5kg-m/cm, 21 whereas the technical requirements
to high-pressure pipes ChNITU 2580-511-, made of steels
20, 16M, 12MKh and 15KhM, read respectively 5,
1
6 kg-m/cmc. This contradicts the Gosgorteklinadzor's
requirements to the effect that the basic metal and
the welded-on metal must have equal strength. The
testing of nuirerous specimens of pipes, conducted in
the construction of TETs, has sh6vm that the existing
impact resistance norms are lol;i. Conversely, according
to K.K. Khrenov ("Avtogennoye delo", 1953, Nr 6), the
existing tasting norms on rupture strength of gas-
welded pipes (38R:C/mm 2) are too high. The mctallo-
graphic pipe testing- norms allow for a surmai-y length
of defecis not to ey'-.ceed 3 ram, irrespective of the
thickness of the pipe walls. Actually, in case of
Card 2/3 8-10 mm pipes, this allowance is inadmissible because
On the quality Control of Weldinp; in the Assembly of 1,ower Equipment
and About the Regulations of the Gosgorbelchnadzor
of safety factor. The hydraulic testin(; of pipes if-,
at present mado, according Lo tho InotrucUor4 at a
pressure exceeding the normal operational pressure
by only 25%. It is too lovi, because it does not ta~ce
into account the additional stresses arisins in chan-
ges of thermal regime. The author suGgests to test the
quality of welding on large pipes by the radiographic
method and on :31aall pipes by the net&l IlDgraphic method.
He recommends to review the testin- norms ond ric'U-ho,..s
prescribed by the Gosgortekhnadzor to make them ade-
quate for modern weldin- technique. -"urthcrmore, new
instructions on electric welding must be .-:or1.-ed out,
based on the results of metuallograp1aic examinations
of welded specimens. There is 1 Soviet ::-efercnce.
Card 3/3
SOV/9 1-5Q-8-6/28
AUT11ORt Uva rov _Eagju&a r.
TITLE: The Application of' Welded Flanges for Pipelines
PERIODICAL: Mnergetifc, 1950, Nr 8, pp 11-12 (1jSSR)
A13 ST RACT The author suggests a method of manufacturing welded flanges in
case steel j)lates of the required thickness are not --vailable.
lie recommends cutting two flange blanks from thinner 9lates.
These blanks are irelded to the tube and ft V--r-)ove -,bout 6 mm
deep is cut by a lathe in the center between the two sections,
as shown in fig.l. The two sections are then welded in the area
of the groove. The author explains also the welding of collar
flanges using steel plates and steel bars. Only small flanges
0
may be produced by this method, since, without additional machin-
ing on a lathe, -thoir diameter is limited by the size of the
drill which must be used for this purpose. Such a flange is shown
in fig.2. The author states that flanges produced by this method
are in operation for several years without showing any defects.
Card 1/2 A note from the editor says that this method should he used only
SOV/91-5p-8-61/28
The Application of Welded Flangsas for Pipelines
in urgent cases when no other material is available. There are 2
diagrams.
Card 2/2
UVAROV, O.F..-inzh.
Welded pipe joints used abroad. Mont. i spets. rab. v stroi.
24 no.5:28-31 My '62. (PaU 15:5)
(Pipe-Welding)
UVAROVP O.F., inzh.
Vessels and apparatus lined vith stainless materialml digest
of foreign liter&ture, Dim. i neft. mashinostr. no.lt"-46
J1 164. (MLU 17% 12)
UVARGV, O.F. (Ivanovo)
Use in the United .3tatea of methods for calculating
underground metal pipelinen for external stress resista.,ice.
Stroi. truboprov. -10 no.8:16-19 Ag 165. (MIRA 18:11)
ZTMMI*,f.JTIOIf (IF TIM MjYRAT 1014 C0FPF*fCTFhTf;
OF THE ~jQrQp POF MRIA"L(THE EQUiLEBRTY,
k
E7 - kMRATION 0 F --CI,
Vd ',_Y
3
tn ta temsm~e~.~C~ "t~-ca. IZ,T t~ --L*~ -,.ett~A, a-,_.
V
'"Rectification Column for Obtaining Water That Contains 1~~--.vy
Oxygen," by 0. V. Uvarov, V. A. Sokol'skly, and N. M. Zhavo-
ronkov, ScieEt--ific-Re`search Ph i-i-c-o-cE-em-le-al InstitutT-M-e-a
-L-.Ya-. Karpov, Khimicheskaya Promyshlermost' No 7, Sep 56, pp
404-405
A rocedure and equipment irith the use of which water containing 24-5%
of HpOI-9 is obtained are described. T
,~e impor
,,,Ignce of developing procedures'
.for the concentration of dautertwul 010, and N -1 is pointed out.
5 cm, t 3 0-5
,#SUBJECT USSR / PHYSICS CARD 1 / 2 PA - 1r20
AUTHOR SEVRJUGOVA,N.N., UVAROV,O.V., ZAVORONIKOV,N.14.
preparation Coefficients of Boron
TITLE The Determination 0~
Isotopes at equilibrium Evaporation of BC1 3*
PERIODICAL Atomnaja Energija, 1, fase-4, 113-116 (1956)
Issued: 19.10-19506-
The present work describes the exact determination of the separation coeffi-
cient a of the system B 11 Cl 3 -B10 Cl3 and of its temperature dependence by the
method of RALEIGH'S distillation. With this method a large quantity of the sub-
stance to be investigated is evaporated with the exception of a small remainder,
and a is then determined from the modification of isotopic conditions at the be-
ginning and at the end of the process of distillation. Distillation took place
in two stages. The determination of the separation coefficient is possible if
the following conditions are satisfied: The composition of the liquid must always
remain unchanged in the entire volume. Evaporation must be slow without any
violent boiling. The walls, particularly above the liquid, must always be a
little warmer than the liquid. Th2 first stage of distillation extends from
2000-3000 9 to 50-70 g. The distillilig device is described on the basis of a
drawing. After this evaporation the metal balloon was removed and replaced by the
evaporator for the second stage.
Also the apparatus for the second stage of distillation is illustrated by a
drawing. This second distillation was carried out under the same conditions as
Atomnaja Energija, 1, fasc. 4, 113-116 (1956) CARD 2 / 2 PA - 1520
the first, and 0,5 to 1,0 L,., of the liqui4 was left over in the evaporator.
This remainder of liquid was carefully and exactly weighed. The samples were
filled into glass ampules which ifere fitted to the evaporator. On the occasion
of the introduction of the evaporator intuo the DEWAR vessel with liquid air,
the air was pumped out. The evaporator was then heated to room temperature Und
in the ampule about 0,3 9 B01 3 were condensed. Also a second ampule was filled
in the same manner.
At 300 revolutions performed by the vanewheel-like mixing device a attains its
maximum value.
By means of the same apparatus the influence exercised by the evaporation velo-
city on the separation coefficient of B 10 C1 -B 11 Cl, wa,, investigated. In the in-
terval of evaporation velocities of from 1,9 to 4, cm 3/cm2 hour this amount re-
mained practically constant. 71ith rising temperature a decreases considerably. At
-61,70 the vapors of B10 Cl3 and B*11 Cl3have the same viscosity, but at lower tem-
peratures the viscosity of B 10 C13is lower than that of B11 C1 3' This dependence
can be represented by the equation a-1,1112.e-2,33/T. According to a mass-
spectroscopic analysis of isotopeis of the compound BC13 the ratio of isotopes
in the initial state is 4,11. This corresponds to the following concentration:
B10 - 19,5%, B11 - 80,5%.
IMITUTION:
YjT
UVARI V OV,
ELI-
rnrtit;Rn Co~ffi4eat in Inc
p-
equilibrium an'i ms!uw~
tjCj= L%,-,,rrvcR tbr, liqwd nd t~
h-t les Ui C t I i.'
CH., wid CH. Wa5 dad. vwi-b t1he usc ~f the equa-
tfoi for th! ratio of the initial and t1nal vo(3. and the
IntavzAcd ocQn. in the fina: ~ol. The app. u-ned by
I
~d zorio X.A 223!", .41 V.S,fl in t:11!
dew Z-A~~ w'?re
I - ~ ~ ~ Z;~ 1-1 -d? t%e
T001,27, -(Q.faA16 P.Z:i-jj,.P 'C' 11,
an
pc"U, /P C;.H.
-00077;'~2, The ma-hA
W--s tL.1- ri .7tilicn-IC-p i-~ r,,,z a r-411-b1c Itet 41 ffr tfx -Cim.
V
rfiJ
-mill I
MMAV LMxKU14LM99-Mmfg R
i " V1 - I -Ljy~ - - -
ZROMONKOV, To. and UVAROV, 0.
"3eparation of Stable Isotopes of LL61it Elements."
paper to le presented at the 2nd UN Intl. Conf. on the poaceful unes of Atomic
Ener ) Geneva, 1 - 1~' Sept 58.
9y i
l
sai
ft
1
10 L 0
OL go,
a ~
on 0. L.O.9
o
S
a, C4~
a
AA,&
U W,
UM
.3p
J
A .
q C;
is, Or
00 MN!1 a ~.M
0
04 U
o U
c S Se Z
a A,
is
&P.4 a b
toi r. VE Od
mig! A .64
J--
A-8 8
I r G 4.
ja -0
ML
I Ni Ifil A i -OHIP27,
_a U
IL
ij- -.0 u ,
ZI? j ':
.1.2 8-1
n
~11 isi- aq 4.1 - I A
elms:
2-10) SOV/20-125-3-32/63
AUTHORS: Matveyev, K. I., Uvaroy, 0. V., Zhavoronkov, N. M., Correspeind-
ing Member, AS USSR
TITLE: The Coefficients of the Separation of Chlorine Isotopes in the
Equilibrium Evaporation of HC1 (Koeffitsiyent razdeleniya
izotopov khlora pri ravnovesnom isparenii I]Cl~
PERIODICAL: Doklady Akademii nauk SSSR, 1959, Vol 125, Nr 3, PP 580-5163
(USSR)
ABSTRACT: The authors determined the influence exerted by the amount of
impurities upon the value of the coefficient of separation. The
computation was made in a provisional manner according to
0
Rayleigh's equation. A diagram illustrates the results, i.e. the
coefficient of separation as a function of the coefficient of
enrichment F and of the degree or concentration. The liquid
hydrochloric acid was evaporated out of a cylindrical vessel
with conical bottom. Two figures illustrate this vessel which
was contained in a vacuum jacket, as well as the scheme of the
whole evaporator. The experimental conditions are listed, and
the experimental results are shown in the following table:
Card 1/3
SOV120-125-3-32163
The Coefficients of the Separation of Chlorine Isotopes in the Equilibrium
Evaporation of HCl
T P F Cc experimental cc computed
167 190 1.0221 1,,0022�0.00025 1.0022
173 265 1-017 1100193tO.000125 1,00194
181
534
1.012
11-0014+0 0001 1~0016
185
lag 707 1 1 1 1.0013
The temperature dependence of ln a is expressed by the equation
ln a - 1.2846 _ 0.0055, where T denotes the absolute zero. The
T
resultant small value of a (at the nQrmal boiling temperatura of
1.0013) indicates that it is not advisable to employ the
Card 2/3 rectification of HC1 for the purpose of separating chlorine
SOV/20-125-3-32/63
The Coefficients of the Separation of Chlorine Isotopes in the Equilibrium
Evaporation of HC1
isotopes, not even in the presence of columns with a high
degree of efficiency. There are 3 figures, I table, and 9 ref-
erences, 5 of which are Soviet.
ASSOCIATION: Nauchno-issledovatellskiy fiziko-khimicheskiy inatitut im.
L. Ya. Karpova (Physico-chemical Scientific Research Institute
imeni L. Ya. Karpov)
SUBMITTED: December 10, 1958
Card 3/3
5 (2), 21 (5)
AUTHORS: Sevryugova, N. IT., Uvarovp 0. V., SOV/20-126-5-36/60
Zhavoronkov, N. 14. _,_ro_r_re_9_po_n_d_fn_G
Member AS USSR
TITLE: Separation of Boron Isotopes by Boron Chloride Rectification
(Razdeleniye izotopov bora rektifikatsiyey khloristogo bora)
PERIODICAL: Doklady Akademii nauk SSSR, 1959, Vol 126, Nr 5, pp 1044 - 1C46
(USSR)
ABSTRACT: At the beginning, the differences between the two boron iso-
topes B10 and B11 are indicated (Ref 1). The light isotope B 10
is used for filling neutron countersi besides, it can be used
as a protection against neutron radiation, and for regulating
the operation of reactors. The separation of boron isotopes is
achieved bY 5 different methods: a) electromagnetically, b) by
thermodiffusion, a) by means of diffusion by vapor, d) by the
chemical isotope -exchange, and e) by rectification. The methods
a) and c) make poesible a high degree of separation, but are
little productive. The method b) failed. At present, the two
latter methods d) and e) can be regarded as most convenient for
Card 1/3 the B10- production. Both of them have been chemically developed.
Separation of Boron Isotopes by Boron Chloride SOY/20-126-5-36/69
Rectification
The authors think that rectification is one of the most eco-
nomical methods. They carried out the rectification of the
BC13 in columns of various types of -lonstruction (Fig 1). The
procedure is described in detail. Figure 2 shows the course of
the increase in B 10 Cl.3in the retort liquid. Within 28 days, a
5-fold enrichment was obtained at a content of 100 cm3 liquid
in the diatillation vessel. The stationary phase was not at-
tained during the period mentioned. The calculation showed that
the (maximum poEisible) separability of the colilmn is equal to
800 theoretical steps. This should guarantee the obtaining of
a product with a content of about 75 M014 BIOCl 3. An approxi-
mate calculation showed that the production method for ele-
mentary boron described here is acceptable from an economical
point of view. There are 2 figures and 5 references, 4 of which
are Soviet.
Card 2/3
Separation of Boron IDotopes by Boron Chloride SC)V/20-126-5-36/63
Rectification ,
ASSOCIATION: Nauchno-isoledovateltakiy fiziko-khimicheskiy institut im.
L. Ya. Karpova (Scientific Physico-chemical Research Institute
imeni L. Ya. Karpov)
SUBMITTED: September 5, 1958
Card 3/3
KAZANSKIT, B.A.; LUICINA, N.ru.; H.-.KH--.PRrYAN, L.A.; WrOVA, S.V.;
LOZA, G.V.; SWIUSHTIM, G.A.; OVOI)OVi, V.A.; UY,~.RO-I, O.Y.;
SOKOLOV. M.M.; GKOLIMMOY. V.P.
]Production of high purity cyclopropane. Ulm. prom. no. 6:462-
465 9 160. (MUU 13:11)
(cyclopropane)
82733
s/oeq/6o/oo9/)02/0O4/0!5
4 Wo Boo6/BO56
AUTHORS: Sevryugova, N. ff., Uvarov, 0. V., Zhavoronkov, N. M
TITLE: Separation of Stable Boron Isotopes/9
PERIODICAL: Atomnaya energiya, 1960, Vol. 9, No. 2, pp. 110-125
TEXT: The present article gives a detailed description of the methods of
separating the boron\~isotopea 1110 and B11 which are interesting for in-
dustrial purposes. The molar ratio of the two isotores in naturally occur-
ring boron is about 20 : 80. The various methods furnish somewhat different
valuesq and various authors alec, obtained different results by one and the
same method (on BF3 ) (cf. Table 1). These problems are briefly dealt with
in the introduction, after which the electromagnetic method, the method of
thermal diffusion, and the method of diffusion in the vapor current of an
inert substance are discruased, while in the following the two most impor-
tant methods of industrial separation of isotopes are explained in great
detail: the method of chemical isotopic exchange and the method of recti-
fying boron halides. G. M. Panchenkov. V. D. Moyseyev, and A. V. Makarov
Card 1/4
8273
Separation of Stable Boron Isotopes S/08 60/009/002/004/015
gy
B006/BO56
(Ref. 31) were among the first who suggested using the chemical exchange
between boron halides and organic boron halogen complexes for the separa-
tion of boron isotopes. The separation factor a is comparatively large for
these processes and isp on the average, about 1.03- Its temperature de-
pendence for the systems (C 6H5 )ICH3)OBF 3 -BF3 and (C 4H9)SBF 3 _' BF3 is
given in Tables 2 ando3. For the last-mentioned system a attains a maximum
value of 1-054 at -20 C. The a-values determined by various authors by
means of different isotopic exchange methods are given in Table 4. The
grave disadvantage of the method consists in the high molecular weight of
the complex. This is the reason why industrial plants find it less economi-
cal to work by this method. The rectification methods are considerably more
simple, but, in this oasel the separation factor is small. In BO 3 (CH 3)2'
e.g., it is only 1.001; in practice, only BF 3 and BC1 3 are used, which
have a somewhat higher a. In,t e f at case, the temperature dependence
of a is given by a - 1.0488 e-t-17YT, and in the second case by
0: a 1.0112 e-2-33/T. The temperature- and pressure dependence of a
Card 2/4
82733
Separation of Stable Boron Isotopes S/089/60/009/002/004/'015
B006/BO56
in BF3 rectification are illustrated also by the numerical values in Table
6 and the a(T) curve in Fig. 3. a(T) for BC1 3 rectification is shown in
Fig- 5. The greatest disadvantage of the rectification methods consists
in the fact that, for the purpose of increacing a, it is necessary to
Work at the lowest possible tetaperatures, which reduces productivity be-
cause of the consumption of liquid air. BU 3 rectification seems to be
the most profitable method; though the separation factor is only about
1.0039 this value may be attained at atmospheric pressure and room tem-
perature. A large table (5) shows the characteristics of the individual
columns for rectification- and isotopic exchange methods (taken from
Refs- 40-47). The most important data of the various methods are compared
in Table 7. There are 7 figures, 7 tables, and 71 references: 23 Soviet,
20 USt 5 German, 4 British, 1 French, 6 Dutch, 2 Swedish, and 1 South
African.
Card 3/4
82733
Separation of Stable Boron Isotopes 8/089J60/009/002/004/015
B006/BO56
SUBMITTED: April 4P 1960
Card 4/4
S/07Y60/034/05/ 10/0", 8
~,67, o (A) BOIO B002
AUTHORS: ~va, ~11.11.9 Uvarov, 0. V., Zhavoronko-~r, N. 11.
TITLE: Separation Factors of ~BoronIsotopelfin the Equilibrium
Vaporization of Boron Fluoride \\
PERIODICAL: Zhurnal fizichetikoy khimii, 1960jol-34, No.5oP-1004-1008
TEXT: The authors investigatod the dependence of the separation factors
a on temperature with respect to the system B11F 3 - B'OF3 under equilibriu:7.
vaporization. The values of a were determined by Raleigh's distillation meth-
od. In order to obtain a largor value of G 0/G E (Go and GE - amount of
substance at the beginning and at the end of distillation), vaporization
was brought about in two stages. Lo~jperiments took place in a device suit-
ed for the purpose (Fig. 2), -the main elements of which are two va7.1poriza
tion vessels (Figo 1)q in whi,3h mixing is done with magnetic stirrers. The
vessels are installed in a cryostat filled with isopentane, the temperature
of which is measured with thexmocouples. Experiments showed (Table 1) that
the maximum value of a is attained at a stirrer speed of 200 rpm. Determina-
tions of the influence exerted by the boiling temperature (measured at
157 to 1680K) on the value of a revealed (Table 2) that a drops with tempera-
ture, which fact had already 'been observed on the system B11Cl - BIOC!
Card 1/2 3 3'
Separation Factors of Boron Isotopes in the S/07 60/034/05/10/0.7)8
Equilibrium Vaporization of Boron Fluoride B010Y13002
6.17/T
In the present case, this dependence amounted to a - 1.0488 e-
Since a rises with touiperatureit to expedipat to roctify DF 3 C, t ~A'
or higher pressure. R e samples were analyzed by means of an (MS-4)
mass spectrometer. B F 3 was found to be the more readily volatilizing
component in the temperature range investigated. On the strength of experi- 'L/
mental results obtained by G. M. Panchenkovq V. D. Moiseyev, and N. A.
Lebedev (Ref. 6) concerning the.dependence of the ratio between Une peak
height of (BIOP 2)+ and (Si28F 3)1r on the silicon fluoride content iv BF 3"
less than 0.1 mole~6 of SiF4 was found to occur in the sample3 investigatej,
There are 3 figures, 2 tables, and 6 referencesj 3 Soviet, I American.,
and 2 German.
gUBMITTED: June 239 1958
Card 2/2
S10761601034100910391041XX
B020/BO56
arov Zhavoronkov, N. M.
AUTHORS: Matveyev, K. I., Uv j-_gj
TITLE: The Separation Factors of Chlorine Isotopes in Equilibrium
Vaporization of' Cl 2
PERIODICAL: Zhurnal fizicheskoy khimii, 196o, Vol. 34, 11o. 9, p. 2123
TEXT: In 1959, the authors published a paper (Ref. 1), in which the
separation factors of chlorine in equilibrium vaporization of HCI had
been determined. When using the same method, the tempqrature d endence
of the separation factors of the Ghlorine isotopes c155 and Clsl in
equilibrium evapoi-ation of molecular chlorine was measured. On the as-
sumption that the ratio of the vapor pressures of two kinds of isotopes
of chlorine molecules is equal to the separation factor a (which holds
for the majority of isotopic systems), the temperature dependence of
this ratio may be expressed by the following equations:
1n a - ln(PC135/PC,37) = 1.7736/T - 0.00723 M
1 2 2
ln a = ln (pCl 35c137 PC137) - 1.1392/T - 0.003896 (2)
2 2
Card 1/2
The SeDaration Factors of Cblorine S/076/60/034/009/039/041XX
Isotopes in Equilibrium Vaporization of C12 B020/BO56
The partial pressures of the various kinds of isotopes are determined
from the isotopic ratio by means of mass spectrometry. The data given
in the accompanying table show that the preparation of pure chlorine
isotopes by rectification of molecular chlorine is unsuitable, because
even at a pressure of about 100-200 mm Hg the separation factor is
very small (1.0015 - 1.0010).There are 1 table and 1 Soviet reference.
ASSOCIATION; Fiziko-khimicheakiy institut im. L. Ya. Karpova
(Physicochemical Institute imeni L. Ya. Karpov)
SUBMITTED: February 17, 1960
Card 2/2
14ATVEYEVI K.I.; 1~~ARG~,__P_J.~ 9HAVORONKOV, N.M.
Separation of chlorine isotopes by the chemical exchange method.
Zhw.prikl.khim. 34 no.11:2563-2566 N 161. (IGRA :L5::L)
(Chlorine-Isotopes)
AUTHORS:
TITLE:
It 3 7
G/025/62/000/004-5/004/005
1041/1241
Uvarov, O.V., Sokolov, N.M., and Zavosonokov, N.M.
Physico-chemical constants of H2018
PERIODICAL: Kernenergie, no-4-5i 1962, 323-329
TEXT: The elementary separation factor for the system H2 016-
H2018 in the tempcraturc range from 20-210OG was determined by a
differential vapour pres:3ure measurement method. The results are
given by the formula OC-- 0.9835 exp (7-59P/T). From these results
one calculates the differcnce in latent.-heat of evaporation of the
twn water species as 14.98 cal/niob and the boiling point of pure
H2018 at atmospheric pressures as 100-130C. The refractive index
difference - an - bctween light-and heavy water was measured at
2000 with the results: .6n = 3.4 . 1o-4. Thp iamparature coefficient
of the refractive index difference between 100- 3000 was found to be
_Card 1/2
G/025/62/000/004-5/004/005
1041/1241
Physics-chemical constants of H2 ()18
(1.18-1.20) 10-6. Tlhe-dex~'sity of enriched waters of varying H2 018
-concentration was measurc-d at 250C and 3000 ~nd the result obtained
was d A+0.00107. N where N_= water concentiaation of H20 18 and A
at 250 0.99720. Pure H20-Lo at 250 is then'l.10723 denses than
normal water. There are 5 drawings including a schematic sketch of
the differential v4pour pressu.re apparatus and 6 table of results
(translator's note~,,Imodificd translation of author's abstract)
ASSOCIATION: Karpov Institut for Physical Cheiniatry, Moscow.
SUBMITTED: Paper presented at the 2nd conference on Stable
Isotopes, October 30, November 4th, 1961.
Card 2/2
MALYUSOV, V.A.; ZHAVORONKOV, N.N.; MALAFEYEV, N.A.; ROM-MOV, R.N.;
Prinimali uchastiye: BABKOV, S.I.; UVAIOV, O.V.; SOLYANKIN,
L.N.; GRIS111,11, D.M.
Effectiveness of regular packings in the rectification of water.
Khim.prom. no.7:519-529 JL 162. (MIRA 15:9)
(Packed towers)
UVAROV, O.V.; SOKOLOV, N.M.; LYAPIN, V.V.; ZRAVORONKOV, N.M.
Coefficients of separation of the carpon isotopes C12'. C14
during the equilibrium vaporization of methane. Zbur. 1100
7 no.6:695-697 162. (MIRA 15:12)
1. Nauchno-inaledovatellskiy fiziko-tekhnicheskiy institut
imeni L.Ya. Karpova. (Aethane-)
(Carbon-Iso~ors)
(Evapoiatio'n
0470
3/076/62/036/012/005/014
BIOI/B160
AUTHORSe Uvarov, 0. V., SDkolov, N. M., and Zhavoronkov, N. M. (Moscow)
TITLEt Physical and chemical constants of heavy oxygen water
PERIODICALs Zhurnal fizicheskoy khimii, v. 36, no. 12, 1962, 2699 - M6
TEXTs Water containing -47~, H 0 and up.to 60% D 0 was purified, and
2 ; 2
the D 0 content was reduced to 0.016 mole% with reduced heated metallic
hot iion. The following physicochemical constants were determined: (A)
The H 20 16 - H20 is separation coefficient -,(,by'a differential method similar
to that used by W. H. Keesom, J. Haantjes-(Physica, 2, 0986, 1935) for
separating neon isotopes. Result% between 20 and 210 C, log oe - 3.500/T
-0-00722 which is in good agreement with data obtained by other researcheru
~*100'c - 1.0036. The difference in heats of vaporization is 14-97 cal/mde,
the boiling point of H 20 16 at 760 mm Hg is 100-13 0C. (B) The refractive
index was determined with an interferometer. An - 0-00034N H2Oid holds for j
Card 1/2
S/076/62/036/012/005/014
Physical and chemical BIOI/B180
white light at 20OC; N H 016 is the molar part of H 2018 in the mixture.
2
Between 10 and 300 C, the temperature coefficient of the di9ference in
refractive indices of H 2016 and H2018 is (1.16 - 1,20).10- . (C) The water
density was determined pycnometrically for different H 2016 contents.
t 0
Results: d 4 ,A + 0.001070 NH 2Ole, where A - 0-99720 at 25 C, 0.99580 at
300C,and 0.99230 at 400b. At 250C, the density of 100~~ H 20 la is 1.10724
with respect to river water. There are 3 figures and 5 tables. The most
important English-language references aret S. Sakata a. N. Morita, Bull.
Chem.Soc. Japan, 29, 284, 1956; H. E. Watson, J. Amer. Chem. Soc., 76,
5684, 1954.
ASSOCIATIONs Fiziko-khimicheskiy institut im. L. Ya. Karpova (Physico-
chemical Institute Imeni L. Ya. Karpov)
SUBMITTEDs June 23, 1961
Card 2/2
UVARPVs--O. V.; SOKOLOV, N.M.;
nBetrachtung einiger Methoden zur Bestimmung der Koeffizienten der relativen Fluchtigkoiten
itabiler Isotope.0
Third Working Conference on Stable Isotopea, 28 October to 2 November 1963, Leip2ig.
UVAROVP O.V.; SOKOLOV,
Effect of the evaporation conditions on the value of the partition
factoroC in the cour3e of Raleigh distillation. Zhur. fiz. khim. 38
no.7:1863-1864 ii 164. (MIRA .18:3)
-UVAROV, P.
Correct organization of material
SM 17 no. 4:54-58 Ap '51' ).
(Gorkiy--Automobile
and technical supplies. Yin.
(KLRL 9:8)
industry-Firance)
UVAROV, P.
Conducting the classes on industrial safety. Prof.-tekh. obr.
20 no.8i29 Ag 163. (Him 16:9)
1. Starshiy inzh. po podgotovie kadrov kombinats. Roatovugoll,
g. Shakhty Rostovskoy obl.
(Mining engineering-Safety meaBures)
0
1 * TTVAROV P. S., POPOV, T.-. G.
1
2. ussp (6oo)
4. Hore e s
7. Horsebreeding on a leading collective farm, Konevodstvo 23 No. 2,
1953
9. Monthl List of Russian Accessions. Library of Congress, UY - 1953, Uncl.
UVAROV, F.T.
Business accounting of the supply departments of the Gorkii Automobile
Plant. Avt.trakt.prom. no.11:1-4 1 154. (XIRA 8:1)
1. Gortkovskly avtosavod im. Molotov&.
(Automobile industry--Costs)
UVAROT)v P.T.
.1 ...........I...........,
Introducing a pneumatic gun for
Cos. nauch.-issl. inst. nauch.
spot welding. Biul. tekh.-ekon. inform.
takh. inform. 18 no.6;19-20 Ja 165.
(MIRA 18t7)
Uw Engineering - Supply
Cal-4 1/1 Pub. 128 27/33
Anthors, j Uvarov,, P. T.
Title supply reijerve3 in the service of economics
Vest, mash. 36Aj 76-7-9, 'Jan 1956
A.bstr"t The importance of a timely supply and proper distribution of raw materials
to manufacturing. plants are emphasizedo and problems connected with inter-
factory transpDrt, cost accounting procedures and economical metbods
adopted in varlous manufacturing plants in organizini, supply, transportati
and loading and unloading of materials, seating of cost accountirg units,
wholesale prices, etc., are discussed.
Institution s
Submitted
Ovi)
KISELIV, I.I.; BORISOV, N.I.; YASINOVSKIT, B.S., inzh.; SANNIKOV, Yu.K., iazh.;
SOKOLOV, V.A., inzh.; LEYCHMO, L.D.. inzh.; NALOYEV. G.A., inzh.;
CHICHAKO7, K.K., inzh.; BARYKIN, V.I., inzh.; FR=IN, A.Ta., inzh.
GULTAYEV, A.I., inzh.; STIGNUXV, TA.F., inzh.; SHAGANOVA, K.N., inzh.;
KHLIMSKIY, I.Ya., inzh.; AVROV. A.N., inzh.; D3MIDOVA, M.I.. inzh.;
NIKIFOROVA, Ye.D., inzh.; KLIBANOVA, Y.I.. inzh.; CHIVKUNOV, K.I.,
inzh.; STOR0ZHKO, I.G.. insh.,- NOVAKOVSKIT. Tejo., insh.; GOYKHA%1.
A.O.. inzh.; TARA OV. A.M., insh.: SHISHKO. A.P., inzh.; -UTARa,_
P
A_T,,,. ekonomist; DRAGUNOV, M.V., ekonomist; KARANDASHOV, A.Aeq
skonomist; KONKIN, N.V., ekonomist; GOREV, M.S., okonomist. Pri-
nimali uchastiye: LAPIN. T.I.; RAKENSKIT, Yu.A.; KADINSKIT, B.A.;
SOKOLOV, S.D.; STOROZHKO, I.G.; FOXINY , A.I.. POLTAKOVA, N.,
red.; SMIRNOV, G., takhn.red.
(Organization and im;rovement of production; practices of the
Gorkiy Automobile Plant] Organizataiia i scwarnhenstvovanie
proizvodstva; opyt Gorikovskogo avtozavoda. Moskva. Goo. izd-vo
polit. lit-ry, 1958. ))2 p. (HIRA 12:2)
1. Direktor Gor1kovskogo avtomobillnogo zavoda (for Kiselov).
2. Glavnyy inzhoner GorlkovBlcogo avtomobilinogo zavoda (for Borisov).
3. Gorlkovskiy sytomobillnyy zavod (for all except Kiselev, Borieov,
Polyakova, Smirnoy).
(Gorkiy--Automobile industry)
/ 7 "~' ~
MARKOVICH, Mark Moiseyevich;'_UV ; DROZHZHINq Yu.N. I -&Zl-
red.; KOVALENKO, V.L.9 tekhn. red.
[Nngineering taught in a physics class) Tekhnika na urokakh fiziki.
Moskva, Cos. uchebno-pedagog. izd-vo M-va proav. RSFSR, 1960. 164 p.
(MIRA 14:6)
(Ilhgineeririg--Study and teaching)
1. tJVAMV, S., Eng.
2. USSR (600)
4- loading and Unloading
7. Hechanivation of unloading operationa in lumber yards, Hast. ugl., 2, no, 2, 1953*
9. Monthly List of Russian Accessiona, Library of Congress, April -1953, Uncl.
UVAROV, S.A.; TIKHONCY, A.Ya., mositovoy master (Novosibirsk)
~-- x- ~ I. 1 1. ~. I
ProvIding for r!Afnty In wcrk on bridges. Put' i put.knoz, 7
no.901 163. (MIRA 16:10)
1. Zamesti.tell nachallnika Novooibirskoy distantsii po iskusstvennym
sooruzheniyam (for Warov).
UVAROV jg Uvnyy red.; PWOV. A.S., red.; DITAXONENKO, V.M., reds;
CMV, S.M., red.; ?3MOVA, T.G., red.; KOLISHIKOV, F.M., red.;
IMOUS, V.P.. takhn.red.
[Papers at a technical conference on design, construction, wan-
feature, and use of reinforcod concrete poles for electric trans-
mission lines and telephone communications. Novenber 27-30, 1956)
Materisly nauchno-takhnicheskoy konferenteli po proektriovaniiu,
stroitelistvu, proisvodetvu i eke luatataii zhelezobotonnykh opor
liniy elaktroperedachi i avyazi. EGrosnyi] Chechano-Ingushskoe
kniz7anoo izd-vo, 1957. 163 p. (MIRA 11:6)
1. Nauchno-tekhnicheakaya konferentmiya po proyektirovaniyu,
stroitallstvu, proisvodstvu i okeplustateli zhelesobetonnykh opok
Unit, elektroporedschi i avyasi. Grogny ' 1956.
(Reinforced concrete construction) 4lectric llnes-a'-Foles)
UVAROV, '-: 6:
Lumbering.
log unloading device of the All-Union coal Institute. Mekh. trud. rab.
6 no. 1. 1952.
9. Monthly List of Russian Accessions, Library of Congress, April 195V2 Unclassified.
UVAROV, S.G., inzh.
Coal and timber yards for mines witbzemovable equipment. Ugol
34 no.4*51-54 Ap 155). (HIRk 12:7)
(Coal mines and mining--;;quipment and supplies)
UVAROV S.G., inzh.
Determining the fields of application in coal mines and basic
parameters of coal loading into railroad cars without using
storage bins. Ugol' 36 no-4:31 Ap 1q..
(MIA 14: 5)
(Loading and unloading) (Coal mines and mining)
IROLOV, A.G.; KOZLOVSKIY, S.I.; MELOED,Z.M.;OMkCNMMvjga.IVVMOV,S.G.;
ZVENIGORODSKAYA, G.V.; KOSIAWYA11, A.Ya.p red.A-zd-va;
SHEVCHEMO, G.N.) tekhn. red.j PRUSAKOVA, T.A., teklm. red.
[Principles for the improvement of industrial complexes on
mino surfaces] Osnovy sovernhenstvovaniia tekhnologicheskikh
kozpleksov pov-3rkhnosti shakht. [E~-] A.G.Frolov i dr. Mo-
skva, Izd-vo All SSSR, 1963. 135 P. (MIRA 16:12)
1. Moscow. In3titut ornogo dela.
~'Mine buildings)
L 0912~-67 E'dT(m)/EWP(f) FDF WW/DJ/VE
AcC NRi AP60317*6-9' A) SOURCE CODE: uR/oo94/66/ooo/007/oo48/0O5O
AUTHOR: Omellchenk!ci, V. I (Engineer); Krasnikov, A. S. (Engineer); 1~prpnin,-V,-L-
(Engineer -Fon-'a-t'antinovski A. (Engineer); Uvarov, S. N. (Candidate of technical
sciences)
ORG: None
TITLE: Industrial electric power generators using aviation turbine engines
SOURCE: Promyshlennaya energetika, no. T, 1966, 48-50
TOPIC TAGS: electric power engineering, electric power plant, turboprop engine
ABSTRACT: The authors discuss the advantages of using discarded aviation turbine P-n-
gines for generating power in industrial plahts,,transport and in various branches of
the petroleum industry. Units using aviation turbine engines could be made for variousi
power requirements varying from several hundred to several thousand kilowatt output.
The authors describe a successful attempt to set up such a unit in the Soviet Union in
1965. This unit utilized an AI-20 turboprop engine in conjunction with an SGN-14-49-6
1000 kv aynchronoue generator.p This generating plant was equipped with an automatic
control which ensured its starting, controlled its fuel and oil supply and handled
emergencies. The AI-20 turboprop engine is capable of running on various fuels. It
was found that it could be operated on diesel fuel and natural gas if the natural gas
A I
Card IJ2 UDC: 621-311.23+629.13.02/v07
L 09123-
ACC NR;
was compressed to 10 atm. The lubricati n mixture used for operating this engine con-
sisted of TO transformer oil or MK-811and 25% MS-2016r MK-22 oil.-"/ The engine consumed
0.8 liters of oil per hour. Sini-ea 1600 kilowatt generator could not be found, the
engine was set to function at 50% capacity. The weight to power ratio of this unit wa
12.3. The unit functioned normally throughout the test period. One of the advantages
of using such a unit is that'it does not require water for cooling and the exhaust
gases of the turbine can be used for heating purposes. Orig. art. has:- 4 figures.
CODE: 10, 13 / SM DATE: None
Car4 2/2
_L 45518-066 __T-21i'~"'-V'P(f) 'e.1W
ACC NR: AP6016917 (A) SOURCE CODE: UR/010,1/66/000/002/0005/0008
,~AUTHOR: Bukreyev, B. A. (Engineer); Tandler, M. M. (Engineer); Yakovlev, N. A.
~(Engineer); Uvarov, S. N. (Candidate of technical sciences); Uspenskiy, A...N.
~(Candidate of technical sciences)
ORG: none
TITLE: Electric generating stations with Al-20 gas turbines'~
SOURCE: Elektricheskiye stantsii, no. 2. 1966, 5-8
TOPIC WAGS: gals turbine, turboprop engine, electric power plant,, )a-"-
/ Al - .10 1"
ABSTRACT: In 1964, plans and blueprints were developed by the Giprolestrans
Planning Institute of stationary, quick-aasernbled, and transportable AI-20 turboprop
engine-driven electric power plants. Such a 50-cps, 6. 3-kv plant is to have a
capacity of 1250, 1600, 2000, or 4000 kw. Sketches of the stationary and trans-
portable plants are shown. Estimates show that such a plant will be economical if it
is operated as a peak-load station, up to 3000-4000 hra per year, and particularly if
it uses a partly worn-out airplane engine. Orig. art. has: 4 figures and 1 table.
SUB CODE: 10, 09V/ SUBM DATE: none / ORIG RE F: 003
KASUIRT50, Arkadiy Serguyevich. Prinimali uchiistiye: TOLSTYKH, A.N.-,
IYANSAN, T.Tu.; UYAJIOT, S.Y.. SUTANOT, D.L., prof., otv.red.-,
KORDS, X.B., red.izd-va; SUSUOYA, L.A., tekhn.rF,d.
(Field atlas of the fauna of Permian deposits in the north-
eastern part of the U.S.S.R.] Polevoi atlas fauny parmskikh
otlozhenli Severo-Yostoka SSSR. Koskva, Izd-vo Akad.nauk
SSSR, 1959. 84 p. (MIRA 13:2)
(Siberia, Eastern--Paleontology, Stratigraphic)
UVAROV, S.Ya., inzh.
Power distribution network of a modern shop. Prom. energ. 19
no.3:35-36 Yx 164. f.%flRA 17:4)
UVAROV G.A,,-,-kand.tekhn.nauk; SHESTAKOV, B.I. , kand.tekhn.nauk;
~ . ---- -
FBDOROVP VA., inzh.; GOPKO, M.K., inzh.; ANDfUMN, G.B., inzh.
ORLOV) A.V. , inzh.
Simultaneous burning of anthracite culm and gas with Cdfferent
methods for supplying the gas to the furnace. Toploenergetika
8 no./+:52-57 Ap 161. (MIRA 14:8)
1, Kuybyshevskiy industrialInyy institut i Ku7byshevenergo.
(Furnaces)
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64-58-4-1/20
1J
AUTHOR; Uvarov2 G. V.
TITLE; ---The Develop Quicker (Razvivat'
kbimicheskuyu promyshlennost' uskorennymi tempami)
PERIODICAL: Khimicheskaya promyshlennost', 1958, Nr 4, PP- 197 - 2oo(USSR)
ABSTRACT: The May Plenary Session of the TeX K?SS (Central Committee
of the Communist Party of the Soviet Union) passed a histori-
cal program that mainly concerns the industry of natural
and artificial fibers, plastics and other synthetics as well
as products made of them. In order to show the great scale
of this plan also some data on the planned development are
given and the provinces concerned are mentioned. Among others
also the insufficiencies to be removed at the MKhP (Ministry
of Chemical Industry) are mentioned and it is noticed that
for a successful development of chemical industry the cor-
responding equipment and apparatus must be designed and pro-
duced by the industry for machine building, apparatus build-
ing and mechanization. The publication of projection docu-
Card 1/3 mentations is regarded one of the most important problems;
The Chemical Industry Must Develop Quicker
sov164-58-4-112o
the projecting Institutes had to be assisted in this work;
some of them art) mentioned. The work of the scientific re-
search institutes is criticized by some examples; a more
directed and quicker work is demanded. The working out of
new9 and the improvement of existing methods for the produc-
tion of initial materials for polymerization products of
mineral oil and natural gases is mentioned as an example.
Besides the perfeotion of already existing processes special
interest has to be paid to the development of especially
resistive and heat-resiative polymers for plastics and arti-
ficial fibers. In order to promote scientific research work
some institutes and branches are being organized, which are
mentioned by the author. The production of acetic acid by
the Vladimir Chemical Plant is mentioned as example for a
successful complex autcmation. A cooperation among the
socialist count:eies is recommended, the cooperation among the
chemists of the USSR (SSSR) and Czechoslovakia (Chekhoslovat-
skaya respublika) beinic mentioned as an example. The ex-
penditure for scientific-technical literature should be in-
creased and the teohniial information service on foreign
Card 2/3 and domestio science and technique is to be extended. An
The Chemical Industry Must Develop quicker SOV164-56-4-1120
improvement of working methods is recommended to the Labora-
tory for Technical-Scientific Investigations and Informations
InAtute imeni L. Ya. Karpov (Institut im. L. Ya. Karpova).
Finally it is mentioned that the decisions by the plenary
Session met wi'&-Ih international agreement.
ASSOCIATION: Gosudarstvennyy komitet Soveta Ministrov SSSR po khimii
(State Committee for Chemistry of the Council of Ministers of
the USSR).
1. Chemical industry--USSR
Card 3/3
5(l) PHASE I BOOK EXPLOr1!ATION SOV/2997
Deputy Cwrman of the State Committee on Chemistry
of the LISSR Council of Ministers
Razvitiye kbimicheskoy promyshlennosti v 1959-1965 goaakh (Developwnt of the
Chemical Industry Between 1959 and 1965) Moscow,, Izd-vo "Znaniye," 1959. 15 P.
(Series: Voesoyuznoye obshchestvo po r*x rostraneniyu politicheskikh i
nauchnykh znaniy. Seriya IV, 1959, no. 47,500 copies printed.
Sponsoring Agency: Vaesoyuznoye ob~shchestvo po rasprostraneniyu politicheskikh
i nauchnykh znaniy.
Ed.: T. F. Islankina; Tech. Ed.: L. Ye. Atroshchenko.
PURPOSE: Vais booklet is intended for the gengral reader interested in the chemi-
cal ihdustry.
COVERAGE: The booklet emphasizes the graving importance of chemistry for differ-
ent branches of industry and states that the rapid progress in aviation, rocket
construction, electronics, and atomic enerjW has., to a great extent,, been made
possible by new synthetics and plastics marmfactured by the chemical indugtry.
Card 1/2
Development of the Chemical Industry (Cont.) SOV/2997
As illustration 1-t 1>--)intg out that tW TU-104 aircraft has 120,000 parts mad
of synthetic r-.fnber or p1r-Witiis. Rav materials needed to mamfacture chemical
and petrochemicals are enwnerated and the quantity of these materials now
availdble in the Soviet Union indicated as well as the location of nevly built
chemical plants. ]To personalities are mentioned. No references are given.
TABIZ OF CONTENM:
Raw Material Resources
Distribution of New Enterprises
5
10
Development of Different Branches of the Chemical Industry 11
AVAILAZZ: Library of Congress
Card 2/2 TM/os
2/l/6o
5(0) V:
AUTHORs Uvarov, G., Deputy Chairman of the SOV/29-59-4-1/26
tate Committee for Chemistry at the
Council of Ministers of the US3R
TTITLEs Komsomol, Let Us Fight for the "Great Chemistry"
(Komsomol, v pokhod za bollshuyu khimiyu !)
PERIODICALt Tekhnika molodezhi, 1959, Nr 4, P I (USSR)
ABSTRACT: The Central Committee of the CPSS decided in May 1958, to speed
up the development of the qhemical industry. The characteris-
tic feature of the modern chemical industry in its capability
of creating entirely new materials, which have no correspondence
in nature, from cheap and abundantly available raw materials.
During the next seven years prineipal care will be directed
towards the production of synthetics, especially chemical fibers
and plastics. Production of chemical fibers is to be increased
by the 4-fold within the end of the Seven-Year Plan . In
particular, the production of specially high-quality synthetic
fibers is to rise b,y the 12 - 13-fold and that of pla*stice and
synthetic rubbers b,T more than 7-fold. As much as 450 million
meters of textiles will be produced by the end of the Seven-
Card 1/3 Year Plan with the use of synthetic fibers. The consumer will be
Komsomol, Let Us Fight for the "Great Chemistry" SOV/29-59-4-1/26
offered large stocks of synthetic furs, footwear and household
wares, all made of synthetic materials. To secure a surplus
in goods, the government has appropriated investments of
100 - 105 billion rubles for the development of the chemical
industry. This money is to be employed for the construction of
140 new plants, 35 of which are to produce synthetic fibers,
and for the transformation of more than 130 existing plants.
The creation of the "great chemistry" is impossible without the
contribution of youth. The Lenin Komsomol has taken over the
sponsorship of 27 new chemical plants. Youth is working with
great enthusiasm at the eqnstruction of chemical fiber factories
at Barnaul, Ryazan', Engells, Krasnoyarsk, Kiyev and Mogilev.
The Central Committee of the LVKSM in conjunction with the
State Committee for Chemistry at the Council of Ministers has
invited entries for a contest among youth collectives partici-
pating in the construction of chemical plants. As a means of~,
encouraging the be3t collectives a challenge prize, the Red
Banner of the TsK VLKSU and of the Gonkhimkomitet, an well as
three money prizes in the amounts of 15,000, 10,000 and 5,000
rubles are contributed. Furthermore an All-Union youth contest
Card 2/3 has been announced for the best rationalization suggestions in
Komsomol, Let Us Fight for the "Great Chemistry" SOV/29-59-4-1/26
the field of chemistry. The following prizes will be assigned
to the contest participants for the best inventions, technical
improvements and rationalization suggestions in the field of
chemistry, that have so far been adopted in the works with
technical and economic benefitai 15 first prizes (motor
scooters "Tula-20011, pianettes, motorcycles IIIZh-56")l 25
second prizes (accordeons, hunting rifles, television sets);
50 third prizen ("Zorkiy" cameras, radio sets, record players
and tape recorders "Ellfa"). There is 1 figure.
ASSOCIATION: Gosudarstvennyy komitet Soveta Ministrov SSSR po khimii
(State Committee for Chemistry at the Council of Ministers, USSR)
Card 3/3
BARDIN, I.P., okademik, glavn" red. Ldecenaedj; VOLIFKOVICII, S.I., aka-
demik, otv.red.toma; UVAROV, G.V., red.toms; KOKAROV, V.P.,
dotsent. red.toma; LAVBMUOYEV, M.A., skademik, red.; DIKUSHIN,
V.I., akademik. red.; RZKOHINOV, V.S., skademik, red.; TRITS, V.I.,
red.; LZVITSKIY, O.D., red.; NWCRASOV, N.H., red.; PUSTOVALOV. L.B..
red.; KHACHATURUY, T.S., red.; ROSTOVT&W, N.Y., akademik, red.;
POPOV, A.N., red.; GWOV, L.Ye., red.-, GASHEV, A.D., red.; PROBST,
AwYee, prof., red.; VASYUTIN, V.F., prof., red.; XROTOV, V.A., prof..
red.; VASIL'YW, P.V., doktor ekonom.nauk, red.; LWDOGOVSKIT, G.L.
kand.tekhn.nauk, red.; LEMOV, P.A., kand.geol.-mineral.nauk, red.;
SHKOLINIKOV, K.G., kand.ekonom.nsuk, red.; BARKVITSER, A.L., red.
izd-va; BMJZGULO, V.V., tekhn.red.
[Chemical indu8tryl Khimicheakaia promyshleanost'. Koskva, 1960.
202 p. (KIRA 13:7)
1. AkBdemiya nauk SSSR. Sovet po lzuchaniyu proizvoditelinykh
ail. Sibirskoye otdeleniye. 2. Chleny-korrespondenty AN SM
(for Veyta, Levitskly, Xekraeov, Pustovalov. Khachaturov). ). Vse-
soyuznaya akedemiya ae1'skokhozysyatvennykh nauk imeni V.I.Lenina
(for Rostovtsev). 4. Doystvitellnyy chlen Akademli stroltellstva
i arkhitaktury SSSR (for PoPov). 5. Zamestitell predeedatelya
Gosplana RSFSH (for Grafov). 6. Chlen Gosplana RSFSR (for Oeshev).
7. Zamestitell predsedatelya GoBudaretvannogo komiteta Soveta Mi-
nistrov SSSR -oo khimii (for Uvarov).
(Chamical industries)
UVAROV. G.V.
Chemicals and synthetic dyes for the industry. Kozh.-obuv.prom. 3
no.1.1:14-17 N 161. WIRA 1.1:1)
1. Zamestitel' pre4sedatelya
Soveta Ministrov SSSR.
(Chemistry, Technical)
Gosudarstvennogo komiteta po khimii
(Dyes and dyeing--Leather)
UVAROV, G.V ------
We shall carrj out the decisions of the historical 22d Congress of
the GPSU. Who 6 no.6.-602-603 '61. (MIFA 14:12)
(Chemical industries)
BUSIIUYF,V, Viktor Mikhetylovich; UVAROV, Georgiy YULJ-!7~yjch~-MADA, P.A.,
red.; GERASIV-OVA, Ye.S--T-U~---red.
[Soviet chemical industry during the current seven-year plan]
Sovetskaia, khimicheskais. promyshlennost' v tekushchem semiletii.
Moskva,, Izd-vo ekon. lit-r-j, 1962. 197 p. (MIRA 15:4)
(Cheivical industries)
UVAROV, G.V.
.f. lk-uka i zhiznt
Application cf chemistry to agr~laulture end industz-
2.'? no.3.4--7 Mr 062. (MIRA 15',71)
.1, ZamentAtel predsedatelya Gosudarstvennogo kamiteta Soveta ~finlstrov
SSR po khimli.
(Agri.cultural chemistry) (ChemiBtry, Technical)
UVAROV, G.V.; SALAMATOV, I.I.
Increase in the variety of output and the improvement, of
the quality of constniction materials should be the main
objective of the chemical machiner7 manufacture. Zhur.
VKHO 8 no.3042-244 163. (WRA 16:8)
UVAROV, G.V.
Carrying out the decisions of the December Plenum of the Central
Comittee of the CPSU is a concern of all. Soviet peopla. Zhur.
VKHO 8 no.6:601-6,D4 163. (MIRA 17s2)
1. Zamestitell predsedatelya Gosildarst;ennago komiteta khimiches-
koy i neftyanoy promyshlennosti pri Gosplane SSSR.
-Jrwl,