SCIENTIFIC ABSTRACT VNUKOV, A.K. - VOBECKY, J.
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December 31, 1967
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SCIENTIFIC ABSTRACT
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VIMKOV, A.K.. kand.tekhn.nauk
Leak,z in comWstion chambers, their influence on the operation
of boilers and simple control methods. Teploenergetik-a 7
n0-3:44-48 Mr 160. (WRA 13:5)
1. Yuzhnoye otdeleniye Gov-,udarstvennogi) tresta po organizateii
i ratsionalizataii elektrostantair.
(Boilers)
SO-1/96-59-7-5/26
AUTHORS: Vnukov.-A,K. Candida-e of Technical Science,- and
Engineer.
TITLE: The Aut-omatic Control of Drum-type Ball Mills According
to the Level of the Fuel in the rTlim (Avtomatizatsiya
sharovykh barabannykh mel-nits po urovnyu to,)Iiva v
barabane)
PERIODICALt Teploenergetika, 1959, Xr 7, pp 1.9-21 (USSR)
ABSTRACT: During the last year and a half many stations in the
south of the country burning anthracite fines have intro-
duced control of the loading of ball mills according to
the level of fuel in the mill. Good results have been
obtainedeven though the actual concept of fuel level is
The word Ilevel^ is used on the
ob s cu re.
assumption that the milled fuel is in the lower part of
the drum and behaves as a liquid. This concept has been
used to explain the operation of the signalling devices,
such as those illustrated in Figure 1, in the follo-wing
way: two tubes through which air is blown are connected
together externally by a differential pressure gauge.
Card 1/6 Inside the mill the lower tube is at a certain dePth balow
S071915- 59-7-5/26
The Automatic Control of Driim-type Ball Wills According to the
Level of the Fuel in thi.~- Driiia
the level of fuel and the upper tube is in thhe air, The
air in the !owe-,- t-%be has to overeome the resistance of
the fuel layer and the magnitude of this re-oistance .,..s
proportional to the depth of iiamersion. Instead' of pump-
ingthe air in from outside it may be -induced by lowe~r.-1.njg
the pressure in the mill., This induc-tion method was used
11 4-
in studying t'-qe levei in a mi type Sh-16 millAing Donets
anthracite fknes,, During 'he test the mill operated wi-th
a 28-ton load of balls, and the fuel residue on an 83-mesh
sieve was 7 to 9%. The' mill output could nct be measured,
but the fuel level in the mill was maintained constant by
automatic control. During the tes't, the upper tube remained
fixed and different lower tubes were used so that the
pressure-difference field could be measured in a number
of places. The partial vacuum in the mill air-duct was
180 - 200 mm. water; the pressure drops obscrved at
different places on the section of the mill about 150 mir,
from the end of the drum are shown in Figure 2. A cuin~re
Card 2/6 of pressure increase along the vertical diameter of the
SOVI'-i6 - t) '-'J-7 --- 5/26
The Automatic Control of Dr-,,im- Lype fial.11- Mil lo A7~,,cord ji-ng t,(-,
Level of the Fuel in the Dr,~!-z
drum is showta in Flgure Abi-ive- fu-l levt~l the
pressure drop is practically arlid ljolow tbe lovel
the pressure drop ir,.:~reases rapidly 'Vo 1.00 auu viciter.
Although t1he assumption thr~t tbe fuel --'s a liquid
satisfao'L---,rily explains the upe~cation of tht-. di-l-vi.ce- ill-
ustxated iii Figux-e i. it was founi th.,?.-t the device con---
tinued to operate if the holes used to supply air to the
tubes were stopped up. In order to investigate this
question furtber, two tubes were intrDduced into the drum
and differential pressure gauges connected belween them,
as shown in Figure 4. The mill was emptied before -rhe
test and at the sta--t- of the tes" the rate of --oal delivery
was sharply inc:raased. As the 1---ad in the dn.4m inc--reased
the partial vacuum in the lower tube steadily dropped to
zero and af ter about 38 minutes theare was a pressure
difference of 110 mm water. The process of pressur-
increase was fo'Llowed until there were signs that the M.J.11
was becoming overloaded, it will be seen from the results
Card 3/6 plotted in Y�gV,-,r--e 4 tha'j thE; pt--irtial var.%uum beyend the
so -- 5 q.- 7 _:V2~;
The Automatic Control of R.,.,um-type ba.11 Mill's A~Iccrdirg tc the
Level of the Fuel in The R-t;c_
m -1.
ill measured 'Lln thp- way ~raried little an-A was about
190 mm wat--r. in -opper tiibe allso r1jan"r-red 1-i-TI-t-le,
and was 2.2() um waT-er. 'fwG explarva~ions rf tKe fa,~tq aTe
ossL _- . If' the fj.lel. behaves a,~j a liquid j.. may bp
Jbir
p
su-oDosed thot the -dust penetrates i -nto the vertical -rja,-:-t.-
of the lower tub? and e~cmpresses Qie air in it. An r; t h e r
explanatic-n --*.s that the pl,essure-drop refle!-,-ts ';he a,-tua_-
L
air-pressure con,~it--ioiis withIn tvhe di-um,, -by Tput-ting a
porous barri,-.!r J.'n ttie end of the- JC.W~_r 4 ube to prevent
ingress of fuel JI-c- was shcwn tlk.~~t the fi-rsr, explanation
does not 11-jid. The ~7iir-oressure distribu-~ioil in the Iru-rq
can be explai-ned as follOws. AB the fuel and balis
the fuel is thl-o,~m. to ~Ithie f,,:,.r side uf the. balls., as- shown
in Figure 2. As t1he f,_,el falls back, the upper layers of
fuel/air mixture compress the lower ones, ac, causing 4Fhe
observed pressur,~. dist:vlbution. Ai:,.~ r;-reqsure j.S ajSj-, Se4.~
Card 4/6 up by rezarrda-i~,r. of fuel. particles and their mo-vemen-11
relata.ve to the As -the quant.-Ity of fued in tbe &rum
SO - 5'~';4_7 - 5126
The Automatic Control of Drum-ty-pe Ball 14-ill's According- to the
Level of the Fuel in the Drim
increases, the 'pressure starts to rise in the upper tuber
In this case the pressure, idifference between tirie upper
and lower tubes becomes almost constant, and does not de-
pend on the air conditions in the dnuit, It; will be seer-,
from Figure 4 th,-t ci~ianges in the ventilation ~f the mill
had little effect on the i)ressure drop between the tubes.
The effect is comDared wilh the useful, head during the
circulation of a steam-water emulsion. In any case. there
is a sim-Dle relation between the quantity of fuel in the
drum and the p ressure drop between the tubes, villich provides
a very convenient signal of fuel level, The best value
of pressure-drop to be maintained should ~e determined
from mill output tests. A mill automc,.tion !-~rran-cment
based on this device was used nt a southern -oower station,
A schema-tic dir~gram of -the equipipent is shown in Figure 5.
The tubes are 16 mm diameter and are suppGrted at the point
of entry int-o the drum; it is found thal they dc. not become
blocked, presumably because they vibrate. This scheme has
a number of advantages over previous ones; in particular
Card 9./6
S Q V/0 r, -5 0 - 72 6
The Automatic Control of Drum-type Ball Mflls Accord-ing to the
Level of the Fuel in the Drcm
it is not necessary 'to maintain a constant, partial v-.---,-
uum in the mill and the fuel load can be controlled over
a very wide range.
There are 5 figures and 2 Soviet references.
ASSOCIATIOM. Yuzhno e otdeleniye ORGRES (Thtl~ Southcr-.a Division of
ORGREST
Card 6/6
VNUKOVq A.K., Cand Tech Sci -- (diss) "Certain 4~k,~M3-= the
LIvov
firing of high pressure cylindrical boilers" - Jd-v-WPY1957. 17 Pp
I k-,de k e ~-
with 22 cm (Min of Higher Education USSR. Mos
Order of Lenin Power Engineering Inst in~(iiolotov). 100 copies
(KL, 9-57, 101)
AID P 2038
Subject USSR/Engineering
Card 1/1 Pub. 110-a - 11/14
Author ; Vnukov, A. K., Eng.
Title : Experiments with the ignition of high-pressure boilers
Periodical : Teploenergetika, 4, 54-57, Ap 1955
Abstract : The article describes experiments made with the firing
of high-pressure boilers of two different designs.
The main factors which determine the distribution and
variation of temperature in boilers were investigated.
The author reports some observations on the uneven
heating of watertubes and drums and recommends complete
and early valire opening before commencement of ignition.
Six diagrams.'
Institution: None
Submitted : No date
VNUKOV, A.K., kand. takhn. nauk
- -
Electric radiometer as an instrument for determining the therml
flow of radiant energy. Torploenergetike 5 no. 8:91-92 158s
~MIRA 11:8)
(Radiometer)
AUTHOR: jnukov, A.K. (Cand,. Tech - Sci.) SOV/90-58-10-0/25
TITIZa Temperature conditions and thermal stresses in high-pressure boiler
drums during normal and accelerated shut-down.(Temperaturnyy rezhim
i termicheskiye napryazheniya v barabanaldi kotlov vysokogo davleniya
pri obychnoy i uskorennoy ostanovke)
PEELIODICALs. Teploenergetika, 1958, No.10. pp. 23-25 (USSR)
ABSTRACT-. When a boiler cools down, heat exchange takes place between the walls
of the drum, the surrounding atmosphere, and the substance filling
the drum. The drum cools most rapidly from within. A cooling curve
for the drum walls of a boiler type TP-230 is given in Fig.li the
theoretical curve (1) is calenlatea by equation 2. The experimental
curve (2) shows that cooling is actually four or five times more rapid
than indicated by -curve (1). Uence, external cooling of the drum is
of secondary importance and internal cooling predominates. This
question is then considered in more detail. After disconnecting the
boiler superheater, blow-down, is coutinued for up to an hour, or even
longer during accelerated shut-down., During this time, the boiler
operates as a heat accumulator, so that the whole mass of water is
cooled as the pressure falls. During a normal shut-down, the drum
continues to deliver steam, Yehich is condensed in the superheater tubes.
Temperature changes of various points on the small and large drums of
a boiler type TP-230 during shut-down are plotted in Fig.2. Typical
Card 1/2 curves of temperature aifference along the length of the drum, and
. . . . . . . . . .
SOV~96-51-10-6d,25
Tepperature conditions and thermal stresses in high-pressure be ler rums uring
normal and accelerated s1hut-down.
round the perimeter, are -,iven in Fitgps~ 3. & 4. r3spedtively. It is
sitown that, during noimal cooling, temperature differences in the most
massive part of the drum are not more than 200C, and the corresponding
thermal stresses are uefrligible, Tests of rapid shut-down, with
increased output of steam to ensure cooling, show that temperature
differences of 80 - 1000C can arise in the salty sections of the
boiler (See The corresponding stress conditions in the drum
are estimiatea and the obange in -the maximum temperature difference
during cooling is -.-aphed in Fig,O~ The cooling, stresses are greatest
only after the internal pressure stresses have 1jeeome much reduced and,
therefore, the total stresa is not ex-~essive. It is concluded that
the cooling time of drum-type boilers could be out to 5 - 6 hours
without risk to -ths (irum~ Tlis_-e ar!~ 6 figures and I Soviet
reference,'
ASSOCIATIONs Southern DivirAoli of OJIGRES kYv_z'Lroy-,, O'idelenive ORGRES)
Card 2/2
sov/96-50-C-10/22
0 ~' /
AUTHOR: Vilukov, 41. K. (%Candidr~ 'Go o.-L' Scic.".C5
TITIZ: An "lectrie-zad omoter all Ins,rumont for determinina the
Thermal Flow of Radiant Bnor.-y (Elcktricheskiy radiometur
pribor dlya o--)redoleniya to,.)lovoclo potoka luchistoy
PERIODIC'AL: Toploenor[;etika; 1958, 1Tr 8, pp 91-92 (USSR)
ABSTRACT; In tests on furnaces and radiant heating-surfaces,
measurements of intensity of heat flow are usually iaade
by means of water calorimeters. A, water supply is
required and the me--hod of measurement is rather compli-
U
cated. A platinum-plate radiometer is somewhat simpler
to use but also requires cooling water and periodic
calibration. This article describes an instrument free
from these defects; its oDeration is based on an equation
of radiant-heat exlcl-ianse, that is given. There is a
fairly wide tomporature range within which the temperature
of the heatod body has practically no influence on trio
heat flow. An equation is then written for the rate of
temperature rise of a small thin plate insulated on one
side. Tile equation used in the design of the instrument
Card. 1/3 is based on these two formulae. Experimental curves of
sov/96-58-8--,,9/22
An Elec tric-radi ome ter - an Instrument- for determinin,2" t-h-O 'Ther
Flow of Radiant Energy
the temperature of the heated plate and the rate of change
of temperature as functions of time are given in Fig 2.
To make a measurement2 the instrument, which has previously
been cooled, is rapidly placed in the furnace or flue and
the time required for the gaivanometer needle to cover a
Certain tomucra.ture range is noted. The heat flux is then
calculated from the design formula. The heated element
is in the forn of a disc insulated at the back and edges.
A form of compensating guard plate is used, as illustrated
in Fig and there are radial compensating rings, as shown
in Fig A sectioned diagrain with dimen3ions is aiven
in Fig 5. The particular instrument illustrated was
intended for measuremento of the thermal loading of furnace
Card 2/3
sov/96-58-8-19/22
An Electric-radiometer - an Instrument for determining the Thermal
Flow of Radiant Energy
screens* Special calculationg have shown that, with a
thermal flux of 100,000 kcal/ml-tir, the total error of
the instrument including the galvanometer does not exceed
3.5%7 which is very satisfactory.
There are 5 fioures7 no literature references.
a
1. Radiometers--Design 2. Radi8meters--Performance 3. Thermal
radiationr-I-Meas-arement 4. Mathematics--Applications
Card 3/3
WRIKOV, A.K.,--kand. tekhn. nauk
Increase in the heat-releaee rate of gas and mazut furnaces.
Energ. i elektrotekh. prom. no.1:5-8 Ja-Mr'64.
(MIRA 17:5)
VNUKOV, A.K., kand. takhn. nauk; SINTAK3VICH, B.G., inzh.; CUBAN, 0.1., inzh.
Heat loss due to external cooling of high and very high capacity
units. Toploonergetika 5 no.4:94-95 AP '58. (MM 11:5)
(Boilers) (Steam turbines)
V/V v /~-r- V
91-58-7-6/27
AUT';MS: Dutikov, S.S.; Shevelev, A.A.; Vaytsman, V.M., Engineers
and Vn Candidate of Technical Sciences
TITLE: Exchange of Experience(Obmen opytom). The Automated Oper-
ation of Mills(Avtornatizatsiya raboty mellnits).
PERIODICLL: Energetik, 1958, Nr 7, pp 19-20 (USSR).
ABSTRACT: In 1957, 5 drum ball mills (4 mills of 'Sh-16" type and I
biconical mill of "ShK-25" type) were automated according
to the design suggested by Yuzhnoye otdeleniye ORGRES (the
"ORGRES" South Branch Office). The following equipment was
utilized: electronic controllers of "ER-III" type on 2
mills and electomechanical direct feedback columns of the
"Energodetall " plant on 3 mills. Their structural details
and operation are described. Tile first experimental ser-
vice of this automated system proved its operational stabil-
ity and wide control range, as well as easy maintenance,
The various requirements to be met for automating mills,
Card 1/2 such as good dust system, continuous aeration etc. are
Exchange of Experience
91-58-7-6/27
outlined. The "dust level" automation of mills must gua-
rantee a decrease in consumption of electric energy for
the preparation of pulverized coal by 3 to 4 kwh per ton
of milling. There are 2 diagrams.
1. Ball mills--Operation 2. Ball mills--Electronic controls
Card 2/2
DUTIKOV, S.S., inzh.; STUMBIXIV, A.A., inzh.: VATTSYMI, V.M., inzh.;
VNUKOV, A.K., kand.tekhn.nauk
Automatic control of ball nil! operation. Enargetik 6 no.7:
19-20 JI 158. (MA 11:10)
(Pulveripars) (Automntle control)
- --- --- - - V-AYTS14AN-,-V - 1-1.-inzh.; VNUKOV, A.K.,kand.tekhn.TLquk; MARKO, V.P.,inzh.
...
Automation of the chnrging of fuel into bell wills. Zlek.stn.29
no-3:85 Mr 158. (MLRA 11;5)
(Pulverizers)
06-4-24/24
AUTHORS: Vnukov, A.K., Cand.Tcch.Sc., Sinyahevich, D.G., En-ineer
-7JTHU-Gl-,~an,~O. I. , Encineer.
TITLE: Theriual-lossev resultin!, from external coolin- of sets
working at high and super-hie., steam conditions.
(Teplovyye poteri ot naxuzhnogo okhlazhdeniya blokov
-so- , , parai:ietrov).
vysokilh i sverkhv~ -ilt
0 1'io.'[jpp.04-95- (USSR).
PERIODICAL: Teplooner etilka, 195,31
ABSTRACT: In 1057 the Southern Division of ORGREI:.S tested the ther-,qal
insulation of a hiUIa-pr~~ssure set in the Pridneprovsk
re--ional po,.,.,er station and of a super-hiEh-prescure set
in the Cherepetsh Power Station. Measurements viere made
of the theiimal losses throur:h the insulation and of the
distribution of the losses between sets and equipmaent.
Therialal losses fro-m particular parts of the sets are
tabulated. In the hiLh-pressure unit, 1,26% of the total
heat was pazLin,~ throu~;h the insulation, and in th,_- super-
hi--h-pre, s cure sets 1.4Wo. Not all this heat ic, wasted
belau.~-,e sofae returns to the boiler aith the air blast.
About 80% of the losses occur in the boiler-house. The
losses are greater in the super-high-pressiu~e set because
the temperature is hiGher and the pipin- is lonGer.
Card 1/2 Considerable thermal losses occur throu,.-h uninsulated
U
06-4-24 24
Thermal-losc-c-I rcf,ultin- ftom external coolinc; of -~e"i~, in at
hi,Sh and supei-hich steaia conditions.
parts of fittinLs. These form about a quarter of all
the thermal losses. ShroudinG the insulation vi-ituh
aluminiib-n sheet Sives a small reduction in the heat loss.
There is 1 table.
AVAILIULIE: Library of Congress.
Card 2/2
VOKOV, A*K*, kand, telchn, nauk,
T.
Review of L.B. Krol's book "Characteristics of the high-pressure
boiler installation." A.K. Tnukov..Bnergetik 6 no.2:39-40 F t58.
(Boilf9re) (MIRA 11:1)
(Krol, L.B,) .
VNUKOV. A.K., inzh.; YAKUBENKO, A.A., inzh.
- - "swap--"" -
Drying boiler linings. Xlek.sta. 29 no.1:89 Ja 158. (MIRA 11:2)
(Boilers--Dr7ing) I
VMOV,,A.K., knndidat tekhnicheskikh nauk.
Performance of metal in wall-tYpe radiation eteam superheatere.
Toploonergettka 4 no.g.-45-48 S '57. (HLp-A 10:8)
1. TuzhORGRS.
(Svnerheaters)
SOV/91-58-2-31/31
AUTHOR: Vnukov, A.K., Cand.of Techn. Sciences
TITLE: A Review of the Book by L.B. Kroll
"Characteristics of High-Pressure Boiler Sets",
ublished by the Gosenergoizdat, 1957
etsenziya na knigg L.B. Krolya "Osobennosti
R
kotefnykh agregatov vysokogo davleniya",
Gosenergoizdat, 1957 g)
PERIODICAL: Energetik, 1958, Nr 2, p 39-40 (USSR)
ABSTRACT: The above mentioned book is reviewed.
C-a-rd 1/1
-VMMOV, SIITDMVICH, B.O.,iazh.; CHLBAH, 0.1.,Inzh.
Investigiting heat losses to naieboriag nedia in electric power
plants equipped with high- and superhigtL-pregaure traits. glek.
eta. 29 no.11:19-22 IT 158. (MIRA 11:12)
(Electric power plants)
I
\' .,/ \' '-, ~ - C '.~ IT-A i %- .
AUTHORS: -yarema,-S Ya. (Eng.) and V A.K. (Eng.) 256
nukov,
(Southern Division of ORGRES).-
TITLE: On the question of the strength of boiler drums during
starting and stopping. (K voprosu prochnosti barabanov
kotlov pri puske i ostanovke).
PERIODICAL: 11,Teploenergetikall (Thermal Power), Vol.4, No.4, April,
1957, pp. 33 - 36 (U.S.S.R.)
ABSTRACT: According to existing standards in calculating the
strength of boilers, temperature stresses that arise in
the boiler walls during periods of starting up and
shutting down are not taken into account. In operation
the magnitude of the temperature stresses is limited by
the permitted temperature differences. According to
Soviet and some foreign standards the temperature
difference betw8en any two points in the drum should not
exceed 30 to 50 C. This article gives an evaluation of
the magnitude of temperature stresses and their influence
on the total stresses in the cylindrical part of the
drum. Measurements carried out whilst steam was being
raised in boilers showed that the temperature field on
the outside of the drum can be represented by a simple
diagram. The temperature of the walls above water level
practically coincides with the saturation temperature of
the steam with which they are in contact and is thus
uniform over the entire surface. Starting at the water
surface and below, the drum wall temperature decreases
256
On the question of the strength of boiler drum during
starting and stopping. (Cont.)
linearly and in the lower part of the drum the water
temperature is again constant. This simplified diagram
is shown to be in good agreement with practical
measurements. Analysis of the solution of problems on
temperature stresses in the cylindrical part of a drum
shows that in the middle of the drum the normal stress
acting in an axial direction preponderates over the
tangential and radial stresses. A formula is given for
this stress but it is applicable only to the middle part
of the drum. The simplified diagram of the temperature
field is then applied to this formula to give an
evaluation of the normal stress which is plotted as a
function of the position on the drum. Analysis of the
equations shows that the maximum stresses occur at the
inflection points in the temperature distribution and
the corresponding values are substituted in the
expression for the stress. The absolute values for the
temperature stresses corresponding to measured temperature
distributions are tabulated. In individual cases the
stresses reach the aesi&ned values. The stress due to
the internal steam pressure must be added to the internal
temperature stress and an expression is obtained for
their sum. Finally, an expression is derived for the
permissible temperature difference between two points on
256
On the question of the strength of boiler drums during
starting and stopping. (Cont.)
the drum vrith a given conf iguration of temperature f*-i,-r-!-d
and safety factor. The equation is solved and the
results are plotted on a graph, iahich is applicable to
the drum of a boiler TP-170. With a safety factor of
1.65 the safe temperSture difference at the commencement
of firing may be 113 C. At the instant of connecting
to the steam main (90 atm.) t~e temperature difference
should not be greater than 85 C. With a safety factor
of 1.11 the temperature difference at the start of
firing is practically unlimited and. at the end should
not exceed 148 C. The temperature difference of 50 C
permitted in certain standards corresponds to a safety
factor 1.93 at a pressure of 100 atm. and of 3.68 at
a pressure of 10 atm. The calculated results were
verified by tests on a model of a boiler drum which is
described. The surface temperatures of the model were
measured with thermocouples and the stresses by
resistance strain gauges. The temperature distribution
on the circumference of the model is plotted alongside
a curve obtained on a high pressure boiler drum. The
distribution of axial thermal stresses in the model
are plotted, the normal stresses measured along an are
in the middle part of the drum were quite small and are
LLot shown in the graph. Results calculated from the
256
1 On the question of the strength of boiler drums during
starting and stopping. (Cont.)
temperature field of the model are plotted on the same
graph. Good agreement is shown. 7 figures, 2
literature references (2 Russian).
VNUKOV, A.K., inshener; VOLKMA, Ye.l., inshener; PAVLIV, Yu.V., inzheaer.
Measuring the temperatures in high-pressure boiler drams during
firing. Znergetik 3 no.12:10-11 D 155. (KLRA 9:2)
(Boilern)
VNUMV, A.L.,.Lnzhener*
r
Characteristics of a boiler installation equipped for rapid
Istarting and shutting down. Teploonargatika 3 no.4:50-55 AP
156. WaA 9:6)
l.Yuzhnoye otdeleniya Orgrom.
(Boilers)
AID P - 4368
Subject USSR/Heat Engineering
Card 1/1 Pub. 110-a - 13/19
Author Vnukov, A. K., Eng. Southern Branch of the Bureau for
-the organization and Rationalization of Electric Power
Plants and Networks.
Title Some particular features In shaping boiler adjusted
for quick starts and 6tops.
Periodical : Teploenergetika, 4, 50-55, Ap 1956
Abstract ; The ways for quick firing and extinguishing the boiler
are discussed. Recommendations are made for an improved
design. Four diagrams.
Institution : None
Submitted ; No date
No ko V
AID P - 2992
Subject USSR/Electricity
Card 1/1 Pub. 29 - 7/28
Author VZ!Lkov, A. K., Eng.
~1"*W_W=MWW
Title Prevention of deformation of the cooled panels of a
chain-grate stocker
Periodical Energetik, 6, 14-15, Je 1955
Abstract Deformation of panels was observed in several boilers.
The author describes preventive methods. Two drawings.
Institution : None
Submitted : No date
AID F J699
Zubject USSR/Electricity
Card 1/1 Pub. 29 - 4/25
Authors Vnukov, A. K., Ye. I. Volkova and Yu. V. Pavliv, Engs.
Title Measuring the temperatures of drums of high pressure
boilers during the firing
Periodical : Energetik, 12, 10-11, D 1955
Abstract ; According to the circulars of the Technical Administration
of the Ministry of Electric Power Stations 4/T52 and
T1/54, the firing of high pressure boilers has to be done
in such a way, that the temperature differences between
the hotteut and 8oldest parts of the boiler drums do not
exceed 30U to 50 C. The authors present a simplified
method of measuring drum temperatures. Three drawings.
Institution None
Submitted No date
Wel,]Lng
Flaurs in ;A.ace whure thermoalemeants are welded to pipes; Rab. euerg. 2 11o. 1, 1952.
I List of Russian Accessions, Library of Congress, May 1952
9. L4onthl Uncl.
virjovj &- R.
pipe
'lo. 1,
Flaws in place where thermoelements are welded to ~Iipa3., Rab. energ., 2, 1 1952.
9. Monthl List of Russian Accessions, Library of Congress, I-lay 1952 iV~J, Uncl.
VNUKOIJ, Akt., kand.tekhti.nauk; PETS51101:, A.G., inzh.; PORGAYLO, K.M.,
inzh.; MIKSIMOV, A.I., inzh.
Yethods for adjusting the furnaces of lar~-e boiler unit--. Elek.
C
sta. 32 no.11:10-13 N 161. (YIIRi~ 14:11)
(Boilers) (Furnaces)
VOLKOVA, Ye.l.,, inzh.; KHIRIN, N.D. inzh.; BARYSHNIIKOV, A.P.-I inzh.;
KOZHEVNIKOV, G.A., inzh.; ikxim, K.G., inzh.; BABKOV, V.A.,
inzh.; VNUKOV, A.K., kan
Starting clutch for draft and blowing machinery and pit mills.
Teploenergetika 8 no.6.-31-32 Je 161. (MIRA 14:10)
,a Yuzhnoye otdeleuiye Gosudarstvenhogo tresta po, organizataii i
ratsionalizatsii elektrostantsiy.
(Glutdhes (Machinery))
(Electric power planta-Equipment and Bupplies)
kand. te khn. nauk
Rfficiency of burrdng rAzut. Elele.. sta. 34 no.5--R~-15 lIfy `63.
0,9RA 16:7)
(Furnaces) (Mazut)
VM=v, N.
Out dovn on the loss of work time. Sots.trid 4 no.11:136-137
N '59. (MIU 1):4) %
1. Starshly inzhener po trudu i zarabotnoy plate tresta
"Sibstro7mekhanizatsi3ra" Mintransetroya SSSR.
(Hours of labor) (Wages)
FEDIN, Ye.I., inzh.; VNV40v, P.K.', inzh.
MsAanization and automatic control in industry Is the ymin
road toward reducing labor consuming operations in reinforced
conerete shipbuilding, Sudostroenie 28 no.1:59i-61 Ja 162.
(MIRA 1617)
Ships, Concrete)
ipbuilding-Equipment and supplies)
ft
VIIUKOV, Sergey Alekseyevich, inzh.. PERGAMENSHCHIROV, B.p red.;
dkIW. red.
[Mechanization and automation of industrial production;
practice of enterprises of the Orel Economic Region] Me-
khanizatsiia i avtomatizatsiia proizvodstva; Iz opyta
predpriiatii Orlovskogo ekonomicheskogo achainistrativ-
nogo raiona. Orel, Orlovskoe knizhnoe izd-vo~ 1960. 78 p.
WILA 1?: 3)
U- - ____ - -_ -_ -_
ZAKHARIK' Ye.; USIKOV, N.
[Oral economic region] Orlovskii ekonoiicheakii administrativnyi
raion. Oral, Orlovskoe knizhnoe izd-vo, 1959. 78 p.
(MIRA 13:8)
(Orel Province--Economic conditions)
VMOV. V. D.
.......
.......
Finishing worm-thread cutting.
Stan.i instr. vol. 24 no.9:34 S '53.
(KLR,i 6:10)
(Spiral millirig)
OCHKIN.
J.; GOROIZOV, N.I.; LOVTSOV, A.P.; VIXTOROVA, A.G.;
SOKOLOVA, Ye.Ya.-, KOZLOV. A.N.-, BRYUCHIN,.Ji.P.. obahch-iy red.
(Economy of Saratov Province; statistical collection] Narodnoe
khoziaistvo Saratovskoi obleati; statisticheskil abornik. Saratov,
Gos.statisticheskoe izd-vo, 1959. 205 P. (MIRA 12:11)
1. Saratov (Province) Statisticheskoye upravlaniye. 2. Nachallnik
Statiaticheskogo upravleniya Sarstovskoy oblasti (for Dryuchin).
(Saratov Province-Statistics)
VITUKOV, V.K.
Gas branch pipe to the Cherkas:3y L-Iquid 11-wit. ll'=rciL.
truboprov. 9 no.4:4-6 Ap 1611+0 WL-LA 17: 9)
1. Trest LPcrgazneftestray, Kiyev.
V14bKC-11, V.K. Inzh.
Welding elongated sectiIns. Str2i. truboprw- 6 no.4:17 Ap 161.
MRA 14:6)
1. Stroitellnyy uchastok - 12 tresta Ukrgazneftestroy, g.
Baranovichi.
(pipe lines-Welding)
V.K.
~bdel study of automatic control processes in irrigation systems.
Izv.AN Kir.SSR.Ser.est.i tekh.n-auk 3 no.601-93 161.
Off-RA 15:11)
(Hydraulic models) (Automatic control) (Iriigation)
SOURCE CODE: Mt,10271/65/000/007/AO40/AO40
SOURCE: Ref. zh. Avtomatika, tolemekhanika i vychislitelinaya, tekhnika. Svodnyy tom,
Abs. 7A291
AUTHOR: Vnukov~ V. K'.
TITLE: Selecting some parameters of photoelectric funct!Wn generators
CITED SOURCE: Sb. Avtomatiz. obltyektov irrigats. sistem.. Frunze, Ilim, 1964, 84-93
TOPIC TAGS: funation.generator, function generator desijP1
TRANSLATION: A universal function generator desigred with an electron-beam tube and
a~photomultiplier is considered. The generator is intended for producing functions of
any form. A filter at the photomultiplier output is uski for noise reduction.
Operation of the system is analyzed. A total tracking orror is determined which is
a sum of the desirable-signal error and the noise-causedl~ error (from the photomalti-
plier). The desirable signal is regarded as a stationary random process; noise is
assumed to be white. The filter time constant is determined on the basis of the
specified mean-Bquare error and the noise signal* Bib 6, figs 4.
SUB CODE: 09