SCIENTIFIC ABSTRACT KVYATKOVSKIY, V. M. - KWAPINSKI, J.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R000928320008-9
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
June 20, 2000
Sequence Number:
8
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
File:
Attachment | Size |
---|---|
![]() | 3.28 MB |
Body:
The de-silication of water by the magnesite sorbent, SOV/96-58-10-11/25
of the VODGBD Institute.
the water was passed from top to bottom, but this soon clogged the
beds and it wag found necessary to reverse the flow. When raw
Volga water was treated with magnesite sarbent, the silica content
of the treated water was below 0.5 mg/litre silica for only 7 days,
during which time 200 litres of water were purified. The silica
content then rapidly rose and after two weeks it was 1.4 mg/litre
silica. When the water was clarified before treatment, the purifier
operated for 27 days before the silica content rose to 0.5 mg/litre,
and during this time 1,320 litres of water were purified.
Thereafter, the silica content rose to I mg/litre. When the water
was first eation-treated, the filters operated for a month before
the silica content rose to 0.5 mg/litrej thereafter it rose to
1 - 1.5 mg/litre silica. Information in given about the water
hardness and the content, of other ions during the teste. The
chemical composition of the sorbent is discussed. In effect, the
substance is magnesia cement and there is no agreed theory of the
hardening of this substance. The various existing theories are
briefly stated. The effect of the input water analysis on the
mechanical properties and dissolution of the sorbent is considered.
If very soft cation-treated water passes through the sorbent, some
inevitably dissolves. The minimum enrichment of the water in
Card 2/4 bivaleat magnesium and calcium ions is governed by the solubilities
The de-ijilication of water by the magnesite sorbent of SOV/96-58-10-11/25
the VODGEO Institute.
of Mg(OH)2 and CaC03 (see Table.3.). The relationship between the
possible content of bivalent magnesium and the pH value of the water
at the outlet from the tube has been calculated and is given in Table.4.
In practice, equilibrium was not established and the magnesium
content was less than this. To check whether any of the damage to the
sorbent was mechanical, tests were made with the water flowing
downwards through the bad, though it was occasionally reversed to
increase the rate of flow through the bad. The tests were
continued for 26 days and the sorbent was examined. The results show
clearly that the pulverisation of the sorbent that was observed in the
original tests resulted from chemical attack. Lime-treated water
was de-silicated at the water purification plant of a metallurgical
works., Previously, caustic magnesite treatment had jield~ed-."tevrdf
high silica content and had given rise to operating 4ifficulticis':'
largely because of unsatisfactory construction of'the clarifiers.
Moreover, the caustic magnesite was not treated properly. The tests
with the magnesite sorbent are described in the preceding article by
Mamet and Nikolayev. After a period of use, the ratio of magumsium
oxide to magnesium chloride in the sorbent altered from l.Otl to 16s1.
This is apWoutly eaused by the washing-out of the soluble
Card 3/4 components, because the filtered water was not sufficiently alkaline,
The do-silication of water by the nagnesite sorbent of the SOV/96-5s-10-11/25
VODGED.Inatitute.
due in turn to the use of carbonatealhalinity conditions in liming.
Although the water was coagulated and lime-treated, the sorbent
beepme contaminated with organic substances and iron oxides. It
was shown that it was technologically possible to de-silicate
lime-treated water in this way, but that it must first be filtered.
The system needs further testing to check the silica capacity of
the sorbent and the effectiveLess of de-silication.
There are 5 tables and 6 Soviet referehces4t!.!..
ASSOCIATION: All-Uhion Thermo-Technical Institute (Vse9oyu2rqy Teplotekhnicheakiy
Institut)
Card 4/4
KvYA-rK0V50Y, V, M ,
3011/24-58-10-34/34
AUTHOR: Solomonov, hi. S.
TITLE: Conference on Water Preparation in Thermal Power Stations
(0 vodopodgotovke na teplovykh elektrosta--tsiyakh)
PERIODICAL: Izvestiya Akademii nauk SSSR. Otdeleniye tekhnicheskikh
nauk, 1958, Nr 10i PP 159-160 (USER)
ABSTRACT: During June 24-2?, 1958, a conference took place on problems
of water preparation in thermal power stations of high, inter-
mediate, super-high and super-critical pressures. The confer-
ence was convened by the Commission on Steam of Very High
Parameters of the Power Research Institute, Academy of Sciences
USSR, imeni G. M. Krzhizhanovskiy, jointly with the Ministry
of Power Stations USSR and the idosoow Scientific-Technical
Society of the power industry. Over 400 representatives of
scientific research establishments and of power stations par-
ticipated. In the section on design, setting and operation of
combined plant with magnesium desilisizing, the following pap-
ers were read:
1) "Experience in setting up and operation of water treat-
ment plant with desilisizing by means of magnesium", V. F.
Gvozdq~v (ORGRES),,
,2)"State and tasks in the development of plant for magnesium
desilisizing of water in thermal power stations',' V, M. Kvyat-
Card 1/5
SOV/2-4-58-10-34/34
Gonference on Water Preparation in Thermal Power Stations
kovskiy (VTI),
3) "Schemes of automation of plant with desilisizing by means
of magnesium" , Ye. N. Krasotkin and V. M. 4yyatkovskiy (VTI),
4)"Problems of designing combined cathion water_~Ereatment
lantswith magnesium desilisizing", A. A. Krupchitskiy
arlkovskoe otdeleniye TEP),
M
5) I'Desilisizing of the water by means of filters", 0. N.
Shemyakin (VODGEO),,
6)"Investigation of the process of magnesium deSiliSiZing Of
water at elevated temperatures", L. M. Zhivilov (VTI),
7)"Blagnesium--athion method of desilisizing water". L. S.
Foshko (Donbassenergo).
In the second section, "Exper.-Lence in designing, setting and
operation of chemical desalting plant". the following papers
were read:
1) "Results of investigations and of industrial tests of
chemical desalting plant and prospects of their application
in thermal power stations with super-high and above-critical
steam parameters". F. G. Prokhorov (MES SSSR),
Card 2/5
SOV/24-58-10-34/34
Conference on Water Preparation in Thermal Power Stations
2) "New ionites for water preparation plant and prospects of
their industrial manufacture", A. V. Pashkov (Institut
plastmass im. Frunze),
3)"Problems of design of chemical desalting plant", V. S.
Chernov MOTEP), 1. M. Sokolov,
4) "Automation.of pressure filters for water treatment in
power stations", S. M. Gurvich (MOTsKTI).
In addition to these papers9 20 informative communications
of various local representatives were presented. It trans-
pired that during recent years methods of magnesium desili-
sizing and of thorough chemical desalting of water have
gained extensive utilisation in Soviet power stations and
these played an important role in the development of Soviet
steam power. Successful mastering of magnesium desilisizing
of water together with the application of stepwise evaporat-
ion in boilers, washing of steam and other measures enabled
ensuring reliable and economic exploitation of high pressure
(110 atm) boilers in combined heat and power stations which
operate with a large loss of condensate. During recent years
rational designs of illuminators have been developed and also
methods for dry dosing of caustic magnesite as well as mech-
Card 3/5 anization of its handling and an original method was described
3011/24-58-10-34/34
Conference on Water Preparation in Thermal Power Stations
of desilisizing by applying lime on the preliminarily mag-
nesiUm-cathionated water. In individual cases it became
possible to feed the water directly from the illuminators
into cathion filters of the first stage, in which the Drocess-
es of filtration and cathion treatment are combined. ~kork has
started on automation and mechanisation of preliminary purifi-
cation and of introducing treatment involving high temperature
pre-heating of the water. Water treatment by application of
lime and in individual cases by simultaneous desilisizing by
magnesium in the case of heating up to 1200C permits more
thorough elimination of silicon compounds. High temperature
desilisizing requires special apparatus operating under
pressure,. thermally stable cathions and also new automatic
circuits, Laboratory, semi-industrial and industrial tests
of the filtration method of desilisizing water,developed by
VODGEO have shown that this method is applicabie also for
H-a cathionated water without preliminary application of lime.
In chemical desalting plants which use ioniba-s of Soviet manu-
facture, it became possible to solve the problem of feeding
very high pressure drum boilers (180 atm) and thus extensive
prospects are opened up of using thoroughly desalted natural
Card 4/5
SOV/24-58-10-34/34
Conference on Water Preparation in Thermal Power Stations
water and condensates for feeding powerful direct flow boilers
of super-critical pressures. An ionite method of
purification of condensates of nitrogen-fat plants permits
utilising desalted condensate for feeding high pressure
boilers and returning regeneration products into the techno-
logical cycle of the plant for producing from it the indus-
trial product. Such a process of purification of the waste
condensates allows reducing operational costs for water treat-
ment and feeding of industrial heat-power stations in chemical
works. Various deficiencies were pointed out in the existing
technology of water purification as well as in the designs
adopted ifi some of the projects.
Card 5/5 uscomi-Dc-6o,653
kTYATKOVSKIY, V.14.,iazh.
Compensating the reactive power of inverter substations used
for direct current transmission. Blekata, 29 no.11:40-46
N 158. (MM 11:12)
(Electric substations)
KVYATKOVSKIT, V.M.
Transient processes in the invertor conversion scheme under
various methods of umpeneation of the reactive power. Ixv.
NIIPT no.4:19-37 159. (MIRk 13:2)
Mectric circuit brakers)
SOV/96-59-5-13/19
AUTHORS., Kvyatkovskly, V.M.0 Candidate of Technical Sciences and
Zhivilova, L.M., Candidate of Technical Sciences
TITLE: An Investigation of the Process of Magnesia De-silicat:Lon
of Water at High Temperature (Issledovaniye protsessa
magneziallnogo obeskremnivaniya vody pri N-jsokoy
temperature)
PERIODICAL: Teploenergttika~ 19597 Nr 5v PP 70-74 (USSR)
ABSTRACT: The practice of treating water with lime or soda-lime
at temperatures of 1000C and more is receiving attention
in the American technical press,also special de-silicating
agents are sometimes used. The main advantage of the
proposal from the standpoint of Sovitt practice is the
pros_pect of obtaining more efficient de-silication. This
article describes work done to assess the possibility of
achieving good do-ailication of water by lime treatment
without introducing additional magnesia agents~ also to
investigate the possibility of improving de-silication
when water is treated with caustic magnesite or in other
ways. The laboratory equipment that
was used to treat
Card 1/5 C
water at a temperature ef 120 to 130 C is described and
SOV/96-59-5-13/19
An Investigation of the Process of Magnesia De-silication of Water
at High Temperature
drawn schematically in Fig 1. The test results are
in Fig 2, 3 and 4 and Tables It, 2v 3, and li~ They ishow
that by means of caustic magneoite at 120 to 130c'C it J-5
possible to reduce the content of silicic acid compounds
in the water to a value of the order of 0-3 mg/litre
S'03- At 40 to 80*C the silica content can only be
reduced to 0.75 mg/litre. In making the tests,
particular attention was paid to reducing the contact
time of the liquid and suspended precipitates. It will
be seen front the results plotted in Fig 4, that the
process of de-silication of water at 120 to 1300C is
completed quite quickly and is very nearly over in
15 minutes. If the contact time is increased to I hour
there is some improvement in the de-ailication but the
time of 15 minutes is best because then the size of the
treating equipment can be very much reduced. Comparative
tests showed that there i 19 nothing to choose between the
temperatures of 120 and 130%. When treating water with
Card 2/5 caustic magnesite at temperatures in this range a
SOV/96-59-5-13/19
An Investigation of the Process of Magnesia De-silication of Water
At High Temperature
residual silica content of 0.5 mg/litre can be obtained
with a caustic magnesite dose of 5 mg/mg and a contact
time of 15 minutes. The process of de-silication was then
worked out when using lime to treat various waters. These
were ordinary water, magnesium-cationised water and
finally water in which the initial magnesium ion content
was artificially increased by introduction of magnesium
chloride. The test results show that adequate
de-silication may be obtained, provided the amount of
magnesium separated from the treated water is not less
than 1 mg equiv per 10 mg S103 in the initial water.
The data in Table -5 were obtained during lime treatment
of magnesium-catlonised water at 120 to 130% and
indicate that the do-silication is more effective than
at 40*C. The results plotted in Fig 6 show that
increasing the contact time only improves the
do-silleation from O~8 mg/litre S103 at 15 minutes to
Card 3/5 0-7 mg/litre S'03 at 60 minutes. Tcble 4 gives for
soV/96-59-5-13/19
An Investigation of the Process of Magnesia De-silication of Watez,
at High Temperature
comparison data that can be obtained when de-silicating
water with caustic magnes.1te and by lime treatment of
magnesium-cationised water at 120 to 130*C. The
de-silication is Impyo-ved by adding caustic.-magnesite
to the water. Do-silication by 1-ime treatment of
magnesium-cationised water is limited by the possibility
of increasingthe magnesium content in the water to be
treated. it follows from the tests that the method can
be used only for treating water with an initial hardness
not less than 2,5 to 3-0 mg equiv/litre. If the water
hardness is only 1 to 1.5 mg equiv/litre, the residual
silica content is up to 1 mg/litre. When treating water
at 120 to 1300C thermal losses areo of course, higher
than at 400C but this is more than counter-balanced
because reduced blow-down can be used when the silica
content of the water is reduced. It is calculated that
overall the use of high temperature for de-silicat-ion-
will reduce the feed-water cost by about 35 kopeks a-ton.
Card 4/5 It is concluded that the investigation has confirmed the
sov/96-59-5-13/19
An Investigation of the Process of Magnesia Do-silication of Water
at High Temperature
technological and economic advantages of using a
temperature of 120 to 130*C for water de-silication.
It will be necessary to have temperature-stable
cationite, also clarifiers and batch meters ef special
construction for operating under pressure. A further
study will be requVred into the technology of
de-silication and the desIgn of equipment. There are
6 figures, 4 tables and 5 references, 2 of which are
Soviet Ahd 3 English.
ASSOCIAT16N:Vaesoyuznyy teplotekhnicheskiy institut (Thet All-Union
Thermo-Technical Institute)
Card 5/5
MATKOVSKIT, V.~L, kand.tekhn.nenk
-.*,Z - , - "
. . 4A_
C~ 'freatment of water by tiethodo involving the precipitation of dissolved
impuritieB. Zhar. VKHD 5 no.6:637-645 160. (MIRA 13112)
(Water-Purification) (Water --Softening)
AMSELIROD, M.M.; KVUTNOVSE31. V.M.
Technological and economic indices of d.c. power transmission
and its comparison to other modes of transporting power resources*
lov. NIIPT no.6:92.-Ill 160. (MIU 14:7)
Electric power distribution-Direct current)
over resources-Transportation)
R
M... kand.tekbu.nauk; BAULINA, A.I., inzh.;
4YU-MM41., L.S.,, iuzh.1 LITVINOVI V.G., inM.;
WEVI A.S.,, inzh.
Studying the hot liming procews in water arxiched with
mpesium compounds. Toploenergetiks 7 no.10:1+7-52 0 160.
(MIRA 14-.9)
1, VoesoyuzW teplotekbnichookly institut i Donbassenergo.
(FW water purification)
SHKROB, Mikhail Sawylovich, doktor tekhn. nauk) PROKBOROV, Fedor Georgi-
yevich, kand. tekhn. nauk, PrInAmali uchastiye; AKOLIZIN, P.A.,
doktor tekhn. nauk; APELITSDI, I.E., doktor tekhn. adukj ZENKEVICH,
Yu.V., kand. tekhn. nauk;_.KVYATEOVSM V,,M., kand. teklin. nauk;
UZACHKO, V.A., doktor tekhn. nauk; GURVICH, S.M., inzh.; ORZHEROV-
SKIY, M.A., inzh.1 STYRIKOVICH, M.A., retsenzent; MARTYITOVA, 0.1.,
retsenzent; VOROVIIN, K.P., tekhn. red.
(Water treatment and water systems for steamw-turbine electric power
plants] Vodopodgotovka i vodrqi rezhim paroturbinnykh elektrostantsii.
Moskva, Goa. energ. Izd-voj 1961. 470 D. (MJRA 14:9)
(Feed water purification) (Steam turbines)
KVYATKOVSKIY, V.M.; MELIGUNOV, N.M.
Static stability of a d.c. power transmission system feeding a
receiving load of a comparable power. Izv. NIIPT no-7:93-110
,61. (MIRA 14:9)
(tlectric power distribution--Direct current)
,E.VYATKDV$KIY. V.M., kand.tekhn.nauk; SHCHUKINA, A.G., inzh.;
'KMKEVIGH,'G.V., inzh.
Automatic proportioning of reagents at the water treating
installations of electric power plants. Teploenergetika
g,no.4:15-19 Ap 161. (MIRA 14:8)
1. Vsesoyuzny7 teplotekhnicheskiy institut.
(Electric powei plants)
(fte&water purificatiim) .1
-KVYAT.KOVS.KIY, V.M.; MATSKEVICH, G.V.; SHEVTSOVA, A.G.
Automation of systems with clarifying agents for preliminary
water purification. Vodopod., vod. rezh. i khimkont. na parosil.
ust. no.ltl32-142 164. (MIRA 18:2)
1. Vsesoyuznyy ordena Trudovogo Krasnogo Znameni teplotekhnicheskiy
institut Imenj V.E. Dzerzhinskogo.
~, , .2 -I I 1~ I ,~- - - ~ ! . I r
I .~ ~ I . - - -
h'VYATKOVSK'IY., V. S. Prof.,
"Effect of the Flow on the Chamber of the Operating Wheels in a Klapan
Turbine)" abstracted in Gidrotekh. stroi., Hos. 5/6~ pp 280299 1946
VIGM
KVYA'fKU-,'jS7,1Y, V. S. ed.
Maiye gidroturbiny Z-Small hydraulic turbines-/., Moskva, Masgiz' lqt~O.
QrIthly Lij -154.
SO: t of Russian Accessiong, Vol 6, No 12 March IL, I
K7YAKTOVSKIY# V.S., professor#
Process of regulating the.flow through (and capacitY Df) reaction
turbines. Trudy VIGH no.12:5-18 '50- (MLEA lOt8)
- (Hydraulic turbines)
KV=W"TI* V':Skot laureat StalIn8koT PrOmii, professor; KATUYNTA, Ye.j.,
zekhmah-6skly redaktor: takhmIcheekly redaktor.
[Working-processes in axial-flov bydraulic turbines] 4bochii pro-
tsess osevoi gidroturbiny. _.Moskva, Goo. tmuchno-tekhn. iz(l-vo
mashinostroit.-lit-ry.-1951. 156 p. Part Is [Studying currents in
axial-flow hydraulic turbIinel Iasledovanie potokov v osevykh gidro-
turbinakh.(Mosoow. Vessoiuznyi nauchno-iseledovatell6kii institut
gidromehinootroenila. Trudy, no.14). (NLPA 10:8)
(Hydraulic turbines)
KVUTKOVbTlY V.S. laureat Stalinskoy premil, professor; SHCUPOV, N.M.,
dokto:FteIr'hnJcheskikh nauk, professor, redaktor; POMI, S.M.,
tekhnicheskiy redaktor; TIKHONCN, A-Ta., tekhnichesk-ly redaktor.
[Working process of axial-flow hydraulic turbines; Pt. 2: Methods for
hydraulic calculation of blades for hydraul-Ic turbines] Rabochii
protsess osevoi gidroturbiny; Pt. 2: 0 sposobakh gidrai-lichookogo
rascheta lopastei osevykh gidroturbin. Moskva, Goo. nauchn.-tekhn.
izd-vo mashinostroitellnol lit-ry, 1952. 140 p. (Vaesoluzayi nauch-
no-issledovatellskit institut gidromashinostroeniia. Txmdy, no.15)
OU-U 9: 8)
(Hydraulic turbines--Blades)
KVYATKOV.SKIY, V.60
Ellegulating the power and rotation speed of emll hydraulic turbines]
Regulirovanie mo6hdbnosti i ekorosti vrashchanlia malykh gidroturbin.
Tod.red. V.S.Kviatkovskogo. Moskva. Goo. energ. izd-vo, 1953. 55 P.
(MM 7-4)
(Elydraulle turbines)
J,m-ayva.Ty. V_ S_
The Comlttee an Stalim PrIzes (of the C0=CU of MAletere USSR) it tbe f Jeldo of
acitwe w4 inventlom wxw=*s th" the followUW sclantifle works, Wpul&r scien-
tific bookso mg textbwks bave been subodtted fbr em"Ution for SUlLn Prizes for
the yewre 1952 wid 1953. (Sqvvt*~W Kultumo Idoscov, No. 22-40, 20 ]v*b Apr 19541
Name
Tltle of Work
WomImted by
0--m-M.
KvI.atovskiy, V. S.
"The Worl4mg Process of an
A2d,il-Flou 4draulic
Turbinelt
All-Union Scientific
Research Institute of
4draulic Rachine BaUding
SO: W-3C6D4, 7 July 1954-
C- C 1 C! I'!
S
SOV/124-57--9--10371
Translation from: Referativnyy zhurnal, Mekhanika, 1957, Nr 9, 1) 69 (USSR)
AUTHOR: . Kvyatkovskiy, V. S.
TITLE: On the Cavitational Properties of Hydraulic Turbines (0 kavita--
tsionnvkh svoystvakh gidroturbin)
PERIODICAL: Tr. Mosk. energ. in-ta, 1956, Nr 19, pp 329-353
ABSTRACT: The cavitation coefficient is found from the Bernoulli equation for
the absolute and relative flow through a turbine, Assuming that the
exit velocity triangle is an isosceles one, and replacing the veloci--
ties with velocity coefficients, which are constant for geometrically-
similar turbines, the author develops an equation for the determina-
tion of the cavitation coefficient of an actual turbine in accordance
with known laboratory results of cavitation tests on a model turbine.
The practical value of the formula obtained remains yet to be con-
firmed by a test. The paper suggests a method for the quantitative
evaluation of the influence of the shape of the various working parts of
a turbine on its cavitational properties. The influence of the spiral
casing, of the shape of the guiding distributor and draft tube, and of
Card 1/2 the location of the main shaft is analyzed, On the basis of the
On the Cavitational Properties of Hydraulic Turbines
SOV/124-57-9-10371
formulae obtained a comparison is made of vertical and horizontal turbines identical
in size and with identical tailwater submersion and cavitation expectancy for
curved- and straight- cente rl ine draft tubes. The advantages of a horizontal
turbine with a straight- cente rline draft tube are demonstrated. Because of the
higher efficiency of the horizontal reaction-type axial turbines, their smaller
foundation depth and the availability of a reserve plant capacity during a flood
period, a wider use of this type of turbine is suggested.
1. 1. Orlov
Card 2/2
KOVA LEV, H. N., prof.; WWAMCLU-II&J.S., doktor tekhnonauk, prof.; TISTROVA,
O.N., red.; VCRONIN, K.P., tek-6.red.
[Wdroaulic turbine industry in U.S.S.R.] Gidroturbinostroenie Y SSSR-
Moskva, Goo* energet. izd-vo 1957. 151 p. ' (KMA 11:1)
1. Chlen-korresponclent AN SSSIt (for Kovalev)
(Wdraulic turbines)
iA v / /,- I / I , ~, ~--, -A I -
. -,P " -
M ATKOVSKIY, V.S., doktor tekhn.nauk, prof.
Two new systems for reaction rotating vane h7draulic turbines.
1- Gidr.stroi. 26 no.11:62-67 11 '57. (MIRA 10:10)
(Hydraulic turbines)
r\,v \/S r\
PHASE I BOOK EXPLOITATION io65
Vsesoyuznyy nauchno-issledovatellskiy Institut gidromashinostroyenlya
Issledovaniya i raschety gidroturbin I regulyatorov (Investigation
and Design of Hydraulic Turbines and Regulators) Moscow, Mashgiz,
1958. 129 P. (Series: Its: Trudy, vyp. 21) 4,000 copies printed.
Ed.: Kvyatkovskiy, V.S., Doctor of Technical Sciences, Professor;
Ed. o, rubilshin-g-70-use: Prokoflyeva, L.G.; Tech. Eds: Shikin,
S.T. and Gerasimova, Ye.S.; Managing Ed. for Literature on Ma-
chine Building and Instrument Construction (Mashgiz): Pokrovskly,
N.V., Engineer.
PURPOSE: This.book is intended for engineers, technical workers,
and graduate students and also for upperclassmen of vuzes and
tekhnikums studying problems of hydraulic turbine building.
COVERAGE: This is a collection of articles dealing with investiga-
tions of hydraulic turbines and regulators and their design. The
following subjects are covered: results of model testing of im-
Card 1/3
Investigation and Design (Cont.) lo65
Dulse and reaction (axial) hydraulic turbines, theoretical in-
vestigAtions and calculations on hydraulics of rotors of axial
and radial-axial (mixed flow) hydraulic turbines, characteristics
of cavitational and starting~regimes of axial hydraulic turbines.,
and analysis and calculations of dynamics of speed regulators
of hydraulic turbines.
TABTZ OF CONTENTS:
Voytashevskiy, D.A., Candidate of Technical Sciences. MeanVeloc-
ities of Flow in Axial Hydraulic Turbines 3
Ivanov, V.I., Candidate of Technical Sciences. Analysis of
Flows in Axial Hydraulic Turbines Under Starting Conditions 19
Kvy~Lj9QYAkiy4_V.S._,_Dootor of Technical Sciences, Professor.
of Rotor Blades of Radial-axial [Mixed Flow) Hydraulic
Turbines 39
Card 2/3
Investigation and Design (Cont.) 1065
Shallnev, K.K. Effect of the Shape of Blade-end Edges on Cavita-
tion and Performance of a Hydraulic Turbine 57
Shchipulin, I.F., Candidate of Technical Sciences. Analysis of
Performance Characteristics of a Hydraulic Turbine With Inclined
Nozzle Based on the Flow Energy Balance 76
Shchipulin, I.F., Candidate of Technical Sciences. Efficiency-
power Characteristics of the Impulse [Felton) Turbine Model 96
Popov, D.N., Candidate of Technical Sciences. Effect of the
Characteristics of a Servomotor on Hydraulic Turbine Speed-regu-
lation Regimes 110
AVAILABLE: Library of Congress
GO/mfd
1-28-59
C ard 3/3
MAPKOVSKIY, V.Se, doktor tekhn.nauk, prof.
----mom
Designing .... runner blades for Francia-type hydrnulic- turbines. Trudy
VION n0-21:39-56 '58, (Milu 11:11)
(Hydraulic turbinea-Blades)
8(6) PHASE I BOOK EXPLOITATION SOV/2226
Vsesoyuznyy nauchno-issledovatellskiy institut gidromashinostroyeniya
Issledovaniye gidroturbin Study of Hydraulic Turbines) Moscow,
Mashgiz, 1959. 195 P. Rer'ies: Its: Trudy, vyp. 23) 1,900
copies printed.
Additional Sponsoring Agencyt USSR. Oosudarstvennaya planovaya
komissiya. Glavnoye upravleniye nauchno-issledovatellskikh
i proyektnykh organizatsiy.
Ed.: V.S. Kvyatkovskiy, Doctor of Technical Sciences; Ed. of
Pub-ZZONIiij=HFu~-- M Pr~okof 'Yeva.,,,and A.M. Monastyrtakaya; Tech.
Ed.: V.D. ElIkind; Managing Ed. ?6r Literature on machine
Building and Instrument Making: N.V. FokrovBkiy, Engineer.
PURPOSE: This book may be of interest to designers, operations
personnel of hydroelectric stations, and students of vtuzes
who are specializing in the field of hydraulic turbine manu-
fe.eturing.
Card 1/3
Study of Hydiaulic Turbines SOV/2226
COVERAGE.- This is the 23rd issue of the Transactions of VIGM.
It contains four articles by Professor N.M. Shchapov, Doctor
of Technical Sciences, and is dedicated to him on the occasion
of his 50th anniversary in the teaching profession. The first:
article deals with the method of determining the efficiency of'
an actual turbine from the results of model testing. The secand
article deals with the selection of the optimum length of a
hydraulic turbine draft tube. Various charatteristics of a
draft tube are described. In the third article an attempt is
made to substantiate the theory of hydraulic engines utilizing
the energy of open channel flow. The last art-1-cle describes,
annular-flow impulse turbines. No personaliti~is are mentioited.
References follow each article.
TABLE OF CONTENTS z
Preface
Nikolay Mikhaylovich Shchappv (Creative Life) 4
Card 2/3
Study of Hydraulic Turbines SOV/2226
Types of Energy Losses in a Hydraulic Reaction Turbine and a
Discrete Refiguring of the Efficiency of an Actual 'Nirbine From
the Results of Model Testing 8
Optimum Length of Hydraulic Turbine Draft Tube 141
Theory of a Hydraulic Engine Utilizing the Erkergy of Open
Chan-nel Flow 181
Annular Flow Hydraulic Impulse Turbines Ali
AVAILABLE: LibrAry of Congress
Card 3/3
GO/ec
10-9-59
AYXKSANMOV. B.K., prof.-, prinimall,uchastiye: ITALT)V-SMOLEPUlY,
k.Ve. dote.; KORMDVA# V.I., inzbe; OBDWTMP M*G*v Imah.;
RVTATKOVSKIY, V.S., prof.; ALB=lzvv A.Ye., prof.
Hydroelectric power stations with horizontal generating
j
units. Gidr. strot. 30 no.6:1-8'je.160. (MIRA 13:19
1. Chlen-korrespondent AN SSSR (for Aledeandrov).
(Hydroelectric power stations)
LVYATKOVSKIY7 V.S.0 doktor tekhn.nauk, prof.
Development of the hydraulic turbine industry in the U.S.S.R.
Trudy ~EI no.33:267-284 160. (MIRA 15:3)
(Hydraulic turbines)
ITTATKOVMT, V.V.
-, I-
Statiquery imstallatioz for metal recovery from slag. Stall
15 so.10:948-949 0 155, (MM 9:1)
I.Zavod imexi Dzershizakogs.
(Slag) (Mlegmetic separation of ilran)
KVYATKOVSKIY, Te.M.; TSIGXL9IAN. I.S.
Simplified method of,treadM metal ore assaying samples.
Razved.i okbr.nedr 22 no.5:28-31 MY 156. (MLRA 9:9)
1. Leningradekly gorWy Institut.
(Ores--Sampling and estimation)
(Assaying apparatus)
DUBOV, R.I. -_.,XWATKOVSKIT,, Te.M.
- ~ 1., , ,
Spectrum analysis of metallometric samples for tungsten.
Izv. vys. uoheb, 2aV&; g801. i razv. 2 no.2:102-lo6 P '59.
(MIRA 12t10)
1.Leningradskiy gornyy Inetitut im. G.V. Plakhanova. Kafedra
geofizicheskikh metodov razvadki6
(Tungstst--Spectra)"~-
XVYATKOVSKIY, Ye.M.
Some regularities in the relief development of mountainous regions
and the formation of secondary dispersion halos. Zap. LGI 39
no.2:124-128 '61. (MIRA 15:2)
(Transbaikalia--Ore deposits)
XVYATKOVSKIY9 Y ; KRITSUK, I.N.
Method of vietallometric surveying in prospecting for tin deposits.
Zap. LGI 39 no.2:129-135 '61. (MIRA 15:2)
(Transbaikalia--Tin ores)
S/08 61/000/023/012/061
B1 17YB1 47
AUTHORS: Dubov, R. I., Kvyatkovskiy, Ye. M.
TITLE: Distribution of tungsten in secondary aureoles of diffusion
PERIODICAL: Referativnyy zhurnal. Khimiya, no. 23, 1961, 103, abstract
23066 (Zap. Leningr. gorn. in-ta, v. 39, no. 2, 1961, 136-144)
TEXT: One of the tungsten deposits in the eastern Transbaikal region is
connected to greisenizated muscovite-granites and Faleozoic sandstones and
schists cemented with chert. The method of sampling loose deposits is
described, frofn which 1109 samples have been taken in three sections at
different depths. It has been found that in samples taken from greater
depths the relative number of samples with appreciable amounts of W in-
creases. The configuration and size of aureoles of diffusion depend on
the eluvial-diluvial fraction used in the analysis. The manifest them-
selves most clearly by an analysis of the coarse alluvial fraction. A
study of the distribution of W according to fractions shews that its high
concentrations are fixed in 1 - 3 and 0.25 - 1 mm fragments. Coarser and
finer fractions show a poorer W content. The portion of clay of the
Card 1/2
Distribution of tungsten in ...
deposits contains virtually no W.
depths and fractions is essentially
note: Complete translation I
S/08 61/000/023/012/061
B117YB147
The distribution of Sn according to
equal to that of W. ~bstracterls
Card 2/2
KTdATY-Q KTX,,.Ye.M.; KRITSUK, I.N.
- ~ vs
4uantitative interpretation of secondary dispersion halos of
lead. Zap. LGI 45 no. 2:3-9 163. (MIRA 17:5)
KVYATKOVSKIY, Ye.M.
Primary dispersion halos ol' auric quartz veins in tho Iyubav-11--re
ore-bearing area (Eastern Transhhikalia). Zap. LGI 45 nL, 2:
10-15 163. (M MI .17: 5)
BLINOV V.A.; KTLILTKOvSKIY-j-Ye-.Ik,--
Y
Geochemical characteristics of granitoids in the Khapeheranga
region. Zap. LGI 45 no. 2:31-33 63. (MIRA 17:5)
GRIGORIYEVA, O.A.; KVYATKOVSKIY, Ye.M.
__
Highly sensitive double-arc method of spectrographic analysis
for the detection cf gold and some disseminated elements.
Zap. LGI 45 no. 2:74-80 163. (MIRA 17:5)
KVYATKOVSKIY, Ye.V. (Moskva); GIJ,,Y2-ER, G.D. (I-Ioskva)
Psychology of the activaLion of teaching in evening 3econdury
schools. Vop. psikhol. 10 no.6:173-176 N-D 164.
(111RA 18: 21-)
CZE-CHOSLOVAKIA/Electronies Photocells and Semiconductor Device H
Abs Jour Ref Zhur Fizika, No 12, 1959, 27913
Author Nesvadba, Otabar; Kvaczek, Ortm-r; Machala, Frantisek
111st Tesla Roznov, Czechsolovaltia
Title Geometrical Model of a Fused p-n-p Junction
Orig Pub Slaboproudy ubzor, 1958, 19, No 11, '155-758
Abstract As is luio-,ni, oxides on the surface of germanium jiuic-
tions, and also the warm humid ambient reduce the
constancy of the properties of transistors both dur-
ing storage time and during the operating process.
To attain this constancy by techDological raeans, a
geometrical model is proposed for the fused p-q-p
Junction. The action of this model is investigated
when moisture acts on the Junction at an increased
Card 1/2
- 88 -
CZE-CHOSLOVAKIA/Electroliies - Photocells and Semicoliductor Device. H
Abs Jour Ref Zhur Fizika, No 12, 1959, 27913
temperature, by measurinG such electric parameters
as the collector aurrent in a grounded-lbase circuit
and with the emitter disconnected, the surface cur-
rent of the collector for a grounded emitter, the
rate of surface recombination.
Bibliography, 20 titles.
Card 2/2
POILL, Julian,, inz-j--.""ZWMA Annap mgr.
Nw sand carriers for hydraulic cleaving of petroleum and gas collectors.
Prace Inst naft no.76:1-7 163.
TLOG"i
PERIODIChL, PRACE; ma. 58; 1958.
; p.; Szadaj, Z. The7~Mpari:rig of imter for flood~.-Ig- petrolelm, deposits.
,A
P. 3.
nthly List of East Euronean Accessions (E'7"1I) LC Vol. I,)', No. Auril, 1959, Unclass.
"
.io
) r,14"A C'-T S 21, -5-M I ': "~ p !, .
*;z-- - --- - - -
Sand carriers for the liydrsullc fracturing oil-bearinf- sm-ndstmes.
1-. 2 (Katowice, Pohnd (City) Instytut 'Frace. No. Katcwice,
Poland)
Yonthly Index of East European Accessions (EFJJ) LC. Vol. 7,, tic. 2)
February 1953
POHL, Julian, Inz.; XWACrSZ'EWSKA, Anna, mgr.
]Jew carriers for Joints of patrol" and gas doposits.1fafta
Pol 17 no.lltM of bulletim 161.
_-)9UCISZMKA7-A. j, mgr; POMMIA p Z. . mgr; SZADA ) Z. ) i= e
Analytic methods for athanolamina in gas desulfurization
in Lubaczow. Nafta Pol 19 no.2:Suppl,4 Biul inst naft 13
no.1:2 163.
---...KWAr-I3ZFWSK.A, Anna, mgr
I---- - ... I - ". ..- -
Selection of now demalsifiers for ovishliq; jx~trolomr,
occurring in the Polish petroleum indiistry. Nafta Pol, 20 no. 7t
Suppl. Kul in3t naft 14 no. 5,16:13 164.
T.
"Aer(dyranic fcr -Iari(7-,,i',- - :ad(,,,h.-cr--',~~--,-.,l --~. I,'
~ j k - I ~
, I .. T,Clf-,~;,, - Yo. 4/1 , C ctolrcr 1-15A '., -, flu , I- C, 1, -11 ~d )
I ~ /,., Ll~ -i% ~-. - j - Vol. 2
SO: !,.onthly List cf -last Accessicn,- (T-- U) Ic Vr--l. ;, (I. -~Jl
March 19'55, UnO-.
KWAK, T,_; CHRONIK, Ze; PBZYBYSZEWSKI, H.
"What They Say About the let Polish Parachutist Contest." P. 746.
(SKRZY.DLATA POLSKA, Vol. 10, No. 47, Nov- 1954, Warszawa, Poland.)
SO: Monthly List of East European Accessions, (IFAL). LC,
Vol. 4, No. 5, May 1955, Uncl.
p. 12
.~arachutc and parachutist. (To be contd.)
Y(W'KA- ~JAgo Lotniczv) ~,;vLr~;Ivewa, Poland. V.1. 11 no. 26, Julv 195-5.
iF;t of V~~C4 '1,,uroi)c,,an accession LC. Vol. NG Switember,
14,ontl-17 L
!~~59. Uncl.
Kv,bl', T.
n,TAY, T. Aerodynem,",cs of I-arachutes 8-n6, ;UmPs- (Conclusicn) p. ll.
Vol. El , bo. 29, Jily Ic:,5--".
SY-;---,'YLLATA ICLSYA.
TECHINCII C-Cy
warnawa, Yolbnd
So: East Ltropean Accession, Vol. 5, 1"'o. 5, 11-lay 195(-,
d,
fog
JERZykIEW -AND
are delCribed.
They my q
usm on)y up to 30 kV, S)Mfttic mateliols Are
n
cEKzwd ma spdal )z;u:m7=m for voltap tramp
lormpa (vilih on caritmd or balb izrn
um
cai,.bed) and vxmt tmWormT1. (bigh ff=hani.
arinSo ot insubdon an 94-t-cIrcuit) Rre
r--,nplgl cir Uamfuhmm mith plotic imulatl~nl;
AR
M
W
.
. M
SO
FMAL, Marceli, mgr. inz.; HELLER, WMelm, mgr. inz.; JACZEWSIU, Marek,
-Ar. inz.; JASINSKI, Edwardp mgr. inze
Correction to the article, "Idghtning faults of the Polish
high voltage network in 1958 - 1959,0 Energetyka 16
no.5:158 My 162.
1. Glowny inzynierp Zaklady Wytworeme Aparatow Wysokiego
Napiecia im. G. Dymitrowa (for Kwal).
KWAPIEWSK-1, Zbigniew, prof. dr; SLIWIOK, Jozef, dr
I
Detection of high fatty acids on paper obromatcgrans. Chers anal
9 no.1:119-121 164.
1. Department of Organic Chemistry, Pedagogic School, Kat..owice.
WAPINSKI, Jerzy; BACZYNSKA, Krystyna; GALL, Wieslawl Barbara
Waaler-Rose reaction. Postapy reumat. no,2:45-58 1956.
1. Z Instytutu Reumatologicznego w Warazawim Dyrektor:
prof. dr. E. Reicher.
(ARTHRITIS, RHBMTOID, diag.
serodiag., Waaler-Rose reaction (Pol))
(RHMWATIC YNER, diag.
gane)
BORYNIEG, Atanazy- KWAPINSKIS-~J~an-' NIKOLAJCZYKOWA, Terepa;
k
PETRYCHA .9 yl~wtg-~----
Copolyesters of phthalic acid. Polimery tworz wielk 9 no.3:
89-92 Mr 164.
1. Depart-me!- of Technology of Artificial Fiberst Technical
University, Lodz.
BORYNIECP Atanazy-, WAPINSKI, Jan; NIKOLAJCZYK, Wlodzimierz
Vinyl acetate grafting of polyacrylonitrile initiated by
potassium persulfate. Polimery tworz wielk 9 no.'"92-94
Mr 16-4.
1. Department of Technology of Artificial Fibers, Technical
University, Lodz.
KWASNIEWSKI. Jan. inz.
Digital computer method of preparing interlocking tables and
route diagrains. Przegl kolej elektrotech 11 [i.e.16) no.3.-
75-80 Mr 164,
KWASNIEWSKI, Jan, inz.
Digital computer method of preparing station interlockinfitables
and route diagrams. Ft.2. Przegl kolej elektrotech 11 .e. 16]
no.5:145-149 My 164.
IVAIPIMKI, J.J.
Correlation between virulence and morphology in colonies of acid-
resistant tubercle bacilli. Grazlica, Warszawa 17 no-3-4:233-248
Jl-D $49. (CLXL 19:3)
1. Of the Institute of Medical Microbiology of Wroclaw University
(Director -- Prof. L.Hirssfeld, M.D.).
ILVAPINSKI, J.J.
"
31ffect of strptomycia ox tubercle bacilli in cero'hre-spimal f luid. Gruzlioa,
Warszawa 17 ace-3-4:249-264 ji-D 149.
(CLKL 19:3)
1. Of the Institute of Medical Microbiology-of Wroclaw University
(Director -- Prof. Indvik Hirssfeld, N.D.) and of the Pediatric Glinic
of.Wroclaw University (Director -- Prof. Hanna Hiroxfoldowa, M.D.).
mpival, J.
Tubercle bacilli in the mM supply in Wroclaw. Gruslica, Warszawa
17 n0-3-4-.265-273 JI-D 149. (OLML 19:3)
1. Of the Institute of Nedloal Microbiology of Wroclaw University
(Director -- Prof. Indw1k Hirssfeld, M.D.).
K-VIAPINSKI, J.
"I" -- -
Morphologic differentiation of pathogenic and non-pathogenic strains
of acid fast bacteria. Med.doaw.Mikrob. 2 no.2:224 1950. (CULL 20:6)
1. Summary of the report given at 10th Congress of Polish Microbio-
logical and Dpideniological Society hold in Gdansk, Sept. 1949.
(Wr6ctaw.)
KWAPINSKI, J.
j~e *-~F ~ ,, - 'I" . : ' '
Significance of respiratory infections in the opfdoziology
of tuberculosis. Gruslica, Warszawa 18 no.1:118-ULO Jan-Mar
1950- (CLHL 20:1)
1. Of the Physiological Clinic of Wroclaw University (Direct
ip diseased)-Zdzielaw Skibinski).
KWAPINSKI, J.
-
Streptomycin resistance of Mycobacterium tuberculosis cultured in
cerebro-spinal fluid.Gruzlica, Warszawa 18 no-3-4:437-447 July-Dec
50- (CLML 20:7)
1. Of the Institute of Medical Microbiology of Wroclaw University
(Director-Prof. Indwik Hirszfeld, H,D.) and of the Pediatric
Clinic of Wroclaw University (DirectorProf. Hanna Hirazfeldowa,
M.D.).
KWAPIINSKI, J.
--
General pathology of virus infections. Polski tygod. lek.
6 no. 3911267-1270 24 sept. ig5i. OCLMI Z:L:3)
KWAPIIISKI, J.
Sq01% . ..
Experimental and clinical basis of use of antibiotics in
medicine. Polski tygod. lek. 6 no- 39:1270-1275 24 Sept.
1951. (CLML 21:3)
KWAPINSKI, J.
-- -
S&livax7 fungi In normal sugjecto and in tubarculosia. Grttzlicat
Wares. 19 no.1:10-23 Jan-yeb 1951- (CLXL 220)
KWAPINSKI, J.
Flocculoreactior, of the cerebrospinal fluid, Gruzlica, Warez.
19 no. 5:584-589 Sept.-Oct. 1951 (CLML 21:3)
1. Of the Bacteriologic-Chemical Laboratory of National Complex
of Sanatoria in Otwooke
KWAPINSKI, J.
Staining variations of acid-fast bacilli cultures. Med. doew.
m1krob., Wares. 4 no. 2:283-289 1952. (CLML 22:4)
1. Of the Central Bacteriological Laboratory of the Rational
Complex of Tuberculosis Sanatoria.
KWAPIRSKI, J.
Changes in coloration of acid-fast bacilli. Had. dosw. mikrob., Warsz.
4 no. 3:412 1952. (GLML 23:3)
1. Suumary of work progress presented at 11th Congress of Polish
Microbiologists hold in Krakow Miq 1951.
IWAPInn, J.
Antagonism among microorganisms and antagonistic substances,
Polski tygod.lek. 7 no. 24:805-808; qo'ntd. 16 Jone 1952. (ML 23:3)
RVAPMXI, J.
LV-
..ollllz~tv
I Antagondsm among microorganisms and antagonistic substances.
Plolski. tygod. lek. 7 no. 25:839-849;conel. 23 June 1952. (CIbIL 23:3)
KWAPIRSKI, J.
~
Permanganate cerebrospinal fluid test, author's own method. Polski
tygod. lek. 7 no. 39:1203-1209 29 Sept 1952. (GLXL 23:5)
1. Of the Pblish-Swedish Sanatorium (Director-R. &ainowski, M.D.),
Warsaw.
KWAPIESKI, J.
Draluation of modern antituberculosis chemotherapeutics, Przogle
lek., Krakow 8 no. 3:58-68 1952. (CUL 22:5)
1. Of the Complex of State Tuberculosis Sanatoria (Scientific Director
-Docent Jan Stopezyk, M.D., Director of Samtoriua-M. Skokowska-
Rudolf, M. D.) In Otwock.
KVAPIMKI I J.
Status of knowledge about poliomyelitis (in relation to writings of
Czech authors).Prsegl. lek., Krakow 8 no. 10:279-289 1952. (CLXL 23:5)
1. M.D. 2. Warsaw.
IVAPIMKI, J.;PIETRASZKMIOZOWA, H.
Effect of phenanthrene alkaloids on variation of pigpent prodaction
by Pseudomonad aeruginosa and Serratia maroescens. Med. doev. milamb..
5 no-2:159-164 1953. (GIN1 25:1)
1. Of the Institute of Microbiology of Warsaw Medical Academy,
I
KWAPDISKI, J.
-
Quantitative investigation on flocculation reaction. Polski tygod. lek.
8 no.16:586-590 20 Apr 1953, (CIAL 24:5)
1, Of the Bacteriologic Chemistry Laboratory of the Pediatric Taber-
culosis Sanatorium in Otwock,
MIAPINSLI Jerzy, Dr.m#3d.
%WONBNNW-
Immunochamistry of exudates in rheumatism; preliminary communica-
tion. Postepy reamat. no.1-79-82 1954.
1. Z Paustwowego Instytutu Raumatologicznago Dyrektor: prof dr
E.Reicher.
(ART.HRITIS,'RBWJM&TOID,
exu(iates, Imunol. chem. of)
(IXUDATES AM TRMMAM, in various diseases,
rheum. arthritis, immunol. chem.)
IWAPINSKI. Jerzy
- ------ --- wwa'-V-~~T. v' : '--. ~ - ;
Detection of specific and nonspecific antibodies in the blood
in qphilis. Wisdomosel lek. 7 no,4:229-234 Apr. 54.
(SYPHILIS. diagnosis,
. serol.)