SCIENTIFIC ABSTRACT FILICHKINA, V.N. - FILIMONOV, A.N.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R000413030004-6
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
June 13, 2000
Sequence Number:
4
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
File:
Attachment | Size |
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CIA-RDP86-00513R000413030004-6.pdf | 4.14 MB |
Body:
I-EDOTOVA
O.Ya.; LOSEV, LP SKRIPCHENKO, N.I.; FILICHKINA, V.N.
Synthesis and study of N,NI-substituted polyureas. Izv. vys.
ucheb. mv.; khim. i khim. tekh. 4 no, 2:271-274 161.
(MIRA 14:5)
1. Moskovskly khimiko-tekhnologicheskiy institut im. D.I.
Hendeleye-ra. Kafedra tekhnologii vyzokomolekulprnykh soyedineniyo
(Urea)
107
~nmr'.%
T777-17, 2.9,A
I - 'Cri t-.- Cr-t~clc Vclo~tm L.-. ti- .-sc-rr ?.rr i." the
t.1 lif-rou., Uoun-QUil," GrUtian CTOFLIZA; -p 7-1;.
2. Data -)n tv,~ tratlr-ra~m7 7f ~:11.-nt*.~
0f 2.art-rr ?b2d%r!&, ande-10-p-at P...1un.,
I --Zd.
C. rh . r! 7G7 -,d Z? . P ~L7 . np 1.
3. t~~- Low.r end L=n-r Lim!ts or t~li
Pml~cronlc .:~a In t~- 3cst,r-. %;srrat~-Ioms,~ !~. ti.
!TITT--,=; pp ?9-34.
e' "M:c= faims '3T th, P.rIn- 3-rlis in t~.
V-~Inl.%7 of Jbo'.1," T.I. ~;) 17-51.
5. *C'ntrLbUtLon., tm th. Itudy of tl~ M'oi.r. rcii1alk an,
Fauna ': t~'- IuMR d. R.~I'3n
64uth "i-st of clu.~)' J.
6. "?r-li-minpr7 :Lrta Zonc-rr!:~- tte of the
anz Prrhow~! V-tll-.
PI-10c.n. P.-w-n t . "'. I
7. ?,ama of t.19 Bs-nit-Fl."ovs Eill,' Auz~lia
Ba-ZLS5-V; r~ 81-S9.
8. ;cOntriitions t7 0.0 3tl,;!y a.' Vh. Dlato=lcs -In t1tv
1-4c-c~- zf Bustgnarlp" S. K2=7al; ~p ~tl-IMC.
g. ~onc*-n!nr t~- systen or cc 1.sc.s
i
Iul--Bna Tr%q rp !(,I-ll)g.
M"o-cror-'holorical O1~5-rvAtI-)qn In th- 1p..r 9~-In
I of wt- a-mmu, Tr. q.*xV,; rp 111-226.
111. OTh- Plstfor-~ end tx~31or E-7-1i of th^ Carving
C ar-- al.a Ia ard 3ub-CsrpaVA%-m J7,r 3-ct--r -~tv-
B so CN~-'Vj(hlul in th- 1.4~9- --d Clina-A in th- Ta t
Ia ; 7 - 3 "') '- !
Tr. PA71~ p 127 14
"Platra rrriuYul. leonix-tolo;1cal ::onsid-rations,"
Val-r1a -7 L';5-lS3- I
-rr! tu'-17 of thA -
'23 :b tputio to tho GA-or~ lo ~Ical S
Tolo7r&:~I. Cavs," 311vi-L Silvia and
1/2
- 7L~~ -: - - -.- - - - , --v -7-1~--, -E.- r, ~ i I.
I ~ . I ~ ~ I'll i~ . .
71: . - -
FILIMANOVO.G.-F.; LAZAREV, A.V.
Static oparation of a cylindrical magnetron. Radiotekh. i
eloktron. 7 no.5:911-916 My 162. (MIRA 15:4)
(Magnetrons)
o.
FILIMOIT, I
Some conskerations relativo to the brealring of reinforced-concret.
caissons st.bjected to bending. p 594-
P77ITSTA U)"STRUCTULOR SI A MATEMIAMOR. DE, CON"STRUCTIL~Asoriatia
Stiintifica, a Inr:.narilor si Technicienilor din iiominia A Mirister-I
Constnictilor si LI 1,1arerualelor di Oanstructii) 1~icumsti, Rumania.
Vol. 10, nc. 12, Dec. 1952.
,Ionthly -List of Ezist i-air iorls (TAI) Y,, Vol. 8, r:o.6, j!m-3 1959
opean Access
Unel.
VORIA) N.I.1 FILDION 1.
Usirg lime tdf of the Mmedoara region for constructions, Studii
tehr. Timisoara 9 no.1/28243-151 Ja-Je S2.
AVR.IV4, C.N.; FILB40N, 1.
Simple beton elements under the influence of eccentric compression.
Studii tej,.,m Timisoara 9 no*3/4:325-337 J1-D 162.
MATEESCU, Dan, prof. ing.; FLESERIU, I.; FLESERIU, E.; GADEANU, L.;
Bon , V. j ROSU, D.; FILIMON 2 1.; MAIOR, N.; NDRAILA , V.;
PAUNESCU , M.; RUSA, bidonla
Economicalf technical and scientific study on the construction
of some apartment houses with metallic framework of light elements.
Pt. 1-3. Bul St si Tehn Tim 7:287-321 162.
---TMrr= Urn. Arad. R- P.
wmaniall Russian and Frciicb iun~., F,~- A
-(P
'Me author applies conformal W.'a ;j-)%7,Z 1-.,
thf.
r h,.
tile !Z:--I- W. Ulv~llr Uf dw
11w Sollffion found bv the autf.(Ir ;S Ci%-L~u 11y
4~.,~ co-, $27
I
L49 I s la nimement
_CaMpreSjAblfs allfoUl- d'un rW- Ar~f
"-'_la.-re. Rev. Uriv. "C. 1.
Ser. Sti, N,7t--f fl-)5,31. 'na'2. 38- -4 T,'
17,
IMM
ai
S~'~*T_ 7
On the rntevO~Wfsrentllkl Equation of Frandti. (Aerod n mi
y a_ qaLl
Fl I I Sur I'dqw-.10a IWgubdiffAreadella &I
*~ . P. RoMIPAe Bul. ~ti. Sect. ~ti. Mat.1
(1957), 381-385. (Romanian. Russian andi I.RW
French summaries)
LIquation intAgro-diffirentielle de Prandtl, concez-,
nant la Mermination, de, la circulation autour d'nn profil
devivergure finle, est dquivalente k la risolution d'un~
rolblkine aux Bmites n-Axtes ainsi qua I'a ddmontrd E.~;
HU.
C
En partant de cette derniare forme du proMme del
Prandti, I'auteur ddmontre qua pour les, profils dont les I
param6tres de iorme out pour expression:
fflott~i tntt Cos (2ka)
PH- J%-I
"a+ Z x2,t cos (2k*)
la ddtennination de la circulation se rMuit A des qua- j
Af dratures. Mumd de Pautwr !
FILIgA I.
"Corrections of corpressibility in the continuous subsonic flows
around a given obstacle."
P. 433 (Buletin Stiintific. Sectia De Stiinte Matematice Si Fizjce)
Vol. 9, no. 2, 3.957
Facharest.. Rumania
SO: Monthly Inetex of East European Accessions (EEAI) LC. Vol. 7, no. 4,
April 1958
M
. I
i RM-1, Constnntln ll,,~ Fl:,TMON)
'Or 1, ; FRIE)DRIIll, R.
'I"
Stlidy of th~i frawww-ka of reinforced concre~,n Lpamq in the
plaWO Ota61O. [hil 3t si Tolin rim 9 no.1-215-222 Ja-Js 16,1.
FT7lV('Nf R,
Contributions to computation in trigonometric leveling at gree-t distancOS-
p. 79. REVISTA MINELOR. (Asociata Stlintifica a Tehnicienilor din Rominla,
Ministerul Industriei Carbunelui si Directia Generala a "Inelor si '.etalux-giei
Neferoase) Bucuresti. Yol. 7,, no. 2, Feb. 1956
So. East European Accessions List '101. 5, No. 9 September, 1956
VEOSEY, JOZ3ef, dr.; CSORBA, Lajos, dr.; FILIMA 2L.MZ4 dr.
Role of early tracheotomy In the,develapment of hypozia after
pulmonary resection. Yagy.sebeszet 14 no.1:57-63 7 61.
1. Az Orazagon Koranyl Tho. Inteset (Igazgato foorvos: Bossormenyi
MikLos dr. kandidatus, tudomanyos vezeto: Foldes Istvan dr. kandi-
datus) Sebesseti Oestalyanak (Foorvos: Ungar Imre dr.) koslemenya.
(PNMONECT09T compl)
(TRACHEA surg)
(ANOXIA etiol)
0-155
S/120/62/');' 048
00/003/019/
B192/B382
AUTHORS: Pradain, B.A. , Gorbachev, V.M. , Sem' in,
Uvarov, I-I.A., Filimonchev, M-1. and Shevtsov, V.A.
TITLE- A wideband pulse amplifier
PE210DICAL: Pribory i tokhnika eksperimenta, no- 3, 1962,
U, - 86
T EXT The amplifier consists of three stages of distributed
amplification, each consisting of 4 tubes. The output and middle
sta-es are bctsed on secondary emission tubes, type 6a-l,-, (6vip).
It is possible (by employing these tubes)to obtain a syrwnetrical
output and Iii.-In output voltages. However, since the tube 6VlP is
"Ion
I linear at small signals, the input stage is based on tubes,
type 6'-22.-. (6Zh22P), whose input capacitance is almost identical
with that of 6VlP, so that identical lines could be employed in
all -rid circuits. The distributed locas of tho amplifier stages
are In tlie form of lui;iped delay lines based on m-derived filiers,
6.,
~'_e i.-rave impc!dance of the anode, dynode and grid lines being 150SI.
The bandwidth of the amplifier is about 150 Mc/s per stage, which
Card 1/2
S/12o/62/000/003/019/048
A wideband pulse amplifier E192/E382
cor*responds to a rise time of about 3 x 10-9 sec. The output of
tile amplifier is applied to the plates of an os%:illoscope by means
of a cable, type "'-!--50 (RK-50), about 1 m long. The amplification
of t1he syste.-,i at th'o anode output is about 240 and at the dynode
it is about 160, the symmetrical output giving a gain of 400. The
naximum amplifier output at the anode is 140 V and at, the dynode-
30 V. The lon 'gest pulses applied should not exceed 3 115 in order
L.o avoid the fatigue effects in the secondary emission tubes. The
authors express thoir gratitude to I.M. Cherednichenko for
discussin- tAe results and to A.V. Filatov and B.F. Krestlyaninov
for preparin,- the experimental models of the device. There are
3 fiZ;ures.
SUMNITT M-: December 2, 1961
Card 2/2
FREDEINP ];.A.,- FILIMONCHEV9 MLI.5 PrApImali uchastiyesSEM'IN,G.N.;FILATCW, A.M,
T- -
Sliort time-interval meter, Izz,tekho no.1:28~30 Ja 163.
MRA 1632)
(Automatic timers)
IFFr(k)-2 1,12(a) Wr;
AU; NM ArC009t39 SOURCE CODE: UR/0413/66/ooo/oo4/01)32/0033
INVENTOR: Fel'd:nan, N. B. Filimoncheva, K. 1.
ORG: none
TITLE: Increassine the piezoactivity f cerenLicpiezoelements. Class 21, No,. 178664.i
SOURCE:--Izobreteniya, promyshlennyye-obraztsy tovarnyye znaki -no. 4,-1966 -32-33
TOPIC TAGS: piezcactivity, piezoelectric ceramic element
ABSTRACT. An Mtbor Certificate has been issued describing a method using heat
treatment to increase the! piezoactivity of piezoelectric cer:=ic elements. To raise
the electromech;nlcal couplirg coefficient during radial vibrations, the blw,tks of
piezoceramic elments with electrodes applied to them are heated to temperaturess of
20-70C above tte Curie point, cooled at maximum rate to room temperature, anti polar-
ized. JLDI
SUB CODE: 1l/ SLEM DATE: 14Mar6h/
1/1
uDC: 621,372.412.002.2
AL'I
-V A~
Doc
Tranwassion Lines
Electric Power Transmission
.J~:Wbraetical Experience in Rapid Constructim of Blectrid,
~g T!ranamission Lines," 1. 1. Fllimonchuk,- MhV, 4 rp
"Blelt Stants"'Wo ~ .12
Rotes that up to nov the most labor-consuming vork
(pit exca-vatlon) is not nechanized. For this ram=
the Kin for Elec Power Plants is taking steps to ac-
celerate production of'borin-g -A hines set = boa-vy
caterpillar tractors for digging cylindrical holesfor
f'j-ehaped anA single-type, vooden tove,,-m and-
narto~r_baft "peasiltals- for-metil tovek9r. Tv Is' also
necoammi-y t6'AA6'.Otbmr Pba*Oil 6f v6rkq suck ao a*-
gembl~ing 'brack6ts, On MaNN-PrOduction basis In-ja-
lance. Deserlbes examples of new labor-sa-ving neth-
ods.
0 00 0000 09604 too**
1 A., I L M a It n )II v x A a 11 w m
I a 0 P v 9 3 1 I-A V I AA CC ig U b It Al V a 4 A? 01 60 0
41
I
-00
to
t
Im FAW $SNOW
hr w" dbbm .00
o
t jw*&V
n b
v4k lk 26-4 C
m b, =00
DOOSM tow andwh aftwil in the Don bula
for lb" ftv* Amm im umomm Ortw wn&wwn
'
ll
arm
sMh wba
sW do pq* vA Othe wnduaon
we 0
of =fj" bL* Wnwpd 4*A~r.
0
0 wm-~ 14yed me qwWw&
nmmwnnvm
WRUN
, 00
Po z I I aS L A 'At'hLs Ulf.-,Cm. t(TINAILM CL&ts*K4tlQO
0 t I
- t -
i-
A 04. 1" co
,
i it
-
.
04 'A if No IV
10
" w V
. I j & P
t "t wit It* xUll llu W'Tr AOi OW0
kl*A 1:94 0 1 IF 16 5 A
3 11
1
I
0 to 0 0 410 0 0 4 0 0 0 0 0
0 * * 0 * 0 0 * 0 to 0 ** 0 0 9 0 a 4 0 0 0 0 0 a 0 0 e 0 0 0 0 a
0 0 f:$ e 0 * 0 00 4 0 0 00 0000 a*-
"Rapid 6recticin of a 220 KV -lectric TransmisBion Line., Rab. energ.,
2. No.3., 11)52
FILINONCICITK., I. I. Eng.
"SparwAnE: of 154 kv Llectric Transmission Line Across a River," Rab energ.,,
2., No.9, 1952
1 1. 1.
Novyi Up f undamentov dlia opor linii elektroi~ - --..;-,'achi Z New ty~-~c of
foun~atinn for eli~ctrlc transmisninn line poles!/. Moskv~A, GosT,nert-oiz' t, 1953. U_
I r! I
SO: !c,nth1.y_Lja
jLQJLJJUssjan_Acceg:Aong, Vol. 7 No. 2 May
SubJect t U.9sR/Power Engineering AID P - 3321
card 1/1 Pub. 26 - 7/28
Author pilimonchuk, I. I., Eng.
Title Driving of reinforced concrete piles Into compact
soil 11nee for transmission
Periodical z Elek. sta, 8, 25-27, Ag 1955
Abstract The driving of ferro-Concrete piles in the construction
of transmission lines towers is described. Various
types of drilling equipment are described. Four
diagrams.
Institution t None
Submitted : No date
FILIMONCHUK, I.I., inshenero
Rapid industrial-crew construction of transmission lines. Blek.sta.
27 no,12:22-24 D 056, (MLRA 10:1)
(Blectric lines)
LINE MATERIALS
"220 kv Electric Transmission Towers with Hinged Connections"
by Engineer I. I. Filimonchuk. Energetik, No. 6, June 1957,
Pages 1 -- 5':
Description of high (21.5 meter) towers for transmission
lines, bolted together of standard steel sections. Several
advantages are claimed for this type of tower, primarily
economy In metal (claimed to be approximately 25%), the use
of small dimension standard steel parts, and the possibility
of raising the productivity of shop operations by 50%. In
addition, the transportation costs are considerably less than
those involved in welded structures.
Card 1/1 - 26 -
PILIMONCM- I.I., Inihener.
Roinforced concrete pile bases under transmission line poles.
Mov.tekh.i pered.op.v stroi. 19 no.10:8-10 0 '57. (MMA 10:11)
(Concrete piling) (Zlectric lines--Poles)
AUTHOR: Fililaonchu-k, I.I., Engineer. lo4-3-io/45
TI12LE: _iechanisatl~onof~e construction of electric trans-
raission lines. (Mekhanizatsiya stroitellstva liniy
elek*6-0roperedachi)
PFMIODICAL: ITlekl!richeski7e Stantsil" (Power Stations), 1957,
.Vol.28, No-3, pp. 29 - 73 (U.S.S.R.)
ABSTRACT: The article describes achievements to date in the
mechanisation of transmission line construction by the method
of inechianised columns.
The inininium element or cycle of any transmission line is
completion of' all kinds of work on one length between anchor
towers. This length -ranges from 3 - 6 km for 220 kV lines,
5 - 8 ka for 400 kV lines and 2 - 3 km for 110 kV lines. The
rate of construction of a single such span 3 ka long on a
220 kV line %us 4 days. The amount of work to be done and
the equi-pment required are tabulated in detail. Several
exampleS of line construction at this kind of speed are quoted.
The use of reinforced concrete piles for tower foundations had
great advantages over assembled reinforced concrete foundations
and eve)a more over monoblock foundations. The economy res-
Card 1/3 ulting from the use of pile type foundations is illustrated
in detall by tables. On one line the costs per tower were
104-3-10/45
Mechanisation of the construction of electric transmission
lines. (Cont.)
out to about a third of the original value.
The Kurgan-Mikashino line was one of the first on the cons-
truction of which mechanised columns were organised. An
essential condition for the efficient operation of a mechanised.
coliman is adequate storekeeping because the work proceeds at a
rate of 0-?5 km per day on 220 kV lines and 1.25 Im per day on
110 kV lines leaving a completely finished transmission line.
Therefore, late delivery from the stores cannot be tolerated.
Except forloading and unloading the work is almost completely
mechanised. A first brigade clears the trace of the line
removing trees and undergrowth. Then a brigade of 23 men puts
in the pile foundations, a brigade of 86 men assembles the
towers, a brigade of 40 men erected the conductors, erecting two
circui-cs _--iizult;,-tneou sly.
The absence of good mobile living accommodation provided
with the necessary comminal services and the absence of radio-
communications must be recoguised as defects in the work of
the mechanised columns. However, this first experience of such
Card 2/3 work was very successful. The ILurgan-Makushino line was con-
structe-d in 120 days at a speed of 1.3 km of double circuit
line per day.
io4-3-10/45
Mechanisation of the construction of electric transmission
lines. (Cont.)
Design organisations should study the work of the mechanised
columns and har.3, the working drawings ready a year before the
start of the wo;?k. The levels of all kinds of technical
supply to the columns should be improved. It is to be hoped
that the positive experience of this work will be applied in
all parts of tha USSR.
There are 5 tables.
AVAIIABIE: Library of Congress
Card 3/3
q- ~v"-
[.I. i m7h.
Induntrializat I on n,, t n the r~onz truct inn CT eloctr --3
tr,-n~;-iqsion Urv- l4n.-.r -.stroi.
Oymn:' -1,:1.1)
1. Glavole!curoset
(~~'loctvric subetat ions)
'4
wu t'~
FILIKONC1110, G.,
From thip practice of the Ust'-Unchatak District Finance Section.
Fln.33S]l 17 no.4:75-76 Ap 156. WaA 9:8)
(Ust'-Xamchatsk District--Finance)
. ..... ~111-1 "Vy-.~,_ Vfi~
0
j
Cre,~:E`Li(~P 0
/j1q.LM)/r IJP(C) RM
EVP(J)
ACC NR: AP60011-955 (A) SOURCE CODEt UR/0191/66/000/002/0D67/0068
AUTHORSt Tomash, H, V.j Dromin, V. D.; Filimononko, L. T.
ORG. none
TITLE : The composition of the polymer part of the preliminiiry polymer obtained
in the first Mue of polymerization In the synthesis of impact-jrosiste~nt poly-
styreno_
SOURCE: PlastiDheskiyq mossy, no, 2F 1966p 67-68
TOPIC TAGS: polystyrenes polymer, polymerization, graft dopolyMr, coD01YMeriza-~
tion, M apectr-=1 IR absorption, turbidimotor, impact strength
ABSTRACTv The i.,ompouition or the polymeric part of the preliminary polyzaor ob-
tained by two-stage graft copolymerization of -jtyreno and butadieriO-Btyro.-19
rubber iv atudiod. At the and of the stage of preliminary polymiurization, tho
reacting mass contnins 25-30% of polymor, excludinl- the starting rubber (7-
10%). The composition of tho propolymer wai determinad by seloctive precipita-
tion. An FEK-M photooolorimater was used for turbidimetrio titration. The
polymer jart wan precipitated from a benzene solution with methanol. The
. ........ UDCs 678.746.22-136.;22-134.W
L w797-66
ACC NRt AP60059,55
infrared spectra of the products from the sold, tion of the polymer part agree
with the spectra of but%diene-styrene rubber;^he impact-resistant block -Doly~-
styrenep and the frei--pAystyiene (see Yig-.--
MM"R
L 20797-4z")
ACC ITRt AP600:5955
Fig* I* Infrared sPectral a pure polyp
BtYrellej b - product of polymer
part from a benzeno solution of
it vith an aCotone-mothanol
14
0 b.
Lb
6V
low mm AM ex
Orig. art. has' 4 graphs'
SUB CODE;1/407/ SUBM DkTEj none/ ORIG REFt Ool/ OTH Wj 001.
Card 313--
Simplified MEthod of Treating Ringworm in Lcn6 Forned Steer"
Diesel f-,.el is beate to 60-70 4egrees in a metal vessel over coals or
on a burner (avciding flamel and rubbed into areas afflicted with ringworm, while
still hot withotLt preliminary removal of scabs. The latter fall off in 2-3 days]
and the skin in the affected areas takes on a normal appearance. This method
produced good results when applied to 130 calves. Recovery did not occur in three
control calves ~tho were treated with unheated diesel oil.
50:. Veterinari~ra, Vol 29, No 4.. Apr 1952, PP 34-16
U-MOT
1 im-nan-o '7-qF :"~'he Use cf th& rcr rorhvlactic
P,irpo,ses in Combating Calf I`ax-:qt,!-phus." !'in Higher 7ducaticn USSIP.
Azerbavdzhan Apricultural inst. Kircvobad, 155~- W ssertaticn
for the Degree Of C2ndidate in V,~terinary Science)
So: Ynizhnava Lr!tonisl, No 12, 1956
T'T.1 ri A -
F-Till"I"N"V, it. -- "k-,pect-r; of Tranti-o-i-, Prccc!~Les Lqnrl Traction Calcula-
tions *..n the I"aneuverim- cf Loconctives." Vin I'ailways 'USSR. Mos-
cow Oixter of Lenin and Order of Labor Bann(-r Inst of
Transpori. Enffineers imeni I. V. Stalin. '!nocow, 19"1% (`)Isrl-~rtatlon
for tho Der!rea of Candiftta in Technical Lciences)
SCI: Knizhnaya Letopis', No 1, 1056
Device for checking iEnition advance.
Ja 162.
Avt.transp. 40 no,1:21-22
(MIR-A 15:1)
FILIYONOV, A. , kapitan
On social principles. Voen. vest. 42 no.7:55 Jl 162.
(MRA 15:6)
(Military administration)
NBCHATAT, M.A.; FILII(CNOV A,A radaktar; AKATOVA, Y.G., redaktar;
KWYA.'M III --,I ~ enkly rodaktor.
(HamuLl of eaq)loyeen of city gas works] Sprovachnik rabotnika
gorodukogo gazovogo khosiaiatya. Moskva, Izd-vo Ministerstva
kommurkalIntgo khozinistva-RSM, 1955. 349 P. NLRA 9:4)
(Ono manufacture and works)
21051
S/019/61/000/004/021/110
Y, //.3 A152/A!27
AUTHOR: Filimonov, A.A.
TITLE: A method for examining dielectric heterogeneity of
"Rochelle dielectrics
PERIODICALt Byulletent izobreteniy, no. 4, 1961, 32-33
TEXT : Class 21e, 2912- No- 135962 (658320/26 of March 10, 1960).
This method of examining dielectric heterogeneity of "Rochelle dielectrics"
(segneto-dielectrics) differs from others in that for simplifying the pro-
cOss of examination, a solid current-conducting layer is applied to one
side of the Rochelle dielectric under test and an electric luminophor sus-
pension in a transparent dielectric is applied to the other side; then a
transparent electrode is put on the electric luminophor (e.g. a tin oxide
film on a glass), whereupon the capacitor thus made is fed with an alterna-
ting electric ourrent -to excite the electric luminophor watching or photo-
graphing through the t:ransparent electrode how the brightness of the lumino -
phor's glow is distributed. 2. A variant differing in that for examining L/
Card 1/2
A method for exatUning dielectric ...
21051
S/019/61/000/004/021/110
A152/AI27
the process of polarization and repolarization of the Rochelle dielectric,
the capacitor is subjected to the effect of a permanent electric field, or
is fed with squal!e ourrent pulses. V~
Card 2/2
- t t% 5
S;0,`7o/6i/oo6/005/003/0l1
I It, "pg 0 (0(/ 3 E132/E560
AUTHORS Zheludev, I.S., A.A,,. Yurin. V.,A. and
Romittiyuk. N,A,
TITLE, The observati.ori of the domain strticturc, of ferro-
electric crystals by means vI electroliiinines,:ent
materials
PERIODICAL~, Kri.stallografiya,, 1961. V(jl,6: N0,1,, rar) 076-.68k)
+ I plate
TEXT A basically new method of shr-wing up the domain
structure of a ferroelectric has been tried out, It consists in
using a paste of ZnS in a sili-cone oil spread oil oup surface of a
plate of the crystal cut perpendiculiii to tho fez roelcic tric axis.
An electrode isi appli.ed to the oppos-to ~-ktrface and a transparent
electrode 16 firmly pressed down on to tho Paste, A
glass plate coe.ted with Silo a will svr~,t- as tile latter,~ When an
alternating voltage is applied across tile assembly tile field
divides itself between the two IkAyers invei sely ii- the dielectric
constants, A Frequency below I kc/s wa, nzied,l higher frequencies
giving too much heating., A constant F,vll can be apolied to hold
the domain structure fixed.. Tht, pciarization of' tli(o domains then
Card 1/2
The observation of the domain S/070/6'L/006/005/003/011
E132/E560
adds and subtracts from the alternating 11eld and at the optimum
value regions oppositely polarized can be, seen tiA4 light and dark.
The method has been successfully tried for specimens of triglycine
sulphate and guanidine aluminium sulphate, Specimens with the
domain structure stabilised by Lrradtatton with gamina-rays have
been preferred. Those have a very large hysteresis for the
reversal of the polarization of the domains and are not so
disturbed by the applied voltage as other specimens.. The resolving
pDwer' is poor., There are 5 figures arid 18 references,
13 Soviet and 5 non-Soviet, The English-language references read
as follows,. Ref.1,, W. 1. Merz, Phys., Rev,; 95~ 3, 690. 1954~,
Ref.,84 H. Toyoda, S. Waku, H, Hirabayashi., J. Phys, Soc. Japan,
14, 8,.1003~ 1959-1 Ref.9- G. L. Pearson, W. L. Feldman., Bull.Amer,
Phys. Soc., 7. '536, 1958.
ASSOCIATION3 Institut kristallografii AN iSSR
(Institute of Crystallographr AS USSR)
SUBMITTED~* March 11, 1961
Card 2/2
FILIMUIOV, A. A.
11:7nvestigation of the Effect of rleat. on Friction-Clu-tch
Slipping." Cand Tech Sci, Kharlkov ?'olyteehnical Inst :Lniani V. 1.
Lenin, Kharlkov, 1954. (KL, 71o 8, Feb 55)
'-'0- Sm. Yo. 631, 26 Aug 55-Survey of Scientific and Te&~nical
Dizisertations Defe-ded at USM Hi,,her "Educational !:-stitutions
(IL.)
-N- f -7
13 7- 58 - 1- 1929
Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 1, p 259 (USSR)
AUTHOR: Filimonov, A.A.
TITLE: On the "Bu_rn 1 ng- On" of Bearings with Lead-base Babbits (K
voprosu "prizhiga" podshipnikov so svintsovistyrni babbitami)
PERIODICAL: Nauchn. tr. Novocherkass. politekhn. in-t, 1955, Vol 30,
pp 218-224
ABSTRACT: An investigation has been made into the effect of the compon-
ents of the alloy and the temperature on the mechanical and anti-
friction properties and phenomena accompanying the process of
"burning on". As a result of the investigation, the conclusion is
drawn that "burning on" is not practicable, as it diminishes
plasticity and CFW
P.N.
L, Bearings-Test methods 2. Bearings-Test results
Card 1/ 1
I.S.; SOIIIH, A.S.; TSMLEVICH, Te.Ye.; FILIHOROV, A.A.
lxperimentaI investigations aimed at finding new piezoelectrics.
Kriatallografiia 4 no.1:65-68 J&-F '59. (MIRA 12:4)
1. TsUILP.
(Piezoelectric substancee)
FILIMONOV, A.A.
Pairfornance of automatic ignitioD~advancrz devices of an autowbile
engine under unsteady conditions. Trudy NPI 131:31-39 162.
(piltomqbpea -Ignition) N RA 16 - 3)
iFILIMONOVt A.
'With Imr own forces, NTO 3 no.Us34-35 N 163. (MIRA l6112)
1. Prodsedatell soveta Nauchno-takhniaheakago obshchestva Pereahin--
okogo loookhimicheakogo zavoda, Zakarpatskaya obl.
t 04a- i"j )"I ed A I Y/EPL( s 2/DW2(r.)/E_RC Cl-- (t )/T/ Eulp, k)
P
UR - AP5,)()847". -:;j_4 S /0070 MS 10 /002/025 5 M256
AUNIOR, Vilimonov, A. kt; 1,~LT_DVa, L. G. Suvorov, V. S.; Pekhom,:m, V. 1. Sonin,-
i THLE: Sc!cond h&ruonic irmeration in potess.Lum, J odat(jmon-ocrystUE -L-7
SOURCE. KxistallografiyiL V. 10, no. 2, 1965), 255-256
1 TOPIC TA08'. . lager laser, nenlinear optics, hicz-vonic gCnQrILUC71, second
ra ti
harnoni --votausiAlu-3 nlinc~ar_e~f f-ect,-Qu --cal. harmonic
;L7'
A S ~-c 0) 11 hammic ganeral-for in cry_tt~i.!!; c.!' 1 !urn tn at e(i
by a ruby laser eiai.ssion (X 6943 b ia reported. M.~.xlmun gene~-a~'102 "Ms ln~ -urle
A
4021, [1201, and [0121 directions and was of the ss=2 order of nagritu'e as that
ra
observe(l in, ADP crrstals in the.directiozi,of matching indices. determ--inaUon
0" thC- (1-1:117eCtiOn,Or Matching indices in K103 crystals was difficttlt becallote of 1.0w:
crystal w "m etz-1 dad the difficulty of measuring refractloft inde:,tes. The minimal
rf,-fractio!t indexes for the D11, line with lesser emission. priparataor, in thf~_ 11001
Colo] and CoulAlrections were 1.7281, I.UT4, and KIO
i c-,:~;stals exhibited high ltirefr4z!gence.~ It was deter-miriied -from abiini-ptic;n s P t~ c t. r a
L C-S
Ulat the cl-1;3tals 'we're,tilansparent between 0.4 and 6.2
j 2
XMIN, B.K., inzh.; Prinimali uchastiye: TARATUTIA, N.K., pornyy inzh.;
21LIVIUSKIY, A.Sh.., gornyy inzh.; BMFEIN. A.F., gornyy insh.;
BONWIMO. To.D., gornyy insh.;,2ILIM)iQ.T..-A.F-,..gornyy inzh.
SOCHIRSKIY, Y.P., otv.red.; KHODNWA, I.Y.. red.izd-va;
IL'INEKAYA, i3.M,, tekhn.red.-, BOLDYREVA, Z.A., takhn.red.
[Selection of mining systems for flat Donets Basin seams] Yybor
sisten rasrabotk!L dlia pologikh plastov Donbaese. Moskva, Goo.
nauchno-tekIin.izd-vo lit-ry po gornomn delu, 196o. 194 p.
(mmA 14tO
(Donets Basin--Goal mines and mining)
USSR/Geology Electron Microscope Se.P/Oct .53
"Study of Ore Structures by Means of the Electronic
Microscope," F. T. Syromyatnikov F. FIlimonov
Iz Ak Nauk SSSRI Ser.Geol, No 5, PP 135-140
State that'exptl investigations show that the elec-
trot microscope not only exactly reproduces the
characteristic structures which are distinguished in
an optical microscope, but also reveals new peculiar-
Ities'which have not been observed previously. Des-
cribe the application of the instrument and the
procedure for using it.
265T75
KUKLINq B.K.; prinimali uchijtstiyet'Z1L*VYANSKIY3, A.Sh.p gorn)7 inzh..*.
'Mo"
BAKHTIN, A.F., gornyT inzh;, IMONOV, A.F., gornyy J13zh.; TARA~
TUTAy N.Y.9 gorbyy lbzb BONMA~R~= ,__rK ~.q gornyy inzh.; NEM-
BLWV Vae.t kande t6khn. nauki otv. re4.; NOMLMLMDOVA, V.F.g
red. izd-vaj LWILINA# L.N., tekbn. red.
[AnalyziAj the methods of mining flat seams in the Donets Basin]
Analiz siatem rasrabotki pologikh plastov Donbassa. Moskrap Gos.
nauchno-tokhn. izd-vo lit-ry po gornomu delut 1961. 415 p.
(MIRA 1416)
(Donets Basin-Coal mines and mining)
MEDYANTSEV, A.N.) kand.. tekhn.nauk; KUKLIN, B-K.) kand. tekhn.
A.F.) inzh.; BAKIUIII, A.F., inzh.;
nauk;j%,U1%jO11.
SHUSHKON) A.M.,, in2~*-;~"SINYUGIN, V.M., inzh.; CHMNYAYE%',
V.I., ir.zh.,- BEYLIN, V.Ya., inzh.; ZELI-VYANSKIY, A.Sh.,
inzh.; ZT1IZLOV, V.I.) otv. red.
[Selecting systems of maltiple-horizon mining of flat seams
in the Donets [Asin] Vvbor skhem sovmestnoi razrabotk! po-
logikh plastov Donbassa. Moskva) Gosgortakhizdat, 1963. 106 p.
(MIRA 17:5)
1. Donetsk. Donetskiy nauchno-issledovateliskiy ugollrqy in-
stitut. 2. Donetskiy nauchno-issledovatellskiy ugolInyy institut
(for Kuklin). 3. Ukrainskiy filial Vsesoyuznogo nauchno-
issledovatel'skogo marksheyderskogo instituta (for Medyantsev).
KIZYMENOV, V.P., g:ornyy I.rjzh.; FILIMONOV, A.G., gornyy inzh.
Studying the strength of reinforced concrete fastening rods.
Gor. zhux. no.6s7l Je 164. (M.A 17s11)
1. KaragandinakAy nauchno-issledovatellskiy ugollnvy institute Karaganda.,
SPITSYN, N.A.; ZUMIONQI(,-.A,T-, kand. tekhn. nauk, dots., nauchn.
rad.j KI)STYUKOVETS, F.T., red.; MORGUI40VA, G.N.., tekhn.
red.
[Studying the adhesion of rail and wheels during braking]
Issledo-ranie stsepleniia koles s rel'sami pri tormozhenii.
Minsk, :Ezd-vo if-va vysshego, srednego spetsiallnogo i pro-
fessiormillnogo obrazovaniia BSSR, 1963. 40 p.
(MDU 17:4)
Dis,sert,_t ion (,-f'
uhe iori ,pl.;; rf 5tD!v
All-Union Urler of the Dtbor :x'ed Lanner eat Enine-ri!,,,, ci
'Ls Inst L.uml F.
80 Vecherya,ya Moskva
Sum 71
I 'IT -!:CV, ~.I.
, "i,
- A . 1~1: Y.D.; TI '(.F*. S, V.N.; FILI..' 4-
C!feam Boilers
Using expFri-.-.entnl dAa for the study of moisture removial. Izv. ~.: S::-". R Ctd.t~kh.
nauk no. 4, 1952.
9. Monthl List of RU38ian Accessions, Library Of Congress, l)ovF:-:b(-'- 10152~
r locn, Uncl.
FILIKONOV I A. 1.
Subject USSR/Engineering AID - P-74
Card 1/1
Authors Panasenko, M. D., Kand. of Eng. Sci. and Filimonov, A. 1.
Kand. of Eng. Sci., Moscow
Title Relative'Velocity of Steam
Periodical Izv. V.T.I., v. 21, #3, io-14, mr, 1952
Abstract The significance of water expansion due to rapid evapora-
tion and bubbling is discussed and evaluated in special
experimental equipment. Expansion of soluble and In-
soluble ingredients in water is related to the rate of
evaporation and the ftight of water level. Two diagrams
and, 6 charts. 6 Russian references (1947-51).
Institution : Boiler Laboratory of the All-Union Heat Engineering Inst.
im. F. E. Dzerzhinskiy (V.T.I.).
Submitted : August 215, 1951
1. PAINIASEE'K0, M.D.; ZILMONO , A.L.; ROZENGAUZ, T.N.; K(yl', A.A.; RUNYANTSEVA, II.A.
2. USSR (600)
4. Steam Boilers
7. Thermochemical testing of the boiler model TP-23 with staged evaporation. Izv. VTI
21 no.10, 1952.
9.- Monthly List of Rucsian Accessions, Library of Congress, January -1953. Unclassified.
AID P - 1247
Subject USSR/Engineering
Card 1/1 Pub. 11.0-a -- 8/17
Authors : Kostrikin, Yu. M. and Filimonov, A. I., Kands. of Tech.
Sci.
Title : Removal of' salts and ailicic acid from the steam-water
loop by the method of "scavenging" the turbine
Periodical : Teploenergetika, 1, 34-37, Ja 1955
Abstract : The possibilities are considered for the removal of salts
and silicic acid from the steam-water cycle of a steam-
power station. The effectiveness of the suggested method
of "scavenging" is analyzed.
Institution : All-Union Heat Technical Institute
Submitted : No date
F1 10 ~!ONOV.AT
AID P - 2556
Subject USSR/Eng!neering
Card 1/1 Pub. 110-a - 8/13
Authors Fi:',imonoir, A. Kand. Tech. Sci., and Antonov, A. Ya.,
Title Influence of water cooling in gage glasses on readings
Periodical Teploenergetika, 6, 37-39, Je 1955
Abstract The causes for errors occurring in the readings of water
gage glasses are analyzed. The possibilities of estab-
lie.hing the actual water level in the drum are presented
with thearetical and mathematical equations. Suggestions
for improvements in the design of the installations are
made. Five diagrams. One American reference, 1953.
Institution: All-Uniort Heat Engineering Institute
Submitted : No date
F11111 ONOV) A.T.
AID F - 2392
Subject USSR/Engineering
Card 1/1 Pub. 110--a - 6/15
Authors Filimono .94.&P Khrustalev, B. A. and Kolchenogova, I.P.,,
"n Sci.
Title Research on heat transfer in boiler furnaces
Periodical Teploenergetika, 7, 30-33, Jl 1955
Abstract Tests made on heat transfer in specially-built furnaces
are described. A comparison is made with standard
equIpment. According to the results reported, convective
heat transfer is desirable for furnaces of small dimen-
sions. The standard design of the boiler unit appears
to be unsatisfactory for some types of furnaces. Four
diagrams. Seven Russian references, 1949-1954..
Institution: Power Institute of the Academy of Science, USSR
Submitted No date
q IN
AID P 4223
Subject US.')'R/Heat and Power Engineering
Card 1/1 Pub. 110 a - 4/15
Authors Panasenko, M. D., I. N. Rozengauz, and A. I. Filimonov,
Kand. Tech. Sci.
Title Individual separators of the VTI type
Periodical : Teploenergetika, 3, 22-26, Mr 1956
Abstract : Three different types of separators designed by the
VT:: are discussed in detail. It is reported that
TP--230 boilers equipped with these new separators produce
steam of a better quality than the steam obtained from
the standard-type equipment. Eight diagrams.
Institution I
: All.-Union Heat Engineering Institute
Submitted : No date
aomr~
CC
-11-
4j.
'I Fj
A !S~~
t N
471-7 -
AUTHOR: PawLsenko M.D.0 Candidate of Technical Sciences and
Filf,.monov A.I., Candidate of Technical Sciences.
TITIa Me- Wext_ra_~tion of mine~.ral admixture steam
power cycle. (Vyvod iri_ner-a,1'ny1Ja primesey iz paro-
silvogo, tsikla.)
PERIODICAL: Moloenergetikall(Thenial Power) 195? Vol.41 No.7,
pp. 46 - 50 (M.S.R.5
ABSTRACT: Only direct flow boilers can be used in the latest
powgr stations worldng at super-critical pressures or
even in some cases at super high pressure. The problem
of removing mineral admixtures from the steam cycle of
these boilers is, therefore, important. Complete de-
salting of condensate requires expensive and compli-
cated equipment. Other methods will often be more
economical, for example, so-called blow-down from t-he
tu.Tbine or the condenser.
In principle blow-down from the turbine is better
than from the condenser since the moisture formed in
card 1/6 the turbine usually has a much higher content of
admixturos than turbine condensate. Using super-
critical pressure and double reheat, turbine blow clown
Tho extraction of mine.ral admixtu.-es from a steam
power cycle. (Cont.) 96-7-32/25
can only be effected by wetting in some way the steam
tapped for regeneration. The method of blow down from
the condenser proposed by the present authors was
considered by M.A. Styrikovich. However, he only con-
sidered the variant employing chemical desalting of
the blow-down water and, therefore, concluded that the
method was not suitable.
This article explains a new variant of blow-down
from the condenser with the use of gas evaporators.
The salt balance of a block consisting of a uniflow
boiler without separator and a condensing turbine with
no special proceduresfDr removing salt from the cycle
is considered theoret:ically. An equation is formulated
for the balance of mineral substances in the cycle.
The equation is valid for all mineral admixtures except
thDVe like iron and copper which are not, considered
in this article. The author makes two assumptions that
card 2/6 are challenged editorially in footnotes. The first of
these is that the quantity of mineral substances
deposited on the heating surfaces of the boiler and
The extraction of mineral admixtures from a steam
power c-ycle. (Cont. ) 96-7-11/25
turbine cannot be neglected, the footnote claims that
sometizkes they can. The second is that the amount of
substance deposited may be of the order of 0.005 mg/kg
which the editors claim is far too high, However, the
system is analysed and numerical examples are given for
the case of cooling water leaking into the turbine
system. It is concluded that deposits in the turbine
cannot be prevented only by purification of the make-up
water since leakages into the condensate system cannot
be entirely prevented. Therefore, some kind of cont-
inuous removal of mineral admixtures must be used. It
is considered necessary to develop effective methods of
purifying the blow-down and make-up water. This may
be done by chemical de-salting, by the usual types of
evaporators and other devices. However, a much caeap
Ler
method is distillation of the water in special "evapor-
ator6l' working on flue gases towards the tail end of
Card 3/6 the furnace with subsequent condensation of the stecam
in air heating calorifiers. Developing the idea of
D.A. Ennakov and N.S. Vasillev of the Kashira Power
The e~t t' of mineral admixt-nngrfr, steam pmr
le c , qo a
N'ti qnHI L 5
S a on KashirskoyGRES), the All- ni n Rermo-techn-i-
cal Institute developed a cascade gas evaporator which
besides producing condensate from chemically softened
water permits the dimensions of the convective heating
surfaces of the boiler to be reduced and facilitates
the arrangement of the heating surfaces outside of the
temperature region in which corrosion is dangerous. A
possible circuit is illustrated in Fig. 3. The first
stage air heater is replaced by a dascade medium press-
uxe evapoiator with step-wise evaporation. Blow-down
water from the condenser is passed through a de-aerator
and is delivered by pump to the first stage of
evaporation. On the way the water is heated in a gas
ducto Steam from the first stage of evaporation is
directed to the last calorifieroon the air duct in
which the air is heated to 225 C. The water that is
nct evaporated in the first stage passes to the second
stage of evaporation at lower pressure and so on.
Card 4/6 Each stage of evaporation has its own circulation cir-
cuit and one or several separators (cyclones). Conden-
sate is taken from the calorifiers in a similar way,
The extraction of mineral admixtures from a steam
power cycle. (Cont.) 96-7-3-1/25
Chemically purified make-up water is delivered to the
last; stage of evaporation. The steam from this stage
is Jurther purified by the method of partial conden-
sation. Condensate from the calorifiers passes to a
deatirator. The circuit can give water of vei7 high
quality in respect of both salt content and silicic acid
since the actual blow-down water from the condenser has
a low content of admixtures and the steam is carefully
purified. A calculation was made for a boiler with an
output of 600 t/h with a superheated steam condition
of 210 atm. and 610 0 operating on Aralichevsk coal.
The equipment illustrated in the diagram would have a
steam output of about G? t/h, ten extraction cyclones
wouLd be required and a low pressure dram of 1 400 mrl
diameter. Since the gas evaporator is installed in
place of the first stage air heater the gas-way need
not be so high and the quantity of metal required will
Card 5/6 be about the same.
on comparing the various methods of purifying con-
denSate (or other blow-down water from the cycle) by
The extraction of mineral admixtuxes from a steam
power cycle. (Cont.) 96-7-11/25
chandcal deBalting and distillation in gas evaporators
the followinS circumstances should be allowed for. In
the gas evaporator the condensate is a product of dou-
ble distillation, the output of which will be much
purer than the initial condensate. The cost of the
boiler equipment is hardly increased by the install-
ation of the gas evaporator and its size is reduced.
No additional staff are required. The method of blowing
dovai condensate and treating it in gas evaporators can
be used mhatever the boiler pressure in view of the
ext,,:,eme importance of ensuring the requisite cuality of
steam for the operation of large boiler-turbine blocks
particularly with super high steam conditions it is
necossary to constiuct and test several installations
Card 616 with gas evaporators. There are 3 fif~ares and 3 Slavic
references.
ASSOCIATION: All.-Union Thermo-technical Institute (VTI)
AVAILABLE:
F11IMONOV, A.I., kandidat tekhnicheskikii nauk: PRZHIYALKOVSKIY, M.4.,
kiffidi&it tekhnicheskikh nauk; DIX, E.P., In7hener; P-20T.-ROVA, I.N..
inzhone;r.
Sipacific driviog preosurao in pipes with descending love"; nt n
sieam loading of 17 t0 180 RtM [w'ith summary In Englishl- Tepio-
energetika 4 no.10:22-26 0 '57. 1,):g)
1. Vaesoy7.2.-nyy teplotekhnicheikiy institut.
(Boilers)
YILIMONOV, A.I., kand..tekhn.nauk
V, .. --
Ifficiermy of g;ms ejectors. Avt.i trAk-t.prom. no.9:9-12 S '57.
(MIRA 10:11)
(Automobiles--Sngines-Cooling)
SOV/113-58-2-10/15
-AUTHOR: 'Filimonov, A.I., Candidate of Technical Sciences
TITLE: A Method of Testing a Gas Ejector and the Operating Condi-
tions of the Same (0 metodike ispytaniy i rezhimakh raboty
gazovogo ezhektora)
PERIODICAL: Avtomobilinaya promyehlennost', 1958, Nr 2, pp 34 - 37 (USSR)
ABSTRACT: The work of a gas ejector is determined by the consumption,
pr-qssure, and temperature of the ejecting and the ejected
ga3es. A simple diagram of an ejector is shown in Figure 1.
Th,3 device used in the experiments is given in Figure 2.
Se-veral formulae are developed in the article for calculat-
ing the work of an ejector. The experimental results for
nozzles of 25-200 mm in diameter and a mixing chamber of
1,1500 mm length are given in Figure 3. There are two fields
of operation for the nozzles: in ejectors with central supply
of the high-pressure gas and in ejectors with peripheric
suipply of the high-pressure gas. Ejectors may be used in
automobiles: 1) in place of a fan for blowing air through
Card 1/2 thia radiator which increases the effective Dower of the
SOV/113-58-2-10/15
A Method of Testing a Gas Ejector and the Operating Conditions of the Same
engine by 5-10%, since the ejectors may be driven by exhaust
gases (Figure 5)1 2) for removing dust from the bin of the
air cleaning device which reduces wear and increases relia-
bility (Figure 6); 3) for reducing the counter-pressure in
the exhaust which improves the cleaning of the cylinders
etc. (Figure 7). There are 3 diagrams and 4 graphs.
1. Air ejectors--Test methods 2. Air ejectors--Operation
3. jUr ejectors--Applications 4. Exhaust gases-Applications
Card 2/2
SOV/96--59-7-15/26
AUTHORSs . _Fjj_jTap v.,- --,i~,-Cqndidate of Te-~-hnical Scion:,es, and
Dik, E.P.,-Br.gineev
TITLE-. The Influence of Mass E-Tn-.hange on the Fcrmat'ion of DeDosj~-,i
from Steam Solutions (Vliyaniye massoobmena na obrazovani.yer
otlozheniy iz, pa--cvykh ras-tvorov)
PERIODICAL-. Teploenerge-11-ika, 1959, Wr 7, Pp 6,9-74 (USSR)
ABSTRACTgThe pro--ass of deposit formation in on,ce-through boilers
and turbines depends on the conditions. In the wet s-l-eam
zones the substance is precipitated- because the aqueous
solutio:a is ctvaporated ~~o the concentration of saturation.
In the super-heater and turbine, small of sub.-
stances, which are already present, become e~,agulated, a,-.,d
substan.-es dissolved in the sterim crystallise 'ecaus,_:
of incr,aase in steam conditions., and improvements in thF--
quantit-y of feed-water -.nd stearn. a gre~iler proportion of
the total contamination is dissoi-ved in the ste:-,,m. It is,
therefore, of' great practical interest to study the
crystallioation of sub9tan-.es from a gingle-obase uteam
Card 1/7 solution in super-heater tubes and turbines. ~; imp! e
SOV/96-59-7-15/26
The Influence of Hass Exchange on the Formation of Deposits from
Steam Solutions
eouations of crystallisation are formulated and it is shown
that the rate of crystallisation may depend on diffusion
or kinetic! factots. In aqueous solutions both these factors
may play a part, but the conditions of crystallisation of
substanceii from steam solution are somewhRt different,
Precipitation from steam occurs at much higher teiaperatures
than are usually encountered in aqueous solutions. At the
higher temperatures the reactions are much faster and it
may be supposed that the rate of orystallisation of sub-
stances from steam depends on mass exchange and not on
kinetic processes. Moreover, molecules dissolved in steam
are much less closely linked with the molecules of solvent
than are ions in aqueoua solutions. This also suggests that
the kinetic part of t~ie process occurs very rapidly during
crystallisation from steam solutions. Accordingly, the
equation for the quantity of substance precipitated assumes
the foxm of equation (6), where P is the mass-transfer
coefficient. TAe case of precipitation in a heated tube is
Card 2/7 then considered, Investigations on the solubility of sub-
SOV/96-59-7-15/26
The Influence of Blass Exchange on the Formation of Deposits from
Steam Solutions
stances irt steam have established that for many of them
the naturEt of t'he solubility isobar is much the snme. As
the steam temperature rises, the solubility of the substance
diminishes, reaches a minimum, and then begins to rise again,
as shown in Figure 1. It is then shown that precipitate
can form on the walls of a heated tube because it is Pt a
higher temperat-ire than the steam flowing through 4t, so
that the steam -in direct contact with the tube walls becomes
super-saturated. The rate of deposit formation is given
by expression (14). The analogy between the processes of
mass- and heat-transfer may be used to determine the mass-
transfer coeffioient. Expression (16) is then derived for
the coeffLcient. It is difficult to use this formula because
there is no experimental data or reliable method of calc.".*,l-
ating the coefficient of diffusion of substance in steam.
However, for super-heated steam the diffusion and thermal
Prandtl c:7iteria differ by not more than a factor of two.
Card 3/7 Expression (18) is then derived for the brystallisation
SOV/96-59-7-15/26
The Influence of Mass Exchange on the Formation of Deposits from
Steam Solutions
head' arid can be used, together with equation (13), to
derive the salt content of the steam, The above equations
are only valid if the substance doeg not crystallise in the
volume of the steam, The conditions under which this
requirement is fulfilled are then examined, Certain sim.-
plifying asjum~tions are made for this case and then
express~ -on (21 is derived as a particular solutibn of
differential equation (18). According to formula (21),
after crystallisation from the steam has started its salt
content tends towards a straight line, as shown in ,igure
3a; this is a graph of change of concentration of substance
in the steam over the length of the heated tube. A simple
criterion of the possibility of crystallisation of substance
in the :71ow of steam is then derived. The relationship
between the salt content of the steam and that of the feed-
water is then considered. The examination of the problem
is based on the simplified equation (21). Equation (23)
is derived for the relationship and it is plott-ed in Figure
Card 4/7 4. Figlire 5 shows turves of the relationship between the
3OV/96-59-7-15/26
The 1nfluence of Mass Exchange on the Formation of DePositg from
Steam Solutions
quantity of substance precipi,tated foom a kilogram of steam
and the concentration of the substance in the feed-water.
The curres indicate that the amount of subs-ance,prectpit.-
ated de'Dends not(nly on the solubility in the steam but on
a number of other factors. The deoc)sition of substances
on steam turb:ine blading is then considered,, When steam
expands in a turbine the solubility of substances in it
decreasta sharply. As soon as the solubility becomes lesi
than the concentration of subsTaP_(-.r1- in the steam the sol-
ution becomes si)-oer-saturated and crystallisation cccurs,
Unlike -the case of a heated -tube, where conditions favour-
ing cryotall-i.sation occur only at the hot tube surface, in
a turbine the whole body of steam is super-saturated, hence
crystallisation could occur either on the surfa--e or in the
steam. In practice, crystallisation in t-be steam m~~y be
neglectiad both because the amount of salt is small and
because it passes thro-agh the -turbine very ci,,iickly, The
amount 'of substance crystr-.1lising -per unit ti~Le on the
turbine blading is proportional. to the coefficient of mass
Card 5/7
SOV/96-59-7-15/26
The Influence of Mass Exchange on the Formation of Deposits from
Steam Solutions
transfer, to the surface area of the blades and nozzles
and to the 'crystallisation head', that is, the difference
between the concentration of substance in the steam and
its solubility under the given conditions. The conditions
of crystallil-lation are likely to be very di.iferent in diff-
erent stages of the turbine nnd it is, therefore, advisable
to consider them for each stage in turn and to summate the
results, as Ln equation (24). The conditions of deposit
formation are then discussed. Although on straightforward
theorelical grounds crystallisation would be expected to
occur all over the blading, in fact deposits form mainly
on the back of the blades where they are less likely to
washed Pff by the moving steam. Moreover, deposits are
likely to be removed by vibration of the blading. Thus,
the amount of deposit actually crystallising on the blades
may be very much greater than the amount that remains there.
It is considered possible that the effect of super-saturat,
ion of steam solutions might be used to extract substances
Card 6/7 from the cycle. In particular, it is of interest to know
SOV/96-59-7-15/26
The Influence of Mass Exchange cn the Formation of Deposits from
St-eam. Solutions
how much salt. crystallisation can occur in the duct
between the high- and low-pressure cylinders, because this
would remove salt from the cycle.
There are 5 figures and 5 Soviet references.
ASSOCIATION: Vsesoyuzn3ry teplotekhnicheskiy institut (All-Union
Thermo-Technical Institu-te)
Card 7/7
SOV/56-36-4-11/70
AUT-,','ORS Peolikov, V. Zinoviyeva, X. N., Pilimonov, A. 1.
T I T L Ile Cryostats (Kriostuty 's H03)
PE'RIODICAL: Zhu*nivl eksperimentallnoy i tooreticheskoy fiziki, 19~19,
Vol 36, NV 4, PP 1034-1037 (USSIO
ABSTRACT: For invest;1L.-utions at lo*,,., temporatures (1 - 4.20K) cryostats
4
with He are-Eenerally used. However, as the latter becomes
superfluid already at 2.180K, it is difficult, by means of
such devi6es, to Geb near to absolute z3ro. A record achieve-
ment was attained by means of such a He -cryostuat by Keesom
(Leiden, '1932, Ref t) with 0-710K with the aid of a strong
punp (pumping capacity 675 l/sec); Lazare7 and Yesellson
(.Ref 2) were able to attain the same value by means of a much
weaker pump (15 l/sec). In the present paper the authors de-
scyibe work carried out with cryostat devices operating with
He4 and He 3, which are able to attain and to maintain tempera-
tures of up to 0.30K. These devices are at the institut fizi-
Card 1/4 cheskikh problem (Institute for Physical Problems). Use of the
He3 Cryostats 3 SOV56-36-4-11/7()
very rare isotope He was found to be necessary, because at
sucii low temperatures He3 is not yet superfluid and therefore
pumping out helium vap3rs presents no difficultie8. Figure I
iS (L schematical representation of the first device. In prin-
cip.ie, the cooling vessel consists of a double Dewar vesFf--l
con,,.aining He4; in its interior there is a se~cnd Dewar
whioh contains 3 cm 3 of liquid He 3. Sucking off of the vap --,3
is iarried out by moans of a thin-walled steel tube -ahich ic.
con:aected by means of a copper connecting piece with the
Dewar ves-el, by means of a mercury diffusion pump DRIIN-50
(30 1/se,~) operating with a counterpressur~- of 25-30 tor-I.
Owing to the low temperature of the HO-surroi;nding, t1his
pum:? is at,le to operate vvithout a pre-vacuum. The lowest tompe-r-
tur,? attqinable by i,,ieans of thin device is about 0.-4j'-K
(p - 0.002 torr). Temperature measurement is carried ctut by
means of a, resistance thermometer (30/,.,phosphor--bronze wife)
whi~:h had been previously gauged at He3-vapor pressure.
(Prassure measurement by means of a MacLeod manometer). if a
reg-alar supply of liquid HO is maintained, the device mny b~~
Card 2/4 kept in operation for 8 - 10 hours with one and the same fi_"
He3 Cryostats 3 SOV/56-56-4-11/70
ling of Cascous He (about 3 * If the pumps are disconneoted,
the He3 liquid increases within 3 hours from 0..3 to 1CK. The
second model is, in principle, similar to the first (Fig 1b),
the different construction of the cooling vessel is shown by
fiLure 2. The mechanical Tepler-pump (mercury operating as a
by an o,-'l pump of the
,re-vacuum pump was replaced in device 2
type UVG-2 developed at the NIVI. The 11e3-vapors were also
sucked off by means of a mercury diffusion pump which, in this
case, howeirert worked with the pre-vacuum pump NVG-2- By means
of this device it is possible to attain up to 0.350K, by con-
tinuous operation 0-50K. Temperature measurement was carried
out as in the case of device 1. The two devices are described
with all details by the present paper. There are 2 figures
and 6 refexences, 3 of which are Soviet.
ASSOCIATION: Institut fizicheskikh prcblem Akademii nauk SSSR
(InEititute for Physical Problems of the Academy of Sciences,
USSF'.)
Card 3/4
FILIHONOV., A.I.
Gass of lipmatosia of the mull intestine with torsion. Khiruririia
noa6sM Je IGL. (MIRA 14M)
1, Iz Carodskay tgentrallnoy bol7nitay imeni V.1. Pirogova (glarayy
vmob K.P. Milltsova),, Kuybyshev.
(171TESTINES-OBSTRUCTIONS) (lh'MTINES-MIORS)
TKACHE14KO V.K..; FILDROV A.I.
P j
Gasifier for obtaining pressures up to 100 atmospheres by means
of liqu:Ld heliim. Prib.i tekh.eksp. 6 no.5:203-204 S4 61.
(HM 14: 10)
lo InstLtut fii4icheakikh problem AN SSSR.
(High-, oeoure researoh-Equipment and supplies)
Pr
21215-66 E`dT(1)
SOURCE CODE:
CC NR, AIY5011949
AUTHOR: Filimonov, A. I.
UR/021-3/65M5/c/6/1095 9 i
OTIG: Kalirdnprad Departmentp institute of Oceanologn AN SSSR (Kaliningrad skoye
otde!eE'ij-!n-`st-1ta~ okeanologii A)Fffs7lo
TITLE': Use of Alekseyev printing current irn-ters for study of storm currents in the
coastal zone ol the s-aa
/0
SOURCE: Okeanologiya, v- 5, no. 6, 1965, 1095-1099
TCPIC TAGS: ocean current, ocean dynamics
ABSTRACT: Surveys of coastal currents can be made with Alek3eyev printing
current meters. Setting out theso current meters is simple and when
suitable vessels and diVers are available entails little difficulty.
1101 most siiitable, currant motersirlire of the BPV-2 'utipe, whose small
Weight (28 kg) fa~IlLtatcs such investigations. 7he results, Vnich are
comparable to those obtained by other mothcdz, make it possible to ~:cm-
7,- Ito the water discharge a'on,, the coast and the motion of water normal
i-o the shore and their interrelationship. , In the coastal zone theru
are three methods which can be used in placement of the printing currant
muters. Tbe article illuotrates these methods. The first involves use
of metal tripods made of watarpipes,, anchored to tho bottom and marked.
irith a buoy. 1ho tri.podo tire ass(--nbled on ohoro and- r.A Into position
2;.215-656
ACC NRi AP601.1949
by -nall craft. It aLso is possible to use a framework in the form of
a prism iTit~ the base in the Iona of a rectangle. 7he framework is held
in position by a 100-kg anchor and. is marked with a buoy. It has the
'advantago that it can be, placed without the aid of a diver, but it
should be positioned at depths greater than 6-7 m; at lesser dopths it
is better to use tripods, due to their greater stability and strengthe
In the third method the current meters are suspended to a buoy; the
buoy is held ir. position by three anchors with guys. Observational
data for stom currerts for 1962-1964 demonstrated that printing
current gages can bei used for successful measurement of the dynamico
of the waters of the coasta:L zone, 7he !Aeters can operate_up to tw:;
months without replace'mient of the tapes. Orig. has: 3 figuress
(JPRSI
SUB CODE: 08 / SUEM DATE: 23Jan65
AW001793
50URGI~ GODZ'. L'R/00oo/66/000/000/0028/0037
AUT-ilOR: Filimonov, A. :1.
ORG: none
TITUE: Some data on COILStal currents
SOURCE: AN SSSR. Okoanograficheskaya komissiya. Issledovaniya gidrodinanichoskikh i
norfodinamichoskikh protsessov berogovoy zony morya (Studios of hydrodynamic and
m.orphodynamic processes of the shoreline). Moscow, Izd-vo Nauka, 1966, 28--1,7
TOPIC TAGS: ocean curront, oceanographic equipment
ABSTRACT: The article JLs based on materials collected by the Baltic Expedition of the
Coceanology astitute of the AN SSSR and represents a study of coastal currents in the
Baltic Sea between K1ayj)ed (translitera!"od name) and Zolenogradsk during five storms
covering a period from July 23 to August 12, 1962. In contrast to the general
primitive practice of using floats and tracer dyes to determine the speed of coastal
currents, the presont observationo were conducted with the uso of VDI wave pressure i
recorders, wave recorders, EXX wave velocity recorders, and BPV current meters with
printout devices. On Uie basis of recorded data on coastal currents and wind velocity
the following empirical formu.2a was derived for finding the apeed of a coastal current;:
u=6,04.5&v-8,
Card 1/2
ACC AT7001793
-.4hore U represents the speed of a coastal current and-W represents wind velocity
exT.Yressed in m/sec. Dependenco of coastal current speed on wind velocity is
-determined bl, wind direction in relation to the coastline and may vary by 35 to 45
~cm/sec for tite same velocity dopending on the storm phase. When storm intensity is
decreasing the dependence may be expressed linearly; but, when storm intensity is
ircreasing, the dependence cuinres may be of the first or second order. Proximity of
the coastline affects the current in the follow-Ing manner. The direction of the
,current strives to parallel the coastline, but actually the current can deflect Iby an
.angle of 15 to 200 toward or away from it. When the angle between wind and coastline
,is small, the current almost coincides with wind direction. Whon the angle between
~w-ind and coastline incroases, the angle between wind direction and current increases.
':When the wind blows at it right angle to the coastline, the direction of the current isi
iertremely unsteady. Iarge scale underwater structures are needed for more detailed !
and comprehensive hydrodynamic studies of coastal waters. Orig. art. has j 4 figures
band I table.
SUB CODE. 08/ SUBM DATE: 17Apr66/ GRIG W: 017
.-C-ar.d 2/2
GUTERMAN. I.I., kand. tekhn. nauk;__EjgMONOV, A.I., kand. tekhn. nauk; SHAANOV,
A.I., inzh.
Balancing the D21 two-cylinder diesel engine. Trakt. L sc-11khozmash.
no.7:8-11 J1 165. (MIRA 18:7)
1. Gosudarstvermyy soyuznyy nauchno-issledovatellskiy traktornyy in-
stitut (for Guterman, Filimonov). 2. VladimLrskiy traktornyy zavod
(for Shaanov).
YICNIN. V.T., kand.tekhn.nauk; SAKOVICH. A.A., kand.tekhn.nauk;
FILIMONCV, A.N., insh., (Leningraa).
Prospective use of d.c. electric power transmission in the Soviet
Union. Ilectricshestwo no.11:8"2 N 157. (MIRA 10110)
l.Llvovskiy politekhnichaskiy institut (for Yenin). 2.Veesoyuzny7
elektrotekhnicheskiy institut im. Lenina (for Sako-7ich).
(Blectric power distribution)
FILIMONOV, A.N., inzh. (Leningrad)
Problems of long distance electric power transmission. Prospects
for increasing the voltages of overhead power transmission lines.
Elektrichestvo no.3t89-90 Mr 164. (MIIRA 17:4)