SCIENTIFIC ABSTRACT GRECHIKHIN, L.I. - GRECHIN, V.P.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R000516620010-0
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
January 3, 2017
Document Release Date:
July 27, 2000
Sequence Number:
10
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
File:
Attachment | Size |
---|---|
CIA-RDP86-00513R000516620010-0.pdf | 2.85 MB |
Body:
GMCHIKHINg L.I.; SHIVANOVICHV V.D.
Study of the jet of a plasma generator. Opt.1 spektre 13
no.5*626-629 N 062. (MIRA 15M)
(Plasma (IoniW gasea))
GRECHIKHINP L.I.; KINIKO, L.Ya.
St.ructure of a plasma jet produced by a pulse discharge. Zhur.
tekh. fiz. 32 no.qt1O72-lOr73 S 162, (MIRA 15:9)
1e Institut fiziki AN BSSR, Minsk.
(Plasma (Ionized gases))
GRECHIMINI, L.I.-
Broadenijig of the 4982.8 A line of sodium in a brush type
d-o arc* Opt, i spektr, 13 no*44578-579 0 162. (MIRA 16%3)
(Electric are) (Sodium-Spectra)
S 12-5016310()7100VO03VO06
A059/A126
AUTHORSs Grechi Yellyashevich, M.A.
::-TITLEt The broadening of spectral lines showing the linear Stark effect In'
plasma
PERIODICAL% Doklady Akademii.nauk BSSR, v. 7, no. 3, 1963, 157 159
TEU: The contour of spectral lines In plasma originating by broadening
.-due to the linear Stark effect,which was previously calculated by J. Holtsmark .1
162,-1919), is defined more 'accurately in this paper.- In the
(Phys. Zz., v. 20,
plasma, quasi-state electric fields from O-to oo with the distribution prob bil
ity W (F) dF (P) dp. can arise, where P/FO and Fb -2.61 eN
FO
-.the normal intensity of the f1eld.'j The general half-width of the line was found
to be
2 A v ex 2 ap% F0 - 2.80 a FO - 7.31 aeN P (10)
where which determines the frequency'shift YU 'a 1.40, a is the corr
Card 1/2
S/075/63/0t-81001/001/010
E202/E492
AUTHOR: Grechikhin, L.I.
TITLE: EffDct of polarity on the physical properties of the
plasma stress of an arc generator
PERIODICAL! Zhurnal analiticheskoy khimii, v.18, no.1, 1963,' 20-23
TEAT: The same type of plasma arc generator was used as that
described by M.Margoshes and B.F.Scribner (Soectrochim Acta, 14,
no.2, 1959, 138) and Yu.K.Kravatakheli (Zavodskaya laboratoriya,
25, 1.960, 557). The d.c. source dissipating 2 kW in the arc was
employed. A spectrum was registered simultaneously on the
VICIFI-28 (ISP-28) and wcn-51 (ISP-51) spectrographs, using the
camera *34)-85 (UF-85). The diameter of the ccnatructing nozzle
was 1.8 mm. Industrial nitrogen was used for arc stabilizatiow.
The results of experimental investigations showed that the
polarity considerably influenced the performance of the arc and the
nature of the emission spectrum. With the nozzle working as an
anode, the jet was more stable and there was absence of side-
tracking channels. The current fluctuations of the discharge were
also quite negligible. However, with the nozzle acting as a
Card 1/3
S/075/63/018/001/001/OiO
Effect of polarity E202/E492
cathode, considerable jet instability and intensive side-trackings
were observed - also the brirlitness of the jet was increased.
The discharge current in the latter case dropped very rapidly,
while the arc voltage increased in such a way that the power in the
arc remained substantially constant. It was also found that the
intensity of the spectral lines derived from the nozzle material
was considerably stronger when the nozzle worked as a 'cathode.
The authors used brass and spectroscopically pure carbon as the
electrode materials. When the nozzle was made of brass and the
ro,' electrode of pure carbon, the intensity of the spectral lines
due to brass increased very markedly when the nozzle worked an a
ca t h o d e .On reversing the electrode inaterials, the emission
spectrum contained a number of lines due to single-ionized copper,
and also emission bands of the molecular ion of N2 . The
temperature was also measured along the axis from the relative
intensities of tile Cu5106 and Ck,5153. The authors concluded their
work by studying the effect'of polarity on the broadening of
spectral lines. A triplet of zinc 43p,-53s, -.4810.5 X,
7,.4686.L A0 was selected.
-53-,
431'
2 it and 431,
-53s
~
4722
,
.
l
0
1
,
Card 2/3
S/075/63/018/001./OOI/010
Effect of polarity E202/E492
A considerable broadening of the above lines was observed when the
nozzle worked as a cathode. There are 4 figures.
ASSOCIATION: Institut fiziki AN BSSR, Minak
(Instituteof Physics AS BSSR, Minsk)
C-1 rd 313
ACCESSION N11: AP4004140 S/0294/63/001/002/0198/0202
AUTHOR: Grechikhin, L. I.
TITLE: Determination of charged particle and neutral atom concen-
trations from self-reversal of spectral line contours in plasma
SOURCE: Teplofizika vy*sokikh temperatur, v. 1, no. 2, 1963, 198-
202
TOPIC TAGS: plasma, spectroscopy, spectral line reversal, lithium,
lithium chloride, neutral atom, charged particle, electron, dc arc,
arc jet, plasma arc, spectral line
ABSTRACT: In view of the interest attaching to a simultaneous mea-
surement of both neutral-atom and charged-particle concentrations
in a plasma, the author investigates and demonstrates the feasi-
bility of an experimental determination of the inhomogeneity para-
meter of a source using any self-inverted pair of spectral lines, on
the basis of the theory of self inversion of spectral lines developed
by R. D. Cowan and G. H. Dieke (Rev. Mod. Phys. v. 20, 418, 1948).
Card 1/2
ACCESSION Nk: AP4004140
The lithium line 6103.64 i was used to determine simultaneously the
concentrations of absorbing atoms (neutral) and charged particles
(electrons). The concentrations of neutral lithium atoms and the
electron concentrations in the plasma of a dc arc were measured by
filling an arc electrode (either cathode or anode) with LiCl. Orig.
art. has: 2 figures, 10 formulas, and 1 table.
ASSOCIATION: Institut fiziki AN BSSR (Physics Institute, AN BSSR)
SUBMITTED: 23May63 DATE ACQ: 26Dec63 ENCL: 00
SUB CODE: AS, PR NO REF SOV: 004 OTHERx 002
Card 2/2
GRECIIIKIIIN,_~.I.,- TYUNINAp U.S.
...I
Forbidden lines of natrium and lit.hitun atoms in the flame of a
d-e are. TepLofiz. vys. tomp. I r1o.31399-1,03 N-D '63. (MIRA 17:3)
1. Inatitut fizi-ki AN BSSR.
JLCUSSION NO: AP3003040 8/0250/63/007/()05/0313/0316
AUTHOR: Grechikhin, L. I.
TITLE: Resonance broa&;~ing of spectral lines and ita utilization in determining
neutral atom concentration in are discharge pXasmas (Presented by Academician of
the AN BSSR M. A. Yollyashevich)
SOURCE: AN BSSR. Dokladyp v. 7Y no. 5, 1963, 313-316
TOPIC TAGS: collision theory, line broadening, half width, absorption parameter,
arp discharge, plasma, resonance line-broader,4ng
ABSTRACT: Two expressions are derived: one from collision theory of line broaden-
ing and one from the statistical theary defining line half-width respectively, by
Card 112
ACCESSION NO :: AP3003040
where pp, I is the absorption parameter and x is related to p through
0 e-jr)
X P
The cri terion for the application of collision theory is given by - Aw. A~wg: . An example is given for an arc discharge
plasma a' . a temperature of 5000K and resonance line broadening of A 6103X for
lithium atom and ;~ 5890X for sodium. It is found that for atom concentrations less
than 109 ver cm3 the collision theory can be used, whereas for higher values the
ctatisticai theory is applicable. Orig. art. has: 19 formulas and 2 figures.
ASSOCIATIO'N': Institut fiziki AN BSSR (Institute of Pbysics M; BSSR)
SUBMITTED: 18Oct62
DATE ACQ: 22jul63
M, CL; 00
SUB CODE: PH
NO REP SOV: 004
TTHER. 008
Card 2/2
V-Y=.
Ine, mcrphIrv and -r, varicus
k:i 2 5:57E'
ty-pes uf f-!.0 '63.
j 7;-
oh- i S
P7" S.V. ~ni -h.frv) lrist~-~u 'a ek-roe r niedt tE-- r*r
IIINN ISS"T.
GRECHIKHIN. L.I.; MINIM, L.Ya.
Use of high-speed spectral motion pictures for studying rapid
self-luminous processes. Zhur.nauch. I prikl.fot. i kin. 9
no.2:11/+-116 Mr-Ap 164. (MIRA 17:4)
1. Institut fiziki AN Belorusskoy SSR.
ACM51011 NR: Ap4oMM
3/0077/64/009/002/olih/0116
AUTHOIS: Grechikhinp L. I.1 MinIko, L. Ya.
TIT1,131 speed, motion photography for inventigaLing rapid Self-
lunLinous processes
SIOURJE: Miurnal nauchnoy i prlkladnoy fotografii'i kinomatografii, v. 9) no.2
1264, 114-116 aryl insert between p. 116-117
TAOPI,31 TAGSj high speed photography, spectral photography, sol-f lw,-iinescenco,
radiation spectrum, copper omission, radiation temperature, plasima emission,
camera SM L, monochromator UM 2, photoregistor ZhFR 10 microphoLoninLor MF 11,
Parddirom 10 film
ABSTUCT.- The authors 'iiave experimented with the use of high-Opeed sp3ctral pho4yo-'
grapay to investigate pectral fluctuations of a radiating body in all zono~, Ob-
oervations were made wiUi the motion picture camera SFR-L wlUi ulonochromkitor trel-2
and supplementary spectrum-producing apparatus (see ~ig. 1 on tho Diclosure). A
batt3ry of condensers (.60 microfarads capacitance and a potential of 2.5 kv) was
used to obtain plaama emissiono Also employed were the photorogistor ZhFR--l~
. C-1
,,ACCESSION NR: AP4026818
iPankhrom-10 type 600 film,, and the microphotometer MF-4, The test photographs
!revealed acomplex emission structure from the test material (copper). Temperature:
I . .
,measurements were made by the method prbposed by L. 16 Mandel'shtam and No K.
Sukhodrev (Mi, eksperim. i teor, Mop 1953P 24P70l)- Orig. arts hast 1 figures
2 pF1090graphs, and I equation.
JASSOCIATION: Institut fiziki. Akademii nauk,, Beloriusekoy SSR (Institute of Fhysicssl~
jAcademy of Sciencesp Belorusaian SSR)
ISUBMITTEDs 12Apr63 EXCLt 01
SUB OODEs E89 dF No Rv sov, oo6 OTHERt 001
ACCESSION Nits AP4026818' ENCLOSURES 01
Supplementary
Fig* lo Optical scheme of the combination
Spectral Lens of the spectral apparatus and speed
Apparatus SFR-L
camera SFR-L
ol - Objective of collimator of the
ctral apparatus
ape
Dispersion system
0 Objective of camera
2
03 Supplementary Lens
Objective of camera
04
3
L 5442-66
E'tFr MIEWT W /ETC/EPF(n) -219WG (m)/EPA M -2/EVIP (t)/EWP (b) IJP(c)
JD tJG/AT
ACC NR: AP5025065 q SOURCE CUDE;..Uh/0366/65/003/003/0201/0208
.AUTHORS: Grechildiin, L. I.; Yellyashevich., M. A.
74
:ORG: none
~:71 . q qj
TITLE: Application of the quadratic Stark effect i6 the determination of concen-
tration of charged particles in plasma y the spfictral line broadening of lithium
and '7- 'y
sodium
SOURCEs Zhurnal prikladnoy spektroskopii, v. 3, no. 3, 1965, 201-208
TOPIC TAGS: Stark effect, line broadening, charged particle concentration,
lithium, sodium
ABSTRACT: Stark constants f tl quadratic Stark effect for the sharp, principal,!
and diffuse lines of lithium lium were calculated. The calculation was based
on the well known second ord'i perturbation theory Wression for energy level
displacement of one-electron:systems subject to an electric field
Card
UDC%-54342-'--;;
rJ -7 o'), -,- - A .1.
L 5447-66
ACC NR: -AF~02-5085.
(n, L I r In', L+1 )2 (L- -A12) (ii
L
cl.k 4 (L + ly- I W-1
h +
~The results of calculation are given in tabular form. The effect of electron and
,3.on impacts on the spectral line shape was determined by the use of the nonstation-I
,ary-electron impact theory and the Holtsmark theory respectively. It was found that
:the overall half-line width was almost equal to the sum of the half-line width due
,to electronic and ionic effects respectively. It is concluded that the quadratic
Stark effect becomes noticeablefor different lines at different charged particle
,concentrations) that a particular line may disappear completely at sufficiently
'high charged particle concentration, and that the diffuse series lines and the
higher members of the sharp series are particularly sensitive to charged particles
concentrations (see Fig. 1)o The concentration of charged particles in a dc are
was- calculated and compared with data reported by L. 1. Grechikhin (opt i spektr,.,;
13., 578., 1962). The calculated values are in good agreement with experimental data,
Card ii.
L 5447-66
ACC. NR: AP5025085
INV
Ar
I
e
l
'0
Ax
0
1~ #A?"
i4 W
41
0
Fig. 1. The change
in the half-line
width of the
lithium atom (a)
and sodium ato
m (b)
lines as a function
of charged particle
concentration
4
I oil
, TZ
A
Card 3/4
L 5447-66
ACC NR: AP5025085
Orig. art. hasi 4 tables, 3 graphs,, and 6 equations.
Sim
CODE: OF/ SUBM DATE: 16Apr65/ ORIG Rff2 007/
Card h/4
L- 1687-66 StIT,(l)IE~T(m)IEPF.(n)-21EWG(m)IEPA W.,.;9/mp(t )/W(b) IJP(c) JDAT
ACCESSION NR: AP5020552 UR/ 0294/65/003/ 004/0520/0523
Bakatiovichi G. J.; GreF
AUTHOR tikhin, L. 1.
TITLE: Use -of,,e"mission spectra of the coppe atom for diagnostics of a plasma
~SOURCE: Teplpf4i~ka vysokikh temperatur, v. 3, no. 4, 1965, 520-523
TOPIC TAGS-01visma
~iignostlcs, emission spectrum, copper, Stark effect,
Van de'r WaiLls bquiati6n, electrodes, plasma charged particle
ABSTRACT: Since copper pairs formed by erosion of electrodes exist in all types.
of plasma apparatus (plasmatrons, magnetohydrodynamic generators, arcs, etc.)
the work described in the article is aimed at selection of the corresponding spec-
tral. lines, at fixing their basic.constants (transition probability and the Stark and
van der Waals constants) at evaluating the effect of various factors on- the width
of the selected lines, and at, explaining errors in the measurement of temperature
and concentration of the charged particles. The experiments were carried out
with a direct current are (1 8 arnp) between copper or brass electrodest under
Card 1/2
L 1687-66
ACCESSION NR: AP5020552
water. The emission spectra were measured with a DFS-13 spectrograph. The
temperature of UP arc was determinedirom two pairs of copper lines:
5105. 5 : 5*153.', 2 A and 5105. 5 . 4530. 8 A. Using the theoretical value of the
Stark
constant and thi.bbtained experimental values, the article cites a value of
(1. 3 0 0_ c
3) 1. m-3 for the concentration of charged particles in a plasma- In a
direct current arc between copper electrodes; under water. ThLi-concentration.of,
charged part1clos'Ancreases compared to the same arc In the atmosowre, for
which a value of 1015 cm-3 Is quoted. The temperature rises to- approximately
I wo K. "In -conclusion, the authors wish to thank M. A. Ellyashevich hi
constant interes't in the work and for his discussion of the results.
0
has: 3 tables.
ASSOCIATION: Institut f1dkii Akademli nauk BSSR (]Wititute of Phyxicdj~ AiMnW
of Sciencess, BM)
ENCL- 00
SUBAGTTED: 21AUgW SUB COM GC EM
NR REF SOV: 006,_ 1. 666~*i
CWd
-L-12902=9 (1)'1ETC(F)JEPF(n1-_21M(M IJP(a)
ACC-NU: AP6002357 SOURCE CODE: UR/0207/65/000/006/0047/0052
2Y
AUTHOR: Grechikhin, L. (MInsk); MIn'ko1_ L. Ya. (Minsk); T~ag 1. (Minsk)
ORG: none
TITLE- Spectroscopic study of the properties of a S rsonic plasma Jet
SOURCE: Zhurnal prildadnoy mekhaniki i teknicheskoy. fiziki, no. 6, 1965, 47-52
TOPIC TAGS: plasma jet, plasma temperature, shock wave propagation, plasma charged
particle, spectroscopic analysis
ABSTRACT: The authors spectroqcopicany investigate the emission spectrum of a plasma jet
at wavelengths from 3800 to 5500 A. The variation of the temperature and concentration of the
charged particles along the jet was measured in relation to the polarity for a shock-wave jet
and a periodic structure jet. In the spectrum of the shock-wave jet the authors observed a
continuous spectrum at the base of the jet the intensity of which In the direction of flow notice-
ably diminishes and again increases jumplike in the shock wave and then abruptly falls off.
In the spectrum of the periodic-structure jet there Is an alternation of maxima and minima of
intensities of the continuous spectrum and of the intensity of the spectral lines corresponding
to compression and rarefaction points with a gradual weakening toward the end of the jet. The
temperature in the plasma jet was determined by the method of relative intensities with the,
use of two pairs of copper lines. The temperature was measured along the jet both for the
Card 1/2
~CC NR, AP6002357
jet with a shock wave and for the jet with a periodic structure, at the base and in the rarefac-
tion and compression zones. The results of the measurements lay along a straight line, which
proves the feasibility of a Boltzmann distribution of the atoms with respect to the excited
levels. The concentration of charged particles in the periodic-structure jet was higher than
in the shock-wave jet. This was due to the higher temperatures and pressures in the jet.
Authors take this opportunity to express sincere gratitude to M. A. Yellyashevich for ais-
cussing the results of the work. Orig. art. has: 4 figures and 1 table.
2/2
Card
t~16576-66 Ew(i)
ALA; NR: 6oo696o SOURCE CODE: UR/0368/66/oo4/002/0112/oll6
AUTHOR:. Grechikhin, L. I.; Tyunina, Ye. S.
ORG: none
TITLE: Determination of comparative and absolute intensities of self-reversal
and self-absorption spectral lines under arc discharge conditions
SOURCE.: Zhurnal prikladnoy spektroskopii,.v. 4, no. 2, 1966, 112-116
TOPIC TAGS: spectral energy distribution, spectral line, luminescence spectrum,
light absorption, optic measurement, are diseharge, line intensity
n
ABSTRACT: The !~Jfect of self-reversal and self-absorption in spectral Ans" 6
.Ljhq
the measurementA%f relative and absolute intensities under are disc ariLe condi-
tions is investigated on the basis of Cowan and Duke theori.-It is shown that them
calculation of the self-absorption suggested by the Cowan and Duke theory leads
to reasonable values of source temperatures measured according to relative inten-
sities. A measurement method of the absolute intensity of self-reversed lines is
proposed. Orig. art. has: 1 figure, T formulas, and 1 table. [Based on author's
abstract]
Card 1/2 UDQ; 535..33
L 311,35-6,6 EPF(n)-2/E&C(k)-2/Ei'iA(ti),/=',ill(k )1&-l(I )/Ff3D/ETC(f)/;E;iG(m)/T MP(c
ACC NRz AP 6012849 SOU RC E CODE: UR/0368/66/004/004/029YO297
AUTHOR: Grechikhin, L. I.; Min1ko, L. Ya.
ORG: none
TITLE: Unipolar pulsed plasma generator combined with a laser as a source for ob-
Laining plasma jets
SOURCE: Zhurnal prikladnoy spektroskopii, v. 4, no. 4, 1966, 293-297
TOPIC TAGS: discharge plasma, plasma beam, plasma jet, pulsed plasma generator, laser
generated plasma, neodymium laser, spectral analysis
ABSTRACT: A pulsed plasma generator, fired by a laser-generated vlasma is described
(see Fig. 1.) A 50-j laser pulse (,%,I msec, X = 1.06 ti) was focused by means of an
f:270 mm lens on a material embedded in brass-rod electrode 1, producing a plasma.
The plasma filled quartz-gla~s discharge chamber 3, causing discharge of artificial
line 5 (consisting of a 6-cell IM 3-100 condenser bank which generated a unipolar
Iv,300 psec current pulse) between ring 2 androd 1 brass electrodes located inside the
chamber. The resulting plasma jet consisted of plasmas of the eroded electrode and
chamber-wall materials. Under these conditions, the attendant pulsed discharge furthe
heated the laser-generated plasma, causing a sharp increase in the plasma generator
pressure (relative to the atmospheric pressure), and a quasistationary supersonic
plasma jet of a given chemical composition was emitted from the ring electrode.
Card
A
L 31135-66
ACC NR:
a
ttl 5
F
_L C_
T
TwwT--
R
R 7
Fig. 1. Schematic of the generator (b)
and laser.(a)
Card
2/4
The generation of the plasma jet was
observed by means of high-speed photo-
graphy and spectroscopically. The de-
pendence of tile plasma jet velocity on
the discharge voltage (at C = 600 )if)- is
shown in Table 1. Unlike in thecon-
ventionally-fired plasma generators
described by the authors elsewhere
(ZhPMTF, no. 3, 1965), where a gas is
fired to produce a plasma, the plasma
jet velocity in a laser-generated plasma
0-10 km/sec) is independent of the
electrode polarity. The plasma jet
spectra were studied by means of an
ISP-51 spectrograph with an f = 270 mm
camera in the 3800-6500 X range, with
a longitudinal focusing of the Jet on
the spectrograph slit. Qualitative
spectral analysis showed that the plasma.
jet consisted of vaporized electrode and
discharge-chamber (glass) materials.
The emission spectrum consisted basically
of copper lines, with well-defined hydro-
L 311 6
ACC NR: AP6012849
Table 1. . Dependence of
plasma jet velocity on
discharge voltage
Voltage-, Velocity,
--Kv-- I
1,0
2,0 7,7
1,5 6,7
1.0 5.6
0.5
Table 2. Charged particle concentration
along a plasma jet
(:harpPd particle concentration, cm-3
Distance rin5~ electrode polarity
fror jet positive negat ve
base, mm -U5T- Ifil-
0
6 'r
I'll
19.6
?1 -5.3
7.6-10, 2,101, fi.G. 10 2,0.10"
4. R. 0 5,5. o
11 1. 1Wo 4,8.1014
3:,8. 1011 3,2-1014
U = 0.5 kv; C - 600 lif; v = 2.5 mm. Lose
output energy 0 V '- 10J.
gen (Balmer) lines. The lat'ter are due to the discharge-chamber wall materials and
were not observed previously even at a 3-kv conventional excitation. The copper
emission spectrum was used for plasma di--ipriostics to determine the rharged particle
concentration and plasma temperature. The latter was determined by means of the
relative intensity method using two pairs of cc-ner lines 5153.2 and 5105.5 A, and
4530.8 and 5105.5 A0. Only the temperature at the jet base could be measured ('-10,000K).
The charged particle concentration was measured as a function of line broadening of
the CuI line (4530.8 A), on the 11 line at the jet base, and the results are shown
6
Card 3/4
T
ACC NR: AP6012849
in Table 2. The divergence of results fo- the Cut and-Halines is attributed to the
cross section nonuniformities of the jet. The charged particle concentration in a
laser-generated plasma (%5-1016 cm-3) is independent of the polarity of the ring
electrode. This indicates that a laser-fired pulsed plasma generator can be used
in spectral analysis as a high-temperature excitation source. This requires low-
voltage discharges at which the least pressure gradient occurs In tile discharge
chamber and the surrounding medium, reducing tht! jet broadening and increasing Its
uniformity. Orig. art. has: 2 tables and 3 figures. [YKI
SUB CODE: 20/ SUBM DATE: 20Aug65/ ORIG REF: 006/ ATD PRESS:~(~?/-//
Card 4/4
b
2618-66
ENT (I )/ETC ( f IJP(c) AT
ACC Nk- Ap6ol5588
AVIWOR: Grechi44p
Skutav, D. K.
~ _,_L
ORG: none
SOURCE CODE: Up,/0368/66/004/oo5/0381/ '-188
6
TITLE: Use of broadening and shift of spectral lines of cesium to determine the con-
centration of charged particles and neutral atoms under conditions of a dc arc plasma
SOURCE: Zhurnal prikladnoy spektraskopii, v. 4, no. 5, 1966, 381-388
TOPIC TAGS: plasma arc, cesium plasma, plasma charged particle, plasma density,
plasma diagnostics, spectral line, line shift, line broadening, Stark effect, Van der
Waals force, Doppler effect 1-e~
ABSTMCT: The purpose of the investigation was to ascertain and compare the useful-
ness of various cesium spectral lines for plasma d ostics oses. To this end,
a method described earlier (ZhPs, v. 3, 201, -190) was useT-tpurpiculate the con-
stants of the quadratic Stark effect for more than 40 spectral lines of cesium. The
limiting charged-particle density that can be measured with the aid of each line was
determined. The dc arc (4 - 8 amp) was produced between carbon electrodes, with a
mixture of cesium salts with carbon pressed in one of the electrodes in different pro-
portions. The emission spectra of the cesium plasma were photographed with a DES-13
spectrograph. Eight spectral lines were chosen for the diagnostics, and their broaden
ing under different types of interactions was calculated and tabulated. The experi-
mental contours of these lines are derived and the concentrations of the charged
1/2 UDC: 535-338
ACC NR: AiW155W
particles and neutral atoms are calculated for a dc arc plasma. Methods of improving
the accuracy of the results are discussed. The influence of various interactions on
the broadening of the spectral lines of cesium is evaluated (Van der Waals interactio:
Stark effect in inhomogeneous fields, resonant interaction, and Doppler broadening).
The accuracy with which the line width can be used to determine the concentration is
-30% for charged particles and -50% for neutral-atom concentrations. The results ob-
tained by different methods and with different lines were for most part in agreement.
Deviations are briefly discussed. The authors thank M. As Ellyashevic"or a dis-
cussion of the work and valuable advice. Orig. art. has: 1 figure, 2 formulas, and
4 tables.
SUB CODE: 20/ SUBM DATE: 04May65/ ORIG REF: 010/ OTH REF: 010
Card 2/2 -DO
L 02280-67
A_rC_ NRI AP6025244 SOURCE CODE: UR/0057/66/036/007/1202/1206
'AUTHOR: ~n'ko, L.Ya.
Grechikhin, L.I.; 11
;1ORG: none
Investigation of wave processes in a con4cal-clectrode shock tube
!SOURCE: Zhurnal tekhnicheakoy fiziki, v. 36, no. 7, 1202-1206
TOPIC TAGS: plasma shock wave, shock tube, shock wave reflection, shock wave inter-
action, supersonic flow
ABSTFV,CT: The authors (ZhTF, 35, 81 1965) have previously found that under certain
conditions supersonic plasma streams con be formed in a shock tube, that these streams,
have a complex structure due to wave processes, and that they can affect (and in parti-~
cular, can accelerate) the motioit of the luminous front. In the present paper they
report further experiments on plasma stronms in a shock tube,, The plasmas were pro-
duced by discharge of a capacitor between a conical electrode and an internal cylin-
drical electrode. The supersonic streams arose from expansion of the plasmas issuing
from the 4 cm diameter conical electrode into tho 6 cm diametor-glass drift tube. The
plasmas were observed by high speed cinematography and by streak photography, with
particular attention to behavior of the plasmas on reflection at the far end of the
tube. The velocity of the luminous front produced by a 2 kV dischargo increased from
about 6 km/sec, when it issued from the electrode, to 14 Irm/sec, after It had traveled
Card 1/2 UDC: 533.9
L 022,12
L _JjP~., Wei
ACC NRs AP6025245 SOURCE CODE: ult/0057/66/036/007/1207/1210
AUT11OR: Gre~~
~, 1,_*, Minlk.ot__~.Ya.; Xqgqy~nayL, N.I,_
_,
!ORG: nono
I '), t
~TITLE: 3pectroscopic investigation of tho__plasma in a conical-clectrodo shock tube
i
ISOURCE:
Zhurnal tekhnicheskoy fiziki, v. 36, no.
7, 1207-1210 I.
TOPIC TAGS: plasma shock wave, shock tube, optic spectrum, electron density, Stark
effect, Balmer series
ABSTRACT: The plasmas discussed in the accompanying paper by L.I.Grechikhin and
L.Ya.Min'ko (ZhTF, 36, 1202, 1966 /-see Abstract AP60252457) were investigated spectrod
scopically in the range from 3800 'Eo 7000 A. Time integ-rated spectra were recorded
of the light from the discharge chamber, the central region of the drift tube, and thel
reflection zone. These spectra showed that the plasmas had the same composition in all.'
three regions and arose mainly from erosion of electrode and insulation materials in
the discharge chamber. Electron densities were derived from the spectra in three
different ways: from the depression at the Balmer series limit* from the linear Stark
broadening of HP, and from the quadratic Stark broadening of CII 4267 1~; Wlien two of
the techniques were simultaneously applicable they gave concordant results. The
charged particle densities were slightly higher in the reflection zone than in the
Card 1/2 UDC: 533.9.0
i, N087-67 i';"-JT(l) IJP(c) AT
ACC NR: AP60240,25
AUTHOR: Grochikhin, L. 1.
ORG: Institute of PhXsic3 91 BS5R C:[nstitut fiziki All BSSR)
TITLE: Forbidden transitions induced in atomic systems by homogenso" and inhomo-
gonoous electric intermolecular fields in a plasma
SOURCE: AN BSSR. Doklady, v. 10, no. 4; 1966, 323-235
TOPIC TAGS: plasma electromagnetics, forbidden transition, selection rule,
transition probability,-plasma diagnostics I,/
ABSTRAW: The author deals with transitions which are forbidden by the .9-Aection'--
rules for electric dipole, electric quadrupole,maGnotic dipole and similar transi-
tions, which are produced in the plasma by the electric intermolecular field. The
formulas for the transition probabilities and for the transition intensities are
presented from various literature sources and the results of concrete calculations
are presented for the intensity of the forbidden transitions in lithium, sodium,
copper, and cesium. In the case of inhomogenoous electric fields, the results of
the calculations are given for cesium only. Possible application of tho'rosults'for,
Card 1/2
SOURCE CODE: UR/0250/66/010/004/0232/0235
5'
GRECHIMIN, N.S. (.NDv-i)gorod, Vokzallnaya ul., .11~ kv~20)
'-~ ...... ; ..
Closed tstJated rupttoe (if the pancreas, Vast, kh-ir. 92 nnl.-,88
Ja 164. (MIM 17,,I1)
1. 1% travmatologicheakog-a otdalf)nlya I-y Novoprod3koy gorodskoy
bollnitay (glav-nyy vra.-,h - M.M. Fivilizholov, nauchnyy- nakovcdl-ltol'-
prof. A.L. Fisanovich).
KARAKINJ, F.F.; RODICHEV, A.F.; PUTIY, G.P.-J. BASOV, A.P.; l'YATAYOV,
L.V.; ILAWSEPy A.P. [Rautsepp, A.]; BLAGOOAVOV, S.I.;
GRECHIKHO, A.M.; DltUZHlNIN, N.N.; SHUKIZIAN, D.I.; BAUSIN, t.F.;
B.A.; SHORRIKOV, F.M.; SOPIN, P.F.
Remarks of the members of the Conference. Torf. prom. 37 no.5:
22-28 160. (MIRA 14:10)
1. Ivanovskiy gosudarstvemyy torfotrest (for Karakin). 2.
Sverdlovskiy torfotrest (for Rodichev). 3- Gosplan USSR (for
PutiY). 4. Leningradskiy gosudarstvennyy trest torfyanoy propy-
shlennosti (for Basor)-;- 5. Mosltovskiy oblastnoy sovnarkhoz
(for Pyatakov). 6. Gosudarstvennyy nauchno-tekhnicheskiy
komitet Estonskoy SSR (for Rautsep). 7. Gwlkovskiy sov-
narkhoz (for Blagonravov). 8. Belorusskiy sovnarkhoz (for
Grechikho, Shukhman). 9. Yaroslavskiy sovnarkhoz (for
Druzhinin). 10. Bobruyskaya, mashirmo-meliorativnaya stantslya
(for Loyko). 11. Giprcmestprom Gosplana RSFSR (for Chernakov).
12. Mezhkolkhoznoye torfopredpriyatiye "Volosovskoyell Lenin-
gradakoy oblasti (for Shornikov). 13. Vsesoyuznyy nauchno-
issledovateliskiy institut torfyanoy promyshlennosti (for Sopin).
(tat industry)
-HO ( I
(~ /NIFC- /ilk ) ~ - \",
G11WERSHCHIKOV. D.; VORORCHIIKIN, DA.. gwardil pollrovnik. redaktor;
GILIVRIKM, G.T., radaktor; MTA3NIKOVA, T.Y., tekbnlcbeskiy redairtor.
rCunnInn and r"mourcefulvass i.a warfarel Toennala kbitrost' I
smatka. 1-e lxd-.Ifnskvn. Toon.lzd-vo Mininterstya dhnrony SSSR
1955. 66 p. [Microfilm] Oust 8: 10)
(Tactics)
GRNCHIKOV._.P_.~,,, ip;hen r: OMGFMIN. A.M., inzhener; POKRASS, L.M., inzhener.
Deokidizin*g rimmd steel by forromarganess in the ladle. Notallurg 2
(MLRA 10:6)
1. Stalinakiy metallurgichookiy savod.
(Steel--metallurgy) (Ferromanganese)
GRECHIN, Boris Vasillyevich; STEPANGVA, Anna Sergeyevna; BON'DA-',EITKO, M.,
-,--ABBASOV-,T. , tekhn. red.
[Uzbek Karakul sheep]Uzbekistanskaia.karakullskaia ovtsa. ,
Tashkent,, Gosizdat UzSSR 1961 29 p. (HIRA 15:11)
, (Uzbekis~~-Lr'~Q sheep)
GRECHIN2 B.V.; BASHIROVA, N.G.
A vonderful example of service to agriculture. Zhivotnovodetvo
23 no.6M-84 Je 161. (KRA 16s2)
1. Glavnoye upravlenlye aovkhozov pri Savete Minintrov
Uzbekskoy SSR.
(Uzbekistan-Karakul sheep)
GRICHIM, I.G.; S=ANOVSKIT, 7.S.; SE3TNVAL'D. K-L-
BorIng and casing of water wells In Odessa Province. Gidr. I
mel. 12 no.6:32-36 Je 160. (KMA 13: ?)
1. Odenskaya stroltellno-wntashnays kontora.
(Odessa Ptovince-Arteslan wells)
(Pipe, Asbostoo-cement)
GRECHM, I.P., kRndidat ael'skokhozyaystvennjvkh nauk, dotsent.
S)ils of the Forestry Zxperiment Stntion of the Timiriazev
Academy. -127 157. (MLRA 10:7)
Izv.TS]raA no.1:118
(Forest soils)
NVMILUYN. V.I.. lmnd. biol. nsuk; GRWHIN, I.P., kand. sell skokhotyayst-
vauuykh nauk. ,7`1
Affect of different tillage methods of dynamics of microbiological
processes In turf-hdsollc soils [with summry in Inglieb]. lzv.
ISMA noW37-144 158' (MMA 11: 6)
(3o;1 micro-organisms) (Tillage)
GRAGHIN, I.P., dotsent, kand. sel'skokhoz. nauk;KOGOTKOV, A-Ya., ai3pirant
Investigating the oxygen balance of soils of the turf-Podzolic
zone. Izv. TSKU no.5:187-196 '59 (MIRA 13:3)
(Gases in soils)
---GRECHIN,,-2-Rkand. eel I skokhozyayi3tvennykh nauk, dotsent
Effect of aerobin jLnd anaerobic conditions on changes In turf-
Podzolic soils. Izv. TSMA no.3:85-97 t60. (MIRA 14:4)
(Gases in soils) (Podzol)
NF.MaLUYEV, V.F.; GRECHIN, I.P.
. ---- -- - ----------------,
Characteristic features of microbiological processes in turf-
Podzolie soils depending on cultivation practices, Trudy Inst.
mikrobiol. no;7:87-95 160, (MIRA 144)
1. Moskovskaya sel'skokhozyaystvennaya akademiya imeni K.A.
Timiryazeva. (SOIL NIGRO-ORGANISMS) (TILLAGE)
GRICHIN, I.F.; CBRJ YUNI-SIMI [Oblong Yun-shen]
Ilffect of different concentrations of gaseous oxygen
in the soil air on oxidation-reduction conditions.
Fochvovedenie W-7:W-iio '6o. (MIR& 13:7)
1. Hoskovskays ordena Lenina sallskokhozyaystveanaya
akademiya im. IL.A.Timiryazeva.
(oxygen) (oases in soils) (Oxidation-reduction reaction)
I GEUCCM I P kand. eel I skokhozyaystvemqkh nuak, OEM TUN'-SHM [Chleng
Dynandca of ozygen and carbonic acid in the soil air of turf-IWzolic
soils. Izv. TSKhA no.6:68-79 16o. (KIRA 13:12)
(Plodsol) (GaBes in soils)
YARKOV. Sergey Petrovich, prof. [deceased]:" prinimali uchostiye:
WN, I.P.. kand. sellkhoz. nauk, doteent; KAURIC-0y, 1-3-.
kand. sellkhoz. neuk. dotsent; KULAKOV, Ye-V.. at. nauchnyy
sotrudnik; TAHKOTA, N.A., pochvoved; TYURIN. I.V.. skademik.
otv. red.; PATLOV, A.N.. red. izd-va; YNGOROTA. X.F.. tekhn.
red.
(Soils of the forest-meadow' zone of the U.S.S.R.] Pochvy leso---
liagovoi zony SSSR. Koskva, Izd-vo Aknd. neuk SSSR, 1961. 317 P.
(MIRA 14:5)
1. Kafedre pochvovedeniya Moskovskoy Ordena Leninn Sellsko-
khozyaystvennoy Akademil i~. K.A.Timiryozove (for Grechin, Kau-
r1chev) 2. Fochvenno-agronomleheskiy muzey im. V-R.Villyamna
(for Irulakov)
(Soils)
GHCHINY I.P., kand. seltokokhoz. nauk, dotsont
Effect of aerobic and anaerobic conditions on the change of
properties in turf-Podzolic soils; based on Inventivations.
undim natural conditions. Izv. TSKhA no.6t86-96 061.
(MIRA 16:8)
(Podzol) (Gases in soils)
1% --
-MWHIN, I.P., kan&.sellskokhowlauk, dotsent; KURLYKOVA, N.V., aspiromt
Changes in the properties of turf-Pbdzolic soils as related to
their oxygen and carbon dioxide content. Izv.TSKRA no-OM-1-16
162. (MM 15212)
(Podzol) (Gases in soils)
MERSHRI, A.P., dots.1 dots.) red.
[Methods manual on the use of aerial photographic
materials in soil mapping] Metodichaskoe rukovc,'stvo po
ispollzovaniiu materialov aerofotoslemki pri pochirennom
kartirovanii. Pod red. I.P.Grechina. Moskva, Mosk. sell-
khoz. akad. im. K.A.Timiriazeva, 1964. 622 p.
(MIRA 18.12)
GRECHIM, P. Yu,
Device for logging magnetic ousceptibility. Avt. i prib. no.4c
62-64 O-D 164 (MIRA 18s2)
GRECHINSKAYA-,-I.T-.., inzh.; DOUSKOY, D.I., kand. tekhn. nauk;
RYTCHRIKO, V.I., kand. tekhn. nauk; ROZENBERG, L.I., kand.
tekhn. nauk; KOLYASDISKIY, Z.S.., inzh.; GURMAN, V.S., inzh.;
LOBUSHEV, V.D.,, -Jnzh.; YalELOYANOV, A.Ya., inzh.; LESIMAKOV,
F.I., red.; BODR40VA, A.P., tekhn. red.
[Technical specifications for the overhaul of the M-21 "Volga"
automobile]Tekhnicheskie usloviia na kapitallryi remont avto-
mobilia M-21 "Volga." Moskva, Avtotransizdat. Pt.2.[Technical
specifications for checking and sorting parts of the 1-1-21
"Volga" automobile]Tekhnicheskie usloviia na I-controll-sortirovku
detalei avtorobilia 14-21 "Volga." 1962. 400 p. (MIRA 11:12)
1. Moscow. Nauclino-issledovatellskii institut avtor.,obillnogo
transporta. 2. Gosudarstvemyy nauclino-issledovateltskiy insti-
tut avtomobillnogo transporta (for all except Lesnyakov,
Bodanova).
(Automobiles-44aintenance and repair)
SOV/ 124-58-5-5412
Translation from: Referativnyy zhurnal, Mekhanika, 1958, Nr 5, p 64 (USSR)
AUTHOR: Grechin, M.A.
TITLE: An Experimental Investigation of the Hydromechanic Character-
istics of Propeller Profiles (Eksperimental'noye issledovaniye
gidromekhanicheskikh kharakteristik vintovykh profiley)
PERIODICAL: Tr. Tsentr. n.-i. in-ta morsk. flota, 1956, Nr 7, pp 82-95
ABSTRACT: Analytical results are given of wind-tunnel tests carried out
at the Leningrad University wind tunnel by the Tsentral'nyy
nauchno-issledovatel'skiy institut morskogo flota (Central
Scientific Research Institute of the Maritime Fleet) of a series
of propeller profiles, the purpose of the tests being to refine
the logarithmic diagram which V.M. Lavrent'yev had compiled
in 1945-46 by analyzing and averaging various experimental
propeller data available at that time. Selected for these
special tests was a base series consisting of five systematic
propeller profiles with thickness ratios ranging from 2076 to
516. To clarify the influence of the profile camber, tests were
made of four propeller profiles with various amounts of cam-
Card 1/2 ber of the base propeller -profile types No. 3 and 4 (with
SOV/ IZ4-58-5-5412
An Experimental Investigation (cont.)
thickness ratios of 10 and 7.5 percent respectively). The investigation in-
cluded a determination of the chordwise and normal-force coefficients and
the section pitching-moment coefficient of the profiles in a curved-flow
test and a determination of the pressure distribution which was done by
means of pressure orifices at 23-25 points on each of the nine models over
an angle-of-attack range up to the stall. Ultimately the Lavrent'yev dia-
gram is derived, establishing the connection between the elements of a
propeller blade and hydrodynamic characteristics of the propeller.
IN. Girs
1. Propellers (~hrine)--Hydrodynamic characteristics 2. Propellero 'ktlurlne)
--Test results 3. Wind tunnels--Applications
Card 2/2
GRECHIN, M.A.
Calculating characteristics of speeding up and slowing down
ships. Trudy TSNIIR? no.15:97-109 158. (MIRA 11:8)
(Propellers) (Ship propulsion)
GRECHIN, M. A., Cand Tech Sci (diss) -- "Investic~atior. of the operation of a
collar screw when maneuverixVr, and a computation of the driving and braking
character is tics of a ship". Leningrad, 19t'~O. 1.3 PP (MIn -River Fleet RSFSR
Leningrad Inst of Water Transport), 250 copies (KL, No 15, 134)
GRECIIIN, M.A., kand.tokhn.nailk
I
Combined work of the propeller and the engine when a ship
pitches in a hoavy sea (evaluation of the ship's loss of'speed),
Trudy TS14IDIF 7 no.35s63~43 161. (MIRA 1-4:22)
(Ships-Hydrodynamic impact)
(Ship propulsion) '
I
,_9P5qJiIN,.. M. A. .-kand. tekhn. nauk
Propulsive and maneuverable qualities of the motorship nUgleural'sk"
Inform.sbor.TSNIIMF no-52. Tokh.ekspl.mor.flota no.5:79-92 16o.
(MIRA 15-2)
(Ship trials)
APANASOYEV, Konstantin Arkad'yevich, inzh.;.GRN_QHI4, - Modes-t-Alekseyevich.
inzh.; KORCHAGIN, Mikhail Ivanovich, kand.takhn.nquk; LOGWOT-~---
Sergey Petrovich, kand.ekon.nauk; MIROSBICHSHKO, Illya Petrovich,
kand.tekhn.nouk; RAPOPORT, Leonid Illich, kand.tekhn.nouk;
SYROKYATHIKOV. Viktor Fedorovich, kand.takhn.nauk. Prinimeli
uchantiye: RAYFIVSKAYA, Ys.A.. inzh.; GRIGORIYET. Ya.I.. inzh.
STRUKPE, P.I., red.; IAARCHUKOVA, K.G., redoiad-ve; LATMOVA, N.Bo,
taklin.red.
[Kodernization of seagoing cargo vessels] Flodernizat5iia morakikh
transportnykh sudov. Pod obahchei red. P.I.Strumpe. Koskva, Izd-vo
"Morskoi transport," 196o. 3o6 p.
(KIRA 14:1)
(Freightere-Equipment and gapplies)
IREP4 No .A. kand.tekhn.nauk
~ L
Seaworthiness of the motorship "Meteor" with underwater wings,
Inform. sbor. TSNIIMF no.59. Tekh. ekspl.mor.flota noOOO-" 161.
(KMA 16:6)
(Motorships) (Hydrd.l'-~il boats) 1.
11
GRECHIN Modest Alekseyevich- GULIYEV, Yu.M., red.; ALEKSMIDROV,
' '- Q
. , reC.--Zi;-i-,---KHLOPOVA, L. K.., tekhn. red.
[Changes made in screw propeller elements according to
results of actual testsj Izmenenie elementov grebLykh
vintov po rezul'tatam naturnykh ispytanii. Moskva.. Izd-vo
"Morskoi transport.," 1962. 45 P. (MIRA 15:7)
(Propellers)
BLAGOVESHCHENKIY, S., doktor tekhn.nauk,,prof.; VOZNESENSKIY, A., kand.tekhn.
nauk; VOYTKUNSKIY, Ya., kand.tekhn.nauk,, dotsent; GERASIMOV, A.,
kand.tekha.nauk, dotsent; GRECHIN M., kand.tekhri.nauk; DORIN, V.,
kand.tekhn.nauk; DORMOSTA I , doktor tekhn.n&ak; KOSOUROV, K.,
dokfor tekhn.n'auk, prof.; KRIVTSOV, Yu., kand.tekhn'nauk; MURU, N.,
kand.tekhn.-nauk, dotsent; SEWNOV-TYAN-SHANSKIY, V.: doktor tekhn.
nauk, prof.; SOLOVIYEV, V., kand.tekhn.nauk, dotsent; TOPORKOV, I.,
inzh.; FIRSOV, G., doktor tekhn.nauk, prof.; FISHER, A., inzh.;
KHRUSTIN, V., kand.takhn.nauk, dotsentj'EYDELIMAN, D., inzh.
Concerning P.Khokhlovfs article *Determining the center of gravity
of a vessel during-an inclining experiment with trim difference.,,
Mor. flot 23 no.5:33-34 163. (MIRA 16%9)
(Stability of ships)
A.G., doktor. takfin.nauk; GRECIIIN, A., kand.tekhn.nauk; or
MFZHERITSKIY, A.D., kand.-tekhn.nauk
Power plant capacity on air-cushion ships. SMostroenie 29
no.lOil8-22 0 163, (MIRA 16:12)
L-UAI L)- _67 W TW /EWT(1)/EWP(h)/FKP(l)
A C C - N R't-' -_ AT- 6 b 14 3- 1 4-Cj~) SOURCE CODE: UR/2752/63/ooo/o4g/0082/0101
AUTHOR:' Grechin, M. A. (Candidate of technical sciences) rl
ORG: None
TITLE: Calculating the lift and-power of boats operating on air cushions
SOURCE: Leningrad. Tsentrallnyy nauchno-issledovatellskiy institut morskogo flota.
Trudy, no. 49, 1963. Gidromekhanika sudna (Hydraneenanics of ships 2 2-101
TOPIC TAGS: air cushion vehicle, aerodynamic lift, air flow, Euler equation,
motion stability
ABSTRACT: A method is presented for calculating the lift and power required for
raising -rhicles with air chambers and continuous annular nozzles. Both types of
vehiclesl-~xe studied. Vehicles with air chambers are structurally very simple
since they do not require air ducts. Air is forced under the dome of the vehicle
and escapes a-long its periphery. Lift is produced by the pressure increase in the
lower part of the dome. Expressions are given for calculating the rate of airflow,
lift, power required for sustaining the vehicle on the air cushion and specific
power. All these parameters are determined for circular vehicles. The basic prin-
ciples for operation of vehicles with curtain type air cushions are also discussed.
The use of this type of vehicle seems more feasible for marine operations-than
Ij 4
ACC NRi n6o14314
vehicles with air chambers. The region of increased pressure is much more limited
in vehicles with annular air curtains -than for those using air chambers. The air
curtain is formed by the air stream from the nozzle unit. A figure is given show-
in.- the principle of operation for this type of device. An air stream leaving the
nozzle at a given angle with respect to the vertical is deflected and disperses
along the horizontal surface. The equation of Euler is used for determining air
stream variation for every possible cross section in the case of an ideal incom-
pressible liquid. F_xpressions are given for calculating the lift of this type of
vehicle and the power required for holding it at a gived distance from the surface.
EApressions are also given for calculating the resistance encountered by vehicles
operarting on air cushions during motion. The results of the study show that the
specific power for boats operating on air cushions increases shaxply with increased
height above the operating surface. This is caused by increased air consumption
and results in additional pressure requirement on the fan. The nozzle type air
cushion is much more efficient than the air chamber type since it does not lose as
much power on lift. The results also show that an optimum angle of nozzle declina-
tion exists for each nozzle diameter and lift height with respect to given vehicle
dimensions. A graph iz given for determining this angle. Though theoretically a
circular air cushion is most efficient, experience shows that this causes power
losses expended on motion of the boat or vehicle. In designing boats operating on
air cushions it is necessary to consider these conditions and to adopt oval de-
signs. Optimum air cushion pressures increase with vehicle velocity. The proposed
Card 2
L 0241r-67
C)
method for calculating the power of boats operating on air cushions is recommended
for determining their economic and operational indices. Orig. art. has: 11 figures,
2 tables, 58 formulas.
SUB CODE: 13/ SUBM DATE: none/ ORIG REF: 001/ OTH REF: 001
.056~4-67 hlNT(k)/E7t]T(m)/T-2/E7,TP(w)/EWP(V) Iu'-r%'C) M-
Act R-AT6.025573 UN) SOURCE CODE: UR/2753/66/000/072/0053/0059.
AUTHOR: Grechin, M. A. (Candidate of technical sciences)
ORG: None7
A~
-TITLE: Effect of nonstationary conditions on the hydrodynamic characteristics of a
iiW prop6llef-Iff trie ihitM _j;A_od of reversal
SOURCE: Leningrad. rT ,
iintral*nyy nauchno-issledo-Matellskiy institut m6rskogo flot
_Nr'44y, no. 72, 1966. Gidromekhnika sudna (Hydromechanics of ships), 53-59
'IC TAGS: propeller blade, hydrodynamics, fluid mechanics, marine engineering
ABSTRACT: The author considers a lightly loaded isolated screw propeller operating in
an infinite flow of ideal incompressible liquid assuming that the angles of attack
for the elements of the blade are vanishingly small so that the associated circulation
at each element of the blade is variable. The vortex system of an m-bladed propeller
is considered where the circulation is constant with respect to radius and varies in
time. The expressions derived are used for determining the effect which the free vor-
tex system has on the magnitude of the induced velocities during the reversal period
from the moment when the load is removed from the main engine until maximum-negative
torque is reached in the hydraulic turbine. It is found that the vortex system
shortens this period as compared with steady~-state motion. However, since practical
Card
UDC: 629.12:532.502.5-001.
USSR / Pharmacologyi ~oxlcolo&y. Various Preparations. V
A70S jour : Ref. 2"Iltir - Bioloz:,IYe, No. 3, 1959, 14,000
Author : ~Irechin, N.
Inst : -
Title ; Experiments ;,,,ith Tpeatment of Chronic and SuIb-
acute Diseases of the Locomotorknparatus and
Peripheral Nervous Systom 7jith Products of
Essential Oil Derivatives.
Orig Pub : Zdravookhraneniye (Kishinev), 1958, No. 31 20-24
Abstract No abstract
Card
&-~~CIFIN, "'It. K. "'n(-,*-
Excavating 'Hachinery
New tyi.e of excavator at tlh-~ Kharkov p3ant. Triekh. stroi. 10 Yc. 3, 1953.
9. Monthly List of Russian Accessions, Library of Congress,
june
.1953. Unclassified.
USSR/ Engineering -Building equipment
Card 1/1 Puba.128 1125
Authors I Grechin, N. K.
Title Problems in development of construction and road building mchinery
Periodical t Vest, mash, 1 3-43P Jan 1955
Abstract The post-warand present trends.in development of construction and
road building machinery are summerized. Some 600 types of construction
and road buidling equipment were produced in post-war years and the
production of heavy road-building equipment in 1954, increased 10.5
times over 1946. The follmiing equipment is described: single and
multi-bucket excavators,, scrappers., graders, rollers., derrick cranes,,.
loading cranes, tar and cement spreaders, cement mixerso and the tile
and brick presses. Illustrations.
Institution :
Submitted :
GRICHIN.N.K.. inshener, laureat Stalinskoy preall
"
])sale task* for the further development of building !Lnd road con-
struction machinery production. Mehh.strai.12 no.9:3-8 S 155-
(MM 8: 11)
1. Zaneatitell ministra stroltellnogo I doroshnogo washinostroye-
My&.
(Building machinery) (Road aschinem)
m - I r i , 7- ~~ 4-1,
GRECHIN, N. K.
"Tasks for the Development of Construction and Road Machine Building," Vest 1wh.,
Vol 35, No 1, pp 3-13, 1955
Trahslation M-405, 29 Apr 55
GRICHIN, U.K.
Standardization, simplification and normalization of building and road-
building machinery. Standartizatsils, a*.3:11-18 MY-Je 056. (MLRA 9:9)
lAamestitell sinistra, streitellnege i doreshnege mashinestroyealya.
(Read machinery-Standards)(Building machimery--Standards)(Simplification
in industry)
GRECHIN. N.
Standardization and unification of building and road machinery.
P. 153 (Mechanisace. vol. 4, No. 5, may 1957, Praha, Czechoslovakia)
Monthly Index of East European Accessions (EF-AI) W. Vol. 7, no. 2,
FebrwRtY 1958
SOKOLOV. K.R.; I-EVSTAlrjiYXV. 3.T.; ROSTOTSKIY. V.K.: GEWdHIF-.- U.K.: STANKOVSKIY,
A.P.; BAUMAN, V.A.; BIOUCMAN, I.L.; BORODACHEV, I.P.; BOYM, A.G.;
VAIUTSKIY, I.I.; VATSSLAVSrAYA, L.Ta.; VOL'FSON, A.T.; DOMBROVSKIY,
N,G.-. YMNUS. H.Ta.; YEFBMNKO, V.P.; ZlMlN, P.A.;. 1TANOT, V.A.;
KOZLOVSKIY, A.A.; KOSTIN, M.I.; KRIMERWI, M.N.; LINEVA, H.S.;
HEMOV, A.S.; HIROPOLISKAYA, N.K.; nTROV, G.D.; RXBROV. A.S.;
ROGOVSKIY, L.T.; SHMNOV. G.Ya.; SILUPWISKIY. V.N.; SHIMAIJOVICH, S.T.;
SHNBIM, V.A.
ftenii Richardovich Peters; obituary; Hakh. stroi. 15 no.1:3 of cover
.Tp. 19. (mm 11:1)
(Peters, lvgenii Richardovich, 1892-1957)
GRIKCHI 4-
Kochasised leadlog barge. Kakeeleveprom~22 se.5:28-29 KY 156.
Npu 9-: 9)
l.GlavW Inshener Chistopollskey realizatelonnoy nazy Zagetserse.
(Grain-haulling machinery) (Yorges)
GRECHINt P. Yu.
Improved logging coupling. Sbor.luch.ratm.predl. n'... 9-11 '-
,63.
Feeding and recording ir- -sti r ORIIMIRW '"' I j +,r I- I , -.~rj t 4 V, " ny,
a 50 cycle frequency.
Simplified connecting attachment to the hydroscopic IG-2 in-
clinometer. Ibid-:55-56 (MIRA 17:5)
1. Dnepropetrovskaya geofizicheskaya ekspeditsiya.
GRECHIN"). P..Yu.;. IAVRENKOJI I.V.
Capillary ball pan attached to the PASK-8 potentiometer of the
AEKS-900 logging station. Sbor.luch.rats.predl. pt. 2:32 163.
(MIRA 17:5)
1. Dnepropetrovskaya geofizicheskaya ekspeditsiya.
(7 r C C 6 1 // ~ V F) 86-58-3-24/37
AUTHOR: Grechin, V.A., Sen Eng Lt
TITLE: Working Day of an Engineer (Rabochly den, inzhenera-)
PERIODICAL: Vestnik vozdushnogo flota, 1958, Nr 3, pp 62-65 (USSR)
ABSTRACT: The article describes the working day of an engineer in
an air force unit. At the beginning of his article the
author states that one of the very difficult tasks of
technical personnel is to prepare the aircraft for flights
in cases where the same aircraft is flown by several pilots
in succession on a flying day. The aircraft equipment can
be checked only during the refueling time between the
flights. With the establishment of a seven-hour working
day, the personnel alsohave some difficulties In coping
with the amount of work that has to be performed. Among
other things, the author mentions that at the present time
aircraft equipment is checked with the aid of special mea-
suring instruments. Of interest is the fact that the repre-
sentatives of factories frequently visit the unit engineer
and discuss various problems connected with aircraft equipment
AVAILABLE: Library of Congress
Card 1/1
Sov/86-58-11-19/37
AUTHOR: Grechin., V. A., Senio--- Engi-wer, Lt
Technical Exploitation of Aircraft, Equipment, (TLkhnichesImya ekspluatat-
siya aviatsionnogo oborudovaniya)
MRIODICAL: Vestnik vozdushnogo flota, 1958, No. 11, pp 62-66 (ussR)
ABSTRACT: In general., defects in the equipment of supersonic fighters in the
author's unit were usually caused by cable breaks in electric circuits, break-
downs or short circuiting, changed parameters in condensers or resistances,
deranged adjustment or reguIation in various systems, incorrect operation of
feed sources, and leaky piping in air or oxygen systems. The following ni
"most interestingn defIects which occurred in that unit are discimsed in detail
in the article. (1) The dynamic-pressure piping in an airspeed inUcator leaked.
(2) a tube supplying fuel to the engine broke. (3) screws securing cables to a
unit (the latter was attached to the engine) were turning off under vibration;
impaired operation of the engine resulted. This defect was remedied by "put-
ting the screws on the paint", and by periodic checking. (4) a moisture-exclud-
ing lid, used when the aircraft was on the ground, failed to protect satisfact-
orily and as a result, a push button, controllng flaps [shchitki-zakrylkil,
became stuck by icing. This was remedied by drilling drain holes for mDisture.
(5) 7he filter In tJm cabin air-temperature regulator became dust clogged after
Card 1/2
Tlechnical Exploitation of Aircrafb (cont.) sov/86-58-11-19/37
operating for 80-90 hre.; it resulted in a defectivie supply of air to the cabin
(in winter), with a possibility of mechanical. ela ge. Cleaning the filter screen,
by blowing compressed air through it was recommended. (6) The installatim of
the "barospeedograph" in the aircraft was a pi-iblem for aom time; finally, a
satisfaetory place for this instrwoent was found inside the 8urface, beside
the gun- (7) An improved cc%qzss is now being installed in fighters. 7he trans-
ition from the old to the new model caused certain difficulties which "rational-
izers" removed by combining the new model with some parts of the old one; some
changes an the instrawat I were alao m~. This was done only in a single
pair of aircraft. A similar alteration was carried out in -the TL-1 ground trainer.
The use of the ec"ss presents sow difficulties due to dissinilar installation
of some units making up the complete compass system in differeirb modifications
of the same aircraft. (8) The booster trunsforzvr is the most vulnerable part
of that compass. The compass gets out of senrice- when a b:reakdowr- occurrs in
the transformer. (9) The readings of the exhamst Sas thermometer drop after
the engine has run for 70 to 80 hours because the insulation covering the thermo-
couple then becomes abiarred and turns into Powder under action of beat. With a
cold engine, it is sometimes impossible to determine by means of a tester which
thermocouple went out of service. There are 3 photographs and 1 diagram.
Card 2/2
GRECHIN, V.A.. inzhoner-kapit&A
It is the duty of all personnel to prepare the air-
plane for flight. Test.Vosd.71. no.7#.65-67 J1 160-
(KM 13:7)
(Airplanes-)kintenance and repair)
1. GRECHIN, V.P.
2. USSR (600)
4. Technology
7. Casting alloy cast iron. Moskva, Oborongiz, 1952
9. Monthly List of Russian Accessions, Library of Congress, March,1953. Unclassified.
... ...... .
b lk
I MAT~k
am
-Ubd6r,~. the-' Condit ions --of
h . _,_ - - h ..-I- -t ;,
i4ilx - lud 't
no es -A
if tion -an tip t
d
,fra4 d roscop a sma
of- the., suface- mirs in asso-ai-itiol
~i6a Cal 4013, uA.4,cr"trl;4_4xlal_,.A_.Q]
t
etwt on
the
al--
a --p a
PJ1,
Xi
t
I
A
'the P* e LOW.
tores
of d6ttsi-il M.
ae-Ke 'Wettrap __R0
id by,
an OL -reiult
glut
Do
1. F
--#- az,
of -t-ne
-On
'40bou
at
Thi of recTo,
VQ
~l IRM
W,
ILI
nw~
Ts
It,--
- R-. 11 -1--l-!i"P-~---