SCIENTIFIC ABSTRACT SOKOLOV, A.G. - SOKOLOV, A.M.

A U T -1110 Y, Ookolov, A.G. SOV-77-3-5-21 /2-.,~ TITLE-, The Development of Reversible Cine-Film Under Fileld Condi- tions (Proyavleniye obratimoy kinoplenki V p0leVykh 11910- -,,~ ypkh) PERIODICAL, Zhurnal nauchnoy i prikladnoy fotografii i kinematograf-i-J-'. lqrQ~ V-07 3, "r 5, PP 398-400 (USSR) I , -', - A34S~R.LICT-- The a~.,th-,)r gives the orescriptions for the compos-'tion d-2velopinl- solutions ~nd detailed instructior,s -f',:r the developing of reversible cine-film under field c-)nd--*t-J--%ns. where exact -Iaboratory processin6; is impossible. 1. Photographic f-Ilm-Processing Card !/I USODMA-Dc-5561o  KUZN'ETSOV, Roatislav Mikhaylovich; SOKOLOV, Andrey Georgiyevich; ASffURKOV, Ye.B., nauchnvy red.; SRADRAIC, Ye.N., red. ; D.MOLOVI,V.M. , tekhn.red.; MOCHKINA, L.I., tekhn.red. [Blectric engineering for ships and the assembling of electric equipment of ships] Sudovaia elektrotekhnika i montazh sudovogo elektrooborudovaniia. Leningrad, Gos.soiuznoe izd-vo sudostroit. promyshl., 1957. 269 p. (Electricity on ships) (MIRA 11:1)  SOKOLOV, Aleksandr Georgiyevich; VILKOV, GJII., red. izd-va; OTNEVW, N.V., tei6e reds [Transmission Une towers] Opory .1inii peredach; raschet konstruirovanie. Moskva, Gos. izd-vo, lit-ry po stroit., arkhit. i stroit. materialam, IC,161. 170 p. (MIRA .15:2) (Electric lines-Poles) (Radio-Antennas) (Television-Antennas)  FALLER, Moisey Yakovievich; SNARSKIY, A.A., kand. tekhn. nauk, re- tsenzent; SCIOLOV, A.G., inzh., red.; KHIIROVA, N.A., tekhn. red. .1 -------- [Theory of electrical networks]Teoriia elektricheskikh tsepei. Izd.2., perer. i dop. 1-11oskva, Transzheldorizdat, 1962. 494 P. (MIRA 15:12) (Electric networks)  ROZENBERG, N.M., inzh.; SOROKODUMOVA, N.I., inzh.; TELESaVSKIY, -5,18., inzh., retsenzent; SOKOLDV, A.G., lnzh., red., PEDVEDEVA, M.A., tekhn. red. (Television nnd its use in railroad transportation] Televide- nie i ego primenenie na zheleznodorozhnom transporte. Moskva, Transzheldorizdat, 1963. 186 p. (MIRA 16:10) (Railroads--Communication systems) (Industrial television)  SOKOLOVy A.G. Intake properties of absorption inills having a vacum at well heads, Trudy Giprovostaknefti no-3:322-326 161. (MIRA 1627) (petroleum waste)  ~-OKOLOV, A.G. Some characteristics of the discharge of waste waters into disposal wells in the ZolInyy oil field. Trudy Giprovostoknefti lto.4. 176-184 161. 04IRA 16:8) (Kaybyshev Province--Petroleum waste)  SHIN, P.V., agrunam pq zashchite rasteniyj Off"UN, V.A., agronom po zashchit~ raiieniy; ROSTOVTSEVA, T;*~,- _~OKOLOV, A.G.- For the good of manl Zashch."rast. bt vred. i bol. 6 no.9: 1-2 S 161. (MIRA 16:5) 1. Sekretarl partorganizatsii Kolomenskogo otdeleniya Vsesoyinnogo obl'yedineniya Soveta Ministrov SSSR po prodazhe veltskokhoz-%~-- ~aystvennoy tekhniki, zapasnykh chastey, minerallnykh udob~6&y i drugikh materiallno-tekhnicheskikh aredstv, organizatsii remo~ta i ispol'zovaniya mashin v kolkhozakh i sovkhozakh (for B*in.). 2. Nachallnik Golovnogo spetsiallnogo kone'uruktorskogo byuro (for Rostovtseva). 3. Rayonnyy inzhener Moskovskoy oblastnoy stointsii zashchity zelenykh nasazhdeniy, Noginskiy rayon (for Sokolov). (Plants, Protection of)  Ya.A ; A.G. Qii,ijity of the wa,.ers in'ected into prodlicim- rnservuirs, I - N.,efll,khoz- 41 no, 12~40-45 D '63~ (1411RA 17-.s6)  GAII*DII,.',, Boris Da,,ydovich, inzh.; MAGARSHAX, Boris Grigorlyevich, inzh.; SOKC-TOV, And-rey M-igorlyevich. inzh.; KITAYENKO,G.I. kand. tekhn. nauk, nauchn. red.; SACh-CH, N.A., red. -~ on the repair of electric equipment on ships] opravochnik po remontu sudovogo elektrooborudovaniia. Lenin&rad, Sudostroenie. No.l. 1964. 240 p. (MIRA 17:12)  ~!;unp aT. [~a Z'. ni, a 2 0 C; Cy s a r a r, c.  1:1 VI K" V~i c, r.,:. -  SOKOLOV. A.G. Wood rosin industr7 im the U.S.A. Gidroliz. i lesokhim. prcm. 9 no.7:30-32 '56. (MIRA 120) l.TSentral'nyy nauchno-issledovatel'skiy" lasokhimicheaki7 institut. (United States--Gums and resins)  USSR/Chemical technology - Chemical Products and Their 1-9 Application. Wood Chemistry Products. Hydrolysis Industry Abs Jour Ref Zhur - Khimiya, No 1, 1958, 2661 Author Inst Title Development of Naval Stores Production in the United States. Orig P~ib Gidroliznaya i losokhim. prom-st', 1957, No 5, 30-31 Abstract A review. Bibliography 7 refexences. Card 1/1  SOKOLOV, A.G.; BARDYSHIV, I.I. -Composition'of the acid part of colophony from oleoresin of the S49otch pine. Gidroliz. i lesokh-im. prom. 11 no.2:5-7 158. (MMA 11:3) 1. TSentrallnyy nauchno-isoledovatellskiy lgook"Umicheskiy institut. (Tar acids--Analysis) (Oleoresins--Analysia)  SOKOLOV, A.G. Thermal isomerization of some tar acids contained in the oleoresin of common pine. Sbor-trud. TSNIIZIF no.13:U9-128 '59- ,:-, (MMA 13:10) (Tar acids) (Oleoresins)  SOKOLOV, A.G. Determining dehydroabietic, d4hpiroabi eti ,,--and tel-rahpdmableti acids content of_r4sllis. Shnr't3nW.'r-9NTTM no.34-08.105 1.61. (Resin acids) (Gums 'and resins) (MM 16:4)  LESSIG, Yevgeniy Hikolayevich; LILMY. Aleksandr Fedorovich; Aleksandr Georgiyevich; 2BLYATROV, V.N., nauchny3r red~ktor; ROSTOVTSEVA, M.P., redalctor izdatellstva; TOKIR. A.M., tekhaiche- skiy redaktor [Sheet steel structural elements] StalInye listovye konstruktaii. MoBL-va. Gos. izd-vo lit-ry po Btroit. i arkhttakture, 1956. 479 p. (Sheet steel) OLRA 9:12)  SOKOLOV, A. G. (Hoskva) Calculating nasts by the method of given moment curves. Stroi. melch. i rasch.soor. 1 no.2:22-25 '59. (MIRA 12:4) (Elastic rods and wires)  SOKOWV, A. G. Determining the most efficient angle of inclination of struts in supports. Mat. po stall. konstr. no.4:58-84 '59. (MIRA 13:8) (Structures, Theory of)  SOKOLOV, A.G. Limited state8 of supports. Mat.po stall.konstr. no-5:120-133 159. (MIRA 13:8) (Wind pressure) (Structures, Theory of)  b AUTHOR: Sokolov, A. G. 45252 S/767/62/000/006/001/001 TIT LE: Determi-ation of membrane stresses from the wei'cy'-t o--7 t-e liquid and the proper weight of the shell. SOURCE: Nloticow. Gosudarstvennyy institut po proyekt-i--ovaniyu, issleciovaniyu i i6pytaaniyu stal'aykh konstruktsiy i mostov. Materialy po rnotalli- chcskim konstruktsiyam. no. 6, 196Z, 167- 176. TEXT: The paper provides an analytical solution for the determination of the distribution of membrane stresses in a spherical reservoir supported uniformly along a 'horizontal circle, as a function of the weight of the liquid contained in the reservoir and the proper weight of the reservoir shell. The solution developed applies to shell portions both above and below the support ring. It does not examine the problem of the local stresses which derive from the condition of*the continuity of th,~,, deformations in the support-ring zone. The analysis employs elementary wei'aht considerations and analyzes separately the case (1) liquid level below, and (2) liquid level above the support ring. It is readily apparent that the normal com- ponent of the support reaction is maximal for a completely filled reservoir (all further analysis is based on a full reservoir). Without entering into the problem C Card I /Z  VAKHURKI11, VJI.; GLADSIFIEFYN, L.I.; KAh'.:ILOV, S.S.; KLIMOV, S.A.; LEVITATISKIVY, I.V.; MALINN, B,N.i ITOSOV, A.K.; PALIM, Yu.A.; POLYAK, V.S.: POPOV, G.D.; R.ASSUDOV, VX,.; KRASYUKOV, V.P.; SOkQLOV.,_.A.,Gr.; Prinimali uchastiye: GORBATSKIY, Ye.I.; MATVEYEV, S.S.; STRELETSKIY, N.S., prof., retsenzent; MUKHANOV, K.K., dots., retsenzent; BOLOTI14A., A.V., red.; MIKHEYEVA, A.A., tekhn. red. [Light-weight supporting metal structures] Oblegchennye nesushchie metal1icheskie konstruktsii. Moskva, Gos- stroiizdat, 1963. 282 p. (MIRA 17:2)   SOKOLOV, A.I., inzh. Container type cars for narrow-gauge railroads. Torf.prom- 39 no-3:9-10 362. (KIM 15.'4) 1. Toplivno-transportnyy tsekh Yaroslavskoy gosudarstvennoy rayomoy elektrostrantaii. (Railroads--Freight cars) (Railroads, Narrow gauge)  SOEDLOV, A.- ~ , Work of young poultry farmrs and its relation to instruction, 0 .5-.7 is 158. (KM Ila) Politekh.-obuch. uo'6:2 2 1. Semiletayaya shkola 16.24 kbutora Miguty ranevskogo rayon& XmsnodarokoCo krava. (Ihcks)  NESHCHADDJ A.G. inzh.; KIMYUMOV, V.N.,, inzb.*- Prinimali uchastiye: YEDEMSKIY P.M.; FADEYEVA., K.M.;.POKOLOV,_ A._I.;-.PETROVA, A.I.; MIL-1AYLOd, N.M.; SERGEYEEVA, Z.P. Influence of temperature on the extraction of prepressed Bunflower cakes in the DS-70 extractor. Masl.-zhir. prom. 27 no.6:35-38 Je 161. (MIRA 14:6) 1. Voronezhskiy tekhnologicheskiy institut, Leningradskoye otdeleniye (for Neshchadim). 2. Leningradskiy maslozhirovoy kombinat (for Kurd7umov, Yedemskiy, Fadeyeva Sokolov Petrova, Mikhaylova, Sergeyeva). (Sunflower oils  KLIONSKIY, Ye.Ya., professor; SOKOLOV, A.I.; SHAKFOV, II.M.(Leningrad) r.-C-mm- ~v-kft' Changes in and characteristics of the course of tuberculosis in the postwar period. Klin. med. 32 no.12:20-25 D 154. (MLRA 8:3) 1. Iz kliniki legochnogo tuberkuleza (zav.-prof. ZA.Klionskiy) LenIngradskogo aanitarno-gigiyonichaskogo med. instituta. (TUBERCULOSIS."opidemiology in Russia, postwar period)  PALASIIEVSKAYA, Aleksandra Semenovna; AIUSIMOV, M.G., inzh., retsenzent; -SOKOLOV,WA.I., inzh., red.; BELEVTSEVA, A.G., red. izd-va; ORESHKIN -,V.-I., tekhn. red. [Means for preventing izvodstvennogo shuma. 1961. 77 p. industrial noise] Sredstva zashchity ot pro- Moskva, Gos. nauchno-tekhn. izd-vo Ob r I j (MIRA (Noise) 14.9  soi~OLU,T, A. I. I rrig-:tt ion Mobile syp'hon 'Inter outlet for a tem-~.ov~ y irri., ti n system 1 r~ -a 0 _r. i mpl. '-' no., 1952 Gid 9. Monthly List of Russian Accessions-, Library of Congress, November_195A? Uncl.  1. 30-i"OLOV, A. I. 2. UO'SR (6()0) 4. Sewirators (Machines) 7. Device for inserting rivets in coiled separators, Podshipnik, No. 10, 1952. 9. Monthly List of Russian Accessions, Library of Congress, February -1953. Unclassified.  SOKOWV. A.L. samestitell nachallnika, teekha. Adjusting the fuel feed. laergetik I no.4:11-12 S '53. (MLBA 6:8) (Farnaces)  BELISKIY, Vladimir Leonidovich; VLASOV, Ivau,Petrovich; ZAYTSEV, Valentin Nikolayevich; KAN, Saveliy NakhimovicU,dokt.tekhn.nauk,prof.; KARNOZHITSKIY., Vladimir Pavlovich; KOTS, Veniamin Markovich; LIPOVSKIY, David Yevseyevich; BONIN, A.R., doktor tekhn. nauk, retsenzent; ELO-LO-y'-A.'I.I inzh., red.; KITZIMIN, G.M.I. tekhn. red. (Design of aircraft] Konstruktsiia letatelInykh apparatov. (By] V.L.Bel'skiy i dr. Moskva, Oborongiz, 1963. 708 p. (MIRA 16:8) (Aircraft) "1 4 ,  SIDOPOV, Orest Aleksandrovich; ISAKOV, P.K., doktor med. nauk, re- tsenzent; SOKOLOV, A.I.j_ inzh., red.; BAFIVIOVSKIY, V.V., doktor mi0-.nzFuk,---red.; YUGANOV, Ye.1-11... kand. med. naukj, red.; ANT1011OVA, S.D.,, red. izd-va; OPXSFIONA) V.I.,, teh-hn. red. [Human physiological factors determining the arrangement of a machine control board]Piziologicheskie faktory cbeloveka opre- deliaiushchie komponovku upravleniia mashinoi. Moskval 6boron- iz, 362 p. (KMA 15:10) Autoratic control) (Human engineering) ~  SOKOLOV, M. Spectrum analysis of the crankshaft oil for 2D100 diesel engines. Khim. i tekh.topl. i masel 9 no.2t7O-72 F 164. (141HA 17:4) I. Tomskiy inzhenerno-stroital'nTl institut.  SOKOLOV, A.1, , Growing ginseng on the northern boundar7 of the range (eastern slope of Sikhote-A-Iinl.), Ma". k izuch. zhen'. i drug. lek. rast. Poll. Vost. no.19:71-73 163. (MIRA 17x8) 1. Sikhote-klinskiy gesudarstv-snnyy zapovednik.  KIZUBY I.P.; SUKOLOV A.I. Efforts of the miners of the Anthracite Trust - to fulfill the seven-year plan ahead-of time. Ugoll 39 no-5:21-24 My 164. (MIRA 17:8) 1. Trasb Antratait.  s/o96/6o 000/07/012/022 E194/E455 AUTHORS: Sherstyuk, A.N., Candidate of Technical Sciences, Zaychenko, Ye.N., Ignatlyevskiy, Ye.A. and __s kolov A.I., Engineers - 4-91--~' TITLE: An Investigation of Inlet Pipe Nozzles for Centrifugal Compressors 45 PERIODICAL: Teploenergetika, 1960, Nr 7, PP 56-59 (USSR) ABSTRACT. The design of the inlet pipe influences the efficiency of a compressor in two ways. Firstly, losses in the inlet pipe itself directly reduce the efficiency of the compressor. More important, the shape of the inlet pipe influences the velocity distribution at inlet to the runner. If the distribution becomes unsuitable it can appreciably reduce the efficiency of the runner because the angles of attack at the inlet edge differ from the required values. Despite the practical importance of this question, little experimental work has been done upon it. Accordingly, the present work gives the results of the first stage of an investigation on axially- symmetrical inlet pipes. The tests were made not on a Card 1/5 compressor but on a special rig, illustrated in Fig 1,  s/o96/60/000/07/012/022 E194/E455 An Investigation of Inlet Pipe Nozzles for Centrifugal Compressors which allows the influence of the runner to be excluded. However, the outline of the duct beyond the inlet pipe is made the same as in a normal runner in order to obtain the required boundary conditions. Tests were taken on 8 types of inlet pipe, 5 being axial and 3 radial. Sketches of the inlet pipes are given in Fig 2. Combined data on the losses are also plotted in the graphs of Fig 2 in each case as functions of Reynolds number. Since Mach numbers were small (less than 0.35). the test results were worked out without allowing for compressibility. All the inlet pipes, except type OR-80-V, have very low loss factors because of the low values of Reynolds number and in all cases there is an appreciable reduction in the losses as the Reynolds number increases. As was to be expected, the axial inlet pipe with the least losses is that in which the ratio of the inlet diameter to the outlet section is greatest. The greatest losses were obtained with the cylindrical inlet pipes. The tests show the advantages of using short cowls over the runner inlet. Data on the Card 2/5 velocity distribution in the discharge section of the  8c'.4-3 s/o96/60/000/07/012/022 E194/E455 An Investigation of Inlet Pipe Nozzles for Centrifugal Compressors inlet pipe are also presented in Fig 2. The tests were made for various values of average speed up to 110 metres/sec but because of the very slight influence of the Reynolds number of the velocity distribution Fig 2 gives mean curves. In all cases, except those of the conical and cylindrical inlet tubes, there is marked distortion of the velocity distribution. If the runner were designed without allowing for this distortion, there could be substantial reduction in efficiency. In the axial inlet tubes, the velocity distribution depends on the length of the cowl. It is most uniform with a cowl of medium length and comparatively uniform with a cylindrical inlet tube; but cylindrical tubes are not to be recommended because of their inherently high losses. Conical inlet tubes give a uniform velocity field and have small losses. Thus they are the most suitable of the axial inlet tubes, provided they can be accommodated in the overall dimensions. Their main disadvantage is their great length which can be overcome by making a Card 3/5 profile of the kind illustrated in Fig 3. The results  s/o96/60/000/07/012/022 E194/E455 An Investigation of Inlet Pipe Nozzles for Centrifugal Compressors with the radial and diagonal inlet tubes are of special interest because these types sometimes have to be used and it is obvious that the runner design must make appropriate allowance for changes in the velocity distribution. Moreover, inlet tubes of this kind should not be used at high peripheral speeds because the Mach number at the tips of the discharge edges of the runner blades becomes excessive. One of the tasks of the work was to evaluate the reliability of approximate methods of calculating the velocity in relation to the design of the inlet tubes. The point is that approximate methods of calculating on curved channels are sufficiently accurate only if the boundary of the channel changes curvature smoothly. In the case under consideration, the change in curvature is not smooth: from the experimental results and velocity data given in Fig 4, it is concluded that approximate methods of calculation are not sufficiently accurate. Differences between test and calculated velocities may be 10 to 20% Card 4/5 and, therefore, in important cases the velocity should  s/o96/60/000/07/012/022 E194/E455 An InNrestigat�on of Inlet Pipe Nozzles for Centrifugal Compressors k-\- be determined experimentally. Ther-~ are 4 figures and 3 Soviet references. ASSOCIATION: MEI - NAMI (Moscow Power Institute and NAMI) Card 5/5  s/143/61/ooo/oo2/oc1;/oo6 A207/A126 AUTTWES: Sherstyuk, A. N., Candidate of Techmical Sciences, Sokolov. A. I., Engineer TIM-E: Determination of the efficiency coefficient of the diffusion grids from experimental data PERIODICAL: Energetika, no. 2, 1961, 93 - 96 TE)U ; The authors derive the formulae for determir-ana the effi6iency coef- ficient of a straight or radial diffusion grid from experimertal data. Graphs are submitzed which simplify the calculations considerabiy. Experiments were made on straight compressor grids (profile packages) which led to --rne mezhod of determin- ing the coefficient of 16zses described in this article. There are 2 figures and 2 Soviet-bloc references. ASSOCIATION: Moskovskiy ordena Lenina energeticheskiy insti-tu-r,, kafedra parovykh I gazovukh turbin (The Moscow Order of Lenin Power Engineering Ins- titute, Dpoartment of Steam and Gas Turbinps) SUBMITIED: February 26, 1960 Card 1/1  'kwkq-~ -51' L 221j5- EPA/E7,-.G(v)/EtiT(1)/E-,-IT(m)E'~,T(k)/E'PA(bb)-2/T-2/ETtIP(w)/ti.IP(f)/E~lP(r) Pe Pf-h/Pw-4 AEDC(b)/AEDC(U)/A8DF-3ASDP-3/AFTCA2,"ilFTC(p) F14N.4 ACCESSION NR- AP5002201 S/0096/65/000/001/0043/0047 AUTHORS: Sherstyuk, A. N. (Candidate of tedhnical.sciences); Sokolov, As It (&ngineer); Ly enko, V. F. (Engineer) TITLE: Mvestigation of axial-radial e compressors with blade diffusers SOUME: Teploenergetika, no. 1, 1965, 43-47 TOPIC TAGS: compressor, compressor blade, diffuser, compressor efficiency, blade size,.blade shape/.N1 9 18 blade ty-pe, NO 511 14 diffuser., N 0 It 1B diffuser, N 1 h 16 diffuser ABSTRACT: Results of experimental investigations with blade diffuser-type compressors are reported. The p~r~oso of the investigation was to study the effect of blade geometry on compressor efficiency. The flowing section of the compressor is given in Fig. 1 on the Enclosures. The details of the blade geo- metries (a total of 4 different types) are given in tabular form. All except N-1-9-18 blades were profiled. The compressor was operated at -25 000 r.p.m:. and T = 2M. Its efficiency was defined by la Card  L 22155-65 ACCESSION NR: AP' :' 002201 where F, is the oressure ratio across the compressor and subscript H and K correspond to conditions before and af ber the compressor respectively. The type N-0.5-h-14 diffuser was investigated first by holding the number of blades z = 25. but virying the mounting angle. The results showed a m~Lximum efficiency of 811% i at (:V, 3H - 161)201 (see Fig. 2 on the Enclosures). The second test was done by varying the number of blades. The optimum number was zH = 25-28. - Tile efficiency of the compressor with N-0-5-4-18 type diffuser was less than. the N-0*5-4-14 diffuser by 1.5%. Analysis of the ratio ai/a 3 for to!iesc two profiled diffusers (see Fi~a. 2) shows the limit alt/a 0.03 calculation results obtained by using the non-steady neutron diffusion equation practically coincide with those obtained by the above simpli- fied method. There are 1 figure and 1 reference. Card 2/3  Wu- kw r V;-L- .;T--7 7 PW /EWA (k) /~IM/L T4) A4TW:-- rx~ i~ . I LAR :W /mq EWFj-k~ _~_rT_W_ X_ I -IIG A I-etyrl--;~/r.L-4.-1 rJF(d D(t)/A9D(d)I/ _/_ -(a)-5 RAEMW ~Sv ASD &6_4j IACCE SiGIIN NRI' A04_t4R(~ S/018 64/0061009/2590"ji5ij AUTHOR: Sokolovo A. K.; Zubarev, To No ';TITLEt Time varLafion in the intensity and energy of atimulatedib ;emission of a rubyYJlaser v h spherical mirrors 1SOURCEt Fizika tverdogo Telao v. 6# no* 96 19640 2590-2598 ITOPIC TAGSI ruby laser, spherical mirror resonstorp laser# ruby laser energy, stimulated emission instabilityg stimulated emission ABSTRACT: Spherical mirrors were used-Ln order to.decrease the- prob- ability of imtobility durtng,the riseof stimulated emissicn pulws cf aruby laser. The ;mirrors were placed