SOV/111-59-9-6/31 Automation of the Electrical Equiprient of Supporting Repeater Stations on Cable Trunks riations in input vol-;age to the equipment of from -20 to +5%; not power output is 24 kw. Basic power for the equipment is :,Irom an external AC line, or a local diesel power plant. Normal operation of the unit is with a synchronous generator driven by an asynchro- nous motcr fed by the AC power line; alternately the generator may be driven by a battery powered DO motor, and switching from one drive to the other is automatic in case of AC line failure or other trouble. The prin- ciple of operation of the equipment is outlined in de- tail with the aid of the diagram (Fig 1), The unit includes a type VSS rectifier unit; voltage for remote feed ie fed through a Scott transformer. A reserve unit is included which is automatically started and switched into the circuit in case of failure of the basic un.4.t. The secord unit (Fig 2), for balanced cable trur'~cs, supplies locally powered OUP and remote Card 2/4 powered NUP equipmeni with DO voltages of -24 V9  SOV/111-59-9-6/31 Automation of the Electrical EquLpment of Supporting Repeater Stations on Cable Trunks +220 V, and 250 - 450 V. stable within +3~- for varia- tions in input voltage and frequency of from -15 to +5~, and -4 to +2% respectively. Basic power for the equipment is take 'n from an external AC line; reserve power is from an automatic diesel power plant. The batteries in the unit are continually connected to the load circuit insuring uninterrupted operation of station apparatus. Normal operation of the unit is throu,7h a VSS re3tifier unit powered by the AC C? line. Failure of the AC line causes the VSS unit to be switched out of the circuit, to be replaced by the batteries, and, in case of prolonged line failure, au- tomatically by the diesel power plant. A reserve rec- tifier unit is included in the equipment. The principle of operation of the circuit is described in detail with the aid of the diagram (Fig 2). Operation of Card 3/4 protective,equipment in the unit is also briefly out-  sov/111-59-9-.6/31 Automati3n of the Electrical Equipment of Supporting Repeater Sta-Itions c-q Cable Trunks lined. There are 2 circuit diagrams. ASSOCIATION: laboratoriya TsNIISa (laboratory of the TsY1IS) Card 4/4  ADZHEKOV., S.A.; MURADYAN, A.G., kand.tekhn.nauk; FUSTOVOWENKO, O.D., starahiy inzh.; SERYAXOVI N.T.-F'... High-frequency colmminication system using single quadded cahles with unattevAiftransistorized booster stations. Vest. sviazi 21 no.11:13-16 N 161. (K= 1"':11) 1. Zamestitell nachallnika TSentrallnogo nauchno-ir--sledovatollskogo instituta ov7azi Ministerstva sMsi MR. (for Afthemov), (Telecommunication)  BOVKUN, Viktor Georgiyevich; KAZARINOV, Ivan AlekseYevich; KOKOSHKIDI, Pavel Aleksandrovich; IYUBSKIY, Gennadiy Severianovich; IIEDOVAR, Anatoliy Isayevich; PETROV, Viktor Vasillyevich; PIONTKOVSKIY, Bronislav Aleksandrovich;_,cMu[IK(y,_I!Iyolay Ivanovich; ELINSON, Mikhail Mikhaylovich; SERGEYCHUK, K.Ya., red.; GRIGOIIIYEV, B.S., red.; FORTUSIOIKO, A.D., red., BUSANKIKAp II.G., red.; SHEFER, G.I.) tekhn. red. [Engineering manual on electric communications; electric equip- ment] Inzhenerno-tekhnichaskii spravochnik po elekirosviazi; elektroustanovki. Moskva, Gos. izd-vo lit-ry po voprosam sviazi i radio, 1962. 671 p. (MIRA 15:6) (Telecommuni,:!ation-Handbooks, manuals, etc.) (Electric engineering--Handbooks, manuals, etc.)  SERY. AKOV I N.I.; SHEYKINA, T.S.; PE7ROV, V.V.; IDBRILI, Z.Ya.; SHESTERIKOV, V.G.; PRONIN, V.M.; LYUBSKIY, G.S.; ISAKOV, I.K.; VOLODAPSKAYA, V.Ye., red,* -[Automated power supply guarantee systems for telecom- municatior apparatus] Avtomatizirovannye ustroistva ga- rantirovannogo pitaniia apparatury sviazi; informatsion- nyi sbornik. Moskva, Izd-vo "Sviazl," 1964. 132 p. (MIRA 17:6)  F* 111- !"1' W) V.,k LY , B r -o n i s I av A 1e k s a nd rn v I -1h; " ", 11 i k o I s lvanovlvi!; _,-y - - I '-- .- EV .:., v E.7 1. 1 y E v 4' * red , $ V.P.., n-tlr~ Gij"!l.'-iVoKAYA, 'M.,, L--jeCtriC po,,~er SUpp-t-r f~r vir6 broadca3ting 3ntarprine3j .1 1 Elektropitp,nie preduriiatii prnvodii-i sviazi, Mos-k-va, Izd - vo "Sviazl," 1964. 591 p. ~MIR-'~ l7t4)  IBRAGIMOV, E.S.; MELIKOV, _,D.K.; ~J~AYAOV Jq, V.F. AzINKASh-30 assembly for acidization of wells bottm areas. Mash. i neft. obor. no,2t27-31 063, (MMA 17: 8) 1. Azerbaydzhanskiy nauchno-issledovatellskiy institut neftyanogo mash:Lnostroyeniya.  IBRAGIMOV, E.S.; GORBOV, V.G.; SERYAKOV. V.F. 4An-700 pump unit for hydraulic fracturing and sandjetting. Mash. i neft. obor. no. 120-14 163. (KRA 17s4) 1. Azerbaydzhanskiy nauchno-issledovatnllskiy institut neftyanogo mashinostroyeniya.  3 A TYPH, OR Seryakov, V. T. S010-59-5-9/26 TITLE: Multi-purpose Work in the Position and Elevation Preparation of Aerial Photographs (Kompleksnyye raboty pri planovo-vysotnoy podgotovl:e aero.3nimkov) PERIODIChL: Geodeziya i kartografiya, 1959, Nr 5, pp 25-26 (USSR) ABSTRACT: Up to 1956 the po3ition and elevation preparations for stereotopographical surveys on scales of 1 : 25000 and 1 : 10000 were as a rule carried out separately by team Nr 58 of the Kazakhskoye JLGP (Kazakh Aerogeodetic Enterprise). That is to say that parallel work was done by some teams working on the positional conjunctions, by other teams working on the elevation datum,anrl others still working on the topographical identification of the aerial photographs. Practical experience has -shown this working organization to be inappropriate, and in 1958 16 multi-puruose teams were set up, with the brigpde. Thesn teams carried out an elevation Pnd position ,reparation on 9' trapezoids on a 1 : 25000 scale, mainly in high mountains. Each team in the high mountains ~~onsi3ted of I topographer, I for-:?mpn, 3 rodmen, -nd 1 Card 1/3 t-1- nsport worker. In flat regions the team was comuosed of  Multi-Durnose 'York in the Position and Elevation SOV/6-59-5-9/26 Preparation of Aerial Photographs 5 men. The multi-purpose brigade carried out simultaneoLily the surveying of the altitude traverses and the positional con;iunction of the aerial photographs. The topographer carxied out the identification at each ground control point as well as at the transitions from one point to the other. In the sections between the altitude traverses, the terrain was identified - by means of additional inspection. - Tne advantages of multi-purpose work are as follows: (1) reduction in the number of workers requirea, (?) reduced tranirport costs, (3) saving of Ume and means involved in the selection, study and preparation of data for the work, 'Iewer sets of aerial photographs and lithographic map prints required, (.1) the party work on a smaller area and are therefore in a 'Detter position to study the terrain, (5) increased output and increased responsibility, on the part of the head of party, for the entire scope of work done. - A serious disad-,~-antage is constituted by the delays caused by the additional tours of the topographer for the identification of aerial photographs and for the aomputation and processing of data for tha position CaL-kl 2/3 and elevation preparations. This shortcoming can be remedied  Itult-i-purpose Work in the Position and Elevation SCV -'559-5-91/26 Preparation of Aerial Photographs by a change in the composition of the party. It Seems desir-able to include one assistant topographer in eazh multi-purpose party. The following composition of teams seems recommendable: 1 head of party, who is at the same -time a topographer, 1 topographer, and 4-5 workers. Beside3, the entire technical personnel of the team would have to be trained for this multi-purpose work during the winter months. Card 3/3  I 7L- f preu4ot~ng the thonn! 2tat,! cf' r.D:~f;-(-.nzing part .:i" thin Barenk- Eca for a fj7re--vea.- pez-~031. i ~:~6y Len. gidromiel- . ir~z no . 1177 ~ 5,7-61 164.  11--.%-, tvj~- , ;i ~ .- . Seryakav, Ye. I., 'Water exchange of -the Baltic Sea with the North Sea and its variability over inany years Tr. Leqingr..gidrometeorol. in-ta (Works of the Leningrad Hydrometeorological Institute), No 4, 1956, No 4, p 185-197; RZhGeogr 9/57-19368)  SERYAKOV, Ye. I. Cand Geog Sci'- (diss) "Heat balance of the unfrozen part of the Barents Sea and its changes." Leningrad, 1961. 13 PP; (Main Board of the Northern Sea Routes of the Ministry of Maritime Affairs USSR, Arctic and Antarctic Scientific Research Inst); 150 copies; free; (KL, 6-61 sup, 201)  KUZNETSOV, V.I., prof., doktor khim.nauk; SERTAKOVA, I.V. Extraction analysis of elemento by means of low-melting organic substances. Zav.lab..23 no.10:1176-1180 1574 (MIRA 10:12) l.Institut geokhimii i analiticheBL-o7 khimii im. V.I. Vernadskogo AN SSSR. (Chemistry, Analytical) (Extraction (Chemist77)  5(2), 50) SOV/75-14-2-3/27 AUTTIORS: Kuznetsov, V. I., Seryakova, I. V. ------ -- TITLE: ----- Low-nielting Extracting Agents in Analytical Chemistry (Legkoplavkiye ekstragerzty v analiticheskoy khimii) PERIODICAL: Zhurnal analiticheskoy khimii, 1959, Vol 14, Hr 2, PP 161-166 (USSR) ABSTRACT: In the present paper a list of low-melting solid mixtures of extracting agents which are suited for work at various pH% values is given. The extracting agents mentioned %ere select- ed in connection with investigations of the extraction of iron (as FeC1_) and cadmium (as CdJ-). Iron and cadmium were 4 4 selected because the complex anions mentioned are stable in wide ranges of pH. The good values of the distribution co- efficients which were obtained for the two elements suggest that the extracting agents inver`4.ga~ed are suited also for the extraction of other elemei,ts an the condition thal they form easily extractable complex anions in the correspAding pH range. By using solid low-melting extracting agents the separation of elements is simplified because separation may Card 1/4 be carried out in a simple flask without using a separating  SOV/75-14-2-3/27 Low-melting Extracting Agents in Analytical Chemistry funnel. The following oxygen-containing solvents were inves- tigated in a mixture with approximately 25% paraffin: methyl- ethyl ketone, cyclohexanone, diethyl ketone, m:ethyl-butyl ketone, methyl-isobutyl ketone, propyl acetate, butyl acetate, amyl acetate, butyric acid ethyl ester, isovaleric acid ethyl ester, and benzoic acid ethyl ester. Due to the addition of paraffin all these compounds form solid or semi-solid mix- tures which become easily fusible already if the temperatures are only slightly increased. The mixtures described are suited for extractions from 0.1 N *o 18 N acid solutions. In the case of the extraction from 0.1 - 5 N acid solutions it is appropriate to add alkali salts o-f the corresponding halide which forms the anion complex in order to increase the distribution coefficient. Further, low-melting amines and mixtures of liquid amines with paraffin were investigated: a-naphthylamine, mixtures of dimethyl anil;'ne and paraffin~ an.51 of o-chloro aniline and raraffin. Thei~o mixtures are especially suited for the extraction from weakly acid solu- tions (pH 1.8 - 3-7). They are, however, 4asily oxidizable. Thus, e.g. by using these mixtures iroL Pannot be extracted because under the conditions oZ extraciion it is reduced to Card 2 4 the bivalent stage which cannot be extracted. All mixtures  SOV/75-14-2-3/27 Low-melting Extracting Agents in Analytical Chemistry investigated, the pH ranges of their applicability and the corresponding distribution coefficients for cadmium and iron are tabulated. A further table contains the applicability of the mixtures to the various pH-ranges: 1 - methyl-ethyl ketone 2 - cyclohexanone 3 - diethyl ketone 4 - methyl-isobutyl .3 P- -9 ketone 2M~ ~r. 4 5 - methyl-butyl ketone 40~~S ~ a- Z~4 -t, PH 1 40 - 6 propyl acetate 00 z ILS91 0.946. 8 40 42 A4 -16 At NT -butyl acetate equilibrium acidity 8 - ethyl butyrate a - a-naphthylamine 9 isoamyl acetate b - dimethyl aniline 10 ethyl-isovalerianate c - o-chloroaniline 11 ethyl benzoate The production of the extraction mixtures is described in Card 3/4 detail irr this paper. There are 3 tables and a references,,  SOV/75-14-2-3/27 Low-melting Extracting Agents in Analytical Chemistry 4 of which are Soviet. ASSOCIATION: Institut geokhimii i ana2bicheskoy k7aimii im. V. I. Vernadskogo AN SSSR, Moskva (Institute of Geochemistry and Analytical Chemistry imeni V. 1. Vernadskiy AS USSR, Moscow) SUBMITTED: PebruarY 3, 1958 Card 4/4  5.4ooo,16.7100 78.-17,37 sov/Bg-8-3-22/32 AUTHOR: Seryakova, I. V. TITLE: Symposium on Extraction Theory. News in Science and Technology PERIODICAL: Atomnaya energiya, 196o, Vol 8, Nr 3, pp 269-270 (USSR) ABSTRACT: The symposium on theory of extraction processes was held on December 3-4, 1959, at the(institute of Geochemistry and Analytical Chemistry imeni V. I. Vernadskly AS USSR (Inst1tut geokhtmil i analiticheskqr khimli Imeni V. I. Vernadskiy AN SSSR). The aim was to evaluate the most important problems of the extrac-41on theory. There were five pape-s on questions of chemistry and thermodynamics of extraction equilibria, on the influence of the nature of extragents and salting-out agents, on the composition of the extracted compounds and their interaction with molecules of water and -,he extragent. V. I. Kuznetsov reported on "The Chemistry of Extraction Processes," based on the theory of action Card 1/4 analytical organic reagents. He attempted to compa~re  Symposium on Extraction Theory. News 7833-1 in Science and Technology SOV/'89-d-3-22/32 Card 2/4 the tendency of ions to form extracting compounds with the quantity z/n of that ion, where z is the charge of the Ion, and n is the number of atoms in that ion K. B. Yatsimirskiy and M. M. Senyavin were critical of such an oversimplified approach. V. V. Fomin presen- ted a paper on "Extraction Equilibria," in which the investigated those chemical reactions in which the extragent participatEs in both phases. He notes that an element during the extraction process need not lose, its hydrophilic nature. A. A. Lipovskiy and V. A. Mikhaylov together with the author discussed the merits of the accepted view of the oxonium mecha- nism of extraction of elements. The paper by A. V. Nikolayev, N. M. Sinitsyn, and A. M. Shub1na, "Donor- Acceptor Properties of Extragents," deal'- with the influence of the nature of organic solvent on extrac- tion. According to their data, an increase in dipole moments augments the degree of element extraction. N. N. Basargin pointed out in the discussion that-in the case of elements having a tendency to build covalent bonds, the result may be just the opposite.  Symposium on Extraction Theory. Nevis 78337 in Science and Technology soV/89-8-3-22/32 Card 3/4 V. G. Timoshev discussed the decisive -role of dono-r- acceptor proper-ties of phosphorus-containing extragents. The salting out in extraction processes was investigated in the paper by 0. Ya. Samoylov and V. I. Tikh-omir-ov using statistical inquiry into the thermal motion of molecules. Basically, the explanation given took into account the dehydrating properties of salting-out cathions. A. A. Nemodruk pointed out during discussion that one should take into account also the anion concentration of the salting-out agent and other factors. A. 14. Rozer presented in his paper the u-e of thermodynamics in describing the extraction equilibria. Tt was'no-ed dqring discussion that many thermodynanic quanti-utes should be measured in tests at different temperat!.i'.-es. V. M. Vdovenko, A. K. Babko, D. D. Suglobqv, I. R. Krichevskiy, and A. A. Chaykhorskiy participated also in the general discussion. The symposium determined the main course of future investigations of the theory of extracting processes, in particular: to explain the reasons for the selectivity of the solubility of anor- ganic and organic compounds in various solvents,, to  Sumposium on Extraction Tfteory. News 78-33"1 in Science 9nd Technology SOV/89-8-3-22/3:2 expend the investigations of solvation, and part,-cularly' hydration of ions and molecules, to study further the chemism and thermodynamics of extraction equilibria; and to expand Inquiries determining the composit'-on and nature of the extracting compounds. The symposium recommended the establishment of a permanent seminar dealing with the tneory of extraction, The basic materials of this symposium will be published In 1960 by Atomizdat. Card 4/4  ZOLOTOV, Yu.A.; SERYAKOVAY I.V.; ANTIPOVA-KARATAYEVA, I.I.; KUTSEMKO, Yu.I.; KARYAKIN, Effect of the organic solvent on the formation of the tetrachlcro- ferrate ion during extraction of iron from chloride solutions. Ziur.neorg.khim. 7 no.5-1197-1203 My 162. (MIAA 15:7) (Iron) (Chlorides) -(Extraction (Chemistry))  SERYAYOVAj_J~N._._ Conference )n extraction in analytical chemistry. Zhur.anal.tekh. 17 no.2:269-27:L Mr-Ap '62. (MIRA .15:4) (Chemistry, Analytical--Congresses) (Extraction (Chemistry)  ZOLOTOV., Yu.A.; ~ERYAKOVA, 1.V.; KARYAKITN; A.V.; GRIBOV, L.A.; ZUBRILIKAJ, M.Ye. Hydrate-solvate mechanism of extraction. Dokl.AK SSSR 145 no.1:100-103 Jl 162. (MM 15:7) 1. Inst-itut gookhimli i analiticheskoy kbimil imeni V.I.Vernadskogo AN SSSR. Predstavleno akademikom. A.F.Vinogradovym. (Extraction (Chemistry))  S/83o/62/000/001/003/012 E071/E1921 AUTHORS: Kuznetsov, V.I., and akKXahova Iy- TITLE: On the mechanism of extraction of elements with oxygen-containing solvents SOURCE: Licstralcts iya; teoriya, primeneniyel apparatura. Ed. by A.P. Zefirov and 'N.M. Senyavin. I-loscqw, Gosatomizdat, 1962. 104-111 TEXT:. Using as an example the extraction of chloride anion of iron (111) with dimethylpyrone and cyclohexanine, the authors confirmed the oxonium inechanism of extraction of e leine nt s. Iron liras determined radiometrically using Fe59 'and at higher concentra- tion rhotometrically with sulphosalicylic acid, the concentration of chloride ion by tile Folgard method,'and of cyclohexanone by the hydroxylainine method. The experimental procedure consisted of shaking a solution of iron containing a given amount of hydrochloric acid and lithium chloride (total 1 ml) with a solution of the extracting agent in chloroform or toluene (I ml) and subsequent .-re-extraction of iron from the organic phase with water. By :corriparing the increase in. the solubility of cyclohexanone in the. Card 1/3  On the mechanism of' extraction of S/83o/62/000/001/003/012 E071/E192 aqueous phase with the degree of extractability of iron, it was found that the more extracting agent transferred into the aci(I phase, the higher was the degree of iron extraction. The I:Lmj.t of this Process was determined by the fraction of-dissolved cyclo- hexanone ~vhich is not the same for v, arious conditions. The maximum degree of extractior- and the maximum solubIlity of cyclohexanone were shifted towards higher acid concentrations in the aqueous phase. Such relationship between the degree of extraction of iron and the transfer of the extracting agent into ~he aqueous pha~Fe was explained by the oxonium cations, forming during the'inter- act-ton between the extracting agent and acid, and participating in the extraction. On extraction of iron, from solutions practically free from hytrochioric acid but containing a high concentration of lithium chloride, iron was extracted by oxygen containing solvents in the form of LiFeC14- 1,,'hen a part of the lithium chloride is replaced by hydrochloric acid (with the retention-of chloride ~on concentration), oxonium cation of the extracting agent is formed and part of the iro.i is extracted in Vie form of oxoniuni salt. This was confirmed by determining the dependence of the Li/Fe Card 2/3 a  on the mechanism of extraction ... S/63o/62/000/001/003/012 E071/B192 ratio in the extract on the acidity of the starting solution. A cor;iparison of the dependence of the extra,cting ability of dimethylpyrone and diethylether on the acidity of' the aqueous phase indicated that oxygen in dimethylpyrQne possessed a higher ability to coordination as it 'began to extract iron well at a lower acid concentra-tion. It was concludea that with o'xygen containing substances iron can be extracted in the form of oxonium salts. This is possible at such a-cidity, at wbich the extracting agent' used is able to form the necessary concentration of oxonium. cations. of tile extracting agents investigated, dimethylpyrone formed oxonium salts at the lowest acidity. There are 4 figures and I table. Card 3/3  07',~T". Sj'.-, _ - L 1. -C)V,& US F , . j . 7. L;~J; Y,~ P. I- V. Dctraction separation of vanadium and uranium. Ekstr.; teor., prin.,japp, no.2 -227--~'-Iq4 162. (MIRAI 25-0/) (Uranium.. -Analyals' (Vanaldium-Pralysis) .(&ctraction (Chem'istry))  SE.RyAK(,-jA J.V.; ZOLOTOV, Yu.A.; KARYAKIN, A.V.; GRIBOV, L.A-; ZaRILITIA yM.Ye . PossibilitT of the SolvatiOn of a tetrachloroferrate ion in the extra-ation of iron from chloride solutions. Zhur neorg. khim. 7 no.832013-2018 Ag '62. (MIRA i6:6) 1. Institut geokhimii i analiticheskoy khimii imeni V.I. Vernadskogo AN SSSR. (Ferrates) (Solvation) (Chlorides)  SERYAKO)VA,_I.V.; ZOLOTOV, Yu.A.; KARYAKIN, A.V.; GRIBOVI L.A. Hydration and solvation of strong acids during their extraction. Zhur.naorg.khim. 8 no.23474-480 F 163. (MIRA 16:5) 1. Institut rookhimii i analitichaskoy khimii imeni V.I.Vernadskogo AN SSSR. (Acids--Spectra) (Extraction (Chemistry)) (Solvation)  WLOTOVY Yu.A.; SERYAKOVA I.V ; KARYAKIN, A.V.; GRI~OV, L.A.; ZUBRILINAP M.Ye. - I ~- - In*&~ed spectra of some strong acids extractga with oxygen.'containing solvents. Zhur.neorg.khim. 8 no.2:481-486 F 163, Omu 16:5) 14 Institut geokhimii i analitic$ikoy khimii imeni V.I.Vernadskogo AN SSSR, (Acids-Absorption spectra) (Solvents)  SERYAKOVA, I.V.; ZOLOTOV, Yu.A. Extraction of Iron from solutions of chlorides of various metals. Zhur. neorg.khim. 9 no.1:187-189 Ja. 164. Extraction of a chlorides nemp-lex of iron from solutions af~perchlorjc and sulfuric Acidsl Ibu. O.W-195 (MIRA 17:2) 1. Institut geokhimii i analitidheakoy khimii imeni V.I.VernadEkogo AN SSSH.  ANTIPOVA-KARATAY-EI-VA, I.I.; ZOLIOIrOV? Yu.A.; SERYAKOVA, I.V. Spectropho tome tric study of chloride complaxes of iron, (112) In relation to the extraction of iron o-vjgen-conzaining solvents. Zhur, neorg. khIm. 9 no.7;1712-1'119 JI 164. (MIRA 17.-'~~) 1. Institut geokhiinli I. analiticheskoy khimii imeni Vernadskogo AN SSSR.  SERYAKOVA, L.P. Determination of evaporability and calculations of irrigation rates. Izv. AN SSSR. Ser. geog. no,6:112-117 N-D '57. (MIRA 11:1) 1. Loningradakiy gidrometeorologichookiy institut. (Irrigation) (Evaporation)  SERYAKOVA, L.P., Dand Geog Sci -- (diss) "Determination of ev4porability and study of the effect of climatic factors :-))-~bn irrigation norms." Len, 1959, 10 pp (Main Administration of the Hydrometerological Oervice under the Council of Ministers USSR. Main Ueophysical Observatory im A.I. oyeyhov) 150 cof-ies M, 33-59, 117) 12 -  GALIPERIN, B.M.; SERYAKOVA, L.P. Scattered and total solar radiation under various conditions. Trudy GGO no.152:96-109 164. (MIRA 17:7)  -7- GW L 12989-66 En(l) ACC HR, AR6000801 SOURCE CODE: UR/0169/65100010091BO220023 SOURCE; Ref. zh. Geofizika, Abs. 9B187 C/ AUTHOR* Gal ?Cp/ M Se er rvakova. L . P, 'TITLE: Basic characteristics of short-wave radiation and diuznal radiati balan on ce CITED SOURCE: Tr. Leningr. gidrometeorol. ifi-ta, vyp. 22, 1964, 11-34 TOPIC TAGS: solar radiation, optic albedo, solar radiation scattering TRANSLATION: The authors consider time and sprace variabilityi h intensity of ,T~ t scattered and total solar radiation and the radiation balanceN foOge snowless peri- od (from April to October). The bas1c materials for the work were data frcm analy- .$Is of routine actinometric observations from several groups of stations in various~ regions of the Soviet Union (northwest, central and southern European sections, far east and middle Asia), as well as previously published data. The short-wave radia- and radiation balance is consi&red-for all regions under clear, partly cloudy and low overcast conditions.. Data from individual: climatic regions only was used iwhen cloudiness was less than*10 points. Data for each month was used to analyze Card 1/2 -5.51.521   VARVARGY, N.A.; WBRONRAVOY..V.V-, profoosor, doktor fisiko-matemati-cha- *ikb. nauk; KIRKULOT, I.A., inzhsnft~-koustruktor; SZRTAPIW,.,A.D. laureat Stalinskoy premii; STAIMMOVICH, K.P., professor, dokUdir teklinichaskikh nauk; KHLKVTSEVICH, Yu.S., kandidat tekhnicheskikh nauk; SHTERNFELID, A.A., laureat mezhdunarodnoy pooshchritelinoy premii po astronavtika. &route to the stars. Tekh.mol. 22 no.7:1-7 J1 154. 1. Predeedatel' sektaii astronavtiki pri TSentrallnom aeroklimbe SSSR imeni Chkalova (for Tarvar! or). 2. Zamestitell predsedstelia armqhno- tekhnicheskogo komitsta. pf kosmiclaesk6y navigatsit, sektAis-astio- navtiki (for Dobronravov'j. 3. Predsedatell nauchno-tekhnicbeskogo ko- miteta po raketnoy takhnike, sektaiia astronsytiki (for Herkulov). 4. Predoedatell nauchno-takhnichemkogo komiteta po biologii kommiches- kogo poleta, sektsiia astronavtiki. (I So _ in). 5. Chlen nmohno- . or pl_ryap takhnichaokogo komitata po astronomichesicim f-TTUicheskim proble (for Stanyukovich), saktaiia asti,onaytiki.6. Predesdatell nmichno-tekh- nicbeekogo komiteta po radio-telaapravloniyu (for Khlebtsevich), sek- taiia, astronavtiki. ?. FWasdatell nauchno-tekhnichookogo komitets po koamicheakoy navigs-3ii (for Shternfelld), saktails astronavtiki. (Interplanetary voyages) (Space ships) OCEMA ?:6) -7Z.-A~ qobOca-  VOU111111, Yu.M.; YAZDOVSKIY, V.I.; G~MN, A.M.; VASIL'YE11, P.V.; GYvURDZHIAN,, A.A.; GUJOVSKIY, N.N.; GORBOV, F.D.; SERYAPIN. -A.D.; B-MM, *T.Ye.; BAYEVSKIY, R.M.; ALTUKHOV, G.V.; KOPATTEV, V.I.; Y-A-SOYA11, I.I.; YE30ROV, A.D.; SILIVESTROV, M.M.; SMPUYA, S.F.; TERMITIYEV, V.G.; KRYLOV, Yu.V.; FOMIN, A.G.; US~AKOV, A.S.; nF('YkREV, V.A.; VOLOVICH, V.G.; S 5 TEFANTSCV, V.I.; NfAS11iAOV, V.I.; YAZDOVSKIY, V.I.; USHIS, I.S., tekhn, red. (First space flights of man; the scientific results of the L-.edicobiological research conducted during the orbital flights of the spaceships "Vostok" and 'Vostok-2"]Fervye koumicheskie polety cheloveka; nauchny rezulltaty mediko- biologicheskikh issledovanii, provedennykh -,ro vrev_ia orbi- tallnykh poletov korablei-sputnikov "Vostok" i "Voatok-2.1, 1-!oskva, Izd-vo Akad. nauk SSSR, 1962. 202 p. (IMIR-4, 15:1111' (SPACE NEDICIDE) (SPACE FLIGHT IRKMING)  ,:/Z,'65/62/001/000/015/033 A* 1 5 %1ITHORS: AnLipo%~-* V,V., Onyovskiy. R.M., Gazcnico, O.G., Cciii.i, A.N., Gvurdzhian, A.A., Zhukov-VcrQZhnikov. N.N., Zhuravlev, B.A., ;~arpova. L.T.,T-,-r-f-enov, G~-l ~,~ Scryapin, A.D., Shopelov, Yv.Ya., YnzdQvskiv, V.I. TITLI,: Sonic re.-tu).ts of wedical -.kiiid biological investigations in the second and third satelLites Sc Ed. by '(11!C'-" Problemy 1cosinicheskiy biolorii. v.1. N-~i.Sisakyan. Voscusir, "zd-vo Mv sssrt, 1.962. 267-2814 'E"XI The maiii.teriance of life conditions is discussed with pecial reference to the second Soviet satellite. During the flight the proportion of oxygen in the air of the cabin could be ii:aintaincd at 21 to 24~',, whereas the relative humidity rose from 16 to 190C. Water and 37 to 47',;- The temperature ranged froia food were provided together in a inixture solidified with agar, in order to facilitate automatic dispensing in conditions of weight- lessness. This was carried out twice daily by command signals from 7arth' Telemetric rucording of the physiological parameters of the dogs Belka and Stralka during space flight showed tho Card 1/2  S/865/62/001/000/015/033 results of medical ... E028/E185 Occurrence of tachycardia as a result of ace-aleration, noise and %-ibration; there was also a rise in the respiration rate: ;a return LO rior'A,il i)2-e-flight vjluos occurred during the condition of w(::~7;ILIess-IOSS. :ovements a[' the animals %,rero observed by cvision caincras and also by po tent ionic tric sensors mounted in !)'Il*-,I'.ss. No abnormalities were observed in the behavior of after return to earth or during the following 3 months. i Wal cor'Cluded. from the experiments carried out in the second that dogs could readily be accustorned to space flight I':; lm'i t i Oil S .(.1,C11CLIC changes were noted in the progeny of L pLaiit seeds and fruit flius after return trom space ~-;I The third space satellite contained two dogs (Pcholka Livo guineapigs, two rats, twenty six mice, fruit flies, o*.hcr biological miaterials which we-e included in order effects of cosmic radiation. The results are not   BAIA KIIUV-S T-TY, I.S.; GAZENKO, O.G.; GYURI)ZHIAN, A.A.; GENIN, A.M.; KOTOVSKAYA., A.R.; SFRYAEj&--A,,D.; YAZDOVSK1Y, V.I. Results of investigations in an artificial satellite. Probl. kosm.biol. 1:359-370 162. NIRA 15:12) ,(SPACE FLIGHT-POSIOLOGICAL EFFECT) I . ;IIi  VOLYNKIN, Yu.M.; YAZDOVSKIY, V.I., prof.; GENIN, A.M.; GAZENKO, O.G.; GUROVSKIY, N.N.; YEMELYANOV, M.D.; MIKHAYLOVSKIY, G.P.; GORBOV, F.D.; SERIALIT A 0.; BAYEEVSKIY, R.M.; ALTUKE;OV, G.V.; KOPAM, V.L, KASIYA11, I.I.; ~EASNIKOV, V.I.; TERENTIYEV, V.G.; BRYANOV, I.I.; FEDOROV, Ye.A.; FOMIN, V.S.; ARUTY73NOV, G.A.; OTIFOV, V.V.; KGTOVSKAYA, A.H.; KAKURIN, L.l.; TSELIKIN, Ye.Ye.; USHAKOV, A,S.; VOLOVICH, V.G.; SAKSONOV, P.P.; YEGOROV, A.D.; NEUMYVAKIN, I.P.; TALAPITI, V.F.; SISAKYAN, N.M., akademik, red.; KOLPAKOVA, Ye.A.., rod.izd-va; ASTAFIMA, G.A., tekhn.red. [First group space flight; scientific results of medical and--biological studies carried out during the group orbital flight of manned satellites "Vostok-311 and "Vostok-4] P6rvy~,..gruppovoi kosmicheskii polet; nauchriye rezulltaty mediko-biologicheskikh issledovanii, provedennykh vo vremia, ffruppovogo orbitallnogo poleta korablei-sputnikov "Vostok-3t' i "Voskot-4.11 Moskva, Izd-vo "Nauka," 1964. 153 p. (1,111IRA. 17:3)  VOLY14KI21, Yu.M.; ARUTYUITOV, G.A.; ANTIFOV, V.V.; ALTUKHOV, G.V.; BAYEVSKIY, R.M.; BELAY, V.Ye.; Zjy-00V, P.V.; BRYA1,10V, I.I.; VASILtYEV, P.V.; VOLOVICH, V.G.; GAGARD, Yu.A.; GEVII!, A.M.; GORWV, F.D.; GORSHKOV, A.I.; GUROVSKIY, N.N.; YESHANOV, N.Kh.; YEGOROV, A.D.; KARPOV, Ye.A.; KOVALEV, V.V.; KOLOSOV. '.A.; KORESHKOV, A.A.; KA91YAN, I.l.; KOTOVSKAYA, A.H.; Y411BERDIN, G.V.; KOPANEV, V.I.; KWIMI1~;OV, A.P.; KAKURIN, L.1 ; KUDROVA, H.V.; LEBEDEV, V.I.; LEBEDEV, A.A.; LOBZDI, P.P.; MAKSIMOV, D.G.; MYASNIKOV, V.I.; NALYSHKI11, Ye.G.; NEUMYVAKIN, I.P.; ObISHCBENKO, V.F.; POPOV, I.G.; PORUCHIKOV, Ye.P.; SILIVESTROV, M.M.; SURYAPI11.,-A.D.; SAKSONOV, P.P.; TEREFiTlYEV, V.G.; USHAKOV, A.S.; UDALCV, Yu.F.; FOMIN, V.S.; FOMI11, A.G.; KHIEBNIKOV, G.F.; YUGAITOV, Ye.M.; YAZDOVSKIY, V.I.; KRICHAGIN, V.I.; AKULINICHEV, I.T.; SAV111ICH, F.K.! STMPURA, S.F.; V0SKH9SENAIY, O.G.; GAZENK01 O.G., SISWANO N.M., akademik, red. [Second group space flight and some results of the Soviet astronauts' flights on "Vostok" ships; scientific results of medical and biological research conducted during the second group space flight] Vtoroi gruppovoi kosiicheskii polet i neko- torye itogi poletov sovetskikh kosmonavtov na korabliakh JIVostok"; nauchnye rezu-11taty riedikobiclogicheskikh issledovanii, provedennykh vo vremia vtorogo gruppovogo kosmicheskogo poleta. Moskva, Nauka, 1965. 277 p. (MIRA 18:6)  5/90~J62/000/000/1337/044* B102/B234 AUTHORS: Osokina, R. M., Re Y G 121 123 TITLE; Photoprotons from 8b and Sb SOURCEt Yadernyye reaktsii pri malykh i arednikh energiyakh; trudy Vtoroy Vaesoyuznoy konferentsii, iyull 1960 g. Ed. by, A. S. Davydov and others. Moscow, Izd-vo AN SSSRtl962t 504-50i TEXT: The great effect of the nuclear shell structure on the nuclear photoj~.'-.. effect has already been observed in thj closed-shell region Z = 28. 'It is 121 123 now investigated for the Z . 50 region. -The isotopes Sb and Sb whase._-', photoproton energy spectra and angular distributions were,measured differ-' as regards the state of the I'valency protons" abave the closed shelli for- 121 Sb it is in the 2d state and for Sb in the-19 state. The contri- 5/2 7/2 bution of the valency protons may be estj;mated from the,difference of the 121 spectra. The target a used for the measurements were enrichedin Sb to 123 95.5% and in Sb -to 81-5%- The method,of measuring was the same'a Card 1/2  7 /963' 6910661~ 1164 121 123 ~4 Photoprotors from Sb* - and Sb 3234 described here o'nPage 498. The targets were again exposed to bremsEttrahlurg Mev) -f row the FIA11 -synchrotron and. max 19 5 -the,protons- recorded with: e'phot o- nuclear omul3iona. The baokground,was separately determined. Th proton yield ratio was' for Bb 11211--S123 - (1,2+0 3) b The. cnergy Elpea ra 121 of the protom differ greatlyt for Sb it has a flat -and broad. maximuz 123 bet,,,ieen 5 and 6 Mev, for Sb it hasa high peak-at j 5Mev and perhapsa cond smaller peak a4' v7 Mev and then iti,drops continuously ands formsa se :7~ SMall high-energy tail. The angular distributions- are isotropic- for ~low_-;~- t- energy protons and have a flat maximum between ao-iooO.1 for E >- 7 Meir whichi -P Bb 12 3, il .. 13 somewhat higher for Th3 investigations are still,'prooeeding, There are 4 figures ajad 3 tables. 'SSOQIATION; FizioheE;lc.--'y institut ims F~ N. Lebedeva.AN SSSR (Physics -A Institute imen17p.-N. Lebedev jsR):-- Card 2/2  _(I)JFa(m)A/UJPW/= - -I.7P(r-) AT/.in ACC NR: AR6004654 SOURCE CODE: dR/O275/65/OOO/O1O/B0O1/'_=O02 AUTHOR: Karasik, Ye. A.; Seryapi4a..N. V... T--'!-.LE-. Electrical propertles of epItaxial/p-n junctions SGURGE: Ref. zh. Elektronika i yeye primeneniye, Abs. 1OB9 REF SOURCE: Sb. Vychisl. sistemy. Vyp. 15, Novosibirsk, 1965, 133-138 TO?IC TAGS; pn junction, epitaxial Junction, QR semiconductor gei,-,=ium ABSTRACT: P-n junctions obtained by epitaxial building up of single-cryst'.11 p-Ge on an n-Ge backing were investigated. The junction thickness was determined by means of an oblique cut of 10, with either a thermal probe or visually (by electrolytic atchina in a 10~6.KOH solution). A square-law relation between the charge capacitance and the bias voltage, which correspondedto an abrupt junction, was observed. The I-V characteristics measured within +25 -196C revealed considerable reverse currents even at a low negative bias which may be associated with a high derwity of structural defects in both the film and the backing. The forward-current vs. bias-voltage plot is exponential, I - exp qv/p kT; 0 r- 6 at 20C. At voltages 0.7-0-75 v, an inversion of forward-current vs. teuperature relation was observed which agrees with the theory of p-n junction at high injection levels. Bibliography of 6 itles. V. F. (Translation of abstract] SUB CODE: 09  ILOIN, Ye.M.; SERYAYEV, V-A- .-MWOMMMEMWONNOW "Supple"- system honing and lapping heads. Stan.i instr. 28 no.4: 26-29 Ap '57- (GrindIng machines) MRA 10:5)  ACC NRi "-AT6023380 SOURCE,CODE t'- Ui/0000-/65/000/000/0044/0049:. AUTHOR: Seroyeznov, A. N. (Novosibirsk) ORG: none VVN TITLE: Measuring thermal electromctive force in the presence of noise SOURCE: Vsesoyuznaya konfe-,entsiya.po avtomaticheskomu kontrolyu i metodam elektri- cheskikh izmereniy. 5th, Novosibirsk, 1963. Avtomaticheskly kontrol' I metody elektricheskikh izmereniy; trudy konferentsii. t. 1: Hetody el~ktricheskikh izmereniy. Tsifrovyye izmeritel'nyye pribory. Elementy izmeritel'nykh sistem (Automatic control and electrical measuring techniques; transactions of the conference. v. 1: Electrical measuring techniques. Digital measuring instruments. Elements of measuring systems).. Novosibirsk, Izd-vo Nauka, 1965, 44-49 TOPIC TAGS: thermal EMF, thermocouple, signal noise separation, interference reduction, interference immunity ABSTRACT: A study is made to determine the best methods of measuring thermocouple voltages in the presence of common mode interference and noise due to the difference in potentials between the ground points of thermocouples and the measuring instruments In tests involving 5 types of thermocouples (length, 10m; wire diameter, MGM) It was established that the noise say attain 390pV. The ground loops contribute a major portion of the noise. The author recomimends four sethods of noise control. 1) Utill- Card 112  NRt AT6023380 zation of a compensating transformer betvaen the three-terminal thermocouple and the measuring instrument. The transformer ccnnection is such that the noise in one them( couple arm will upon transformation tend to cancel the noise originating in the other am. The maximum.possible common node riajection by this method is 80db. 2) Utiliza- tion of a sampling capacitor which is swLtehed back and forth between the thermocouplA and the measuring instrument. Since the instrument is always completely isolated from the thermocouple, the noise causedby gr)und loop voltages will be reduced by 140db. 3) Utilization of a bridge circuit which say reduce the noise by as such as 60db. 4) For practical situations when both noise sources are present, the O"t effective method*is to use a combination of the first two circuits. In this case. the noise level may be reduced by as such as 180db. Orig. art. has: 1 formula, 2 tables, and 8 figures. SUB CWEOO,09/ SUIN DMs 2OSeo5/ ORIG UY: 004/ OTH RV: 002  L 632-50-65 Pf-4 GS ACCESSION NR: AT5013046 UR/0000/64/99Z100010171/017T :~AUTHOR: Serlyeznov, A. N. (Novosi&r'84 TITLE: Method of temperature measurement under high noise cbnditionfi SOURCE: Vvsesovuzn'aya konferentsiya po avtomaticheskomu kontrpipA, i metodam ektricheskikh lzmereniy. 4th, Novosibirsk, IVZ. Avtomaticheskiy kiintroll U t-j metcdy eleklricheskikh izmertuAys, trudy~konferentsiy, t. 2: Tgoriya 11zmeriteI'nYkh info r ma'tsi onnykh siste M. L-,i*aterny,a~,toma-tichegki)gokontro~ya.-. Elektricheskiye izmerqniya neelektricheskikh velichin lAutowatic control and electrical measuring teFliniquess, transactions of the conferenci3, v. 2: 'rheory of information measurement systems. Automatic control systems. Electrical - -- -------- Wkisiliirsk- -Rddizdat-Sib.--otd---- easurements o" nonelectrical quantifies 6 IAN SSSR, 1964, 171 -;1771. TOPIC TAGS: three electrode. therrnoc6uplei temperature. measuren body- ;ABSTRACT, The problein of rneAsuring-- the -temp rature--oi-    fie'; C=- irl Ma&suring  Uaing electric welding for reconditioning main rods. Zhel. dor. tranap. 37 no.8:72-73 Ag '55. (MIRA 12:6) l.Inzhener aluzhby lokomotivnogo khozvaystva Yugo-Vostochnoy dorogi, Voronezh. kIlocomotives-Volding) .4  AP6032512 SOURCE CODE: UR/0413/66/0001017/0084/0084 ~2 I-NVENTOR: Scr'y_e~~noy N..; Skotnikov, A. A. ORG: none TITLE: Device for measuring deformation under conditions of changing tempera-! kures. Class 42, No. 185533 TA SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 17, 1966, 84 TOPIC TAGS: strain gages, measurement, deformation, deformation measurp!~er resistance strain gage, temperature variation ABSTRACT: A device (see Fig. 1) is described for measuring deformation under conditions of changing temperatures. It consists of a measuring unit, working and "-irain ages (attached, respectively, to the investigated compensation resistance-S &~.g_ object and a plate made from the same material as the object), a differential thermocouple, a temperature regulator, and a unit which supplies electric current to the plate with the compensation strain gage. Deformation experienced at the Card 1/ 2 UDC: 531. 781. 2:539. 3:621. 317. 39-555. 621  IW334-67 ACC NR: AP6032512 moment of minimum temperature difference, between the working and compensation strain gages, is measured by an electron comparator circuit which connects the temperature regulator to the measuring unit. Fig. 1. Deformation measuring device I-Operating strain gage; 2-compensation strain gage; -3 and 4 -thermocouples; 5-measuring unit; 6-temperature regulator; 7 -electronic circuit SUB CODE: 14/ SUBM DATE: 25May65/  Automatic emergency system for switching on turbine pumps. Sakh. prom. 35 no.6:r2-53 Ag 161. (MIRA 14:8) 1. Sakharnly R"d B leshe*W.- (S:;r iLtstry-Equipment and suppliex), (Pumping machinel-y-Electric)  80313 00 sov/81-59-7-23605 Translation from: Referativnyy zhurnal. Khimlya, 1959, Nr 7, p 283 (USSR) AU'PHOR: G.M Seryk~ __ low TITLE: The Problem of the Heat ConduatlVlty~of Porous Materials PERIODICAL: Izv. Tomskogo politekhn. in-ta, 1958, Vol 101, PP 59 - 70 ~ ABSTRACT: The effective heat conductivity A of a solid 2 11 ef .2roiks body was investigated with allowance made for tJ.3 heat trans- r in the pores by convection, heat conduettivity and radiation. The experimental data were analyzed on the basis of the theory of similarity, and the follow-ng equatlon was derived% 7L C + A r ) LJ + ?L (1-Hml' - ~0), ?L ef cond. mean cond. mean 0 where 7t 0 is the mean value of the conditional coefficient 0 e d a 4 ndu mecing allowance for the hea-c transfer in the aTyv yty of heat co is the mean value of the pore by heat conductivity, ?L r on conditional coefficient of heat WueNeivity making allo;~ance for Card Card 1/2 the heat transfer in the pore by radiation, 2L 0 the heat conductivity  65997 J4 I/. S:;.')- 0 0 SOV/81-59-8-27701 Translation from: Referativriyy zhurnal, Khimlya, 1959, N:~ 8, pp 308 ~- 309 (USSR) AUTHORS. Ser7kh, G.M., Ponomar-ev, O.A. TITLE: On the Analytioal Solution of the Plane Problem of Heat Conduc-civityy of Porous Bodies4i PERIODICAL: Izv. Tomskogo polltekhn. in-ta, 1958, Vo3 1011, pp 71 - 75 ABSTRACT- Based on the assumption that the _rores do not conduct heat at all, and under the condition of the absence of heat propagation over the thickness of the plate, the equatlerv has been derived-, ef (1- -rm) (1 + 0.35 m), where ?L ef is the heat conductivity of the plate, X M is the heat con- ductivity of the material of the plate, m Is the porosity of the plate. V, Gertsovsk-iy Card 1/1  9KP.=-y G. M.: Master Tech Sci (diss) -- "The problem of thermal conductivity of porous ma-tarials". Tomsk, 1959. 9 pp (Min Higher Educ USER., Tomsk order of Labor Red Banner Pol,7tech Inst im S. M. Kirov, Chair of Theoretical and Gen Hoat Engineer- ing), 1.50 copies (KL, No 15, 1.959, 117)  -MtrO, G.M. Relationship between plane and volvme porosity, Izv. vyS ucheb. zav.; fiz. no.6:167-168 160. WRA 14:3) 1. Tomskiy politekhnicheskiy inutitvt imeni S. M. Kirova. (Porosity)   77 7-t. e S rw~ TME: The effect of vibration on 'jest transfey, -~ta, v. 1, 1962, 19-22 CITED SOURCE: 1zv. Kurganskogo mashinostroit.in TOPIC TAGS: vibration, oscillation, beat transfer. heat exchangey Reyno) de number TRANSLATION: An experimental investigation was conducted of the influence of the frequency of transverse oscilletions of a tube put In a basin vith Vater on the*. lificient of tbermal transmission from the surrounding water to tbe.liquild Coe which penetrates inside the tube. The amplitude's of escillations of the tube were equal to 5 I'm, the frequency of oscillations was varied from 50 to 1500 cycl9s in I minute. The studies conducted in the range,of Reynolds numbers from 3-10- to 4*10 showed that the author's experimentsagree vilth the experiments of fWtinelli and Bolter (Martinelli, B.C., Boeherp L,H.X9 Rest* Pipiq; and   SERYXH, H,M., aspirant Studying internal pancreatic secretion in calves as related to age and feeding. Izv.TBMih no.6:161-172 159. (CALVES) (PANMEAS-SICUTIONS) (KM 13:6)  SERYKH, M.M.,aspirant Effect of the physiological condition of calves on their pancreatic secretion [with summary in English]. Izv. TSKhA no.5:210-215 160. (MMA 13:11) (Pancreas--Secretions) (Calves)  ZHEREBTSOT, P-le., doktor biolog.nauk, proft-, S MH M.M. kand.biolog.nmu Changes with age In the external secretion of the pancreas in calves as related to the live veight and chemical composition of food raiions. Izv.TSIM no.4:214-217 162. (MIRA 15:12) (Calvas-AAAing and feeds) (Pancreas-Zecretions)  31 -sii parcs-lov;-kh ustarovok, izzvestiya 660/1-. Serl,~;h, 14. Voz7,ozhncsti r.--;ts4,crzliza4,, 3'3 H alcad. -,;---,-Lik latv. F 1 1 ,, 111o. 10, c - 77-88 SO- Letonis' Zhurnaltyi-ftli Statey, Vol. 50, I-Ioskra, 1949  SERYKHY Vj.; YASHCHENKD,,N.Ya. Porphyroblastic granites of the Zerenda Massif (nqj thern Kazakhstan).. lzv.-AN SSSR Ser. geol. 28 no.9:34-4~S 163. (mmk 16: io) 1. TSentralln'o-Kazakhstanskoye geologicheskoye upravlenlye, KaxAganda-,  GABOV, Yu.A.; SERYKH, V.I.; MIKRAYLOVA, Ye.K. Rafnium in zirconiuum from granitoids in the Zerena Massif. Izv. AN Kazakh. SSR. Ser. gaol. 22 no-4:65-68 JI-Ag F65. (MIRA 18:9) 1. 'JSentxallnc-Kazakhstanskoye geologichaskoye upravleniye, g. Karaganda.  ~ ---;, -1 ;-" ;-l 11 v: ' ; ,!'I . I ;: . ;- '-~ FT. Y ?M S, V . -" . , i,~ ul. ru , r . ~'. . mc~"s containing nagnetite. Zap. Vaes. mir. ob.-va ("', '65. (MIRA 18?12'j  OBREZKOV, V.I., kand.tekhm.nauk; SMSHFVq A.I.9 :Lnzh.; CRELNOKOV, N.I., inzh. Using continuous calcUlating machi!jes for water-power calmaationse Gidr,stroi-31 no.2:40-42 F'161. (HERA, 14:3) (Electronic calculating machines)(lydraulics--Tablesse-deu:Lations,ste.) ~t7lq  SERYSHET, A.L., assistent Calculation of hydroelectric power engineering problem using electronic analog computers. Trudy WI no-35:125-134 161 , I - (AURA 15:12) (Hydroelectric power stations) (Electronic analog computers)   A'(5), SOV/2o-127-3-55/71 AUTHORSt Ly,enko, M. P., Seryshkov, 0. S. TITLE: Some Recent Data on the Composition and Properties of Buried Loess Rocks of South-Ukraine PERIODICAL: Doklady Akademii nauk SSSR, 1959, Vol 127, Nr 3, pp 669 - 672 (USSR) ABSTRACT: The buried horizons enriched with humus existing within the mass of South-Russian loess have been -insufficiently investigated. The formations vary with regard to genetic relations. In addi- tion to the buried soils as such they comprise accumulations of erosion products of humus material (dislocated soil), accu- mulations of organic substances from subsoil water, etc. In general, these levels are used for determining the stratigraphy of the loess masses of individual regions. The results of the investigation of the substance and fraction composition as well as the physico-mechdnical propert-'es of humus from the divide Dnepr-Ingulets are described in t~.is paper. The geological struc- ture of this divide consists of crystalline pre-Cambrian Tertiary Card 1/3 sediments a-d quaternary loess rocks. It is difficult to di-  Some-Recent Data on the Composition and Properties of SOVI/2o-127-3-55/'71 Buried Loess Rocks of South-Ukraine stinguish the genetic horizons in buried soils except 'Whe carbonate stratum, The investigation is so difficult because their morphological appearance, composition, and their salt con- tent are mainly secondary and connected with diagenetic -pro- cesses. Thus the investigation of the fraction composition seems to be the most reliable method for the determination of the soil type. The humus composition varies with the soils. It varies according to the zones as do the soils (Ref 4). Humus is a . very resistant substance and it is comparatively difficult and takes very long time to change.it chemically (Refs 3,4,N. A. V. Baranovskaya advised the authors- during the investigat ions. Tables 1-4 show the investigation results. They show that the assumption that buried soils are zones of probable disl9cations and are less solid than loesses is not right. There is only little humus in buried soils. It lost most of its colloidal nature by aging and other diagenetic processes, The properties of the buried soils investigated differ hardly from the loesses upon which these soils immediately rest (except the plasticity indices of the ..-econd buried soil). There are 4 tables and 5 Card 2/3 Soviet referen,;es.  Some Recent Data on the Composition and Properties of SOV/2o-127-3-55/71 Buried Loess Rocks of South-Ukraine ASSOCIATION: Leningradskiy gosudarstvennyy universitet im. A. A. Zhdanova (Leningrad State University imeni A. A. Zhdanov) PRESENTED: March 9, 1959, by D. Ye. Nalivkin, Academician SUBMITTED: March 6, 1959 Card 3/3  1. SE, dYUGI~,'A, 111. A. 2. USSH (6oo) /+. Food Adulte.-ation and Inspection 7. 7~:*1--ee yearstwork of the cintrol food division of the laboratory of the KE;I-inin municipal sanitlatiun and epiderniologic~,.l st:-Aion., Gig. i san., 17, No.10, .11-)52 9. 11onthly List of Russian Accessions, Library of Congress, Fehru-" -19G3, Unclassified.  SERYUGIIIA, M.A. Veterinary inspection of neat at 'k,-hn meat, mirk, and meat prod- ucts control station of Kalinin. Veterinariia 36 no.10:10-2.5 0 159. (MIBA 13: 1) 1. ZaveduyuAchaya myano-molochnoy i pishchevoy kontrollnoy stantelyey, g,Knlinin, (Kalinin--Meat inspection)  RADCHENKO, D.; SOYNIKOV, F.; SERYY, G. [Siryi, H.] Wide poultry house with over-all mechanization on the IllUzhnyi" state farm. Sill.bud. 12 no.4s6_9 AP 162. (~M 15:8) 1. Glavnyy inzh. sovkhoza "Yuzhnyy" Krymskoy obl. (for Radchenko). 2. Glavnyy zootekhnik sovkhoza "Y,.Izhnyy" Krymskoy obl. (for Soynikov). 3. Glavnyy inzh.-melchanik sovkhoza "Yuzhnyy" Krymskoy obl. (for Seryy). (Krymskaya Province-Poultry houses and equipment)  SE~i-flf, lj~,r' ~~rge7evich; CPICHYV, Yu.I., red. kT ( I..Iqslj--, I,,: 4n-Arimients in repair shop3l 1 47 oauges ara . - z 1, . 1- irstrument i pribory v remontnoi master- - !,- , -"L , ~l -, ~, . "o-;Irva, Kolos, 196-4. 83 p. (MILI 17:12)  SE 1-11 ~),Vj\(UjjbVtC[N ,9/14J+/60/OOO/02/Oo6/ol9 E194/E155 AUTHORS: Seryy; I,& Aspirant; and Yanko-Trinitskiy, Db-cto-r-of-Tychnical Sciences, Docent, Head of t7e-1thair. TITLE: A Practical Method of Checking the Dynamic Stability of Synchronous Motors in Drives with Shock Loading PERIODICAL; Izvestiya vysshikh uchebnykh zavedeniyj Elaktromekhanika, 196o, Nr 2, pp 52-60 (USSR) ABSTRACT: Ila recent years synchronous motors have come to be widely used, even in drives with shock-loading. For example, synchronous motors without flywheels are used to drive rolling mills in which shock-loading may increase the torque to 3 - 31 times the r.m.s. value. The motor must take up all these shocks without assistance from a flywheel. The problem of the overload capacity of a t,// synchronous motor, making allowance for its dynamic properties, is esseiitially a problem of its dynamic stability on shock-loading. This is a very complicated function of time7 as typified by Fig 1 which is part of C;_rd the load diagram of a five-stand sheet mill. The dynamic 1/6 stability in the case of a single shock load of rectangular wave shape is then considered. The  1 L-4/6o/ooo/Woo6/oig E19VE155 A Practical Method of Checking the Dynamic: Stability of Synchronous Motors in Drives with Shock Loading corresponding torque/time diagram is shown in FJg 2a. With this type of loading, the dynamic stability of a synchronous motor may be represented as a graph of the maximum torque against the time for which it is applied. The corresponding formulae are given by expressions (1), (2) and (3). As the shock load comes ong the terminal voltage on the machine may fall, further reducing the dynamic stability. The curve of maximum torque against time can only be used to check the dynamic stability when the load curve of the motor is a series of rectangular shocks of varying magnitudes and durations separated from one another by intervals long enough for the eleetro- mechanical transient processes set up by the previous shock load to die down. A diagram of this kind is obtained in a single-stand mill when rolling strip in several passes and is illustrated in Fig 3. Load diagrams of non-reversing rolling mills are more complicated and represent a combination of the four types of load.curves illustrated in Fig 2. In this case2  6/144/60/000/02/006/019 9191+/9155 A.Practical Method of Checking the Dynamic Stability of Synchronous Motors in Drives with Shock Loading Eq (1) may be used to check the dynamic stability of the motor only after the influence of the nature of -the motor load curve on the curve of maximum torque as function of time applied has been allowed for. It is difficult to calculate this coefficient but when it has been done and introduced into Eq (1) it takes the form of expression (4). The load coefficient is best determined ex*oerimen- tally on a model of a synchronous motor for the kour main types of loading shown in Fig 2,, These various cases are considered and compared, to see which is the most severe. Usually) load curves have one or more torques that exceed the maximum static torque, and others which are smaller than it. Such load curves are not specially severe, even if the interval between shock loadings is less than 1 second. Therefore, for the majority of load curves encountered in practice7 the load coefficient may be taken as 0.85 and then expression (4) may be used to Card check the dynamic stability. This is done by constructing 3/ 6 a curve of the additional torque as a function of its time of application, using Eq (4), and checking that the  9/144/60/000/02/006/019 F.19VE155 A Practical Method of Ghecking the Dynamic Stability of Synchronous Motors in Drives with Shock Loading load-curve torques which exceed the maximum static torque of the motor are not greater than the termissible duration of such torques. Expression 4) involves the characteristics of the motor and the flyvheel effect of the load, but as such data are soldom available it is desirable to modify the expression. For large machines the magnitudes entering into expression (4) vary over quite narrow limits and by accepting mean values, Eq (8) is obtained. The aoove recommended method of calculating the dynamic stability of a synchronous motor was checked by tests and calculations. The tests were made on a rig representing a continuous single-stand mill operating with the load curve shown in Fig 3. The r.m.s. power-was 9.4 kW, and the motor characderistics are given; its rated output was 15 kVA and its speed 1500 r.p.m. The check on the dynamic stability is illustrated in Fig 4 which indicates that the motor operates stably. For the 4/ 1.b experimental verification the load curve of Fig 3 was reproduced on a model. An oscillogram of the conditions  S/144/60/000/02/006/019 E191+/B155 A Practical Method of Checking the Dynamic Stability of Synchronous Motors in Drives with Shock Loading during the first two passes is reproduced in Fig 5 and it is found that the motor operates stably. The proposed method was checked by the calculations on a synchronous motor operating on the load curve shown in Fig 1i the motor characteristics are given. The check on dynamic stability by the proposed method is shown in Fig 6 from which it will be seen that the motor should operate stably. The dynamic stability was also checked by a more accurate method described in another article. The results of the calculations, plotted in Fig 7, disregard L11 the damper winding which would, in fact, improve matters. It will be seen from Fig 7 that even in the worst circumstance the motor operates stably. The cliecks were made on a synchronous motor type MS-324-12/20a&t the request of the Verkh-Isetskiy Metailtirgic-a-17 rks, who contemplated replacing a worn-out induction motor by a synchronous motor. It is concluded that the recommended Card method of checking the dynamic s-~ability of synchronous 5/6 motors is simple and reliable, and its general use is recommended.  S/144/60/000/02/006/019 9194/13155 A Practical Method of Checking the Dynamic Stability of Synchronous Motors in Drives with Shock Loading There are 7 figures and 6 Soviet references. Card 06/6 Kafedra teoreticheskoy elektrotekhaiki (Chair of Theoretical Electro-Technology) (Seryy, I.M.), Kafedra teoreticheskikh osnov elektrotekhniki (Chair of Theoretical Fundamentals of Electro- Technology) (Yanko-Trinitski3r, A.A.), both at Urallskiy politekhnicheskiy ins.titut (Ural fo-lytechnical Ins-titute) December 29, 1959  SERYY, I. M. Cand Tech Sci - (diss) "Improved method of testing dynamic stability of synchronous engines." Leni.ngrad, 1961. 20 pp; (Ministry of Higher and Secondary Specialist Education RSFSRj Leningrad Polytechnic Inst imeni M. 1. Kalinin); 150 copies; Drice not given; bibliography on pp 19-20 (15 en-uries); (KL, ~-61 sup, 245)  SERYYL_IqqR.' mikhaylovich. assistent; YUSHKANOV, YURIY IVANOVICH, kand.-i~ek*hn.nauk; YAITYO-TRINITSKIY, ALEKSANDR ALEKSANDRDVICHI doktor tekhn.nauk, prof. Effect of damping moments on the dynamic 9tability of a synchronous motor. Izv, vys. ucheb, zav.; elektromek~- 4 no.7:16-25 161. (MIU 14:7) 1. Kafedra teoreticheskoy elektrotekhnikt Urallj3kogo politekhnicheskogo instituta (for SeryY). 2. Nachallnik vychisliteltnogo tsentra, Urallskogo politakhnicheskogo institute. (for Yushmanov). 3. Zaveduyushchiy kafedroy teoreticheskoy elektrotekhniki UraVskogo politekhnicheakoge instituta (for. Yanko-lPrirdtskiy). (Electric motors, Synchronous)  SERYY Igorg M-4khaylovich.-assistent; YANKO-TRINITSM, Aleksandr Ar6k-sa--n-drd-Vi-c'lf"-clbktor tekhn. nauk, prof. P - Features of using simplified equations in the calculation of electro-mechanical transient processes of a synchronous electric motor. Izvi vys. ucheb. zav.; elektromekh.,~ no.3-l' 1225-1232 162. (MIRA .16: 1. Kafedra teoreticheskoy elektrotekhn,iki Ural'skogo politekh- nicheskogo instituta (for Seryy). 2. Zaveduyushchiy kafedM7 teoreticheskoy slektrotekhniki Urallskogo politakhnicheskoga instituta (for Yanko-Trinitskiy). (Electric motors, Synchronous)  ZBOROVSKIY, Issak Aronovich, starshiy prepodavE..telz; ~Igorl Nkh~ylov4t~h, ansistent Experimental check of the equations of electromeciamical transient processes oR synchronous motor with excitation from semicondactor r"ctifiera. Izv. vys. ucheb. zav.; elcktromekh. 6 n0.3.'333-340 163. (KLRA 16 25) 1. Kafedra teoretiches!~:oy elektrotekhiLiLri Urallskogo polite-khnicheskogo instituta. (Electric motors, Synchronous)  1 ch kand. tekhn. nauk,, itipolnyayushchiy obyazimosti dotsenta,. Programming for electronic digital compaters the evaluation of electromechanical transient processes or a synchronous motor,, Izv. vys. ucheb. zav.; elektrcme" 6 no-4:441-450 163. (MIRA 16-7) 1. Kafedra teoretic-heskoy elektrotekhniki Urallskogo politekJudcheskogo instituta. (Electrj~~- motors., Synchronous) (Programming (Electronic computers)) (Electronic digital computers)  SERYY, I.S. uni"rsal mAaaaring instruments in machine repair. Sbor. rab. GOSNITI no.17:34~128 162. OMA 17.9)  Sman, m. Reorganization of management at gra!.n procurei,i.6nt station3. 140k. -elev. prom. 25 no.9:6-7 5 '59- (14IBA 12:12) 1. Zavedukushchiy skladon..-Aknuatskogo khleboprivemnogo punk-ta. (Grain olevators)