SCIENTIFIC ABSTRACT M.P. CHERNYAYEV - V.I. CHERNYAYEV

  CMMUUV, M.P.; BARMN, G.S.; NIKITIN, A.K.; MOKRISHCHEV, K.K. Nikolai Ni.khailovich Neetorovich; obituary. Usp.mat.nauk 11 no.4:117-118 Jl-Ag 156. (HLRA 9:11) (Neatorovich, Nikolai Mikhailovich, 1891-1955)  SOV/44-58-4-3194 Translation from: Referativnyy zhurnal, Matematika, 1958, Nr 4, p 120 (USSR) AUTHOR- Chernyayev MeP* TITLE4 "_~~~~~Ohasles The , Modified by Professor V. Ya Tsinger, of the Construction of a Plane Curve of the Third Order by Ten Given Points (Metod M. Shalya, vidolzmenennyy professorom%Ya Tsingerom., postroyeniya ploskoy krivoy tretlyego poryadka po devyati dannym tochkam) PERIODICAL: Uch. zap. Rostovsk.-n/D. gos. ped. in-ta, 1957, Nr 4. pp 35-41 ABSTRACT: Certain known theorems are examined as, for example: If through four given points a bundle of acnics is drawn and through a given fifth point a bundle of straight lines pro- jective to it is drawn, then the geometric locus of points of the intersection of the conics with the corresponding straight lines will be a curve of the third order which passes through the .five given points. V.A. Manevich Card 1/1  CMNYAYP,--H.P-r7 profp otv. red.; AVDEYEVp N.7a.p dotsp red.; fOLYAKOVp A.N., dots., red. (Abstracts of papers read at the Methodological Conference of the Mathematics Departments of the Pedagogic Institutes of the southern part ofihe R.S.P.S.R.] Tezisy dokladov.Nauchno-matodicheskay kon- ferenteii matematicheskikh kafedr pedagogicheskikh institutov iuga RSFSR, 2d. Rostov na Donup Rostovskii na Donu gos. pedagog. in-t, 1960. 105 P. (MIRA 15:4) 1. Nauchno-metodicheskaya konferentsiya matematicheskikh kafedr pedagogicheskikh inatitutov 3ruga RSFSR, 2d. 2. Rostovskiy pedago- gicheskiy instutyt (9" Cbwngapwi Avdoyevv polyakov). (Russia, Southern-Mathematies)  ,019RD~~~~~Ovich-~KOLOBUV, P.G.p otv. red.; NOVIKOV, A.V.t red. izd-va; PAVL;CHENKO, M.I., tekbn. red. (Collection of prdblems in synthetic geometry] Sbornik zadach po sintetichaskoi geometrii; uchebnoe posobie dlia fiziko-matemati- cheskikh fak4lit9tov universitetov i pedinstitutov. Rostov-na- Donu. Izd-vb Rostovskogo univ., 1961. 117 p. (MIRA 21+: 8) (Geometry)  4 . . IL' I I ~ . . 4  CIMMAYEV, NA , Engineer "High-Frequenay Automatic Sterilizer for Processing Agricultural Products." Thesis for degree of Cand Technical Sci. Sub 29 SOP 50,, Moscow last for the Mechanization and Electrification of Agriculture imeni V.M.Molotov Summary 71, 4 Sep 52, Dissertations Presented for DegKees in Science and Engineering in Moscow in IM. From Veche U2skva a 1950.  CHVWA,TU,.,-N,D.; FRUNKIN, N.L. Us: of high-frequency currents in the canning industry. [I danli&JMNITOKUE n0-30:449-453 152. (KLRA 8:1) (Canning industry) ' -)~ bz4ltjl ) S~I-  CHEMAMY, N.D., kandidat tekhnicheskikh nauk. ~_ ;vsm Ilactrical and physical properties of foodstuffs. Ref.nauch.rab. -,:~IIKP no.2:45-51 154. (MIRA 9:4) (Food--Ilreservation) (Induction heating) A4 -UALN c-c,. J&S~ )j'J ha fgdr-v, 4)   "Scientific and.- Practical Problems Connected With Sterilization and Pasteurization by Hadiation," by M. N. Meysell, Doctor of Biolog4cal Sciences, and N. D. Chernyayev, Candidate of Tech- nical lciences~ Vestnik Akademii Nauk SSSR, No 11, Nov 56, pp 38-,~5 Radiation effects on microorganisms were studied for their theoretical value in providing information on the mechanism of the effects of radiation on simple organisms, such as microorganisms, and for the practical value of this problem since it is the basis for sterilization and pasteurization procedures. The Institute of Microbiology, the Institute of Biophysics of the Academy of Sciences USSR, the All-Union Scientific Research Institute for Canning and Drying of Vegetables, and a number of other institutes are working on the problem of sterilization and pasteurization by radiation. Efforts are concentrated on: (1) explaining the mechanism of the injury and death of microorganisms and of other organisms under the effect of various types of radiation and by various methods; (2) stucl)-ing the changes taldng place in the products being sterilized and finding methods for elim- inating these changes; (3) determining the harmlessness, nutritive value, and therapeutic effect of the products and of medical preparations ster- ilized by powerful radiation; (4) constructing rational apparatus for ster- ilization by radiatlon;~aud'(5)_developing methods for calculating doses of radiation required for sterilization.  To ensure cmplete sterilization fr= bacterial and spore contam- inatiorl, and'to decrease the ill effect that radiation has on milk, meat, vitamins, especially vitamin B12, vegetables, etc., arising because of radiolysis of water, it is recommended that these products be sterilized in frozen condition, in a box containing some protective or stabilizing agents. Radiation can be successfully Vsed 'to sterilize medical in- struments, and drugs such as antibiotics, protein preparations, antico- VZU'=ts, hormones, etc. It may also be used in surgical operations, wu.Lca neal quite rapidly after their sterilization by radiation. As for pasteurization by radiation, in most cases it is necessary olily to check bacterial multiplication or to retard it, therefore the -roentgen equivalent physical (r.e.p.) is in the range of thousands instead of millions'as the case is for sterilization of products.  Several roe.pe values are quoted for specific items of food and drugs. Practical interest in sterilization by radiation on an industrial scale lies in the use of synthetic radioactive isotopes such as Cobalt-60) cesium-137, and tantalum-182, vhich possess sufficient specific activity from gamma rays and have a long half-life. In addition, there is the field of solutions of radioactive isotopes. I The author concludes by saying that all these peaceful uses o: radia- tion as applied to biology, medicine, and the food industry, require ra- tional organization of work, centralized planning of projects and methods used in a definite field, coordination of the efforts of various institu- tions and their departments, and the equipping of the appropriate in- stitutes with up-to-date sources of powerful radiations which are adApted to treating significant amounts of materials. (U)  KHENHAN. R.6. (Hannan, B.S.); RAYSKAYA, X.G.ftranslatorl; CHXRMYlVi N.D. [translator]; ROGACHEY, V.I., kand.tokhn.anuk, red'.;"'YOYKOVA, A.A., red.; OMYSHEVA, Ye.A., tekha.red. [Sci6ntific and technological problems involved in Wing ionizing radiation for the preservation of food. Translated from the Inglieb] Hauchnye itakhnologicheskie probleaV primeneniia ioniziruiushchikh izluchenii dlia konservirovaniia pishchavykh produktov. MoBkva. Pishchepromizdat, 1957. 278 P- (MIRA 11:4) (Radiation sterilization)  PXAJ3Z I BD09 KXPLDITATION SWAM Tooooyuxnsya fteuOhnO tokhnlchosk&ya ko"orentalys po prl"nonlyu ; redloaktivay1th I tabillnykh Ixotopov I izluchonly v narodnom khogymystve I mawm' Moscow, 195T Folushonlye Ixotopov. PoshchnM gamum-ustanovicl. Radloastriya I deaLmetplyal trudy konforentall ... (Isotope Production. 21gh-stagrgy Ca~-R&dL&tlan Facilities. Radiametry and Doti- tryt TranotetLons, of the All-Union Conference Ou the Us* Of :dl ; .. use lmd 3t&bl* Isotopes and Radiation In the National sooncor and Science) Moscow, Izd-va AN SISS , 1958. 293 P. 5,0W copies printed. Sponsoring Apnoyt Akademlya nauk SSSR; Glavw7o upravionlyo po lopollmovanlyu - stooncy onergli 333R. Editorial Roardt Prolov, Yu.S. (Ron p. Ed.). Zhavoronkov, X.X. (Deputy Reap. Ld.). Aglintsev, K.K., Alok"Yer, S.A., sochkarOT, T.T., Lashchinskly, X.I., Nalkov, T.P., 31nltsyn, 7.1., and Popows, O.L. (Secretary); Tooll. Id.s Ma"chkov, X.D. PMM=s This collection In published for scientists, technologists, persons engaged In medicine or mWdIcsl research, and Others con- strued w1th the production andlor use or radioactive and stable Isotopes and radiation. Coviawas Thirty-eight reports are Included in this collection under three main subject divIslonst 1) production of Isotopes 2) bl$b-onargy gamme-redlation facilitisojand 3) riLdl~try and doolmetry. TAMA Or COMM$ PART 1. FRGVWTXOX OF ZSO-.CM PrOLOT, TU.S., V.V. Doobbmrov, and To.Yo. KuIL". Devolo, t of isotope proftotion in the Soviet Union - This "port Is a eneral surve of od ti th d 5 on mo o uc g pr s, y apparatus, raw naterials. applications, Investigations SM futuro prospects for radio isotopes In the Soviet UMIM. Card 2/12 anbus1*1n, A.V- I.V. VOIn"Onskayal N.C. Zhirov. V.1. 7-tulovskiX and Yu.L. X3uwl'nitskly- Laboratory 169 suplollng _aoaLs K"tters Z&%ulovskly, V.I. Sources of Ionizing Radiation for US@ 193 In Radiation ChG1118trY PortsovsklY. YO.S., A.Y. "Ibergall. and U.YA. X&rgullt- A pilot plant Installation ror the Radiation DIaLn- 200 f'station Of Crain CAMEM"- N.D. (;&.*-Radiators for the Proo*rviltiOn Of -F-Dod uc 206 PART I%%. RADI01WMY AND D0611MEN T Adrova. N.A.. X.M. KOtc...yu-N. Panov. Utilizing Scintilla- 213 ting plastics to Register fladioactlvo Eml3aloms Gollb*jc, O.A.,-d A.$. Vyal'Shln. UsIng Soviet I*rmanlum 220 Transistors In building RsdiOmOtric EAulPm*nt Card 9/12  28(l) AUTHOR: TITM B07"142-2-1-20/22 Volagdin, V.V. A Conrerenco on Electrical Food Procemping LothadP (Nonforeatelys, po 0laktrichcoklm zotodaz obrabotki plahcherykh produklov) PERIODICAL: Izvefttiyn vyvnhikh jchebnykh Za-denty - rnilot~kh- niks. 1959, Yet 2, Nr 1, py 1 20-121 (MM) ABSTRACT: A conference on electricea food procesaln6 mathodn Va. hold in Klyev from 7 to 13 October 1958. The 'calerence was organized by the nyerokly tokhnolo- Icheskly Inatitut pishchevoy prozynhlennorti MiR M yev Institute of Technology of the Food Induptry Ukrmig). The conference comprised a wide range of problem@ and the novelty of the Pubject, caure,1 great interept of workers from scientific institu- Tiomp and Induptrial inptallatiors. The 350 dele- gates came from 60 towns of the MR; 119 partici- pants were Pont to the conference fro= vuten and ientific rezearch i"titutes. At the conference, Card 2/5 O.Cre t were delivered and dircupped, L_ 10 r1illor", dea.iing MIS- W. Mi. appLyIng ele.tF0_A-ra-TM- fields, direct ourrentj low frequency currOnto high frequency current, Infrared and ultraviolet r"It- tion, X-ray and gamma radiation for ProcesoiBg food productm. Alm* statements wore made concern- ing the appli6stion of ultrasound oscillations in the food industry, Considerable attention was do- voted to the application of TVCh (tok vyPokoy chavtoty - high frequon r t) for toohnologi- Cal inLrponem, particular for proc;omIng non-ean- ductive materiale In an a ectric high frequency field, More than 20 r:ports and statements wore delivered an this subj at, dealing with theoretical ALnd technological problems. For examples "The Zlootric&2 Proportion of Soma Food Products in High Yrequency Fieldl, by 5.1 Andr:ycv;.v n, A- ;Ij Xull tuiphl (Moncow)i ;Act v a a Food Pro- % by L,.XL_EaVl0V MiYev)l "The Eltatrical Properties of XrrkW-bY (Lenin- Card 2/5 grad)i -A ContinuouP Automatic High Frequency Fruit Conperve" an a Conveyer* by Cher LTAy (110,cow)l "The 1;n Defropting of Spice Frequency Cur- rents- by V.N. Podeavalov (Antrakhan)i -,ho HIgh Frequency I_oT1rn_&--6r =Eectrically Necked Fish* by -A - and - Ali in and Lg_y&vj2x (X!.yev)-. .T'he TectLXntf4og'lcallPec&ullarltlea of Processing Sausage Products by High Frequency Currants" byJL- ,X,AhjahXjn&jjoacow). At the conference, the fol- lowing reports were board with great Interest and war. discussed in detail: -The Application of In- frared Heating for Drying of Confecttoa~ry Pro- ductsm 1 019 _B8_124t tpkly (RIGA)i IThe Tochno- nholen 0~e ~ the logical rInc p en 0l the Hot Electrical Piph Smok- ing ProceenP by 4,1. amd and X-.P. -Inumor (Kiyov)i "A Be- Pimb ProcerrIne Technology iZne Procearing of Sardines nni Sproto With the Application of Infrared Light.and Smoking Liquid" 1.rd 3/ by jj_jnvAbA.= (Nonce-) 1 IT a VUI1KOP Experimental P. Equipment for roniz-ation Proco~ping of Food Prolucto ----by (Moncow); and *An Iwe-j~tlgntion of the Popsible Application of Radloact.1-to Radio- tion for Preserving the Albuzinouo Rcaidjr of Into- pmentary Whale Pat' by 3.1. Teyp'_,j_- (Leningrad). Le~ingradokly elektrotekh';Iche~kiy (_,:~ _1z CA it, imeni -ASsOCIATIONs V.I. Ullynnova (Lenina) (Leningrad Inrtitutl of Electrical Engineering imeal V.r. Ullyanoy (Lenin)) suBUMEDi November 3. 1950 Card 5/5  S/081/61/000/022/006/076 B102/B108 AUTHORS: Mironovs, N. N., Chernyayev~ N. P~ TITLE; Study of the reactions of Ce(OH) 3 and La(OH)3 formation by potentiometric and conductometric methods PERIODICAL: Referativnyy zhurnal. Khimiya, no. 22, 1961, 46, abstract 22B316 (Tr. po khimii i khim. tekhnol. (Gor,kiy), no. 3, 1960, 456-463) TEXT: The following systems were examined by potentiometric and conducto- metric titration: Ce 2(SO4)3 (I) - NaOH - H 20; 1 NE4OH - a20; I - NH 3 - H2 0; CeCl 3 -NaOH - H20; CeCl 3 - NH3 H20; La2(SO 4)3 (11) XaOH H20; 11 - Na4OR - H20; 11 - NH 3 - H2 0; LaCl 3 -NaOH - H20; LaCl 3 NH 3 -H2 0. It is shown that the sulfates of Ce and La tend to forming basic salts more readily than their chlorides. The composition of the basic salts of Ce and La was determined. The results ~f the determina- tion of the composition of the precipitates are compared to data obtained Card 1/2  Study of the reactions of ... 5/081/61/000/022/006/076 B102/BI08 [Abstracter's note; Complete translation.] 1~ --- from solubility experiments~ Card 2/2  s/osi/61/000/023/004/06'. B108/B147 AUTHORS: Mironov, N. N., Chernvayev, N. P. TITLE. Study of the reactions of Ce(OH) 3 and La.(OH)3 formation by measuring the apparent volume of the precipitates PERIODICAL: Referativnyy zhurnal. Khimiya, no. 23, 1961, 46, abstract 23B329 (Tr. po khimii i khim. tekhnol. (Gorlkiy), no, 3, 196o, 464 - 469) TF,XTs The systems Ce 2(SO4 )3 - NaOH - H 2 0 j CeCl 3 - NaOH - H 2 0 ; La2 (so 4)3 - NaOH - H,20 i LaCl 3 - NaOH - H 20 have been studied by measuring the volumes of the precipitates. The compositions of the basic salts of La and Ce in these systems have been determined. It is shown +that it is possible to extract La and/or Ce if the molar ratio OH ; V ia properly chosen. The results are compared to data obtained in the study- of the solubility by means of potentiometric and conductometric methods. [Abstracter's note: Complete translation.] Card 1/1  S/081/61/000/022/007/076 B102/B108 AUTHORS: Mironov, N,. N., Chernyayev, N., P, TITLE: Study of the i~eactions of Ce(OH)3 and La(OH) 3 formation by physicochemical analysis of the nitrateB PERIODICAL, Referativnyy zhurnal. Khimiya, no. 22, 1961, 46, abstract 22B317 (Tr. po khimii i khim, tekhnol~ (Gor'kiy), no~ 39 1960, 470-4 76) TEXT: The following systems were studied by potentiometric and conducto- metric methods: La(NO 3)3 (1) - NaO - H2 0; Ce(NO3)3 (11) - NaOR - H 20; I - NH4OR - H 20; 11 - NR4 OH - H20; I - NH 3 - H20; Ce(No 3)3 - NH 3 - H20~ and, by measuring the apparent volume of the precipitates, the systems: I - KaOH - H 20 and II - NaOH - H20. The compositions of the basic salts and the La and Ce hydroxides in these systems were determined. An analytical determination of La and Ce from nitrate solutions was found to be possible by potentiometric and conductometric titration of NaOH; their separation is also possible at the proper molar ratios of OH- : M+, The Card 1/2  Study of the reactions of ... S/081/61/000/022/007/076 B102/B106 results of the determination of the precipitate composition were compared to data obtained from solubility determinations. [Abstracter's note: Complete translationJ Card 2/2  S/076/60/034/05/26/038 B010/BO03 AUTHORS: Vyakhirevp D. A., Chernyayev, N. P., Bruko Ao Io TITLE. Effect of the Experimental Parameters on the Chromato- graphic Separation of Substances in the Gaseous and Vapor Phases. III. Effect of the Structure of Silica Gel on the Separation of Gaseous Hydrocarbon by Volumetric Chromatography I PERIODICAL: Zhurnal fizicheskoy khimii, 1960, Vol. 34, No. 5, pp. 1096-1103 TEXT, The authors investigated the effect of the structure of silica gel on the separation of gaseous hydrocarbons, thus evaluating the efficiency of separation by the difference in the adsorption heats of Pr the components and the criteria of separation X, and K2 (Ref. 5). A pyrolytio gas (10% H2, 40% CH4' 12% C2H6, 20% C2H4' 2% C3H81 12% C06, 2% C010, and 3% C44) was investigated, however, only the separation of the pair C2H6 - C2H4 was examined. Zo Po Kuzuetsovav Laboratory Card 113  Effect of the Experimental Parameters on the S/076/60/034/05/26/036 Chromatogra,hic Separation of Substances in BO10/B0O3 the Gaseousland Vapor Phases. III. Effect of the Structure of Silica Gel on the Separation of Gaseous Hydrocarbons by Volumetric Chromatography Assistant, participated in the experiments. A device described in Ref. 6 was used, which renders chromathermographic and elution tests possible. Two series of silica gel served as samples; one was prepared by 1. Ye. Neymark's methodp and the other was treated with hydrochloric acid and aftertreated with 0.1 N of KOH. In addition to the lattt~r (MSM) silica gelso also non-treated MCK(MSK) and 1,r!.",-(MSM) silica-gel samples were examined. The authors determined the structural charac- 1411 teri8tics (Tables 192) by a method of B. A. Lipkind. The authors found that a better separation can be obtained by increasing the specifio surface and reducing the pore diameter of the silica gel. A comparison of the adsorption isothermal line of butane (Figs. 192) and the adsorption coefficients G derived therefromg the maximum adsorption z, and the ratio G/z reveals that less convex adsorption isothermal lines vere obtained on MCtl(MSM) silica gel treated with H01 and aftertreated Card 2/3  Effect of the Experimental Parameters on the S/076/60/034/05/26/038 Chromatographic Separation of Substances in BOIO B003 the Gaseous and Vapor Phases. III. Effect of the Structure of Silica Gal-on the Separation of Gaseous 11ydrocarbons by' Volumetric Chromatography with 0.1 N of KOH. This treatment lowers the adsorptive capacity of silica gel (Table 3) since the pore diameter is enlarged and the specific surface reduced. Thus, the authors succeeded in avoiding a polymerization of unsaturated hydrocarbons (propylene and butylene) v4' whichf however, takes place with untreated silica gel. Table 4 lists the values of &G and KI for ethane and ethylene of the various silica-gel samples. Finally, the authors thank Professor A,.A. ZhiikhovitBkiv for his interest in the present investigation. There are 4 figuresp 4 tables, and 10 references: 7 Spviet, I German, i Czechp and I American. ASSOCIATION: Gorlkovskiy gosudarstvennyy universitet im. N. I. Lobaohevskogo (Gor'kiX atilte University imeni N. 1. Lobachevski ) SUBMITTED: July 22, 1958 Card 3/3  MII~qNOV, N.N.;_CHERNYAYEVE_N.P. Investigatinp the formation of cerium hydroxide. Zhur.pgorp.khim. 6 no.9:2i63*2172 S 161. (KM 14-9) (Cerium bydroxide) I  MIRONOV-i N ON.; CHERNYAYEV, N.P lbvestivating the formation of lanthanum hydroxide. Zbur.neorg- 6 n*o.9:2173-2179 -5 161. (MIRA 14: 9) (Lanthanium hydroxide)  CHERNYAYEV N.P.; MIRDNOVP N.N. - -, -- .... Z. I Some properties of basic salts and hydroxides of lanthanum and cerium. Trudy po khim.i khim.tekh.'no.1:90-98 163. .(MA 17:12)  BOYENKO, I.D., prof., red.; 1ALMLOV, U.G., otv. red.; YROITSKIY, S. F. , zam. otv. red. ; YOZWV, , V. A. . red. i GIMKINUY EV, ".. V. red.; KODOPM, G.M., tekhn. red. (Treatment at the health resorts of Transbaikalia3Lech6nie na -kurortakh Zabaikallia; sbornik nauchno-prakticheskikh rabot. Pod obshchei red. I.D.D'ayenko. Chita, TSentrl k-urortnoe upr. Profsoiuzov, No.2. 1960. 162 p. OaRA 15:12) 1. Naucluio-praktichoskaya kori-forentsiya vrachey sanitarno- kurortrykh uchrezlideniy Chitinskogo torritorialtno;:o upravle- niya kurortov, sanatoriyev i dor-ov otd-.ykha. 3d, Darnisun, 1959. 2. Zaveduyushchiy kafedroy normalinoy fizioloL-,ii Chitinskogo gosudarstvennogo meditsinskogo instituta (for Boyenko). 3. Za- veduyushchiy kafedroy patologicheskoy fiziologii Chitinskogo gasudarstvennogo meditsinskogo instituta (for Koz1ov). (TMiSBAIKALIA-H=#TH IiESORTSY WATERIM-PlACES, ETC.)  / ~- -,2 /j/ , ,q 1,-/E 6-/-:? ~? , / y ( YEFRUOV, I.; CHERNYAYXV, P. Shortcomings In the planning and construction of flour mills. Muk.-elev. prom. 22 no.9:19-21 S 156. (MLRA 10:8) -1.11achallnik Rosglavmuki (for Yefremov). 2. Direktor Tullskogo mallnichnogo kombinata (for Chernyayev) (Flour mills)  CHEMAYEV. P. Using grain cleaning waste for animal feed. Muk.-elev. prom.27 no.6:23-24 Je 161. (KM 14:6) 1. Direktor Tul'skogo mellkombinata No. 1. (Grain-Cleaning) (Feeds)  CHERNFAYEV., The grain milling combine of Tula is an enterprise of communist labor. Muk.-elev. prom. 28 no.2:11-13 F '62. (MM 1.5:3) 1. Direktor Tul'skogo mel'nichnogo kombinata No.l. (Tula--Grain milling)  BUVAYLOJ, V..;_~q~A~YEV~.; SHOKHOV, K. In-honor of the 1+5th anniversary of the Great October. Collectives of communist labor of the Novowskovsk and Tula Milling Gombines and the Omsk Groat Plant,, Muke-elev. prom.-28 no.11:3-6 N 162. (MIRA 16:2) 1, Direktor Novomoskoyakogo mellnichnogo kombinata (for Buvaqlo)o 2. Direktor Tul'skogo mellnichnogo kombinata No.1 (for Cherwjwv). 3. Direktor Omskago krupozavoda (for Shakhov). (Flour mills)  1- ENG., CI=OBROVOV, 14. V., ELNIIII., CORNYAY-EV, P. D. 1-71G. 2. 'uTS3R (600 4. I-Plectric Lines 7. Blocking relay f or iMroving the protection of 'I,on'L~ 220 KV transmission lilies. 23, no - I C, 19 5~ Elek. Sta. r- 9. Monthly List of Russian Accessions, Library of Congress, Febr)j=. -1953. Unclassified.  C-~)eeny.q NO V'I"11, ~x 13VOVICH, M.A., inzh.; CHMIYAYNV, PpP.I.)~4wh. More about the effectiveness of gas relay protection. Blek.sta. 29 no.1:86-87 Ja 158. (MIRA 11:2) (Electric transformers)  _,-~~TMSPOL,ISKM,Iouif Grigorlyevi6h; KiWGIN, Igor' Vlmllmirovlch;-GMlQR7- P.N., red.; DIZEVJR,-I.M., red..-.izdva; IAVROOTA. N.B., tekhn. red [Efficiency experts and innovators at the No.1 Oclassa.Ship Repair- ing Plaut] Patsionalizatory i novatory Odeaskog'o sudoremontnogo zavoda no-1. Noskra, I2d-vo "Morskoi transport." 1958. 59 pi j3hips-Maintenance and repair) (KIR& 1U7)  SAZONMOT. Pavel Illich; KOWTAKIN, B.N., red.;--CHERHUYET., P.N., rea.: UVRENOVA, H.B,,- takhn.red. [Repair of ship mechanisims] Remont sudovykh makhanismov. Moskva, Isid-vo "Morskoi transport," 1959. 249 p. (3hipB-Mainteuance and repair) (min 14:2)  6(4) SOV/112-58-3-5027 Translation from: Referativnyy zhurnal. Elektrotekhnika, 1958, Nr 3, p 238 (USSR) AUTHOR: C4er-ayayev-r-R-T-N-. TITLE: Graphical Experimentally Based Method for Determining Ship-Radar Maximum Detection Range (Graficheskiy metod radiolokatsionnogo opredeleniya maksimallnoy dallnosti obnaruzheniya sudov, osnovannyy na eksperimental'nykh zavisimostyakh) PERIODICAL: Tr. Tsentr. n.-i. in-ta morskogo flota, 1956, Nr 6, pp 3-22 ABSTRACT: The importance of the radar maximum detection range in navigation is considered. The maximum-range formula is analyzed with allowance for Earth curvature, antenna heights, and radio-wave propagation over the sea surface. A method for plotting range diagrams needed to solve graphically the general radar equation is described. However, all ab'ove methods do not give sufficiently accurate solutions because of the difficulties involved in determining the effective scattering surface of the sea target. A new method is suggested Card 1/Z  6(4) SOV/112-58-3-5027 Graphical Experimentally Based Methodfor Determining Ship-Radar Maximum . . . . for determining the maximum range which uses experimental scattering characteristics of the target depending on its distance from the radar, The 'radar equation is presented in the form U(R) - i(R), where j(R) is an equivalent absorption factor, i. e. , a family of straight lines measured in db, and U(R) is the effective scatterinc, surface of the target in a nonuniform field determined experimentally for the operati-ng waveband, radar antenna height, and atmospheric -refraction factor - The intersection point of the above curves is a solution of the above equation. The maximum range with allowances for the atmospheric -refraction -factor variations and for antenna altitude above sea level can be determined by means of alignment charts whose construction is substantiated in the text. Parameters determining the radar efficiency are examined, as weli as the relationship between the efficiency and other Station characteristics, and the effect of the efficiency on Rmax* Methods of measure- ments needed for constructing the detection curves U(R) and j(R) are described. A number of experimental data obtained with a "Neptun" radar set are reported. Card Z/2 1. S. R.  6(4) SOV/11Z-58-3-50ZB Translation from: Referativnyy zhurnal. Elektrotekhnika, 1958, Nr 3, p 238 (USSR) AUTHOR: Chernyayev, R. N. TITLE: Influence o fx_fe'rfttW7actors Upon the Minimum Detection Range of Small Sea-Surface Targets by a Marine Radar (Vliyaniye vneshnikh faktorov na minimal'nuyu dal'nost' obnaruzheniya malykh nadvodnykh ob"yektov sudovoy radiolokatsidnnoy stantsiyey) PERIODICAL. Tr. Tsentr. n.-i. in-ta morsk flota, 1956, Nr 6, pp 23-40 ABSTRACT: Influence of various radar parameters upon the "dead zone" is considered. The terms "dead zone" and "minimum detection range" are defined. An equation is developed that presents the minimum detection range of a low surface target having a small effective scattering surface as a function of the antenna height, its radiation pattern, receiver -amplification characteristic, condition of sea surface, and the target effective scattering surface. Recommendations are given for determining the tactical and technical Card 1 /Z  6(4) SOV/112-58-3-5028 Influence of External Factors Upon the Minimum Detection Range of Small . . . . radar ratings with a view toward reducing the influence of external factors upon the detection of small targets at a close range. 1. S. R. Card 21Z  C PHASE I BOOK EXPLOITATION 378 Biryukovich, Mikhail Mikhaylovich, and Bukshpun, Marat Yakovlevich Sudovaya radiolokatsionnaya stantsiya "Neptun" (The Ship Radar Installation "Neptune') Moscow, Izd-vo "Morskoy transport", 1957. 203 P. 9,000 copies printed. Ed.: ChernyaXev R N.- Ed. of Publishing House: Kolchinskiy, M. L.; --Mech. Ed.:i- ova, Ye. A. PURPOSE: This monograph is addresssed to ship navigators who are acquainted with the fundamentals of radio engineering and to specialists attached to the ship's navigation room. COVERAGE: The monograph is concerned with the operation and design principles of the ship radar installation "Neptune". Methods of adjusting its component units and of detecting and correctIng defects are described. The "Neptune" radar equipment is standard on many ships of the Soviet seagoing fleet (P-3). This book was composed on the assumption that the ship's navigator must understand the operating principles of the radar installation as a whole, as well as of its separate units if he is to be able to operate Card 1/12 radar equipment properly, and to make repairs at sea,  The Ship Radar Installation "Neptune" 378 or in foreign ports where it is very often impossible or diffi- cult to find radar specialists in emergencies. Considerable attention is given in the book to methods of tuning and adjusting radar units and aggregates of radar units. Circuit diagrams of the master indicatoryof the receiver-tran8mitter and of the antenna as well as of the remote indicator are given. These circuits, however, are not described in detail, but are given only to aid the reader to see the int-errelation between the separate units. Soviet-produced electrical, electronic and mechanical parts and components entering into the completely assembled radar unit and.its accessories are mentioned or dis- cussed at length throughout the monograph. It is pointed out that since publication of this book, the "Neptune" radar equipment .may have undergone certain modifications. For this reason the diagrams given in the book may be somewhat different from those in the radar equipment actually being produced. Extensive tables of characteristics of various types of tubes and of other components are given. The basic design parameters and characteristics of the "Neptune" radai? and Its components are given in tabular form (pp.16-18). The book is accompanied by a seat of six inserts Card 2/12 -  The Ship Radar Installation "Neptune" 378 (appendices 5, 6, and 7). There is a bibliography of six Soviet sources. TABU OF CONTENTS: Preface GENERAL OPERATING PRINCIPLES OF SHIP RADAR 3 Reflection of radio waves 4 Operating wave bands of radar transmitters 5 Pulse principle of radar operation 6 Principle underlying the determination of slant range 8 Determination of bearing 9 Obtaining images Of surrounding settings on the plan position indicator 10 Characteristics of ship radar 11 Card 3/12  The Ship Radar Installation "Neptune" 378 Section I. DESIGN OF THE SHIP RADAR INSTALLATION "NEPTUNE" Ch. I. Operating and Technical Data 16 1. Basic parameters and characteristics 16 2. Component assemblies 19 Ch. II. Master Indicator, Assembly 1 21 1. Function and interaction of units of the master indicator 21 2. Sine-wave oscillator I-1) and the high-pass cutoff j frequency filter (I- 30 3. the phase inverter 4-16) Quadrature networks (1-15) and 34 4. _ Formation of trigger pulses (1 4) 36 5. Formation of expanding range circles (1-3) 39 6. Formation of scanning-, brightening-, fixed range circle-, and balanced wave-pulses 41 7. V.;"-o-m;1xer unit (1-12) 48 Card 4/L~  The Ship Radar Installation "Neptune" 378 8. Cathode-ray tube unit (1-6), selsyn unit (1-14) 50 9. Monitor panel 1-11) 50 10. Control panel R-9) 51 11. Indicator power supply unit (1-8) 53 Ch. III. Transmitter-receiver, Assembly P 55 1. Function and interaction of the transmitter- receiver units 55 2. Radio-frequency head P-2) A 59 3. Receiver (P-3 and I- 63 4. Automatic frequency control (P-4) 68 5. Transmitter modulator (P-6) 71 6. Magnetron oscillator (P-5) and high voltage rectifier (P-7) 74 7. Transmitter power supply unit (P-8) 75 Ch. IV. Antenna-waveguide System 77 1. Function and block diagram 77 2. System for the channeling, emission and reception of superhigh frequency energy (A-1) 78 Card 5/12  The Ship Radar Installation "Neptune" 378 3. Antenna drive (A-72) 79 4. Waveguide channel 80 Ch. V. Remote Indicator -- Assembly V 81 1. Function and block diagram 81 2. Scanning pulse amplifiers (V-1., V-2, V-3) 83 3. Video amplifier (V-5) 85 4. Cathode-ray tube unit ~V-4) 87 5. Power supply unit (V-8 87 6. Control panel (V-6) and monitor panel (V-7) 88 Ch. VI. Heating System, Telephone Communications System, Dehumidifier, Power Supply Unit 89 1. Heating system 89 2. Telephone communications system go 3. Dehumidifier go 4. Power supply units 91 Card 6/12  The Ship Radar Installation "Neptune" 378 Ch. VII. Metering Apparatus Attached to the Equipment 91 1. Synchroscope 25-1 91 2. AVO-5M type ampere-volt meter 93 3. M-592 type microammeter set 93 4. M1101 type megohmmeter 94 Section II. INSTALLING AND TUNING THE "NEPTUNE" RADAR ON BOARD SHIP Ch. VIII. Disposition of Radar Assemblies on Board Ship 95 1. Disposition of antenna 95 2. Disposition of transmitter-receiver 96 3. Disposition of master indicator 97 4. Disposition of remote indicator 97 5. Disposition of power supply units 98 6. Disposition of auxiliary equipment and assemblies 98 T. Assembly of the waveguide channel 99 Card 7/12  The Ship Radar Installation "Neptune" 378 Ch. IX. Switching the Equipment Ori and Off. Tuning the Equipment During Operation 100 1. General safety requirements when switching on and tuning the equipment 100 2. Switching equipment on and off 100 3. Tuning the components and units 102 Focussing the electron beams of the indicators 102 Sweep centering 103 Aligning the movable scale of assembly I with the gyrocompass 103 Antenna alignment 103 Zero adjustment of the range meter 104 Matching the disposition of the fixed range circles with the movable range circles 106 Regulating magnetron current 106 Adjusting the automatic frequency control and tuning the r-f head of the transmitter-reoeiver. Matching the antenna-waveguide channel with the magnetron 107 Adjusting image contrast range on the screen of the master indicator 110 Card 8/12  The Ship Radar Installation "Neptune" 378 Matching the remote indicator scanning with master indicator scanning 110 Adjusting the scanner amplifiers of the remote indicator 3.11 Adjusting image contrast range on the remote indica- tor screen 112 Section III ADJUSTMENT OF THE UNITS, ASSEMBLIE3 AND THE EQUIPMENT AS A WHOLE Ch. X. Tracking Down Faulty Units in the I Assembly 113 1. Preliminary remarks 113 2. Procedure for detecting faults in the I assembly 114 Ch. XI. Adjustment and Detection of Faults in the Units of the I Assembly 134 1. Adjusting the I-1 unit .135 2. Adjusting the 1-2 unit -137 Card 9/12  The Ship Radar Tnstallat:fon "Neptune" 378 3. Adjustment of units 1-15 and 1-16 137 4. Adjustment of unit 1-3 138 5. Adjustment of unit 1-4 139 6. Adjustment of unit 1-5 139 7. Adjustment of unit 1-17 140 8. Adjustment of unit 1-12 140 9. Checking the operation of units 1-6, 1-8, 1-9, 141 10. Detecting def ects in the units 141 11. Correcting oh aracteristic defects when tuning and adjusting the I Assembly 142 Ch. XII. Detection of Defective Units in the P assembly 142 1. Procedure in checking pulses 3.42 2. Sequence in the detection of defects in the P assembly 146 Ch. XIII. Adjustment and Detection of Defects in the P Assembly Units 152 1. Adjustment of unit P-4 152 2. Adjustment of unit P-6 154 3. Adjustment of units P-3 and 1-7 154 Card 10/12  The Ship Radar Installation "Neptune" 378 4. Adjustment of unit P-2 -155 5. Adjustment of units P-5, P-7 and P-8 155 6. Correcting characteristic defects when adjusting the P assembly 155 Ch. XIV. Adjusting the A Assembly 155 1. Procedure for detecting defects in the A assembly 155 2. Correcting characteristic defects when adjusting the A assembly 159 Ch. XV. Detection of Defective Units in the V Assembly 159 1. Procedure for checking pulses 159 2. Sequence In detecting defects in the V assembly 160 Ch. XVI. Detection of Faults and Adjustment of V Assembly Units 169 1. Adjustment of units V-1, V-2, V-3 169 2. Adjustment of unit V-5 170 3. Correcting characteristic defects when adjusting the V assembly 171 Card 11/12  The Ship Radar Installation "Neptune" 378 Appendix 1. Table of oiling schedules for the mechanical parts of the, "Neptune" radar 173 Appendix 2. Tables of resistance values between the tube bAses and Via obrmli 174 Appendix 3. Table of d-a tube operating parameters 179 Appendix 4. Coil winding data for the electrical components of the nNeptune" radar 187 Appendix 5. Schematic d1agram of the master indicator - assembly I insert Appendix 6. Schematic diagram of the transmitter-receiver and of the antenna: assemblies A and P Insert Appendix 7. Schematic diagram of the remote indicator: assembly V insert Bibliography 201 AVAILABIX: Library of Congress Card 12/12 JJP/Vm June 25, 1958  CHIRRNYAYEV, R. I kandidat tekhnicheskikh nauk. ~ ,"C'~,r Development of technical means of ship handling in the merchant marine. Mor.flot 17 no.2:13-15 F 157- (MLRA 10:3) 1. TSentrallnyy nanchno-iasledovatellskiy institut morskogo flota. (Aide to navigation) (Ship handling)  CHERNYAYBY ?R. v0i~- I -- OF, ~11' - Grovth of marine, radar stations abroad. Hor.flot 18 no. 6:24-25 Je '58- (MIRA 11;7) 1. Nachallnik saktora radionavigataii TSantrallnogo nauchno- issladovatal'Rkogo instituta morskogo flots. (Radar in navigation)  CUMffAYEV, R. Radar answering-beacon. Mor. flot 18 no.11:23-24 N 158. (MIRA 11:12) 1.Nachallnik eektors, radionavigataii TSentrallnogo nauchno- issledovatellskogo institute, morskogo flota. CRAflar in navigation) 03eacons)  Choosing the appropriate wavelength for the ship radar installation. Mor.flot 19 no.9:11-13 S 159, (MIRA 12:11) 1. Nachallnik sektora radionavigataii TSentrallnogo nauchno-iseledo- vatel'skogo, Inut1tuta morskogo flota, (War in -aavigation)  CHRIWAYEV, R.N., kand. te)chn. nauk; BIBICH13DVA, R.P. investigation of oscillation zones in reflex klystrons during performance under pulse conditions. Trudy TSNIIMP no.23:33-37 159. (MIRk 12:8) (KiYetrons)  S/19 61/000/001/038/058 D216YI)3o4 AUTHOR: Chernyayev, R. TITLE: Apparatus for radiolocation identification of sii,11- nals from navigating systems PERIODICAL: Referativnyy zhurnal. Avtoinatika i radioelektronika, no. 1, 1961, 53, abstract I K454 (Rechr. transport, no. 7, 1960, 47-49) TEXT, The block diagram is given and the operation analyzed of an 0 automatic shore radiolocation beacon.-responder., designed at the Tsentral'nyy naucluiyy i issledovatel'skiy institut morskogo flota C7 (Central Scientific and Research Institute of the Sea-Going Fleet) to replace the passive corner-reflectors with range e.15 km~ The SHF oscillator has the frequency of the responder signals electron- ically wobbled so that they fall into the operating range of ship radar navigators "Don", "Donets". "Neptun" and "Stvor". The beacon is switched on automatically (at the iastar.L when the -radar naviga- tor of a shin within the beacon range starts to operate)t the recei- Card 1/2  S/1-9 61/000/001/038/038 Apparatus for radiolocation.,. D2L6YD304 ver and control circuit use the semi-conductor devicQs- In trials with~ the beacon in the Kerch Sound, the range of the beacon (with the antenna 14.5 m above sea-level) in conjunction with the radar navigator "Neptun" was 32 - 41 km; the radar navigator "Stvor" has detected the beacon response at a distance of 25 km.. The beacon direction was determined by finding the center of its response signals. Card 2/2  S/194/61/000/010/077/082 D271/D301 AUTHOR; Chernyayev R TITLE: Automatic radio-beacon PERIODICAL: Referativnyy zhurnal. Avtomatika i radioelektronika, no. 10, 1961, 36-37, abstract 10 K265 (Inform, sb. tsentr. n.-i. in-t morsk. flota, 1960, no. 43, 35- 44) TEXT: The block-diagram and construction are described of an automatically answering radio-beacon which will help in the rad- ar recognition of shore signs of navigational limitations and mark non-characteristic shore landmarks. Shore radio-beacon is switched on automatically by the signals of the ship radar when the ship is in its service area. The receiver of the radio-beacon and its con- trol system are transistorized and are continuously waiting for the interrogation signals of the radar. 'Aio microwave triggering pulses, with 2-6 see intervals, are required to turn the radio- Card 1/2  S/19 61/000/010./077/082 Automatic radio-beacon D271YD301 beacon operational, 30-40 sec after the last interrogation pulse the beacon changes over from its operational to waiting ccndlition. ~/ Trials in Kerch channel gave positive results, 8 figures. Z-.Ab- - . stracter's note: Complete translation2 Card 2/2  CHERNYAYEV,_R,-kand.tekhn.nauk Special features of radar station operations on centimeter and millimeter waves. Rech.transp. 20 no-4:5&58 Ap 161.(NIRA 146) (Radar in navigation) .F*  BYKOV, Vladimir Ivanovich; KUKLI14, Yuriy Ivanovich; NIKITENKO, Yuriy Ivanovich; CHERNYAYEV.-R.N... kand. tekhn. nauk, re- I ~- tsenzent; MUM, -kand. takhn. nauk., red.; FRISWM, Z.S.p red. izd-va; KOTLYAKOVA, 0.1.., tekhn. red. [Visnal radio direction finder on ships] Sudovye vizualli3ye radiopelengatory. Leningrad, Izd-vo lq4orskoi transport," 1962. 104 P.' (MIRA 15-7) (Radio direction finders)  ACCESSION NR: AT4031807 8/2914/62/000/079/0003/0031 AUTHOR: Dubrovskly, M. I.; Chernyayev, R. N. (Candidate of technical sciences); Shchegolev, V. I. TITLE: The .harbor radar station "llaskat" harbor radar stations-a new aid to safe investigation in harbor approaches. SOURCE: Uning-rad. Tsontrallny*y nauchno-issledovatollskly Institut morskogo flota. I~fortnatsionny*y sborntic, no. 79, 1962. Sudovozlidenlye I svyaz1 (Navigation and corn- munications), no. 20, 3-31 A TOPIC VkGS: harbor radar, harbor radar station, radar, radar station, nav-igation aid, harbor approach, ship radar, navigation radar ABSTRACT: The first experimental harbor radar station, "Raiskat", was installed in Leningrad harbor In 1961. The location of the station and sector coverage (each on a separate display) of the 100-i-neter-wide open channe-I is shown in Figure I of the Enclo- sure. In the preswit paper, the basic radar parameters of "Raskat" are compared with the Da-ramoters of some harbor radars manuf,actured in Western Europe. The main sub- Systems of "Maskat" aro: 1) Antenna and wavelruide systent, including: a) parabolic cylinder dish with pancalco feed; b) drive mochanium with niotor and synchro system; c) waveguide system elements (pbasu shifter, meaaurhig device for control or trwismitter ri M 1/4  ACCESSIONNI-R: AT4031807 parameters, ferrite valve- switch, b1direction-LI C0111.1](117, cliannel comniutator, out-put power nicasurlngr devioo). 2) Trwisinitter sysioni, consiqUili-, of t-Nvo identical lo-nns- mitters wildl In rnodul"It-Ors aml '10SOCiatud control circuitc. Receiver s3rStell" bi.cluiling: t) ;:,,.,,,o idelit.jen] v,!i1h EF ainlplifioi-s, ArC circuits, ,:et6 j-jp1,j, ~%-ifljj T soctions. reclMors, &C, ~separ!"?te ~o c s e i s :,h, C 11 vol ca! cadc~ (") i1, ent'l-, 'Ind i cto(:[ors Nw-parate o , s L 1-,Y-`J'L' IIIP,,- 511 ri I)j,- pl,,~cud in !'rw Console -with S(At~(-,Or 'ov-1 illtorfilcft -~ircuitfl. 4) Displa) di jmne;. -5) C-FlUrt"! 6) .11-PT -vith scales 0' 2, 51 Y; awl 25 j1die"i. C and varin"ll Sector A I e Sweep. - f Statioll call !'.avc up Lo 6. birlicators', with observation nzjk~rv,'J] of "'i. 5: s . '11, (3encralor of Clectronic of cha-tinel axs ('360 imark-Irs, spacert at a -13i;Zlimuni of (). '5 AL,-~reos ill angle, i ailp~lar stability 61, range stability 15 infles). 9) Main po,~Nmr panel. 1.0% Display system Power pav-01, 11) '11-ansmitter-receiver systeni p--Nver p-anoi, 12) Power panel 101, U11F radio staidons. 1B) Voltago rectifier NISA-5. 14) Dvo*poNvcr riupplies ALA-7M, .15) T-;,rl voltage stabi-liz-oro SN-5. 16) 'I'Vo IRIF conin'-uni,2sition systeins.  ACCESSION NR: AT4031807 A functional description of the main radar subsystems to given. The overall design Is sufficiently flexible so that it could be installed in any harbor. Orig. art. bast 13 figures and 3 tables. ASSOCIATION: Tnentrallny*y nauchna-lonledavatel'skiy inifltut morgAwgo flota, Leningrad (Central Naval Soientific Research Institute) SUBMIWED- 00 DATEACQ! 05May64 ENCL- 01 EM CODE: EC, XG ~;';.NO REF SOVt 000 OTHER#.. 006 3/4 Card  ACCESSION NR: AT4031807 ENCIDSURE:01 Fig. 1 - Approach to lAningrad Port and Radar Sector Coverage Card 4/4  CMWYAYEV, :R.N. Radar beacon visibility zones. Trudy TSNIIW 8 no.47:16-24 163. (MRA 16-.12)  CHERWKT~Vo_ S. Rtfrigerator and thermos. Nauka i zhiznl 30 no.9tllO-132 3 163. (MIRA 16tlO)  GOLOVNYA, V.A.,,doktor khim. nauk; ELLERT, G.V., kand. khim. nauk; SIIUBOCHKIN, L.K., kand. khim. nauk; SHCHELOKOV. R.N., le-and. khim. nauk-; TSAPKINA, I.V., kand. khim. nauk; TRAGGEY14, Ye.N., kand. khim. nauk; IAwiov, V.P., doktor khim. nau, (deceased); AT-7KHAINOVA, ZY.; DYATKIIP, M.Ye.. doktor khim. nauk; KIKHAYLOV, Yu.N.; TSAFKINjV.V.jkand,kbim.nauk; BOLOTOVAIG.T.pkand.khim.nauk; --CIIERNYAYKV.V.A.qdoktor khim.nauk; KORCHWAYA,Ye.K., red. [Complex compounds of uranium] Komplelisnye soedineniia urana. Moskva, Tzd-vo 1114auka," 1964. 1.88 p. (MIRA 17:7) i.Akademiya nauk SSSR. Institut obsh0ey i neorganicheskoy khimii. 2. Laboratoriya khimii kompleksilykh soyedineniy ak- tinidov Instituta obshchey i neorganicheskoy khimii All SSSR (for all except Korchemnaya).  L 314 la!- r~ I rp, M,scow, A~ofni,7-:a'. AF3TRACT: 'rhe use .~f organic substanck, i . c, . ; i I m- I I ; w : -,-, 1 ( Ir - '1e --m-lvnprni r itsed t~~ i I luf- W-1 -  L ACCESSIOI, large heF~t A-S, CIC T No -p F r Card  !a)-2/EW(M) WW/DM 27847-66 Zp(n)/EPP(c)/ETr,/EPF( ~ACCN ON NR: AP5022631 'UR/0089/65/019/002/0138/0143 33g~.4:621.039.576 Tqll fnoginov, As _.; Chernyayev.t_ V. A.; Xoryakin, Yu*' A Is Zakbqroy :TITLIC: Methods of estimating the cost of water nnd power for nuclear desalting, Rlants SOMICE: * Atomnaya energiyat v. 19, no. 2t 19650 138-143 :TOPIC TAGS: nuclear power plant, nuclear power reactor, des6lination ABSTRACT:' After developing the necessary background, the authors ~outline the prospects for the utilization of nuclear power reactors for desalting, purposes. The power economics of dual-purpose plants ined and the cost estimntes for fresh water production are are exam -presented separately from those for the electric power generation. ! In connection with the power estimates, it is stated that the reactors: of the Beloyarsk, 11ovo-Voronezh and Shevchenho power plants are the -most hishly developed and reliable in tile Soviet Union. Thus, the cost estimates were calculated on tile basis of these types of reactoral It Is mentioDod that due to higher.initial steam temperatures of the 41 BeloyarbktaW Voronezh type reactors, their use is more economical for i ibstallations with a higher power demand. The basic preconditions for, 'Card 1/2  L 27847-66 ACCESSION NR: AP5022631 the cost studies were reviewed and the methods of calculation were established. At first, the cost of fresh water was estimated without taking into occount the cost of heating steam. Then the cost of steam was evnluatod. Finally, the total cost of fresh water was determined* The cost estimates of electric power production were based on the exinting technical ard economical data given for Beloyarsk, flovo-Voronozh and Shavehenko types of reactors, Their thermal and electric power capacities, the amount and the cost of fresh water productionb and the cost of electric power generation are summarized in a table. The changes of various technical and economi- cal factors are Illustrated by numerous curves. In conclusion, it is .1mentioned that, from the point of view of Soviet eoonomy.nnd the lo range outlook, it is,.as~yet$ too.early to make a final judgement in iregard to dual-purpose nuclear power plants# -Orig. art. has., 11 table,-11 foimulas, and G:graphsa 48SOCIATION: None 8u D. 2.5Mar6.5 ENCL* 00 BUB CODE: NP) ES No lint Sol. 008 OMERS. 002 rs  IL 133D-66. ;ACCESSION NRs AP5023766 UR/0089/65/019/003/02571026 621* 311.25 AVTHORt Danilin, V S. t. 2~&barov,, I. I.; ~qgi~jov* A%.As; Chemyayevv Ye At TXTIX.* Some of the proper-ties-and the maximum power of diphanyl turbines for central heating plants SOUIME: Atommaya enw-glya, w. 19, no, 3, 1965, 257-261 TOPIC TAGSt 'turbine design, beat transfer fluid, atomic energy plant equipment ABSTPACT; -The authors examine some of the mostimportant properties of diphenyl tur~k. bines for atomic Mat and electrip ppmu-plants1bf up to 50 Mw. It is shown that a limiting factor with regard to1he maximum power of these turbines is not the strength, but the degree to :which the flov section.--carx bei- expande~d#_ Me - fundamental gas-dynamic properties of diphenyl are also briefly discusise-A. Thermo-, dynamic analysis shown that expansion of saturated dipbenyl vapor is Dot accompanied' by increased moisture content, as in the case with steam, but by relative,super- heating. Thus,, the gax-dynsmics of the-flow in the flow 'section ofi--the-'tur-~- bine'are considerably ImproviA so that diphanyl turbines should have high relative", internal.efficiamies (0.96-9.99) A arison of experimental data, abows tbat 1/2  L 133D-66 ACCESSION M AP50170 the specific volumt..ric flow of diphenyl vapor at the turbine discharge is greater, than the flow for condensation turbines using steam. A method is proposed for estimating the maximum power ofa central-beating turbine using diphenyl at various rotor speeds. The results show that a diphenyl turbine for a nuclear central-beat- ' ing plant with a power of 20-50 Mw should have a low rotor speed (about 1000 rpm). E. The turbine should be of the double-flow type in a single housing. A single-Tim regulating stage should be -used Viih- nozile vapor distribution. The discharge diffusor:-` should, have a large ~ flow. `--ckoes'. section -Ir r%.Fr6m, th6 standpoint . of&; volumetric flow at the turbine discharge, the vacuum for a diphanyl turoine should not exceed 0'07" absolute atmosphere, These considerations also apply to other high-tvVeratu re or- . ganic heat transfer agoates orig, art. hast, 8 figursag 6 foraulas. ASSOCIATIONs DODO ' ~ SUBMITTEDs: 21Dec64 ENCLI 00 PRo IS' , SUB.CDDCI . . , 0 06 REF SOVS 0 OTHERI V, 2  r7 -,- ;T- MNDUROV, I. A. CHUMAYEV, V.B. Millisecond pulse met rib. i-*tekh. eksp. no-1:54-58 JI-Ag 156. (HIaA 10:2) 1. Leningradakiy fiziko-tokhnicheakiy institut Akademii nauk SSSR. (Electronic instruments) (Pulse techniques (Slactronics))   120-6-14/36 Using a Potentialoscope for Multi-ebannel Amplitude-time Analysers. of this paper used for storing information a special electron-beam tube of the potentialoscope type, similar to those in computers. Information on the surface of the targets of such tubes is conserved for several minutes and even longer and, therefore, it becomes unnecessary to regenerate frequently the information.. This permits construction of a system with a short resolution time with a large fraction of the useful recording time of the investigated radiations; the average time for recording information is considerably shorter. The first variant of such an instrument has 32 channels with an average resolution time of 40 jLsec for a uniform spectrum and a capacity of 32 ?6? pulses per channel for a twin system of accumulating information. The number of channels can be increased to 64 without complicating the radio circuit. The block schematics of the instrument is shown in Fig.1, p.68. The operation of the instrument is based on a quartz oscillator, which provides the three frequencies, 1 Me/s, 125 kc/s and 50 c.p.s. The instrument contains 55 tubes and has a power consumption of 600 VA with the power supply from a 12?/220 V system. There are 1 figure and 6 references, 3 of which are Card2/3 Slavic.  120-6-14/36 Using a Potentialoscope for Multi-channel Amplitude-time Analysers. ASSOCIATION: Physico-Technical Institute Ac.Sc. USSR (Fiziko-tekhnicheskiy Institut All SSSR) SUBMITTED: April 25, 1957 AVAILA13IB: Library of Congress. vard 3/3  KONDUROV, Igor' Andreyevich, inzh.; CHFJWA~V~.BLj kand. tekhne nauk; SHTEYNBOK, GJU., inzh., ved. red,; KORABLEV, L.N., inzh., red.; PONOMAREV, V.A., takha. red. (12Mhannel matrix-type amplitude analy*zer]128-kanallayi mat- richnyi amplitudnyi analizator. Moskva, Filial Vaes.in-ta na- uchn. i tekhn. informateii, 1958. 10 p. (Peredovo~ nauchno- tekhnicheskii i proizvodatvennyi opy-t. Tema 41. No.?-58-40/2) (MIRA 16:2) (Gamma raya-Measurement) (Gamma raya-Spectra)  L 8371-65 EWT(I)/EEC(h)-2./EED-2 AFETP,/RAEIA(+) A 1, 7 ES I c, N., Ku Kadshov T'T',E: Mul' i-t;table tranrietorized c i rc_i C 7 7ED 5 OU P-_ E :Tr. ~.-7 Nauchno-tekhn. xon' po yadera. rau-iveieKtronaxe, 1961. M., Go"tornf~_dat, 1962, 159_7-"'___ TOPIC TAGS: cilrcui!, transistorized TRAWSLATION: Examines transistorized ci-cu-.- wlt~i many stable Guch a deviCe with n stable states th-- q fiiinilar f inclwe2 n(n--!) cr-,upling i;Rpeaances. circu_iL8 with. one nonconductirqg and tne rli. Card 112  L 8371-65 ACCFSSTON NR: APIj(-*Isc)?i, more reliable and sinpler to align than a circutt wAth one condilctir,;! triode. ~'Ircuitq wau-. r, - 3, 4, arv. u I I RF IT, r t (:ircua' -A 2112  CHERHYAM, V.I. Preparing rosin sizing with white lye. Bum.prom. 29 no.1:21 Ja-F '54. (MIRA 7:3) (S12ing (Paper))  CHERNYAYEV, inzheners Oftlp~~~ New method of unloading frozen bulk materiale.Veat.TSNII MPS no.3:52-65 N 156o (MLRA 10:1) (Ioading and unloading-Cold weather conditions)  244 AUTHOR: Chernyaev, V.I., Department Manager of the building-machines division of the.TsNIIS of Mintransstroi, and Noskov, Yu.A., Scientific officer in the railways utilisation division of the TsNIIMPS TITLE: Mechanised breaking-up of frozen ore. (Melcharizirovannoe razrykhlenie smerzsheysya rudy.) PERIODICAL: "Metallurgif (Metallurgist), 1957, No* 1, PP. 32 - 34, (U.S.S.R.) ABSTRACT: A mechanical arrangement of vibro-hammer operated picks has been successfully used in tests for breaking up frozen masses of ore, limestone and similar materials. From the test results, it is concluded that a complete open-truck load could be dealt with in 30 min. The pmsent cost of the whole installation is about 100 000 Roubles, but this could probably be halved xvith large-scale production. 1 drawing, 2 photos and 1 table.  140SKOV, Yu.A.; MAT.~JASOV, S.1i.; CH"IL'EYAYWI V.I.. C-, 1, Equir,irentu for the lco~elling-up of bulk loads froze-i t-o-Other. X.etalaurg 9 rio.6:12-13 ", e '64- (ITIRA 17:9)  CHIUYAYIV, V. I., inskeper. Machine for boring ditches for foundations for contact system supports. Mekh. trud. rab. 11 n0.2:35-36 Ir '57. (KURA 10: 5 1. Vaesoyusnyy nauabno-inaledovatellskiy institut transportnogo stroitellstva. (Boring machinery)  G01k)VACUT, A.S., kand.tekbri.nauk; CIUMMMV, V.I., inzh. t? Vibratinn metbod of digging boles for electric line poles. Makh.stroi 15 no.7:5-9 Jl 158. (141RA 11:9) (Facavation) (Electric lines--Poles)  CEUMAIEV, Y.I,, insh. ANynahronous aleatria motors with 2ong open,~tjng life. Pharge stroi, noOD101-104 162, (NIRA 16-.7) (Electric motore,, Induction)  AYZENBERG, B.L., inzh.; VARDUBURGo A.R.,, kand,takhn,.nauk; GOLOVACHEV, A.S., kand.tokhn.nauk) CHERNYAYEV V.1 - inzIj. Electric motors with Incregsed vibration and shock resistance. Vest.elektroprom. 33 no.2:55-58 F 162. (HIM 15:2) (Electric motors)  CHXMATEV, V.I., gorW inzh. - - Adjustment of Orientation through several vertical ahafte by the method of correction isolinee. Ugoll Ukr- 3 no-10: 24-26 0 159. (14IRIL 13:2) Mno surveying)  MEDYANTSEV, A.N., kand.tekhn.nauk-,-,CIIERNYAYEV,_V-,". inzh. Displacement and deformation of rocks in the strata overlaying working areas. Ugoll Ukr- 5 no.11:2j-27 N 61. (NIRA 14:11) 1. Ukrainskiy filial Vsesoyuznogo naucbno-issledovatel'5kogo marksheyderskogo, instituta. (Subsidences (Earth movements)) (Coal mines and mining)  TYUZIEV, X.I... dotsent; KIRICHENKO, V.I., gornyy inzh.; NIKONOV, A.F., gornyy inah.; CHOMIEV V.I.,--.gorriyy inzh.; SONIN, S.D., ~--- I I Prof.; KILYACHKOV., A#P,.* A64e-fit; DUPK01 i0se., gornyy inzh. Readers' response to A.A. Shamin, A.M. Belenskii and A.V. Galkin's article "Pillar methods of mining flat dipping seams without undermining the side walls in development workings." Ugull Ukr, 6 no,2:36-41 F 162. (MIRA 15:2) lo WovocherkasokLy politekhnichaski7 institut (for Tyuznev). 2* Treot Sovetokugoll (for Dudko). 3. Donetskiy nauchno- iseledavatellskiy ugollnyy institut (for Kirichenko). 4. Gos- udarstvannyy inatitut po proyektirovaniyu shakhtnogo, stroitell- -stva kamennougollnoy promyshlennosti (for Nikonov). 5. Ukrain- skly filW Toesoyuznogo nauchno-iseledavatellskogo marksheyder- skogo instituta (for Chernyayev). 6. Moskovs1dy goriVy institut (for Sonin, Kilyachev). .(Goal mines and ninin (Sbamin, A.A.) (Belenskii, A.M.) (GaUcin, A.V.)  CHEMAYET1 V. I., gornyy insh, -Sele-otion of the.&Mps and type of supports for development worldngs in reverse mining of flat and inclined 1qers. Ugerll Ukr. 7 no.4:22-24 Ap 163. (MIRA 16:4) 1. Ukrainaldy fillal Vaesoyanogo nauchno-iseledovatellskogo markoheyderakogo Instituta. (Donets Baain-Coal mines and mining)  lnzh. tl . -) of C! . - - - 1. ffi,clenf, Matrlo.A alculatirif., larc in 41", F Ponet5 Basin. ITnady]WIT1,11 no.50~110-7-:,'ll 263. (MIRA '17%1o) 4-  MEDYANTSEV, A.N.,, kand. tekbn.nauk; KUKLIN, B.K., kand. tekhn. nauk; FILIMONOV, A.F., inzh.; BAKHTIN, A.F., inzh.; SHUSHKOVI A.M., inzh.; SINYUGIN, V.M.j inzh.; CHERNYAYEV, Ir ~ -1.1.-~,- -'. . V.I., inzh.; BEYLIN, V.Ya., inzh.; ZELIVYAN..;Iff , ShZ. --rn-z&1-- ZHIZLOV, N.I., otv. red. (Selecting systems of multiple-horizon mining of flat seams in the Donets Basin] Vybor skhem sovmestnoi razrabotki po- logikh plastov Donbassa. Moskva, Gosgortekftizdat, 1963. 106 p. NEU 17:5) 1. Donetsk. Donetskiy nauchno-issledovatellskiy ugollrivy in- stitut. 2. Donetskiy nauchno-issledovatellskiy ugollnyy institut (for Kuklin). 3. Ukrainskiy filial Vsesoyuznogo nauchno- issledovatellskogo marksheyderskogo institute (for Medyantsev).  OBERNYAYEV-,V.I,,-ggrnyy inzh. Observation results of the movement of side rocks in drifts. Ugol' 39 no.1:40-42 Ja 164. (MM 170) 1. Ukrainskiy filial Vaesoyuznogo nauchno-issledovatellskogo mark- sheyderskogo institutac  NOSROVI Yu.A.; 11"'ATAIASOV, S.F.; CHERHAYI-IV, V.i. M=inizat-on of the unlodet" 1 1, ing of i*rc)zczi freights. pro:a. 40 no.12:91312-934 1) 164. O'llizA iE:2) 1. Vseso~uznyy nau hno-issledovateltskiy institut z~OleznodorC)',.hncJj,,o tvinsporta 1,Uni-sterstva putpy sciobsilelinni- ra i Vsp-soy,.,-,,nyy nauchno- i,-,,,31edovv,tel'sldy instlitiA trm,sportnoCo stroiLellstva Gos-.~darsl,- vennora proizvodf;tvpnncgo komi teta I)Cj tMLnsjjCr'LIIO:fftl Eltroitel ',-tv;,-.