SCIENTIFIC ABSTRACT PANTELEYEV, F. P. - PANTELEYEV, N. N.

nk p lmz-I2Ytll ". P. "T i ' ,he Discove-ly Or ul-,c Lower Triassic Lalb,,ryntodom3 -,ii ,~,c Dcn Luk, 11 '. , -1 -.,c,. 9, 191.  PAM=Ev~l F. P. "The Discovery of the Lower Triassic Laberynt-odons on the Don Luk," Dok. AN, 58, Noo 9, 1947  --PARTELSM, G. Meeting the needs of youth. Prof.-tek-b. obr. ILI no.5.-A my 61. (MIRA 14:8) 1. Redaktor stennoy gazety "Smena" tekhnicheskogo uchilishcha No.7, Donskoy rayon Tullskoy oblasti. (College and school journalism) 0  14(o) SOV/92-59-3-33/44 AUTHOR. Pante -Head of a Department TITLE: Prom a Planning Group to an Institute (Ot proyektroy gruppy do instituta) PERIODICAL: Neftyanik, 1959, Nr 3, PP 30-31 (USSR) ABSTRACT: The discovery in 1932 of petroleum deposits at Ishimbayevo initiated the creation of the petroleum production industry in the Bashkir Republic. With the development of this Industry the need for a planning organization became obvious. Such a group was organized in 1933 to take care of studies connected with the construction work. Since the field of operation of this group was continuously growing, It was decided in 1936 to reorganize it into a planning office under the name of the Bashnefteproyekt. During the last 15 years this office developed 14 0 projects, on the basis of which gas and petroleum pipelines, hundreds of kilometers long, were construated, as well as dozens of compressors and Card 1/3  From a Planning Group (cont.) SOV/92-59-3-33/11,4 pump stations, petroleum gathering centers, water supply installations, power plants, etc. The most vigorous de- velopment of the Bashkir petroleum industry began in 7944, when crude oil was found in Devonian sediments. In 1949 petroleum deposits were discovered at SerafimoVo and their exploitation started. The development of these rich pe- troleum fields made it necessary in 1951 to create a State Institute for Planning Installations of Oil and Gas Fields. Many engineers and teohnicians of the above-mentioned Bashnefteproyekt office joinedthe new institute as key per- sonnel. At present the institute has 610 members, of which 399 are engineers and technicians. The author cites some names of staff members who are old-timers and of specialists who joined the organization recently. In addition to de- signing plants and oilfield installations, the institute develops projects for housing settlements and recreational facilities. The town of Oktyabrlskiy was also built in accordance with plans developed by the Bashnefteproyekt. A number of buildings in Ufa were constructed on the basis of projects worked out by this organization. The group of engineers of the institute drew up improved designs for Card 2/3  From a Planning Group (Cont.) SOV/92-59-3-33/44 equipment and tools such as the PTM-40 mobile mast, a movable crane for the Ufimets rig, a wrench for fastening and unfastening small diameter drilling pipes, etc. The institute now coordinates the work of various organizations and prepares blueprints to be used in various branches of the industry. It will also participate in the development of the petrochemical industry which will expand rapidly during the next seven years. ASSOCIATION: Institut Bashnefteproyekt (The Bashnefteproyekt Institute) Card 3/3  GARETSKIYP R. G.;JIINTELZYKV,-G. F.1 FILRENSKIY, 11. V.; SHIZZINGER, A. YO. Rocks of the folded basement in the central Usturt. Izv-AN SSSR-Ser.gool. 29 no. 1:50-62 Ja 164. (MIRA 17:5) 1. Geologicheakiy institut AN SSSR, Moskva; treat "Soyuzburgaz" i Moskovskiy institut neftekhImicheskoy i gazovoy promyshlennosti.  PANTELFYEV, G.F.; POPOV, N.G. Tectonics of the southern Aral Sea region. Trudy SGPK no.2:12-34 961. (YJRA 14:11) (Aral Sea region--Geology, Structural)  PANTELEYEV, G.F.; XICHENKO, Ye.A. Geology of the northeastern end of the Tuarkyr group of folds. Trudy SGPI no.2:35-46 161. (MIRA 14: 11) (Kara-Kalpak A.3.S.R.--Petroleum geology) (Kara-Kalpak A.S.S.R.--Gas, Natural--Geology)  POPOV, N.G.; PANTELEYEV, G.F. Kuma horizon of the southern Aral Sea region. Trudy SGPK no.2: 73-82 161. (Aral Sea region--Geology, Stratigraphic) (KRA 14:11)  IVANOVA, V.A.-. POPOV, N.G.; PANTELEYEV, G.F. Recent data on the Paleogene stratip-aphy of the sout~~ern Aral Lea region. Trudy SGPK no.2:99-158 161. (MIRA 14.11) Stratigraphic) (Aral Sea region-Geolog,  ANTELEYEV,_G.1_,_,_red.; KOMONOV, A.S., KOTOV, Gennadiy Mikhaylovich;P red.izd-va; SAUZKOV, red. [Fire hazards and fire-preventloirmeasw-es In oil fleldo]Po- zharnala opasnost' I protivopozharnye mEtropriiatiin na nefte- pronyalakh. Moskva, Izd-vo M-va kommun.khoz.RSFSR, 1962. 81 p. (MIRA 16:3) (Oil fields-Fires and fire prevention)  ACC NRa AR6026484 SOURCE CODF: UR/O274/66/OOO/OO4/AO13/AO13 AUTHOR; Panteleyev, G. S. TITI~_-': Method for comparative evaluation of probabilities of faultless operation of ftwo systems !SOURCE: Ref. zh. Radiotekhnika i elektrosvyazl, Ab~- 4jk85 ';REF SOURCE: Tr. uchebn. in-tov svyazi. M-vo svyazi SSSR, vyp. 26, 1965, 137-142 ITOPIC TAGS; system reliability I JABSTIUCT: A method of comparative evaluation of probabilities of faultless operation lof two systems is considered which permits a quantitative evaluation of reliability with a consequent allowance for repairability. The met.,.iod also permits determining the effects of configurational, constructional, producLion, and operational factors. !The maxirrium difference between the probabilities of faaltless operation of the Isystems in question (t) is determined. The time to, which corresponds to 9~.(t) Ifor exponential and no~m"a laws of distribution of faultless-operation probabilities and the absolute value which constitutes the difference in the faultless-operation Probabilities at t = to are found. Three figures. Bibliography of 3 titles. L. S. [Translation of abstract] I SUB CODE: 1~~ o9 Card III  PANMUAM. I. mr, katiclem -mods 0-hOrm mid hoof powder, rromokeep.mool0:23-25 0 055.0. (OUA 9 t 4) I.Preduedatell pravlaniya artell OPerlawatrm. (Battens)  PATITZIBYEV, 1. What kind of help do we need. Selt. stroi. 12 no-5:15-16 Y7 '58. (MIRA 11: 6 l.Predsedatell Boveta V7aznikovskey zDazhkolkhoznoy Btroltellno7 organizateii, Vladimirskoy oblasti. (Vladimir--Farm buildings)  fb : w -1 0: 00000*0600060006* *a I 1 4 , 0 0 a F, 0 U " 0 Ps a A a D a A A 00 w M,P. a 6 6001.~, 00 IF so & I d 1 1 00 . IF&WMLA- W * a . Srmmxo AND & - - -; =77W";;-,DA7j W P. io M 277mtb th (6 iw uo th v" . . . . o e er K . , . i th f l kl i tt bWb th d t) d O 1 k t 4" h i e i n c a s er an w w a t er pa y ac w t s ym S , "A"t'- of a bish ilda as Ihe wulm all $ r ti Tltb u f m u m" a em c . r ree y. c su fatty DrAl. Thus a WMADwer Go with an Orisifto Scift d 3.6% W a titer ce 35.3, .00 00 and 48. 1 * for the free addw In adadsts up I" 3D% &: mcidt the tiler Was forlaw " O forthe Ofteaciam . A %ydmgrwArd munSwer oU vrilb a titer of MV and 61.6 UJ .08 had a low.. tit- in aftista up to foD% fm acids. K. RIMAum &0 3 00 00 z;e 0 COO we 0 ; _90 o d 1010 ago flow 91.1014W. " i ~" %010,03 -It 0- w- iitail ow-i4v -tit I 0 0 a 1 6 0 I. 41- 46 as u t 2 IF 9: m 0 a a I 0 4 Goo* 6609::0 O " 0090060 00009 4 0 0 0 0 0 * 0 0 0 0 0 0 ': 00 4 0 of 0 9 0 0 0 6 0 0 0 9 0 0  00 0 0000 We 0 0 0 owe-Wo-Z 0 boo, a OF 6 W x L a a 0 to N i T w 0 - amino LV I mg CROGOt v sex ;;W sea & 004 eon oft oss ego lVa Quip" A." Fee - 71 - . =9 40!3 Oft , -, Ift), jlaqs an$ ova nod, son _mmm%.[ " P P6 , 00 boo' jam pus Awpu = d . . 0 00 sea V ~ 00 eon r I eo 00. g 0e 606. 00. fee 041- A~a tftAA&"- dig#.  ANTOSUH, Konstantin Fokich; PANTELEM. I.I.; TROYAKOV, P.A. [Russian writers on Khakassial Rusakle pisateli o Khakasii. Abskan, Xhakasskoe knizhnoe izd-vo. 1958. 133 P. (MIRA 13:4) (Khakass Autonomous Province)  SEMOV, Lev Vladimirovich; FAMLEUV, I.I., red.; SAMCM, A.A., tekhn.red. [Coal resources of Muftesia and prospects for their utilization] UgolInye resursy Khakasli I perepelctivy Ikh ispollzovaniia. Abakan. Xhakaeskoe knizbnoe 12d-To, 1959- 71 P. (MIRA 13:6) 'Khakass Autonomous Province-Zoal)  k-- PAFBUZMI_l*4-- Efficient utilization of organic fertilizers in organomineral mixtures. Zenledelie 23 no. 2:48-54 F 161. (ICMA 14:2) 1. Opytnaya stantai-ya Gorskovskogo seliskokho2yaystvennogo instituta. (Fertilizers and manures)  KAPLAN, I.G.; PANTELEYEV, I.N. Mechanization of the row placement of' organic-mineral fertilizers. Zemledelie 24 no.3:73-76 Mr IL2. (XIRA 15:3) 1. GorIkovskaya gosudarstvennaya sel'skokhozyaystV&nnaya opytnaya stantsiya. (Fertilizers and manures)   PANTELEM, I.N._; VASILIYEV, V.A. About the book 'Fertilizer ltactorleB' by 1.S. Egora7. Zenledelle 25 no.6:91-93 Je '63. (MIRA 16:7) (Fertilizers and manures) (Egorov, I.S.)  PA!,'T";,L-,,YT7, Ivan 3te-ancv~,*:- Acaderic degree of Doctcr onoric Sciences, -.n ,le Tn~7--, of 7-- Jn~prs 3 Junp 195,., in theC~71-incil Cf 4~ '-rlcit.-ticn, -)f M-s nt, tied : 171~e D,~~-1c-n, n Ranf-,e-PastIL-ing- k:j-~-a2 I`l-sbandr-,- -.n th- Cr,!~-,.'.an ll..c-.-land, and Yara-Kalpakskaya AS3M nn(~ -~O Ut il 7 -'Tl 0 llul~ F-rV" Aca~rmrjc -in(!,I-r 7-ct:-,r T JITT, 3,  'y E 1.Ya., otv. rE,,d. c, KAZINISTV, vctslrvRl UFA, lk_q 1964. 238 P.  PAMIEM, I.Yao; DROZWV, B.S., red.; STEBLYANKO, T.V., tekhn. red. --7 - -- - - -Anton Ivanovich Vezlobinskii. Stavropol', Knizhnoe izd-vo, 1962. 38 p. (MA 15:11) (Pezlobinskii, Anton Ivanovich, 1847-1899)  .PANTELEYEV,_2_Ya., otv. red.; STOLYAROV, A.G., red. izd-va; GOIAJBI, S. P. . tekhn. red. (Carbonated mineral waters of the Northern Caucasus] Uglekislye minerallnye vody SevernoFo Kavkaza. Moskva,, 1963, 188 p. (MIRA 16:7) 1. Akademiya nauk SSSR. LaborRtoriya gidrogeologicheskikh problem. (CAUCASUS, NORTHERN--MINERAL WATERS)  PANTEIXYEV. I.Ya.. kand.geologo-mineralogicheskikb nauk Basic features of the hydrogeology of the Caucasian mineral waters region. Uch.zap.Pyat.goo.nauch.-isel.balln- 3:385-396 160. (MIRA 15:10) (CAUCASUS-MINERAL WATERS)  PANTELMIEVA I.Ya. Cond-4tions governing the 10ormation of ca-rb,-natp-d sodium hydrocarbonate waters. Trudy lab.gidrogeol.probl. 48:42-54 4 "62. (1-URA 15:8) (14Lneral waters)  MUEELEYEV, I.Ya.; MURERKOV, Yu.P.; PAKHCR40V, S.I. Origin of carbon dioxide in underground vaters. Izv. AIN SWR. Ser.geol. 27 no.6:95-98 Je 162. MLVi 15: 5 ') 1. Severo-Kavkazskoye otdeleniye laboratorii gidrogeologichesk:Lkh problem AN SSSR, g. Stavropoll. (Waterg Underground) (Carbon dioxide)  PANTEIM doktor geol.-min. nauk, otv. red. -- -FI-V - [Thermal and mineral waters of the Northern Caucasus] Tery,alnye i rinerallrye voc~y Severnogo Kavkaza. Moskva, Nauka, 1965. 125 p. (MIRA 18:11) 1. Proizvodstvenny~ i nauchno-issledovatel'!Iki-y institut po inzhenernym izyskaniyain v stroltellstve.  PANTELEYEV, Ivan Yakovlevich-, POKROVSKIY, V.A., otv. red.; LIPPOVA, B.S... red.izd-va; ZUDINA, V.I., tekhn. red. (YesBentuki Ballne-alkaline waters In the system of Caucasian Mineral Waters] Essentukakie soliano-shchelochnys vody v sisteme Kavkazskikh Minerallnykh Vod. Moskva, lzd_ Akad. nail SSSRS, 1963. 280 p. (MIRA 16:71 (Yessentuki region-Mineral Oaters)  I PANTZSYEV, IvBn Takovlevich; SURKOV, V.N. [Mineral springs and therapeutic wad In the Caucasus Mineral Waters region] KineralInye iotochniki I lechabnala griaz' rsions Eavkazskikh Xinerallnykh Vod. Piatigorsk. 1960. 164 p. (MM 13:11) (CAUCASUS--MIIMAT. WATMS) (CAUCASUS--BATHS, MOOR AND HUD)  T 1 cli Y, T Ocherk I,-.t(-cii lzuchr-ni~n I P.azvitiy& hbvkLz.,~kikh -i-Anc -al'..ykh Vod. (r~ utline on th- Hi. t ry of - tuciV and De~elopa( nt of' Caiicb 't n . L, ~- F-1 pc) Ileskva, Coq!e,-ji-,-?hlzcat, 1~155. 203 i. HILs., 'orts., .z bles. 1,1't,liuf- si hct-1 1,.-~Otnc.,( ~'5?.14 1"/5  MA,SURENKOV,, Yu.P.; PUTEUMN, I.Ya. Recent activity of the Elbrus Volcano. Dokl. AN SSSR W no.6:1-369- XJ71 1? 162. (14M 3-5:2) 1. Severo-Kavkazokoye otdaleniye Laboratorii gidrogeologicheskikh ,pr&lem Im F,F.Savarenakogo, Predstavl=6 akademikom D*I, Sheberbakovym. (Elbrus., Mount)  PANTENLEYEV~ L. D. "On Sorre Physic c-Chemic al Processes Occurrinp, in Fi-osinnable Materials 'Under the Influence of Irradiation", by X. P. Dubrovin, S. T. Konobeyevsky ,p B. M. Levitsky, L. D. Panteleyev, and 11. F. Pravdyuk. Report presented at 2nd U11 Atoms-for-Peace Conference, Geneva, 9-13 "'e,,)t 1958  K Is .81a, gj IS  PANULMV, L. D. 911- PHASE I BGOX EIPIDITATION SOV/6176 Konobeyevskly, S. T., Corresponding Member, Academy of Sciences USSR, Resp. '4. Deystvi.ve vadernvkh izlucheniv na materialy (The Effect of Nuclear Radiation on Materials). Moscow, Izd-vo AN SSSR, 1962. 383 P. Errata slip inserted. 4000 copies printed. Sponsoring Agency: Akademlya nauk SSSR. Otdelenlye tekhni- cheskikh nauk; 0' tdalenlye fiziko-matematicheakikh nauk. Reap. Ed.: S. T. Konobeyevokly; Deputy Reap. Edq S. A. Adazinskly; Hd1torial Boards P. L. Orux1n 0 V. Kurdyumovp B. M. IoevItskiy, V. S. Lyashenko (Doosaned5liu. A. Nartynyuk, Y,u. 1. Pokrovskiy, and N. F. Pravdyuk, 9d. of Publishing House: M. 0. Makarenko; Tech. Zdat T. V. Polykkova and 1. N. DorokhIna. Card 1/14  The Effect of Nuclear Radiation (Cont.) sov/6176 PUMSE* n-his book Is Intended for personnel concerned with nuclear materials. COVERkGR: This is a collection of papers presented at the Moscow Conference on the Effect of Nuclear Radiation on Materials, held December 6-10, 1960. The material reflects certain trends In the work being conducted in the Soviet sclentific research orginization. Some of the papers are devoted to the experimental study of the effect of neutron Irradiation on reactor materials (steel, ferrous alloys, Molybdenum, avla4 graphite, and nichromes). Others deal with the theory of neutron Irradiation effects (physico- chemical transformations, relwmtion of Internal stresdes, internal friction) and changes In the structure and proper- ties of various crystals. Special attention Is given to the effect of Intense Y-radiation on the electrical, magnetic.. and optical properties of metals, dielectrics, and semiconductors. Card 2/14  The Effects of Nuclear Radiation (Cont.) SOV146176 Pravdyuk, N. F., V. A. Nikolayenko, and V. I. Korpukh1n. Change IV Lattice Parametcrs of Diamond and Silicon Carbide .During Irradiation 184 %b-d-ullayev, (01.__P. On (h-* Method of Using and P COmImm-SUITI-de Photoresistors In Recording X- and Y-ray Posim6ter 189 Konobeyevskiy, S. T., A--Y"-1*uitsk4, .D. PuteJejev, K. P. 't . lione X-Ray RxiOna- nd 7~ Dubnoular V.-I"UtAAbis, a _-Y. N. Kdb-v! tion of Transformations In Copper-Tin Alloy Under Neutron Irradiatlon Levitskiy, B. It., and L. D. Panteleyev. X-Ray Examination of the Relaxation of Internal Microstresses In Cold-Worked Metals Under Neutron Irradiation 209 Konoboyevskiy, S. T., N. P. Pravdyuk, X2, jokroVskly, and V.- I..Vikhrov. Effsot of Neutron Irre:d-I&t1o-n--O-n-Tfit4T1qa -Friction--1vr--Xet&ln 219 Card 9/14  KONOBEYEVSYIY, S.T.; PRAVDYUK, N.F.; DUBROVIN, K.P.; I&EVITSKIY. B.M.; PANTIBUYEV, L.D.; GOLYANOV, V.m. Study of structural changes produced in uranium-molybdenu-n n1loys by neutron irradintion. Atom.energ. 4 no.1:14-44 Ja 151. (MIRA 11:4) (Urnnium-molybdenum alloys) (Neutrons)  /'V 7-,--- Z_ Z AUTHORS: Konobeyevskiy, So T., Pravdy-uk, N. F., Dubrovin, K. P., 69-1-4/29 Levit;: 1B. M., Panteleyev, L. D., Golyanov, Ve 11. TITLE's Inves'I_-.e,.AtIons of Structural Changes Occurring in an Uranium-Nolyu- denum *-Uoy by Neutron irradiation. (Issledovaniye strukturnykh izmeneniy~ proiakhodyashchikh v sPlave urana s molibdenom pod deyst- viyem neytronnogo oblucheniya)o FERIODICAL; Atomnay;a Energiya, 1958, Vol. 4, Nr 4 ppe 34-44 (USSR). ABSTRACT: An U + Mo alloy with 9.05 weight percents of go is produced in a vacuum induction furnace. The melting charge is rolled out in a warm and cold state until a thickness of 0,1 mm is attained, From these fails the samples for measuring resistance and for radiographic in- vestigations are produced. Before irradiation with neutrons, the samples are suojected to a homogenizing process of annealing (in LhE vacuum) at a temperature of loococ JInr 'A-a-ee hours, after which they were cooled in the air. After irradiation by neutrons the electric resistance was measured and the structure of the alloys was investigated radiographically and under the microscope. Card 1/2 The thermal treatment described made it possible to obtain samples  89-"/29 Investigations of Structural Changes Occurring in an Uranium-41olybdenum Alloy by Neutron Irradiatiori. 'with the structure of an eutectoid a +r , which has different sizee of grain. It was found that the diffusion velocity leading to a homogenizatiol: under the influence of irradiation in the annealed samples is invers 8ely proportional to the square of the size of grain. In the homogeneous sample (Ar- phase) irradiation causes a modificam tion of properties and of structure., and already within a period of from 2 - 4 hours a maximum of effect is attained, This may be imam gined to be something like "irradiation incandeseence"s In the phase also a re-orientation with transitions to a cubic lattice been observed. This phenomenon occurs already during the first hours of exposure. The size of the domain of the thermal peak and the energy liberated was determined at 2,5. lo-l~- CM3 and e,-- 2 MeV. These values are lower Uan those corputed Ueoretically according tc reference 2. There are 13 figures, L taUes, and L references, 1 of w,3ich ar( Slav.,c. S11,YMIR Eeptember 11, 1957. AVAIL&BLE: Library of Congress. Card 2/2  ,P"q [V T F 'i - Z'- 'Y Zr_- VL__ Y) HIM-ENERGY NUCLEAR PMICS: PARTICIE BOMMMERT OF NUCLEII "Study of Structural Changes Produced in Uranium-Molybdenum Alloys by Neutron Irradiation," by S. T. Konobeyevskiy, IV. F. Pravdyuk, K. P. Dubrovin, B. M.GLevitakiy, j,-1--Pan~eleyev, an.-I V. M. Golyanov, Atom- naya Energiye, No 1, January 195C, PP 34 44. An alloy of uranium with 9 percent of molybdenum by weight was bom- barded with neutrons, after which the electric resistivity wL.3 measured and the structure investigated by X-ray diffraction and microscopic analysis. Preliminary heat treatment had made it possible to obtain s-Decimenta with an eutectoid structure . of varying grain size. It is established that the rate of diffusion that leads to homogenization under the influence of radiation in vi-ffieled aDeciments is inversely )r-- portional to the s~.;uare o!' f.r-u autectold). In the homoFoneous fj-,ecimen -phase), the irradiation causes a rapid chagbe in the properties of the structure, reaching a limiting value within 2-4 hours. This is explained as the consequence  of radiation annealing. A disorder phenomenon is observed in the phase, with a transition to a cubic lattice, occurring under the influence of radiation during the first hours of exposlare. All of these phenomena are statisfactorily axplained on the basis of a previously developed theory, but different values are obtained for the region of the thermal peak and for 2a energy liberated in it.   - -- -,- i 4& w . I 1-1,--,-l-k,',l    PAII=ZfEv) M. 0. z a"r, ; g~r.z.".Uro 1. Ura--'Fkl-y ss~edava,ellskiy i pr-y,k~nyy .,,,Li t,. p 1-(i-niy Sveri r rll,)gj I rig TA-'a. z  VOLIKHIN, B.A.; PANMIEYEV, M.G. Occurrence of rock pressure in experimental use of a system with a flexible metal coiling in northern Ural bauxite mines. Trudy Inst. gor. dela UFAN SSSR no.5sl3-20 163. (MIRA 16:9) (Ural Mountain region-Rock pressure) (Wne timbering)  PAYnUMN. M.G. Determining strain in pillars in Dzhekazgan mines b7 their relief - Trady Unipromedi no.2:119-ln '57- (MIMA 11: 3-1) DZh02kazgan-HInIng engineering) 3trains and stresses) 1  VOLIKHIN, B.A.; PANTELEYEV, M.G. HwAfestation of rock pressure in testing the system of zinIngi1*dtKWJaw-- AAft ahield of metal strip at the northern Urals bauxite rdne. Vop. gor. i, davl. no.18:63-69 163. (MIRA 18:7) 1. Ural'skiy nauchno-issledovatellskiy i proyel-,tnyy institut mednoy pronyshlennosti.  PANTEISYEV, M.G., b3zh. Desintegration of pillars in mines of Dzhezkazgan. Bezop. truda v prom. 4 no. 5:10-12 My 160. WIRA 14:5) (Dzhezkzgan-Copper mines and mining)  24 SOV/101-58-6-11/13 AUTHORS: Syrkin, Ya.M., and Panteleyev, M.N. TITLE: The Improvement of the Lepaul Furnaces in the Cement Plants of the Chinese People's Republic (Usovershenstvovaniye pechey Lepoll na tsement- nykh zavodakh KNR) PERIODICAL: Tsement, 1958, Nr 6, pp 34-35 (USSR) ABSTRACT: At the Syaotun and Mudanzyan Cement Plants, Lepaul furnaces of 4 x 42 m were installed in 1940. Limestone with a 1-3% and clay with a 15% humidi- ty, together with iron ore, are used as raw ma- terial. The chemical composition is diown in table 1. In 1950-1957, the furnace installations were improved. Water is now supplied through three pipes (Figure 1) which ensures a high stability of the granules and equality of the granulometric composition. The form of the feeding hopper was Card 112 changed (Figure 2) in order to distribute the  25 SOV/101-58-6-11/1-5 The Improvement of the Lepaul Furnaces in the Cement Plants of the Chinese People's Republic granules more uniformly, The dr ing chamber was divided into two parts kPigure 3~. These measures raised the productivity of the furnaces to 29 tons/ h, but increased the dust loss, the specific heat consumption, and the temperature of the clinker. There are 3 sets of diagrams and 1 table. Card 212  STRKIN, Ta.M.; PAIVEL=., M.N. Improvement of Lepol kilns in cement plants of the Chinese People's Republic. TSement 24 no.6:34-35 N-L 15 9 (MIRA 1211) (China-Cement kilns)  PAWf=YNV. X. F. Problems conoorning the mining of $tape@ Aooording to Ok One-cyalo-per-day schedule at Koscow Basin mines. Ugol, 28 no.12:34-36 D 053. (HLRA 6:11) 1. Starshly nauchnyy sotrudnik PWIUI. (Koscow Ikisia-Coal mines and mining) (Coal mines and mining- Koscow Basin)  PARTELEYEVP m. P. Panteleyev, M. P. -- "Determination of Rational Systems of Hinin Heavy Coal Strata Under the Conditions of the Podnoakovnyy (Near MoscZ Basin." Moscow Mining Inst imeni I. V. Stalin of the Min Higher Education USSR, Chair of Exploitation of Stratified DepoBits, Moscow, 1954 (Dissertation for the Degree of Candidate in Technical SCiCMCeB) SO: Knizhnaya Ioetopisl., No. 23, Moscow, Jun 55y pp 87-104  I,- -PANTELEYgV, M.V- Conference of the readers of "ProWshlennaia Energetika" journal in Gorkiy City. Prom.energ. 17 no.2:46.-47 F '62. OMIRA 15-3) (Electric pouer-Periodicals)  HEYSERR, igorl Mikhaylovich, doktor istoricheskikh nauk; AKHWIOVICH, Roman Timofeyevich . I-Widat istoricheskikh nank; PARrMYEV.H.V., redaktor; ISIJWIYBVA.F.G.. tekhnicheekly rell~~Vll~~-,-,:4-. 1-:- [Oar neighbor Afghanistan] Hash sosed Afganistan. Moskva, lzd-vo nznanie,n 1956. 47 p. (Vaesotunoe obvficfi4ivo" po rasprostrane- niiu politicheskikh i nauchnykh znanii. Ser. 1, no.4) (Afghanistan) (MlHA 9:4)  PAMELEYEVp M.V. Conference an the saving of electric and thermal energy. Prom. energ. 18 no.10:43-44 0 163. (MIRA 16:10)  PANTELEYEV, M.V. Conference of the readers of the periodical "Pronyshlennaia energetik-~.," held in Gorkiy. Prom. energ. 19 no.3:40-42 Mr '64. (141RA 17:4)  ,,q)qjjT_r_ jE 1?c- V M I/ NEWOV, likolaY Ivanovich. kand.ist.nauk; PAUTEWRY, H.V., red.; GUBIN, X.1.9 tekhn.red. [Struggle of the Communist Party of the Soviet Union for the realization of the lenin cooperative plan during, the reconstruction period] Bor'ba Kommanisticheskoi partii Sovetskogo Soiuze za oaushcbeetvlenit) laninskoeo kooperativnogo plane v vosstanovitell- ny-I period. Kookva, IEd-vo *Znanie,O 1958. 39 P. (Veasoiuznoe obsbehestvo po rasprostrananitu politicheakikh i nauchnykh znanti. Ser.1, no.10) (MIRA 11-5) (Run sia --Economic policy)  MILIBIEMU, Mikhail Abramovich. general-mayor; SLOBOBSKO, Aleksey Kiwillovich. polkovnik; ; FAMMM. N.Y.. redaktor; GUBIN, R.I., tekhnicheskiy reaektor [Military ideologists of capitalist countries on the character and mans of conducting modern war] Voennye Ideologi kapitalistidhemkikh tran o kharaktare I sposobakh vedenits sovrewennot voiny. Moskva, nd-vo "Usullo.0 1957. 63 P. (Yeasoiusnoo obshchestvo po ramprostre- I nenilu, politicheskikh I nouchnykb znanii. Ser.1, nom.11-12) (War) (KLEA 10:7)  PANTvl,rY7V, '~,V-, ,f 11: - . -1~. in rjorkiy. rs ~ - - pp Conference, of -,he reade _ri d~.cal he (I-IJRA 18:4) Elek.sta. 36 n-D.2:92 F 165.  P Primary organization in mines is introducing new NTO no.7:23-24 Jy 159. (MIRA 12:11) 1. Pradnedutel I govota nauchno-tolchnichookogo gornogo obilhchrl- stva shaklity PrivoI'nyanskuya-YuzbnVu Lugurtalcogo soviiarkhtza. (Lugansk Province--Coal mines find minlng--Rescarch)  PAMLEY". inzh. Standards research uork on the Bukhara - Ural Mmmtain Region route. Stroi. trdboprav. 7 no.l2sU-12 D 62. (YM 16:1) 1. Trest Nefteprovodmontazh, Ufa. (Gas,, Natural-Pipelines) (Construction industry)  BUDARIB, V.A.; ftlma otvetstvannyy redOctor; ZHDABD 11 otvetstvennogo redaktors; RACHKO. V., redaktor; IURIY3, A., teldinicheskiy redaktor [Album of visual side for studying political economy; 'capitalism" section] Al'bom negliadrjykh posobii po politicheskol ekonomit; resdel 'Kapitalizm." [Lentag,'red) Goa.isd-vo polit.lit-ry. Pt.2. 1956. 38 plates. (HIAh 10:10) 1. XommuniatIchesimye Partiya Sovetsicago Soyuss. Vysshays partiyusys skola. (Sconomic conditions)  AUTHORS: Kole snikov TA.G., ~~tel~eev Pyrkin, Yi. V.P.,and Ivano-,~, V.N. TITLE: Apparatus and Methods of Measuring Micro-Pulsations of Temperature and Flow-Rate in the Sea (Apparatura i metodika re-istrataii turbulentnykh mikropul'satsiy temperatury i 0 skorosti techeniya v more) PEMIODICAL: Izvestiya Akademii Nauk SSSR7 Seriya Geofiziches,'~,aya, 1955, Nr 3, pp 405-413 (USSR) A-13STRACT: The instruments usually employed in measuring temperature, etc., in the sea have so long a period that t.',.ej )niy mea- sure averacges. For the study of turbulent processes (e.rr turbulent heat flow, viscosity, etc.) it is necessary tc- LLve instruments with a short enough period. Tei-2-perazure measurement is usually carried out either with a tLerm-)- couple or a resistance thermoME!ter. The formr_~r the difference between the actual and the avera--e te'.-.~~-rature, whilst the latter measures also the actual The authors describe experiments of Urick and Searl'os-- ~,194~2) Liebermann (1951), Kontoboytseva (1958) and Englis i (19'3~ on temperature measurements, and ones by Bowden an..L Fairbairn (19521 1956) and Obukhov (1951) on rate-of-flo%,-., -.irc_,;j_rements. Card 1/5 The authors then discuss the basis of a new aT_)aratus. The  49-58-3-1 /'9 Apparatus and Metliods Df I'lleasuri-n- Aicro-Pulsari_3ns -;T' and Flow-Rate in the Sea. time constant must be less than 0.1 see for the apparatus. The accuracy of measurement of tem-,;er_n.tare in a sea where the surface is ice-free must be 'vO.001-0.0050c' if ice is present the required accuracy goes up to 0.0001 C. The accuracy of velocity measurements must be no-t 1~:ts3 t1ian 2-5 mm/sec for an ice-free sea and not less th~,n 0.1 -_=,/sec for a sea shielded from wind el ''fects by ice. To D'_~L correct recurdings with the required accuracy, apparatus must be stationary. The authors now des,cribe their actual apparatus. The meter consists of zieas-iring devices at two different levels, a distributin,- anJ balanc- ing network, an amplifier and an oscillograph. TtLe :neasur- ing device at the upper level has three constituents: for ueasuring true velocity, true temperature, and the modulus of the velocity vector and the vertical com-~:,onent of the velocity vector. At the lower level, true velooity and true Uemperature are measured. Hence the meter recordS simultan- eously: avera--e temperature, the gradient of the av---ra-e C, Uemperatare; temperature pulsatiDns avera:,,e velocity it-nd th-e Card 2/5  49-58-3-16/19 Apparatus and Methods of Measuring Micro-Pulsations of ana Flow-Rate in the Sea. gradient of the average velocity, pulsations of the m,ldilus of the velocity vector and pulsations of its vertical oDm- ponent. Velocity signals go straight to the oscillograph; whilst temperature signals go to the oscillotraph via a Wheatstone bridge and an amplifier. Power is supplied by the constant current from an accumulator. Temperature mea- surements were carried out with a thermistor with a tempera- ture coefficient of resistance of 3-11% and a -.-eriod of 0.08 sec. This was placed in one arm of the Wheatstone bridge. The power supplied to the thermistor was so chosen that the desired accuracy of 0.001"C could be obtained. Small dovia- tions from the average velocity give diminished th-(_-rm-;stQr readin-s if the electric current is diminished or the aver- age velocity increased. The device for measurLn~; tLe aver- age flow velocity oonsists of a 0.1 mm diameter, 28 m-r long platinum wire, which is included in a bridTe syste!:!. T'-Ie wire is stretched perpendicular to the stream flow. Mc-,,-- surements are made at a constant current of 1-5 airp_-' aer,:nd- ing on the velocity. The device for measuring the :i~d-,_Llu3 of the velocity vector and of the vertical com-l-,onent ha,3 -I-co Card 3/~ latinum wires in the bridge syste,.~,i. They are se- iu. r-. .,_,;it  49-58-3-1 /Ic' 0, j Apparatus and Methods of Measurin.- Micro-Pulsati:)ns o fL and Flow-Rate in the Sea. ari-les to each other; their bisector is in the :)f c~' the current and lies in the vertical plane. 3Dm- DDnents o'L flow are measured by the resultant asyinm~~Iury -.)f ;he system with respect to the flow. The meter alt--ret'ier consists of two parts, both of which are attached to diff- erent parts of a steel cable at a vertical distuancr, of from 0.5 to 2.0 m. The basic part (which car. :-ove f-----ely round a vertical axis) is at the top. A vane kt~e-.s t__'-_e apparatus oriented into the current. The rAeas-arJ_n,-I 31--me-ntus are placed at the front to reduce the effect of d st.,j_rbance. All but 5-6 mm of the thermistor are enclosed in an eb:)ny casin- from which leads run back through a tube to the centre of the apparatus. A lead counterweight is employed to keep the meter horizontal. The measuring elements are protected from mechanical damage by a wire grid The eiaperature mea- surer was graduated in the interval 5:o-30.0 C with a Beckmann thermometer for different currents in the thcrmistor. The velocity measurer was graduated in the range 0-50 c,-i/sec. Card 4/5  4,11 -5._- 3 -16/ 1'z,~ Apparatus and Methods of Measurin.- Ylicro-Pulsations of and Flow-Rate in the Sea. The instrument is let down from a winch. After it has been kept at the right depth for 3-5 minutes the oscillo,.-rai:,h1 is switched on and measurements are made. The authors Zive examples of oscillomrams obtained and their inter:-,retation. They assert that the meter seems well adapted for .-easure- ments on turbulence. There are 11 figures and 7 references, of which 5 are English and 2 Russian. ASSOCIATION: Moscow State University imeni M.V. Lomonosov (J0s11c-)%rs!C1y :-osudarstvennyy yniversitet im. h,1.V.Lomonoqova) ci SUBMITTED: Uarch 1~, 1957. AVAILABLE: Library of Congress. Card 5/5  FAIFTEZY 01, 1.1. A. XT-EXX "Investgati --ns ~,-r ' r,-l-lence * n Surface Vater Laye:- -..r - e -* I L. - - I- - Sector of the Indiar, and ?acific x-,~.-ans. " t, report to be submitted -L,-r the in.1. Cjcean,,Crap,.ic ConC,. licw lc,r', -1 .,, 31 Aug - 11 Sep l'-159. (1-13scow State Univer-~IIJ-)  I !. ,3. 6 DOD AUTHOR: '-panteleyev, B.A. 69006 5/055/59/000/04/015/026 B014/BO05 TITLE: Instrumental Determinations of the Characteristics of Turbulent Exchange in the Qce vv~?_ PERIODICAL: Vestnik Moskovskogo universiteta. Seriya matematiki, mekhaniki, astronomii, fiziki, khimii, 1959, fir 4, pP 141-147 (USSR) t/di, I/ ABSTRACT: The present paper informs on results obtained with the fourth model of a turbulence measuring instrument in measuring the turbulent mixing of water surface layers in the Antarctic portions of the Indian and Pacific Oceano The investisrations were carried out during the third Antarctic Sea Expedition on the diesel-electric ship 110b"' in January-February 1958. Figurp I shows the turbulence measuring instrument "Turbulimet L~_It is designed for determining the horizontal and vertical component of the current fluctuation rate, for measuring the mean water temperature, and for determining the water turbulence structure. The latter was determined by means of two thermistors. A special device secured the vertical position of the instrument. The measured values were recorded by a loop oscillograph. The measurements were made down to a depth of 45 M. Figure 2 shows the measured values recorded at station Nr 350 Card 1/3 at a depth of 7 m on January 19, 1958. The temperature pulsations  69006 Instinimental Determinations of the Characteristics S/055/59/000/04/015/026 of Turbulent Exchange in the Ocean BO14/BOO5 were 3.9.10-'dM the vertical component of the velocity of flow was 1.2 cm/seo. The ratio between vertical and horizontal component of the velocity of flow was 0.86. Visual observation of the oscillo- graph permitted an estimate of the turbulence. The statistic evalua- tion of 177 observations was made by an electromechanical correlator. Figure 1 shows the results, the vertical distribution of the root mean square values of measurements made at station Nr 332 on January 25-26, 1956, in the area of Discovery Land. The wind velocity was 5-7 m/sec, the air temperature was 4 0 below the water surface temperature. On the basis of the results obtained, the vertical heat currents and the tangential friction stresses were studied. At a depth of 10 m, the former showed a maximum value of 12.0 15.0.jo-3 cal/cm2sec, the latter were within a range of 3-0 5.o.jo-5 up to 0.57 dyne/cM2. The tangential stress and the velocity gradient are graphically represented in the diagram of figure 4- Figure 5 shows the coefficients of turbulent heat exchange and turbulent viscosity. There are 5 figures and 4 references, 2 of which are Soviet. ASSOCIATION: Kafedra fiziki morya i vod sushi (Chair of Physics of the Sea and Card 2/3 Inland Waters)  Instrumental Determinations of the Characteristics of Turbulent Exchange In the Ocean SUBMITTED: May 29, 1959 69006 S/055/59/000/04/015/026 BO14/BOO5 Card 3/3  PANTELEYEV, N. A., Cand Phys-Math Sci -- (diss) "Instrumental research into characteristics of turbulence in the surface layer of the waters of the Antarctic sector of the Indian and Pacific Oceans." Moscow, 1960. 13 PP; (Moscow State Univ im M. V. Lomonosov); 200 copies; price not given; (KL, 2?-60, 148)  PANTEILYE-YEV N A - Investigating the turbulence o Antarctic sector of the Indian kom. 10 no.1:137-140 160. 1. Kafedra fi universiteta. regions-Oceanographic (Turbulance) .9f water in the , Trudy Ckean. (MIRA 1,4:6)  PANTELSM, N. A. PISAREV, V. D. KOLESNIKOV, A. G. The Results of Direct Definitions of the Intensity of Deep-water Turbuient Diffusivity in the Atlantic Ocean. report sumitted for the 13th General Assembly IUGG, (Oceanography) Berkeley, California, 19-31 Aug 63  L 10012 -67 ACC NR: AVU 'W16B- SOURCE CODE: UR/0188/66/000/005/0121/0123 AUTHOR: Panteleyev, N. A.: Pisarev,__X,__D. ORC: Chair of Phy.�~cs of the Sea and Inland Waters, Moscow __ Vnive-rsity (Kafedra fiziki morya-i-vod sushi Moskovskogo universiteta) TITLE: Strength calculation and watertight sealing of deep-sea measuring instruments SOURCE: Moscow. Universitet. Vestnik. Seriya 111. Fizika, astronomiya,'no. 5, 1966, 121-123 TOPIC TACS: hermetic seal , sealing device, comp~revsive strength, compressive stress,' oceanographic equipment, oceanographic tnatrument, watertipht seal, turbulimeLer ABSTRACT. The Chair of Physics of the Sea and Inland Waters of the Physics_Departmenc of Moscow State University has designed, built, and tested a watertight steel con- tainer for housing automatic instrumentation for studyirg deep-sea turbulent exchanFe~' (see Fig. 1). The article presents the method for calculating container strength and illustrates the self-sealing watertight seals used I:or the cover, a plexiglass port, and the electrical leads from externally mounted sensors to the container interior. For a working pressure of 1100 kg/cm2 and an inside diameter of the container of 26.4 cm, the calculated wall thickness is given as 42 mm, and the cover plate and bottom as 9 cm, with an adequate safety margin. Figure 2 shows the cover-plate seal,i where I is the container, 2 is the cover bolt, 3 is the cover plate, 4 is a 10-mm- thick rubber gasket and I and II are the cover-plaLe and container mating surfaces Card 1/4 UDC: 551.460.18  L 10012-67 I-ACCNR-iAP-6036168 i N, Fig'. 1. Deep-sea turbdlimeter ----I 111. Fig. 2. Container cover-plate seal .0  L 10012-67- ACC NRi R6036168 Fig. 3. Electrical-lead seal I - Steel support disk; 2 - rubber sea; 3 - flanged brass rod soldered to (7); 4 texto- lite interface; 5 - rubber seating; 6 steel pres- sure disk; 7 - 6-mm (o.d.) single-strand, rubber- sheathed wire; 8 - end nut; 9 bushing; 10 - wire soldered to (3); 11 - bushing; 12 bolt; 13 - cover plate; 14 - round rubber gasket. :ard 314 Fig. 4. ~lexiglass-port seal I and 2 - Rubber sealing gaskets; 3 - clamping ring; 4 - plexiglass port; 5 - bolts; 6 - casing.  _L 10012-67 ACC Nk;--AP6036168 (class-7 microrougbness). The initial gap between I and 11 is 3 mm. After tightening, the surlaces are flush, and, as the container descends, water presnure acting on the outer edge of the gasket provides increased sealinR efficiency with depth. The sealing arrangementfor an electrical lead from an externally mounted sensor is shown in Fig. 3. Up to 15 leads can be accommodated in this arrangement. The sealing arrangement for a plexiglass port 30-mm in diameter and 25-mm thick is given in Fig. 4. All the above sealing arrangements were tested at the_jen~nFrad Branch of the All-Union Scientif_:Lc_.Rjeqearch _cbjn _,and,__Dea_ign_ -Iris I lia fii theHigh-Pi~~sure Laboratory of Moscow State Univ.!~rsity (to 1200 atm), and aboard the R/V ffikhail Lomonosov 1~ to 6500 m in-tYe-Effafitic Ocean.i,/The tests demonstrated the absolute reliability oi the designs and tne simplicity"of their use. Orig. art. has: 4 figures. SUB CODE: 08, 13/ SUBM DATE: 02Dec65/ ORIG REF: 003j' ATD pREss: 5105  _V~~951_6 6/03 61000100151002 ~71 ACd NR_,i%Oi3~~j AUTHOR: Kolesnikov, A. G.; Panteleyev, N. A.; Aretinskiy, G. Yu.; Dykman, V. Z. ORG: None TITLE: Apparatus for measuring the turbulent pulsations of current speed and tem- perature at great ocean depths SOURCE: AN VkrSSR. Morskoy gidrofizicheskiy institut. Trudy, v. 36, 19'6. Metody 0 i pribory dlya issledovaniya fizicheskikh protses6ov v okeane (Methods and instrumients. for studying physical processes in th e ocean), 15-25 TOPIC TAGS: oceanographic instru- ment, V1 ;1P oceanography, ocean current, temperature detector, tempera- ture measurement, elect nic equipment, transistorized circuit, OC-E,9AI 7 151filr-& ABSTRACT: The third model of a deepwater automatic turbulence meter (GAT-3), a transistorized version of the earlier GAT-2, developed in 1964, is described. Wor? on these meters began in 1956 in the Maritime Hydrophysical Institute of the Academy of Sciences of the Ukranian SSR under the leadership of Member-Correspondent A. G. Kolesnikov. The GAT-3 permits simultaneous recording on seven channels, of the vertical and horizontal components of speed pulsation, average speed, three components~ of the instrument's self-acceleration, and time. Temperature pulsations are also registered by a preheated sensitive element. The motor is encased in a steel  container, designed for a maximum depth of 12 kilometers and was first used in the Atlantic Ocean in 1962, during the twelfth cruise of the scientific research ship Mikhail Lomonosov. A block diagram of the major measurement channels in the meter is included and described in brief. A more detailed wiring diagram and description of the major components, including the oscillator, measuring bridge, imbalance amplifier, phase discriminator and automatic balancing block is included. The calibration scale, recording device, automatic control system, and their mountings are described in brief. The shortcomings of this meter and an indication of the direction in which new work on improved measuring devices and methods is headed, with special importance attached to maximum diminution of size and weight of both meter and container for use directly on the ocean floor, conc3udes the article. Orig. art. has: 5 figures. SUB COM 08,201SM DATE: None/ORIG REF: 002   KOUSNIKOV, A.G.; PANTETEmr. N.A.. PISARFV, V.D. Direct de-iermination of the intensity of turbulent exchange in the depths of the Atlantic O,ean. Dokl. AN SSSR 155 no. 4:788- 791 AP 164. OMIRA 17:5) 1. 14oskovskiy gosLidarstvennyy universitet im. M.V.Lomonosova. Predstavleno akademikom V.V.Shulay-ki-nym.  PISAREVJ, V. D.; PANTEELEYEV, N. A, - Compact color tape pulse recorder. Vest.Mosk.un Ser-3;Fiz., astron.19 no. 2:64-66 Mr-Ap 161+. (MIRA 17:5) 1, Kafedra fiziki morya i vod suzhi Moskovskogo universitata.  KOLESNIKOV, A.G.; PARTELEYEV, N.A.; PISAREV, V.D.; VAKULOV, P.V. -' Deepwater autonomDuf) turbulence meterp V instrumnt for recording the turbulent velocity fluctuation and Cie temporature of the ocean. Okeanologiia 3 no.5-.911-921 163. (MIRA 16:11)  124-1957-2-1738 Translation from- Referativnyy zhurnal, Mekhanika, 1957, Nr 2, p 42 (USSR) AUTHOR- Panteleyev, N.I. TITLE: `i3o~ermination of the Steam Leakage in a Turbine Through Lhe Exter- nal Packing (Opredeleniye utechek para v turbine cherez naruzhnyye. uplotneniya) PERIODICAL Tr Leningr. korablestroit. in-ta, 1955, Nr 15, pp M6-151 ABSTRACT- Formulas are presented for the determination of steam leakage through the labyrinth packings in a steam turbine, with due rer,ard to the heat transfer from the steam to the shaft. The calculation, following the Author's method, shows that the cooling of the steam, which increases its specific gravity, raises the leakage up to 10 to 12 % above that computed on the basis of Stodola's formulas which do not account for the effect of the cooling of the steam. G.A.Varshavskiy 1. TijTbines--Equipment 2. Steam--Temperature factors 3. ?a,,,::in.; --PerFormance Card 1/1  PANTMEYEV j, N. 1. "Investigation of the Operation of the Main Turbine Gear Aggregate During the Braking or Janming of a Screw Propeller." Cand Tech Sci, Leningrad Shipbuilding Inet, Lenin gra d, 1954. (KL, No 4, Jan 55) Survey of Scientific and Technical Dissertations Defended at USSR Higher Educational Institutions (12) SO: Sm. No. 556, 24 Jim 55  FA ~.", - " --' -, ". :1. T. 5 2 C., . Is - e-' ),. -~n ' v - :- .- ` 7- - - - ' - r' I' ~ . 1 1 " ' ~, - ' - - - 7 P- * * 12 -' zrakll '; r. 11 -, --ar ~ ' i7n, :. - j -~ - '- t:m . 1 . . : ' 4 . ,./!7 . I' ,I:- . (I - ~. a : i r - - . -,,- , , .) . - ~ - -'I,' ~: ., . -~, z ; .. , , '.- I I Ki; 4 ~ 7 nay a I , !, -, - --" ~ - I '. . . , ' ' ~, I :  6: ~q ~Fwrl ti-Od -r1 lig 1953, -4li .ra) ter~ntef 614M. Lip tEl 13W -begju,j,y" 11, 31(n) ka~c Inmus 016T thiAincjra~ Hind, b r=4 obt-erved oul Ill the C~ks, P y impu1sx- HImiuatiott. uld! a Implency [if 10) fliobru/ mm, vuly a F4nGkL of (Ike, photwurept the sh)-grgi5h rvlture;~q: .10,1y tkfl.' e 1) CIRCU ary V lectrwilc- im~4. fr~,m the mid e NeAffiet rAn it be e-xplalped by ex- -Li mvt tit ritudon of c4ccuoug bylighl and their inip-mimi Ar -,.-A -1--  PANTELEYEV, N. N.: Master Vet Sci (diss) -- "Nutrient media irom enzymal 'I.- drolysates of casein in the production of old tuberculin". Leningrad, 1958. 14 pp (Leningrad Vet Inst of the Min Agric USSR), 150 copies (KL, No G, 1959, 140)  30V/26-50~---16/47 AUTHOR: Panteleyev, N.N. TITLE: Organic-Mineral Mixtures PERIODICAL: Priroda, Nr 3, pp 90 - 92 (U=-R ) . ABSTFMT: On forest-steppe and turf-podzol soils, the yield of agricultural crops is low and unstable -,%,ithout organic and mineral fertilizers. By introducing a great quantity of manure or peat composit (20 t and more to 1 hectare) the fertility %-:i11 rise considerably. However, the majority of kolkhozes have difficulty in providin,,; their fields with organic fertilizers in such quantities. The su-- gestion of Academician T.D. Lysenko, to use organic- mineral mixtures for the pre-sowin.- c-,11~ivation of grain, which require 3 to 10 times lesc manure, has aroused considerable interest. It is notewort-hy that when applying 20 tons or more of manure, only 15 96 of the nitrogen applied with the fe--tilizzer C~ will be utilized by the first crop. In case of or- ga.nic-mineral mixtures, the nitrogen of these Card 1/4 fertilizers is utilized completely; besides, the  Orr,anic-Uineral Ilixtures U plants use an equal qtian,-.itiy of nitro-en -:i.;!)i1iZed by the soil's aicroorr-anisms. ,','U- the sa,,iie +Llii:-,e, the biological process of convertin- f I . . -ood inaccess- ible to tiie plants into accessible food 7,.,ill increase. Since 1955, the comparative effectiveness of the basic kinds of organic fertilizers in organic- mineral mixtures has been studied on grey forest- steppe loamy soils at the Gor'kiy __`xperimental Agricultural Station. The results can be seen from the table cf winter wheat crops Z-table 1_7. The data shows, tiiat half-rotten manure produces a better effect thLn dry humus. In one of the ex- _perJ - ments, conducted at the station by 3enior Scientific Worker A.V. Dorozhnov, the chopped chaff of annual lupine, obtained -,%rhen harvesting lupine by ensilage harvester, was testpd as an orF-,Lnic fertilizer ( a Card 2/4 component of th organic-mineral mixtures).  r-l- _ 7 _ Organic-11ineral Mixtures By applying 300 kg of superphosphate and 500 kg of dolomite flour with 6 tons of chopped lupine chaff, the winter wheat crops from 1 hectare rose in 2 years from 264 to 302 kg. The author further deals with the doses of half-rotten manure and the doses of "Lime fertilizers in organic-mineral mixtures, also with the effectiveness of these mixtures Z table 3-7. The area fertilized with organic-mineral mixtures increases every year. In lc,58, the Gor'kiy ._-]xperimental Station tested several machines. Amon3 those which ;-,roved to be good -~~,as the fertilizer mixer-loader SIPU-40, and the univeral spreader-tractor (TUR-?). Atthe Gor!- kovskiy avtozavod ("Tor'kiy Automobile 111,int) con- s-cruction is being, completed of the spreader of mixture and composits of the TUR-7 type. There are Card 3/4 3 tables and 1 Soviet reference.  SOV/26-50J-3-16/47 Organic-Mineral Mixtures ASSOCIATION: Gor'kovskaya gosudars-uvennaya sel'skolldiozyaystvenn- aya opytnaya stantsi~a (Gor'kiy State 71-,cperimental Agricultural Station) Card 4/4