SCIENTIFIC ABSTRACT KHRISTENKO, N.G. - KHRISTLANOVICH, S.A.

MISTINKO, N.G. On the distribution of Aithynts, leachi Schapp. in the lakes of the Bol'shore lake group in Krasnoyarsk Territory [with Inglish Buis- nary in insertJ.Zool.shur-35 no-10:1583-1584 0 1560' (Km 10:1) 1. lafectra. obeahey biologii Krasnoyarokogo gotudarstwennogo meditsip- skogo instituta. (Chulym Valler-Snails) (Liver fluke)  KHRISTENKO, N.V. Effect of hypoxia on changes in the electroencephalogram. Trudy TSIU 66:269-272 164. Selection of the optimal respiration regime in an open thorax. Ibid.:273-281 (YJRA 1815)  v Cntogory s USSR/Rucloar Phydea - Nuoloar Engineering, and Power Abs Jour : Rot Zhur - Mika, No 3$ 1957t No 6106 Author Alikhrnov, A.,1.,.Vl,adinirskiy, V.V., Petrov, P.A., Title -4WRrv-y Water Power Reactor with Goa Cooling. Orig Pub i Atqm@ anorgiya, 19564-mo- is 5-9 Abstract Discussionof the advanta gee of heavy water nuclear reactors, which may turn out to be-sufficiontly economic for use in r.tonic electric stations, A roactor'design is described, in which heavy wator Is usb@ both no,-m-odler'ator end coolant. The fectore affecting t1i'e'the- m' a 1'power of the reactor and the efficiency of the power 'portion, i.e., affecting in the final analysis the electric power of 'the stomic electric station, are considorad, Thu Authors rouch tho conalusion that the atonic 0100trie station can be profitable if natural uraniur- is used, accompanied with-deap burnup@cnd maxim= possible electric powar, with a cortain roduction in officioncy. A noavy water powerroactor with gee cooling is described. The use of gas in combination with heavy water moderator Card 1/2  M@0=110- 2- 1-- PE9ROVIP P. A., MROPOIEVSKIY, V. A., SINETTIKOV, K. D., IVANOVY V. E. and ZEIZIORlY, V. F. "Pin Fuel-Element for Gas-Cooled Heavy-Water Power Reactor." paper presented at 2nd UN Intl. Conf. on k the peaceful uses of Atomic Energy, Geneva., 1 - 13 Sep 58.  CHRISTENYO, Pei. j4hrlstenko, P.1, TROV, P A:; KTROPOLEVSKIJ, V.I. _k PF [Mitropolevzkiy@I.A* ; SIMLNIKOV, K:D [Sinellnikov, K.D.]; IVANOV, V,J,. [Ivanovi V Yee]; ZEIMISKIJp V.F. [Zelenskiy, V.F.Ij MAKVART, J. [tranalatori; KLIK, F. [tranblatorl Pin fuel-element for-gas oooled heavy water power reactors. Jaderna energie 4 no.112330-338 N 158.  fill  21 . t 9 2 0 J '2 SOVA") -61 - :5 - AUTHOR: Khrl5tenko, P. 1. TITLE: Thermodynamic Possibilltles oC Turbine Oper-ation U.,Aril, r Organic Ltquld,._@. Heated in Powev Reactor-s PERIODICA@-. Atomnaya enevgiya, 1960, Vol. 8, Nr 5, pp 2111-218 (USSR) ABSTRACT: Some organic heat carriers could be used to drive turbines using heat acquived directly from a nuc 'lear reactor. One can avoid the use of water vapor vecauoe during expansion the saturated vapors of these organic substances become overheated, although their temperature decreases. Figure 2 shows the temperature-entropy TS diagrams of water, diphenyl oxide, and mercury. If diphenyl oxide is heated up to temperature T I and enters a nozzle, it expands adiabatically to temperature T21 and the resulting jet consists then of over-heated, saturated, or, weakly humid vapor which can be aimed directly on the blades of the turbine and later Card 1/5 condensed in the condenser. Behavior similar to that  Thermodynamic Possibilities of Turbine -.".2 0 Operation U@stng Organic Liquldg Ifeateo S 0 V 16 @3 in Power Reactors Fig. 2. TS-diagram for water, diphenyl oxide, and mercury. (a) Water; (b) diphenyl oxide; (c) mercury (referred to 1 kj of saturated vapor); (b, diphenyl oxide; (c,).mer- cury (referred to 6 kg of saturated vapor). SIX + ' I LVq U VO ri-lb. WO / -/@ -- X0 b too n U.'I 4ar ;'0 Z'V of diphenyl oxide can be expected from kerosene, ethyl ether, dauthdrm, and probably N-hexane, acetic acid, and naphthalene. The author discusses the thermodynamic cycles in which directly heated liquids are used and discusses their efficiencies compared Card 2/5 to that of a Carnot engine. If diphenyl oxide is used,  T iiC n"! 1,C);_;;., L [d JAL I 'PI I H) I Opei,Al.aii U.,;Iiij, Oi--Lilile LL(jiild.: '111 Poviel, N'Q@wtol.., Cat'd One Iu-1B to keep In 1111rid th"it. at, L5 Am Land 1140 0 c 1-,!'%' kilowockitu.1 dvwlrlj@ 'jou Ill'. Lool-.Ilrlj@ It Ulu dta- 1.,Xwli oil V1.1". f!, U11u. timl, Ulu @-A*,%I,t-11n[" tempera- Lkit@,u oL' the 11(juld etit;ut,Lti@; Wic, tut-bine, cott'ld be Nxekl aL _500-11000 (1, and the Vitial could be 120-200 0 C. Thiti would coi --pespond to bep,@ trill till, pve2sure,3 01* appl'o,x. P.0-16.1@ 'Am aild I'Inal Preonureu of' 0.011@-0.1@5 :.Am ibo. Since the firial preosure of the Liquid iti corripavatively high, the tur,bine could be LIOCCI 10 -1 I'Li,st; stage, and the verriatrUng heat energy could be used In a second.watev vapor stage, as 8110M, or, Fig - 5'. Using In such binary cycle t 1 = 3500 C, tp = 200 C, t coolev @.3500 C, the theVrital eifficlenc. Iy is 0.11@. Taking for- the Lnternal efficiency of' the tur-bine 0.75, mechanical 0.96, electi-Ical 0.9'(, and the coefficient of' utilization of the theoretical cycle 0.9, ouch a device may have an overall efficiency 0 1' Thii Is quite high, conoidevIng that the  Thermo#ynamic Possibilities of' Turbine Operation Using Organic Liquids Heated SOV/89-8-3-5/32 In Power Reactors Fig. 5. Scheme (a) and TS-diar ,ram (b) of' the binary cycle: Stage I-heated diphenyl oxide; stage II- -saturated water vapor; (1) reactor-; (2,11) turbines; (3,5) condensers; (6) vegenerative heater. G, a rd 11 /5  'Ther@modynamic Possibilities of Turbine Operation Using Organic Liquids Heated in Power Reactors 78320 sov/89-8-3-5/32 pressure of diphenyl oxide never exceeds 6 atm abs. The author further discusses the properties of dautherm and also the nozzle velocities of jets in the proposed turbine, and concludes that It would not be difficult to construct turbines from a few hundred to a few tens of thousands of kilowatts. The cost should not exceed that of conventional turbines. On the other hand, there would be no need, using the proposed cycle, for building the stage I generators working with water vapor at 30-40 atm abs of pressure. There are 5 figures; and 2 Soviet references. SUBMITTED: April 11, 1959 Card 5/5  21407 S/089/61/011/006/003/()14. )/'/000 B 1 02/B 138 AUTHOR., Khristen TITLE.- Ways of increasing the pover outp4t of a gas-cooled reactor PLIRIODICAL: Atomnaya energiya, v. 11, no. 6, 1961, 506 - 514 TEXT: Three possibilities are discussed in detail and formulas are derived for calculating the thermodynamic cycle in each case. (1) In- creasing the coolant flow rate by increasing its pressure in the loop. This method is-most effective, since power output increases almost linearV with increasing coolant prossure until,a certain (optimu4 pressure is reached. If op. const and cpdT - Td Q@l@T fy the coolant gas, the thermal efficiency is given by el I P nnd the thermal power out- 1 _12 Ti - T p0 put by NT ' gc(t2 - t,j, where g denotes the flow rate, c the heat capacity, and (t 2 -Y the preheating temperature of the coolant. For a reactor without end reflectors A vu- - 1.1 A �? (4) Card 1/f -  2140 S@089/61/011/006/003/014 ays of increasing the... B102/B138 and with, A 0/ 4 + A 2 + sin, (n) X RtAn - till Is - tj (A) W.I. (8) At4 J2(t.).-(t2+Ij)I'- t (j@.+t.)2 (8a) with A (t2 t 1 )/Atk@ Ha?1h/gc. Fig. I shows the optimum TS dia3ram; T 1 is the temperature of the gas heated in the reactor (point B), T p the same at point C. (2) Increasing the pressure by additional cooling before the gas,blower. This method brings about a 50@a decrease in power con- sumption for circulation. Calculations for a special case give an in- crease of 9.%/j in efficiency due to additional cooling. For a special case (A 2.4,y(A) - 0 669) where additional coolin,- causes a reduction from t 2 t 1 - 3340C 2 - 4490C) to t2 - tl - 3650C N - 4450C), the Card. 2/07 L@  Ways of increasing the... '1407 S10891611011100610031014 B102/B138 efficiency 0@ the unit can be raised by a factor of 1.32. If the gas is then fed back to the reactor core (Fig. 4) the increase in efficiency reaches 6 - 7;i, and the electric current costs are reduced by 15 - 25)6* (3) Profiling the coolant flow. This method is based on a special design for the cooling system; ito dimenuione should be Duch that the thermal energy transferred to the coolant are distributed ovcr the coolant circuit as uniformly as possible. This thermal balancing can be achieved in two different wayss Either the coolant flow rate W varies and AP = const, or W - const. The first must be used for gas-cooled reactors. The coolant cross section depends on the thermal power ratio @,/P, Of two fuel rods or two reactor channels. )j, &I (t2 - tl 0 /tLo - go L(t2)o-(tl)ol is calculated for variable Ws (3m-n)+1 P, e. . Cl x EO x f (14) 4 Ca rd 3/0 _j 1113*  Vjays of increasing the ... and for W . consts 5' .@Qq/61/011/006/00 3/014' B102/B138 x 4 _ I I x Af (15) A EG I-a, I * @1 is the part of the fuel assembly crea occupied by the rods. m is the factor of power consumption decreane due to additional cooling. There ar.e 6 figures and 1 Soviet Ireforence. SUBMIND Fe6gsary 18, 1961 Caga 4/0 9 . I  L 16475-66 EWT(m)/ETCM/FPF(n)-2/EV1G(m) VAV/DM ACC-1M_.-_M005527- M_ SOURCE CODE: UR/0009/66/020/001/0026/0029 AUTHOR: Khristenko, P. I. ORG: none TITLE: Plutonium reprocessing in heavy-water-moderated power reactors SOURCE: Atomnaya energiya, v. 20, no. 1, 1966, 26-29 TOPIC TAGS: thermal reactor, nuclear power reactor, water moderated reactor, plu- tonium, reactor:fuel processing isotope, uranium @ABSTRACT- The author considers operation of a thermal power reactor with continu- ous fuelf@;-?Narging in stationary conditions for the case of steady-state equili- brium (or near-equilibrim) concentration of Pu2391 Pu240 and pU241 and constant sustained concentration of U2.35 and fission f.ragments in U238. In order to maintain these operating conditions, it is necessary to use fresh 'fuel to replace that por- tion in which the fragment concentration surpasses the permissible value. The frag- ments are removed from a portion of the unloaded fuel which is then recycled. The plutonium is extracted from the remaining (smaller) portion of the fuel which is UDC: 621.039.543.6 Card 1/2  L ACC NR: A6005527 then Vvfq-.@Wed as depleted and replaced with natural uranium. rormulas are derived for -tsMrting uranium depietion in thermal power reactors. Orig. art. has: 1 figure, 10 formulas. .SUB CODE: 18/ SUBN DATE, @Mug64/ ORIG REF: 002/ OTH REF: 000 Card 2/2'M --- - ------- I%v "I AV 0- -  Ef;'ict of -,',i'ng gaologyi an,11 factc,rs on tha d9gree of r-f m,*ir.*-r.L: dr-, fts by narro-w ar-rk in flat E-e@ m - ,.f I'loriets Bae.4,i D or. r, o 2. . I CIS - ', 18 7: U`  YEPIFANTSui YUOKV, kand. tekhn. nauk; KRISTENK001-F.H., inzh. Expedienc7.of reducing the number of simultaneQusly active face's',-I@'development workings of Donets Basin mines. Sbor. Dori noe2klU-123 163. (MIRA 16:10) -(Donets' Basin-Coal mines and mining-Labor productivity)  IMISTENKOP P.H.0 inzh. ------- Study of the distribution of stresses around drifts made in Ahin pitching coal seams under conditions found in the Donato Basin. Sbor.DonUGI no.26tl35-173 162. . (MIRA l6t6) (Donets Basin-Mining engineering) (Strains and stresses)  KHRISTENKO, P.S. _ , Results of treatment with Shcherbintsy mineral water. Vrachodelo no.8:859 Ag 158 (MIRA 11:8) 1. Kafedrn fakultetskoy terspit (zRv. - prof. N.B. Shc@upsk) Chernovitskogo meditsinskogo instituta I oblastnnya klintchaskWe bolInItea, (SHaRMINTSY--KINERAL WATERS. SULMOUS)  SOKOLOVSKITp Turiy Iosifovich, dotsent; SHILOT, Tasiliy Ivanovich, iazh,; MMISTXNKO T,Aoq kend.tokha.mauk, oty.red.; NISTMIMO, A.S., r@w. KIld ."A.S., tekhred. EPhotom, spaceship; possibilities aid difficulties of a flight beyond the solar systeal Yotoazyl avesdolet-, o vozuozhnostiakh I tradsostiakh poleta as predsly Solaschaoi sistemy. KharIkov, lad-vo Kharlkovskogo gossualve, Im. A.K.Gor,kogo, 196o. 43 P. (MIRA 13:6) (Interplanetary voyages)  red. constructiun of thermal electrio powor plants is a principal trend in the development of power engineering] Stroitellstvo taplavykh elektrostantaii - glavnoe na- prttvhnie ra-,,iitiia energiAlhia. Moskva., Or energontrol, 196@.- 63 P. @KIRA 17:9) 1. VsesoyuzrTj in3titut po proyektir-ovar-iyu organizatsii energetichaskoffo stroitell-stva "Orgenergostroy.". Me- Dkovskly filial.  BROJUM, D.L.; ROZANTSW, S.N.; MR STAKO, V.PO; VOLKOV, S.V., tekha.red. [Houlng wnmpmnt; reference mumal for workers in housing mnsgemnt and In offices adainistering apartiment houses] Upraylenle shilishchaym khoslaistvom; spravochnoe pomobie dl1a rabotnikoy domoupraylenil I shiiishchno-okopluatatsionnykh kontor, Isdo2., parer. Moskva. I-sd-vo N-va kommun.khos. BUSH. 1959. 302 p. (Km 12:5) (No*using mnagownt) Owellings-Maintenance and repair)  ITOSOVI R.P., glav. red.; FOLONSKIY, G.A., red.; USTINOV, A.D.., red.; FRENKELO, G.Ya., red.; RUBINOV, A.B., red.; KHRISTENKO, V.P. red,; BORUNOV, N.I., tekhn. red. [Protection of metal structures and mechanical equipment against corrosion in bydraulic engineering; from materials of a conference held by the "Gidrowntazhu Trust of the Ministry of Electric Plant Construction of the U.S.S.R. on 24-26 June. 1960]Zashchita metallokonstruktsii i mokhaniche- skogo oborudovaniia gidrotekhnicbeskikh sooruzhenii ot kor- rozii; po materialam soveshchaniia, provedennogo trestom "Gidromontazh" Ministerstva stroitel'stva elektrostantsii SSSR 24-26 iiunia 1960 g. Moskva, Gosenergoizdat, 1961. 55 P. (MIRA 15:7) (Hydraulic structures-Corrosion) (Protective coatings)  SOURCE CODE: UR/6413/66/000/023/0036/oo3' INVENTOR: Mende, F.F.; Dmitriyev, V.M.; Khristenk rodavko Yu.m. Bo ORG: none TITLE: Method of obtaining stable frequency from a nonotable uhf oscillator. Class 21, No. 189029 [announced by Physico-technical Institute of Lov Temperatures AN 1UkrSSR (Fisiko-tekhnicheskiy institut nizkikh temperatur AN UkrSSR)i SOURCE: Izobreteniyao promyshlennyye obrastay, toyarnyye znaki, no@ 23, 1966, 36 TOPIC TAGS: uhf oscillator, frequency stability ramp"l-rune- W1000109m.0, ABSTRACT: To simplify the stabilizailon, sy'sten use4 to obtain a highly stable frequency from a nonstable uhf oscillator which utilizes a superconductive resonator$ it ii proposed that the oscillator alignal be amplified by an amplitude Card 112 mct 621.173-  WRI --AP7002555 Fig. 1. Stabilization system I Uhf oscillator; 2 !-- suparconductiva resonator; 3 amplitude modulator. .mdulator such w awaveguide twin T-Joint with a detector, which is supplied with a difference"alinii of the oscillator carrier frequency and of the side frequency. The latteria obtained an a result of amplitude modulation of the oscillator carrier f requency and Is separated with the help of the above- mentioned resonator. SUB CODE: 091 SUBM DATIs 20N&y65/-'ATD PRISSI 5114 Card 2 /2  UUMMUCATICRIS rACffn=S VT G26RGIAN 83111 -- T' lliei, ZAry Vc t 20 i5petiUng at a meeting of velAiM to coanitmiewtiiris- --ic-rkers, G. 1@-iq- ttn:avhvili, litniater of Cc=imjnatjQ@n j,%-r noted that v. i i-;@ I d. e r -a b I c r:z, the @apitd calliatrucatio'l pl-twr, -.1, on and maga7im@a i ri e- go mc%re k-, u@lvnlopln,* the netuork o;C camismicatio." onterpriceG "aa -fulfillc-d. A teleAsion ccuter was Pat- iato ortmatior, arl the cr,;7x-ltr of IrAteru-A-M 1 , I.- -d tele.--aph circuit-L waa r-d by in@,-talilns 7-,"' tit-^  Card 2/2 00KAUNIUXTIONS FACILITIES IN GEORGIAN SSR Ho-,;erer, there vere serious shortcommngs in th@a wor-', uf ezz,,Y-Ltni,a- -@niterpric@,,s --ilizin" 19 56. In Ray,,)n Gt3l :=tt'r was 5tol.em On four occa I,:- r In nine branch cc=umiccattona cl": i ,f 1@0@;t of- Fc,:.tnl @t@!7-rice in rurELI az*-.z- ic tad. oria i" at vork only times a Ifelejz. Directors of the T)ilisi offica, nut tjytrg to alimtm-Ae delay in t@elegra-, tr- ti,, st3iou !m,@- x a @Li i.or of '.nterurban t,@Iepbmie call!: izvolv!:,6 a w@-IL cl- ov@.,., fiLl the pjmber Of UMUMDlCted calls have increased sbarply.  -7- KHRISTRSASHVILI. G.A. Using passenger buses to transport mail. Vest.sviazi 17 no.10:41 0 '57. (MIRA 10:11) 1. Ministr avyazi Grazinskoy BSR. (Georgia-Postal service)  111-58-6-9/25 AUTHOR: Minister of Communications of the Georgian SSR TITLEt The Development of Multiprogram Broadcasting in Georgia (Razvitiye mnogoprogrammnogo veshchaniya v Gruzii) if PERIODICAL: Vestnik SvyazilANr 6, 1958, pp 15-16 (USSR) ABSTRACT: Since 1953, the power of radio facilities in Georgia has in- creased by more than 6 times. New transmitters put into operation have permitted the organizing of multiprogram broadcasting in aboriginal languages. The new items are listed as follows: -the TV-center built in Tbilisi an the David mountain with an antenna-tower of 180 m, the total height over the town being of 500 m; two v.h.f. FM trans- mitters duplicating the first and the second broadcasting programs put into operation in January 1958; a mobile TV- station of "PTS-52" type; a TV relay station with an ac- tive range of 25 to 30 km put into operation in Gori. En- gineers and technicians of the Georgian SSR radio center, Salibekashvili, Zayonchik, Kordzakhiya, T. Tkhor, B. Tkhor, Udzhmadzburidze, Azatyan, Khachaturyan, Teymurov, etc, parti- Card 1/3 cipated in the assembling and adjusting of the above stations.  111-58-6-9/25 The Development of Multiprogram. Broadcasting in Georgia This year, five more relay stations will be installed in towns and rayon centers at a distancr of 100 km and more from the Tbilisi TV-center. BesideF this ,*a broadcasting transmitter of "RV-7" type was rebuf1t and the new trans- mitter with anode modulation twice a@, powerful as the old ones was put into operation in January 1958. Akhvlediani, Ivanov, Muradova, Dzhachvadze, Chikhladze, Babadzhanov, D'yakonova, Camkrelidze, Khavtasi, Prishchepa, V. Babayan, etc., contributed much to the rebuilding of this transmitter, which allows the transmission of regional programs in the Russian, Georgian, Armenian and Azerbaydzhan languages. In November 1957, a broadcasting transmitter was put into opera- tion in Sukhumi, the programs being broadcasted in the Abkhazian language. The Presidium verkhovnogo soveta Ab- khazskoy ASSR (The Presidium of the Supreme Soviet of the Abkhazian ASSR) rewarded the following radio workers of this radio center with the certificate of honour for their participation in designing and installing this transmitter: Agababov, Amiranashvili, Manusadzhan, Topuzis, Gelovani, Tushishvili, Yatsenko, Drozdov T.I. and Drozdov T.M. Two Card 2/3 more radio stations will be built and will assure regional  111-58-6-9/25 TheDevelopment of Multiprogram Broadcasting in Georgia broadcasting in the Adzharian ASSR and in the South Ossetic autonomous oblast'. In this way, 5 programs in 5 languages can actually be transmittEl in Georgia, and next year, 7 programs will be transmitted in 6 languages., This article contains 3 photos. ASSOCIATION: Ministerstvo svyazi Gruzinskoy SSR (ministry of Communications of the Georgian SSR) 1. Communications - USSR 2. Radios - Applications 3. Radio transmitters - Characteristics Card 3/3  KHRISMSASHVILI, G.A. Development of communication means in Georgia. Vest. oviazi 21 no.11:6-7 N 161. (MMA 14: 11) 1. Ministr evyazi Grazinskoy SSR. (Georgia-Telecommunication)  ACCESSION NR: AT5007879 S/0000/641000/000/007910088 AUTHOR: H uk- A. an fan, Yu. Chkheidze, M. V.; Khristesashvili, V. G.; Kachavarian:Ly G. A.. ------- LE:_ -A mt ad TIT ho'd for,,constructip$ ray, c e c.ounter SOURCE: AN GruzSSR. institixt kiber-netiki. Elementy kiberneticheskikh sistem I(Elemeents of cybernetic systems). Tiflis, Izd-vo Metsniyereba, 1964, 79-88 TOPIC TAGS: Gray.coie-,_- 6&4uier _@cdmponent,'-_flip flop circuit, counter circuit counter n _h: trolled -not-by- in --p I e6d-'@ -bUlt", :111 - fifil-c tlm 1@1@ check -con put u ,by signals fed back from the main counter r'egister. In order to minimize ervors @due to ambiguous readings without stopping during mad-out, Gray code counters are !widely used. The counting input of each flip-flop in a counter register is con- !nected to a coincidence *circuit, one input of which is connected to the output of I ithe preeceeding flip-flop. The second coincidence circuit input is connected to a I I delay line axid the third is connected to the (rutput of a so called forbidden-cam ibination flip-flop. The purpose of this flip-flop is to prevont the further opera-- Card 1/3  L 47302-65I.-~------.-.---.-----------.---~--.,- ACCESSION NR: ATS007879--- tion of flip-flops aftertha addition-6f -a one to-any even or odd number, which is ;already present in the counter register. In all present Gray code counters the ,input counting pulses act directly on input of the parity flip-,,"lop. Therefore, ;a chance error in any of the digital places will necessari1x lead to a false re- Iversal which results in a rapi:dly increasing and completely inadmissible error. The circuit considered in this article is distinguished by the fact that the count- ing pulses do nof -act on the@ p .arity:-f1i _p__-_f_1'op- butgo directlyIirito one.of-the idigital places of the counter register. The position of the parity flip-flop is changed by a signal, which indicates that switching has already taken place in the @desired digital place. An error in any of the digits leads only to the loss of the !pulse. The following pulseagain acts an the digit in which the error occurred. :However, this counter is no more reliable with respect to the parity check place 'thaxi are other circuits, since there is still the possibility of a false reversal !due to errors in the parity flip-flop. It should be noted that in these circuits 1t is possible to check the errors in the register made during counting so that this information may be used in analyzing the results. For this purpose it is only   MANUKYAN, Yu.S.; CHKHEIDZE, M.V.; KHRISTESASHVILI, V.G.; MACHAVARIANIJ. G.A. Construction of Gray code,counters. S6ob. AN Gruz. SSR 31 no. 3s655-.660 S 163. (MIRA 17:7) 1. Institut kibernatiki AN GruzSSR, Tbilisi. Predstavleno chlenom-korrep'pondentom AN GruzSSR NX.Gabashvili.  t h2oho-65 rjT(l)/TdA(h) Peb' GG ACCESSION LM. AP5010951 Z &%rili V, Go*-rad tj AUTHORS, ti. S-. G. A., 'TITLE: Reversible counter in Grey code. class 42o, No, 169682 !SOV11CE. Byulleten' izobreteniy i tovarnykh znakov, no- 7, 1965# 132 TOPIC TAGS: counter circuit 0, con-: 14IBSTRACT: This Author ertificate presents:a roversible counteic in Grey cord lud 1 taining aregister on triggers with counter inputs and a parity trigger. To exc, aI !spurious reversal with iaola+.ed.misaligi=eiit.3-of~any of the counter triggers, t.- icontains a control circuit based on a seinisUVWtor, two double input collector ,,delay line, and two coincidence circuits (see Fig. 1 on the Eftclosure). One input iof the first coincidence circuit controlling the first digit trigger is connected tei Ithe unit output of the parity triggerl and the second input to the counter input and_ 'to the first input of the other coincidence circuit. The second input of the secon 'coincidence circuit is connected to the zero outpatu of the parity trigger, and its I I ,output signal is used to control the remaining counter digits. The trigger outputs !of all the counter digits are connected to a common collector whose output is iconnected through the double input collectors to the counter inpixt of the parity Lcord .1/6  L 42040-65 tACCESSION M AP5010951 ay w14 Itrigger. The output of one double input collector ia conneoted throuah OL del to the semisummator input whose output is connected to the second input of the samel Icollector. The second input of the-semisummator is connected through the other !collector to both branches oll the parity trigger. The reverse signals are admitted, 'to the counter input of the parity trigger through a collector. Orig. art. Met I @dia,Zram. iASSOCIATIONs inow EG SUBLUMD: 3omar64 2HOLs, -:01 So CODES wr,  DISHLIXV, B.; SHOPOV, N.; KHRISTIV, P. Clinical aspect% -Idra'gonosis a=dt)i;rapy of perforating gastric and so duodenal ulcers according to clinical material of 1948-56 inclusively. Khirurgiia. Sofia,.ll no.2:150-368 1958. 1. Viesh meditsimil',instituy I. P. Pavlov - plovdiv latedra po fakultetsim khiru.rgiia Zav. Kate@ftta: dots. Ia. Dobrev. (PWTIC UWW. perforation. hosp. statist. (Dml))  0 * e 00 *****a e set OF1111-40-04-41ii-t-f-" so a * 0 a e 0 o a 0 ole 0 0-6 014 I I @ I ': @, 'i !. " , . so k L L I is H j & L so 00 00 00 00 .so .00 00 0 0 0 0 a 6 0 4 a 4 .., I. @ , .. . I '00 00 of .00 The fagensfalled hunic acids firom a awbonagems aMis. 1.. A. Xhri$Aj4.., J. Atpi@i c". ju.s.s. k.) 11. '115WIlIMMI.- 4, ' *ubvartc-ts W the hAk were txt lian4ovrt-l into himlic .1-id, by Itratinvitt with Koji + K-NO, 1-1 - I latio) it ra 31W. 1 he P of 51tilt- oaq at, patently combined with orp. sulotaticra and it was extil. 1.1t,tiltr .101 thv 11111"ir .Cidg. Tim Im.1th-t after art L1,141111. Iftillimlit wmllmd ass Irmlim %ilit gtwxl rimdt%. A. A, I'suigmtiv 00 *to %L a&jtAjjjjV6K4t LjjjR4Tt,*f CLA%%�FKATIC* .0-04 0 Af u I Is' it 1 14 OTS 0 0 0 so 0 0 0 of 0 0 0 0 0 0 9 0 0 o 0 0,4111 q As As oe .00 00 to 0 8 W Ll 4 IF SO 4 it I Ito 0 0 0 0 0 0 a 0 0 0 0 go 00 0  0 0 * 0 6 W 0 0 _4FW-Wjm @, I ul It -4 a 1W as A 11. it U u bf If a v As a a v a a a a a j n AL A 1_0 I,- A_ -1 1 1 AA of (A M U 0 A_ v 7,1000 00 C@ P The utilization of by-products of coal As ter- tilild" L , . Che "Otwx Ap. , 1, . S. k@lvr . @-. Iftialmi-rhe iih.de of tile c.ul u-411's c""Illints LASO qUARIllics ttl carbon t'.11) lo.30% b., Irralillit tile Ishishi with lustling K011 an.1 KXM. tile huntiv -00 1111@ wit. with 11.1,11 . ..... I it'.. I.-W. I I'lir -Inwitit is, -4 N. I'mul k fit slit. I-,I if' "'l, notil., Olv$ 11%.Z 111411 4 .111311,111 of looll A 0 00 j, @, I L A mflattiARSKAL LIT1101416111t CLOSIVIC4111001 hoe Islas- is 1., 4.8 An L a a W 5. A) AS It a - --I . sis d4a: AT 20 Its 0 to Ill W 41 is 09 2 0 0 0 0 0 0 0 0 0 0 : : F: 0 0 : 0 4 0 0 0 0 0 4 0 0 0 0 0 0  -W 0 0 00 I a I to 11 11 1., 1A 1) 'A 11 11 it A It a a 24 as If 17 Is 1. 19 it V u m a 1. 11 is is -j m 1 ..1 -JL 9 3 --l- -it,, Y-1 3---& 1_1 M 44 CC M U 00 of *0 R mtW lnmk adds Irm cabonatmous BUS. -00 . A XI(wiv. 1. M. Doruk-ev and 00 E. ejjep@@Y.@ CAm. (U. S. S. R.) 13, 132-9 -00 1.7 ej 00 (its CwTivoin, 1.10) (104U) a, cf. C. it. JJ, V451.-Rexencr- &led hurnk ackis wcre forint4l by oxidmi-m of a carlon. -00 00 )acrou@ simile. The ykId htcreawd with hicrra4e of otid.i- -041 :kmi terulo' to210' lir Oink, 1-foviJA the MIMIC hAll It" Rdititill hlalliC it, M@. .00 00 ti: The yield decrtawd above 2111'. Tht pcicrittAge (A C in -.04 go the shale dccrcased during oxidation, provided the OtAle had ao hunde acids before oxidAtion, The natural humic as j acids (contalml In shale) were more actively decuttilid. at 0 * a 21W than regeners(rd hurnic acids. The regrucratr,l !:09 hurnic &&H were camolated with mineral acids with dif- 00 a, ficulty, while hurnk acids from peat hardly roaguLitcd with cacl'. A. A. Pudgurny go -00 010 - O,N @0-6211 goo 400 J Lao A 4. 1 t A WALLUKKAL LIT1401,41 Ct4%%'FKATjG* :300 too U%I Av No is s a tr It X Kla A 1 1. Ana low' 10, o 0 of 00 0000 0 0 of 0 *to# 0 of fee a 0 of 0000 0 0000 go 0 go 4 0 0 0 go 0 0 0 0 OiA  0 0 0 0 0 - 'L - - I , 14 LL a eo 06 bit I a 1-40* 00 no Influenco of Inmic acill 00 the glowing of plants 00 With Waflave lotion of nuiriento durtmIt their early develop. ' 'Mont. I movu... Akad. i' 1 1' Aipik'i 1@ N k Kk 1 i I a- r s at. ni. til . . m Ili. i ma 12. . 3 0 - - W 1" l r 1 il l 9 17) l l id ith 1 MOM I-ogll m m fi ir was ex . ra oa w m 1 , 1 ( . 31) inin, tat a water 1111111 U1141 lfiaIYAr-I molil life, N,4 If-; hummelumim lInI7 21fre o 1 0 f t ti b l '3 . f W. , 11. (i uili'l e a lt . p was added to 61rig. at sund used (or collute expla. to which diff i f 411411110 erent rat os o N to P were applied. Tomatoes, w heal, d h un cowp .call were Vown. The resu s indicaic that 490 butnic acid has a favorable effect an the Intake of Pin the k-Arly stain of plant growth. The incrcu* of P *.I. in nog 00 trichkiromicirtic acid In the early sla4es of gru% Ih "-Is to an increase in the processes of olidAlioll-t"luction. 1. S. ]Oftc x9o 16 9 @99 L40 466 A etTALLUOICKAL LITIOATIA11 CLAHAFKATIC14 I a. I L a KICK, 4.14M4 Q*t F -I. V7 T 11-1 ,yr An I S a rw 0 4 v I W im 1 40 U is AV '0 AV 9 it trip OWN ;fi;Ovt ; n tI Is a KID n I a 0000 0 0 0 000000 0000:iO4110416600*09*00090 000000000060600 00 000000099000641 0700 - A  'A90990600066 1 0 a a a 4 a I : @ * 0 0 0 o 9 * 0 0 o 0 @ 0000400oligil 1: il fl I.. ills AP J$2#:Jlljl v), 11K, kr is U. A4 f* 1 4 % W Ql@ I 4ai ff a fj .5 f"O - - - - -Z . f.1 oft AL 00 1 VWT The A4fW Of thu Iftfin"'ce 0' bumlc acid on plarth "', " 0 " _J)okkdy 1"rFOY301, Ak'34- V-34; h. No 7 * . . ' i fll cf. C.A. 42, 3.51TYt. --I 11111lic Mid (t"Al" vv i.00 1011 tram twown rail and dialyLed) when mided to .00 4,d th@. lenglil 01 rLv)ts. rhr wwrvr -1 rullum VAn- Ift-r- Lknl4 i ononl, 1111mic mAd h.1, nn JW-4fing on SC4 Jrt acill h4s all effect on the ptnetrution of non-colittid-41 i(Ill, through gn anitnal tnembrAne. but its InflUrtlec OU V11111v I t q nntrients into pLant cclis bY virtne DI the DimInAtl 1. it 00 'OH1141 not he estRIAM"l. r*o 00 so I stli Pat" a . woo Jim u U IV PO its '-d 0 19 0 1 Wk 2 A3 0 ip 0 tr tt or K a it K n tr a tOt 43 M 1 00 N go 0. go : 0!  CA . The efoct of buinic acid on root development of differ - ent agricultual plants. L., A, Khwt,tt,-.v@, A. Novvk- Khtel-oik-w, A. U YUVV.!*%'. T IWWY Vicupyot. 1444. A403. I - 1 14iforia 14, So. M. 2.1 SiIIIIII); cf. ("A. 42, 11F.1 Mink itclef wAs ext.1, from pt-At. VA. Jn'I WeAtherell t1kil 3n.1 1weplit. nLvk With NO, K. Nil,, C,%, aod Fc,- ill.- Iminates thin pre1w. .,Ir amed in different 1111411till- I., Ae"10"r W spring Sol Winter Wheat. Itorky, tws' - milirt. fice. anif wher plantsi. The wir,11ing% wrtr Xv ... Air in -Art. cultismand mewwwrevarnts inade nit root and triii Ifevriopinvent. Huntic acid from peat and sod pivii-I t.) [or morit efimlivt in stimulating ram "th. Th, s,h rowititurnti ul the homic wul h4, nit influeskv tm th@ toot4, The roi@t initent fonn% 44 losinic ave-I %ti@ th- --( Sil. X114. atuf K: ft iti ralluble. 11W111% (11.1t "tr (It(-( teActivv. Difft-ri,tit IJAjitt te-Act diffetrudy to the ittiou. lot of humir aciel. The OAMI fit O.W5% humse AM 'kmncm. prowd 11104t effe"ivr. 1. S. I.-fle  KHRISTEVAX L. A. Doe Agricult Sci Dissertation: "Humic Acids of Carbonaceous Shales as a New Type of Fertilizers." 8/3/50 Soil Inst imeni V. V. Dokuchayev, Acad Sci USSR 80 Vecheryaya MceVj- C Sum 71 V@  KFEII,TEVA, L. A. Plants-Nutrition Role of humic acid in plant nourishment and humic fertilizers. Trudy Poch. inst.. no. 39, 1951. Yonthly k1st 2f Russian Accessions, Library of Congress, December 1952. Unclasaifled.  z arnic acid and other organlo.substancti In ike nutrition , A Chemical Abstracts %hrlsteva Whst. ge., Xberwn). of higher plantv@ L. A. - ' - 4A review of the efftcts 4FW Perkipwoniemmm j May 25,- 1954 % of org. substances, w urnic add (dialyad from Na or S,ails and Pertilizers FC hurnates), viOmins, &M sotubilized bitamens, shows that in brantl quantities they exeit a favomble effect 4guftlants. In lkrge quantities they become:toxic. T'heve r ts are, 'b&s-d primarily on scedlings in soln. cultures. 25 retcrin. J. S. loffo- Mr"r Z,- A 0110 0 1 .7 E RO - 50-1 N N rlnlt " MR: "I TO M 10 SUM  'neralmnif org nic mal relAtIon etwevis ini a altubitim of IsIgheir plants and the utiOxistion of humle 10da ' l ferfliker. I- A. KhsUteva@ T.. It. l ivovarov. A. R.Aq. - e, ryvi "Pps@Awkjilsyy in i trhttl, (Agr. b3t., 1914, No. 12, J.-W; cf. CA. 47. 5598f.-71;j) Addiss. of 5W mi.- of 0.00 1 % Obj.,Pf Na hurn.-itc, Px i M ;zAi;Jible increase of Potatoes, With it Wn. 1., 1: 1 of iNPiC u the stalufard, Mdm. of.Mil humate madc it posiible jo reduce the amt. ot P to'/,# -ind still i fie yields were higher iand ifte.vitamin. C cmAteut aim hirrut-Axi. Addsis, of 'humateWifflos.'eftton flit: tomt3thittof iovert mt;,.usitt ' Ahe leavels of po-, itirs. With, lcm, N lv.Nvl,i thcre w4i file v Durhigfl.wcr-__ -Ervia" with hilulateq ill will file ratin of J11g; the culturcl disaccbari&-s to mailofisicharbim' Thk imlientei limt, (lie hurnatins on e-Mrjive in totiverting the -imple into more ConipIcis -ongivq. If is A 1b.it list ljjjjjjjw'q,;1.r( asvlerj. wills is    Partklpsilon@ of h Mic adds and other arjanic ffubstna4 Wn bligher-psnIts ad the agonomic slg4 Z I= el'i '01 ja@ 141 Jona -A,.K lljfilglpAgr@ th In"'t., Khen0d); - 14*11. Adds 195S, No. 4i 59-M.-Hiptsi-on, Owth.or Whedt, batlev Pot2toes, and grapoi-showed ". 46116whig-, houtip, aelds at -plant growth, particularly; AIA.01% concii. stimulate shown by the root systemC The most mtdou is obtAlved with patatoes. bftts,-and toinatoesi,foltnwed by whmttl, bArlCY; Oats, CCW?3@ HiNg kak-ogbyx, and alfalla. Topples'- kidn bcmis, leMUs and cottati plants res d the: ey i least, as do sunflower,'castar.beau.'and pumpkV' The AtInIntAtilig PCOM Is,caused by the aGility of humie acid to forns an laoicaRy dUperted state fit whkh it is assimilated I by the pi@ant$ AS A lA1ltfkflt. -It $tImUlAttil th* P11111914" nxittal1vt n0lon and Improv".0 iissimilAtl(4q, the offect 61 inust tinted In'tarty stages of ,"th. flumic skid nutd. tiou Is addi0vt to the Uormal mineral nutrition; _N de- -ficiency Umits, the utiou of inutile, acid - -1im-pWrils are"; also awe to asshidtate-other Sysiologically active sub- SA"Oft Mith lu bitumens, vitengs, iind vitamin-auMV(P. Et*NCJIOCIIOi nomllowlep vitamin III), but their art ten pronouaced-tWm.that 61 humb: acid. Sol; humates, =ch@ as the Ma salt, are suggested is a form of fertilizer; Introduced with Irriptiati waters. They improve crops of :variM jilidcul(grat plants mom cffeqtlvcly than do mineral 'Jertilizen. As raw tnait"fik mt, browo *4 And CWb()-: 011414 caft be UWA. @0. M. J(00*1?q@ g  USSR/Soil Sciences Organic Fertilizers j-4 Abs Jour : Ref Zhur - Biols No 10-1 1958, No 43856 Author : Khristev Inst, 15bt GJ:v en Title The Utilization of Rubw Fertilizers Orig Pub Kolaospnik Ukraiui.. 1956.. No 7.,-20-27 (Ukrainian) Abstract A try-out. of hums fertilizers was@begun in 1953 by,scimiti- fie resenrch institutionsp kolkhozes and forest preserves in Khersonskaym OblasV. The average,tomto yield boost -was 55 centners per h%...vhen__the.contro1 output vas 118 and 100-104 centnere-per has vhen the yield in the control was 200-400 centnerwperhas This yield booStLvas obtained on chestnut soils,vhen.7-10-to per has. of litter wereplaced, An the holes and oweand coils vith the application of 10 to per-ha, of.@pemt,in.m mixture vith 1.5 centnera per has of. nineral fertilizers LThe.addition to the young cabbaC;c crop throueh the application of humophos totaled 69-120 centners per has and to the late cabbage crop 170 centners per has Card 1/2 USS43oil i3cinuncu. ,Mlia r J-6 160s JOur Bef Zhur - Biol., No 20.1 1Z8, 110 91477 I$Luthor YJ'ri'3tuv,' 1 1.6 YarchuIt I.I., KuZ,ko M.,*,. -*Mlqrkov Univ. Title khYr-i0lo..-Pical Principles in tp,0 Tbcjjr,0j()Lnr of 7-w.ius Fer- tilizurs. Ori!- Ptfo V Bb.: Gm-iimmryc U(10711-oniyr.- Kharikov, Xharlkovoh. ur,-t 1957, 163-184 "Ibstract No abotract Card 36 ADS---Jour Author Yhristeva L A Inst 'MwmwRkiV*,6;htY9 ^nAP-PAMIS-qhA-1-P- AA Ono nP +ha  C-TEG 0.11 ZY - FO RES f CUL f UrU3 . AEG. JOUI-.. Mif '71mr-Biolor ,iy", NO-1, 1959, No. 483 AUTHO R Yhrlatevi).- L.!.. 2, o, n1m, , @t -aj 7 r;n V . lO t I Y u b% K t a Fertll 17.Ors (In , 1 ,e A f "'o vn(" oRIG. RTE. b. A -P C T RN CT By experiments at the. Goloprlstaneki- Les- j I - khoz( 195-3), it wa@-; -alitablished that I'mmic ers ralse the v14'alitir hnd drox@th-- fertiliz w resistance of nine In T,.;-,e 10,eei, Dniencp sem*1q. uh a It Is rscommsn6ed tho 1-1 1 nrut-.@;eri, ,'; 04' 50fli and watonwing wltl- a (). C',O humate be applied In with - u - " f rttllzer,@. It is - lary mn .1 auppl@.men . e, a exuedlent to activate plantinj-, mate-lal of 1, 'a @lfferent dletrll2t by wattl*ng t.,e root eyste4i CA RD  e- V C t- ) LA USSR/Plant Physiology - Genetal Problem Abs Jour : Rat Zhur,- Biol'o No 18o 1958., 81970 Author : Khristeva, LiA% Inst Kherson Agri 6ultuial Listitut.e. Title Physiological.Function. of Hunic Acid in the Nutrition of Higher Plants Orig Pub Nhuchn.zap. Khersonsk. a.-kh. in-t, 1957, vypi 6, 47-60, Abstract The stimulating actioa of various polyphenols (1) and of their derivatives-hydroquinone, gumiacol and t&nnin - was coqWad with the action of sodium hunafe (II) in ex- periments with sunter wheat. All substances were used In concentration of 0.00010. 1, particularly tannin and guaiacol.) stimulated the growth of plants but to a lesser degree than M II greatly increased the absorp'- tiO11 Of 02 by plant tissues (the determination was Card V2 USSR / Soil science. Organic Fertilizers. j Abs Jour tRef Zhur - BiologiyS, No 11, 1956, No- 48666 Author :nristeva, L, A.; Yarchuk, 1. 1.; Kotlyuba. V. G, Inst :Kherson Agricultural Institute Title :Agricultural Principles In the Technology of Humus Fertilization Orig Pub :Nauchn. zap. Khersonsk. a.-kh. in-t, 1957, vyp. 6, 83-102 Abstract :In a large number of experiments conducted during the course of several years, the dose significance of humic acids and humus ferti- lizers on ciop harvests was Investigated; also studied were problems connected with the manu- facture and application of soluble humates and organic-mineral humus as fertilizers. Of all Card 1/3 37  USSR/Forestry Forest Pleats. K-5 Abs@Jbvr Ref Zhur - Biol.) No 21 1956;,5908 Author Khritsten L.A. Ponomarenko, V.O., Runrjantseva, V.M., Inst Kherson AgriculturalInstitute Title The Influence of Humic Acid on the Growth of Pines in Nurseries and:Tree Plantations Set out in the Autumn on the Lower Dnep'e Seaft Orig Pub Nauchn. zapo Khersonsk. s.-kb. in-t) 1957, No 6, 125-133 Abstract In order to explain the effect of humic acid, on the quali- ty ofplanted material, experiments were conducted in 1953 in the Goloprist-snskiy Forest Economy, Khersonskaya oblant') in the nutrition of common pdaes vhich had not at- tained full grovth., Sodium humate in M.0.00* concentra- tion was used as a humic fertilizer. It was applied by Card 1/3  IMISTLVA, L. A. "Die RoUe Der HumlnjAuren Und Einiger Vitamine Bel Der Pflanzenarnflhrung". report submitted for the 7th Congress of International Society of Soil Science Madison, Wisconsin, 15-23 Aug 60.  KHRISTEVA, L.A, -- Physiological role of humic acids and some vitamins in the life of higher plants. Trudy Inst. mikrobiol. no.1104-40 161. (KMA 16tll) 1. Dnepropet-rovskiy sellskokhozyaystvennyy institut. V  P doktor sellokokhoz.nauk, prof. Is it 4.sad capital? Nol Nauka i zhyttia 12 no.10:25-26 0 162* (MIRA 16:1) (Ukraine-Fertilizers and manures) (Peat)  KMJ@MYA, L-1- LUKfYAMENXO,, N.V. I- Role of physiologically activo substances of soils, humic soids, bitumens,.and vitamins 82, Cp P-P, A, and D in the life of plants and ways for replenishing then. Pot'hvovedenie no.1003-37 0 162. ' .. (MIRA 151ll) 1, Dnepropetrovskiy sallskokhotyaystvannyy institut. (Soil chemistry) (Plant physiology)  L. A. Khristeva (USSR) "Theory and practice of application of humic fertilizers in the Ukraine" kieport submitted for the2nd International Peat Congress, Leningrad, 15-22 Aug 63-  VELEV, Dimitur, k. t. n., inzh.; BUKHCHET, Georgil KHRISi _MF4a, inzh. Cbaracteristics of mazut, and their influence on the flame during combustion. Tekhnika Bu-Ig 13 no. 2: 19-20 164. lo "Druzhba" Glass Factory.  BKAGOYEN, I.A., kand. tekhn. nauk,- IMISTIANINOVA., G.P., inzh. Study of screv pairs with m4ving Bpac6". Sbor. nauch. trud. KGRI no.13-.85-89 162. (KrRA 16:8) fBoring machinery-Equipment and supplies) I  BYCHKOVP V.P.; KHRISTIANOV, A.S. Thermogravimetric apparatuo baoed on the TV-200 toruion balanoe. Zav. labi 29 no.10&1267-1269 063. (MIRA 16tl2) 1. Institut obahchey i neorganicheakoy khisii imeni N.S. Xurnakova.  MIKIMOV, A.S.; KOROVYATNIKOV, G.F. Apporatus for the simultaneous fixing of differential-thermal and thermogravinietric measurements. Zav.lab. 30 no-4:495-496 164. (141RA 17-4) 1. Institut cbshchey i neorganicheskoy khimli AN SSSR imeni N.S.F.urnakova. ". :,71*?.!  VA;@L Anslysk of are gampies. - ' I -t" "@ ftl M-M, Dec. 25, 195 7. B I - @A d . md&,rVt ion 'A gogr neu rG v, of ta .7-Tuilua, I r. the sample, of-DO st-2 -atm. tumnur.- Distrt Ii3hjAE3dA 3b I  P. a.-qL L41 - s 30-Thm smmpt.@ 1.1 a C-pj- between A ncuum gaurcc @P@, plus YnQi % flecW by U110 C.L-Itent @lf li,c) rllc@ I itandards of ianiiiar content rnLj, Inettlod 14 ervitive to 0 Q@p -A 13 itli 1) vf :ego," Ow error ti, "I A 11)z  7(5) 3(0) AUTHORS: Baranov, V.I., Khristianov, V.K. 50V/7-58-7-9/V@ ------------ TITLE: Borometric Profiling by the Neutron Method (Borometricheskoye profilirovaniye neytronnym metodom) PERIODICAL: Geokhimiya, 1958, Wr 7, pp 680 - 681 (USSR) ABSTRACT: To state the boron content in soils the authors have develaped the following method: a neutron source in the intensity of 1.107 n/sec is fixed under a water reflector, 24 cm next to a neutron end-detector. The appliance is moved with 4 - 5 km/h, the intensity is recorded visually with an indicating instrument. By its absorption of neutrons 0.01% B 0 can be ascertained. 2 3 A depth up to 10 - 15 cm can be examined. A figure shows the boron distribution which has been fixed for a length of 1.5 km. There are I figure and 3 Soviet references. ASSOCIATION: Institut geokhimii i analiticheskoy khimii im.V.I.Vernadakogo AN SSSR, Moskva (Institute for Geochemistry and Analytical Chemistry imeni V.I.Vernadskiy,AS USSR, Moscow) Card 1/2 mill N  67913 -9(2), 5(4) SOV/20_ 129-5-20/64, AUTHORSt Baranov, V. 1 9 Khristianovp V. K., Karasev, B. V. TITLEo Photoneutronic N*thod of Determining the Concentration of Deuterium in Natural Water PERIODICAL: Boklady Akademii nauk SSSR, 1959, Vol 129, Nr 5, PP 1035 - 1037 (USSR) ABSTRACT: The usual method of determining the deuterium concentration in water exhibit* certain difficulties. They can be eliminated by the here described methodq when making use of the photo- cleavage of heavy water (Refs 2,3)1- The deuterium conce,ntra- tion can b *&Tily and quickly determined in water within an accuracy 0; _+ % by combining an adequately trong tLradia- tion source with an efficient method of noutr:n nodetation and recording. The water samplo is irradiated by a quanta bean from N04.@The neutron resulting due to the re tion D2 (t,n) III-is recorded by appropriate counters. The thresh- @old of this reaction is 2.22 Xev# its cross section being 1.2.10-27 022 (Rof 4)- Under standard conditions of measurement the number of emitted neutrons is proportional to deuterium Card concentration in wat*ro By determining the counting-rate of  67913 Photoneutronic Method of.Doteraining the Concentration SOV/20-129-5-20/64 of Deuterium in Natural Water both a standard sample of water and the sample to be in- ventigat*dl the deuterium concentration in the latter can be *&oily calculated. The above method was experimentally chocked by the authors, Na24 served as )tLrediation source. With its f-radiation energy (2-76 VerWelozent Be only is capable of emitting-noutrona.under the action of hard f-quanta. The y@n)-r*action arose sections are approximately thl same for D20 and Be. Figure I shows the arrangement in which the measurements were made* It consists of a cylindrical lead block I which is bedded in a paraffin reflector 2. In the middle of the block.there is a roughly spherical container 3 with three tubes 495,6. 20 proportional counters 7 with B40- concentrated boron fluoride are arranged in an annular spacing, of the lead. The radiation source 8 is situated in the center of container 3. Due to'the short lifotiae of Na24 the authors were forced to content themselves with the accuracy of . .�2-5 t 1.@5% determined by a single calculation. Up to a D20 concentration of 0.1704% a linear dependence of the counting rate on the deuterium content was determined (Fig 2,1). The Card 2/3 error due to water contamination was determined. Such elements  67913 Photoneutronic Method of Determining the Concentration BOV/20-129-5-2o/64 of Deuterium in Natural Water an BpCdt C1 are apt to distort the determination result. Figure 2, 11, shown the results of such an experiment. Thus C11 in an amount of 0.240 causes the determination result Of D20 to appear lower by 10. Apart from N&24, TOO might be used for the 4hF6* purpose (T-105 days), but the required 24 amount should be larger by dozens of times an compared to No Natural isotopi ThC ,, (T1208) aeons to be promising* Its an- , cestors RaTh (Th228) and N~Thl(R&228) hay* half-lives of 1.9 and 607 years respectively. The authors investigated the applicability oflaft. The preparation generates noutrons.it- selfe Chemical yurifioation r9duc9d this emission to about r possibility' would be that of preparing metallic 1/5. Anoth 99.9 -' 99. 90 pure thorius enriched by radio thorius, By pro- ; limin;r; experiments the authors confirmed-on principle the determinabil4ty of deuterium in natural water within a high accuracy. There are 2 figures and 6 references, 3 of which are Soviet. PRESENTEDs July 17, 1959P by A. P. Vinogradoyp Academician SUBMITTEDs July 14, 1959 Card 3/3  85535 AUTHORS: TITLE: s/oo7/6o/ooo/oo6/oo1/o1o B002/BO67 @aranovg V, I., Khristianov2 V. K., Karasev, B. V.V Korobovs, SW. SJ.@ Neutron-borometric Profiling/1 PERIODICAL: Geokhimiya, 1960, No. 6, PP. 490 - 497 TEXT: At the radiogeokhimicheskaya laboratoriya Instituta geokhimii i analiticheskoy khimii im. V. I. Vernadskogo AN SSSR (Radiogeoch.emica-1 @aboratory of the Institute of Geochemistry and Analytical Chemistry imeni' V. 1. Vernadskiy AS USSR) an iastrument for neutron-borometric profiling was developed in the course of the last years. In principle it consists of a sleigh (Fig.1) carrying a 5 cm thick paraffin reflector layer (3), a moderator (7) with the neutron source (8) and detectors with oriented action for neutrons a@d gamma quanta. The first one (9) is a proportionality counter in a boron- cadmium screen (11), the second (4) ia a packet of GTC-6 Gia@Xlogen 0ounters protected by a lead coating (6). A small cadmium metal foil is placed between the counters. The detectors are arranged symmetrically to the radiation source at a Card 1/3  85535 Neutron-borometric Profiling s/oo7j6o/ooo/oo6/oo1/oio B002/BO67 distance of 38 am. The apparatus is dLrawn b acar at a speed of -8 km/h; the car carries the S n "5e ord r. With a polonium- 6 rr_14 G-111 c e beryllium source with 0.8-1 lo7n/see 200 to 300 Imp/see could be counted. The sensitivity was experimentally examined between 0.01 and 0-15% B203* The range of detection reaches to about 15-20 cm. Chlorine is recorded as anomaly by the n,n probe, i.e., 0.6% NaCl correspond to the effect of 0.01% B203' The limit of boron detection is 6% NaCl. Disturbances due to uneven ground are unimportant and may be easily corrected. The practical testing of the instrument proved its superiori- ty over recordings bj means of individual tests. There are 7 figures and 10 Soviet references. ASSOCIATION: Institut geokhimii i analiticheskoy khimii im. V. I. Vernadskogo AN SSSRp Moskva (Institute of Geochemistry and Analytical Chemistry imeni V. I. Vernadskiy AS USSR, Moscow) SUBMITTED: April 7, 1960 Card 2/3  85535 8/00 60/000/006/01-1 1101!@ B002 o67 YB Fig. I r 10 i PHC. 1. CXeMATHtleCKMA P13pp YCTaHoBKu  [AGGamm mitt ApWoW jAUTHMv Beranavp To 191 Kos Many# Do V,j Pamars, 0. Z, TrUgs Measuring bar by the neutron metbod In outcrops and mine workings SWWIt AN SM. Dwo Ssro'vdbop we 3# 3$641 349-30 ITOPIC TAGSt borons neutron sonde, neutron logging# SM 5 comter ABSTRACT t The authors describe a portable instrument used for boron detection and Amtron bombardment and furnish results of field tests* To mks meamirement bY r the instrument portable it was necoseaz7 to reduce the weight of curzwA dodoes iand,, consequently, to reduce the power of the neutron source. The neutron 'retarder and reflector were combined in a single blocke Sondes near the inversion. value were employeds - and this required a miniml length of 40 CA. Shorter sondes :,were too insensitives The first instrument constructed weighed 16J kg and was @:tested in the field in 1960o A later model, tested for the present study, weighs 'but -8 kg., The instrument has three partat 1) a retarder-reflector of 5-liter icapaoity,j Imersed In water 2) a casette with two WO-5 counters Ja a P-shoped lboron-cadadum shle3d; wA 3) a panel with &%aifter, disslidnator, tnmmitteri -ca rd JA  ACCESSION NRt AP4030336 actuator, generatort and rate counter. Sensitivity was found to be OeOCL% B203 f*r 1& 10% decline in counter rate. Results on surface rocks and in mine workinp dw oron mineralisation 1the instrument to be satisfactoryfor rapid determination of b -without selection of rock samples. Results of profiling and of laboratory tests Ion the are" investigated are in good agreements The JImtrument is suitable for lexposed or slightly covered rooks* Either continuous or isolated readings asy be imade, and work may be carried out rapidly, permitting large areas to be covered ,quickly. Orige art* hass 4 figures* ASMUTIONs AkadeWiya nok SM Lutitute gookbioli i &Ulitich"koy lrh4mt4 im, takogo (Acadesy of &demos SM Institute of GeocheoWtry and Anaytical ChGM1i2tZ7) SUBK=Mo 17Jul& DME MQ I 29Ap-64 MLe 00 WD COWS 0 90 MW 80V# 002' ormu 000 !'a LCWd  BARANOV, V.I.; 8ARSUKOV)V.L.; 1VANOVA, V.F. KBRI@;TL0*0v V.K.- A SURKOV, Yu.A.: kand. fiz.-mateln. na " OLVI VQXI. [Neutron methods of research aiv, analysis of boron- containing raw materials fleitronrWe metody poiskov i analiza bornogo syrtla. iW V.I.Barariov i dr.) Mo:,kvu, Izd-vo "Nauka," 1964. -139 p. (MIRA 18: 1)  BOMM Wq Yu.At _ i-I Imtopic ompwitim or the m-ptanisaum voter of sa'J -4noz-196 0803ftdia WAS44-M A 465. Wu lasu) 2. gMtcdttW Awm7 l3v 1965.  ; MWVAP L. A. Xbrietianova, L. A.) Cand. Chou. Sol.--(Dine ) "Radiotoohnioal Analysis of Deep voter Marine Deposits in Gonnection with Determination of the Rate of'Sediment Accumulation." Mos. LSiblishing House of the Aced Sol UMM/ 1958. 19 pp (Aoad. Sol. LSM. Inst. of Geochemistry and Analytical Chemistry Im T. I. Vernadskiy), 200 copies (KL046-580 138) k -  BARUoV, V.I.; KHRISTIANOTA, L.A. .Concerning the notes by $,Me Grashohanko and others on Tole Baranov and L.A. 1hristianova's article #Radioactivity of waters in the Indian Ocean.$ Gookhimiia no,7t651-652 16o. (MIRA 13:11) (Indian Ocean-Radicactive mustances) (Grashchanko, S.M..)  BARANG,11) V,1,; MIRISTIANOVA L.A, Ago of bottom vediments in the Pacifle Ocean. Gookbimlia no.3t 277-290 mr 165. (MIFA 18-7) 1. V.I.Vernadsky Institute of Geochemistry and Analytical Chemistry, Academy of 8clences of the U.S.S.R., Moscow.  .. . ... .... -S* TI A10 V19, 4-;@ v.r. MMOV, r,.x. XEMITIMA (USSR) "Radioactivity of oceanic sediments. ftport presented at the C"renct on ch@ 6 f the Earth's Crust, t4 Nbecow, 14-19 mar 63.  miusTm,10VICIII S. I'loskaia zadacha matematicheskoi teorii plastielmosti pri vneshnikh silakh, zadamykh na zamPutom konture. (Matematicheskii sbomik. Uovaia spriia. 19361 V. 1, no-It, P. 511-530) Title tr. ; The plane probleti of the mathematical theory of plasticity in the case where the external forces are applied along a closed contour. QAI - Wj 1936 SO: Aeronautical Scienccs and Aviation in the Soviet Union, Library of Congress, 1955.  Zadacha Cauchy dlya nelineyny-kh Uravneniy Giperbolicheskoco tipa. 1;'atem s 1 2 (14), (1937), 671-900. o.) So: Mathematics in the USSRp 1917-1947 edited by Kurosh, A. G. Mlarkushevich, A. I. Rashevskiy, P. K. Moscow-Lenincrad, 1948 0  MISTIMIOVICII, S. A.; MDUUIN, S. G.; DEVISON, V. V. Nekotorye Novye Voprosy Mekhaniki Sploshnoy Sredy (Lome S' New Problems of the Mechanics of a Continuous Medium), 1938-  1A KHRISTIANOVICH) S. A. "Certain New Problems in the Meebanics of a Solid State," Publ. House Acad. Sci. USSR, M.-L.p 1938  V KHRISTIANOVICH, S. A., F. I. FRANKLI., and R. N. ALEKSEEVA. 0snovy gazovoi dinamiki. MoskvR, 1938. 109 p.,, plates, diagra. (TSAGI. Trudy, no. 364) Bibliography at the end of chapters. Title tr.s Fundamentals of gas dynamics. QA911.M65 no. 364 SO: Aeronautical Sciences and Aviation in the Soviet Union, Library of Congress, 1955.  KMISTIANOVICH,, S. W@' CYbtekanie tel gazom pri bol'shikh dozvukovyl-h skorostiakh. Moskva, 1940. 52 D., diagrs. (TSAGI. Trudy, no. 481) Title tr.: Streamline flww of gases around bodies at high speeds approaching sonic speed. DNACA RPB (microfi-Im) SO: Aeronautical Sciences and Aviation in the Soviet Union, Library of bongress, 1955  EIMISTIANOVICH) !"). _A. "Gas Flow Around Bodies at High Sub-Sonic Velocities," In Honor of Native Science and Technology, 194o. Central Aero-flydrodynamics Institute im. Zhukovskiy  laMISTLUICIVICII, S- 11- "Motion of Ground Water Which Does not conform to DarcY's Lww," Pril. Materat. i meldl.; 1@1 No. 1, 194o.  kMISTIANOVICH S. A o gverkhzvukovykh techeniiakh gaza. Moskvav 1941. (TSAGI. Trudy, no. 543) Title tr.: On the supersonic flow of gases. NCF SO: Aeronautical Sciences and Aviation in the So*iet Union, Library of Congresso 1955  KHRISTIANOVICH, S.A. "Supersonic Gas Flows." Trudy To AGI, No. 543 (1941)  I KRISTIANOVICH, S. A. "The Calculation of the Ejector." Prowlshl. Aerodin. No. 3 (1944)  SDIONOV, L.A., and S.A. MRISTIANOVICH Vliianie szbimaemosti na induktivnye skorosti dryla i vinta. (Prikladnaia matematika i mekhanika, 1944, v.8, no.2p p.89-98, bibliography) Summary in English. Title tr.: Effect of air compressibility on inductive velocities of an airfoil and propeller. QA80l.P7 1944 SO: aeronautical Sciences and Aviation in the Soviet Union, Library of Oongress, 19550  !GMISTLAITOVICII, S. A. "High Speed Problems" Gazette of the Air Force of the Red Army, Moscow, 1945-  0 0 * 0 * 0 1; 1 4 " f 0 1 V it ka 11 4 is Is a a 100UMMUMVP 4 d 4 a 0 AJL_S_JL_A_J_ 9 M I I L a 0 -4-111YAL a I A a - A 00 A _- -- --W- A- tuft Peact"I t ANS 0140040111t MOIA 00 . . . KHR IS,7 Mwoylct@ sA _00 "19. A. Webta, UMSOM, nan or a un a nm. ShriMea nj&@p_#4 _ - . gat- 19444., Ol- gal- 1P. A.. MA ChOmikla. Ve Is (Dall. Aea- T*Ghql 19450 645_484)* No l1wreasing use of largo-ftemeter -06 gas treawdesion lineso employing high pressures, with a omooquout 00 a ':' high Mynolds, numMr at tM gas passing througbo has shows the i' see s !; @ ' used for an expmesion donating the tlow of gas under such amediti4" al o 000 :: 1 that shall be more acowste than, that of Weymouth (Trans. Aww. .00 % 004 .. jjr goo. Mooh. h4".. 19120 H, 1090) largely employed MUwrtoo 80 - Coo expression derived, expris sing the gas now gravinetrisally (NV#oo)o two@ into eacomat the deviation or hydrocarbon gas*@ from boylogs see lox and also irrovdautles in the JAps, structure. The gas see 'Soo throughput, wA requivid distance between pumping stations, yielded by Uw new forwas, am lose than the correspowding figures obtained by we of the Neynouth calculation. solo L to ff@ ! @ SOO -SLA ; ! GOATUG-9 CLASUPICAMM @ALL 11. as's Ca 6VT all _ C rw 0 11 11 1 OF a 9a 3 t 19 Stan worwan I trot, a a a a X es o 000 : g 0 0 0 0 0 Ole 0 0 0 0 0 0 0 a a 0 0 0 O-A-k 0  041 A 00,* A :.A : c 09 0& 09" oe a oe 0 604 @60 0 0018 J, I 140dWiFAIWO1 "111mmotmbes with mqb mutfaces. P-A.Trttol.. and V.I. aamai.. ow@ tul(Itim). -An =1141;@ls gi"m fur the Iftthertual &1W &t bigh p""Use. draq tit Sms tbmftb pilms. 1W &is. rmgknm of g" idler I it. of "MCC avou4no.1 0.3 min. 0 - S L A MALLWWK Unft"ft CLANWOM"M ;ij@.OjgmA some a 9 0 -00 so .00 so I** 400 see x** 400 go* : 120:  12HIMITIANOVICII, S. A. "Use of Ejectors in Gas-collecting Networks." Iz. Ak. Nault, Otdel Tekh. 1,Tauk, No 3, 1946. Mr., Academy of Sciences N. Ye. Zhukovskiy Central Aerohydrodynalaics Inst.