SCIENTIFIC ABSTRACT N.I. CHEKALINSKAYA - E.B. CHEKALYUK

DMOSHKIN* N.A. [Porostildim, MAoIj almdem1k; CMALINSKATA. N.J. [ChakalluskiLla. N.J.] '-- -1-1 .. . ... I -- - . Meet harmful and widespread diseases of lupine In the Vh1to Imselan 8.8.R. T*stoi AT BSU. Ser.blial.nav. no.lt54-59 160. (KMA 13 W 1, Akadeid^ sel'skokhosysystyeno7ft nank DBOR (for Doroshkin), (IMM PMSSIA--WPIU--DIMUS AM PWS)  DOROZIMN. N.A.; CHMALINSIM. N.I. Development of the rust Uronqces lqpin:Lcola Babak. ou'varloto 1qVIne specles (UVInus luteus L., Languatifoilusi L., L.~olyyhyllw Lindl.). DDkl.AN B&U 4 no.4:179-180 AP 160. (MM 13:10) 1. Iustitut zealeideliya Akademii sel'skokhozyaystvennykh nauk BSSR. (Rusts (INUMAD (lapite-Meeases and pests)  CBEKALINSKAYA, N. I. Cand Biol Sci - (diss) "Diseases of lupine in the Belorussian SSR.11 Minsk, 1961. 19 pp; (Inst of Biology Academy of Sciences Belorus- sian 88R); 220 copies; price not given; (Kb, 10-61 sup, 211).  MTEROVICH, N.De, akademik; lVANOVp A.F~; IVOOVA9 Te.V.; MARGATLINg Gals; PONMUMA9 A.T.; SIRDTKW9 R.G.; SHIENOTAp V.A.; SHOLISKAYA9 Ye. N.1 C"T9~90DY"Ar. MUT9 Co.- red. izd-va; STMK09 H., tekbm6 ist. ETreem and mbrubbO7 introduced to the White Russian S.S.R.] Intro- duteiroTamve derWis I kiwtarhiki v Belwasekol UR. Ni=k. No.3-Elatroduced voodl* jaamts of Siberia, Darope, the Moditerramemp the Crimeat the Ca..cas-.-s, and C-antkal Asia] IntrodutsirowwWo dre- veMe r"teniia flory 4ibiri - llvrbpy, Brediimmmarl I&, Krymai-livu- kaza i Srednei Asile Me i33 P. (NMA 346) Akadmiya. naut BUR, Minsk. Mutitut -biolbgil. 2, Akidad7a unk BM (for Nesteravich) (Mite Rumala-Fiant Introduction)  - GHMLINSKATA I U. I. StOMPI~li= infG(AiOn of 1upiRe in the White Russian S.S.R. Sbori'nauch. rab. Bel, otd. VBO no.3:231-235 161. (MIRA 14:12) (Iihite, Rusnia-Fungip Phytopathogenic) I (Lupine-Diseases and posts)  YURKEVICH, I.D.; OFAUJMSKAYA N.I. [Chakalinskaia, N.I.) - 61 Nikolai Dnitrievich Nesterovich, 1903 - ; on his 60th birthday. Yestsi AN BM, Ser. biial. nav. no.3-0130-136 1163 (MIRA 1,1:7)  CHFKALINSY.kYA,.-N.I.. . Diseases of fodder beann. Bot.; issl. Bel. otd. VBO no.5. 210-216 163. (MIRA 17-5)  16(l); 24NO) /Vj PRUM I EM Ba/1899 Akadodys, nauk Belorusloy SM. Institat flzlld I =UmtlK TM4., Tn. 2. (TrUsaotions of Us I=tItwM of Physics MA Ik;%hvMkl*sj, Belorussian SM AnsdoW of Sciences, Ir 2)' Musk., 195T. 283 p. Irrata, sUp lusertei.L. - 750 cages printed. Ed.: N. 1. Stepanw,, Lou# MW AaadwW of Saloum@; Ed. of PatIlshing lawn: L. Marike; T"h. Ed.: 1. Tolokkanovich. PWM*. TbIs book Is Inten4ed-for ustbeneftelaw., ybyeloist4s,, and graftate AftIonto In mathustles wd "Los. COWNIUM: This'took mutalm a series of articles on remat motribatiow 1yy MOM Of 08 I=tl*dt * ftzlldi UUMUU (Thatitate of PbYsias wd MthmUes) of tM Acadow of Belowes* 3=j, In the fields of rediation,, 3-od, emnoej, .OPtlcs,, and spectroscopy and an the applicatlaus to physics of ona3qs:Ls,, toneor analyalsp linear groups, tbeM of adjiwtmntsj, and dlMrantlal eqwtlons. The Card 1/5  Trangotions at the mmutate, (Cant*.) 0"f/18" first artio3a contalm.a brief aeamt of the vork of the ITAtitiltes ImlUding =me of scientists and. mathamt1clans connected vith It., faclUtles., scion- tifle SaCQM4 4 sbuotntmi and. fields of Interest. TAY= CW CONIC=: The Institate of Physics =I YbUmmkics at the lim of the 4M Amdvo-- of the Grest.0atober Oftlallst RevolutlAn 1 OurinovichL, 0. P., and A. 1. SevehamUDS, Detsvp1m%lon of Vw Nature of an MAmmutury ftitter for the Case When the Directions of Abm-ptiou &n& Radiation Oscillators Do lat Coincide 3- Stepamvp B. 1. and Tit 1. Cha!!,I~ Undmacence of BeatterIM Media 1. 19 Tu. 1. Luminescence of ScatterIM Media 27 38 Apanasevich,, P. A. Transfarimation of Light by an Atemi 55 Card 2/5  Transactions of the Institute (Cont.) Mr/1899 Go4myt T J. v R. V. Yeframves, ad Too' A. IrMtoff. On Vw Spectral Pro- perties of Ch2orcyhyll. =d Chlorqoy2llde Complexes With Protein and Certain Other Compounds 85 Kripskiy,, A. N. BpeetroseWeIntermation of ftlpbw amA Tron In Scums of Light for Spectral Aw3jysis 93 Youbmskiyo, A. A. an the Rele et Ilectric Pommeters of a Discharm Contour With an Zmaltation or the Speetrm by a tow-voltage Mopme Dischmw U0 Prim., A. N. CalaWLating the OnoMatim Spectra of Silicates 124 Voledlkop L. V. Usetrainle BpedUs of Solutions of grudm Mato 174 Stepanors, B.I.p and A. P. Prialdva3lo. On the Theorj of Keperslon Light Filters 189 PrlsblwM~*., A. P. The 711%ratlon of LI&% by lapro of Absorbent Dust 206 Card 3/5  TnmswtjLow of the iwtitxw (cont. ) MV/1899 Borlsevicho No A.., V&.S* 121v"hchevoloja3and I.F. Iaptsevlch. Dispersion Filters for the Infrared 1bgion of the Spectrm 214 Bokitt I, Do V. Saftoe Energy of a Systen In the Neigbborhood. of an Ideal WkU 224 Fedorov, F. 1. On Oertain Diadic Pepresentations for 2hree-dimnsional Tensors 230 Yerqan, N. P. Analytic 7heory of Nonlinear System of Ordlmry Differential Equations 235 Krylov, V. 1. On the Proof of the Mqmsibility of Constmeting a Qad[ruture Fbrzu3A With Zqual Coefficients and Nwber of Nodes Greater I= Kne 249 &Wrmenko, Do A* TVo Tbeoreus an lbduclble Nilpotent Linaw Grcmpx 255 Pbpov, V. V. (Deceased) Determinstion of the Weight of a r(metioa of Adjusted Valms 'blug P03"mal Adjustmut Iftthod. 26o Ould V 5  Transactions of the Institute (Cout. ) gov/1899 Nuwtywnlw, L. F. Determintion of the Weight of & FUnction Of Adjusted ftlues Using Nodal 116thod. of Adjustment 26T BMbsys So Is. General Pbrodas and Diagram for the Adjustwnt of Dinctions in a Oentral System with Diagovial Observed in Two Ways 272 AVAnANX: Library of Congmes (401. A46A3) ur /f&1 Card 5/ 5 8-13-59  C AUTHOR: Chekalinskaya, Yu. I. 48-11-VI3 TITLE: On the Degree of Light-Dispersion (0 kratnosti rasseyaniya sveta). FERIODICAL:. Izvestija AN SSSR Seriya Fizicheskaya, 1957, VoL 21, Nr 11, PP. 1494-1499 (USSR). ABSTRACT.' Equations were derived for the intensity of light with different degrees of dispersion and by considering the absorption by the medium. Moreover the relative part of reflected light in dependence on the coefficient of absorption was examined and the intensity of the light dispersed in forward direction in various depths was treated in this reporte It is shown: 1) That the intensity of the reflected light depends apparently on the coefficient of absorptir'n. 2) That in the case of an enlargement of the absorption the abscO lute intensity of the reflected light of various degree of disper- sion decreases unequally. The higher the degree, the more rapidly the intensity decreases. 3) The intensity of the light of various degree of dispersion which disperses in direction of the inciding current first increases in an infinitely thick layer with the an- largement of the optic depth, attains its maximum value for subse. quently decreasing. 4) The greater the depth of the lightdisl~ Card 1/2 parsing laybr is,, the greater is the part of the light dispersed  On the Degree of Light-Dispersion. 48-11-4/13 in forward direction on the dispersion of higher order. 5) The formala of flow for any degree of dispersion in that case where the medium does not reflect, is simplified. 6) A formula is de- rived for the coefficient of reflection of a layer of infinite thickness for that case in which theyariation of the degree with the dispersion in forward direction should be neglected and in which.case only the passed through and reflected light should be differentiated- 7) A formula is derivated for that case in which only the dispersion of the two first orders will be taken into consideration with the reflected light and where it is- assumed that the dyed medium.is dispersed in exactly the same way as the undyed one, There are 2 figures, and 21 references, 17 of which are Slavic. ASSOCIATION." Institute of Physics and Mathematics AN Belorussian SSR (Institut, fizild,. i matematiki Akademii nauk BSSR). AVAILABLEf Library of Congress,. Card 2/2  CHRULINs"u. YU.I. -------------- limminsesence of powdered objects* IxvAN SM.Ser.fise 22 no.n:XM-1,398 1 058a WRA n: 12) 1. Institut fisild I ustevattki AN BMe (Imineseent substances)  2 81i] it 1A S 0-4 -a- t ** VT 14 Id Vo IN; a a, I jP: f10- 1; LiU I va 4,1a  AUTHOR: TITLE: PERIODICAL: 5/170/60/003/07/04/011 B012/B054 82230 ChekalinskU ag Yu. I. IT, Propagation of_Radiation Within a Powdery Layer Inzhonerno-fisicheakiy zhurnalg 1960, Vol. 3, No. 7, pp. 43 - 50 TEXT: The author investigates the dependence of the radiant flux with- in a powdery layer and the radiation amount dependent on the individual elemontary-layere upon the layer paraneters (product of the absorption coefficiont and the particle dimensional reflection degree at the bound- ary of the particlel layer depth). The dependence of the reflection degree and the passage coefficient of a powdery layer on its parameters was investigated in the authorts paper (Ref. 1). Here, she does not consider the self-luminosity of the layer due to photochemical reactions and luminescent objectep nor the heat radiation caused by the heating of dispersed media due to absorption of the incident radiation. First she investigates the Tadiant flux within the layer, i.e. within a horizontal light-dispersing layer. Due to multiple reflection, there Card 1/4  Propagation of Radiation Within a Powdery Layer 5/170/60/003/07/04/011 B012/BO54 82230 are two radiant fluxes at any depth of layer: F(l)(m) and F(2)(m) . The N N former propagates downward in the direction of incident radiation whereas the latter propagates upward opposite to the former. Formulas (2) and (3) are derived. They express the dependence of radiant fluxes within a powdery layer on the particle dimensions 1, the absorption coefficient k, the reflection degree r0 at the particle boundaryp the depth and density of the layer. It is pointed out that formulas for radiant fluxes within &,dispersing layer were obtained by A. A. Gershun (Ref. 7), and by P. Kub*lka and F. Munk (Ref. 8). In deriving them it had been assumed that with sufficiently thin light-dispersing layers there is a linear dependence between reflection degrees and permea- bility on the one handq and layer thickness on the other. In the present paper, the author did not sake such assumption; formulas (2) and (3) are valid for objects of any absorption coefficient and scattering factor. Nowq some special cases are investigated: 1) Nonabsorbent, dispersing medium. It is shown that with sufficiently thick layers at not very great depths 1p'(1)= F'(2)=F~' and that F(2) (m) does not depend N N N on the reflection degree at the particle boundary. 2) Infinitely thickq Card 2/4  Propagation of Radiation Within a Powdery Layer 3/170/60/003/07/04/011 301 2/B054 82230 absorbent dispersing layer. It is shown that the parameter b charac- terizes the radiation fraction lot through by an elementary layer of the dispersing sodium in the direction of the incident flux- 3) Poorly dispervingg strongly absorbent sodium. It in shown that the radiant flux decreases according to an exponential law. on the basis of the formulas derived and the table given for the R CD (reflection degree)- add b-va- lu*sg the light conditions within the powdery layer can be studied in dependence on internal paraaeters.. Fig. I shows these relations for the special case of an infinitely thick layer, Fig. 2 for the special case of a finitely thick layer in diagram form. Finally, the author investi- gates the absorption of radiation within the powdery layer. She derives formulas (9) and (10) for the radiation amount absorbed by the individual elementary layers, and formula (11) for the radiation amount absorbed in the case of an infinitely thick layer. On the basis of these formulas and the table mentioned for b- and RcD-values it is possible to study the dependence of the absorbed radiation fraction on the layer para- meters. B. 1. Stepanov, Academician of the AS BSSR, advised the author. There are 3 figures, I table, and 8 references: 5 Soviet, I Hungarian, 1 German, and I British. Card 3/4 X  5/170/60/003/07/04/011 B012/BO54 82230 ASSOCIATION: Institut fisiki AN BSSR, g. Minsk (Institute of Physics of the AS BSSR, Minsk) Propagation of Radiation Within a Powdery Layer Card 4/4  STEPOOV2 B. I., SAIISON, A. 1-11. and "The effect of noises on the ovcillation of a bounded plane-Parallel l,ay.er. The light field inside and outside the resonator in the presence of noises discussed. The.report presented at the 11th Conference on Luminescence (Molecular luminescence and lun. inescence analysis) Minsks 10-15 Sept. 1962.  STZPANOTP B. IAStsiapanan, B I.]; GHEKALINSKATA, Tu. 1. [ChAmbmawa, IU. I.), Effect of coatings on-the radiation intensity of a plans- parallel layer under conditions of generation. Testai AN Bm. Ser. fis.-tekh.-nay. no.1:46-51 163. (MIRA .16:4) (Metallic filue) (Radiation)  11 I-L I V,) V 7 -AID Nr. 997-4 25 J INFLUENCEOF NOISE ON GENERATION OF A BOUNDED PLANE-' -PARALLEL LAYER (USSR) '.2 Stepanov, B. I.,.A. M..Samson, and Yu. J. Chekalinskaya. IN: Akademiya au -no- k SSSR. Izvestiya. Seriya fizichesLaya, v. 27, 4, Apr 1963, 488-491. n S/Ok-8/63/027,1004/006/026 The effect of noise on the spectral width and angular di t uiion of radiation a rib generated by a bounded plane~parallel layer has been studied.: The..nbise arises as a result of amplification of external radiation, including spontaneous emission. It is shown that spectral broadening resulting froml:noise is neg- ligibly small, and that angular.distribution changes due to noise depend on the parameters of the Myer. In the specific case of a cylinder with plane- parallel ends and nonreflecting side-walls, the broadening of the output beam angle because of 6ise is negligibly small. [BB] Card 1/1  EWA (k)IFBDIEWT (1)/EEC (k)-2/f/EWP(k)/EWA (m)-2/EWA (h) 1_jP_%,r-) Jr~ ACC NRt AP5026318 SOURCE com UR/0368/65/003/004/0325/0335 AIMIOR: Stepanov, B. I.; ChekalinakEa. Yu. I.qq ORG: none, TITLE: Fluorescence of two generating rods arranged in series SOURCE: Zhurnal prikladnoy spektroakopii, va 31 no, 49 19659 325-335 TOPIC TAGS: milt iple. element laser,-composite laser, laser p analytically invest4ated'. tip eLelern-ent laser is ~ABSTRACT: The erformance"of'a mid- by the use of a model comprised o.Utwo rods connected at two of their reflecting end plates and thus forming a complex in -termediate layer. It is shown that the losses of' such a double system depend not only on the parameters of the resonator, but also on the initial amplification factor. 'If the length of the two rods is equal, qnd the pumping intensity and the reflection coefficients of the external faces are the same for both components, then~the c.omposite,genetator is similar to a single continuous rod. However, if the above enumerated parameters are not equal for the components of .,the multiple-element laser,,then the presence of the intermediate layer will manifest Itself.Iby a drop of the generation threshold of the system. Orig. art. has: 26 for- mulas and 5 figures. [ZLJ CO :ft))~/ SUBM.DATE: l7May65/ ORIG REF: 007/ OTH REF: 007/ ATD PRESS: I' Card UDC; 535.89  L r 'ACC NR, AP5027352 SOURCE CODE: UR/0250/65/OOY/010/0659/0663- ru III Chechenina, Ye. AUTHOR: 'Chekalinakaya, I ORG: Physics InstituteAN BSSR.(Inititut fiziki AN BSSR) -.Amplification of flux -an inhomogeneous layer when fionlin'a ity~ is- taken TITLE: into account SOURCE AN BSSR. Doklatt~, v. 9,~uo. 10,1965, 659-663 TOPIC TAGS:. lasetl.~-solid state laser, laser optics, light,reflectic-a, light reflecr tion coefficient, light transmission, solid state.amplifier ABSTRACT: The-properties:of an amplifying.inhomogeneous plane-parallel layerwith -arbitrary,reflection coeffici(ints on the:end faces were investigated. Harmful, losses.. in the active substance vere iaken into account, and the dependence of the amplifi- cation coefficient on the radiation density was considered in the calculations. it was shown that the use of an active layer with the reflection coefficients rl and r2~,,'. on the end fAS%s as an amplifier~ls limited by the oscillation threshold. The condi-: tion X < l/Pr1f, must be fulfi,lled.if,the system is to operate in the amplification mode (X is the single pass gain). The paximum possible value for X for extremely .1ij 0(ko-p)t (k is the initial gain of the active sub- Small fluxes (aS _ 0) is y 0 1 . .. 0 stance, p is the loar., co ef ficlent inside the active layer, and t is thethickness of the 1:a*yer). Because of nonlinear effects, there is a limiting flux So S0 (so. is L cod I-A:  'L 4962-66 ACC NRt AP5027352 J'a perpendicularly cident f lux on:the layer surface) at which X 1. When Sol.< S'O A Cident flux is amplified,-when So > So*, it is attenuated, i.e..' pa e the;in rt of -th incident flux is lost inside:.thellayer. The limiting value for flux at which the am- plification changes into atte,n'uation does not'depend on the length of the amplifying., layer.. The value of X obtained at:,very large incident fluxes (aSO is equal to e In this-case the coefficient of external losses In X/1 is negative and equals; -p, i.e., the incident flux is attenuated by losses. To investigate theeffact of the layer parameters (ko,.p, LO rl, r0s calculations were performed-for the output emission, gain, and the yield of useful energy bya volume unit of the amplifyin 9 layer at incident radiation smaller that the limiting radiation. Due to the nonlinear!--- effects, gains n and - riT + n ),(where nT and nR are transmission andreflec- -nT(n gains, respectively) essentially depend on the magnitude of the incident flux SO. Even-small incident fluxes CaLuse A decrease-in n.and nT in comparison with the maximum k0 is possible gains rio and 0 When SO'decreases, n and nT increase (the thresh t V :to-ko he greaterthe increase). At large light fluxes, i.e., fen to a. hundred. times smaller than thelimiting one, total gains are close to unity and are indepen- dent of k0. The dependence of.,n and nT.on the re -flection c7oefficient rl of the input end-face, of the amplifying layer for rjr2 - constant shows that nT reaches a maximum in the region where rl.is app:roximately equal to r2. then r, increases, n and nR de crease to a value equil, to rj~, Orig. art. has: 11 formulas~ 2 figures, and 2 tables-. JJAI SUB CODE,- O!iWPBM Q7jul65/ ORIG REP: '009/,. 0TH REF.' 001VAMPRESS,: V~, ~ATZ.-' iZ Card 2/2/?!  'ACC-NM--- AP6M4333 SOURCE COM UA/0428/66/000/001/0002/0M Ilej Che1mlinskWat Tue I* ORO I TI=s Me generation of & composite system from several parallel distributed VC& SOURMt AN BM. Vestsie Beryya fisika-matematychnykh nan*# no. 19 19"$ 82 TOPIC TAQ3s nuclear reactor power, nuclear power, nuclear power plant, power plmt ABSTRLCT: This article deals with the study of the radiance of several substances situated in parallel. Calculations are performed:on the basis of energetics ocn- siderations in a nonlinear approximation. In parallel linkage the presence of cantact permits a coherence of radiation because of mutual-ptnetration of stream. The authors base their mathematical approach first on the general case of an arbitrary link and varying length ar burst and then on the consideration of two special cases where all rods are alike. The composite generator is schematically shomin in Fig. It consists of a active.rode mutually joined by eome link. Variables are defined ass--+,., v the reflection coefficient an unjoined faces; R the traction of radiation returning to the -th bar after reflection in the aysteng Including reflection froot the joined face; 4dij is the fraction of radiation emanating from the ith rod to the': th ith im the result of Us 11Wcap;, 8 is the current at tba left bOUNU27 as Cmd 113  1007~67 ACC Nib 333 ` 2 1$ v. t omts :' I !s: at a slotiveu -ir*GtM &IftC Us S-axis; 3 is the curmut &t tie right bwxAU7, . wwo 0 - . . . j alreow Imwt-'. z -owmat amplification th aeuve ow obeffiamt li as SLVM ~ L OI v "  ACC NKs Ap6o24333 vbwe A44 is the length of the jth Sative lsyert and kj(s) uA Pj(s) are respeatively; the UPlifiCkti0a 006fficient and the lose doefficient of the &Oti" gubgt& ca. A n Vatem of a linear homogeneous equations in S' and are given in ustriz forn,* mw S3 authars present a method for finding the complete system mrrent in term of an OffOcti" 1080 coefficient- From this analysis a means for determining aptimm system cautivaration is described*' Crig. art. hase 20 equAtlaw end 4 91CArese M 0=1 IS/ UN "US MIG IV, 004 51 Cam, -3A  CH&K.A.LINSKATA-GOLIBLRG, Yu. I. Cand Phys-Math Oci -- (diss) "Optical propertieB of absorbent diffusi AYIA medio." Minsk, 1958. 11 pp (Acad Sci O~ Belorussian SSR. Inst of Physics and Enthematics), 150 copies. (KL, 13-6-58,110) -7-  18-3000 75584 S OVA 30 -5--10 -16/2o AUTHORS: Chekalkin, M. (Foreman), Sergushin, A. (Steelmaker) TITLE: Saving of Ferroalloys in Work With an Alloying Element Content of Below Average Level PERIODICAL: Metallurg, 1959, Nr 10, PP 30-31 (USSR) ABSTRACT: Following the tasks set by the Seven Year Plan to step up production of special-purpose steel, a team of young workers (Morozov, N., Dubov, S., Gureyev, P., Ushakov, V., Shershavkin, N., Glazkov, S. and the authors) developed a satisfa'ctory method of working with a decreased content of tungsten, vanadium, molybdenum, and other elements in high-speed R18- and Rg-steels. High-melting components of the charge including ferrotungsten settled in the furnace heartj were thoroughly and rapidly molten by intensive boiling of the bath at elevated te-mperatures. Sequence of operations: (1) maximum transformer power is used for melting and oxygen blown throu h the hot Card 1/2 metal within 60 to 80 min after charging; M deoxidizeru  Saving of Ferroalloys in Work W~'Lth an Alloying Element Content of'Below Average Level ASSOCIATION: 75584 SOV/130-59-10-16/2o are introduced into bath; (3) bath is stirred as slag gets lighter(within 20 to 25 min); (4) ferrotungsten and ferrovanadium are added 40 to 50, and 30 to 40 min, rea- pectively before tapping into thoroughl deoxidized metal; M repeated stirring of bath; M tapping after metal is well heated and slag has turned white. Advantages: (1) melting period decreased 40 to 50 min; (2) saving in power consumption (over 20%); (3) 10 to 30% decrease in tungsten loss. Cutters made of F.i8-steel with 17.5% W (i.e. lowest permissible content) are not inferior to cutters with 19% W. There are 2 tables. IfElektrostall" Plant (Zavod "Elektrostall") Card 2/2  GRWTE. H.G..nauchnyy sotrudnik;.CHE:KAIOV,A.I.,nauchnyy sotrudnik Shortcomings of orchard machinery. Zashch.rAst.ot vred. I bol. 3 no.2:20-21 Kr-Ap 058. (KRA 11:4) 1. Ukrainskiy nauchno-iseledovatellskiy Institut mekhanizateit i elektrifikRtsii sellskogo khotyaystva. (Spraying and dusting equipment)  C?, ~', C-, t fl L c) V ~ 1?, 1, U-SSR/Goneral and S--pocial Zoolo--y. insects. Injurious In- ? sects aml Ticks. Posts of "i-ruit and .11orry Crops Zbs Jour : Rof Zhur - Biol., No 11, 1958, No 49621 'iuthor : Grotto M.O., Chokalov A.I. inst and Diseases of Frdit PlantiT; Titlo Control of Posts a. Ori- Pub Molchaniz. sil'sk, Gospodarstva, 1958, No 5, 20-21 L.) Abstract No abstract Card 1/1 43  GROTTI, M.G. [Hrotte, N.H.], naukovyi 9Pivrobitnik..--qHMIOV. A.I.. naukovyi spivrobitnik Investigati tba dusting equipment of garden sprayers. Makh. oil'* hospell no.502 - 3 of cover My 158. (HIM 11:6) 1.Ukrainskly nauchno-Iseledavatellskiy institut makhanizateil elektrifikateli sellskogo khozyaystva. (spraying and dusting equipment)  CHUAWY, AoIs, starohiy nauchnyy rabotulk ,,o~ ~?M O~VP~ontllatlng sprayer. Nekh. sell. hemp. 9 no,9.-7-8 3 158. (NIU U:10) 1,Ukrainskiy nouchne-looledevatelloklY Institut mokhonizatell I alektrifikatell seVskege khosynystva. (Spraying and dusting eq~ipmont)  CHMLOV. A.L. starshly nauchrry sotrudnik (Kiyev) Using aprayers in orchards. Zashch.rast.ot vred.i bol. 4 no.3'. 23-24 MgTe 159. (MIRA 13:4) 1. U~rainskly nauchno-looledovatellakly lutitut nekhanisitaii I elektrinkatsit 8911vtogo khozyaystva. (Spraying and dusting equipment) Ofrult Ilissaseo and posts)  GZRASIMCF[UK.Ah$t ;H.Uriparhuk, V.H.I, nauchny7 rabotnik; CHWALOV,A.I. n& Over-all mechanization of vork in orchards. Kekh. oil'. hosp. 10 no.3:17-19 Nr 159. -1-1 (KIRA 12:6) LUkrainskly nauchno-looledovatellskly institut sekhanizatell t elektri- fikstaii sel,skoge khosyaystva. (Fruit evIture) (Agricultural machinery)  rao ootrnilz; for Filp 0. 15, 12:7) 'iV illolt it' t Spr i-21-,! e r s (Nozzles  SAVII P.V.,. kand.tekhn. nauk.'I CHEKALOV, A.I., starshly nauchnyy sotrudnik thodo epr mechwdzed thinning of oupr beets. Makh. sill. hoop. 12 no(, 41U-12 AP 161. (MIRA 14:4) 1, Ukrainskiy nauchno-issledovatel'skiy institut, mekhanizataii. i elektrifikatsii sellskogo khozyaystva. (Sugar beets) (Agricultural machinery)  S/019/62/000/010/069/090 A156/A126 AUTHORS: Lhe~kalo Sysoyev, I.N.; Ivlyushov, AN.; Zaslavskly, M.Z. TITLE: A boring bar PERIODICAL. Byulleten' Izobretenly, no. 10, 1962, 65 MT: Class 49a, 57. No. 147414 (69e-867/25-8 of January 13, 1961). 1. The boring bar for boring-,out holes consists of a cutter head fastened on a cylindrical mandrel, with balls interacting with the inner surface of the hole being worked. It is distinguished by the fact that, to provide for knurling the bore after it has been bored-out, and maintaining the coaxiality of the cutter head movement, the body of the head is cylindrical and has several grooves support----' ing the balls in retainers which embrace the body of the head. 2. A boring bar as in 1 is different in that, to permit regulating the position of the balls in a radial direction, the body of the head has a thread carrying an adjusting nut intended for tightening up the retainers. Card 1/1  L 3179-66 -ETC(M) WW ACCESSION NR ": AP5015353 Oi/6~86/65/666/oo~/0698/6oO 681.14 4, + Ir!( AUTHOR: Y-- D - K-meLksg, henko.-A. K.; Chel - MimsMM 7. mirnov,' _S TM mi nov, Qb hov Y _K ont ov M., A. IV~ S__X__ _L Tubro, G B~1,"Alipov., A. N. .Dlyakonovi G. M. TITLE: Electronic instrument for measuring velocity' distance traversed,~and time. class 42, No. 170776 SOURCE:' Byulleten' izobr6teniy i tovarnykh znakov, no. 9, 1965, 98-99 TOPIC TAGS: tellurometer,~radio.rangefinder, geodetic instrument ABSTRACT: An.Author Certificate.,,~issued for a device which measures velocity distance traversed, and time, combines a high-precision tellurometer, a phase recorder equipped with a unit for.converting sinusoidal signals to pulsed signals,.,! and a unit for, measuring phase differences. Readings iLari! made vjsiaej~. The :1 circ it c6nnectibns or the ~~Viceit-,:donsisititg ofd s6iries: 6f comp u utei-type~ modules,. are described-in-detail. [SP] ASSOCIATION: none Card 1/2   O1*w;;;;;;;;;WO ow OW -AL- pp" KA L A a Im* GOW d "Sddldft" CP T. K=%Amv. 0^ ml, 31 - I.N.-M ~961W ~~S- by the KMts k. Peed N arewaWkr I~ pnwimk% kism ag.~ 4 w4bW or by hmm samckke vmmt prossim The P"6- of h datrayed by the .60 =dOway Ift so tdak wkk prodwed 304k)% pm utl wAwam but dwomd Unk muper~?Aty ll!th voutmx- B. C. A. G me 0 400 .9 *0 goo, 4pe-'a see law MAP ORW dol -4,4191#l ow two M o t no a, 0 0 0000 4 0.009 see 000*0000004 777777    cka"Wv, K. 1. (Preparation and use of organic and organomineral fortilizeroJ Prigotovlonle I primnonis orgenichooklich I orpno-ainerallnykh udobronile Koskva, Goo. isd-vo solkhos lit-ry, 1958. 94 p. (KIRA U: 12) (Fertilizers and manures)  CHXUWv, K.I., kand.sellskokhos-nauk The of peat and amoni& CONP09t6 of the industrial piduction in the Leningrad Novince. Torf-Prom. 37 no-3:30-32*160. (VIBA 13:9) 1. Severo-sapadnyy nauchno-inaledovatellskiy institut sellskogo 'khosyaYstva. (Leningrad Province- Ilertilizers and manures) (Post) (Amonia)  CHELALOT. Konstantin Ivauovi~h; DANILNVSKATA. O.K.. red.; ONOWKO, W.G, EAccumiletlon and storage of manure and preparatlon of peat composts] likoplenlel khrenenia navose i prigotovilenle tcrfokoupautov.!,Lenlugmd. Lenisdat. 1960. 67 p. WR& 14:4) (Farm vamrs) (Compost)  ,___q ~kand.sel'skokhovyaymtvennykb nauk; BAKUSHEYA, V.I., naucbnyy notradnik Commercial peat-ammoniun composts. Zemledelie 8 no-6:73-79 J9160. (HERA 13:10) 1. Severo-Zapadvyy nauchno-lealedovatellekly Institut sellskogo khozyaystva. (compost)  GHEKALOV, K.1,,, ILLYUVIYEVA, V.P. Use of the isotope 01-4 to study the deoomposition processes of organic matter in soil. Fochvovedenie no-5:40-50 bV 162. (NIRA 15:6) 1. Severo-Zapadnyy nauchno-isaledovatel'skiy institut sel'skogo khozyaystva. (Humus) (Carbon-Isotopes)  K.I. Chekalov, N.I. Morgunov, A.I. Mandelbaum (USSR) ~- ~11 --v:7_- 0 Production of peat fertilizers at Industrial peat enterprises * Report submitted for the 2nd International Peat ~'ongress, Leningrad, ~5-22 Aug 63.  CHEKALOV K I kand. mallskokhoz. nauk; GALAKTIONGVA A.Ao ~~ 4- Dosage and.methods for the admixture of mineral components in the commercial production of peat-zinsral-eu=onia ferti- lizers. Trudy VNIITP no.18338--54 161. (MM 17S 3.)  KOPrf, B.S.; NIKHA11M, A.V.; CHLENOV, A.P.; IDOV, P.I.; YUMOF, I.I.; TSARSrIY, S.Y.; BARAYSOV. V.A.; PWROY, I.I.; LIPSHITS, L.Z,; ABAMOV, 1C.1.; SWOLISKAXA, U.N.; X1ZHWICH, V.N.; DATYDOV, L,L; VLASIKHN, AeVe; GHWAWV LaNI.ISTARIGHKOV, ?.I,; L.. red.izd-va; PKRMINA, MBLIROT, A.Tses red.;5iiwGiz N.L., takhn.red. [Our beacons; collection of articles on progressive workers In lumber, paper, woodworking industries and forestry) Nashi nalaki; abornik ocherkov o peredovykh liudiakh lesnal, bumashnoi I dereve- obrabatyraiushchal procyablennosti I lesnogo khoziaistva. Moskva, Goslesbumizdat, 1961. 125 P. WRA 15:2) (Forest* and forestry) (Wood-using Industries)  CHEKAUIV, L.N. " - -,.. Kinetics of mass transfer in the rectification of multicomponent mixtures. Khim. prom. 40 no.10:746-749 0 164. KRA 18:3)  SIPTSKIY, Ye.ya., inzh.; CHERALOV, M.F., inzh. IncrOase the stability of bank piers and cones of medium-size bridges. Avt. dor. 28 rio*2:27-28 F 165. (MIRA 18:6)  GIMIrA V, V. F Drive your streetcar carefully, economize on electric powor. ZhIl.-kom. khoz. 3 no.5:29-31 W 153. (MLU 6-7) (Street railroads)  CMMWV. V.P.; MAROVICH, N.A., redaktor; GUROVA, O.A., tekhnicheBkiy (An -tzemplary method for the streetcar conductor] UbrastBoTo vo- dit' trawwainye poesda. Noskys. lzd-vo Ministerstva ko=mnallwAV khosialetva ISISR, 1954. 22 p. (XLH& 7:12) (Blectric rellroads--Notormen's sanual)    IVI A to a' 2 cab* PI Ian 7khomb-a", II, chtl i. b OPO MR 0 by wzpul~!hg a =1 45-E0 In 1:4 xaC -mixt. vm Cen; tA 0a bill. at Tbowlemp. the I-pM wp4ed Vr4kh 461d, Wah~r O&A ut 04)OMInoux 4wittil Lit; ttt imp a3 pptA; WM CC4COOH (added up to, 4.1 NUOU Wta 11 und ;he -jillit. tvqlri1u4td.: Th'i lut out to 'ritsID. wisbMifth (CHI)ICO ard thM dri-i v W. 'The 4ats-shOAhBl I rnd th4t uc6"wnfd rc~.ktlvt kibm - 6= nt - ts. vl-"g~ rMIJ, triwA svith Othe, 011- tUt of lawg.-Rfi  CREXAT-OVAP N.A. HyMenic gyps= fr= the Tuyuk lead-barite-oopooit in the Ketmenllwwo. Lm. AN KnanrhoSSR. -Ser.goolo no.6t 94-98 162. - (MRA 1625) (Katment PAnge-Gypoum)  CHEKALOVAP K.A. Hydrothermal changes of enclosing rocks in the Tuyuk lead-barite deposit. Trudy Inst.gool.nauk AN Kazakh.SSR 7:77-95 163. (MIRA 17:9)  CHMALOVA, X. A. Alterations of the wallrock of copper and lead manifestations in the Ketmen' Range. Vest. AN Kazakh. SSR 20 no.2:59-70 P 164. (MIRA 1811)  r ' d Us of Trans. , 'Ch k lovi V I hi M M . L e a n a , s ( - - ;V, Doklu* --70- - -S 6~- $00-11fuscum" moszii~w, CNM qe t in-ars, rdatt ' o 46',*d*e'Pth3 W much its 40 cm,,! have PH 6.0-~4 or m CA Mi litio- (With f~Dm exteptioul) of 20 elt, hn I high high In alk.-carth Umez; I Ow In al "1l tx~'-4hixid i ' iUd"ly-high In P. The speelhoty of t best.. SOB arcUrrXion b due to Oe comp, 61 the pAmnt 7 7  0 tv BUTIJZ 'OVA, O.V..-, VxPooltion Of SgrlCUltuml sontne and IAnd MCIAIRtion reglons of the U'S'S'R. Sbor. rab# TSentr. wa. pochy. 157. in varioue ne.2:11-26 (U13A 10:8)  CEAALOVA, M. I- Characteristics of the present state of land on collective farm of the central part of Tologda Province. Sbor. rab. TSentr. mus. Pochv. no.3:174-191 060. (MIRA 13:9) (Volo*a Pfovince--Solls)  CHEMOVA, 14. Y. - -1 .. A - - -' - I I ---l. - ~. ~~ - ~ , Characteristics 6f dark-colored soils in the forest zme. Pochvovedenie no. Zt25-32 F 165 (MMA 19ti) 1. iSentralthyy muzey pochvovedeniya imeni Dokuchayeva. Submitted Tune 10, 1963.  *old 7 AUTWORS, T III ftakshk-ks ?Ing$ Isolating Aromatic PatroL.-wa Yr..tLa.4 MIOSIC&M Dkldy Akadostj uses ZSS, 1960, Val. 134. go. 6. pp. 13TB-1590 tt~o ree.1t, at A. Ift-atzgetlock of the hy.L~ The th ': 4 e' 17 "rose costr .I 0 tic h. ptrol- fnotL.n. In Wil.1i the rm.zla h0moarboss von v*p4r%t*-J by ustne two adearbosta. a jet"I um saarl01" xj,. x"..hkl all,ri.ld ... t~41.d. rho bft.iao : :t frostlom boiling an% 17 C and the aoph.l~rmata ub.%-c.4 we" 5 Main ad. the them %reau* petroleum we. fmott.n.W In a -amwe p- Z Pa" o add the sorrespaudleg fractions wore soparato4. A or the fsastics 175 - 300-C is described. Am*Ae the diff.nns N.Thces *"IQ"& for 10948tISSILAS the chemical OOMPO.ItIGA the GhrPMtQcrWph!4 com 1/3 IstIm and emparstlas of %be aromatic hy-2-4rboas won dealt with in * , : 4 .61 . 7h# outhon, bt.1~4 Co*4 row.It. by 2-st.p ch.-2-t.emphri I ba.. - 1. l o tire &" ras to hydrcar to4 .ad l ' as t .: 1 : , t ba leass ro I a separsto I" rd nc : t th 17 ypes. pla6s, f"o she fraction b7 dj.pa.*a.a- cbr*m.toCr&pby on sille. Col. ask"al was u"4 as dl.~ !A tInc &cost. C.1 of typo ACM(Lm) .4. a treated loy, 2. 1. Nuey-r and 2. Ch. prior to Its a- =r n. / - Boves, fractions of armatto by4rovatlaose with %he refractive In.. ; ; 1.49 to 1.55 "To too, ta,d. Th. smlfu :. youndo am "a ... d . t by exidatlas tth 25% 2202 .1. too 1. $,.a- 6I &...I: acid at W. Th. oulf*sl"# forwei-re th- abrDeatzSrsphloally operated on at-Ilce 8.1 ACA(SM). The farther 1b,"V s.p4rallcs of the tb.m p.rtflod almTore of *a"- and bloyalle armatto hydr.es"34 o -Arri*4 oat *hroaat*Sr.phIc.l- o """" x IV visit alsolux ozide of typ .*prz3 "em-Auskir ' -"W' a' c z. par h 2 Owed t 1. urp a a high n4 Is.propyl alcohol wave load as Asoorboats. Under those ;ooditionS the Mouacyol'G bTSro- 6&rboam coo be separated frost ch. bteyolLe Table I 04r4 2/3 , -elves the ievulte or th .ratt a of tmrt._jj.butyl-orthz-zyl~s* from, * ' rt..jsobctyl_or-ho-rjIouo trs df.;henyl. This r 1: 1PS17I maphtkoll-se and . Indleates that the abr".tocnphic a-v-votio. on vilid. C-1 Pr-du-os of Intermediate "ount sLace in this case a h1ch seat, p"Wer resolts ' i o em fdrowS. Leone the ab-* 4..crib d ocmd IIon$ the to%..I awa=t a rosatic port) was 7T.93%, (reforret to the f mcsogyallo hydroawrticme 4 5-300C. whereas the flCurew for the bi- t PAS is 11,11% of the r"a to* 17 *Fall* "to IT-91 and 3.01% Isly. In conclumt.. the 4.thar iwatios further cospownt- th rmetica 4*mcrib.dmI th. t.t.i : , Ne"ostas, couposition. Th." %" I -able "a 8 rof.m.afe, 4 SW.. I prom.k. "A 2 care". ImetStuc neftokhigichookogo intom Lk.d.mli.msuk 83SR or pstrocbo.~... alcith.e. of the of ttt all y N agmaTm, July 21. 1960 ear*  TOPCHIYEV, A.V,akadet6ik; HIMIMA, S.S.; MUSAYEV, I.A.; SAIIIN. F.1.; SUCHEDVA, A.A.; SUSHCHIZ, R.Yfi~.; CHZUWVA, N.N. Method of separating aromatic hydrocarbons form middle (kerosine) petroleum fractions. Dokl. AN SSSR 134 no.6-.1378-lj8O 0"60. (MIRA 13:10) 1. Institut neftakhimlohookogo sinteza Akadeudi nauk 33M (Hydrocarbons) (Chromatographic analysis)  TOPCHITEV, A.V.; NMNTOVA,, B.S.; MUSAYEV., I.A.j SANIN, Pll.j SUCHKOVA,, A.A.j SUSHCHIK9 R. Ta.1 CHEKALOVAj N.N. Methods of Iso2sting aromatic hydrocarbons from intermediate (kerosine) petrolem fractions. Trudy lUst, neftl 1012-57 160. (MU 14:5) (Hydrocarbons)  /Y' /V, 31975 S/08 V611000102 3/04 6/061 B 138/B 101 /10/'70 AUTHORS: Topohiyov, A. V., Nifontova, S. S., Munayev, I. A.,.kjaLn.,_ P. I., Suchkova, A. A., Sughchik; P. Ya., Chekalova, N. N. TITLE: Separation of aromatic hydrocarbonn from the medium (kerosine) fractions of petroleum PERIODICAL: Referativny), zhurnal. Khimlyn, no, 23, 1961, 447 - 448 abstract 2~M64 (Tr. ln-ta nefti. All SSSR, v. 14, 1960, ;2-57) TEXT: Research work has produced a method for dividing petroleum into distillate fractions and separating the narrow aromatic hydrocarbons from the broad aromatic fraction 175 - 3000C of Romaohki petroleum by chromatographic fractionation over silica gel ACM(ASM). They are divided into structural types and a partial study line been made of the monocyclic Aromation. The possibility of quantitative fractionation by chromatography over home-produced Al 203 is demonstrated for the case of artificial mixtures of mono- and bicyclio aromatics. When aromatics are separated from the naphtheno-paraffin part over silica gel, ;hey need not be separated In the form of narrow fractions according to n2 D. However, Card 1/2  31975 SIOD11611000102310461061 Separation of aromatic hydrocarbons ... B138/BI01 they can quite well be naparated as one whole aromatic traction which can then, over Al 203S be divided into mono-, and bicyclic, or higher, molecular aromatic hydrocarbons. The overall 1hydrocarbon coml3onition of the Romanhki 175 - 3000C fraction has been found (in j.'); monosyclic aromatics 13.11j bicyclic aromatica 3.011 aromatics of mixed structure 0.7; hexamethyleno hydrocarbons 6.41 pentnmethylene hydrocarbons 11.5; normal paraffinous hydrocarbano 17-51 inoparaffinoua 41.2 and organosulfur compounds 6.58 separated by oxidation. [Abstraoter'B note: Complete trnnalation. Card 2/2  CMUWUg T.799 inzh. , Ws Ways for the technical reorganization of the linen Indust77. Tekst. prom, 19 no*5:16-20 My 159. (MIRA 32:10) I*Gosudaretve=W nauchno-tekhnichaskly komitet Soveta. Ministrov RSM, (Idnen)  C-V1 F-KF1 L oVs Kly YE AID P 1875 Subject USSR/keteorology and Hydrology Card 1/1 Pub. TI-a - 18/26 Author Chekalovskly, R. F. Title On an Illogical requirement of the Directiveo Periodical : Met. I gidro,, no.2, 47, 1955 Abstract : Criticism on the computation of flow velocity as ordered by the Nastavleniya Otdrometeorologicheakim Stantslyam (Directives to Hydrometeorological Stations). Institution : None Submitted : No date  CREKALOVSKIY,'YG.F. Methodology of measuring low-water discharges of snall rivers. Sbor. rab. Kuib.,gidromet.-obser. no.2glO2-115 16r Volume of flow of the spring flood of the rivers of Orenburg Province. Ibid.-.1-16-126 (MIRA 18-,10)  %0 A. UM/22WO106 1948. sound W40r" 'WeLve Propagation *Rtfect of Thertla. Forces on the Speed of Wave WVPagati= in a porous space,* 2. P. Chelmlynk, hi PP "NOft M20Z" V01 IXVIp SO Author refers to article by Prof V. N. Shchel- kackWev. S"ed of eound In given flexible madium is equal to speed of. propagation of deflected waves In porous aWe. Speed of deflected waves at acund frequmwy In liquid saturating parous, sWe Is one tanth Oat ~ of the speed of somid, In clear OYM WMA"I" (OW") W 19W liguld. So-called "surface wayes,O in given woo, am In no vaq be distin&Imbed fr~u- "sound wav".0 Gives equation for the speed of expansion of porl- odic volusetrio defenat JMM In Porous B"IM. slong vith forma" for Us speed of deamted Mwes of scand ftoqueney 1n:11guld, spood of WV"Baticn, Of Surface way", etc.  CITEIIUUMN, 3. B. AID - P-16o Subject USSR/Engineering Card 1/1 Authors Chelcalyuk, E. B., Oganov, K. A., Stepanchikov, E. A. and SnArskly, A. N. - TIt,-1e, Thermal Treatment of Exhausted,Oil Stratum. (Part I) Periodical Neft. khoz., v. 32, #1, 33-38, Ja 1954 Abstract :~l Injection of a preheated medium along the old stratum is outlined for the Increase of output of exhausted oil well. A thermodynamic equation Is developed for heat distribution around the injected medium. Two charts a.nd tables (Part II will be in next issue). Institution : Institute of Fuel Resourses, Ac. of. Sci., USSR. Submitted : No date  fiiz: /o4,4 YV/v~ k7 Z. Subject USSR/Mining Cii-d 1/1 Pub. 78 - 8/26 AID P - 823 Authors Oganov, K. A., Chekalyuk, E. B. and Snarskiy, A. N. Title : Rational method of heat treatment of the oil shelf based on the results of laboratory investigation Periodical : Neft. khoz., v. 32, #9* 33-38, s 1954 Abstract : The author-desoribee an experiment with a sand model filled with oil on the application of heat treatment to the oil shelf for the Increase of maximum output of the oil well. Comparative displacements of oil from the sand model were made under hydrostatic pressure of the water column, under various pressures of pumped nitrogen, cold and-heated water, and finally steam. The description is illustraVed with formulas and numerical examples of computation of thermal processes. 2 tables, 2 drawings and I Russian reference (1954). Institution: None Submitted : No date  C lye)< A e7. AID P - 2095 Subject USSR/Mining Card 1/1 Pub. 78 - 8/24 Author : Chekslyuks Be Be case of Title : Temperature field of a stratum in the pressure pumping of a heat carrier into the well Periodical : Neft. khoz., V. 33, no. 4, 39-42, Ap 1955 Abstract : The author analyses the temperature conditions and heat transfer which result around the well when a heat- carrying liquid is pumped under pressure for secondary recovery of partly exhausted petroliferous oil strata. Formulae, charts. Institution; None Submitted No date   CHEKALYUK, E. B. Cand Tech Sci -- (dias) "Nonstationary Phenomera .. of the Flow of Homogeneous Fluids from a Porous Medium." LIvov, 1957. 15 pp 211kxxtkkxk with graphs 21 cm. (Min of Higher Education Ukrai- nian SSR, LIvov Polytechnic Inst), 100 copies (KL, 26-57, 109) - 77 -  11(0) SOV/93-58-11-8/15 AMOR, Chekalyuk, Z.B. - ----------- TITLE: '~-A~o ~for ~Determining Physical Characteristics of Oil-Bearing Formations (Metod opredeleniya fizicheskikh parametrov.plasta) PERIODICAL: Neftyanoye khozyaystvo, 1958, Nr 1.1, pp 42-48 (USSR) AESTRAPT: The methods for determining the physical characteristics of oil- bearing formations, diveloped by I.A. Charnyy and I.D. Unrikhin [Ref 1) and by G.I. Barenblatt, YU.P. Borisov, S.G. Ksmenetskiy, and A.P. Krylov (Ref. 2], take Into account the effect of oil inflow after well shutoff on the bottom hole pressure build-up, and improve the accuracy of the determinations. But each determination by these methods requires a minlanim of six operations of mmerical integration. The author suggests shorter method for the necessary- calculations. By this method the bottom hole pressure build-up curve is directly recorded by a depth manometer and the borehole fluid accumulation curve is constracted on.the basis'of pressure data with the aid of the following formula: V (t) (Ft + p j-),4 p(t) - Ipt,61pt(t) - rd- (t),6 pcr (t) 1: where VM Is the borehole fluid accumulation curve.. Ft - the c .rose section area of the liquid column Im the annular space, Fd"- the cross section area Card 1/3  A Method for Determining Physical Characteristics (Cont.) SOV/93-58-11-8/15 of the liquid colum in the tubing, Y - the specific gravity of the bottom hole Crudepid P(t) - the increase in bottom hole pressure, and&d- (t) - the change in the tubing pressure, The next step is constMeting a bottom hole pressure baLild-up curve in a special system of AP an& G(t) cOOrdinate&-and preseiitAP (t -*V) as a function of G(T)e This funetion can be construoied with the aid of a special template shown in Pig. 1. The area bound by the curve F(t-b = f EGMI and the coordinate axis corresponds to the so-called Duhsmel integral D (t) in kg/eq cu. The value of this integral is determined with the aid o the formula of tangents and to pre-sented as follovs: Da) - r..(-t) n _V4 P (V + 112) , where n Is the number of Intervals of the function I a argument. The coordinates of the points of the bottom hole pressure curve are determin--& with the aid of the following formula. x - lnt and ImRD(-t) 21%t - V(t)] where Qo is the yield of the vell prior to sbutoff and t - the time in seconds. The permeabigty of the formation is expressed by wkare k is the A 2 ITL permeability of the formation in Darcies, h - the capacity of the formation in cm, andjL- the viscosity of the crude in the formation in centipoises. The relative piezo conductivity of the formation is expressed by 9C e -XOJ, Card. 2/3 ro 2  A Method for Determining Physical Characteristics (cont.) SOV/93-58-3-1-8/15 vhere X is the plezo eon&wtlvity of the formation In sq, cm/see end ro - the radiua of a perfect vell or the equivalent effective radius of a Vell. The space of the pr*fteing sector of the borehole or the volume of rock drilled in the formation is presented by VP - ITro JO vhere is the XTV' formation pressure in aq cm/kg. The relative efidlative radius of the vell at the -,--nt of shutoff Is presented by Rt r. 2 Top vhere To is the ro r. operating time of the oilwall prior to shutoff. The produetivity.coefficient of the vell at the wment of sbutoff Is presented by Kt 2 Ir kb .. The 1n Rt Iro, decline In the effective operation of the wen prior to shutoff in presented by,6 PO - % .. The practical application of this method is illustrated in K the text, and the initial data as von as the results an presented in Table 1 and Figs. 2-3. The details on the development or these forwalm am explained in supplementary notes. There are 3 figures, 1 table and 3 Soviet references. Card 3/3  CROMYUK, S. D. - I - ~ - Temperature conditions of gas and petrolemp-boaring strata. Trudy VMIFI no.12:329-337 158. (KM 12:3) (Patrol*= engineering) Okrth tesperatuxe)  CERALYUK, I.B. of petrolova-bwlvS stratao Trudy MGM no.12:338-!358 158. WU 12:3) (Petroleum engineering)  _iA -X7;--TT) C P. v4L It ARI 14,5 14 S ~ 1 ~ I ~. ~j .1 ' P 13 A A Ila  CMMTUI, I.B. Selection of design equation for deteraining.physical parameters of a gas-bearing layer based on the Increase of pressure in a shut dovu vell. Gas. prom. 4 no.11:10-13 159. (MIRA 13:2) (Gas, Natural)  CHKALYUK, 1. B. ------ Maracteristics of data processing in teett *Ls Wellse Gas. pros. 5 no-4:12 AP 160. IKIBA 13:8) (Gam wells)  CHJKLLTUI, Z.B. Determination of the producing capacity of petroleum horizons based on thermal logging curves of development wells. Reft. khos, 38 no.10:28-30 0.160, (MIRA 1329) (Oil fields-Production methodd)  - CHIMUYUK. R.B. I Determining the, hydrodynamic parameterc of a stratum bjr Its temperature characteristics. Trud7 VNII no.29:297-303 16o. (MIRA 13:10) I, Ukralneldy natiobno-leelodovatel'skly Cooloro-rasyedochuyy Institut. (Oil well logging) (Gas well logging)  CHEKAVYUK, Emmanuil Bogdanovich; RAYTBURDY L.L... red.; GUSAROV, K.F.y --------tekbn* red, [Principles of piezometry of oil and gas pools) Osnovy plezometrii zalezhei nefti i gaza. Kiev,, Gostekhizdat USSR., 1961. 285 P. (MIRA 15:7) (Oil reservoir engineering) (Piezometer)  CHEKALYUK, E.B. Nsthodg of determining the productivity of a section according to the thermogram of producing gazweila. Gazopromo 6 no,8:5-10 161. (MIU 14:10) (Gas wells) e  CH&MYUK E.B.: FILYAS. Yu.I. Slaaticlty of eatmtedlile Naft. J pa. prom. no.2:48-50 Ap-je 162. (MIRA 15z6) 1. Ukrainal4y nauchno-isaledovateltakly geologoravvedocbnyy institut. (oil reservoir engineering)  CHEKALYUK R,B. Relative reservoir-boundary method. )"uch.-tekh. sbor. po dob. nefti no.17:28-33 162. (MIRA 17:8) 1, Ukraimkiy nauchno-iseledovatellskiy geologoraxvedochmy inatitat,  CHEK&UUK, Z.B. Using the piesomtric nothod for calmlating oil and gas produalble reserves. Neft. khoz. 40 no.ll,*43-46 N 162. z (MMA 16:7) (Oil renervoir engineering) (Piezometer)  ---CHEKALYUK, E.B., kand. toklui. nauk Right level for the withdrawal of oil from wells on new fields in the Dnieper-Donets Lowland. Neft. i gaz. prom. no.2:39-1+1 AP-Je 163. (MIRA 17:11) 1. Ukrainskiy nauchno-issledovatellsk-,y geolocorazvedochnyy institut. .0 ~  Gf IIIYU TI~ i.!~ lif , do ktor ttikhu . rvuk- ; , ." . N. , i'C". ; a l . ... ... - - - I . I M.11J., A..2. DIN botltom.-wato;- drivo typo oll jvol~,,. Noft. I gaz. prom. no.4:37-40 0-1) 16-1. (Z4114-A 17;.12- )  LESHCHINSKY, A,.A.; SlNITSYN, V.Ya.1 GHEKALYUK, E.B. Present status of Qm prospecta for the development of the Dolina oil field. Geol. nefti i gaza 7 no.lOs39-43 0 163. (MIRA 17:10) 1. Ukrainskiy nauchno-isaledovatellskly geologorazvedochnyy institut.