SCIENTIFIC ABSTRACT PODOLSKAYA, A. A. - PODOLSKAYA, N. S.

BABLYRU. S.N.- PODOLISKAYA, A.A. Gamma globulin for the prevention and treatment of whooping cough. Zhur.mikrobiol.spid. t immun. 27 no.4:7-12 Ap 156. (MIRA 9:7) 1. Is Moskovskogo institute, vaktsin i eyvorotok imeni Mechnikova. (GAML aLOMMIN, ther. 'use whooping cough prey. & ther.) (WHOOPING GOUGH, prey. & control gams globulin)  KARANOVICH, G.Go; IONOVA, L.A.; PODDLISLAYA, B.L. Photometric determInation of gallium by means of gallion [with summary In 3ngliahl..- Zhuronal.khim. 13 no.4:4)9-444 JI-Ag 158. (min 11:11) 1. Voesoyasnyy nauchno-inaledovatellskiy inatitut khimichaskikh reaktivov, Moskva. (Gallium) (Photometry) (Phenol)  BRUDZ', V.G..; SHAFRAN, I.G.; SMIRNOVA, K.A.; DRAPKINA, D.A.; ZELICHENOK, S.L.; PODOL'-SKAYAJ, B.L.; Prinimala uchastiye lO.SLIllIKOVA, V.I. Sulfonazo, a new read)nt for vanadium. Trudy IREA no.25:17-23 16). (MIRA 18:6)  SOV/75-13-4-11/29 AUTHORS: Karanovich, G. G., Ionova, L. A., Podollskaya, B. L. TITLE: The Photometric Determination of Gallium by Means of Gallion (Fotometricheskoye opredeleniye galliya pri pomoshchi galliona) PERIODICAL: Zhurnal analiticheskoy khimii, 1958, Vol. 13, Nr 4, PP. 439- 444 (USSR) ABSTRACT: Several organic compounds are used for the photometric deter- mination of gallium. These compounds react with gallium in forming deeply colored compounds (Refs 1-4). "Gallion", a re- action product from H-acid and diazotized 2-amino-4-nitro-6- chloro-phenol, is an interesting reagent to gallium (Ref 6). It is water-soluble; its 0,01% aqueous solution has a dark-red- and the alkaline solution a blue-violet color. The reagent is easily soluble in alcohol and acetone, whereas it is difficult to solve in chloroform and ethylene-chloride. The solutions of gallion form colored compofinds with several elements. A com- pound of blue color is formed with gallium. Gallion changes its color between p R 3,8 and 5,8 from red to blue-violet. Be- Card 1/4 tween P. 5,8 and 13 the blue-violet color does not change.  SOV/75-13-4-11/29 The Photometric Determination of Gallium by Means of Gallion T With a further increase of the p -value the color changes to pink and attains the same shade at p H about 14 as at PH 4. The optimum p -value for the determination of gallium is at H PH 2,4 - 3,4. The maximum of light-absorption is at 600 m~ A biphthalate buffer solution is -useful for standardization, though it depends in a high degree on temperature. The crystals separate if temperature drops to +160. At optimum conditions (pH about 3,2) the susceptibility of the determination amounts to 0,2jL.-allium in 5 ml solution. If the solution is heated, the final color is reaqhed after 1 1/2 to 2 minutes, but at room temperature only after 10 to 15 minutes. Determin5tion can be carried out by means of colorimetric microtitration The maximal tolerable quantities of foreign ions which do not yield colored compounds with gallion (Ge, Pr, La, Mn, Co, Zn, Li, In, Rh, T1, Re, Pb, Mg, Ca, Be, Al) were found and are mentioned. Aluminum and indium form colored compounds with gallion at pH about 3,2. Gallium, however, can be determined Card 2/4 in stronger acid compounds if there is a 50-fold excess of  SOV/75-13-4-11/291 The Photometric Determination of Gallium by Means of Gallion these two elements. The influence of iron, which is disturbing to a high degree, can be removed by a hydrochloric acid solu- tion of hydroxylamine. Copper likewise exercis(-s a disturbing influence and has to be reduced by means of a solution of so- dium sulfate before its determination. After adding the hy- droxylamine solution, the pH-value of the solution has to be brought to 2,4 - -3,2 by sodium acetate. Prior to its deter- mination in alumosilicates, aluminum alloy, zinc blende, and other materials containing only traces of gallium, the latter has to be separated. This 'is usually done by ex- traction by means of organic solvents from hydrochloric acid sclution (Refs 3, 5, 7). The extraction with isoamylalcohol and ethyl acetate from 6n hydrochloric acid solution proved tc be the most useful. The conditions for the separation and the determination of gallium in various objects are mentioned in detail. There are 4 figures, 7 tables, and 7 references, 2 of which are Soviet. ASSOGIATION: Vsesoyuznyy nauchno-isaledovatellskiy institut khimicheskikh Card 3/4  SOV/75-13-4-11/29 .The Photometric Determination of Gallium by Means of Gallion reaktivov, Moskva (All-Union Scientific Research Institute of Chemical Reagents, Moscow) SUBMITTED: September 20, 1956 1. Gallium--Determination 2. Gallion-Properties 3. Reagents --Synthesis 4. Photomet.-Y Card 4/4 1  USSR/Geophysics Radiation jul/Aug 53 "Effective Radiation of Slopes," K. Ya. Kondratlyev angE. L. Podollskaya~I~ain,Geophys Obs im A. I. Iz Ak Ilauk SSSR, Ser Geof iz, No PP 370-375 'Expound results of theoretical and exptl investi- gations into effective radiation of sloping sur- faces. Derive accurate and approximate theoreti.,- cal formulas for calcg, the effective radiation of ,slopes. Produce observations on the effective radiation of inclined surfaces. Establish the 265T85 limits of applicability of approx theoretical for- mulas for calcg the effective radiation of sloping :surfaces.  -- ---- ------- - KONDRATIYBV. Ko.Yu.;-PODOLISKAYA, A.L. ~,- t Iffective radiation of inclines. Izv. AN SSSR. Ser.geofix. no.4*70- 375 Jl-Ag '53- NLU 6--7) (Radiation) I  PODOLISKAYA, E. L. and KONDRATIY---VA, K. Ya. "Theory of the Yanishevskiy Pyrgoometer". Vestnik Leningr. un-ta, No 5, Pr, 103-117P 1954- A more complete theDry of the instrument for the measurement of radiational balance is given. The theory is applicable under the con- dition of stationary heat exchange between recptor plates of the pyrgeometer and the air, Le.,, when the microfluctuations of wind velocity and air temperature existing in the atmosphere are not taken into consideration. Formulas for the determination of coefficients of heat transmission are employed in two limiting cases, namely forced and free motion. A detailed analysis is given of the dependence of the con- version factor upon wind velocity, temperature, and radiation, (RZhGeol, No 9, 1955) SO: Sum No 884# 9 Apr 1956  .1- PODOLISKAYA, . - --- Calculation of h-,st e~-chauge in- a balance "_e-tar. Part 1. Vest LGU 14 no.22:329-55 159. - (Heat-Transmission) (Air flow)   'Infd'.the --,cape .-of "the;'-bla6 k'~ bod yh'4,&6hi6d ha t t4ts-'rece fide ~n~ sue- oca ed -~O'n~-ihe -"- me~- level -as -the- leading-*41f of the-black-b-00y. ~--Measlarementq 'have*-~sjjown that:the maximal temperature difference~at, extreme-points of the ca- vity did not exceed 1. 5C at a 40C variation between the black body and the surrounding atmosphere. This corresponds to a temperature gradient along the cavity surface of about 0. 03 C/Cm. Bibl. with 12 titles; ?, illustrations. 14. Meklar  I-Ar different o Vic 'Derbalan mckA of tha centT4 w part of the Ru difions dulial Xta stdl- -1 A-- it, mtrms chrm. anall-ses of 6rnpositg, .-Alate. pyri 'tic, aud clememary iiyrijic , TOU iffermt dl -ITY . Diagram tra the redlivitntation are pre-scmed. Nveakly 7tauciny Conditions prevailell, particularly In the "mmloy and Tula titm Not Only tkc anim (it pyrilt.- ;sod fumu iron bilt 050 ilw wat Gi clet utt S ~ . n -; an ary indicator of the degme of, reducing condifim, 36 leftr-  I f voutbWastem T-A, -1 the !Cnigenns. fuld L and2 C, 364-Z4.' S. Matrrw S F based W M the rocks of am eo V, Dev remiiim Ore 2r-,-ud di. ITtsented. 1,TU Oylk and zhivetsk u,iwa3,, SilWY-01 the 9 --dltlans P,,IW- .1. pyri ill torne WL -41mintrte-ja Is at to bt'6 Containing e,.d,,Y, f,~twn alla-bir t)  V- --- - - PODOWSKAYA. G.A. Opeiation of a 40OL-ton open-hearth furnace with blgb~pre4bbre natmr-al gas. Met-allurg 6 no.6:13-16 Je 161. (MURA 14-- 5) (Open-hearth furnaces-Design and construction)  67, Jp-8-6/20 AUTHOR: Sl&dkoshteyev, V.T. and Podollsk,ava G.A., Engineers. TITIS: Thermal Conditions of Open-hearth Melting with Oxygen- 'blowing of the Bath (Te~lovoy rezhim martenovskoy plavkJ, pri produvke vanny kislorodom) FMODICAL: Netallurg, 1957, No.8, pp. 21 - 22 (USSR) .ABSTRACT: The authors give an account of experience at the "Azov- stall" Works in the development of optimal conditions for oxygen-blowing of the open-hearth bath. Oxygen-blowing secured a more rapid rise in metal tenperature (Fig.1) and, as shown in experimental heats, coke-oven gas consumption could then be reduced by 257o without-affecting melt-down or decarburisation speeds and with beneficial effect on dephosphorisation. The authors also give results (Table 1) of two groups of experi- mental heats in one of which oxygen was added to the flame as well as the bath; this gave no benefits. Experiments showed that an excess-air coefficient of 1.6"S'ecured complete- com- bustion of carbon monoxide produced by oxygen blowing. kor the finishing period it was found necessary when oxygen-blowing of a bath with 0.8 - 2.0% C to add ore to prevent overheating; coke-oven gas consumption was reduced by at least 25s and excess of air was increased; there was no oxygenation of the flame. Cardl/2 There are 2 figures and 3 tables.  KAWNSKIY., Yu.A.; PODOLISKAYA, G.A. ---" Single-channel bilkhead of mazut-heated open-hearth furnaces. Biul.tekh...ekon.inform.Gos.nauch.-issl.inst.nauch.i tekh.inform. - - 1! . . no.9-.5-7 163. (MRA 16:10)  S/13o/61/ooo/m/005/006 AOC61AI01 AUTHORS: Karpov, G. D., Shklyar, V. S. TITLE: Section furnaces for high-speed metal heating PERIODICAL: Metallurg, no. 12, 1961, 36-38 TEXT: Section furnaces were mounted in 1959 at the ball rolling shop of the "Azovstall" Plant. The furnaces have different features according to the capacity of the rolling mills. Furnace no. 1 has 5 zones with 4 sections each, and supplies heated metal to mill 620 for the rolling of balls of 40, 50, 60 and 80 mm In diameter. Furnace no. 2 consists of 6 zones, 5 of which have 11, and the sixth 5 sections; this furnace supplies mill 1040 for rolling balls of 60, 80, 100 and 115 nun in diameter. The furnaces are fuelled with a mixture of coke and blast furnace gas from a common collector. The blanks are moved by water-cooled rolls mounted at an angle of 80 in respect to the axis, which is perpendicular to the motion of the blanks. This arrangement assures uniform heating of the blanks. Satisfactory, circulation of the furnace gases is assured by the tangential arrangement of torches (Fig. 2). The specific duration of heating the blanks is 1.5 - 2 min/em thickness. The air is heated in recuperator- Card 1/2  It S11 30/6 I/WO/O 12/(X6/V,6 Section furnaces for high-speed metal heating A0061AI01 thermoblocks, The heat load is automatically regulated; 'however, this method shows some deficiencies, such as inertia of devices, lack of a device to deter- mine the temperature of metal heating; and unsqtisfactory arrangement of the devices in the shop. Requirements to refractory material are very high because of considerable changes in temperature. It was found that chrome-magnesite bricks showed satisfactory results when used as a lining for the furnace walls and the bottom. According to the heat 2 conditions developed, the furnaces are Intended to operate at. 1,150 - 1,300 0C, i.e. relatively low temperature range which facilitates the service conditions of the refractory masonry. Presently the rated efficiency of the mills has been reached for the rolling of 40, 60 and 80 mm diameter balls. There are 2 figures. Pig. 2- Arrangement of torches I and rolls 2 in the D)-nace C,ard 2/2  FUNCHENOKS N.A.; POTOTSKAYA, L.Ye.; PODOLISKAYA,,I.Yu. (Leningrad) Functional state of the adr*nal cortex in newborn infants. Probl. *ndok. i gorm. no.2:67-73163. (MIRA 16.-7) 1. :rm otd*loniya novorazbdonnykh (otarshiy naucbnyy so'vfudnik N.A. Punchenok).,Iaboratorii ondokrinologii (nattehnyy rukovueLitel*- d*yBtvitel'W chlen AMN SWEL , prof. V.G.Baranov) i k]Aniko- diagnosticheskoy ~aboratorii Instituta, akusheratva i-gineko- logii (direktor --~ prof. M.A.Petrov-Mmlakmv) AM 33M. (ADREUL CORTEX) (INFANTS (NEWBORN))  VLASA'y Tatlyana; DkVYDOVA, Marina Ivanovna; MONIN, Sergey Aleksandrovich; FISHCHEVA, T.V., red.; PASHCHENKO, O.V., red. kart; PODOLISKATA..K.Ta., red. kart; MAKHOVA, N.N., -tekbn. red. [practical studies in the physical geography of the parts.of the world] Prakticheskie raboty po fizichaskoi geografii chastei sveta; posobie dlia studentov pedagogichoskikb in- stitutov. Moskva, Uchpedgiz, 1962. 158 p. (MIRk 16:5) 1. Potsenty kafedry.fizicheskogo stranovedeniya Mos4bvskogo gosddarstvennogo pedagogicheskogo instituta imeni V.I.Lenina (for Vlasova, Davydova, Monin). (Physical geography)  IVANOV, M.I.- PODOLISKAYAJ F.S. A-- Beat of UP92 and U6Fe formation. Atomeenerg. 13 ro.6072i-575 D 162. (Uranium alloys) (Beat of formation) (MM 150-2)  PODOMSKAYA, N-y- Several forms of Slavicizing ibreign geographfca3. names. -,oD. .. .geogo no.58t,:14-40 .162. (MIRA 15:9) (Novgorod Province-Namest Geographical) I  A~vl Ov A . F. ; G 0 NIV y h u, Machine for cuttinr off the unfinished ends of shells. Me+,-al-lurg 10 no.6:43 Je 165~, (MJRA 18:6)  ACC NR: AT7007 00 SOURCE CODE: UR/3207/66/000/00-i/OC.,~'~j/'L-,-055 AUTHOR: Shklyzir, V. S.; Iodko, E. A. Podollskaya, G. A. ------------ ORG: Donniichermet TITLE: Method of mass transfer simulation of the thermal and hydrodynamic processes I SOURCE: Gidlro_-ieromekhanika, no. 4, 1966, 49-55 TOPIC TAGS: thbrmal process, hydrodynamic process, diffusion model, mass transfer, mass exchange, Reynolds number, simulation, friction, friction stress, lieat exchange, heat transfer ABSTRACT: A study was made of the mass transfer simulation of thermal ancl hydrodynamic prccesses. The relationships to be observed for simulating heat- mass-exchange processes on a diffusion model are defined. This substanti all e-s the possibility of dif.-Usion simulation of hydrodynamically-similar processes in a self- similar re-lion in the absence of equality of Reynolds numbers. This, in turn, expands the class of problems which can be solved by the diffusion model. It is  ACC NR- AT7007190 shownthat by using the diffusion model with nonreclaimable adsorption bounda-ries, the, concentration of impurities at the boundary is not equal to zero. The study presents a method for using the results of mass transfer simulation for computing friction stresses and velocities. A procedure has also been developed for silmul at- ing heat-m ass -exchange processes with the use of light-sensitive paper as the absorbent materialwhich makes it possible to improve the reproducibility of the results and to facilitate the construction of the model. The authors acknowledge the participation of V. A. Blashchuk, G. T. Novozhilov, and T. 1. Tretlyakova in ~this study. Orig. art. has: 2 figures and 28 formulas. [NT] SUB CODE: 13, 20_/SUBM DATE: none/ORIG REF: 005/OTH REF: 001/ Card 2 2  PODOLSKAIA, G. A.[Podoliskaya, G. A.) Testing the performance of the 400-ton Martin furnace with natural gas at high pressure. Analele.metalurgie 15 no-4:195-201 O-D 161. (Open-hearth process) (Gas, Natural)  SIADKOSHTiMp V*T*, inzhener; PODOLISKAYA, G.A., inzhener. Temperature conditions during open-hearth smelting vith oxygen blov over the bath. Metallurg 2 no.8.-21-22 Ag 157. OCMA 10: 9) 1, Zavod "Aiovotall." (Open hearth furnaces) (Oxygen-Industrial applications) (Heat-Transmission)   V12959, the Aid of Oxygf~_ ]"InsilikstaJ6 C A- Podo)cAm aW V. A. NJ.A&v;ku, AlielaUvrg, 1958, no. 1955, P. 17-19. A rmmti)- dryclDped Tnm)iM of init-wify-11317 T.WhinLIA1,11 t~_-v aid of 0 inrtroduc-(A Y~oth into ih, Ii ... i ..d k-ft the th  PODDLISKAYA. G.A., inzhemer; M AW VSKIY, V.A.. inzhener. Intensification of steel awlting bjr oxygen. Metallurg no.6: 17-19 JS ' .56. (K[aA 9:9) l.. IILT*d NAsevotal IN. (Zhdww,r-Open hearth furnaces) (Oxygen-Industrial applications)  PODOLISKAYA I A -uchitellnitsa geografii; PROKA, V.Ye. (Itshinev); PODOSINKIN., V.N.; MIRKHAZOV, G.G., uchitell geografii Editor's mail. Gecg. v shkole 25 no.4:63-65 Jl-Ag 162. (KRA 15:8) 1. 1-ya shkola imeni Pushkina, g.Berezniki (for Podollskaya). 2. 5-ya shkola g. Ishimbay (for Podosinkin). 3. Burafevskaya odinnadtsatiletnyaya shkola Bashk:Lrskoy ASSR (for FAirkhazov). (Geography-Stildy ana teiiahing)- (School exaursions')  BARANOV, V.G,; PODOLISKAYAq I.Yu.; ROZOVSKAYA, I.T. '-Z-~~ Function of the adrenal cortex in women during the course of aging and in menopause. Probl. endok. i gorm, 6 io. 3:95-103 bfy~e 16% (14IRA 14: 1) (ADRENAL CORTEX) (AGING) (CLIMACTERIC)  LJ TIVANDVA, Ye. S;PODOLISKAYA, I. Tu. Clinical-laboratM methods of ovarian function test. Akash. gin., Moskva. no. 2:19-23 Mar-Apr 1952, (CLML 22;2) 1. Candidate Medical Sciences for Tumanova. 2. Of the Obstetric- Gynecological Clinic (Head -- Hoinored Worker in Science Prof. A. 3. Handel'shtan), State Order of Lenin Institute for the Advanced Training of Physicians imeni S. M. Kirov, and of the Institute of Obstetrics and Gynecology (Director - Prof. A. P. Nikolayev. Corresponding Member AMS USSR). Academy of Hedical Sciences USSR.  VA .--ttd I-VT iht %d ED 0. =Iii= .ia qr1L =cxm=zt~= F r it_ Antr-nW Stt~-Ilk "d kel (Leathez And O - Inc. -~a is detd. ta6Hmutrlcally with p~jv- zallalcPrbox7lk aeml tD. a blue ca;f. In h1th diln of Co, I-M intezsity aud 'lue Ail CtAw ek--t)ge, 50 OLU the ~ftffi. b p6--sb6 by ttsing rvloi rtiqdads -withaut a pho w1om Six stands ar-, urp-- to 0-2~ 6.3, 0.15, 0.7. and 1.0 oz. C- in 70 =A. Frc'm a stri of pril 5 cm. fitin the spine and 5 am. Im-nm 11;e rcot S le tail V.Mdi P.-,--.a -9, mm. rut Cut. Two *0.05 1g. of of ' tb~c ~-mplccte ljyilrz4rxrd in 10 raL DA N 140, bo:ukd for 5 inin., 10 ml. a hydro17tatt, is mixed with I wJ. 2% sumb foln., I'Tal. 2Y NnGll, RtjG, and 10 ral. c4 a mtcL zolutiaroTl. The snhi. is mii6d =d after I min. the coltr Is M.-+A -1~ '41- ve giy b  MONIF, Sergey Alaksandrovich; SMIRNOVA. N.P., redaktor; GRYUNBMG, G.Y~a, redakto redaktor kart; MAXHOVA, N.R., 4:"y roe=10&79~. tekhnichesid , [Geography of sails, with the prineples of soil science; a textbook for pedagogical institutes] Geografiia pochv s oanovasi pochvovedeniia; uchebmik dlis. pedagogicheakikh insitutov. Moskva, Ges.uchebne-pedagog. izd-vo X-va prosv.RSFSR, 1957. 287 p. 2 fold..mqtpa (in pocket-) (MIaA 10:4) (sails)  PODOWSKAYA. M.Z.,kandidat biologichookikh nauk; GAN, A.I., inzhener. Studjr of technical characteristics of cottonseed. Xasl. -zhir. prom. 23 no.1:1-4 '57. (MLRA 10:1) 1. Sr*deasi&tskiy filial Voesoyuznogo nauchno-inaledovatel8skogo instituta. shirov. (Cottonseed)  PODOLIS96YA, K.Z., k&ndidat biologlohosirikh nauk.- LIAN. A.L. Whoser. StWy of cottonseed for industrial uses. Naol,-zblro prom, 23 ao*2 NIU 10:4) l.-Sr4dx*&si&tmkiy fills.1j"mayusnogo nauchno-issledovatel'skege Ingtituts, shirov. (Cottonseed)  FOWL' SKAYA. N., metodiat. Survey of agricultural literature. Nauka I pered. op. v sallkhoz. 8 no-1:77-78 Ja '58. (MIRA 11:2) l.Otdel tematiki L obobahcheniya peredovogo opyta Vsejso7uznoy sel1skokhozyaystvennoy vystavki. (Moscow--Bibliographical exhibition)  ABMYUNO.VN V,Ya,; FMOLISKM 11 T. He Griseofulvin., an effective preparation in the treatment of fungous diseases. SovAbde 27 no.7:1,5-50 JI'63- (KIPA 16:9) 1. Iz kliniki kozhnykh i venericheskikh bolezney (dir. - prof. V.Ye-.Arutyunov) Makovskogo oblastnogo nauchno-isoledovatell- skogo klinicheskogo inatituta imeni M.F.VlAdimi skogo (dir. zaslu7.hennyy vrach RSFSR P.14.Leonenko) (MMICAL NYGOLOGY) (GRISEDFULVIN)  USSR/Metals - Steel, Analysis Feb 50 Hydrogen "Macroscopic Determination of Hydrogen in Solid Steel," Ye. V. Podollskaya, Ye. G. Shumovskiy, Ukrainian Inst of Metals, 5 pP -Zavod Lab- Vol XVI, No 2 Develops macroscopic method for detecting presence :of hydrogen in solid steel by coating specimen sur- ~fice with vitreous enamels which do not diffuse into' metal. Method may be used for controlling melting, process or finished products. Suggests further in- vestigations in direction of developing efficient 159T62 USSR/Metals - Steel, Analysis (Contd) Feb 50 scale f6r 'iteel evaluation as to gas saturation AwA prepakation of enamel standards with definite hydrogen contents verified by hot extraction method.  -i-vvijUSYWYAp YE'. V. pC)DOLiSKAyA, yE. V. --"The Problem of Hydrogen Distribution in Metal and Its 1~ffect'Upon the Structure and Plasticity of Iron-Carbon Alloys."Vissertations For Degrees In Science and Engineering Defended at USSR Higher Educational Institutions)(29) Min Heavy Machine-Building USSR, Central Sci Res Inst of Technology and Machine-Building TsNIITMash, Kharlliov,, 1955 So.- Knizhnaya Letopis' No 29, 16 July 1955 * For the Degree of Candidate in Technical Saiwass  The adheterice of alunilitunt alloys;AI'lausini in steel bp fin F. 6. S1111111-kit '411.1 1. .4", Nits, Is. N.. 1- 1 V., Isavil -I AlAu,iia Io imil 1,% indimmaiv UY M1,11mg, III%-%I bN j"llsi-11 i, 11 it firces'af). total dt'ira 110 gitt, a "'witig u~blv III hich lowl, (tit) fit ~Nkl kg. q% M. S. I  ,3 5-14 00 C6880 e*(9 SOV/54--59-4-6/22 AUTHOR: TITLE* Calculation of the Heat Emission of a Balance Meter. I PERIODICAL: Vestnik Leningradskogo universiteta. Seriya fiziki i khimii, 1959, Nr 4, pp 39-55 (USSR) ABSTRACT: In the papers mentioned in references I and 2 it is pointed out that, under ordinary weather conditions, the surface layer of the film of a balance meter may be assumed to be steady. However, it is not possible to employ this calculation on this assumption under natural conditions in the case of turbulent pulsation of wind velocity and of the surrounding temperature. The author attempts to solve this problem by comparing the solutions for steady and nonsteady surface layers. The tem- perature equations of a schematized balance meter with a hori- zontal film are set up (Fig). With a small temperature drop it is possible to assume all physical characteristics (heat con- ductivity, viscosity) to be constant. Besides, the variation of atmospheric pressure with respect to time is neglected. Next, the author attempts to simplify to a great extent the equations Card 1/4 with the given boundary conditions and to subdivide them into 41~  66880 SOV/54-59-4-6/22 Calculation of the Heat Emission of a Balance Meter. I a system of simple equations. Firetq the author determines the extent to which air compression at velocities from 0-15 and, as a maximum, 20 m/sec is to be considered. It was shown that at such velocities air density depends only on temperature but not on pressure. Next, the temperature criterion is determ- ined. Here, it is not necessary to employ the heat equation (Table 1). With temperature rises > 10C it was possible to neglect the expansion heat and the heat in adiabatic compression. This condition is satisfied by the Yu. D. Yanishevskiy's balance meter. The author then studies the problem as to how far the thermal and dynamic surface layer is to be taken into account in the case of constant film temperature(only the forced film motion is considered). For the calculation the author assumes the velocity pulsation to be a periodic function with a period T. The pulsation varies along the film with a fictitious veloci- ty. Laykhtman's and Budyko's formulas (Ref 9) are used. The author determines the range of numerical mean values of the velocity which permit a quasisteady investigation of the problem. Card 2/4 tr  66880 SOV/54-59-4-6/22 Calculation of the Heat Emission of a Balance Meter. I The formula U00(xpt) is simplified in such"a manner that, with finite inertia of the apparatus, it is not necessary to take account of all harmonics, and that the dependence U ,(x,t) on x may be neglected (x lies in the film plane). The errors due to neglect are listed in tables 2 and 3. Two methods, a auc- cessive approximation and an approximation solution according to references 12-14 and 15, are utilized to solve the equations of a nonateady layer. The solutions of the steady and the non- steady problem are compared (Tables 5, 6). It is thus shown that the quasi8teady approximation holds for average wind velocities > 1 m/seo. There are 1 figure, 7 tables, and 16 references, 15 of which are Soviet. Card 3/4  I 66880 SOV/54-59-4-6/22 Calculation of the Heat Emission of a Balanoe Meter. I SUBMITTED: May 28, 1958 Card 4/4  Ll A a x W t, ,, _A go Pf"We"M of las"Ok" and 1 1, of trom Oftylevaq. A. S. VCHLOVSkIl. P. I. I",* S. L qlk MW I go a Niflyd"tir KAM.- _Odi Excr 12 No A. 02 640940) -A preliminary rrpmt is IIW pnli~~Issvkm C4 ethylecic to C. 111ket hytt"WO 14ins, U111% 14 S*% Mnjve~ g : a 0 ,YI"r in Itwiletwore Otatainlyal I-Ofle'l SN (aftli huffift stignt, but ittli-irttil 0, It* us"I In thr orrulte,jo it #uI.. tarr), pulynneistati expla. were cactied out at 9,141 awl W)". at seen. fircsoutr and with 10 w~' Nittlart time. At di o a Be Othylene underw 'jo do VAI I. 37.97V W it evil "'Scluxi per Pa.!# a the! prottlucta etmtakwd 711.3% 2-butet- and III,, linditl qu Yd,GM on ethylent, ectattrt-ted. At Mki* thr monverled ciltyleate amumutett to W.7% tier INam suit thir 10M "Mtsimd 32.3% 2-bilterve Simi 40,51', liquid age = hydrombeises. T1. -c I*id products tvitteg. apprcciabIc amts. eil 2-meibyl-3-beetene (below 30% 1. tests at MIO*) and ottem am* hydrogenated to give a hiSh-miant fuel. s It Is hcIie%fVd that Yiekis W isoPrOstarke &MAer then 60% on Its, Inhial ethylene we possible; butaive can he polymer. iml w1weettir Alsod the prothwt bythamenetted to lsoktaru% Alter tMove W the peattew fraction tbe,liquld pcWurt contains as much as be t and Is sti I a good blend- W fuel. Pulynarriantlon along the same lines when a Pa Mritf. 20% ethylel" is used in frM, HIPtL data are 0 r=od 'is tables sh"ing yirldo per patts, brAllnee isuirs of I liquid lawduris, sp. v-, and refractive I t '0 of I we k"14 ban and complete analyth .4 the Z__ Asa-sL& stv,ittuitoicat Lives tust of hydrogam *41leyetrostabdised) products, mid aW 'CIL, &=:=T ~71 NJ L 1 1, OW 0 0 1 Ir so !t a a ties -'W6 U a AT ii i ;I it It In of an 1110 0 0 0 0 0 0 0 4 di 0 41 * 4 10 0 so 0 do a so *00 0 0 a  MDWJrfN, I.L.I,-MVLSSXAU, 7.1.1 BONMEM, N.I.; VAYRSHTM. . G. r. ; cimiri, One-stage method of produetion of leoprene frova iscvent&ne and leopentane-tsoamylene mixtures. Khlm.prom. 2:89-95 W 16o. (HLU 13:7) (Isoprens) (Butane) (Butene)  Inv Iwwj% at DOGNIJKLIS 0 0_001% YWVv2XA h ? It, &00 " Will 314PLE171% I** ANI) 41). cavils AVT"4 wall ftAtIRIALs Wall *Ob 100, 00. 00- 9WA IMP lot Ip roe T ,L)e ~  0 0, 41 0 0 0 0 0 6 0 0 a 0 0 0 A LJ~L,0.501 age 06 96 4 0 0 as -9--g-w _W_a__ I I a I A I A I a it U it M a is it 4 a 21 q n 36 a is x 2V ~ b) it 11 U M 13 u 1) w p 41 M a cc r a 2 r L-J-1-- L --It V-11 U-1-1 jj- 1. V X T Z AA OU tt4O.,k_ c -1--i I 1_3 __ _ - - - I . .- 00 - - ----- 00 0 -00 .00 00 00 c -0- 00 9 1-00 r 00 TM l8w"fills" allod in the mcking of hydriadne -00 olp :H j Gem,. r". (t), N. N. R.) 7. 1718-41 09 (M17), C. A. 29. 79516; it, tlgp._%%,jjcjj 11).4111jullne is 11CSIC11 Ut 170-230* fur 10 his. with I-,,Ati, AIC4, it 00 (-S 23% b-xMthYkUc hYdroMixtus. W.5% penta. -00 .3 lnrlhyk_"cbydrMwbG"A`wW 10-5%satd. aliphatichydro. =00 I-SINMN. The 6.1nessiberrd ring splits ra,41y tnd tends 00 o im"lls-viye tts all-Inrinhet"I sing, giving hieltviic hYdro. 0 '00 4,dll.141. will, toil A-111wildwIt4l tits". it V,jlflM6&jw thr =00 00 '00 00 W KOO 14P 4r z;00 I i zoo mo 0 a :14 0 =00 SETALLURCICAL LITINATWE CLA119FICAT)OR 4~6* *, splu.t .4. 04, 20% Joe -0 - -5-1 ... VII --- 0 U a AV 10 As An I s a cw 0 3 sit cf Mun ICXKWA (j14 000000000000 0111004100:6006069000 (O::,q0.:00:"IooooO egoat *0*0 : : : : : :i_ 0 00 0 0 0000 0 0000  PODDLISKAYA G A I KARPOV, G.D.- SIIKLYAR, V.S. P Section furnaces for rapid metal heating. Metallurg 6 no.12:36- 38 D 161. (Fwnaces.. Heating) OMIRA 14:11)  LEPORSKIY., V.V.; SLEPKAVEV, P.N.; ARKHANGEVSKIY,, Yu.N.; P0DQL1SMYA,,_ . G.A.; GLINKOV, G.M.; KAFUSTIN, Ye.A.; KALOSHIN, N.A'.-;KRIVENK0, P.T. Upoi-ation, of largo tilting opon-hoarth furnacoo with natural gas. Stall 21 no.10:883-889 0 161. (MIRA 14ilO) 1. Zavod "Azovata.1111-i Zhdanovskiy meta-Ilurgicheskiy institut. (Open-hearth furnaces)  -,A CL.  LI'SKAY.;'~, 1. Yu, Ovaries Clinical and Laboratory mathod:s of thi ovp-r,,sn function tast. 2, 1952. Yanidat Ileditsinskik Nauk. Iz akushersko-clinel-olo--icheskoy Ilonilta (Z,-;.--Za-,nluzh~-,nnyy deyatell nauki Prof. A. E. Mandillshtuam) Gosudar8tvennogo ordana Ltnina inttituta d1ya usovir-sh~!nstvovaniya vrach~!y imeni S. 3'. K4-rova i instituta alcush-srstva i ginelkologii (dir.-chlen-korrespondent Madmii me-ditsinskikh naul, S-SSR Prof. A. F. Nikolayev) kkademii m--ditsinskikh nauk SSSR. Monthly List of Russian Accessions. Library of Gongress, June 3, 10,52. UNCLASS17 ]ED  PODOLISKAYA, 1. Ovaries Clinical and laboratory methods of the ovarian function test. Akush, i gin., No. 2, 1952. Kandidat MeditsinskiRh Nauk. Iz akushersko-ginekologicheskoy klinika (zav.-- zasluzhennyy deyatell nauki Prof. A. E. Mandellshtam) Gosudarstvennogo ordcna Lenina instituta dlya usover- shenstvovaniya vrachey inemi S. M. Kirova i instituta akusherstva i .-inekolor-ii (dir.--chlen-korrespondent akademii rpeditsinskikh nauk SSSR Prof. A. P. Nikblaypv-)) Al-ademii meditsinskilh na-ak SSSR. Monthly List of Russian Accnssions, Library of Congress, June 1952. UNCLASSIFIED.  LARIONOV, S.V.; SHUMMAN, VA; IIODOLISKAYA, L.A. Complex formation of nickel with o-thiosalicylic acid. Zhu--. neorg. khim. 9 no.10:2333-2338 0 164. (MdRA 17-12) 1. Institut neorganicheskoy khimii Sibirskogo otdeleniya Aka- demii nauk SSR.  14 0,4 0. of *00 Poe -90 are* go* wee 1*00 LtLb - L A MIULL~hL L"KNOW4 CL&UWKATM wee 0" %Asia, GW qo~ M Woo" ,, I. i v ow 0 a 0 1 v a 0 a 0 3 1 v 0. w0 we :0 0 0 0 9 000000000 0 0 0 o 0 * 0 60 0000 0*0 *6090,60000010000*00 900 000* 00 0004  "Mae"$ we "901R1890 WMIS 'Am. it *00 *6 "s Oow ,&1/, 14"" "s# Ow am 446;l4in 4. bu 8 AV It] ;41 Ir 2 moo woo Noe law: MJL NIFINN 11 A a 17 9 7  IL A A 4 -. - % 'I, .- A19UM -60 0i .00 3 Alf J. "OU 1W h b .00 ar r~ at ILI s , R. T. a 0 3 wool we* zkow aQmLnv 14000 "At 01V 4M *Wll ad a" , p . - I i 4 it t X 0 o s 0 0 OW 0. 0 0 .01 0'00 00 0 0 0 00 09  A C. 'W"hJ's g JIUM-1 , A-1 L-d-.4 1 POOC1119S Soo 0.0"Covift oil fit -so '-so -00 -v"bs MA'Amwkan) oonWW 0"- set 0.1=% 6f earobnoib. R. T. 09 so oil J! j; ;is* coo roe 00 use Noe ties A$0-tt. WAItUVWLAt L,119OAtV49 C4.061FKATION 000 it, .--tAAavg Mao "it dk. UvT 9441 0. M AT 10 At An & a rw o -N a I TO S. 4 1 u ;.1twit"61 KRRV "nutlet 440 0 0A 0 0 0 0 0 0 0 0  _ --------- 0 is vs as 1 0 A to u I L t. I' Q it I I V I I I kA 00 PP ft a I 1 0 _ACbsMps of Md i6 Is ou sad orpsk sollstswils. =1 l' P M P d J A 0 00 r - o o % , 1 so Z irow E A& 13. No. 5, .~Jk a. , _ - 0 *0 ' -94t=) A WSI.-The red pigment Sony- l h ll h i h d .00 27 8. 0 1 * c anges to ye ow, w t po t e iiappranLitte of the &b. scirptioti hands In the vizible Vmtn . in org. soilimelits .Go ! ! avid the oil " their mailts. at room temP. mW more -00 00 111 rospidlyou beating the soln.lit 60~ 1(,r I hr. Thestabiliq of the red pigment decreases in solits. in the inctrasin .4111109 g older given: CIICIj, dichIlorocthane, b. %1 -4' t-uni oil 1700 . , , dichlormthatte slid sic. 1-he filial rt)lur (j the *)Ing. is detd. by the succesAve changes of the led and yellow 1400 : pilluients. Chas. Blanc . 0o 00 .!c qo,~j 'I ;:Oe 00 zi j:90 - - a z ;=00 ;u*9 L A &(TA.LLUPWrAt LOI[PATURt CLAS&IFICAMS zoo 00 8: 1- - . I 60 IF 4 _YA An 1 9 0 to to r# I( IT it of a It It it It A13 n I in '07 A O'f"S & 0 0 0 0 0 0-0 0 0 0 9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0;0 a 0 0 0 0 * 0 0 9 0 0 * 0 4b 0 0 0 0  W W-W-W-W-W- 0 0 0 0 0 0 9 0 0 0 0 a 0 0 Wt"I'M I I A 1 9 to II u is 14 it It It JS A v a A -2 &-1-- -AA A lit 00 00 a 00 00 00 a W W W 0 go 0 0 0 * 0 0 0 4 * 0 0 0 0 0 0 9 0 is M u 11 19 A M M If it a al 40 a) 40 13 -.- t- j ) -0- 1 00 -00 09 a Chang- in g-ypol thiring !Yeahag and storage of l -00 o no Zhi,jtvw De Cottonseed. 33. so 1 ascei 13. No. 3.9-1 ItiFeituinwhtthe'rg""'Yl"I's -00 0 z lat farneat in qprt~nxird as a prit product or as n!it-riv. changes (x~~jrtmff in coul a o d 1 800 a : , lc re l turdiccol Color changes Irian pair yellow lie "d = 4 X09 Igh orange to red were oh5crvetl by %PccttO%'OlI1c 000 090 ecumn. -ante varies in different The rapidity isf the ch. than in American ti i E f 00 .3 an aster n kinds of wed, being gyp cottonseed. Asa rule tile goft)-pall in well which has been coo 0* stored a few mouths is in the red form. The yellow and 00 orange-yellow fortnti are nearly or quite identical with the red and lenitin-yelhow ftwiviii in qual. rt~titmN. wily. in Wes variMI4 aulvclltv unit rit-:114-11larv -flitin. zoo ASIP-SLA Of IALLfJRGKAL LITII MATIAE CLAWFKATION Ric., SWills.. ~_7 1113063 "It 0.1 Cal zoo woo US` 0 via., 40.111V 0 it, ; 111 ~ .11 'M 1, IYA. An I I a ad o a 2 1 Mr IN 5 a a 2 2 V U IS AV 10 AS' Is 0 0 0 9 0 oie 0 0 0 0 o 0 0 0 0 0 41 0 0 0:0 0 0 0 0 0 0 0 0 0 9 0 OT44 000100000000000000000* ooo*ooioooooooooooooo -- a  1 4 IIIIIJU1116 tits ti 4--m b if is b , ju It At u A IS to If a to A, v a 't A L 0 J--J 10 - w $0 A I.P11-1-3 L PA CC U1 -1 k 4[ fit ..V 1.11 400(ti 16,,cItIll I'D o0 a COM ukjw-. ) - L~7111--klid% and W t41'"1 itild "d 0 J'! .00 i!~ Walic no* =so 0o age 00 roo 4 ~16 goo 10 0. 4 - L ?At L 11ROCA1. Lill $at 1,219 Ct AsiftK&Iscil 00 tj ;.' I : - . .. 1 tj 00 I ; ! 00 ]too Wit mq!- -"I - V III- it Ot I f9a an I &A 0 - - 0o 0 0! fit i 110 1%,- 4' "0' '- : to 0 ~ e o o 0 47 0 0 0 0 0 000 000 00 0 0 0 0 010 00 0 0 00 000 0 0 4 0 0 * o o 0 0 a 0 0  00000 IF 9 ~o I I i P 11 ?# ft ~ 0 1? 11 t, 11 k I L- 2 X J AA-A-k- A- t L 6 P V I I V 1 0 A kh Of tt It! It v IT1111i'd ,jW1~ /I?/#, JOSS W9 31 , f sumfo dftwftd low taka of cullow4ml 44 in prupu 00 . i s am J:P then a Mtn, cow intettsity between vo *0 ttavvrwd Ww,,m 10 and 160% While dit F-YPOI-wit. -040 040 ~vvmws. in %torage the heated ca kms both in color k- c(mcn 4 th t A -40 r . " runirn . un immaity and in vuyr 60 unchanged ganypol after beating was wty luw. *41 lultan F. Smith A 00 x -010 00 so j 00 * 8 ~ 0 0 P 9 4 '00 tIS ILA SITALLUP.CKOL Llyfft&U~f CLASUPiCATKA, ot An I 1 0 bd so 9 43 l t, z, t, n *a mail" Plan lix 414 0 e 0 0 0 0 0 0 0 0 0;0 a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 *  *all u U VIM el"A U-3- --V-V 00 4tH i a 1, 1 I '~J~ 1". fit' 00 43 flo-j 06 SIX-= .1U v v V a a too 1400 .00 .00 .00 nw book" of b0iIme-zhkopm "AAMW nod& x GaLvar"n 12,20-7-7U the ANWIL nos, goo, see see 2 god, zoo t WO&D -;T-T -4f 0.1 4a[ I U-111-Al ma- rp IV IF ; * *;Im its wita Ifftm 00 00 Wi7 131111 OF Isk fe fAl to ado 4 flivilillad 30 T711.  tp vy I--% A WOoviOiewft. A.'OoLvemit aiml d tH (moomwoo-S& IL PapaumAYA W-:,(Ckk94~mm Sew are Wo .16 P" &:Aug. Mee use woo see woo woo see 0 0 IL �4n*av -6 1 if 0-T so 9~ 4 IN -AT,* on 7jj -ai' L- 0 44 0 Wo 46 .6 a a a 'a 0 0 0 0 a 0 0 0 0 0 0 0 00 a 6~ 0-0 0 0 0 a 9 00 0:6 0  KUZNETSOV, Sergey Sargeyevich; VASILITEVA, 0,S., red.; PODOLISKATA, M.Ta., red.icart; TSIRULINITSKIY, N.P., tekhn.red [Russian geologists] Otechentyennye geologi. Moskya, Goa.uchabno- pedagog. izd-vo If-va pros. RSFSR, 1958. 192 P. (NaRk 11:12) (Geologists. Ruasian)  BLONSKAYA, Hataliya IvanOvnn. RAUSH, Vera Aleksandrovna.; VABIL'YEVA, O.S., red., PODOLISKAYA, M.Ya., red. kart.;DZHATIYRVA. F.Ilh.,takhn. red. [Geograoby lessons for the 4th grade] Uroki geografii v IV klasse; Is opyta raboty. I?d. 2. Moskva, Gos. uchabno-pedagog, izd-vo H-va proov. RSFSR. 1958- 103 P- NIRA 11:11) (Geography--Study and tenching) XUZUTBOV, Sergey Sergeyevich; VASILIYWA, O.S., red.; PODOLISLAYA, f.Ya._,' red.kart; VOLCHM, V.L., tekdm.red. [Geology; dynamiol Geologlia (dinikvi .ichaskaia). Izd.2. Moskva, Gos.uchsbno-pedagog.izd_vo M-vajprosv.RSFSR, 1959. 270 p. (MIRA 12:12) (Geology)  ALEKHINI Vasiliy Vasillyevich, prof.; GOVORUKHINI Vasiliy Sergeyevich, prof.; KUDHYASHOV, laonid Vasillyevich; SHIBANOV4 A.A.,, red.; KOJISHIRA2 V.A.,, red. - FODOLISKAYA, M.Ya. _ red. kart; MLYJiOVA, N.N.0 te-khn. red. [Plant geograpby and the principles of botarjyj Geografiia rastenii s osnovami botaniki. Izd.2. Moskva, Gos. uchebno- pedagog. izd-vo M-va prosv. RSFSR, 1961. 531 pe WIRA 15:4) (Phytogeograpby)  41M. 4 - I ji v v it V 11 1. 1) 17 J, a h'~ It 1.1 " 1. 15 hi, P a $I Q .1 . At i'les A ll-A-& L- it A1 1- -M. .11-A-A-1-M. 1011,14, X Ujo-1 t I, j I - - it a, .,140 1.1%1SIlt K, 410111, j146A i ~~ Tralsdonnatimst of'goemsypol duriAg the ripening itad I: 01COCIMS"O". M.Z. 11W(W LA -a It led"lulls Trkh"ol. 1rafrilifil" lei A?, I'scs.y*z. Xa- -k -hileidnuld. ',Ill. Z ver 1 ~, Leniiwad) IWO. No. 2. 1111-Z-2: AhIm. Reff-1. Z"'. IOW, No. 9. 35A; cf, C. A. 35, 61371- Yellow and -00 twasille-yellow crytot. golitypol write m-lxl. hom the kernel, .1 colloulmectiss. 86tirtfrowollically illew piplivalf, (ill -00 CIICh and H%QH) air clowly imilust (it each (illict mid 0 botstly diffriesil Iniiii tlw ml asul Irtittmi-y-Ohm mi-Isix,l Moo dccrilicAlpyCim-k. All Mrsawal ill Owo elementary compot., its their qual. rracticsu~ ai4cl it# Osvit =00 jillasurin qtrfiv%. with attilivic mitil AcAlli. It. cm cy At'. i%mic". Mmill vilwilius; 411.1 'uh- w4jurest mossitig t4 coltic"I %MIA their ik (A)WIViNt a ittaillial Zoo tiAlubditialiall of file Yellow 11114, thr 1,41 X-VI"ll 1himlich file -d It.,- fil liatalld ilith the foiniatims (if itil go%,vivul, fliciv i% )Irrrvrtl all mccumulAtioll Of the wwtt-t.-(d. violcl pipliellt ill the mvd.. ifiv"figul4n) itillivall-il 111"It fill% picutrilf hChotip it, file atillitk.-,tallift group. W. R. firtin S L A &tlAtLVVfKAL LITERAILVI. CLASSIPKAVIOP tie 0 L -t~ sii;1411- i'J'111 (W 9.1 9 L, P~ Ali u a if At) Is 0" " it h It m 04 it a V( is it it I, 0 0, 0 10 0000 Goo 0 o 0 o * 4111, a 01~ 0 :14 00000 0060 6 0 0 0 00 4 46, as a ein a * & & Goo *9 a 0 0 0 * 0-0-0- 'G- 0-0 *-0 0 000 - & 0 0 111 0,6 0 0  Cuotevoldso(cottonseediadof ~W&CIed out. M-4. -7 00 lt.1.7hT?R Vir;4~msagyq kta,jo Waila 19". No. 2. KI 1.14; &Anm Rrfetdj.,rkwr. 19W. No. 9.341,-- Andon,Aso, 00-1-11 1-1 the ale. e%t. of In remove Xm%I-l" and 114c Mum, Aas ppid. vrith Ita(011),. The yellow pigment ua~ X 3, v%td, from the residue with alA. ale, the ale. rculoved, o: and the pigment olitalned as an atnorfshou% utas!& ~ol. in ale. and in ptir. other. The oil oblalmil wa% rolulvilied atxwding to Zerhmri%lrr apil Tut%on &nil the earolroohl% ivere e%td. rom the unhi. with pctr. other. and doid. _kaostandard. Duringrilwn. Colorimcirk-ally with XXrv( ing the content of caMenoids to cottonseed dcmac. to Coo approx. half the original vaftW. W. R. Henn 17 ro o 00A ire 0 -so zoo !Poe t!oo coo U 11 An go 0 itr 0 it G( 21 n. I V t S a NO it 00 0 0 041 64 0 see go 00 9 0 00 0 o 'a 'a 0 *ftai 0 0 0 0 0 0 0 0 0 0 e 0 a a 6 0 0 0 G! -0 004 G!o 0 600 06 so 0,9 91 00 0.0-0 0 0 0 0 0 0 * 0 40 0 a 0 OIJ  0 0 0 0 0 0 0 a 0 0 0 a 0o0 I) m a IS V 10 Op jol), n D-m is A h 30 11 v I) " 11 1. v 0 d# 0 j a L U-1-1-IL A to UAA- I d 1 1 a j V 4 A* Loc&lizadft Of Wme che-Icst c4motituents in the vege- table cell. ff. A. N1. CkAdovskil end M. Z. Podol'skovis, Diekkimpou 4, c(. C---A7J2'.--r$W-'TrV rummu,41% In th,: sunflowrt weds am localited in 0, KO LwRthpoid) pionw. 011fingIfir n1fig. prw"-, -00 so 'ImOp 1114Y lwsm 111.1's t1w ZVI Ithisw ilit 'I the 101V. oe -00 00 00 X00 .00 a* 0 00 =00 roe 00 es 00 :Zee see .00 a 00 t:00 ai s(TAttueGKAL CLAISWICAMW .84- .3.,- woo u Ift AT go 0 4, low, Ott at x it x2 K tat tat I k1a n Art 9 aw a 00000 0 0 0 0 0 0:910*9069: :O:o:ooooo*e 00000 0 A00000 0 0  V V tions at wypol mtent In Im# wd" of Gasp m %Lenin ad AllUnion Pat Just.). B a. Z mr. 5 1 ). sypol 6 a specific substance found in all %pccies of sypiNon plants. G. Aerbatrum contains lowest amt.. 3 r'(gd'Ovwrn to (1.19%). while G. barbadrase has the highem (to 1. -11 Lsl%). Other mitecies are intermediate. The highr-t fAllitisAxyl,ol ratio 6 in G. herbortNM anti lowest in G, f. I bOrbatleme. The local biochcm. co"Attion of xu-ylKjl b. content generally parallels the evolutionary state of the ..Unt in the family. G. At. Kosolapoff  0 see***** goo*-* 4~41-44-4-A-410 0 a 0 ;-,-- . Me U a .4 a .6 -$~ b J~v ~,m i I v v U U is 11 it to 4" 41 a 41 43 E W x,-1__t_,R._*Y2LA_ I I--4A- W-CL M J -.d A_. 4 t tit P~-. Jv O-VIN! _x_r- A-4 0 so ,p *0 00 00 a 00 00 00 0 "T p M. Z. POISOMAYS mW N. V. POPM TIM- Sci- -lax.-FvmWrl(v-v.,S. R.) No. 97, 1344i3(I9=)-- -00 coo of stmu, cam stwks " VAUGGwr Storm TRIM 1 .09 7by varims of N-NHs, cy-k1c I "oum" of rack te t W = 5 ; .00 s. te sui & dtm 1 stmw tsti- -Pb- IM"d 1111 v Th 0o en worm W dour. 2 in the AM in "to -k- bed no hallu"ICT. appilied t 06 t1w ykI& mm loom can- but am to in pot expts. the amoor under faM c-01- idembly. Addos. of N to even usam than wtwn N 1111~ kid d the i h E me omm . tima y wN ad&d. in pot capts. the N mok- Faim hlgbtf tertaiter addus. Campojea stmw without any r; It in Pot but S M M j h I e n t tb. yk , Add -. !~~=U& true twoMysojis. cultum. otited stormor 3 with Com W I tmMW p t .1 N to be md U y m- gave a kkber YbM than dLrtVkiid manare-otoraw co PM" oritis koritilism. 1111 cGOP-ting strs- with fer- quation cd N wm Im I- the -mP"- ja 0 J. S. loge A 11 A - S L A MICTALILLIRGICAL LITIFIRATM CLASSWICATION U III AV 10 All, . . . . . . . . . o awant'lom sawn Itan Itat 01 0 0 0 0 a wq 0 0 9 0 a 0 0 .&~,tbljs 1~ too W 14 :1 ift A I Tit 1 6 0 iii 0 00 0 0 S 0 0 0 1  00 A .go go jog a So se's -loom vl~f 91498v, Nap mV dot U. I JIV 16; &1 v cr a d X, at m 's O'e 0 00000's 00400 -4100000 0000*000*00' T__ a il 6 41 v u fm Vo Vo lee lee AR & I I Od 0 N W I V IN 0 a 4 3 0 1 .1, i, 0 0 0,61606 0 see 66666669664 0 r2 - .0000000*00eeee  fo As v IS Of's got low ot swidab" slow of ~ .00 ric "A Witt, tftk won 0*4 used In .*0031 coo =as ISO* it v w 4p loam 19"1*41T. tA*Nlnv go* L/ igloo* lilt Q%v-4" iii a T u 4 4- _0 Fm fit Is it a A 1 1 Q 0 so w I ir it a 17-ww u aAV 10 is;4 0-3 -9 . 0, 1.a dss~ 000000 * as* 6-0 0 0 0 * * 0 * 0 0 * 0 * 0 W 10 0 000 Ap 0 * -00 -*- o.. 0 9 0 0 0 0 * 0 a0 0 * 0* 64~~  0 000 0 0 & 'Its"U'S%V? "a a a 0 "A A k-k~A-L.A. CA- . 4- A 0. K _�_ as. -00 -00 ammmim ONO~% sk '096"I'm 14MA X- Z- DM'U'eV' Z. 3, 4" sa. Ina. prith Us an a padmik: soil -4 -t2 -Pot VzP's- I NH. pboapbste an a dgra&d cletimmm amw That % Mg Sppawently -A P- "POT proved to '00 improved the quality Of the A". be a better fertulm tbm snumOia!f MgHPO.- 'me a rok, dm not te bitctitit's of N. see ,I, Tw Gets relpam" to 1113% 1, r. Me NH4 ptd. pbwpbaie (or mustard goe, J 9601pute Was stai-ior to P, It is suggested that d but wt Im huckwbomt. ts, Amb as &Z antl znu~t~, the Me in this C ry ftWm is highly effecth-C. S. Joffe coo goo 09 f No* 9,- of bee &18.3L A 89TOLLWGKAL UYINATOE CLA$IWKAT*N WOO SITINAlva - __ - 130"1 S83000 UIR OUT Got #84421 am WT Aft U AN 40 j I ,a IA 5 N 0 01 6 1 W IN 9 3 ao Is o so*' 0 : 90 : * 0.0 0 0 so 00 00 0 *  f 1e 11 U U w u u U 4 " f It A a L a m P g a A I Z. 0. *071611 W, I m 00 a -now 4 is a way f avush k OEM 00 & impro"d do Smewhy'm be a bgt 1w 10jig"'I &a. ex a no% 00 j o6a bow nm at" gown AWAPhOtC WIN led fwas, brAt ur Guy PA"(s. Irsdum is A !- a,-A A a 411,M] v a w J, u it a a a a -dw 4, 10 12 11, AMA A A cl-Tom so. =-.o. .1 IND &No A?- Opoff f0dwfarress Mors Is we"tatka WIS. K. 7. 11mhM 44 " Ow tha bt I , t M -115E q am Ip m . Y ~Amix., MCI " .00 1 kraft thift to N It= c i fl 00 s . ". JJS Nif te Im mustw - t "I =i = ' t o mag"ted ths ad sm%ww, th-c NIS Its thiq J. N~ juge k - goo Irv: moo 8*0 mu:: :K OtTA LIOCK Ai L111.11W CL AlWK41100 Woo stow da,I cm a-- ill p~ 0 -q -! -1111 -0d0 gel Of so I a a 3 9 Is AT it p b u it it It of a 19 It K KM n I NA *A joasel 0 4 00 0 go of a 0 Sl fes 00 00 0*:100 00 00 so 00 00 0 0 0 0 0 0 0 0 0 0 0 0 0 0  .000000000000:60 !000*000 ali. W" ~. "S wr 0' It '11! P, o A A L J. A -1 -4- Rapid 4"tradustbair of "(w" COSSY in COMM 6041d, Coltonmed taks and vital and of an n = 0 l!" Columusil" oil. M. Z. j'VdI4'A, :Y. IVI!1111:71~ 1. --Tiwaiii-t "Itiad). J. .1 ird kcwmcb Inst. FaT 1010 a (Arm. (157-811144).-A 121-g. ti 009 st-sund WC4 is card. with litrtl in s~ixhk( apji~ (,.r Ill- I I 00 )-1,.; tl~r jilirml V 1. 1- fired It.411 *iIi-ml and licalm %lilt ,V1111M kwhes vVirrIS14, ~Kl' 'Vil IN \ 00 ItmA. It they c4aitall, ",, mlWancr, uht, h t"lavc Faams 0 0 M41IJ (7-h M), 10 CC. I ANA011, 21)4V~ PMWt* Uj I-ehling %,Ali. v("n;xmrnls, and the mist. Is then agitated and - h h h h fi it mte, t at i war fut d at suc e t ~t Im ble% britin I.. a; 11 71 ill 3 .3.5 lVill.; after Noiling fur .3 m4s, &fill Plarall!"g 'W , 3 : '11111. 1110 1'1'l. I. filti 1,11. *m4W'd Willi IWO. rilirs -1$1011 I's 0 0i MIO-CtOlt. then with hot 'A'ktn.' after MAII. IA the $lilt. in Fc "te it is titritted with K Mu% to obtaiin "frn" coasypol In the seed; to obtain this detn. in cake or nwid , the materials are sround to pass a I -rnna. skve land 10-W 9. SalliPle" Owe eAtd- with FtP for 2(l hirs. after addn. ol a 1 ittle water to the exin. littA. Thr rr%t 4 the detti. is as AlmlVir. unchwilittl ffuXqjX4 ill C41 is Clettf. by treating, a 1 0- %At)ll)lr will) 10 CC. Naoll milt Mwc. 1XIttimir. (if the FOlling sidil. Cullif"mrients. The dirm. is then miducted as allirve. The following table was wtilked out lilt ".1ation of gu~) .Pol (rug.) anti Cu (mx.): 15.)4.7; 30,33.4; .15, 42,8; 40, 61.3. Rmults are close to thche (+tAin"l by the artilitir-pyridine Illethmi. G. hi. K410411MID-l't s I L A pirTatkuNCKAL LITINATIA1 CLASS&FICAMS1 q, r " 0 It ~ If 060600000000:0 10 0 0 0 a 0 & 0 0 0 0 * 0 : I in 00*0000*00000*0000 0 0 0 0 * 9 0 0 0 0 0 0 0 0 0 0 a 0 `t:o 0 -00 -00 -00 -00 -00 -00 .00 000 z 04 400 no* 0 0 goo zoo #00 Soo weo ISO* tsoo wool  0 go 0 0 0 o 0 0 0 0 D o 0 0 a o 0 0 6 0_: 0 0 0 IN O-A -0 _0 -0-0 0 0 0 _0 0 0 0 0 0 0 0 0 a 0 6-0 0 0 0 031 sin Sin kvid it a it a a ad a A L-A . A . I -&_ 1A A k It- -A- 00 J!V. 90 _99 SMI 00 Is L. TAW me-A . 5~'.7(SW); d. C. A. 34,13W.- To study the CIRM Of W"Mift ma'"' 01 "ypal on the ~9* metbod. 0U C' C*kw Of cottammid ag by the alr I 1 5 of rtd mw thff-by .00 00 a;_ ul"Ples we" i-ted wilb 0.4-2. W) mw then rtfined. -00 deempd. y t:~ (d. C. A. U. 00 The tefttAT,,- no altowed tbat witb Wnstift 9-YPOI conca. the cubw at 00 is V-t1y 18trnA&'d' The eftmet of .06 00 chan1wd nowmi brins Poster- SMB&f CAW -00 pmduced an The rmhiog 90111wack. Cbm. Blame see =00 00 a-,- =Go So 00 .3i see j 00. too 00 -a see 002 coo so* '00 '00 nes 1 ILL- it 12'~ 0., 1141 Iomila"d MI&III Ow a", III ;0 u 5,1110",, orp on ma no 9 a a .1 111 0 00 *of 0 0,00 4 0 * Zogo 0 0 f * a 0 Ole 0 0 *of 009000 0000,01 0 0 0,41 e 00 0 000 0 00 9 0 4 0 0 01 0 9 0 0 0 0 0 0 0 0 0 0 9 0 . : .  x 31 nits WIFA104041 U0 4 4 A 6 5 It y - T . an .-A-2 IST AND ?No MM caof..* PIAMW AMR "C"01110 Wall g- RadW00--d *AMW imWilimb-b IM uL A. M. GOMOVIM am U.- E."Iftdahka (mifthi"90, low, 4, no* 111111-41M)Z Tive r,~~-OY-A~afitw ON& a" wwouly is ~ r ( *p-0 I pm" W low hmsim of 4=1.1 The All aft""is of carwovAls In tim). d" to p"sw 411 the l4ow"Is from 0011.4vil phow isto Ow oil t1lociall awskimtsm. J. A. see oil woo 'roe ;See wee u*0 MULLUISICAL L"18-IMM CWWOCU46 free DAM" tivivill", - - via., wlags -4 jubU60 WIP CkV d4t 411111461 IF a 0 IF I Vf IN IF AV 10 )A 06 a Ina 119 a, It; Is ~-119166 Iles -0 1016 1.09 -'m  0 0 0 0 0 & 0 a 0 0 a *4 0 0 0 40 0 0 0 0 0 0 0 0 I At A, a it 13 J* 17 x to 10 11 14 u m x ft it As to a, 41 u -A' -Wor-w r a ", , , AT ..0 00 17 kard mormod lur "Iertalaing free gom"al in pless itakip asil cru"rd cottmemd. M, Z Pew. 10. No' *4 caki i, extd. 3 Ism with colloow,ml lm~ I.L. ith Ra.41m II.. III IM"), it 4111W 410 1 '1 4', , MINH,. 01,11111111.41MY144 il IM114114-tv -to ?'fit & 11, Al to Imm if thr R-Yjud vollivill 4 the to INI litill, with O.AX14 41,1% g so* -'Vj.4 10 md i,i 21 fit., wilb 11.1* 41.1111% gtm4yjx4, TI%,- ppi zoo 0 off mi'l '11 i"'I I lit. at 11~1 . jilliflu F smah .09 00 .00 00 1-i=00 W.00 00 g *0 !Coo 00 is 0 ts*o TV ti, d-c- 'i At 0 u vJ AT -0 it 0 o 0 0 0 9 N 0 00 0 0 0 so 0 0 000000 09 i  'o 0 0 0 ; 'go 0 0 00 6 *,~o 0 0 0 0 o 0 0 *0 0 0 0 0 0 0 0 0 0 0 0 Co. Co 0.04 0 0 0 0 0 0 03,1 t 1 4 5 a I I I v 11 If Is U is 16 il u In nuisillIX)f bill lJU ma Is 11 %"C 41 Un nf:o . AA C ft F I C, -1-J-44 U -CC PDAI! 4_1L -1 a I se 4 -_ ____ Is dko cbuftsm4d (d. Wadko. A. 11. -Cokh"a Z T T T.M.A. 00 Majivk1w 7UPow Dela 14. No. 5. 9 m(IM), pro&. 10-15%of gosolypol contained in theirmhoottonsved cal Is dissolved in the promm of citu. with benzine. I n The ext. of wmal mv& contained 0.32-0.43% gowypol and that of Wilk wtdp 0XV-0.1% (baved on the CO COG- tent in the tit.) (c(. Mash, CA. 24,46181). lutbevac- 00 S uum d1ma. of the VAU. a pot 0( the gumaypol 6 thernially dmvinpd. into an Insol. forrn, which cannot be detd. by 00 the method of Halverson and Stnith (C. A. V. 1534). 00 3 11~ The coutcals of smi. g(m6ytpol is thus rexhiced to 0.13- 0.07%innugnmlodwWfl.(16%inboffieoil. Intheptoc- *0 1*0 m ol stemming the catu. residue (pre" take) treater part of gossypol is ctleverted into the injol. lonu, depending on the duration of stearning. DryinCvxtn.rriiducatX)-W* causics but Little demnpn. of g-sypol. After storing (or I nwath, the cAln. residue contained 0.1-~0.187v of free ZOO gossyW. In Irmh residu" the Sassy;K-lointent isoliSbtly higher. Ille toxicity of gossypol and nutrition value of rita. residues in sairml feeding is being inlcstipted. too L A AllAtUrCICAL LITERAUSE CLAMPICAVOW b11,01 00 0-1 It, It ir W U 0 AT 10 1 a If all I( a it K a vt cc I't 0 0 0 0 0 a 0 0 0 0 010 o o o 0 0 0 0 0 4 0 41 IS 100 111-AW 0 0 oje 0 0 0 0 * 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 e  L 4176-66 /Epr(c),ft. DJ NRtR AP5024309 SOURCE CODE: UR/0286/65/000/015/ooRM68 To YV' ~-S- S~ripchenko, Ye-G.,0 Naumenko, P.-Y.; Podollskaya, If. Z.; Orlova, K. I.; .6 K2V51Yuzhev.' f iR.."orocfi-e_nV*_. 10-ii-Mmkcivich, 1. S .Sventokhovskava. V. S V.; chaminrr'5r. S.; Kabant, M-Z. V. Tbkar'.7~,1:10 A.; Tarlins~~ Zaytsev, V K.; Znamenskaya, GOA.1 Koritbkiy,_(;. Ki - y5f, ti _r __T_ ~ORG.: none TI=6 Hetho# or obtaining liquid lubricant-coolant for rol-lip _g thin steel strips. Cla]ss 23, No. 173369 SOURCE: Byulleteni Izobreteniy I tovarnykh znakov, no. 15. 1965. 68 TOPIC TAGS: lubricant, coolant, liquid lubricant, rolling lubricant, cold rollin strip rolling :ABSTRACT: This Author Certificate introduces a method for the preparation of a liquidl, 7~, coolant-lubricant a _1.,on/methylenebVamide of synthetii4 fatty acid used, for rollib instance, in . ngl%hFiransformerlor stainless-steelistrips. To obtain a stable Jubricant which would make it possible to roll tbe strips to a required thickness, an alkylsulfonate 1- :a1kylary1sulf'onate, or hydroxyethyl amine of fatty, acid containing five Hydroxy rddicals is added to the metbylenebisamide of syAthetic fatty acid..,.11~'a variantt tht spedtfied compontnts are melted and then emulsified In water.,-, FP11 MM, IE/SUBM DATE:21Tun6l/ onm REF: ODD/ OTH'Hif': ODD/ ATD PIMS: SUB CODE. ciw, 1/1 621.892:621.1-oI6.3  PODOLISKATA, M.Z.,_Jmnd. biol. nauk. Study of the characteristics and composition of cottonseed of nev regionally adapted varieties. Masl.-zhir. prom. 24 no.9:8-14 '58. (MM 11:10) (Cottonseed)  --- ' --111 ~~i M - --- - - - __ - - - P()DOLTSKKYA) 114.Z. *The Localization of some Chemical Constituents in the Vegetable, call: II," Biokhim., 4, No. 3, 1939. Mbr., Lab. Biochemistry Technologyp All-Union InBt. Leningrad, -1939-.  PODOU;KAYA, M_.Z., A. M. GOLDOVISHH, Vsesoyuz Nauch. Issledovatel. Inst. Zhirov, Cottonseed -Oil Production 1936, 55-61& 62-9, 71-7, 77-86.  PODDLOSKATA. N.P. Ymming practices In different zones of the lkwopean part of the R.S.F.S.R. and White Russia. Zemledelie 6 no.12:42-54 D 158. (KIRA 11-12) (Agriculture) (Wbits Russia-Agriculture)  FODOLISKAYAq N. P. Kollkhoz "Krasnyy patilovets" (Collective farm "Red pathfinder") Moskva, Sellkhozgiz, 1952. 109 p. illus., ports., tables. 2-27N/5 722.101 .P7  PODOLIVAIA, !1. 2. Kolkhoz *Kraanyi putilovete," (Krasnyi Patilovets" collective --rp-=). Mosk-va, Sel'k~,jozg:z, 1952. 112 p. SO: 1.14onthiz List of Russian Accessions, Vol 6, No. 3, Jw1a 1953  PODOLISKIY.k, N. P. Agriculture "Krasnyi -Putilevets" collective farm, Moskva Sellkhozgiz. 1952 Monthly &I~jj 2_f Russian Accessions, Library of Congress, June 1953, Unal.  PODOLISKArA,.N.P-.;. TIKHOMIROVA, S.M. Advanced practices of obtaining increased yields of high- quality flax. Zemledelie 7 no.10:28-34 0 '59. (MIRA. 13: 1) (Flax)  PODOLISKAYA, N. S. Metals - Heat Treatment; -Alumimam Alloy-s H eat effect of the process of natural a:Ing of the Al-Cu (5 percent Cu) alloy after annealing and recovery., Zhur, ob, khim., 22, no. 1, 1952. Termicheskaya Laboratoriya im. Prof. Luginina Moskovskogo Gosudai-Ftvennogo Universiteta Monthly List of Russian Accessions, Library of Congress, May 1952. UNCLOSSIFIED.  A yq Al - IOIAS6, The luermal Effees of the Prwrm of NoespA Am- ino of At-Cm AU*yp (SICO M. skuratov !.,dn I ontoVilsli.41, V. 22 (84), )on, 19322~~P.- '= Ilm t&=W efmb woo studivd [a a spmuQy gq-,.d Aft.. S= rwns wvie Immkwd at 19.2 and aO*C. t. . 1.  AUTHORS: Ivanov, M. 1. , Tumbakov, V.- A. SOV/89-5-2-10/36 Podol'skaya, N. S. TITLE: The Formation Heat of UAl 23 UA13 and UA14 (Teploty obrazovaniya UA121 UA13 i UA14) PERIODICAL: Atomnaya energiya, 1958, Vol. 5, Nr 2, pp. 166-i7o (ussR) ABSTRACT: The intemetallio compounds of UAl U&I and UA14 were produced 2~ 4 eati of aluiinum and ais- by reciprocal diffusion during the perse uranium. Uranium was obtained by the precipitation of uranium hydride. The completed compounds were ground and after re- newed heating the preparation was ready for use in form of a powder. The X-ray investigation of the Debye diagrams showed that the produced preparations are monophase and that the parameters of their structure are very similar-to those publishea formerly. It was determined from the an un of hydrogen development in the case of a suitable dissolution of the preparation and from the initial components of a speoia2ly prepared solvent (a mixture of H01, H3P04' Na2SiF6, H2PtCl61 OuSO4-5H2O) that the preparations Card 1/2 had the following composition:  The Formation Heat of UA12' UA13 and UA14 SOV189-5-2-10136 VAI 1,997' UA12,994' UAl 3,997 The heat of fornation ( -AHO 8) mw detemined as: 29 UA12 22,3 t 2,4 kca3/mol UAl3 25,2 + 2,2 koa.3/mol UA14 31,2 � 3,1 kaWmol There are 2 figures, 3 tables, and 8 references, 5 of which are Soviet. SUBMITTED: March 18, 1958 card 2,12  AKHACHINSKIY, V-V-, KOPYTIN, L.M., IVA14OV,M.I., AND PODOLSKAYA, TI.S. "Heats of formation of intermetallic compounds of Pu with Al and FeU with Fe.w Repurt submitted to the IAEA Symposium on the 'I:hermodynamics of Nuclear Materials. Viennas Austria 21-26 "lay 1962  8/089/62/013/006/008/027 B102/B186 AUTHORSt Ivanov, K. I.j Podollskaya, N. S. TITLE t WO and U Fe formation heats 2- 6 PERIObICALz Atomnaya energiya, v. 139 no. 6, 1~62, 572 575 TEXTs Since no data were known for the UFe,, and U,Fe formation heats, these were determined with great accuracy. The formation heat of UFe2 was found.' from the difference of dissolution heats of We and the stoichiometric 6 mixture of its components. We was produced'by fusing Fe and U powders in 2 pure hydrogen atmosphere (700 mm Hg, 1270t2006, 1-5 hre). The alloy con- tained in a BeO crucible within a double-walled'quartz ampoul was then annealed by a certain procedure# cleaned from surface oxides, etched, washed and dried in vacuo. An X-ray powder-pattern analysis showed that the product was single-phased and cubic witb a-7-0440.002 U. By metallo- graphic means, traces of a We -Fe eutectic were detected at the grain 2 -4 boundaries* Vacuum-melting analysis showed the presence of (H]