BERINJ A., starshiy kranovshchik - ----------- - Road to mastery. Rech. transp. 21 no.3--49-50 Mr 162. (MIRA 1514) 1. Kbabarovskiy rephnoy port. (Cranes, derricks, etc.)  RUMANIA/Fitting Ou~ of Laboratories. Instruments, Their Theory) Construction and Use Abs Joiw Referat Zhur - Kh1miya, No 2, 1957, 4926 Author Zatiale., A1. Inst Title Doaimetry of X-Ray and Ocam Radiations Orig Pub Metrol. apl., 1956, 3, No 2, 10-15 Abstract A review. Card 1/1  66 V/ i,;,, J, - '59- 3-3/32 AUTHORS: Polovehenko, I.G. and Vasillyev, G.A., Candidates of Technical Sciences, Afanas',yev, V.11., Uzlyuk, V.N. and Berin, A.L.. ngineers TITLE: Radiometric Control of the Stock Line Level in a Blast Furnace (Radiometricheskiy kontroll urovnya materialov v domennoy pechi.) ]PERIODICAL: Stall, 1959, Nr 3, pp 204 - 205 (USSR) ABSTRACT: A description of an aperimental radiometric stock level indicator is given. Its operation is based on the irradiation of the working vol e of the furnace throat by two radioactive sources (Cog of 500 millicurie each) and measuring of the degree of absorption of the radiation by the burden with counters (encloiaed in water-cooled tubes) distributed in vertical rows from the four sides of the throat (Figures 1 and 2). This indicator was installed on a blast furnace at the Dzerzhinskiy Works and its operation was compared with the mechanical stock level indicators. It was found that in general stock level measuring rods indicate a stock level lower than the actual level of the stock in the furnace. The new stock level indicator showed clearly non-uniformity of the Cardl/2 burden descent along the periphery of the furnace and the IM  SOV/1,~1,3 Radiometrie Control of the Stock Line Level 1i _a5h3a-sl1purnace variability of the position of the maximum rate of the descent along the periphery. The nost stable rate of burden descent was found to be at the side of the tapping hole (tuyeres over the tapping holes were of a smaller diameter) and the highest rates of descent were observed from the sides of the slag notches. The radiometric indicator was developed by the Ukrainbkiy. institut metallov (Ukrainian Institute of Metals) in co-operation with TsNIIChM- It is planned to produce an industrial type of the apparatus with improved recording instruments. There are 2 figures and 2 Soviet references. Card2/2  SOV/133-:59-3-6/32 AUTHORS: Polovchenko, I.G., Candidate of TeclMical Sciences, Afanaslyev, V.N., Uzlyuk, V.N. and Elerin, A.L., Engineers TITLE: Radiometric Control of the Size Dis-t-HEition of Skip Coke (Radiometricheskiy kontroll kuskovatosti skipovogo kokBa) PERIODICAL: Stalls 1959, Nr 3, p.211 (USSR) ABSTRACT: During an investigation of the absorption of y radiations by the individual components of burden materials carried out at the Dzerzhinskiy Works, it wets found that the degree of absorption depends more on the bulk density of a material than on its chemical and mineralogical composition. As the bulk density of coke is related to its size distri- bution, TsNIIChM developed an experimental apparatus for the control of the size distribution of coke as charged into skips. One of the coke-weighing funnels is irradiated from one side with C060 (activity 300 millicurie) and the counter situated on the opposite wall recorded the degree -L " Lo ~ of -b-orption by coke of the y radiation (Figure 1). A sample of such record is shown in Figure 2. The degree of absorption for each skip of.coke is recorded. A comparison of the recorded absorption with the furnace operating indices has shown that the absorption of Cardl/2 y radiation by coke varied from 5 to 12.7% of the mean  SOV/1P3-r5 .~-3-6/32 Radiometric Control of the Size Distribution o Sk p Coke value, whereupon at a minimum absorption burden load per ton of coke was 2 540 kg and at a maximum absorption it decreased to 2 210 kg/t, i.e. by 13%. There are 2 figures and 2 Soviet references. Card 2/2  -!~~~ndr]Vv ~vich~ ; MUTUNOVSKIT- 1-0- - 0tv.red.; LIBKRW, S.S. red,Izd-va; ANMYBV, SP,, tekhn.red, (Operator of a casting machins; menual for the individual training of workers of brigades in industry) Mashinist razlivochnoi mashiny; uchabnik dlia individuallno-bripduogo obuebaniia rabochikh us pro- izvodstva. 1harIkov, Gos.nauchno-tekhn.1zd-vo lit-ry po chernoi i tovetnoi metallur;ii, 1960. 174 p. (UM 13:9) (Blast furnaose.P-2quipment and supplies) (Foundries-JIquipment and supplies)  AFANASIYEV, V.N., kand.tekhn.nauk; BALYUK, F.D., inzh.; BERIN A.L., inzh., VASIL'YEVO A.G., kand.khimicheskikh nauk; tekhn.nauk; KOROBEYNIK, V.F., inzh.; POLOVCHENKO, I.G.i kand.tekhn.- nauk; SMIRNOV, V.G., inzh.; UZLYUK, V.N. Control of the level of the blast furnace charge by means of gamma rays. Trudy Ukr. nauch.-issl. inst. met. no.'1:51-80 '61. (MIRA 14:11) (Blast furnaces--Equipment and supplies) (Gamma rays--Industrial applications) 4 ,  POLM v 1.0.; BERINp AA* High-tomperature nozzles for blast fumacoo, Stall 22 no,6: 497-08 Jo 162. OM 16:7) i. metanumichookiy savad in, Dzenhinskogo, (Mast furnates-Squipment and supplies)  MINf A*L. Teohnological principles of automating the contr3l of rotax7 diBtributore, Stal.1 22 no.3.2x2D65-1068 D162, (MIRA 3.5t12) t ~aoea--~Wpzent and supplies) matic control)  MOMA, Dz. (Riga) Wna~dcB of xanganese i~ Latvian soils. Vestis Latv ak no.1:115-122 t6o. (Ew 9:u) 1. Latvijas PSR Zinatnu akademija, Biologijas institutuB. (Latvia-Soils) (Manganeae)  BERINA D. Zh - (USSR) "Effect of Phosphorus on Plant Uptake of Manganese and-iron" Report presented at the 5th Int'l Biochemistry Congress, Moscow, 10-16 Aug. 1961  --OEPgAA,,,~D. Berina,, D.1 I Forms andvosign't of manganese in soils of the Ietvian S.S.R. Ventis Latv ak -n'o.5:133-138 161. 1. Akademiya nauk Latviyokoy SSR, Inatitut biologii. I  Absolute measurement oV%ermal neutron Riik lftt",U7 dex, -I. ger nde - I Jmd r ;VP.9.2~ 'Irr. ,, KXg-11 cf. lAi tienet~_r.A_81 liaermy, CA. 49, 55926c; Mtroer~C.A 48. ; LNI PI nuclear traidsions an Impregnated with LIABA. and B and Li conctis. am detd. with 1% accuracy. AASsheetbetweenthechanaelandthe emulsions, d1minates the resonance component. Several f the emulsion are successively exposed to the flux, at not time intervalm The slope of the gmph mpresenting = the superfichd d. of the traclas due to B as a fur:ction of fr- nkfiation time, enables detn. of the abs. valtic of Ote thermal neutron flui. Arcurucy achieved is 3%!, and the method has been verified for neutron fluxts emerging fmn it reactot channel, as well as from a I-c. Vo-Be source. Aziewmethod a oi layer scanning enables control of the accuracy of thc measurement. M I LaOd"t-I P  BULUBII, H.v acad.; MAMALOGU, N.; IVASCU, M.; BESLIU, C.; BZRINDE, A.; NZAMU, I.; FRM, 1. e Angdlar distribution of the tons of 6.2 XvV, elastically and nonelastically diffused on Sw. Studii care fiz 1.1 no.4:1023-1031 1604, (KW 10: 8) 1. Institutul do fisica ktomicap Bucuresti. 2.Comitetul do redactiop Studii-si corcetari do fisica, redactor reopmabil(for Hulubei). (Angular nowntun(Baclear pbysice)) (Protons) (Nuclear emlsions) (Sulfur) (Radioisotopes)  - IDSMIP AD - Nuclear fluorencence of reoonance. Studii cere fix 12 no.11233-259 161, (KM 10: 9) (Magnetic resonance absorption) (Comic -my ohowers)  BnMR, A. The Missbauer effect. Studii core fis .12 no.2:469-505 161, 1, Universitatea OC. 1. Parhon," Facultatea do matematica si Mica, Catedra de fizica atomica. (Gum rays)  HULMMI.. H., aoad.; MARTALOGU, N.; BESLIU) C.; IVASCU, M.; MUM$ A. Inelastic diffusion of the neutrons of 5#2 Mev. over As. Commicarile AR 12 no.2:141-147 F 162. 1. Institutul do Mica atomiea, Buouresti.  31-M 6/056/62/0,12/006/001/047 Uto B1041DI02 AVrHORSI Hulubeit U., Weamu, I., Fransp I.j Martalosu, N-# Sctntei, S&P Ivascul M.0 B Inds, A. 32 TITLLs Scattering of low energy proton from 5 PBRIODICALs Zhurnal ekeperimtntallnoy i teoretichankoy f:Lzikij,v* 429 no. 6, 1962. 1433 - 1437 TEXTe Expurimenta were carried out with the V-120 (U-12D) cyclotron of the Institute of Atomic Physics in Bucharest. Protons of 5-70, 5-05, 6.02, 6.20 and 6.34 Uev with an energy spread of 150 kev were focused into a scattering chamber withe, tantalum tube- 4 disphragmas in this tube reduced the diameter of the inoident particle beam to 4 mm. The vacuum sputtered 6 32 target had a surface area of 4 cm2 and a thickness of less 2 than 2 mg/cm . The sensitivity of the angular dietributiona of Inelsetical- ir ly scattered protons to the incident proton energy (Fig. 2) indicates the formation of a compound nucleus. The asjympetry of the dintribution curve may be explained by direct Interaction. The angular dint:ribution curves of - Card 1h  72 B105616210421006100110*47 Scattering of low energy proton from S32 B104/BiO2 elastically scattered protons show that the reaction mechanism via compound, nucleus formation in elastic processes with H c:!6.02 --,6.34 Nev plays an p increasingly important role. There are 4 figures. ASSOCIATIM Inetitut atoancy fixiki Akademil nauk Rumynskoy Narodnoy Reepubliki Bukharest (Institute of Atomic Phy6lce of the Academy of Sciences of the Rumanian People's Republiop SUBMITTE;Di November 12, 1961 Card 2/3,  HULUBEI, H., acad.; NEAMU, I.; FRANCZ, I.; WRTAILCu, 1%; SGUIT-17IJ, .1%; IVASCUJ, --, - DiffusingLprotons with 4.,90 and 5.30 Me V energy on aluminum. Studii cerc fiz 14 no.6:741-745 163. 1. Institutul de, fizica atomica, Bucuresti.  ACCESSION Nit: AP4009101 'j S/0056/63/0'45/006/1822/1826 Frant# Zh.,- $artalocju, Nq Sky,*ntey, 14.; AUTHORS: Xhulubey, Kh.1 Ivashku, M.; Bp A.1 Nyamu' 1. TITLE: Scattering of protons with, eneigies below 5 MeV'by Ne-20 SOURCE: Zhurnal eksper. i teor~t. fiz'a*ki, v. 45, no. 6., 1963, '1822-1826 TOPIC TAGS,., proton inelastic sdattering, excitation furiction, pro scattered proton anguldr distribu ton elastid'scatteringg, neon 20, tion, compound nucleus, compound nuclelis model, excitation mechanism, scattering mechanism ABSTRACT: To check on the possible formation of a compound nucleus and to investigate the conditions u n d e'r: which the curves.-of the angular diitribution for inelastic scaitering chanc .re their form, the excitation'functions were measuied for*elastic and ineld~stic scat- t! Card 1/3 n  ACCESSION NR: AP4009101 tering of 3.35--5.15 MeV pro tons by Ne 20 at an angle of 900. The angular distributions for 3.65, 400, 4.15, and 4.35 MeV incident protons were also measured. The authors reported similar work at lower energy (Nucl. Phys. v.. 39, 686, 1962). Variations in the energy dependence of the excitation function and the angular dis- tributions have confirmed the formation of the compound nucleus during the course of the reaction. Data by H. Heitler, A. N. May, and C. F. Powell (Proc. Roy. Soc. v. 190, 180, 1947) indicating a sharp increase in the elastic scattering differential cross section at angles below 500 are not confirmed. Elastic scatteri.ng plays a larger role in the formation of the com"pound nucleus and this ac- counts for the observed increase in cross section at large anglis. The change in the form of the curves of the inelastically scattered protons can also be attributed-to some effects of a compound nucleus in which a limited number of levels is excited. Orig. art. has: 6 figures and 2 formulas. Card 2/3  ACCESSION NR: AP4009101 ASSOCIATION: Institute of Atomic Physics, Bucharest, Rumania SUBMITTED: 24,Tun63 DATE ACQ.- 02Feb64 ENCL-. 00 SUB CODE: PH- NO REF SOV: 001 OTHER: 009 Cord 3/3  I BERINDE, A. -WAIrP~- --4aNgza Nucleon distribution at low energies in the light of present models of the nucleus structure. Pt. 1. Studii cerc fiz 15 no. it 61-124 164. 1. Department of the Structure of Matter, Bucharest University.  BERINDE, A. Nucleon distribution at low energies in the light of present models of the nucIdus structure. Pt. 2. Studii, cerc fiz 15 no. 2:181-245 164, 1. Bucharest University.  CORCIOVEI, A.; BERINDE, A. Thermal vibrations in thin films. Studii cerc fiz 15 no. 3: 374 164. 1. Institute of Atomic Physics, Bucharest.  L 981C 66--EVIT(m)/rAwA(m ACC NR: AP5027995 SOURCECODE: 'LM/006J65/602/00710327/03129 4_5 6 AUMOR: Xhuluba, Kh.; Skynt IX~. Berinde A. -Martalop M. T A. ORG., Institute of Atomic Plrysic "Ducharest, Rumania 24 TITIZ: Sma.U.-angle UM=D9_ of Vrotons-tv SOURCE: Zhurnal eksyerimentallmoy I tebrAt'cbeskoy fiziki. Pis'ma Y redaktsiyu. (Prilozbeniye)j, V- 2., 'M 7* 196% 327-329 TOPIC TAGS: Proton scattering, magnesium) scattering cross section, angular distri- bution ABSTRAM. The purpose of the investigation was to explain earlier results on in- elastic scattering of protons vith excitation of the first-excited level of ~V24 (Q = 1..37 Hey) (0. F. 17emets and 0. A. Prokopets, ZhWF v. 38, 693, 1960) at an incident-proton energy 6.8 Mev. 7he results indicate that vhereas at medium and large scattering angles the scattering proceeds for the most part via compound nuc- leus production, at small angles an appreciable role should be played by so-me other mechanism. To explain this fact, the authors studied Inelastic small-angle proton scattering with semiconductor detectors., the use of which eliminates some errors of the earlier procedure. The protons were obtained in the cyclotron of the Physics In-1 stitute in Bucharest by accelerating atomic-hydrogen ions. The detector used vas a -silicon aemiconductor2 covered with a tantalim plate. The monitor was a scintilla- tion counter oriented 90* relative to the proton beam direction. The target was a The meastwemento were made in steps of thin rolled magnesium foil 1 w/crF thick. I Cwd -112  L 9810-66 ACC NR 1 AM7M tvo degrees for the angles betveen 10 and 200 and in lazger steps for larger angles. 7be angular distri- butions (Fig. 1) obtained show that the ratio of the Uon to the Ruther- proton elastic scattering cross see' ford scattering cross section decreasez vitb decreasing 44 ow scattering angle. A similar decrease in thlin ratio for A small angles vas obtained also by Hon Jeong et &I. - l Oqucl. Instro Methe vs 28, 325j% 19a) at EP - 9.8 Nev 0 e! q)v . The inpl stic distribution of the for the case of 0 protons does not Wee with the data of Nemets and Fro- i kopets at angles belov 30% 7his may be partially due to a difference In the incident-proton energies, but Jq - e" Q also to a relative3,v strong change in the elastic cross . section vitb changing energy in the man-amgle regionp 9 which my be due to the contrilbution from the compound- nucleus fornation mechanism, Orig. art, ban: 2 fig- vres and I foraAaa. ,CM - Pigs 1. Angular distribution of protons elastically (a) and inelasticalll scattered (b) by Me4. 1 - present datap 2 - results of Remets and Prokopets. suB com 2o/ sm DA-TE-. 31jui65/ opm mw-. oDi/ oTH Rat oD2  PAUNMCV-PODIANU, A.; BERINDR, L.; MMSCU, K.; WUU, I.; DANCAU, G.; BALTACXkNU, 0 0 Rheamo-tubarculous states. Probl. reumat.,Bucur. 4:55-71 1956. (TUBERCULOSIS, complications rheumatic disord., pathogen. & incidence) (RHMMTISM, stiol. & pathogan. tuberc.. incidence & mechanism)  RIPMANIA / General Problems of Pathology. Immunity. U Abs Jour: Rof Zhur-Biol., No 11, 1958, 51494. Author : Panuesou-Podeam, A., RArimd&,-Irr-,- Georgesou, I;, Sgavirdia, CA, Roth, L., Sandor, S., Lupea, V., Reichrak, S. Inst :Not given. Title i"Antibody Disease"? A Case of a Complex Dis- order of the Process of Antibody Production. Orig Pub: Med. interna, 1957, 9, No 6, 915-920. Abstract: No abstract. Card 1/1  .PAUNESCU-PODEM, A., Prof.; ~~~~-.--METZ, A., dr.; GAIRILWCU, M., dr. A PostaplenectomW tbrombocytbemia. (Contribution to the etiopatbogenesia and contraindicatione of aplenectowy). Medi, intern. 13 no.10'.1401-1408 0 161. (SPLM. aurgerr) (BLOOD PLATELEIS)  N,~MNDEANP V. Contributions to the study of the spontaneous combustion of Stalon D II gasoline. Studii tehn Timisoara 10 no.2-.367-375 J1-D 163.  BERME, Violeta, ing. (Bucuresti) Influence of electrodes used to determine the perriittivit~y and t!,e tangent of the loss an,-Yle of plastic materials. Electrotehnica 12 1 no.11:426-428 N 164. 1. Chief Researc'.~er, Rosearch and Electrical Engineering Planning Institute.  BOLOGAN ~ V. , ing.; BERINDE, V. ing. Shaving gear wheels after cementing. Conatr mas 15 no. 9: 622-628 s 163. 1. Uzina, "Infratirea"I Oradea.  SOURCE CODE: RU/0004/65/000/002/0053/0059 AUTHOR: 'Marcus. Bruno (Bucharest); Diaconu, Lucia (Chief scientific researcher; 115 BucharestYo--]~ir-inde* Violets, (Chief scientific researcher; Bucharest) -13 ORG: (Marcus; Diaconul Laboratory of Ce amic Material, ICFE, Bucharest (Laboratorul de materiale ceramice ICFE); (Berindel Laboratory of Electrophysics, ICFE, Bucharest (Laboratorul electrotizie ICFE) e 0, 12 14 TITLE: Electroinsulating materials based on mica bonded with glass SOURCE: Electrotehnicap no. 2p 1965, 53-59 TOPIC TAGS% electric insulation, mica product,, glass product ABSTRACT: The physicalp mechanical and electrical charact6ristics of electroinsulatinj materials based on mica bonded with glass, as obtained in various countries, are presented, and the production and field of utilization of such materials are discussed with special emphasis 'on the work being done at the Institute for Electrotechnical Research AN Planning with a view to introducing them in Rwaania. Orig. art. has: 13 figures and 6 tables. [Based on authors' Eng. abstol [JPRS1 SUB CODE: 11 / SMH DATE: 300ct64 CRIG W : 001 / SOV REF: 003 OTH REF;, OD5  ,OW BERIRZAN, V. Stepping up the filling of the cylinder in the engines oupercbarged by the -empreasion of the residual gasse at the intakee Studii tobn Timisoara 9 noelAM-102 -To.-Jo 162.  BERINDEAN, V.; CAPAMAVRIT, N.; TRUSCUIESCU, M.; FTRFNCZ, A. .... . Study of the combustion process of the tractor self- ignition engine with mixed feeding, gas oil and liquefied petroleiun gas. Bul St si Tehn Tim 8 no.l.:85-93 Ja-je 163.  EERINDEAN V. -.:. Contributions to the study of the sel!'-ipttion of horogenoua mixtures of air and diesel oil. Bul St si Tahn Tim 9 no.1;65- 71 Ja-Je 164. 1. Submitted April 26, 1964.  HERINDEAN, V.; TRUSCUIESCU, M. Contributions to the atudy of torsion oscillatluna for a line of shn-ets of a 1 100 dwt vessel. Sul St si Tehn Tim 9 no.2:367- 376 Jl-D 164.  Po r  MARCUS, Bruno (Bucuresti); DIACOINU, Lucia, cercetator stiintific principal (Bucuresti); BEERINDE Vlp~eta,,cercetator stlintlific principal (Bucuresti) 411----~-"P?~"--. . . ~ Electroinsulating materials based on mica bonded withglass. Electrotehnica 13 no.2:53-59 F 165. 1. Head of "ie Laboratory of Ceramic of the Research and Electrctechnic Planning Institute (for Marcus). 2. Laboratory of Ceramic Materials of the Research and Electrotechnic Planning Institute (for Dia~onu). 3. Electrophysical Laboratory, of the Research and Electrotechnic Planning Institute (for Berinde). Submitted October 30, 1964.  BMMEI,o D. Organization of the "Architectural Corps" in 1864. p. 600 INDUSTRIA CONSTRUCTILOR SI A MATERILLELOR DE CONSTRUCTIL,, 13UGURMTI., Vol 6., No. 11, Nov., 1955 SO: East European Accessions List (EFAL) Library of Congress, Vol 5., No. 7., July, 1956 -- . I I  1. BERUDEI, Ign~~tie Some observations on sme periglacial form in the western part of the Huedin Depression. Probleme geog 7:241-248 960. (EW 1o:3) (Glacial epoch) (Rumania.-Geology)  PANUNESCU-Polmump A*; 13XR 11CINA, F.; MNCAU, G.; WCOUNU, A.; SQAVrRDIA, C., Reactive episodic liypertension during the initial. period of myocardial infarct. Med. int., Bacur. 10 no*4:541-546 Apr 58. (MTOGARDUL INFARCT, manifestations episodic hypertensions In early infarct) (HYPZRTIMION, stiol. & pathogen. zvocardial. infarct, early stages)  RUMANIA / Cultivated Plants. Commercial. Oil-Bearing. M-5 Sugar-Bearing. Abs Jour: Ref Zhur-Biol., No 6, 1958, 25169 Author Valuta, Gh.. Berindej, M. Inst Not given --ff-~ Title The Vernalization of Sugar Beet Seeds Orig Pub: Probl. agric., 1957, 9, No 2, 35-45 (Rum., res. Russ., Fr.) Abstract: Investigations made at the experimental base in Moara Domnyaska (Rumania) show that the best re- sults in yielding capacity are gotten by vernaliz- Ing seeds for 10 days at 100. Pre-planting dusting of the vernalized seeds with ash also helped to boost the yield considerably. It is stated that the vernalization of seeds of late-ripening varie- ties, alongside of speeding up the ripening time, Increases the beet harvest. -- A.M. Smirnov Card 1/1 126  gm' Abs Jour : it..- ,'~wx - mol. , iio 10, IQI;J) 1:4255 Author : Valu*'U'a, (I., Cozzm~xcu, Vo, -j_rindc:i Inst : Ac' 11-11" Titl,:~ : of Su[pr Bcc!"L,. 02.7ig 1"Lf!) : All Si_'11_'u*,. ACad. RIl C. -01. Si Gtiill'%~s .71 C 0 R aLxon-, 1957) 9~, No 2; lu~-112. Abstract' 7,, ef2c:c" of thc: follow-Li- on tliz; b'~St Ms s-~-LiCdcd nnclx acia coi-n-,ii ons. soai:in~; 'km in thc quai-. y k) 1-9" of x"'hu, 0' C_"' C..u; wxnalizatioii ilor 10 C-ays at 100; ssoa,':L'~' L nvrzr_~_n-~ solution viti., watcr wid 0- u I, r t,'- 1 Ifith a subsuqn-i" of -'IiQ s--:cls Card 1/2  Abs JOur DiOlo., No 1", 114255 Iforc vornalination c.-' ~Iilci t1w of Idt- crcas~~ Of Sidruov Caret 2/2 126  L IRUMANTA/Cultivated Plants Potatoes, Vegetables) Melons. Abs Jour Ref Zhur - Biol.,, No 3, 1958., 10801 Author Berindei, M. Inst Title Dates of Sowing Potatoesy Their Spacing and Depth of Planting. Orig Pub Frobl# agric., 1957) 9, No 4) 95-1o4 Abstract No abstract. M-3 Card 1/1  RU=11h/Cultivatod Plahts. Potatoes. Vegetables. Kolons. 11 Abs Jour :Ref Zhur-Biol., No 15, 1958s 66166 Author :Berindoi IHoa-ra-Do-oneasca Experinont St Inst ation (Bucha- rest Oblast')- 171arculas i &poririant Sta- tion (Con6ta~ia OblasttV Title 11-alching Potatood Planted in Sitmer. Orig Pub Probl. agric., 1957, 9, No 6, 94-104 Abstract In 1953-1955, an investigation vas ri,-~da of the influonco of mulching potatoos (Sepunar variety); they werc plantod in tho sumier at the 11oara Donneaasc,,~,. Mporimeel; Station9 Bu- charest Oblastl (heavy soils)~ -md at th,,,a Marculasti Experimont Btation2 Constmitza Ob- lastl (light soils). Tho mulching vas Oone Card 1/2  -VILM,:11II/Cultivatod Plants. Potatoes. Vor',otablos. Kolons. 1.1 Abs Jour Ref Zhur-Biol,, No 15, 19500-1 68166 with wheat stravi Curin,,, pl.,,.ntin,-, and in another variant, after tho first veodIng. Ho mulch was applied to the controls. The plants on the i-aulched areas had a gracter quantity of stalks an(! leav,~s and a hi,,;hor average tuber voiCht. In all cases mulching increased the tuber ivoight by 10-3~ percent on the avorage. On the heavy soils the best results were attained when mulching wlas done during planting, i-,rhilo, oa the li,,-,,ht soils, both mulchinE dates produced th~; sal~io incroaso in yield. -- Ps is L~pushanskiy Card 2/2 45   S/27-V63/00Q/QM/OW/01 3 wo:%of.p .4ne air A0594126 tiax ""A n rpo 04 b,, 00: f 2. 4 Eli .-dl d. depending on, ~he re3.&Uon be. an was.prepam Z Ael #T:'l Thi sats ~or taw 9' azy re are' d'increases iiith thO Anoi*wse. of the I ThO relatift "OkWIM Qf, q~ conswie reiation- V Z/,U i;.L- h. j-this'inorvaso contirities x(ntll. ~ t owever 2. 1 and then ..slows'downib ~~V-e amouni.-4f, Nei- cOmnod, ir~6r"r;ov mhon the,delay de 6m. a i6 'a. rIchOnko'. > W c Z j.  allMMVSKIT,, N.I,, manita 'ran vraoh; SERYN331, B.Ta., sanitarayy vrach; 13]MIZUYA, TS,I., spideniolog Control of influenza In industrial enterprise. Gig.1 ivan, 25 no.102-74 A 160* (MM 130) 1. Is Mediko-vanitarnoy chastl 1har'bovskogo savoda trausportnogo mahtuostroyentya Imul T*A* Wlyeheva. (IMMMU prev. A control)  00 00 00, 00 t 00 00 oe 0 0, 00 oo~ 00 00 4r m-aLw-u- a it a u u A - L. ii A-4-- 0 0 -4-0 0 0 0 -0 w a V Is 19 Is a) 1) a be a 36 V a Do is o L M a M 0 9 t w " at ' - P _ a j-!~ 0 00 hift owssift of V, K. Semcuchrako, = -*o Ikk. ca" J. (U. S. Berl" sad N. L. w Obt i d f err ne o 1 a rlam"et of B& b ol l in fi d E dk M b t s n w a a sai x, y y ayslo of B&Clh said of No " K by disin. of vapors .00 is. lasucamempt that of Zu amalgam the sur- .00 islkla at firg dftleSM With kKUSSWS CODM. Of wd tbre Is sh=ot Conn. The rflect of amalts- goo 1 matta l decreases In the order 9. No, Do. At. Cd and stin 1 w Zu. Values for catent. osd corteopotiding etest"orgic pure Us Mdyncs/cm.. 90.0024 % M- 0 009D atom 7es 325; 0.0183 atom 7c, 296'. +..'2%; No MOM, 386; U.M. .337; Ha Coo W. 0.22, 358; Cd 0.0110. 400; 112. 4(41; Am zoo 1. 409; 406; Zu O.W45, 411; 1.315. 420- F. If. Rothniann ' "goo 00 111110 1,00 a. '60 uww 141063 .11to4w got 0 . --T 0 14' go b ah u AV 100 a An I I V w 0 6, Ill an It a ~w n 1 94 d4a 0 0 *goo 0000*00000,4009400*00ecoooosee 0 090010 0 & 0 0 o 0 0 a o 0 0 0 *4 o c 0 0 0 0 0 0 0 00 0000 a 0 o  '00,0,90 so , 6, -IL ft r G 00 A so go 00 of It 00 J1 41441 oll :0 - - 1 o _ - 1" lill t 0, ~up Mil " ma a n tur I , - -9o :-oo of owt" sdvdmi. U. uneWm. a. P. BmW uA N. -00 pkft=x -IS-IS, 4. 801-'r.0wo)(in Rug- is ~ . metbad Is ekbwaked jar memorial The mdam premwe of va of SMIPM by ~f 4 to dynci/ === woo, TW aW 1l 1 1: OO ow mrbm imAm of Its. YU MOW of mix, r 0 f 465 d H cot ua o 6 p" 11 vi MOM of bubbles Is so Wo. of , ns of f l w o Sma pi 4 cm1cm. for T3w "U" tm X. Nairt, Do. or Us. Ph. So. Cu, As. Cd. B1, Rb o mw zo was WA*Wxvd ;wa im most of wom. of COO The mWla w0l be rlvrn kler. U. 0. , 009 woo -I It AOlULLUMICAL LOUNAYL.WC 03 - li~, MTIOO~ 0' 'Allom CZ m: . - - - - -1 Lee Is) Is Op (A A1. 11 pt It a MLO 0000 1 A r; -;,, 6 * 0 0 "a 0 6 0 9 0 0 0 0 we 0 6 a 0 0 0 0 0 0 0 0 6 0 0 0 0 0 6 o! bT a 0 0 111 0 0 e 41, 0 0 000 D'o * 0 Is 0 0 so 0 0!0 0 0 0 a 0 0 0 0 o f 0 a 4 0 0 so Gi  G~a all As 4 00 log go ba -00 go:* ackmarA. Bar- V. - R4 Boom 1"PI&JIFNI'm mip MITALLIVIls" UTMVM CLI lit of* I&M OLD so so IF ITI 'Ps 00000*0000 a -W-W-jv-w-w W W - lee Vo -90 log 1490 400 see C00 00 I tit. A I a Or At  OW 00 410 43 00 ILA RITALLIOCKAL LFTCRATI !Dow 1111'salv* selas.) .01 'T - - , --r b -u- .0 a e, 0 0 *1* 0 0 90 0 0 0 o q 010 0 0 0 0 0 0 I)JIt box Pa 11)016:1;11 V U M 11 tf 1#10 S V V 14 4~ 41 V~ T I -JL -A L AA 0 (X UP tt 4 6 L 4' "Wdav at sew* wwdm, Tk,,,*w V K &MMl " I PA ' o" ' - W- CA*w- (U. 8. 5, R.) 7, W' WN), Ada Pg#ic"w. V- A, S. S. 4, No. 5. 09 M)Oa Ru b), cf. C. A. 30. 0717.-S. dis- Man 411sta Go the Puffs" Itrution of the alkali and alk. vartb metals. U. SWUM Inslas of amalgam. B_P_ &W N L Pakrov ki IW . . s i. . 7. What abstr. P. p4thmanu -00 -06 00 goo 00 ve 0 tie 0 tt*e CLASSWKATOGIO Pi U 0 go )r M 0 d) 4 3 An A s a it It ease 0 4 0 0 0 16 0000 0000  00 oop 00.4 1 go,, so 4 90 0 0.1 fill", o-.!! 004 00" L. 1; r. a...-- WII OaccWt -0g am v�r. z C fwA"AV 1j. P4 7.(6).606417~ W* Im of the rh in 0 7j ;:W;w "top am 4M "mbkv abo =04*r Shp *Wflk* --u* -awl- zoo 0 Zoo I L A a AV 0 000400 .0 !t oo ad IL4A 000 0000000e0 40 ift '.  3s 00 is 0 0 .0 go la) it u Is w is 00 00 A! V. K. Svnwwhftko. 0 IAA i'00 S.. kja. (106); cf. C. A. 36' 1 00 qqj C* M. K. No. M. In. Its. -%k, %ill- Cit, C41- 141, .00 "0l 00 oW III wisolpmw. As 14m omwnb. Ow swti%v A to tritin". T4646k-mwal- lortswIvIvy The Slibblevski r 00 di~ *I wr kws fmin .60tiskkovaLl rqualim 001, bm =11iiamlan #4 The fimiting onivity. By 16 a 00 isittlTrO" of the manpkte GIM4 ecItialian. the exprPoWn 00 r~ tin witb the 03- d In (k + 1) - dir, which apvrs be In ObtabarA. Rathillann 0 0 r*O 00 a! 00 00 al ago too* 0 0 t3 lo 0 lop, Aj%W K 0 go N-F.- 0 g 0 kL 91 It 0 1 go 0 00 0 .0 1% a IS o 0 0 0 00 0 0 0 go o go 0220 a o 0 0 * 00 000.00010 0 0 4 of 0  r a et of U U o a I&I m_-" a a x U Ad a a a a A t 4 o I 00"It"S AND 0600141-6111- moll- A 00 WALLIC $TATE.ete, I. V. V. TARASOV AND ~BERIING CC rrif TUFORY OF THE 908 (ZHUN. PIZ. XHIM.. 1939, 13, (1). 124-131) --(In Russian.) E-juations ars, 00 derived which enable the ounber of free eloctrmap the electron volu , and 00.1 1f other quantities to be calculated for imstale. The calaulations are in agree 00 j V me t with *xperimmital data nad allow a series of interesting comp ariaons 000 to be mdo.--N. A. sow III _1 :o : see see, 00 1A ? fee 0 veto*,) ITO,~ i 4 e~ .01441 OK #.V All - 7 Ef C =4 1 11 A 1 0 a 9 0 6 1 FA 1 0 0000046  BERINOp B. P. Cand. Chem. Scis Dissertation:. "Absorption of Vapors on the 6urface of Mercury." Moscow Order of Lenin State U imeni M. V. Lomonosov, 24 Sep 47. SO: Vechernyaya Moskva, Sep, 1947 (Project #17836)  MING, B. P. Mar 1947- Cases. Adsorbed "I Now Method of Measuring Adsorption of Gases and Vapors by Solids, B. P. Bering, V. V. Serpinsky, pp Acad Sol" Vol LV, No 8 Rigl%-Gensitlirity bean torsion-type microbalance to improve the so-called gravimetric method. PA 8T 6 7 8T67  twits. 111471:..'t Y A *ad. &,j 1, 461h Sg 1-.18 14ASO - 10fil life 11TIC41 at 31. ~Fl 41P Oven Itraph aftsorplA 'A Of If 41.114 it hr nflv th I Ul uI I Pf"I hrolhIrlti " - 41" Iw a ' ".0. q. jO Ili's &4411." 'A* Ifith ahl I k 0.;# JOIJ, Yer . 0"C41 fly + B iWtIlcT go lot V - ,L B 113 tnimul to-, 1, 1 , . a, Ira Mutton (-C.4, 10. 1 41111 Ilk hl%ta range .1 %ifhcxj,lj4,j",r9,'j~h unh t. r. Max th Wo 4 t a Mve mll row Al. ev  so 0.0 A 00"11111 AND va"t T19% 1-011 C am" '440damt, nai IR W ) R P w I ** jm. v . Me, . d - V Nervinskil, ZAwrwal ft Fiz""koj Kiwi ] W ~& I 0 4 , OMB of Physical Chemlltry), 22. Sept. 3948 p. JOW1071 4 09 . , PrOP00" & Raw Imethod for detemination, of ad zoo .400 1101Ption Of Mora on solid admarbent& Results of & tYPfe&1 450110MWOU[ d . 00 On an Apparatus used are dewrlbe& 28 "f. As v Ss)~ ;'I-Ilrk Go ow- Ail J-/ SN)O&O .19 C"I GIC dULS V .A 6 3 4T ZP I M AV 00 -S$$ it K a at a n J 0 00 goo* 00 0 0 4 000 0 0 0 f 00 , M V-q - ~  7 A new method for the invesilgation of I;es and vit ers D Dmin l P - o. r. ao.,m4 p k ad ~ Sauk Pia to tht principle M indepeodmt iveighing, of 2 qLartz virah t, rueasur,,, -r ts in o c~led c~,ntaioex. 'n!t sensnwit, of tLi, ~,,op the order of 10-1 g., if t-he )Ti- of ~nd if -he adsvrbed mnicrial ha5 a m.l. vt of 11 I,he scositivity 'if this TrIVO)"d i~ in vnz ,-rc'rr U., 10 ra:111- rnales/g, The vrc,~urc changes in ?~hc --ancnactcr~ measured elctzic~J;y with an accuracy A W-Tmr J"C"6-  BERINGs B. P. WSR/Chemistry Adsorption 11 Jul 51 "Honosolecular Adsorption on Uniform Surfaces," 33. P. , V. V. Serpinq~iy, Inst of Phys Chem, Aced Sci USSR; Roscov State U Ineni M. V. Lomonosar "Dok Ak Nauk SSBR" Vol 1XM, No 2, rp 0_73-276 Studies the effect of the mutual interaction of ad- sorbed mols. Derives 2 eqs, one for a localized leyer and one for a nonlocalized layer of mols ad- sorbed on a uniform surface. Plate the adsorption Isotherms car sponding to them. 214T9  li Z11, -11 1 ~ : I !J . -I , .-- ;- -- ~ 1~ j : ~~ ~ 1. : . j I , V . Adsorption I A new method for impstirating -Che adsori~tion of pases and varors. Trudy Inst. fiz. khirii AIT USSR no. 1, 1952. Month- List of RAissian Accessions, Library of Conpress, Decer;,,--,er 1").52. L"'CLASSIPME  Britl8b Abst- A I Aug. 1953 pbysical Properties and Molecu.1ar Structure of Solutions# Etc- active P. Be I. and V. V. Ii ~Vcsfla' 19.52. 097- e - so ton of' am propylolln oil active C is determined, using th same in 5 ;tlid 01r. qiljllt, active C as in Part I (J. phys, Chem., USSR, 1932, 90, ."53). .rhc adsorption of pure gases and their mixtures is measured at 7' ani 1 25' in the trotal prMUTe range 0-350 mm. From Ow study of the three-dimensional adsorption models (where tilt, nrilin,iteg represent partial pressures of gases and the third tine I br: :tdorption, expressed in millimoles per g. of G) it is seen that tit,, ridsoilItion of propylene is only slightly decrmed in 4,vven large aniounts of C,H,, the slope of the adsorption is-Alictin icinaining unchanged. In contmt, the adsorption of c,it, i.i ;ippyociablY reduced by admixture of even small arnounts tIf I,% olivI, iw and the adsorption istitherm becomes already -huot jmiiial jui%,,moov of propylene reaches 50 min. Express'dons lot flit, jot"'r~lj heat I)( adsorption I)( the binaroo: gas mixture and for fliv differential licats (if adsorption of each component are .Terive,l and Itte differviltial heats are calculated and plotted aii a foilrOoo (If adsorption. The pre-sence of propylente lowers con- siflcrabl~ the differriltial heat of adsorption of C.114. whereas that I)( I, vittually unaffectLd by the presence and partial prcs~urv (if C,11,. it i~;itows, that the moo. of propyleric are adJ ~orbetl )it t1w portion7 (If surface of high adsorption energy and mol. if wi the portinns of low adsorption energy. S. K.  (14- vJr7- Chemical Abst. Vol. 48 No. 9 A Aa May 10, 1,954 rin &nZ- General &nd Physical Chiculatry--pom AW;jj&,j. _pthle I -"Hnsl. tM CA - 4f  Chemical Abet, Vol. 48 No. 9 _r.. Tt may los 1954 INA" ..ku- General and Physiwa Cjjwdstry 14,433-41(1952)(Etigi. tmuslatioll).- "ke (".A. 47, B00k%  7=/Chemistry - Adsorption rob 52 "Adsorption of Gas Mixtures. 1. Adsorption of Itbylene and Carbon Dioxide on Activated Carbon," 3. P. Bering, V. V ' Serpinskiy, lust of Phys Chem, tend Sci USSR.; Moscow State U Imen' M. V. Lmonosov 'Thur Piz Xhim" Vol XXVI, No 2, Vp 253-269 Describes procedure for precise measurement of Macrytion of binary gas mi%ts which is based on w1umetric dosage of components of gas mirt and atelyals of equil gas phase by detg heat cond. YAwimad adsorption of carbon Alcmid -ethylew mlxtn CIA activated caLfbon at 25.40 within wide ream of OODMO at4resoures of equil gas phase between 0-3W =:],Ig. Discusses thermodynamic rcuilanobips ddah govern thaadsorption of each component; extablUbes thermodynamic criterion which muat be mUsflod.by any valid theory.of adsorption of w aft"; criticizes E. C. Marldkam. and A. P. Beaton's tbOGZ7 (J Am Chem 8, Vol T.TTT.. 4.97, 1931). Proven awairically that there is no dependence of coaff of selbetivity on c ml, of equil San phase provided that total pmss=e is aonst; that thto coeff, cal d for the more highly adsorbable component, drops with total pressure. Shows inapplicability of theory advanced by S. 7. RogineXly and 0, M. Tadao to system c4undw study. 211T50  USSR/Cheadetry - Adsorption Aug 52 "'Tbe Simultaneous Adsorption of Ethylene atxidPropy- lene on Activated Carbon," B. P. Bering and V. V. Strpinskiy, Inst of PhysChem, Acad Sci USSR~ Moo- Cbv State U "W SSSR" Vol 85, No 5, PP 1065-lo68 The presence of propyie'rie in the adsorption phase greatly lovers.the differential heat of adsorption 4of - ethylene, while the differential heat of adeorp- tIon of propylene remains practically unchanged. Propylene, a"orbing on the most active parts of a 2 nonuaj.fom surface, blocks the adsorptioz, P MO. 21CM Mols - Submitted by Acad M. DUbjUjII r jbq 52. 239mi f2   1 ethTl ~1~10  Bo Ps- Aduntion of. s. IV. Adsorpfi~ Note on x[ive. Chlo, au I N S* cf. C.A. 47,5757r: C...1' 48, 4927f.-A vol.-wi. method I!; describ-t-sl for ineasuring the sinjultanems adsorption of a binary. mixt. of gascs or vapors on solid adsorbents. Xim-mremcnti ivere ninde on the simultaneous adsorption of mixf-s. of HiO and r(C) on lictiva rharcoal at 74* ever an interval of relative prr.,~Furui of water vapor from 0 tn 0.95 and of partial jltes5-,ims of EtCl from P, - 0 to 180 min. The adsorption i~o- therms for water at F, - const. move with rising valuc5 of P.- toward the right from the origin of coardinates, while 6e -slope of the middle linear portion inerraws- At connt. partial pressures of MCI and with Increasing relative Pres- -surc~ It of water vapor above 0.5, a sharp decrease in the adi*mtion of MCI is ob5erved. On forther increase of h the EtCI almost completely driver, the water from the char- coal. 11he space-geometry of the inorea~o in adsorption d, dining the nd-,4orption of hinary nilit,;. Is di~cimcil. It iq shown flulit within the linlit.-; of the Ianginuiv thea., v, as the preEsure increases, the cocif. of saw. -y approaches "ity. At was found that for the adsorption of mixts. of Iflo + CiTIXI on charcmd it MKII prrssixrr~;, ~y appmi~heq 5, -,And fience in the adsorption fi ve nials. o?f 11.0 are equiv. !0 one niol. of C-II&CI. It is shown thit the difficultk~ flyt arise in the interpretation of the results obtained froin the point of view of the concept of a capillary condensation of water for the system studied, and considering one of the other possible mechatiisnj~ for the adsorption of water an c4i.arcoal, based on the assumpLiou of a 2Aimensimial plix~~ passing overintoan adsorption layer. depends (.,a the lomil. tion of 14 bonds betw".n the ridna.-bcd water mols. Lxp~,. results are shown by mcamg of 10 fignics. Y. 11, 1" f  MING. 3.P. *The Adsorption of Gas Mixtures. Report 3, Concerning the Possibility of Treating Statistically the A~ffe�ts of the Adsorption of Gas Mixtures," Inst. of Phys t;hem, Acad Sci USSR, and Moscow State U. UrAk Nauk SSSR 011hn, no. 1. 37-47, Jun/Feb 1953 The Authvve exnmined th6 general equations ensuing from the theory of the adsorptton of b!-mary gas mixtures on heterogeneous surfaces in the absence of a reaction. They demonstrated in what.instancez It was possible to compute the adsorption from a mixture (by well-known isotherms of 258T4  adsorption) of pure components, without an intermediate calculation of the function of diffusion. Derive the principle of linear projection of iso- stereo of additive adsorption. Compare their conclusions with the results of exptl. research into the adsorption of binary gas mixtures on activated carbon end point out the satisfactory agreement between -heory and expt. 258P  BERING, B. P. Gallium Gallium Z-from 11J. Chem. Education's v. 29, 162, t522 G. H. Vagner, V. H. Gitzen. Translated by B. P. Bering. Usp. khim. 22, No. 1, 1953- 9. Monthly List of Russian Accessions, Library of Congress, I-lay -1953. Unclas.sified.  ,~~o,umetrlc-gravltnetrlc method 10:' measuring the ad- iD.,Pr, ~1111',n 4,n,,d V V -7 ".It 9 4 1 _,,TL_~. Do.lady ALM. Na A. 47, "M 1 51 , 1-0, Z239c.-A new method ii~ do- I.M.t--d for . 211; le inn of gas znL%ts. T IMP, he 0 method is a combit.ation . Imetzh! awd gravimetll meffiDdsaud,tonsi9tsin placing Lhendsorbent (active C) in a, Ytssel that is suspealihi Irom a quArtz spring inside a 945' charnber of. krohn val. The t-omponents of the gaa mixt. 'M ineawed by mt=s of gas burettts, and tbe change In wt. of the ads-knrbent is dctd. aftrr equil. is established. Adson,!Jon isotherms -xe given for the H,O-EtCl milts. On Dx6vt C at 74'. For thL rclab,.e pmsrurr ((p)..) foT HrO equal to 0.7-0-A, the E-Cl i3 almost mmpletely dis,- P)aQd IcQtn !hc txdwxVing mrface. J. Rovtay Leach   =FT --~ 1; 1 ,, - .- . , . , I'- S~; o . U -ps''T (- 3's ~,. - t . I - - W 1, ~ , 7, INMR . . . Now-P "NOTM  AF701597 TREASURE ISIAND BOOK REVIEW AID 841 - S BERING B. P and V. V. SERPINSKIY (Institute of Physical Chemistry, ca emy of Sciences, USSR). IZMERENIYE ADSORBTSII PAROV AZOTA NA KRISTALLAKH KHLORISTOGO NATRIYA PRI POMOSHCHI KVARTSEVYKH VESOV VYSOKOY CHtrISTVITELINOSTI (Measurement of the adsorption of nitrogen vapors on sodium chloride crystals with a highly-sensitive quartz balance). In Problemy kinetiki I kataliza (Problems of Kinetics and Catal-ysis), vol. 8. Izdatellstvo Akademii Nauk SSSR, 1955. Section V: New experimental methods. p. 243-247. An illustration and description of a quartz microbalance developed in the Laboratory for Sorption Processes of the Institute for Physical Chemistj of the Academy of Sciences, U.S.S.R. is given In Fig. 1 (p. 244 . Adsorption of nitrogen was determined at 77 and 900K on a highly dispersed NaCl preparation with a sur- face equal to 3000 CM2. The adsorption isotherms for N2 on XaCl at 77 and 90OK'are shown in Fig.2 (p. 246). Four diagrams, 8 references, 3 Russian (1948-1955). 1/1  Authors 4 Bering, B. P., and loyle", X. A. Title 3 Adsorption of vapors on the surface of maroury ftritelical i Izv. AN 5M* OtdV kb1z. - n&A 1~ 19-16, JM-Feb 1955 Abstract I Using the method of naxiz= pree3ure in drope, the authora rmeamlr4W the surface tension of Hg in vacuum and in v%ter and mathyl A-laol)ol vapors V to detp-mino the -mpor adsorption on the surfacz a~-Scrl~- tion isotherms were =Tuted in the basis of above mentioned m6"-urrmentz. Adsorption isotherms are also given for eithy-l an,14 n--.:*-Y'- Institutif,11 Acad. of So., USSR, Inst. of Phys. Chem. Submitted May 26, 1-0,54  40 Card #2 Periodical i Izv. AN SSSR. Otd. khim. nauk 1, 9-16, Jan-Feb 1955 Abatract Two-dimenglonal phase conversione of the firnt orcar, C-Onderleation, were ~Uaorvec water and alcohol. The heat of twrt.-edmenrl~onrL 0 wa a I" ound to be 61 o a e t. o norm I n&~ t f 'Of M-Z~' Ryl 6L] CW101 it RXCOOd? 'it b1' I k.-h- SA; i. E-ig"ishl 2 ~%.-man mi"I  PerimUcal I lzlr, ki, SSSR. Otd. ldiim. nauk 2, 2-16 - /-23, 7-G55 Abstract t The feasibi-Ill-ty of a certain che~.'Lcal equation fcr the case of si I~s e-r,,--lained w4-t~ cc-siderE'i- -P tane and 'Lcluene on a mercurl Surface. !'-~e t-he -'eats of --a a S a: :,e of a,~ e E- an C e c' _tc. r C'n F-VIC5: '-r-a- F, Ynstitution : Acvd. of 'Ec., Inst. of Ph~ys. Chc-. Submitted : 1%.y 26, 195/1  HWNG, B.P.; bw INSKIT. V.v. Measuring nitrogen-vapor adsorption on sodium chloride crystals by means of highly sensitive quartz scales. Probl.kin.i kat. 8:243-247 '55. (KLRL 9:5) 1. Institut fizicheekoy khimli AN t4M. (Adsorption) (Nitrogen) (Sodium chloride)  BERING; B.P., Doe Chem Sci -- (diss) "Adsorption of mixtures of gases and vapors,,. mos, 1957, 25 pp (Acad Sci USSRv Inst of ;Cal PhysAChemistry), 100 copies. (IZ,, 1-589 114) - 8 -  'All MFE ~,- 3;  VSWPhysiciLl Chendstry - Surface Phenmena, Adsorption., Chromto- graphy, Ion Interdbange. B-13 Abs Jour: Referat. Zhurnal xhizlyapNo 2, 1958, W14. inBtelatlon for N 2 at -1950 on si3les gel and for benz=e vapors at 200 an aEtivated. carton coincided practic&Uy with MsPond'ng IS-'; tLken dovn by the volimetric 02) or gravi- metric methods by other authors an other installations. (See part 11 in FOdWs, 1957, 26362.) Card 2/2 -18-  J /Y AUTHOR VASIVIEV, B.N* PBERING, B*P.,SERPINSKIY, M. 20-1-36/64 4 DUBINlN M.M.pMember of the Academy. TITLE The Investigatin- of Absorption At high Pressure. (Iasledovani7e adsorbtaii pri vysokikh davleniyakh - Russian) MIODICAL Doklady Akademii Nauk SSSR., 1957, Vol 114, Nr 1, PP 131-134 (U.S.S.R.) ABSTRACT For the explanation of a number of basic problems of the theory of phy- sical absorption, the research of absorption on the wide interval of tem- peratures and pressures must occupy firBt place. The great majority of all cases of measuring physioal absorption are carried out only at one and the same temperature or, at the most, within a very narrow scale of tempera- ture. An increase of the interval(of temperatures) on the occasion of meas- uring absorption invariably leads to a corresponding increase of the pres- sure interval. None of the investigations hitherto carried out were satis- factory. The study of physical absorption described in this paper (inter- val -850 to 4o ) was carried out including the critical one (tko-310) at 0-85 atm. pressure. For the purpose of this investigation a spebial device was constructed which has neither a compressor nor a manometer for high pressures. All necessary calculations were carried out on the basis of da- ta obtained empirically in the course of the study of P,C,T-diagram (CO31) in the course of precise metrological work. (5 drawings showing the results of measurements) Card 1/2  The Investigation of Absorption At High Pressure. 20-1-36/64 ASSOCIATION Not Given. PRESENTED BY SUBMITTED AVAILAJ3LE Library of Congress Card 2/2  AUTHORS: _!erlng, B. P. and Serpinakiy, V. V. 20-114-6-32/54 TITLE: Calculation of the Heat and Entropy of Adsorption According to a Single Adsorption Isotherm (Vychisleniye teploty i entropii adsorbtsii po odnoy izoterme adsorbtsii) PERIODICAL: Doklady AN SSSR, 1957, Vol. 114, Nr 6, pp. 1254-1256 (USSR) ABSTRACT: Either direct calorimetric measurements or thermodynamic calculations are used for determining the values of the heat and entropy of sorption in dependence on the quantity of the eorbed substance. The calculations are based on an empirical determination of the sorption-temperature coefficient. Although both methods are fundamentally clear and do not cause any doubt, they are very toilsome and make great demands on the quality of the experiment. The authors show under which conditions these important thermodynamic characteristics can be calculated according to one isotherm, as mentioned in the title. The extensive test material confirms the basic postulate of Polyani: The so-called adsorption potential E - - RT tn h (where h signifies the relative pressure) is, at a constant value of the filled adsorption-volume f - aV Card 1/4 ( a- adsorption, V - molar volume of the adsorbate),  Calculation of the Heat and Entropy of Adsorption According to 20-]U-&, 32,/54 a Single Adsorption Isotherm independent on temperaturet i. e. R(6Ten h/aT)aV- a 0 (1). It may easily be seen that the adsorption isotherm alone clearly determines the shape of the curve 9 of the so-called characteristic curve. According to ;hfq(E~1) the characteristic curve on its part clearly determines the adsorption isotherm at another, approximate temperature, i.e. the adsorption coefficient. Thus the satisfaction of condition (1) muLt lead to the possibility of calculating the heat and entropy of sorption by means of one isotherm. After further calculations the authors come to the final equation q w Q -A - aRT2 (,~ tn h/Je n a )T- RT en h. (7) where Q is the sought differential heat of adsorption and A- the heat of condensation of the adsorbate. When equation (7) is compared to the equation by Gibbs-Gellmgollts, the expression for the differential-entropy of the adsorption is immediately obtained: &S - (~E/)T) a= - aRT (3t n aAe n h)T (9). The authors dispose of considerable evidential material that the results calculated according to equation (7) from one adsorption isotherm are coincide well with the direct Card 2/4 calorimetrical measurements or with results of reliable  Calculation of the Heat and Entropy of Adsorption According to 20-114,6-W54 a Single Adsorption Isotherm calculations from the.adoorption-loontheres. Examples for this are given (figures 1, 2). Equation (7) is only completely valid when condition (1) is satisfied. Nevertheless it may be expected that equation (7) will in many other cases also yield a good agreement with the test even when condition (1) is not satisfied. Actually Q TAS +E + ~k (lo), and from the equation 7a [q ;, (a,-.t )RT2 n h ~ t n a) - RT f nh 3 follows that every vi tion from condition (1~ only influences the term T&B. Therefore considerable values of ~ will also only bring about a small error of the Q-valuev when the specific gravity of the term T&S in equation (lo) is not high. Theoretically it is, however, completely undue to disregard the term T &S. A corresponding analytical form of the dependence of the differential adsorption-heat on a or on h may be obtained by the combination of the analytical expression for the equation of the adsorption isotherm with equation (7). The method of analysis of the adsorption problems resulting from this may become very promising. Card 3/4 There are 2 figures and 4 references, 1 of which is Slavic.  Calculation of the Heat and Entropy of Adsorption According to 2OZ11b6&.:W51, a Single Adsorption Isotherm ASSOCIATION: Institute for Physical Chemistry AS USSR (Institut fizicheskoy khimii Akademii nauk SSSR) PRESENTED: January lo, 1957, by M. M. Dubinin, Academician. SUBMITTED: January 7, 1957 Card 4/4  MI&B, PO; SERPTNSKIYI V,. Vs: LUKIYANOVICH, V. M,; PADUSHKEVICII~ L. V.; TSITSISHVILIj G. V.; )MRMOLMO~ X. F.; DUB=, M- M-; "The adsorption from vapors and liquids." report greawted at, tbe yourth A.U-Unjan Conforems on Colloidal ChOwl tr7, % p,677-9, i58, Tfaubmu, A.B) Thillel, ooorgion so, 12-16 mv 10- Moll tbur, 20t,  5 4) AUTHORS: -Bering, B. P., Dubinin, M. M., SOV162-59-6-5136 TITLE: Calculation of the Differential Healsof Vapour Adsorption on Active Coal (Vychieleniye differentsiallnykh teplot adsorbtBii parov na ak-tivnykh uglyakh) PERIODICAL: Izvestiya Akademii nauk SSSR. Otdeleniye khimicheskikh-nauk, 1959, Nr 6, pp 981-988 (USSR) ABSTRACT: Besides applying other methods, the differential adsorption heat may thermodynamically be calculated by means of amalel of t1m adsorpum interaction =d the theory of molecular forces. In a previous paper by the author (Ref 1) it was shown that according to the potential theory of adsorption the differential heat of an adsorption isotherm may be computed by the following equation: F q OLRT 2 tol lnh RTlnh (1). Here Q denotes the total, k7 ) T a ln a and q the pure differential adsorption heatt %the latent vaporization heat, o(the thermal coefficient of the spatial extension of the adsorbed substance, a the adsorption, and h-p/p s the relative pressure. The characteristic curves of the volume Card 1/3 distribution for inhomogeneous adsorption surfaces of different  Calculation of the Differential Heats of Vapour SOV62-59-6-5/36 Adsorption on Active Coal Card 2/3 typet in the present case active coal, on the adsorption range are known from publications. These curves lead to equations for the adsorption isotherms of different structural types. WO BT2 (1g h)2 (F4aations 4 and 5) a = v a Woo AT Ig h a e (11) (5)- Here Wo (Wo') B (A) denote structural characteristics of the adsorbents, A the affinity coefficient, and v the mole volume. Based upon the equations I and 4, or 1 and 5, a term for the differential adsorption heat of vapour of different substances on active coal may be set up. For the purpose of facilitating the computation, this equation was established in variable 0 (of the filling degree of the micro- pores)* By following this equation the differential adsorption heat at different numerical values 9 was computed for a number of substances on a standard adsorbent at different temperatures. Active coal of the type (1) served as standard adsorbent. The  Calculation of the Differential Heatsof Vapour SOV/62-59-6-5/36 Adsorption on Active Uoal. values obtained for q are given in a table. A figure shows the dependence of Q on & for normal heptane, hexane, and pentane. In an analogous manner the equation holding for the differential adsorption heat on coal of the second structural type was derived. For the first type computations of the adsorption heats of different hydrocarbons were carried out (Table 2). For this computation it was necessary for the two structural characteristics Wo, B (Wo'9 A) of the adsorbent, tabular values on the pressure of the saturated vapour, its mole volume, its parachor, and the thermal coefficient of the voltune distribution of the substance to be adsorbed to be known.-Pinally,.an approximative calculation method for the differential heat of the alkanes on adsorbents of the first structural type was worked out. There are I figure, 2 tables, and 12 references, 10 of which are Soviet. ASSOCIATION: Institut fizichaskoy khimii Akademii nauk SSSR (Institute of Physical Chemistry of the Academy of Sciences, USSR) SUBMITTED: October 24, 1957 Card 3/3