SCIENTIFIC ABSTRACT SAFARYAN, M.K. - SAFIN, I.A.

(Petroleum-Storage)  AID P 2104 7 Subject USSR/Engineering Card ~1/2 Pub. 78 -.17/24. Authors Safaryan, M. K.. band. Chichko G. M. 'Title More precise method of~calculating drop-shaped reservoirs -Periodical: Neft. khoz., V-33.1 ''no.4,- 78-83, Ap 1955 Abstract The advantages of drop-shaped reservoirs over the'standard vertical cylindrical types are outlined.. :,Experiments have shown that in'long-term storing of 'light oil pro ducts evaporation losses are greatly reduced since most volatitle,light fractions are under constant pressure in the upper part of the drop-shaped reservoir. When a drop-shaped shell is almost.completely filled with liquid and the small space above it is filled with gas under pressure the Ihydrostatic pressureexercises equal tension stresses in'all,parts of the shell envelope and .therefore the.shell thickness can be made uniform in   PZT'2RK . A.; VINETSKAYA. A.IYuo[translatorl; BOLOTIN, B.M. (translator];       ~ ~ARYA~H,-#J., kand.tekhn.nauk; IVANTSOV, O.M.. nauchnyy red.; KAPKAIMS.  PHASE I BOOK EXPLOITATION SOV/4792 Safarfan.., Misak Karspetorvich., Candidate of Technical, Sciences Stal'We rezervqoxy d1ya khraneniya nefteproduktov; issledovanlya raboty konstruLtsiY (Steel Tanks for Storing Petroleum Products; Construction- Work Findings). Moscow, Otdel nauchno-tekhn. informatsii, 1958- 239 P., Errata slip inserted. 1J.000 copies printed. Sponsoring Agencies: Glavnoye upravleniye gazovoy promyshlennosti pri Sovete Ministrov SSSR;, Vsesoy=nyy nauchno-issledovatellskiy institut po, stroitel'stvU magistrallnykh trubopravodov "MIST." Scientific Ed.: O.M. Ivantsov; Ed.: V.I. Kapkanets; Tech. Ed&: D.V. Lebedeva. ~PLWOSE This book is intended for industrial engineering and scientific workers of the oil and gas industry and of other industries concerned with the planning, analysis, construction., and operation of steel tanks for petroleua, praducts. COVERAGE: The author summarizes results,of theoretical and experimental studies of stseltanks.of various,designs and types for storing petroleum products. -Also presentedare the results of,a detailed study of,the geometric form of Csxd:~I/ -t~,  Steel Tanks for StoriAg Petroleum Products (Coat.) SOV/4792~ high-capacity tanks,, used in establishing standards.for permissible deviations 'frcm design specifications. The studies were carried out by the "VkIST" (All- Union Scientific Research Institute for Constructiod in the Petroleum and Gas -ine-lustry) with the directpartici~ation of the author. The author describes new tsnks designed by engineers M.I., Ashkinazi, G.M. Chichko, A.S. Arzunyan, and, by Ye. N..Lessing and V.M. Didkovskiy. . He thanks the latter four and his co- workers at the "VNIIST": M.I.,Avdeyeva, P.A. Agure .yev, and A.G. Kamershteyn. There are 46 references: 40 Soviet, 4 German and 2 English. TABLE OF, CONTEIM: Introduction Ch. I. Specificity of Storing Petroleum Products and the Dev elopment of Tarfle- Construction Specific properties of petroleum products and special features of.their storage 6 Field of application of ste-1 tanks for storing petroleum products 12 Tank construction in the petroleum industry of the.USSR 15 Brief description of the state of tank construction in other countries 16     (Petrolouim products--Btor8ge)    HOW-! Y TI ~h r e ak j L VI 2 78-3 0 no. I   jA CESSION NRs AP4044717 5/0207 [AUMORSt Ssxaryan,~M. N. (moucow)i Stu ohenko# Ye. (MOSCOW) 00 TITLEt Rotational relaxation of diatomic molocnilea in a light.inert gas A !4'1 t Zhurnal prikladnoy makhaniki A tekhMahaskoy finik ip:no-*A,- 19649 29-34* TOPIC TAGSt vibrational relaxation, inert ~-gast datonic noleculepharsonic oscillator, rotational relaxation, rokker.Planck equation-, 1 ABSTRACT: the rotational relaxation of heavy diatomic, molecules (a rigid rotator , Awas analyzed in a light inert gas under conditions of strongly nonadiabatic colli- J sione between &tome and molecules. The initial energy distribution of the mol~cxile o The Boltzmann kinetic, icorresponds to Toe-T, (T-:temperature . of.the inert 1equation is written for the distribution function 6, t)f (where E, F_ are the fr Itranslation and rotational energies respectively)t using the principle of detailed lbalancing and expanding the right hand side in powers of A and An,,. The FoWer Manck equation of diffusion is obtained in th Space, o r tal /of dii 110 (IC# F I where 119-7!jUsuL.~1 TH- 0 A,%wE.'st At, A) 4,&jdA1 and _j B .It V I' Card 1/3 7  ACCESSION NRt AP4044717 The coefficients of the above.,equation are then determined from the collisioli dynamico.of I I Br and 01 molecules with He'stoms. ':The. changw in momentum f Or-- V 2' 2 and change in molec rular-'energy by atoms is given by .1"4 ==i-A pap ig -yields E_ Coefficient then BE 2M 32 3: where is the total scattering cross! sections jig b 12- Introducing rotational energy distribution function the Fokker-Planck equation is- obtained in the form 0 which: "is AU 44 identicalto harmonic oscillator relaxation equation in a_thermo~ta_t h V1kT Similarily, the equation for translational degree-of freedom yields-~ aF - =~; 2- bE solutions of both of.the above equ&tions*ard..`-.-,*::~ the then given in' terma'&f generalisid'IdWerre. iirt'&:: has 1* r 1 equations. ASSOCIATIONt none. - 2/A.  ACCESSION NRI AP4044717 - oc)! SUBXMKDs . 07Apr64 sovo 00i, no REY 50 CODE o , HE 14 i a C rd 3/3  I - ~LLTjnq%n:-ullg-- ll:i:i4er .-,~Ok,Img.~p ,t. sa,sI- ki.ne.ti.cA                    EM       VASILIYEVA, N.V.; PALETSKIY, G.V.; ALIYEV, Ya.Yu.; SULTANOV, A.S.; BOKOVA,               ~-m  SAFER, G.                SkFFARIG, B. 1. Redacteur dlextraits, "Bulletin scientifiquell             S/020/62/147/002/019/021' B 10 1 /B 186 AUTHORS: Safin, I.. A., Pen'kov, I. N_ TITLE; Nuclear quadrupole resonance in stibnite, t%T PERIODIC'-: Akademiya nauk SSSR. Doklady, v-, 147, 410-413 no. 2, 1962 TEXT: The nuclear quadrupole resonance (n.q.r.) spectra of natural stibnite sinc-le crystals of Sb121 and Sbl23-nu-clei situated in chemicall y nonequivalent positions A and B (Fig. 1) were recorded (Table 1) by the pulse method (I. A. Safin, Pribory i tekhn. eksp., no. 3, 96 (1962)). Results: (1) A maximum of four lines was observed for the Anuclei of. Sb,, i.e.,there are only two systems of the principal tensor axis of the electric field gradilent for position A. If the magnetic field lies in the. ac plane and is parallel to the c axis the n.q.r. line is not.split. Splitting in two components occurs with other Ho directions. The z axes of the two systems of the principal tensor axes of the electric field, .gradient form an angle of 900 with the c axis, and-56 + 10 with the a axi s. (2) For B nuclei; If the ma-netic field lies in the a-c plane, no splitting occurs with any direction of H , i.e., the z axis coincides for B nuclei with the b axis of crystals. ~3) Thewidth T* of~the resonance line of Card 1/4 2  S/020/02/147/002/019/021 Nuclear quadrupole resonance in... BIOI/B1186 Gaussian form is weakly temperature-dependent whereas TI (the nonsecular 2 part of the width determinin- the form of the signal envelope) varies with temp.erature. Diffusion oil defects in the Sb S lattice at room temperature. 2 3 1 s assumed to be the cause of this. The deviating form of the envelope... ior the + 112