SCIENTIFIC ABSTRACT NEYMAN, V. S. - NEYMAND, N. V.

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SCIENTIFIC ABSTRACT
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NEYMAN, V.S.; RUMYANTSEVA N.N. UsLng hydrogen clay for study-Ing the surface conductivity of capillary systems. Nauch.-*.ekh. sbor. po dob. nefti no.19:3-6 163. (MIRA 17:8) 1. Vsesoyuznyy neftegazwrTy nauc,.nc-i ssledovatel I ski y inst,.tut. BERMAN, L.B.; BASIN, Ya.N.; N3YMAN, V.S. Using neutron gn-,q 1-o-'agine in creating and operating gas reservoirs. Neftegaz. geol. i geofiz. nD.70G-91 16Z. EoMmating the gae saturation factor from the data of neutron- gamma logging. lbid.:53-57 (MIRA 17t8) 1. Spetsgeofizika. Studying the rilirfp~cm, -IX - F-. " I-, -;U -~ ,I Y- tr~mn. . ~ ' I ~,r. 1', 1, :~ . - : .! . i j I I. VS(-.130,1~,'Zlly-y 'PY'Y '~,r,.:y I I V Is.; ary e S -3~ -uzny- v na~ y nul'.agazoij. ~oD P-c :.n~ - ri I I DAMOV. 7.B., proressor; E17M, V.S., student. Relation of the apparent specific resistivity to the spacing between adjacent electrodes of the gradient-probe. Trudy M no-15:143-147 '55. (102A 9:8) (Oil well logging, Ilactric) SHAPIRO, D.A.; UNMR, V.S. Istimating the porosity of strata by self-potential diagrams. Trudy TMI no.29:i56-165 o6o. (14M 13:10) 1. Allmetlyevska5ra goofitichookaya kontora. (Oil well logging, Ilectric) BA31N, Ya.N.; HEWUN, L.H.;- HEYMMI, V.S. Pcwsible ways to idew. ify pr,r,, in, rind f ractured 131r-g commercial geophysi~--al methods. Priki. ger,f iz. no. ~r~: 1 ~) ~- ',,4. f'4:RA I , BE 94 All , L,. B. ; :. E, MVIN ) V. S . Conrp,r-.-ng the ZmP of penptra'~Ior, 'n producing jaye.-I. -r , ". I . geofiz. no.40.*274-180 1 ~,4 ~ ,-~ j RIT -I P, - -., ) I-ILMN, V. V. Propaganda estestvennonauchnoi literatury v sel'skoi biblioteks L'Topularizing natural scimnee books in rural libraries/. Moskva, 1953. 36 p. (Gos. ordena Lenina b-ka SSSR im. V. 1. Lenina. Nauch.-metod. kabinet bibliotekovedeniia. V pomosch' sellskoinu bibliotekariu) SO: Month List of Russian Accessions, Vol. 7, No. 3, June 1954. 30(4) PWA I BOOK EXPLOITATION SOV/7Tqq Moscow. Publichnaya bibliotaita. Mau. tino-acto4lebsoklY kabinet vadenlys J4 R&UC-0-tekhnichook Lys Snanlya-v "Asy; abor-nlk "terialow 9 pmostkcW sabso," bibli-taken, (set an' Ifie sn:,Techl~: Inowledge for E,.,y... ; Collection "' P4 t. ,I a for t Ald of Public Libraries) Pt-c.., 1958. 196 p. Errata 51 1, Inserted. 15,000 copies printed, CospIllersa 0. S. Multanovskaya and T. 1. Keyman; Ed. o D. latodinleftnild.to of S~Ianc.s; Tech. Ed. L. A.J31 we Sk y.. FVRPIaSg~ This book to Intended for llbrriar~fi. COVIOLAGEttifThl.a...11 act", 0 f,art.1t.1c: a1,,, popular :ci:n Ic d t th".1. Ittr to aid Public library or are in dlesemInalln, ,It... -tl~. 1, In, 1-11", ,It 0 rile , . n.!nf, , p 1 1 "u tr ub C. Th an IC. of p~ net . n . In the tocbnologleal develop=*nt red 'Phs last two articles describe thefox"p:r in dS'1"41 Ilbra.rlaa in pt-v..t1.g popular sel.n:. bo.i'a. The appld~ J,I list of b'blioera 'c &Ids for pop-ar-sclen- Na & i~~. a a .0 1 to. 0 per o' 1 .1* &- nt on ,It at. M.lt&no_4'& Ys. 0, S. Alt-.tl, Kcr,1-4 .. kid* to It,-. Lab. &-.nd Us 109 Ney"n, T. T. Atomic Energy for the Welfare of ttie Nation 119 ry,l,,r Agriculture. Raterlala for t v_ka 131 rJ:. Pr,)F3jA!1On of Economic ]Lnoultdge xan&z *7.'aj, 5 Am ~ng ire ra- -- 143 JaPAV-1211-:1. 1--L , And-S_ M. In Dlese2inating S;Ient Irl' -j -pu lar Literature by the za &or. k LID-,In X-4~:'Oblrat le-0 - -koy~ ,, .3 :"c:Or an.Aldto Coll:ctive ;Io,tnrw,,g.-F-jl- Natur c1 t:4 (Pro. the work pne . f t & PAIYY K~Isbchl Rural Llbr ", of lq~scow Oblast Appondl., List or Sibll.gr.phle Aids 191 ATATTAA-: Library of Congress (Z7911 J158) Card 4A JQ/&wkh 1-6-60 , I , ,A , I . . , . I - - . . - ! - . -I - . -1 I - " (; I- -! - , L:- , -, - t , -- - . . *. 87 _ ' I -. I ~ L -- - I . .- pl-CL-As ) WMAN, V.Ya., inzh. Electric station to operate on supercritical stean with 450 magawatt.units. Snargokhos.za rub. no.4:26-28 JI-Ag '57. 0AIRA 12:11) (Sullivan county, Ind.--Steam power plantu) (Electric paver) IZYMiN, V.Ya., inz~. T'I"Involl Large gas-turbine power plant in Canada (from "Modern Power ard Engineering," 51 no.8 1957; "Oil Engine and Gas Tizbirie," 28 no.2P5 1957). Elek.sta. supplement no.6:20-21 N-D '57. WIRA 11:2) (Canada--Gas power plants) KJOW.H. V-74.,inzh. The Portland Power Station (USA) equipped with a 520 t/h boiler for 175 atm. and a 165 mw. turbine with axial exhaust. Xner- gakhoz.za rub. ao,6:4-9 V-D 158. (MIRA 12:4) (Portland. Pennsylvania--Zlectric power plants) MELIK-PASHAYEV, V.S.; KOCHETOV, M.N.; KUZNETSOV, A.V.; DOLINA, L.P.; Prinimali uchastiye: BELYAYEVSKIY, A.A.; LISUNOV, V.H.; NEYMAN. V.Ye.; GHERNOGLAZOVA, T.Ya.; MAMUNA, V.N.; ZHDANGV, M.A., prof., red.; PERSHINA, Ye.G., ved. red.; YAKOVLEVA, Z.I., tekhn. red. (Methods for determining the parameters of oil and gas pools for appraising their reserves in platform-type fields using the volumeteric wethod] Metodika opredeleniia parametrov za- lezhei nefti i gaza dlia podscheta zapasov ob"emnym metodom; na mestorozhdenliakh platformennogo tipa. [By] V.S.Melik- Pashaev i dr. Pod red.M.A.Zhdanova. Moskva, Gostoptekh- izdat, 1963. 269 p. (miRA 16:5) (Oil reservoir engineering) NTYKAN Witold (Poznan, u1. 27 Grudnia 4.) The Uckey and Rare test In diabetes inaipidus. Poisirie arch. &wd. wown. 28 no.1:57-61 1958. I..Z III Kliniki Chorob Wevnetrznych A.M. w Poznanin Kierown1k: Prof. dr mad. If. Iabendz inski. (DIABLIM IMIPIDUS. diagnosis Hickey & Hare test (Pol)) NrfMAN, Witold (Pomin, 27 Grudnia 4.) Hickey's and Hare's test in diabetes insipidus. Polski tygod. lek. 13 no.46:1928-1830 17 Nov 58. 1. Z III Kliniki Chorob Wewnetrznych A.M. w Poznaniu; Iciarownik: prof. dr ned. F. Iabeadzirwki. (DIA3F.TR; INSIPIDUIS, differ. diag. iickey's & Hare test (Pol)) HEMM A LABEMINSKI, Franciazek; , wi~oi Felger's nuclear anomaly in 2 families in Vielkopolska. Poi. tyr. lek. 17 no.8:298-299 19 F 162. 1. Z III Oddzialu Wevnetrwego Szpitala Hiejskiego im. Strusta w Poznaniu; ordynator: prof. dr med. F. labendzinaki; dyrektor: dr med. S. Andrzajewski. (LEUKOCYTES) LABMDZVN.'.3K1, Fe, prof. dr.; NEYM.411, Witold; BADYDA, Cyryl. 3d case of Felger'3 araialy in Wialkopolska. Comparison with pseudo-Pelger granulocytic picture In a patient with malignant 1yaphoma. Pol* tyg. lek. 20 no.ls28-29 1+ Ja 165, 1. Z Oddzialu Wodnetrznego Szpitala 14iejskiego im. Strusla (Kiero,.rnikt prof. dr. F. Labendzinski) I. z III Kliniki Chorob Wewnetrznych Akademii Medynznej w Poznaniu (Kisrownikz prof. dr. K. VysocYi)* NMK;B, Ya.L., inch. New method for assembling forging and pressing equipment. Mont. i spets.rab.v stroi. 22 no.10:6-9 0 060. (HMA 13:9) 1. Treat Yuzhtekhmontazh. (Forging machinery) KARYAKIN, V.D., Inzh.; HEYMAN, Ya.L. Assembly of production lines in machinery-construction plants. Mont. i spets. rab. v stroi. 24 no.90-5 S 162. (WRA 15:9) 1. Trest YuzhtekhmGntazh. (Factories-Equipment and supplies) NEIMN" YA.M. 42/2596 (Result of the competition for the best design of cranes for building of few stor- sys,, arranged by the U.S.S.R. National Institute for Technical F4uipment). K itogam kon.- kurea VNITO stroltelei na luchshie konstruktsii kranov dlia maloetazhnogo stroitellstva. Makhadiatsils StrzUel'ltva, 8(4)t 18-21, 1951. r7YAMXIY. 0.. B. 0 "1, WIL YA. I. . 'ItMt I . 11. 1. Mixing Krichinery Mixing machines on construction sites. Stroi. prom. 29 no. 12. 1951 ~Ionthbr List 21 RHsai Accessions, Library of Congress, August, 1952, Unclassified. SOVALOV, I.G., kandidat tekhnicheeklkh a&uL-; NZYMAN Ta.H.. lazhener. On the technical and economic indices of enterprises producing precast concrete products. Stroi.prom. 34 no.5:38-45 Sy '56. (NLRL 9:8) (Precast concrete) tA NEYMAN, Ya.M., Inzh. - ------- Re-equipping a brick plant for the production of foamm glass. Stroi.i dor.mash. 7 no.10:30-32 0 162. (IMIRA 15:11) (Glass, Cellular) FRILMKIY, F.V.., inzh.; NEYM&N, Ya.M.., inzh. Redesigning a seasonal brick plant for the production of aglorrite. Stroi.mat 8 no.10;(-10 0 162. (IMIRA 15:11) M Moscow Province-Aggregates (BuJ-Iding materials)) MMAN, Yan Markovich, inzh.; IVOSYAGIN, Dritriy SemenovicY, MEMV, Boris YefiLnovich; ANTO11OVA, N.N., inzh., [Vechanization and automaiian of the processes of manufacturing heat insulating materials in renovated brick plants; based on material-9 of the Main Adr..'nis- tration of the Building Materials Industry in Moscow Province] Iz o~,yth mekhanizatsii i avtoratizatsii pro- tsessov proizvodstva teploiizoliatsionnykh materiFilov na i-okonstruirovannykh kirpichrjykh zavodakh; po materinlrin Konstruktorsko-tekhnologicheskoi kontroy Glavrosobl- stroimaterialov. Moskva, Gosstroiizdat, 1962. 38 P. (MILCA 17:3) 1. Aknuer.iya stroitel'stva i arkhitektury SSSR. Nauchno- issiedovatellskiy institut organizatsii, mekhanizatsii i teklinicheskoy pDmoshchi stroiteilstvu. 2. Nachallnik ot- deia mekhanizatsii i avtomatizw -sii Konstru-ktorsko- tekhnicheakoy kontory Glavnof,,o upravlaniya proUshlennosti stroitel'rWkh materialov i stroitellnykh -detaley(for Neyman). 3. Rukovoditell sektora tekhnicheskoy informatsii Konstruktorsko-tekhnologicheskoy kontory Glavnogo upravle- niya prom-yshlennosti stroitellnykh materialov i stroitell- nykh detaley (for Mosyagin). 4. Sotrudnik 3ektora. tekhni- cheskoy informatsii ',.onstruktorsku-tekhnologicheskay kontory Glavnogo upravleniya promyshlennosti stroitellnykh materialov i stroitellnykh detaley (for Meskin). PLYATSKIT, T.H., kandidat takhnicheakikh nauki MCIM, Ta.Ta.. Inzhaner. Mews in pressure canting. Test.mash.27 no.12:58-65 D 147. (Die casting) (KLRA 9:4) NETW, Ye.A. Graphs for three- lactrode electric probes and layers of limited thickness. Trudy IENKHIGP no.41-128-158 163. Device for converting a UL;p curw- into a curve of self-polarization potentials. 173-177 (MIRA 16slo) SARKISOV, A.L.; NEYMAN, Ye.A. Layout of a seven-electrode shielded probe for a three-strand cable with a grounded control of the current of shielded electrodes. Trudy MINKHiGP no-41:17~~-181 163. (MIRA 16:10) KMNZMIT. S.G.; NZYM, Te,.A. - ~ -, -, IW__ - Detecting the oil-water bowidary shift in control wells. Trudy KNI no.12:224-230 '53. (KM 9: 8) (Hydrodynamics) (Petroleum engineering) NEMITI-je. A. "Use of Electrical 'Models in the 3olution of Problems Relating to tne Rlectrometr-f of Oil Wells." Cand Tech Sci, Moscow Order of Labor Red Banner Petroleum rnst imeni Academician I. M. Gubkin, Moscow, 1955. (KL, No 14, Apr 55) SOt Sum. No. 704, 2 Nov 55 - Surve- y of Scientific and Technical Dissertations Defended at USSR Higher Educational Institutions (16). 1-r--57-1-993 Translation from: Referativnyy zfturnal, Geologiya, 1957, INr 1, p 157 (US-1R) AUTHORS: Dakhnov, V. N. , Neyman, Ye. A. TITLE: The Theory of Electrical Measurements in Drill Holes by Studying the Resistance of Ground Connections (Osnovy teorii t:lektrometrii skvazftin metodami izuehaniya sQprolu-ivleniya zazemleniy) PERIODICAL: Tr. Mosk. neft. in-ta, 1955, Nr 15, pp 46-79. APSTRACT: The authors have shown the relationship of resistance of ground connections with different surface forms to resistivity and size of the medium surrounding the ground connection. Pormulas are given for determining the resistance of spherical, cylindrical, and simple circular ground connections in ftomogeneous media. Using a number of assumptions, the authors derive approximate formulas for evaluating true resistance by measuring the resistance of a spherical ground. They Card 1/3 derive further formulas for determining the resistance 15-57-1-993 The Theory of Electrical Measurements in Drill Holes (Cont. ) of a shielded ground in a uniform medium and in an infinite plate of great thickness, and also in a plate of limited thickness. The latter example is supported by experimental carves, obtained on an electrical model. The graphs obtained from this model represent curves of the relationship max )Peff b(h 0 for a sonde with the ratio L/d,3 = 2.5 for ratios of d3/do = 0.3, 0.4, 0.5, 0.6, and 0.7, where /4max is the maximum apparent resistance eff of the shielded ground obtained at the center of the plate, the thickness of which is ~; /, is the resistance of' the mad; do is the diameter of the drill Hole; L and d3 are the length of diameter of the sonde. The results obtP.Ined from the electrical model are used to construct curves showing the relationship of apparent resistance, measured with the sonde, to the thickness of the plate, for various ratios/of plate resistance to resistance of enclosing rocks. To Card 2 3 15-57-1-993 The Theory of Electrical IMea surements in Drill Holes (Cont. ) obtain the proper shieldinF, the currert In the shielding electrodes should satisfy the relation if + is L if 1 where if and Is are the currents of the field and shield electrodes respectively and 1 is the lonKth of the field electrode. Finally, the authors examine the prot-.1em of eliminating from the sonde record the influence of the contact resistance of the field electrode. This is done by calculation or from the corresponding graph. Card 3/3 N. A. Ts. HZYKU. Ye.A., inzhener. Spherical probe method (ground-resistivity difference method). Trudy ME no.15:92-119 '53. (NMA 9:8) (Oil wall logging, Zlectric) UMN, Te.A., Inchener; X1306MICEMMO. U.N.. Inzhener. Imulning the distribution characteristics of the "cific electric resistivity in the formation zone Wrognated by the drilling fluid. Trudy 01 no.15:120-125 155. (MLRA 9:8) (Oil well logging, Ilectric) NZYW. Te.A.. Inchener. U~ Studying the relation between the distribution characteristics of specific resistivity In the zone of penetration and between the form of the curve of lateral electric logging. Trudy NMI no-15: 125-142 155. (KLU 9: 8) (Oil well logging, Xlectric) ,EYKAH, Ye.A... Inzhener. Constrmetion of formation models of a given specific electric resistivity for modeling problems on electric well logging. Trudy KNI no.15:147-151 155. (KLRA 9:8) (Geophysics-Zlectromechanical analogise) (Oil well logging. Zlectrie-Kodele) NESTMIM0, G.N.; NETHAN. Te.A. Using microiogging for detecting porouB layers in carbonate depostis of western Bashkirian fields. Geol. r-efti I nc.8:14.6-50 Ag 157. (MIRA 10: 12) 1.Volgo-Ural'Bkiy filial Vaesoyuznogo nailchno-isaledovatellskogo instituta geofiziki I Moskovskiy ordena Trudovogo Krasnogo Znameni neftyano7 institut im. akademika I.M. Gubkina. (Bashkiria--Oil well logging, Radiation) 3(0). 14()) AUTHOR: Neyman, Y-~. A. TITLE; The Plott-Ing r,,f to Sm,aatior. dov po dannym e'Pktr1.,,heskogo SOV/' 2 a D,,agram for Mi~rcsound~ng De-vi:~&5 Da~a (P-,utroyeniyo pa,c-tk-. i'k.--,z:,- mode.. PERIODICAL: ,y-.i3h: ich urhebnykh zuveden`y. N~-f* gEi z Nr 't pp i3-20 (USSR) ABSTRACT: Up to rec eni "t I mes ge,- phys~ ;-' :.~ti; working or, c--' fie.d'3 taa no diagrams plotted specif--cal'iy for micri~sounding d~;v~ceq- -at their disposal. The artiole describes thp method cf of the microsounding method and thc- re,,3,,i,.ts nbt-an(,-JJ. Tho r-,I'J~q for the applir.,ation of the diagram obtained for hf- 4 .nterpreta*c4-,.)r. of microsound-ing diagrams are giver'. For tne simulation of the mi-,rosour-d-rig method tw; cont-4g,--s meaa (drilling liquid and layer) eacn of which ~.s Jrpmogeneo,~s ti: they differ in their specif-,-, resistan,--es rad tc De These two media were represented by t~vo =-le,.,trolyzes w-,th different resistancea separated by a partit,-on. The part~.t:ou was manufactured from a thin tissue soaked in 1~ was impervious to water and had a high reBistanc~ to qle~2tr~-~~ Card 1/2' current. - The author goes on to describe 'briefly tne s.,miiating - 1 2 /z SOV/ 5 2 ~ -i -- 5? ~ The Plotting of a Diagram for Vicrosounding Devices Accord~ng to Electri,ia, Simulation Data plant devised for the investigation of wells by means of microsounding devices. The measuring method is described, the results of the measurement are given, and the way in which they are entered into the diagram is shown. The use of the diagram is then explained by means of an example. There are 4 figures and 2 Soviet references. ASSOCIATION: Moskovskiy institut neftekhimicheakoy i gazovoy promysh:ennost-4 im. akad. 1. M. Gubkina (Moscow Institute of the Petro!-eum chemical and Gas Industry imeni Academician 1. K. Gubkin) SUBMITTED: September 2, 1958 Card 2/2 UKEDIOT. T.N.; IOBRAHOVA, Y.M.; FICHIMEDV, T.F.; BENM!SHWN; B-TU.; KWLIK. A.1.; POZIN, L.Z., DITAKONDV. D.I.; LATYSRVA, ILG.; IJOBRYNIN, Y.M.; LARIONOT. V.T.; JMrW. Te.A.; LMMV, A.?. Terminology and symbols used in applied geophysics. PrIkl. geofiz. no.27:223-235 160- (HIU 13:12) (Prospecting--Geopbysical methods) GRECHMIN, V.V.; NMAN, Ye.A.; YANSHEVSKIY, Yu.P. Methods of using lateral logging in Pechom Basin coal deposits. Geofiz. razved. no.12:74-100 16). (MIRA 16:11) 331") 1 3/064/62/000/001/004/006 B110/B158 ALTHOaSt Fioshin, U. Ya., Lebedev, 1. M., Kazakova. L. I., bn?in, 5-71-, Khollmer, 0. M., Gurevich, G. I., Neyman, Ye. Ta. TITLE& Elactrosynthesis of 6_~oxypentadecanoio sold PERIODICALs Khimicheakays proi2yehlennost', no. 1, 1962, 41 - 43 TEM 6)-oxypentadeoanoic acid (I) is produced by "mutual" anodic condensa- tion of W-acetoxyundecanoic acid (II) and adipic acid monoethyl eater (III)g during the electrolysis of an aqueous solution of a mixture of their saltai CH 3COO(CH 2)IOCOO- + _OOC(CH2)4 COOC2H5 3 COO(CH 2)14COOC2H5 + 2102 and then saponification of ethyl eater. ihe authors wished to obtain better yields by substituting the aqueous by an alcoholic medium, and the Pt anode by PbO 2# magnetite, and graphite anodes. A cylindrical glass alectrolyser with cylindrical, Pt anode, perforated Ni cathode and graphite rod anode concentrically arranged, was Card 1/3 33L41 5/064/62/000/00 1 Ao,,/ OC' a Eleotrosynthesis of ... B11O/B158 filled with an alcoholic solution of 11, 111, potash, and soda. Current intensity, voltage, and temperature were measured, and the clectrolyaia was concluded when 0.7 - 1.0 ml of 0.1 11 KOH solution (phenol phthalein) was used per al of electrolyte. After distilling C.H 5OH at 20 am H,3, the following quantities were fractionated at 2 5 am Hgj (a) 30,; at 16ooc; (b) 25% at 1830C; and (a) 50~ at la5 - 2000C The (c~.Bubstancea:asathe eater of I. r4l%~j eater was separated from (a) and (b It -no po ified for 2 hre with a 5(YA KOU solution in the preconce of ethanol, then acidified with HC1, and I was extracted with toluene. With 125 =1 C2H 5on, 21 g 11, 45 g III and 5 g X CO the I yield was 45 - 48% at 10 a 3.42 tim' e 2 /a M2. As a. the th oretic.1 amount of current is required ith an aqueous solution, the yield, 27% must be appropriately divideds 27/5-42 F'-8%. Ls Pt consumption is 150 9 ton the possibility of using PbO 20 magnetite, or graphite was studied. The dependence of yield on electrolysis conditions was studied with nonporous graphite In ethyl and propyl alcohol with 112 g of IIj 238 g of IIIf and 24 9 of X2CO5 at 6o - 650C. Yield of 1, 48 - 50%, was not dependent on the current Card 2/5 33LIa S/064/62/000/001AC4/008 Electrosynthesis of ... B110/11138 intensity in a wide range. Maximum yields were obtained with a 11 1 ill ratio of 2 s 1 and 1 t 3 at 12 a/am2, 60 - 650C and a K 2CO3 concentration of 20 g/liter. Voltage increases rapidly with anode density and decreases ith K2CO3 concentration. The optimum is 40 - 50 T. With 7 9/11ter H20, ratio of II i III - I 1 5, and at 14 a/am2 and 60 - 650C, the yield Is 49.2% decreasing to 55'P", with 100 g/lIter of H20. Optiaum yields (4).2% current efficiency) are obtained with ethanol or propanol solutions of 112 g/liter 11, 238.6 g/liter 111, 24 g/liter K 2C05;, 7 g/liter E20 and 2 anode density of 14 &/am at 6o - 650C. If the old solution was replaced when acidity reached 1.2 - 1.4 ml of 0.1 N KOH/ml,yield was 44 - 45% (41.5% current efficiency) at 15 a/am 2 and 65 - 70OC- Yield was almost doubled by using an alcoholic electrolyte (six times the current efficien- cy). Part II which is bound as a salt and does not react, can be re- cycled. The higher energy consumption (voltage increase 3 - 4 times) is compensated by increased current efficiency. There are 4 figures, 1 table, and 3 Soviet references. Card 3/3 NEYMANY-Ye.Ya., inzh.; PIMSHTFYN, P.G., inzh. .1 1 no s, - .n~,, e: Deslan of sDirql high-pre3sure ve-3sols. Khim,mas~,i 23-23 Mr-Ap '64. (:/,TMA 17:4) 65989 S/l4l/60/003/Oo4/oi4/oi9 07 4*00 E032/E5jL4 AUTHORS; Neymark, Yu. I. and Kinyapin, S. D. TITLE: On Tfie'_'_S7fa_i_e_ Equilibrium on a Surface of Discontinuity PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Radiofizika, ig6o, Vol-3, No.4, pp.694-705 TEXT. A large number of papers have been published on the stability of the state of equilibrium of a relay system (Refs.1-17). The method of studying the stability of the equilibrium state of a relay system which was put forward by the present authors in Ref.13 was later applied by Kxnyapin (Ref.17) to a two-stage relay system, and by Ayzerman and Gantmakher (Ref.20) to the general problem. The latter paper was read at the First All Union Conference on Th~pretical and Applied Mechanics. The present paper is concerned with the general problem of stability of the state of equilibrium on a surface of discontinuity. The treatment is based on the method of point representations,and the theorem given by the first of the present authors in Refs. 18 and 21, which is concerned with the relation between the stability of a fixed point of a point represent- ation in the critical case when all the roots of the characteristic equations are equal to unity,and the stability of the equilibrium Card 1/6 85989 S/141/60/003/004/014/019 E032/E5i4 On the State of Equilibrium on a Surface of Discontinuity state of a system of differential equations obtained from this point representation by way of a limit transition, Suppose that the righthand parts of the system of differential equations have a discontinuity of the first kind on some smooth surface S so that the system can be written down in the form f+ (x 1.1 x x when x > 0 n n X. fi (XIO x 2"''' xn when x n < 0 The functions f. and f. are looked upon as sufficiently smooth (it is sufficient to as-sume that their third differential coefficients are continuous),and in particulan it is assumed that in the neigh- bourhood of the point k*(0,O,,,.,O) they can be written down in the form n f = a, +j=~a+ X. + 1-0. (XI IX2 .... I x 1 .1 n n (2) f = a + E a xj + Wi (xlPx2V ... I xn Card 2/6 j=l j 85989 S/14.1/60/003/004/014/oig E032/E514 On the State of Equilibrium on a Surface of Discontinuity where ai, ai. a,,, a,, are constants and the terms W and A are not less than of the second order of small quantities in x X'31--X The phase space of the system given by Eq.(1) is n + divided into two parts G and G by the surface x n = 0. In each of these the motion of a phase point is governed by one of the equations in Eq.(1), On the surface S itself, the motion of the phase point is not defined by Eq.(1), In order to define its motion on this sur-face, the following four cases must be considered; 1) x f P 0; x f- > 0; n n n 11 2) f+ < 01 x f- < 0; (3) n n n n 3) x+ f+ < 0; X- f- >O; n n n n 4) x+ f+ 0; x f < n n n Card 3/6 85989 s/141/6O/0O3/0O4/0i4/oi9 E032/E514 On the State of Equilibrium on a Surface of Discontinuity In the first and second cases a phase trajectory passes through q_ point M on the surface of discontinvity, from the half-space G_ to G +and, correspondingly, from G to G_, In the third case the phase point remains on the surface x = 0 until the third condition is no longer satisfied, Final7y, in the fourth case the motion of the phase point M is undefined. In the case of the corresponding physical system, this means that the phase point M will be displaced into the half-space G or G , depending on random effects. The regions -1 +' IT' . C a n dDon the surface xn = 0 (cf,Fig.1), which correspond to the four cases numerated in Eq.(3), are separated from each other by the curves and y on which f + = 0 or f- = 0, respectively. The possible behaviour of n n + the phase trajectories near the bounding curves y and y is shown in Figs. 2a and 2b. The present authors derive an analytical criterion for distinguishing between these cases and the general aim is to study the behaviour of the phase trajectories in the neigh- bourhood of the intersection of the Y + and y curves and, in particular, to determine the conditions under which all the phase Card 4/6 85989 S/141/60/003/004/014/019 E032/E514 On the State of Equilibrium on a Surface of Discontinuity curve's in the neighbourhood of a point M. which are common to y+ and y , asymptotically approach this point:~~rt--4 14), ~ The point M is defined as the stable state of equilibrium. The analysis is continued using a set of coordinates having the origin at an arbitrary point corresponding to the intersection of the y+ and y curves. The coefLicients a and a then vanish and, in order l,f-(O,O.,,,O)n n a that the origin should be stable state of equilibrium, it is necessary that the first of the two cases shown in Fig.2 IE should occur in the neighbourhood of M . When this necessary condition is satisfied, then the phase trajectories in the neigh- bourhood of MR define the point representation T+ and T- on the S surface, The results of the paper are summarized in two,.basic theorems which give the stability conditions for the point M (0.0..-'0' depending on the values of the parameter d which is defined by d = ab, where n n - + + + a = 22: anj aj ani ai J=1 J=l Card 5/6 f I r V fj;l r i T/ 11 bgii t trod JlA I y "' P~ , ~I NEYMIII YU.M. Weights of angles and lines in the adjustuent, of polygonal traveftes . Geod.1 kart. no.8.-20--23 Ag 161. (,URA 14-10) (Traverses (Surveying)) BADPOPI-N, A. A. , BCGKAr1CVA, 0. K. , iSAGULYA-I'~TS, G. V. , NZTII~!,, Yu. V. ar~rl POPCV, Ye. I. (Trist. of Orgmnic Chem. AS '-ISSR) I" _nvesti ~',7at_fori of 'the Nfeo,,harli= --f a: Using Radi,~,active Ca-~,nn '7- Tootopes and Radiation in Chemistry, Collection of papers of 2nd All-Union Sci. Tech. Conf. on Use of Radioactive and Stable Icotopes and Radiation In National Economy and Science, Moscow, Izd-vo AN SSM,1958, 38OPP. This volt published the reports of the Cheadstry Section of the 2nd AU Sci Tech Comf on Use of Radioactive and Stable Isotopes and Radiation in Science and the National Economy, sponsored by Acad Sci LEM and Kain Admin for Utilization of Atomic Energy under Council of Miniiistere USSR Moscow 4-12 Apr 1957. NEIW, N.V.; SMOLIN, V.V. Wind roses and building in Magnitogorsk. Trudy GGO no.149: 48-52 163. (MIRA 17:1) 1. Magnitogorskaya sanitarno--epidemiol.ogicheskaya stantsiya. NZYMAN, Yu.Yu., Inshener. Calculating the drums of excayator winches. Vest.mash. 33 no.3:14-15 Mr '53. (iaRA 6:5 ) (Excavating machinerl-) :111:, All~', - 3. j, c of I ar,-,e ". , -r,,i !- - ; - -1 -.,, 11 " , , ~-' "Fili ' (,:.Vv,', l')48. 17 ,. ( , I --'] .', i ) I K --l'7 ~ ~ . - _,) 1 il"a S X C4 Z. B. Ing. IT LE Synchronous Motors with Jdassiviv ~oiv& (11oshchnyye sinkhroWWya elaktrodvigatell a maasivnyrrt pol.y,,~,;irrj ra r,,- tore- Russian) FERIODICAL Elaktrichestvo, 1957, Nr 6, PP 32 - 35, ABSTRACT A series of synchronous motors with a performance of 13oo, 2ooo, and 3ooo kw was developed by the "Uralelektroapparat" plant forthe purposes of driving high-ap4sed driving mechanisms. They have a massive rotor with full pole sho- res and a special short-circuited windings which warrants greater npera- tional reliability. The motor is started asynchronously by direct connec- tion to full voltage or by means of a reactor by the reduction of voltage down to 7*0/o of the nominal voltage, The fronts of the poleshoes are on both sides of the rotor oonnected by means of copper rings, so that part of the current is short-circuited by those rings, The rings increose the va- lue of the asynchronous moment considerably. A noticeable influenqo upon the increase of the asynchronous moment is exerciesed by the short cir- ouiting of the excitation winding with the discharge resistance. At present there exists no accurate method of computation for the exact determination of the starting characteristic of motors with smooth-core rotor@. In the case of smooth cores (full poles), especially if the ratio between the width of the groove of the stator and the e4ees of the air gap is assumed to be nor* than one, loosed increase considerably, In ths case ofthe motors of Card 1/2 the series DSP described here this ratio is somewhat higher than one, and PHASE I BOOK EXPLOITATION 479 Bezrukov, V.M.; Glukh, Ye. M.,' Kostin, K.F.; Neyman, Z.B.,' Fishler, Ya. L.; Chetchuyev, G.A. Urallskiy zavod elekt-,romashinostroyeniya (The Ural Electrical Maohine-building Plant) Moscow, Mashgiz, 1957. 125 P. (Seftes: Iz istorii mashinostroyeniya na Urale, vyp. 7) 4,000 copies printed. Tech. Ed.; Dugina, N.A.; Editorial Board of Series: Aleksandrov, A.I., Candidate of Technical Sciences; Bogachev, Doctor of Technical Sciences; Volbkov, A.A., Candidate of Historical Science's," Dovgopol, V.I. e Kozlov, A.G. , Senior Scientific Worker, Archives Dept.; Sustavov, M.I., Engineer. PURPOSE: This book is intended for engineers, technicians and scientists. It can also be of use to students, agitators, propagandists and machine-building workers. Card 1/3 The Ural Electrical Machine-building Plant 479 COV W GE: The book contains a brief history of the construction and development of the Ural-Electrical Machine-building Plant and a detailed description of the progress achieved In designing and building various kinds of machinery including water-wheel generatorspa-c and d-c electrical machines, transformers, high- voltage equipment, mercury-are rectifiers and machines for the electrification of the national economy. Plans for the future development of the plant and of the production of the electrical industry in general are also discussed. The book is the seventh iss,fted in the series "Iz istorii mashinostroyeniya na Urale" (IT16tory of Machine-building in the Urals) which will contain a total of' ten books. No personalities are mentioned. There are no references. TABLE O~ CONTENTS: Foreword 3 Ch. I. Construction and Development of the Plant 5 Card 2/3 The Ural Electrical Machine-building Plant Ch. II. Ural Water-wheel Generators Ch. III. Improvement of Electrical KachinerY 479 Ch. IV. Development of Transformer Construction at the Plant Ch. V. Production of Mercury-are Rectifiers Ch. VI. High-voltage Systems Ch. VII. On a Scientific Basis Ch. VIII. Work, Study and Leisure AVAILABLE: Library of Congress JJP/ksv 8-5-58 15 38 6o 77 96 115 121 Card 3/3 AUTHOR: Neymanl_!,-B., Engineer. 104-3-1-1/45 TITLE . ~uestioms on the desi,,,,,n of Ipowcrful hydro-~~enerators. (Voprosy proyektirovaniya moshchnyk-h gidrogeneratorov.) aRIODICAL: 'fElektricheskiye Stantsii" (Power Stations), 195?, Vol.2% No.3, PP. 34 - 41 (U.S.S.R.) ABSTRACT: This is an article on special features of the design of hydro-alternators with reference to the type of turbine and the special features and character of the civil engineerine structure. The turbine-alternator sets are organically related to the entire arrangement of the station, particularly when the machine room is built directly in the bode of the dam and not as a separate bu'Llding. The maxinrum power and rtina y speed of hydro-alternatccs is considered from first principles and JLt is shown that the maximim power of a generator depends mainly on the maximum permissible peripheral speed and the active length of the stator steel which are 150 m/sec for solid and 130 m/sec for laminated rotoro and 5 - 4 m resp.;;ctively. Solid steel can ou'd 1/ 3 only be Lized for tii6h speed rotors because of transport limi- tations on dlameter. A major factor in limiting generator CD output is then the ratio of the runaway speed to the rated speed which is usually taken as 1.8 - 2.2 for radial-axial 104-3-12/45 ,4iestions on ttie design of powerful hydro-generators. (Cont.) turbines and 2.3 - 2.8 for rotating; blade turbines. However, the full runaway speed is rarely developed in practice because safety devices are very effective and overspeed runs are no longer made Ln the factories. Therefore, since the runaway speed has a great inf luence on the cost of the machine it is now usual to as-ume that the runavay speed will not be greater than 801,'D over the normal speed, or greater than 6(Xv for very large sets. The moment cf inertia is then considered and it is concluded that the natural moment of inertia suffices in most cases. However, in order to prevent water hammer it is sometimes nec- essary to increase the moment of inertia in order to limit the overspeed to 130,1'~' when full load is thrown off. The optimum generator voltage is considered. The gener-Ator is usually con~.acted to a transformer, a limiting:, factor is the maximum current at the terminals because ~-enerator s-yvitch- gear cannot harRile more than about 6 000 A. This governs the generator volbafie. Generators can be made with two or three sets of pliases pur pair of poloo in connection with special transfoimers. Howev~;r, it is usually best to lim:Lt card 213 t~e stator cu_L-r-ent to 6 000 - ? 000 A with double wiadir-gs and two sets of busbars, so that the windin,~--s are cormected in 0 104-3-11/45 ,uestionB on the desi~,m of ~,o~~erful :'Ydro-~- nt~rators. (Cont. Ule parallel beyond the terminals. The static and dynamic stability of generators is then con- sidered, this depends mainly on the synchronous and transitional reactances, the short, circuit ratio and the rate of rise of excitation. Reduction of the reactances or increase in the short circuit ratio inrzr~eases the size and weight of the genera- tor. The best way of improving the stability of large generators is to use an excitation system with rapid response and suitable forcing. With the cii2cuit used in the Kuibyshev generators the excitation circuit time constant is about 0.15 see. However, rectifier excitation is mom effective and econom- ical and can give a very low time conAant and 4 - 5 fold forcing z-ith a rate of voltage increase of 40 kV/sec. The wei4-it of an excitation system usin,, metal-clad mercury arc rectifiers is much less than that of other types, the height of the set is reduced and its constnLCtion is simplified. Generator design is then considered with particular refereace to location of the thrust bearings and to the use of special thrust bearings. It is concluded that it will be quite possible to make sets of more thAin 200 MW. The re a re 7 f ig~u re s and 3 Slavic references. AVAIIABLE: Library of Congress Card 3/ 3 "Ov f : / L"~O -~ .-1 -58-12-1/22 tUTHOR: Kost-in, K.F., Ergineer and Ne-jman2 Z.B., E-r-ineer TITM: 15 Years of d-,dT'z-- Uan, iaf a,~-- u Me Uralelek-troapparal- W,~zks (15 ik--t gid.rogen~,-vatorostro-- yeniya na zavode PERIODICAL: Ve stnik 1958, Nr 12, pp 1-7 (USSR) ABSTRACT: Hydr:,,- generator productioa comfenced in the U--als In 1943 and at pi~eBent the "Uralelek-troapparat" Wor, .r, s wanufa,~,-Iux.Nes machims 4-L ratings from 160 to 36000 kVi for voltages of 400, 6300 and 10'5100 V at speeds of 68.5 tc. 600 rom and i.3 dasigni=ng (~thaars vr-th cutputs of scme hij-direls --s- A phv~tograph of the fi-,r-st Man, ar;+.nue` at 11 works in -if 1943 is relrcnduc~ed in Fig 2; it is a 1200 0, -0300 Vo 150 -rpm ma-ch-i-ne for the Alapayevs-lk--ya station, where it is st-11i wctrkix-g. At, taat time the -urgent need for new equipmen-, was met by a stanclardi-~ed aeries cf hydrc- anerators 9 .19-velc~-~ed f'c-r %il-eap a-r-d -,asj, Manufacture The works desig~aed and man,,i-P~~ct-,u--ecl -dive standaidised series of gt~ziprato-,-s with outputs from 160 to r'000 kW, ninnint,:7 at speeas of 100 to 428 rpm. Card 1/4 The m.a.-,L.n of *,Le fi',re series are briefly '~()V/l LO-58-1L-V22 15 Years of llyl`rc Works Card 2/4 de s,~~rL t~ Cl. A_'~A control and, d-ue t~ ~i i-, f-e J, ff'~ T"O 1l'-". .Lif-nter tilan 0 re -T. L c, us m~--_ s A pll,~tjgraj~r o-, a t yp a v. W'0%VV in Pig z id a:~~d sallie 8 ind:i v-A. _,La i -Ve ~k_ r jq~ In t, S I -7ea-- Each with ~Ln .14- 0 "D A' 0 U" P, '00 a ~,.need of 1 -vL A spe iT-a o [a in Jca co:c-aers oi' -,he Q qLLa T'~j a 7_' 1.'l- F, f 7, e o ve rlll-un ,,,C n r: -7~ lo- !;'ae L- w*t;r. P. 7 -j: j t_~ _'L - -1 ha pi a T.L "L 1 -:7, 1: Z~ _-.:j z "~ UL a 2, c -i~' 15C rpm machine cf tl-~. - .1 -,71pe wJ-h one ~~_'iLe bearing -lias a total weilgh-"-~ _-~f 2f,::. tcrs- is -:-0 tons -les_- than the ~1'. .-I --p S~ t.M~ cOllst-TT-r-tiOrl, ~,ud 1,-'ae bi, ~-, v- I 1r I e-5. lilora eytensive use is t 2:-L ', ~ s :Ln .ik-;~;h the turbine and fm "' - I - - - 1 Z-_ I c, 'a~ucj' - t. ~3.nd tiie tlirust 'Dearin- ~30V/110-58-12-1/22 e e "- -0 T E, r, , ~'- 15 Years of Hydro- Gene rato r Lianuf actuxe a-, the Ura-1 1 1 a-,- ara' Works is mounted on the turbine casing, the principle is used for the 21 MW, 125 rpm sets for the Kamskaya Station. This type of construction is illustrated in Fig 5. The turbine and generator are still further unified in a horizontal shaft type of machine in which the generator rotor is shrunk on to a wheel that supports t,ue turbine blades whilst the water flows within the rotor. Although these turbines have not performed very well in sei,,rice,becausp, cf a r--umber of constructional defects, their design was a progr-essive step. In all 1~he machines manufactured in re.3ent years there is only a main exciter and no auxiliary exciter. Methods adopted to improve the mei:~hanioal stabilit7 of Feneratore rurnins at 300 to 600 rpm. are described and illustrated in Fig 6. A number of con.Stru,:~ticnal details that have. been developed in recent years are mentioned with particular reference to cooling brak1ng and bearings. The typical lulrication systea is briefly described. The works played an active part, in the design of Card 3/4 alternators for the Volga Power Station imeni Lenin SOV/110-58-12-1/22 15 Yea-rS of Hydro- a-, t-'--- firp-jejektroapparat Works were useci V-th success. At the present time th-, works is ies-~gr-ir-,S --,.jdi,o- F.+eneratoml , act re C) f sc El-~ d& c niegawatts f o2~ the Krasnoyarsk Station and 7 be -i - --c r-3 ticm is Af !y, dc-, sr; -ibed. The t-ol5al wei6ft-r oll~ machLlaes will I:P 1,900 tons and the effjz~-,-~Dn---v 9~-~.2--,%. ~.Ehere: are rl- f.-gml-res. SUMJTTED: 3Gth June 19 0 Card 4/4 *6 HOR: lleyi-u Z.13. IE: Hi;7h-speed 6yr,-l-,ronous F! L 1,-, t c (BL,strokho6rwe -nnyye -jav-.oT)oi~7us~yye dl;i~ ateli massi,,n.~i:,i ~~j yus'a--- .,:i,-RICDICAL: Ve-,ni'. I Vol CI R C.- -71 or- -t'_ TICI --0 ABSTRACT: Galient--.)ol;i~ c,7ncl--~-rcno,.iF~ r O-r arra-a[,,-e--.aie-qts c,,---.n Ibc -adc, f or speeds u-- +1-0 1 5CC r. with the usua-l tl-."-~'c I-_' rotorl startinLs wind 4 n t~__ __S. Xd ;w: e.~0 ,Olr pole motors of 1 OCO 5 OOC 1-W seldo:- Lain difficulty in ,,-akinr- 1 a reliable startinE wi-adirj-C,-.-. The OLELLE b c, current di stribu tion and, co iis ec ue ---,tl y I r-,:. uniform. Heatin,,:- and current dpta for of an 800 Sync',-ronuus motor arc f'--"Lven ii.. F-st .1. T~,.,:, results show t~jat the current the ')utei;-o--t 1 1 that in the m-Ld(--'le rods, a---d thf~ The German fii--,. ,-;f A.E.G. La:~ a des-i'f-r- wl n d -L r-6 b a r c a. n c- Y..p a. n U--' s,-~ ~ L-, i a t e ly u t 11 1fIeJ doubtful f.,Ierit becaase It .'-;7, not s-af--icirntly 1.,:I-Lable- Ua--dl/4 Good opTatin, and rt:1-!aL--Iit-,- 1-ave 'i,7h-s-, c-ed Sync; ror.Lcj,-,s Sel I 'OC r.p..-,-. .5y,_chrou_)us se.lient-jl- SO IJ f Q 2 v. 4 - -- .. -Doles of the series_,'4Cn ~-ade Ural Lave no short-circuited st_~:- t,~ r an They _r d are s_L-::- i-a-r-ed by comr:ectinr- tIeE,,, to tlc- suL)-,'7, need b e a re s -1 L _L -e T"ie stert-_*_-- j _- o-,~ r c fru:. c .:icul!~'in, c -, I, ''e solid TI e such a D~ i1justrated in Fi:-i.2, and FiF.7~ I- i v e tlLe ~3 t al t i 1:_~- cl-ai- c t of I 30C and 3 00b 1`1 3r, ric 2 i- sc, i e s ~IC P A!' :-'c 1 70 re-r, o_~. a direct-on start of a G VU 1. 5CC. r. L . :7~0 0 1- t1le rotor v,,,ind`Ln,,-I- com-ected -1to t'f e s c r e r e E: I s t- a n c e - i n :,i . 4. Durim, sta_--ti,.-.r- te-Sts, t. er~--Iure of b r4 sL)es did uot exceed 100 C. T,~c' ~~-,ta -if electurical series ,uith Oat -uts of 1, 300, 2 000 000 "1 P L V'' In Tal- 1e 1. The 2 bGC Ifl i-,-otor intp-,d--~d for 6rivin, j compressor and has a s-)ecially hiL~h i~~.omentu of inertia, These actors are desiC.-ned for startinp- dii-,ct-on or 1~ J, re,,_ctor. The exciters are LDunted on t1-c. sh;-,ift. Ha a:cial ventilatiin I'S used. The stator coil-c a.-c- insi-116,te," ~reL~nated. --.4 ca. T.,Ie bearinl-s and lub,-IC S,'/Otei, ~~re described. Th,~ v,(.,i_J-t and ef'L):'_Cie-CY 0" 4r,t J~if_G. 5 and 6, -L-,, cu., )ai-ison foi- U,~rd2/4 The surface losses dur, to i,i, r - ~j C 1~, C, 'L~ to c il C., C r c) f r, v a T 1 d~_-:n~-_o-AL in :j__ C' F; t r; t S_LzeS U- t _'L c Nn T t'.-. rr" AS60C-L _'L 1 k__ "U. , I IT 1 p p C I-,' - /' ~ d 3 t SUB 1 .1 D: 1,7, AV T I A- -.1; 1. Synchros-Design 2. Synohros-Operation 3. Synchros-Test results -"-% INNw -C~e KP f 13, r y () 0 10 0 -Kj C, e O~, c eP; -,e~ o Z Ao KP 1~0 e Ci C) olj (?, CIN~ K> 4, o', 0 o-~) e e .e K> C) e 0 cv C, "a, p Y~ 3~- ~ ~ 4 -~ ~ 0 c 40 0 Z 0", Kj ,e C, e, 0 ~e, o- 0 e -;A 40, C, ~, . q;~ , 25, ~~ C, N. 0, 0 0, KIP ,..,0 OIJ Z 13-y OP- K; 91 e 6 yjo c 'o. ~~o -cc, 9, 0 Ki "o C~ Qo W, I ~ A, .0 0 o K> e 16 Alternating-Current Machlnes r.' the Uralcile~-rrar)parat W,~rk_S The produ~;tilon of induction mours -Ls in,-~reasing and about 75% of all the a.c. machines produ,,ed by the works are synchronous machines. Types ~,if up to 1IjOO kW are used for driving ret-.ip:7,o_--atin- -.ompressors, and technical data 4 of these motors are gi,.,en ~n Table All the rompressor motors are d:~signed fo:, direct-on-line starting with the exniter soi.411Y Spe.~:ial mot,-,r-3 are made for driving pulierising mills used in power staticns, cement works an-d elSew-hel-e; tne ma-In techni,~:al data of these ma(.hines are gi-.;en ir Table 3. The wrjr~col is a prinf.lipal supplier ,)f large -,,ertical synchronous motors for driving pumps, su~:h as are LI ustra ed 'n Fii,,s 3 and 4. These motors are male witr-. Gutputs ranging from 3.00k, t-) r')0()0 kW at speed.~ from C".00 to _"I~b -pm- their techni~,al dada are in Table ',i-, and brief ,,-onsixtactional cietaiis are given. Table 5 relates t,) the horizontal salient-pole motors series DSP of 1500 --,pm with outputs of' 1350 to 5000 kW manufactured foz- large far., and pump drives in the metallurgi(.al industry. T~-..ese motors are desc.-ibed Card 2/4 briefly. The works mania fac tures syn.-hronous conden3ers series KS with outputs of 15 and 30 MVA, also series KSZ SOV/110-59-7-2/19 Alternating-Current Machines of the Uralelektroapparat Works with outputs of 37-~ and 75 KVA, hydrogen-cooled and for outdoor installation. Table 6 shows technical data, and a typical 75 MVA synchronous condenser with hydrogen cooling is illustrated in Fig 6. The works is a pioneer in the use of cold-rolled steel in synchronous machines. A careful design study has been made and in many cases it is possible by the use of such steel to reduce the size of the machine by 10-12%, whilst at the same time reducing heating losses by 5-10% and conserving copper and insulating materials. It is intended to extend the use of cold-rolled steel in machine manufacture. At present the works is developing a new series of a.c. machines including vertical two-speed motors of 2000 kW, large compressor-motors for operation in explosive atmospheres. salient-pole high-speed synchronous machines, and others. New types of synchronous condensers are to be manufactured Card 3/4 with hydrogen cooling and outputs of up to 100 MVA, also SOV/110-59-7-2/19 Alternating-Current Machines of the Uralelektroapparat Works two-speed machines of output up to 60 MW for pumped- storage stations. Card V4 There are 6 figures and 6 tables. AUTHORS: Lokshin, D.V., Neynan, Z.B. Engineers. 30V/110-59-8-5/2~~. TITLE: The Rational Use of Cold-rolled 3teel in Electrical Ma,!hines. PERIODICAL: Vestnik elektropromyshlennosti 1959, Nr 8, pp 18-23 (USSR) ABSTRACT: The relative merits of hot-and cold-rolled steel for the manufacture of electrical machines are discussed in general terms. Because of the magnetic anisotropy of cold-rolled steel, the advantages to be gained by its use depend on the geometry of the stator segments. It is very difficult to calculate the magnetic characteristics of a stator core made of cold-rolled steel from test results obtained on the Epstein square. Accordingly the authors tested packets of stator stampings by a method which has been described previously and may be readily understood by referonce to Fig 2. Experimental determinations were made of the magnitude of the magnetic flux in the teeth and in the body of the stampings. The results that are given relate to Card 1/6 ll'~, t'lCollui U,,,,,,, of' Cr,,' j I ; E.ec trir;al Yarhinef? t-wr) tv-:,,ec cf ma(,riine aith :~-.ator external diameters of 213 and 32~- :ra res e i ve ~ i T~ie stampings were of steel grad,-~ E320- mm is a medium grade of cold- 11 ij,, (~t r, t-- j i Li r T. In -q t am p i s o f L o t - rolit~d ste,?.l ~~ r a i 5 mm t ril ck Tae staimpings were riot. ~,nnertll,d. and I~c. tfsts we're I I r ac ,~ I o ~A I 1 .1 1 ~ I .~ cl~i --a I, The 'Lf-,st conditions wore- quch tiiat with 10-c) ~ti t I- e,-, :)-r' s ~,am-.-, -J.16- -,he riag~letic induction in t'-e teeth wrIE na, n ~7,veater n in the body of the stamping and, Ihef~--fure., ir wa-3 the teeth I ,nat viere being t. e ~3 t e ii . o1 rhe sr .a' 1 er diametz!r are Ci ve-n in Fltf. '~a fv~ sliov; Lhe matsnetl,, fll~x Ic I -ns i t a e., ri i,ne ull* ',he teeta as ~I'Uli, This r-a-c- tn.:)~ art.17:iar j u S e f, ul 1 1 b e n from Flt,~7 -'a rna~ -.vlth eq, a I -i ,-,s ci -,~,e rnagnt.-tl- sin.r; i'Lux in -e T, 0 e ioln P, s ,,,e, e P, L L- n 1j- r, s ' I' ng t h e s ~~ o ad 7t a nd I a r iz e -- 2 ma gi- n j fl;-IX ~rl Till- Card 2/6 _50V/110-59-8-5/24t ffie Rational Use of Cold-rolled Steel in Electrical Machines. may often be appreciable but is not the best that cran be obtained. Calculations are then made to show that the optimum geometry of the machine is altered when cold- rolled steel is used. Expressions are derived for the iron losses and these are then applied to partLcular machines. The first machine considered is one with a stator 213 cm diameter of hot-rolled steel grade E-42, Ln the output range of 'DOO to 7500 kVA and the speed range of 375 to 600 rpm: a number of other typical cilaaracteristics are given. Using this machine as a basis for comparison, curves are plotted in Fig 5a relating the stator length to the losses, weight and field current of corresponding machines made of cold-rolled steel. The curves show -,.,iat if the stator length is reduced by 10 to -'51,'b when the cold-rolled steel is used, the iron lasses are increas~_d by some 6 to 12%. However, the total losses in the active material are reduced by 4 to 5~'O: eind the weight of acti-7e material is reduced by 9 to 10%; or alternatively, the losses may be reduced by 6 to 6.51,1~,, and. the weight of material by 6 to 81/U'. If the length of' stator is unaltered, Card 4/6 SOV/110 -59 -6 -55/2 The Rational Use of Cold-rolled Steel in Electrical Machines. the steel losses tire reduced by 4~o and the overall losses by only 1%, with Ekn economy of copper of 3.5%. A similar comparison is then made for machinss with an external stator diameter of 325 cm covering the range of 1000 to 10000 kVA and 150 to 250 rpm:, the corresponding curves for a machine using cold-rolled steel are in Fig 5b. It will be seen from these curveis that the use of cold-rolled steel gives the best result when the stator length is reduced by about 10%. The total losses in the active materials are then reduced by 4% if the weight of copper is cut by 11%, or are reduced by 6~ if the weiSht of copper is out by 6%. The reduction in the length of the stator also gives economy in insulation and other con- structional materials. The curves of Fig 5a and b relate to machines of average characteristics, but in particular cases the effectiveness of using cold-rolled steel may be very much greater. By way of example, Fig 5B gives curvtz of loss and viei',,;ht ratios on altering the length of a hydro-alternator with an output of 26300 kVA running at 130 rpm with an external stator diameter of 700 cm. It will Card 5/6 SOV/111)-59-8-t/L4~ Rational Use of Cold-rolled Steel in Electrical Machines. be seen that here the use of cold-rolled steel makes it possible to reduce the stator length by 10% and simultan- eously to reduce the losses in the active material by 4c,',u and the weight of copper by ii,,ore than 15", -- alternat"vely, the losses may be reduced by 10-,,' and the weight of copper by 7~10 These examples clearly show that when cold-rolled steel iS used ',he optimum proportions of the machine are in general not the same as when hot-rolled steel is usrd. There are 5 figures and 3 Soviet refererLCeS. SUM,TT"H): January 26, 1959. CaT-d 6/6, NEYWI-,-- Z.B., inzh. Vertical s-jnchronous motors for driving large pumps. Vest. elee- troprom. 33 n3-3:29-33 Mr '62 WIRA I -5:3) (Putq)ing machinery, Electric) (Electric motors, Synchronous) jMzUR'-"'. inzh. 7vo-apeed vertical-shaft asynchronoua motors. Test. elek troln,4=o 33 nb.1240-43 D t62. (KnU 15:12) (Electric motors, Induction) (Electrio power plants-Equipment and supplies) ETTINGER, Ye.L.p kand.tekhn.nauk; GLUKH, Ye.M., kand.tekhn.nauk; GOLIDIN, R.G., inzh.; TITOV, V,V., kand.tekhn.nauk; NEYMAN,. Z.B-., inzh. Concerning L.V.Rcpman's article. Vest. elektroprom. 34 no.1: 62-64 Ja 163. (KRA 16:1) (Electric generators) (Rosman, L.V.) .".. NEYMN,. Z.B., inzh.- Froblexw concerning the design of a large salient-p-cle synchronous machine with solid rotor poles. Vest. elekt-roprom. 34 no.2:3-8 F 163. (MIRA 16:2) (Electric machinery, Synchronous) :EY,"IkN, Z.B., iltZL. mol - . -lek. ct-a. 34 rrl-~.5 ~4-3--,J5 M71 : (D q 4, (-iDll p :,-'' + " -, ~ 1; (E.1,-- ~- ~,r ic: mo * ~ r ; ~ NEYMAII, Z.B.,, inish.; GOLIDMERG, S.I., inzh. Synchronous machines w7ith alumirrum excltk~rpu windings. Eloktrotekhnika 35 no.1:26-29 Ja 164. o (MIRA 17:2) NEYMANT, Z.B., inzh. IA-,.ge units witr~ t' pole i~enera*rrs f:r 'With single-phase load. Flektrotek~.rJka 3'. -,c;."):7-,2 3 1 t4. 1,7.11) SoUA-CE-ffif-E.- URIA1376670097DI31003WO38 ACC NRi AP 25598 INVENTOR: Lokshin, D. V.; Neyman, Z. B. ORG: none TITLE: Unipolar machine. Class 21, No. 183263 SOURCE: Izobretenira, proqrshlennyye obraztsy, tovarnyye znaki, no. 13, 1966, 38 TOPIC TAGS: electric generator eerl-j ;r"Ja: Causj0t))FA~r, ABSTRACT: This Author Certificate introduces a unipolar electric generator with a liquid slid in g contact (see Fig. 1). The generator contains a stator with a built Fig. 1. Unipolar generator 1 - Liquid sliding contact; 2 - stator; 3 - excitation winding; 4 - rotating contact ring; 5 - rotor; 6 - fixed contact ring; 7 - auxilJM contact ring; 8 - drive. Card 1/2 UDC: 6:21-313-291-M67 L.-'~ t- L ~ _' -_ I I- ACC NR,AP6025598 cf-I excitation winding. The rotating contact ri).-ig is mounted on the rotor. To assure stable operation, the machine is provided with a fixed contact ring which serves as a current carrier and an auxiliary contact ring which covers both rings and is rotated by a separate drive. Orig. -art. has: I figure. [IV] SUB CODE: 10/ BUBM DATE: 15jun64/ATD PRESS:,g'"O Card ACC INRj AP603586o (A, jV) SOURCE CODE uB/o4 :.3/ 60' !000/020/GG7I/G37l iNVENTOR: Lokshin, D. V.; Neyman, Z. B.; Tsirkunenko, A. T. ORG: none T-LT--7: Horopolar generator. Class 21, No. 187131 SGLMCE: lzob:7eteniya, promyshlennyye obraztsy, tovarny-fe znaki, no. 2G, i966, 71 W?-,C TAGS: ellectric generator, homopolar generator ABSTRACT:u An uthor rerrificate has been issued for a radial-type multi-rotor homo- polar generator with rotors which revolve in opposite directions. Each rotor consists Card Fig. 1. Homopolar generator 1 - Rotor; 2 - upper disk of rotor-, 3 - lower disk of rotor; 4 perepherial liquid contact; 5 - central liquid cor,- tact; 6 -- magnetic ring; 7 rotor bearing. &a.313.291-.133-A ACC NR: AP603'58 of two conduc*-Ave disks separated by insulation which are connected in series by liquid contacts along the periphery. To increase reliability and mechanical stability the magnetic rings are placed between thq rotors (,see Fig. 1). These rings are fastened on orte aide to the magnet yoke; their other side is u;3ed for rotor-bearing mounting. Orig. art. has: 1 figure. SUB CODE: 101' SUBM DAM: 15Jun64/ AU,ilhO~-,: I ine e. r 335 UC L, re a-nl u --cd` 3 --' rr-a- I Z, -- a TI Hx* (-~trUkLura i moto~~ika analiza va-lovoy I)i-odu-"Usii.) Lne-_L,,~,omashinosti-o,~niE~", (Power i.laclui-,ic~ry Const ction), j - 1957, No. 4, 20 - L3, A B,',:', T i ~A UT ihe met-'-~oll of analysii3 of 11hu Uo,,,ul -produ-tion in lloavy enGin.:erin6 worll~, including- boiier and turbir,,-; ,vol-kL3, i.,; desc.L-:-'Ded and a fo-,-:.iula is d--,-ived wl-ich det--,rmines the inter- relation betv;een vai~ious factors -in-I'll-iencir.- ovepall production. Ap~',lic~ition of Ll.e d~rivel folmjlu is iilus-.rated by -n.cti~al elxa.-~A(.-~,. ~Iliu over-all -roduc'u-ion i.,~ defini--,d as th~; actuay production durin. ~i -iv--,:-~ --riod ,-,f -i::ie, irres- ,ectiv,~~ o-f ---,DzdL iS Ln cc---ul--t-ed 2 1,~! wma, Z.H., iazh. Kethodii for analyziDg total production. Test..miih,, 40 no.4:74-79 Ap 160. (MIRA 13:6) (Industrial mnagement) bEYMNP Z.11., dotsent ,. . - -:,.. - I I I ~ " ~ ~ Indices of production and labor prAuctivity. Energomash1nostroonie 11 no.50.2-35 MY 165. (14IRA IS: 6) t 14 (169~6-" IrF rj--, T,; C ACC-N'R's AF6030590 SOURCE CODF: UR/0413/66/000/016/0073/0074 INVENTOR: Halenok, F. T.; Voronov, 1. A.; Chernyak, S. N.; Levitskiy, V. iCh; Bekiielev yfv,_A.- D.~ T!elf rfna.,_~-_A. ; Neymjp, Z. Ye. Treshchevskays, 1 1. P. ~s~ta ORG: none TITLE: Lubricant for hiph-speed rolling of ;)Iijminum foil. Class 23, No. 184998 SOURCE: Izobreteniya, premyshlennyye obraztsy, rovarnyye viaki, no. 16, 1966, 73-74 TOPIC TAGS: aluminum foil, aluminuni foil rolling, high speed rolling, rolling lubricant i niFrigo- ROA A. IAI a.1 f1Y0006K?A?6oA) IwOR-legor ABSTRACT: This Author Certificate Introduces a petroleum prPAU" base -lubri-CaTnAt containing up to 1.0% oleic acid for high-speed rolling of-aluminum foil. To obtain high-quality surface finish of the foil without washing it before anneallng,.~C diesel fuel oil (GOS'r 4749-49) is U3ed as the lubricant base. [HS] /Y SUB CODE:1/13/ SUBM DATE: 2BApr65/ ATI) PRESS: 5076 UDC: 621.892.2