SCIENTIFIC ABSTRACT IPATOV, P.M. - IPATOV, YU.S.

4W.1 kf~umve(-F In call whllafi Of bY4.v- Unlike hir ,mdttu-,, coi; sosL".Imel witidau mloedirse"6 the gc.-"Crator mustition t-j reduccil, L-'eatiom"Irc ps-co for thiXTIg tfm Tuw i,crm;,sih1,j ,I noi only tho. danutc-i coil i% but al~., L:orraipvndm,4 ruj)-, in okl-cr !w,~ nh~!;-, (If I,c S~mlc bran0l flints fjr Findi'li; "1,-5c m,:  I IVANOV, IT.P.; YMMIYIV. A.5.; LYUM, R.A.; KAPLAN, M.Ya.; IPATOV. P.M. Powerful hydrogenerators. Blaktrosila no.14:5-11 '56. (MIRA 12:12) (Hydroelectric power istations)  IPLTOV, P.M.; IRMORITS11Y, G.X. -~-AVAM Ratings of hy4ragenerators. Blektrosila no.14:24-27. 156. (KM 12:12) Olectric generators)  C1030 V% S"S cit  AUTHOR: Ipatov, P.M. Candidate of Technical Sciences, and -=pajfi~-v~jaGt~, Candidate of Technical Science n10-%*-4/24 TITIE: A simplified thermal ventilation calculation for hydro- generators. (Uproshchenny~ teplovoy ventilyatsionnyy raschet gidro gene rat orov. PERIODICAL: "Vestnik ElektropromyLhlennostill (Journal of the Electrical Industry) 1957, Vol.28, No.6, pp. 6-10 (U.S.S.R.) ABSTRACT: The Scientific Research Institute of the Ministry of Electro-technical Indust4 (NII MEP) has done a great deal of work on the experimental determination of the tempera- ture, the flow and speed 6f air in various parts of the air ducts of existing hydro-generators. This material may be used to introduce certain corrections into the procedure of thermal calculations. The present article proposed a procedure of thermal calculations based on the method of the equivalent thermal circuit and also a simplified procedure for determining the air flow. The article first considers at some length thermal calculations on the stator of a hydro-altemator. The information which is required for the purposes of the Card 1/2 calculation is stated and the necessary equations are formu- lated. Heating of the rotor is considered much more briefly. The second part of the article is concerned with determin-  A simplified thermal ventilation calcula-tion forhyciro- generators. (Cont.) no 16-4/24 ation of the air flow. A formula is given for the head in the closed ventilating system. In order to compare the ventilating systems of different generators it is conven- iefit to select a single characteristic section of the air duct, for instance, the section of the air gap, and to relate all the other sections to it. This is done in the article. Some of the factors that appear in the equations are difficult to determine analytically and simplified procedures for finding them are givea. The procedure here described was used to make thermal calculations on a number of existing hydro-alternators. The theoretical and practical test results are compared in a table which shows that there is good agreement between the two. Card 2/2 There are 3 figures and 4 references, 3 of which are Slavic. ASSOCIATION: Elektrosila Works. (Zavod "Elektrosila") ,.-SUBMITTED-t December 24, 1956. AVAIIABLE: FaMs, inzh.; KHUTORMS11Y, G.M., inzh. Rated voltage of high capacity generators. Vest.elektroprom. 28 no.8:14-17 Ag 157. (14IRA 10: 10) 1.Zavod 021ektrosila.0 (Blectric generators)  AUTHOR: Candidate of SOV/105--58-7-2/32 Technical Sciences TITLE: Slot-Ripple Frequency Currents in the Damping Winding and the Additional Losses of an Alternator (Toki zubteovoy chastoty v dempfernoy obmotke i dobavochnyye poteri sinkhronnogo generatora) PERIODICAL; Blektrichestvo,.1956, Nr 7, PP. 7 - 11 (USSR) ABSTRACT: The currents parallel to the transverse axis of the poles and the additional losses caused by these currents are investigated here. First an alternator with slanting slots is described. The currents and the losses produced by them by the pulsation of the magnetic flux at t 2=t with a whole number of slots per pole and phase and with a damping winding with open slots are deter- mined. The formulae for the total current in the rods of the damping cagep for the maximum current in the steel per 1 cm, pole-length at x=O and for the losses in the copper-rods (armor rods) at 750C are determined, Then an alternator withnut slanting stator slots is investigated. In this case, a drop of potential Card 1/3 occurs between the ends AB of the armor rods., The total current  Slot-Ripple Frequency Currents in the Damping Winding SOV/105-58-7-2/32 and the Additional Losses of an Alternator in the armor rods is determined according to formula (17). After the determination of the currents in the rods, the losses may be determined according to formula (14). The problem of the generation of currento in the steel botwoon the armor rode of the adjacent poles in the case of a atator-slot-slanting, per slot pitch is of great importance. These currents may reach considerable values and lead to a destruction of the poles. In order to avoid sparkingg a sufficiently reliable contact between the rods and the steel of the poles must be guaranteed. There are 4 figures and 2 references, 1 of which is Soviet. ASSOCIATION: Zavod ItElcktrosila" im. Kirova (11 El ektro s ila" -Works imeni Kirov), SUBMITTED: January 21, 1958 Card 2/3  sov/llo-58-8-20/26 AUTHOR: (Candidate of Technical Science) TITLE: Currents in the Damper-winding Bars of a Synchronous Machine with Asynchronous Fields (Toki v sterzhnyakh dempfernoy obmotki sinkhronnoy mashiny pri asinkhronny,ch polyakh) PERIODICAL: Vestnik Elektroproniyshlennosti,1958,Nr 89pp 68-70 (USSR) ABSTRACT:-The damper-windings in salient-pole synchronous machines that may be used for asynchronous starting or for retar- dation are made short-circuited, but there are bars only in the pole-pieces. As there are no bars in the spaces between the poles, the current distribution in the damper- winding bars is not uniform during asynchronous operation. The bars near the edge of the pole-piece are most heavily loaded. In a published method of calculating the current. distribution in this case it is assumed that the outer bars take up all the uncompensated part of the sinusoidally distributed linear load of the stator, which is rotating relative to the rotor. Tho actual current distribution Card 1/3 is more favourable than this because of leakage of the damper-winding. This article describes a simplified  SOV/110-58.-8-20/26 Currents in the Damper-winding Bars of a Synchronous Machine with Asynchronous Fields approximate method of calculating the current distribution, in the bars during asynchronous running or asymmetric loading. The method supposes that the space between the poles of the machine also contains damper-bars7 so that the current distribution in the bars, including the imaginary bars, may be considered as sinusoidal in the ,longitudinal and cosinusoidal in the transverse axis. It further supposes that an e.m.f. is applied to the imaginary bars which sets up in them currents equal in .magnitude and opposite In phase to the initial currents; these additional currents would circulate through the real bars mounted on half of the pole-piece. The super- position of the two hypothetical current distributions corresponds to the real distribution. A mathematical analysis of the case is given on this basis and equations are derived for the additional current In each bar and Card 2/3 the normal current. Theoretical and experimental  SOV/110-58-8-20/26 Cureents in the Damper-winding Bars of a Synchronous Machine with Asynchronous Fields current distributions are compared in Fig 3 and agreement is seen to be good. Overloading of the outer bars is greater if the leakage is small and if the are occupied by damper-bars is small. A numerical worked example of the calculations is given. There are 3 figureB- and 1 German reference. SUBMITTED: July - 16, 1957 1. Electric motors--Circuits 2. Electric motors--Vesignt 3. Mathematics. '-Applications Card 3/3  SOV/110-58-il-.5/2~8 AUTHORS: Ipatox_,_LLX. (Cand.Tech.Sci.) and Dombrovskiy, V-.V. f-Engineer) TITLE: Current During Internal Short-circuits in Wave Windings of Synchronous Machines (Toki pri vnutrennikh korotkikh zamykaniyakh v volnovykh obmotkakh sinkhronnykh mashin). PERIODICAL: Vestnik Blektropromyshlonnostis Nr.11, 1958, pp.20-26, (USSR) ABSTRACT: When short-circuits occur in the wave windings of a synchronous machine operating in parallel with a large power system, the currents in the two parts of the winding are in opposite directions. Therefore, two bars of the same phase in a single slot may carry currents in opposite directions, as shown in Fig.ls and the resultant mechanical forces due to these currents may cause damage. The currents in question are calculated with the simplifying assumptions that the winding has no parallel branches, and that the machine is connected to an infinitely large system. For further simplifioation, Card 1/4 reactances due to higher harmonies in the field curve, and  Suv/llo-:58-i1-5/28_ Current During Internal Short-circuits in Wav# indings of Synchronous Machines. also the ohmic resistance-of the winding, are neglected, A symmetrical internal short-circuit, illustrated in Fig.2, is first considered because although it is hardly likely to occur it must be investigated in order to analyse . other forms of internal damage. A schematic diagram of the winding with internal short circuit is drawn in Fig.3. Calculations are then made of the inductances of the two parts of the winding; expressions for the self-inductance are given in equations 4 and 5 and for the mutual in- ductance in equation 6. Equations are then obtained for the current in the different parts of the winding. The case of asymmetrie ahort-oireuits is then considered, with.reference to Fig.5. In examining single- and two- phase-short-circuits, which are the most common forms, it is assumed that during the short-circuit a symmetrical system of reactances is formed in the windings. This is always true of single-phase short-circuits, but for two-phase short-circuits the same number of turns should Card 2/4 be shorted in both phases. If these assumptions are made,  Current During Internal Short-circuits in Wave Windings of Synchronous Machines. the theory of symetrical components can be used to calculate the currents and voltages. Equivalent circuits for various types.of symmetrical internal short-circuit are depicted in Fig.6. Expressions are then derived for the symmetrical components of current in the~different cases. -It is concluded that single-phase internal short- circuit currents are never greater than the currents , duringthree-phase short-circuits. Curves are plotted in Fig,7 fcr the initial values of current in the two parts of the winding for various positions of short- circuit in hydro-alternators with known reactance values* These are averaged curves calculated from the formula given, and.can be used to calculate the currents and stresses between winding bars during internal short- circuits. A table gives values of sha-t-oireuit currents calculated by the method given in this article and values calculated by the previous methods for a hydro-alternator Card 3/4 of known inductances. It may be seen from the curve  SOV/llo--58-11-5/28 Current During Internal Short-circuits in Wave Windings of Synchronous Maohines. and the table that the results can explain certain.types, of failures that occur ia these maohine3. There are 7 figures, 1 table and 7 references, of which 3 are Soviet and 4 English. SUBMITTED: Ootober 2,,1957.. 1. Generators--Operation. 2. Electric circuits--Failure 3. Electric currents--Perfdrmance Card 4/4  7 0 V el)ll. 110-1-1/19 AUTHOR: RozoVskiy, Yu,A.., Candidate of Technical Sciences, Salita, F.Z* Engineer)and Ipatov, P.M. Candidate of Technical Sciences. TITIZ: On the Constants of Hydro-alternators for Use with long- distance Transmission Lines with Synchronous Compensators (0 parametrakh gidrogeneratorov dlya dallnikh elektro- peredach a podpornymi sinkhronnymi kompensatorami) PERIODICAL: Vestnik Elektropromyshlennosti, 1958, Vol.29, No.1, pp. 1 4 (USSR). ABSTRACT: When hydro-electric stations feed relatively short transmission lines, stability is enhanced by reducing the reactance of the generators and increasing their inertia. However, when the lines are so long that stability cann t be achieved without special arrangements (such as the use of series capacitors or synchronous compensators), the above measures may be less effective. Since 1955, the PIIPT, together with the staff of the Elektrosila Works and the Electrical Machines Faculty of the Leningrad Polytechnical institute (Leningradskiy politekhnicheskiy institut), have been investigating the stability of long-distance transmission' lines and the rational selection of characteristics for Cardl/4 hydro-alternators and svnehronous condensers. This article  110-1-1/19 On the Constants of Hydro-alternators for use with Long-distance Transmission Lines with Synchronous Compensators gives a brief outline of the main results of work relating to the Stalingrad Hydro-electric Station-Moscow transmission line. The stability of this line was investigated using the electro-dynamic model, the circuit and main characteristics of which:are given in an article by Rokotyan in Elektricheskiye stantsii, 1956, no.8. First he influence on the steady-state stability of the installed output and location of the synchronous condensers was determined. If the improved values of hydro-alternator characteristies,were used-and if synchronous condensers with a total capacity.of 280 MVA were installed in the first sub- station, an adequate steady-state stability limit is achieved even without series capacitors. This arrangement was accord- ingly made the basis of further work. Stability limits with various values of generator reactance are tabulated and-it will be'seen that the generator reactance has relatively little influence. Increase in the reactance of one section of the tran mission system can largely be compensated by appropriate adjustment of the regulators. To increase the permissible time for disconnecting a fault, Card2/4  110-1-1/19 On the Constants of Hydro-alternators for Use with Lonr-distarice Transmission Lines with Synchronous Compensators Card3/4 the inertia constant of the StalinGrad generators -,.!as selected as 16 sec. As it was not proposed to brake the generators, this solution was correct. However, electrical and mechanical braking is now proposed to improve the stability of the power station and extra inertia becomes necessary. Work done in the Institute by Candidate of Technical Sciences Ye.A. I-Jar- chenko showed that with suitable electrical braking of the generators, dynamic stability can be ensured with an inertia constant of the order of 10 sec. The cost and size of generators having extra reactance and inertia was calculated. The effect of the direct-axis tran- sient reactance on the cost is most marked. An ap7:roxir,,ate formula is given for the relationship between this value and the weight and cost of the generator.* The relationship between the machine constant and the transient reactance for a genera- tor of 123.5 MVAI 13.8 kV and 68.2 r.p.m. is given in FiG.2. The relationship between the linear load and the transient reactance for a pole-pitch of 51 cin is -iven in Fig-3. For a hydro-alternator of the type in question, the normal inertia for the given reactance is of the order of 8 or 9 see; for an  110-1-1/19 On the Constants of Hydro-alternators for Use with Long-distance Transmission Lines with Synchronous'Compensators inertia constant of 15 - 16 see., the rotor has to be made heavier. The inertia may be reduced by using high-tensile steel for the rotor or by other measures. If the Stalingrad generators are designed for normal inertia, they will weigh about lWo' less than the current design. Manufacture and erection will be simpler and cheaper. Hydro-alternators with specially low reactance and high inertia are accordingly not advised for the Stalingrad-liloscow type of installation, because adequate steady-sta-te and trans- ient stability can be achieved by appropriate excitation control of the synchronous condensers, combined with braking of the alternators. The power-factor of the alternators can be raised to 0.95. There are 3 figures and 5 Russian references. ASSOCIATIOn: ziIIPT - lkcgNo - SUBMITTED: January 18, 1957 AVAILABLE: Library of Congress Card 4/4  SOV/110-59-2-6/21 AUTHOR: Ipatov, pm. Candidate of Technical Sciences, TITLE: Additional Stator Iron Losses due to Pulsations of a Magnetic Flux Caused by the Damper Winding (Dobavochnyye poteri v aktivnoy stali statora ot pul'satsiy magnitnogo potoka, vyzvannykh dempfernoy obmotkoy) PERIODICAL: Vestnik Blektropromyshlennosti,1959,Nr 21pp 19-21(USSR) ABSTRACT: In synchronous machines the presence of a damper winding in the rotor can cause appreciable pulsations of the magnetic flux. -It is shown that these pulsations can cause additional stray losses in the main stator steel. The usual formula for determining stator steel losses ,makes no allowance for this factor. Formula (8) is then derived for the additional stray losses that result from this cause. In an appendix the additional stray losses Card 2 are calculated for a 500 kVA motor and are found to be 1/ 1 W. It is concluded that the stray losses can be  SOV/110-59-2-6/21 Additional Stator Iron Losses due to Pulsations of a Magnetic Flux Caused by the Damper Winding important in medium and small motors but that at high speeds machines with a large number of slots per Volo and phase show small additional stray losses. Gard 212 There are.2 Soviet references. SUBMITTED: February 1958  IFATOV, P.M., kand.tekhn.nauk ------------ ;_~ Assymetry of duplex single reentrant-lap armature vindings of d.c. machines. Vest.olektroprom. 31 no-3:34-57 Hr 16o. (MIRA 13:6) (Ilectric machinery-Direct current)  M IFATOV, P4M., kand.tekhn.nauk Equalizing connections of a two-way loop winding of the armature of a d.c. machine. Vest-. elektropm. 32 no.7:25-28 Jl 161. (MTRA 14: 10) (Electric machinery-Diredt current)  IPATOV, Pavel Mikhaylovichg kand.tekhn.nauk Resistance of the circuit of a double and triple-throw armature winding for equalizing.varrents. Izvovysouchebezav.; elektromekb. 5 no.1:28-36 162. (MM 15:2) a" h",/ ~ L I. Iepolrwayusnchiy obyatannosti dotsenta kafedry elektricheskikh mashin Severo-Zapadnogo zaochnogo politekhnicheskogo Instituta. (Electric machinez7--Windings)  IPATOV, P.M1,, kand.tekhn.nauk; KAZOVSKIY, Ye,Ya,,, doktor tekhn,nauk; KULIKOV, N.V.., inzh,; LYUTER, R.A.,, doktor tekhn.nauk Research conducted at the Leningrad branch of the All-Union Scientific Research Institute of ElLectromechanics and -the S.M. Kircnr "Elektrosila" factory. Vest.elektrprom. 33 no-4:3--8 Ap 162 OUBA 1584) (Electric machinery)  m   DOMBROVSKIY, V.V., ing4.;_jPATOV,, P.M., kand.tekhn.nauk; KAPIAN, M.Ya., imsh.;  DOMBROVSKIJ, V.V. (Dobrovsldy, V.V.],-_IPATO_V,. P.M.; KAPLAN., M.J.; PINSKIJ, G.B. [Pinskiy, G.B.] , Large hydroaltenators in the Soviet Union. El tech obsor 52 no.2:58-63 F 163, 1. Elektrosila, Leningrad.  IPATOV, Pavel Michailovic (Ipatov, Pavel Mikhailovich) inz. Reoearch aotivitieo of the Leningrad brafich of the Ali-Uniba"Scientific Research I~stitute of Bleatromechanics..and of tbee nterpribe Klektrosila imeni S.M. Xtrova an the largp rotating machines. El tech obzor 52 no.3sl20-122 Mr 163. 1. Blektrosila Leningrad.  _LFATOV)J~~el 141k DANILEVICH. Ya.B., otv. red. [Multiplex armature windings of d.c. electric macbines] Mnogokhodovye obmotki iakorei elektricheskikh mashin postoiannogo toka. Moskva., Nauka., 1965. 60 p. (MIRA 18:4)  DOMBROVSKIY, Vyacheslav Vyacheslavovich; YEM4EYEEV, Aleksandr Sergeyevich; IVANGV, Nikolay Pavlovich- IPATQ( Pavel Mi Wlovichi.WLAN, Mois e YakovlevTcT-J-TiwS-xi ey Grigorly7-Borlsovicu; ZMVE, G.K., naucbn. red.; ZARITSKIY, Ya.V.,, red. [Design of hydrogenerators] Proektirovanie gidrogenera- torov. (By] V.V.Dombrovskii i dr. Moskva~ Energiia. Pt.l. 1965. 257 (MIRA 18:3)  IPATOVY P.M.., kand. tekhn. nauk Performance of a d.c. machine with a mi-1tiplex armature windlng under load. Elektrotekhnika 35 no.10:54-57 0 164. (KMA 17: 11)  A5C__N_R._WrWO0052 ATMOR-6 Ipatov'i P. ORGO Institute,of-Bleatrome6haMw Aft �PR: (Xnstitut slaktro 160 77 effect-prod on, uce 104oles' thk. ext *&ve shaj~e of-`* jar..'- ago" Slek"t"Acheskiye 6hi njr n y-a6',-voprosv:tt 16 otrioal - m1k wiifl taoohota (B Mohine roe in. tb6ary'. and do sign),,Leningrad, Ikd-vo Waulcq 1965 7- me 74 kPT&-masi "isleArio' power. enginae ring, '9160tria. g6nerator I alootro".: rp ,t4o WO f oroe t -us -po An.alter IMPACT; The pos'sible e::Qf solid lag or solid pole shoes If :hit4ro is discussed from:the-standpoint of the slot harmoniosef so a reduction of the '46rUili, i6aseii'* - -the usual methods available for th Be .harmonics could not be app ied efXioientlyto the design ofmachin6se 1por ~instanoe'jl use of.a fradtio-nal number of stator slots rmuder-intri- :.bate the,- deslign- of the'vatek-~oooling system. In this connection.At Avag kew"Cioned that, thealternator'designed for'the Krasnoyarsk Hydro4ower-l 'Plaxit::*ill havw~three slots'per-pole per phase* In case of heavy satur- :01OUS ~'and, lar, coil pitches~ theskev4d slots 'Call f or 'a high prool-- go J6~  TN~ ACC. NRt AT60100052 sion in 'dd signing and f itting',the dim-per, windings. It seemst therefore, that th6-use-of solid:poles.or solid,p.ole shoes without damper wiAdiliga 6*an become a.radioal'methbd-fbr-,ouppressing the slot harmontos in-wat6r, - wheel-type alternators.- As.tom'the:ad.ditional losses in solid phoest they~are in many cases,* not greater than.in the laminated poles* These losses can be reduced.by 50 to 10% in solid shoes with, a corrugated eur- .fAoe. -The expensive machinery and finishing of solid pole surfaces can partly be avo 'ided by-~using,olea.n surfaced castings. The-a:uthor1htat.es that t,he trend-.develo~ed,by.the':"Uralelektroapparat" plant toward,the use of siolid~poles,appears,to-be..a right decision. In order to investi- gate the effect of solid poles~upbn the amf.wave shape, the, author - pro - the sented a brief Analysis-of thei,.durrents induced in solid poles'by pulsating magnetic f lux. - The damper. f aotor:was also determined.:,, The~ r. machine formulas for induced'.wave lengths and amplitudes were given,fo a D- having integer number of statbr-slots per pole per phaise. By -uieflig standard-veatc)r.and.'equivalent cirouit'diagrams:the'damper faot'or-:tor the tran&versaL axis - was. f orinulateA4 -Vhe~ f lux penetrat ion depth.-was ilso- 'f ormu a ort a- expressed bY a~4,' li""- F.1 - ".better illustration, an example - of -cal6. --lation for a DG-85-10-4 synaht6nous'.machine.of 745 kva was present6d.-. The calc ulaLt ions, *9 re' made, f or~,:the` laminated poles with -damper -,windings as Wellas fok'the 401id~pole -~.without damper.windings but with. shorta- 01 1 6rd  ,ACC NRi AT6000052 Uor ait at r" Ciro! '.Vhe:'d4taJ l6d"daita oA -.t PC 05.m~944, -alt o:, t giVOM The. emf halimonios-.-dat .!k f or the soll4.,, ~'oje ~i as gn -,;were abolOtOC -test res4lts-.6how ibisuds* -.;:~4i- ad V., -0t -it' ated armon 08 "o-bul 'b,-d ..rbdude J. dot, LA. hamu.. T "s* VtoveWto 0 to, 440 l*-j- to 0 IS 9--ligure 0 ~f' SM DAM, SgAs .09 a ~7~;~~. 5, ........... p Card  E 1 --- - - - - - - - -- - --- ---- - - - - -- 1PATOV, PoM., ka-nd.tek1ui.nP-uk; DUK".AiTDW, A.A., lnzh. Action of harmonic magnetomottive, forces of a stator winding with a fractional number of pole and phase grooves, Elektrotekhnika 36 . no.1t8-11 Ja 165. (MIRA 18:3)  AUTHOR: Ipatov, P P. 130 - 6 - 25/2T TITLE: Coil Remover at a Wire Mill in East Germany. (S"yemahchik buntov i~a provolochnom stane qDR.). P=10b1QALv 4 Met alLigg- (Metallurgist), 1957? No'.61 p".47 (USSR). ABSTRACT: Wii-6-66il'hAndling by a special machine in East Germany is described and the machine is illustrated. Three such machine6 are said to be used for a mill with a productivity of 100 000 tons per anrium. There are 2 figures. ASSOCIATION: Department of the Chief Mechanicq Ministry of Ferrous Metallurgy of the USSR~, (Otdel Glavnogo Me khanika MCb M SSSR) card 1/1  NIICCLA SKIT, Te.Ta., insh.: WDIMINAR, L.B., iuzh.; DAVYDOV, A.M., inzh,,; SIMACMff, L.T.,,,r*d.;J$ATZNCHUK, A.N,, Iztzh.; red.;, I~ PGP.,jj2sh,,,red.;.VMOV; V.A., insh., red.; P=S=i K.I.p red.; P11 071 N.I,, red.; SHUBOV, L.Bet red, -Unstructions for Industrial safety measures in the assembly of technological equipment and piping] Instruktivnya ukassniis po takhaike besopasnosti pri montashe tekhnologiebaskogo oborm- dovanils I traboprovodov. ' Izd.2.. parer. i dop. Moskva. TSentr. biuro takhnoinformstall, 1959. 160 p. (MIRA 13:6) 1. 11ussia (1917- U.S.F.S.R.) Ministerstyo stroltaltatyao Glav- metallurgeontashe g, Mavnyy Inzhiner Glaymetallurgmontazha Kinisterstva stroitallstva RSM (for Simachav). (Industrial safety)  RAYKO. V.V.. nauchnyy sotrudnik; NIIBBRG, I.M., nauchnyy sotradnik; KKODAX, A.N., nauchnyy sotrudnik; NNVEDUSHCHIT. A.I., nauchnyy sotrudnik; VCLKOV, Is.R., naucbnyy sotrudnik; PRYCHEV, G.F.. otv. red.;. IPATOV. P.P. red.; SMYATSKIY, D.M.. red.; BURKSCR, L.D., red.; BALASHVICH, YuJu.. red.; SMOHNUKO, V.N., red.; KRYWVSKIT. A.P., red.; SINYAVMUTA, Te.K.. red.izd-va; ANDREYU. S.P., takhn.red. [Regulations for operating the mechanical equipment of rolling mills) Fravila tekhnicheskoi ekeplustatail makhanichookogo oboradovaniia prokatnykh tsekhov. KharIkov. Gos.n9uchno-tekhn.Izd-vo lit-ry po chernoi i tevetnoi metallurgii, 1959. 247 P. (KIRA 1Z-.9) 1. Koscow. Voesoyuznyy nauchno-issledovateliskiy insitut orgeni- zataii proizvodetva itruda chernoy metallurgii. 2. Vaesoyuznyy nauchno-ifialedovatellskiy institut organizateii proizvodstva L truds chernoy metallurgii(VNINOWNff)(for Rsyko, Nikberg, Khodak, Neve- dushchiy, Volkov). 3. Mel glavnogo mekhaniks byvshego Kinisterstva chernoy metallurgii SSSR (for Ipatov, Shulystakiy). 4. Zavod imeni Dzerzhinakogo (for Barkeer, Balasevich). 5. Zevod imeni Kirov& (for Svetchanko). 6. Zavod imeni Yoroshilova (for Krylovskiy). (Rolling mills--Equipment and supplies)  insh., retsenzent; GINSBURG-SMK, Lev Davidovich; Agov, t-0 POLOwwaff, Va.. 11RA. i6aq9* TsWIN, K.%., jush., red. iid-va; WROGANOT, 16.P,, lnzh,, red.lsd-ye; NOINL'o B.I., takhn.red. [Installation of bailer systems; brief reference book) Nontash kotloagragetov; kratkoe spravochaos posoble. Moskva, Goo.nauchuo- takhn.isd-vo mashincetrgit,lit-ry, 1960, 231 p, (MIRA 1):11) (Boilors)  MIEWEV, Illya, Illichl- IPRTQV,_ P.P.,inzb.., nauchnyy red.; SHIROKOVA, G.M.y red. Izd-va; OSENKOy LX-p -te-kbn, red, (Assembly of centralized systems of lubrication and hydraulic and pneumatic drives) Montazh teentralizovannykh sistem smazki, gidravliki - i pnevmatiki. Moskvap Gos, izd-vo lit-.-r po stroit., arkhit.j i stroit. (MRA 14, materialam,q 1961. 240 pe (Lubrication and lubricants) (Oil-bydraulie machiner7) (Pneumatic machinery)  LEVIN, M.L.; IPATOV P P. nauclwyy red.; ZVORYKINA, L.N., red. izd- va; OSENKO., L.M.., tekbn red. [Assembly of industrial equipment in enterprises of the metal- lurgical industry; ore dressing, sintering~ and blast-furnace plants) Montash tekbnologichookogo oborudovaniia predpriiatii mete.3-lurgicheskoi pronyehlennosti; obogatitellnye i aglome- ratsionzWe-fabriki., domenrWe tsekbi. Moskva,, Gosatroilzdat, 1962. 335 P. (MIRA 15:6) (Iron and steel plants-Equipment and supplies)  MIMI P. P. Ipatov, P. P. "Analysis of the stud activity of the Gilldeyts stallion and furtber selection work with his descendants," Trudy Stavrop. E.-kh. in-ta, ~Issue 3, IMP, P. 267-86 So: U-3566 15 March,, (Letopis 'Zhurnil Inykh Statey, No. 13, 1949)  IPA70V, P. F.) Docent PA 31/49T64 tud @a 06 -.7 7 - Iw of, Stud entis At'veterinary ..,Iniproving ~,t e:Standajr& -P. P. I lone, Docent -a gh4r Educiti6nifjthsi tit Adai f Zooret "Tuz a 0 of HI-gher. M46~ 3-4-1 ]?P,-.:- ..-,!Vete a No, (vaterl Ignorande of Tetvuz educational u. In a graduates.~ Anstit' t n-) isk ng, tiai 61. ng I scheme, to give Suggests al 4eterin tudentd more~practlcal experience.  TIPATOV~ P. P. 20930 Ipatov, P. P. Voprosy podlotovki kadrov i nauchno-issledova tell skaya rabota po molochnomu delu v sooveterinarnykh . Sbornik dd,,.Iadov Pervoy Vsesoyuz. Konf-tsii po moloch. delu. M., 1949, s. 6-15 c - W. LETOPIS ZHURNAL STATEY -Vol. 28, Moskva, 1949 I m  IPATOVi P. P. IPATOV, P. P.: "An objective method of evaluating the working ability of race horses in racetrack tests." Min Higher Education USSR. Moscow Veterinary Academy. Moscow, 1956. (Dissertation for the, De[-ree of Doctor in Agricultural Sciences) Source: KnizhnMa letopis, No# 28 1956 Moscow  USSR/Farm Anirzls. Horses . Q Abs Jour: Ruf Z-,"ur-DJ.01., 1-10 P-0, 1958, 92567. .'author Inst ; 010 All-undon Arricultural Correspondence Course insti- j. Titlo : Gas Yetrbolisn in TrcjUers DurinL; Tests. OriG Pub: Tr. Vscs. s.-I'di. in-ta zaochn. obrazovardyac, 1957, vYP- 1, 103-134. .'.ostr,-.ct: It was established jurtaG the investig-timi of pul- monary Gaseous netabolism in trottinC horses that the pulse rate OR) and respirntion rate (R) cxc lower in horses with a specd-of 2 rdn. 25 see. cuid slower. I=diately after a race at a disto-rice of 1600 ~-.iotcrs the PrZ reached 91 and 114 res3pectively while R attained Card 1/3  USSE/Faz-.1 1~qimls. Horses. Abs Jour: Ref Zdiur-Diol., No 20, 1958, 92567. 55 and 77. The inhalation intahe was 6.6 and 6.o liters, after 1 hour it was 4.6 and 3.2 liters, after 2 hours 4.5 and 3.8 liters respectively. The 0 re- quirenant for the fastest trotters was 0.2LI lNers Creator at rest than for the merely fast trotters, and iy-n-,.ediately after the race, one hour and two hours a:Mer racinG, the Gr(~'atcst 02 need was found in horses jiavin~; th-C, least speed. 7110 02 utilization factor was hi0ior in the fast horses both a'. rest ar..d -Xter runninG than in the slower ones, alCicut;h t"10 C02 ac- =m1nation factor ,ms less in the forner 'Uhm in the latter. Me oxyL;cn restoration process lasts for two hours after the rcce in the slower trotters. The process is completed sooner in faster trotters. Oic oxy(,cn. supply tu tissues occurs at the expense of Card 2/3 46  USSR/F--= !Iorscs. ,.bs Jour: AS 'hur-Diol., Ito 20, 19581 92567- systolic rate, wbile in faster horses throu0i systolic force and tho qimntity of blood flow per v-inute. -- i-D. Musin.  Abs Jour; W;f Zhur-Diol., 1,11o 210, 19~3) 92566. Author Ipatov,,, P.P. 5~&"'~!~rictiiturai corres, M poneence Course List Thd v Institute. Title The Dlood Pressure in Trotters DLuinC.; Tests. Oria Pub: Tr. Vses. s.-Lh. in-t-, zaachn. dbrazovaniya, 1957, vYP- 1, 135-149. ;,bstract: The blood pressure (DP) was investiGuted in 113 trot- ters. The BP in Oral trotters who were factor thmi 2 rAn. 20 see. was 109 mi before runninu-, 135 =n imc- diately a:Ner runninG, and 104 two hours aftcr ranning. The 33P in Rujsian trotters faster than 2 nin. 2D sec. wVs corresporaiaCly .07, 132.5 and 100-5. Wen the Card 1/2  USSE/Farr-I Viirmls . Horses LIs Jour: &~f Zhur-Diol., No 20, 1950, 92566, cardiovascular systen was at pealc fLuictimiinrg, capacity, the averaGe DP scarcely varied before and after racin(.,. The -rost characteristic BP euve my be rer,mrded as the one where the cunre coms to rest L-ithe shortest possible time ,md. its drop before coa- inC; 'to root at tho bottou does not execed 10~. Dlood pressure nolTis are lylven for trotters underCoin[~ train- inG, at the track. Card 2/2 1 45  USSR/Farm Animls - Horses. q-2 Abs JOur : Ref Zhur - Biol.,, No 7., 19581 30907 Author : Ipatov P.P. inst Title : Changes of the Blood Composition in Trotter Horses Dwing Tests. (ImmneniYa v sostave krovi u rysistykh loshadey pri ispytaniyalch). Orig Pub : Tr* Wsk. vet. akad., 1957, 19, No 1, 112-1314 Abstract During the summer season of the running tests on 10 Orel Trotters and 10 Russian Trotters, the following blood indexes were studied: Hb, erythrocyte and leukocyte count, reserve alkalinity, and leukocytal forrmila. It was demonstrated that identical muscular exertion test run of 1.,6W m.) appears to be much more straining causing sharp variations in the blood indexes) for the ~ Orel Trotter than for the Russian Trotter. Card 1/2 M  USsR/Fam Animis - Horses. Q-2 Abs Jour Ref Zhur - Biolli, No 7, 1958, 30907 The difference in the blood picture betveen the lively and juist Trotters within the breed groups was also studied. The-quiet Trotterv are distinguished by a lower index of reserve alkalinity, by a ftpid spending of it, and by a slower process of its restorationi Card 2/2  KRYLOV, V.A.; ZYATDj,-LE., retsenzent; FINKEL, A.F.p retsenzent; GURVITS, A.I., inzh., nauchn. red. [Assembling the equi*ent of steel.smelting plarts] Mon- tazh oborudov.aniia,staleplavil,'-nykh tsekhov. Moskva) Stroiizdat, 1964. 289 p. (MIRA 17:6)  ;YAT-QY,_?_tjL.L~4topovich, inzh.; FINKEL', Abram Froymovich,, insh.; ZALENSKIYg inzh., nauchn. red.; PMMALYUK, M.V.s red.; SHEVCHENKO, T.N.,p tekhn. red. (Rigging operationa'and hoisting and conveying machinery used in assembling) Takelazhrye raboty i montazhrye pod"- emno-transportnys mekhani7xV. Moskvap Stroiizdat., 1964. 246 p. (1;'1.,--1 17:2)  -u'- V I--I I~ jr _----~t . ; - , I , IPATOV. inzhener. Portable electric appratus for vulcanizing conveyer belts. Zlek.t%ts. 28 no.7:84-85 JI '57. (MLRA 10:9) (Conveying machinery)  mmy a.s [Coordinate boring machines In precision Instrw-wat msklu4 zoordinatno-rastochnyo mtanki v tochnom priborostroonit. Moskva, Oborongis. 1954. 196 p. (KLHA 7:11D)  5-5-1- YEF04IIDVp TO-F., red.; TIKHONOV, V.I., red.; GLADKIKH, tekhn, red. 14'ig boring machines UBeO in the precision manufacture of instruments] XoordinAtno-rastochnyo stanki v tochnom pr:L- borostrowil. Pod red. Z.F.Ermilova. Moskva, Ob~rongiz, 1954. 195 P. (MIRk 16:9) (Drilling and boring machinery) (Instrument manufacture)  _LPA Yu.1 LANSKOYp Val IYANOV, Aa LqY,. HOMO Gq RUSANOV, Sol STEPANOV# _tp ; , Sports news* Fj73.& rode 15 no#7v27. :1 164, (MIRA 18i1)  SOV/120-58-2-22/37 .VJTHORS;Ipatov, V. A-,_-Yakhomov, L. P. TITLE: A Photoelectric Instrument for the Determination of the Concentration of Mercury V&pour in Air (Fotoelektricheskiy pribor dlya opredeleniya kontsentratsii parov rtuti v vozduk-he) PERIODICAL: Pribory i Telldinika Eksperimenta, 1958, Nr 2-, pp 91-94 (USSR) ABSTRACT: A description is given of a portable instrument which can be used to determine quickly and conveniently the con- centration of mercury vapour in air. The instrument is based on the absorption by a vapour of ultraviolet radia- tion having a wavelength of 2537 1-. The intensity of the radiation is measured by a photoinultiplier. The out- put of the photomultiplier is fed to an electric circuit which uses only diodes and' triode t:bafisistora. The circuit, used is shown in detail in FiG.3. The scale of the instrument *s linear and full scale deflection corresponds to 120 jig/J. A complete analysis of mercury vapour con- centration in a given room can be carried out in 30-40 see. Card 1/2  SOV/120-58-2-22/3'(7 A Photoelectric Instrument for the Deter--mination of the Concentrati-on of Alercury Vapour in Air. There are 4 figures, no tables and 3 references, of which 2 are English and 1 is Soviet. ASSOCIATION: Fizilko-tekhnicheskiy institut Ali SSSR (Physico- Technical Institute of the Academy of Sciences of the USSR) SUBMITTED: May 13, 1957. Card 2/2 1. Air-Analysis 2. Mercury vapor--Detemination 3. Photoelectric equipment-Applications  ic) ZW Ip ACC NR-AP6018720 SOURCE CODE: UR/0057/66/036/006/0981/0987 'AUTHOR: Ipatov, V.A.; Kalmykov, $.G. 107G: Physicotechnic.al Institute im, A,F,Ioffe, AN'SSSR,. Leningrad (Fiziko- tekhnicheskiy institut AN SSSR) TITLE: Application of uhf diagnostic techniques to the Investigation of the SOURCE: Zhurnal tekhnicheskoy fitiki, v. 36, no. 6,1966, 981-987 TOPIC TAGS: plasma diagnostics, uhf, microwave, plasma shock wave, shock wave structure, electron density, argon . -MOOk UJ411P- )"IetA)r, ~~dC*t W4 LIE VEJ Oel;rr ABSTRACT: The authors have employed a microwave interferometer to measure the electron density distribution in a shock front. The shock waves were produced in a 4 cm diameter quartz tube containing argon at approximately 0.01 mm Hg by discharging a 50 kV 12 microfarad capacitor through a two-turn conical winding at one end of the tube. Electrode erosion was avoided only by employing high grade steel for the - winding and carefully preparing Its surface. The apparatus was baked out_and was puri- fied by repeated discharges, after each of which it was pumped down to 19 6 ma Hg. An up to 14 kOe transverse magnetic field, uniform within 3% over the 10 cm long working region, was provided by discharging a 5 W 1.05 microfarad capacitor through two rectangular.windings. The velocity of the shock front was derived from the cutoff 1/3 UDC: 533.9.07  L 4=-66 ACC NR: AP6018720 times of two parallel microwave beans 4 ca apart that crossed the shock tube at right angles to its axis. The 8 mm wavelength microwave Interferometer was located midway between the two microwave beams employed to measure the shock wave velocity. The tranal mitting and receiving antennas were Identical; each consisted of a horn and a 7 cm diameter hyperbolic double convex paraffin Ions that focused the beam onto the axis of the shock tube. The local lengths of the two surfaces of each lens were 4 and 12.5 cm, respectively. The electron density was calculated from the phase shift of the trans- mitted beam. The resolving power of the interferometor in the axial direction was determined by moving a 3 cm diameter metal cylinder through the shock tube and observiar the change with the position of the cylinder of the intensity of the transmitted beam; the resolution was found to be approximately 1 cu. In deriving the electron density from the interferometer data It was assumed that the electron density was constant in a coordinate system moving with the shock front and could be represented by 7a trape- zoidal distribution function. The velocity of the shock front fWas about 10 cm/sec at 0.045 mm Hg; the velocity increased slightly with incrnasing voltage on the capacitor and decreased somewhat 8with increasing strength of the transverse magnetic field. The velocity was nearly 10 cm/sec at 0.064 mm. Hg, but the reproducibility was poor. The width of the shoct front; defInQd as the distance in which the maximum electron density increased from 10 2 to 1.7 x IO.LZJ cm-3, increased rapidly with increasing velocity of the shock wave, and under some conditions It was an great as 20 ca. The observed velocity dependence of the shock front width Is in conflict with the findings of H.Petschok and S,Byron (Anne Phys., 1, 270, 1957).and H.Blackman and B,Niblett (The 2/3  ACC NRt AP6018720 Plasma in a Magnetic Field, a Symposium on Magnotohydrodynamice, Stanford University Press, 1958), but it is pointed out that the Mach numbers, which in the present work ranged from 140 to 800, were different in the other experiments. The width of the shock front decreased somewhat with increasing transverse magnetic field sttength, but the width was definitely not limited by the electron Larmor radius* It to concluded that further experiments are desirable to elimingto the necessity for the arbitrary. assumption of a trapezoidal electron density distribution, and that the microwave intorlerometer is a useful tool for measuring rapidly changing electron densities with a spatial resolution In the neighborhood of I coo Or1g, art. has: 2 formulas and 7 figures. SUB CODE: 20 MM VATS: 02JuIGS ORIG. RjW.O 009 on RM 003  -wu t.. .it,-I ul&.- 2 vo A/ d  ----- ----- L,63q6-66_____ AP5020927 SOURCE CODE: UR/0142/65/008/003/0355/0357 AUTHOR:, ZyubenRo, V.. D.; lp ~V ~- ORG: none TITLE: Ashock excitation oscillator circuit -SOURCE: IVUZ. Radiotekhnika, V. 8, no. 3,1965,~355-357 r ..TOPIC TAGS: semiconductor diode, periodic pulse, shock wave, electron tube form ABSTRACT: Two alternative-semiconductor diode circuits are presented that pulses of:a sinusoidal,wave by.shock,excitat,lon.: One has a positive, the other a negative initial half period. The diode generator is more advantageous at higher frequencies than the transistor.and electron,tube pulse forming circuits in that it wer impedance-than 'has a much higher back breakdown voltage than the form er and Ilo -pulse,forVing circuit,produced pulses of a S' Ithe latter. An experimental diode !soidal voltage with a.frequency of-10 Mc.., Fig. -1 shows the schematic diagrams of ithe two alternatives, and fig..2 shows the respective control and output voltages _1for both alternatives. Orig.. arti hasi.,.,2 figures /2  C, Ci C2 OUt-V2 -o4 a put.$.I U a p ix 'qut Rf,  MIROV, Rasim ZakareyevichL TFATQVj_,:Kj... j7ed. [Electrocardiotopograpt-,y] Elektrokardio',opografiia. lJoskvat Medit8ina., 1965. 142 P. (MLRA 18:7)  IPA2bV V.P.- LOSEVO O.L. Malaria in Iraq; ourve7 of the literature published during 1950-1959, Ned.¶nei pamebol, 30 no*1399-102 Ja 161, (HIRi 1413) is, Iz otdola spidemiologii Instituta meditsinokoy pamito- logii i tropichaskoy meditsizq ImWL Ye*I* Nartsinovokogo Hinisterotva zdravwkhranezdya SSSR (dir.' instituta, - prof. P.G. Sergiyewp zave otdalm - dote. M.0.4~. &O'hina). (IRA%4UIARIA)  IPATOV, V.P.; LOSEV) 0,L.; SAKOVICH, O.Yu. Study of the insecticide sensitivity of Anopheles maculipennis Sacharov-1 Favre and Anopheles h7rcaniis pseudopictus Grassi mosquitoes in the Masally and Astrak-han-Bazar Districts of the Azerbaijan S.S.R. in 1960. Med.pwaz.i paraz.bol. no.li83-87 162, (MMA 15:5) la Iz otdela epidemiologii (io o. zavo N.N. Dukhani3aa) i otdela entomologii (zav. - rwnf. V.N. Beldomishev) Instituta maditabl&oy azitologii i tropiO..vskoy meditainy imoni Ye.I. Martsinovskogo drira .. profa P GQ Seigiyev) Ministerstva zdravookhraneniya SSSR. r (AZERBAIJAN---MOSQnTM) (IIISECTICIDFZ)  DOROFEMA, Zoya Zakharovna: IPATOV,..V.P... red.; PARAKHINA, N.L., tekhn. red. (Principles of vectorcardiograpbV) Printsipy vektorkardio- grafii. Moskva, Medgiz,, 1963, 211 p* (IOR& 17:2)  IPATOV, V.P.; SAKOVICH, O.Ya. Study of the insecticide sensitivity of -lit ial mosquitos in the Massaly and Astrakhan-Bazar districts of the Azerbaijan S.S.R. in 1961; results of the second year of observation. Had. paraz. i partz. bol. 32 no.3t271-274 My-Je'63 (MIRA 17:3) 1. Iz otdelov epidemiologii ( zav. - prof. N.V. Dukhanina) i entomologii (zav. - prof. V.N. Beklemisher [deceased) Instituta meditsinskoy parazitologii i tropicheskoy !aeditsiny imeni Ye.I. Martsinovskogo Ministerstva zdravookhraneni7a SSSR ( dir. -prof. P.G. Seiriiyev)-   TAJOYLIV, Ye.N., prof., red.; -SHUBLAD'~!:, A.K... prof., red.; IPATOV, V.P.y red. . [Epidemic hepatitis; Botkin's disease] Epidemiche--kii ge- patit; boleznl Botkina. Moskva., Meditsina, 1964. 198 p. (MMk 17:8) 1. Deystv-'.tellnyy chlon 11.24 Sr;SR (for Tareyev).  GUE"',,ny z-' N, A r am ill: - 1 go r t y cri i c-) -1 11 .- .I. ~ ~ , , f i") . W-ft ------ Q.X-" [ Intestinal diseasen) kishechplka. Moskva, Meditsima, 1961, 474 P. (MIRA 171:11)  YEGOROV, Mikhail Nikoiayevich,, prof.; L-EVITSKIY, Leonid Markovich, j, IPATOV, V.P., red. doktor med. nauk; [Obesity] Ozhirenie. -Izd.2., perer. i dop. Moskva, Me- ditsina, 1964. 305 P. (MIRA 18: 1)  j IPATOV. V.; ZELINSKIY, K. "In the heart of living nature." IU.Doigushin. Reviewed by V. .Ipatov. K.Zalinskit. Bot.zhur-39 no.1:119-121 JA-F 154. MRA 7:3) (Origin of species) (Dolgushin, IUrii)  SHISHKIIF.B.K., professor; ROKANKOVAA.G.. kandidat blologichesUlrb am starshiy nauchaMotrudnik; KWOF,G.S., doktor biologicheskUth nwak, doteent; PASIMSM.A.S., kwWldat biologicheskikh menk. dotsent; SHTIY~,D.K., daktor biologicheskikh nauk; LCMUA.0 ampirant; mladshi nmehayy motradnik; ZI 0 L.I., daktor biologicheskikh sunk, professor; IPATOF.'F.41,. student V kurss.- KCEJAF,V.Ye., kmndldat~blologlcheWrlM anumr. slarshly nwwAw sotradn' ; UWASM,A.I., kw4ldat blologichealdbb -r. starshly smuchay sotradalk; MBMO,A,Ae, starshly nambW so- tradnik; VASI=WS]rAU,V.X., doktor blologicheskikh nauk. dotsent; XMIN.A.T.. kandidat blologicheskikh naluk; NAUNOV.D.V.. kandidat biologicheeldbb nook, sladahly nawhnyy motrudmi ; IHOUTSM.L.I. kandidat blologichesklIft mank, doteent; GOROWS.A.K., kandidat biologiehenklkh upak, st&rshty nauchnyy sotrudnik; GMMSM,V.S. assistant; GIMILISKrY,N.L., doktor blologicheskikh nauir. professor-, ALIKSAMMOW.A.B.. professor; KCL(IDYAZHNYY,Y.I.; TMIN,N.V.; ZOAD;- SM,I.K. [Theory of species mad. the formtIon of species]. Vest.lenun. 9 no.10:43-92 0 154. (NLIA 8:7) 1. Chlen-korrespondant Akadmii amuk SSM (for ShIshkin, Aldmandraw) (Condtimmed on next card)  SHISHKIN.B.K., professor; ROKOK(WA,A.G., kandidat biologicheskikh nauk, St&rBhiy nauchW notradnik, and others. [Theory of species and the formation of species]. Vest.Len.un. 9 no.10:43-92 0 '54. (MW" 8:7) 2. Leningradskly gasudaretyenMy universitet (for Shishkin. Romankova, Karkov,*Ipatov, loslov, lartashev, Godlevskly, Gerbillskly, Aleksandrow) 3. Zoologicheskiy instltut Akademil nauk SSSR (for Shteynberg, Immov) 4. Kafedra entomologii Leningradskogo gosudarstvennogo universitets, (for Danilevskly). 5. Kafedra darvinisma Leningradskoem gosudarstvennogo universitete (for loomagin, Gorobets). 6. Xafedra isoblaniki Leningrad- skogo gosudarot*onnogo udrorsitets, (for Nitsenko). 7. lafedra botaniki Leningradskogo, gosudaretyennogo universiteta (for Vasilevskrqa). 8. U- fedra, soologil. posvonochnykh Leningradskogo gosudarstbounogo universi- tota, (for Khosatskly). 9. Leningradskoye otdeleniye Vsesoyuzuogo In- stituts, udobrenly, agropochvovedenlya i agrotekhniki (for Sell"-Bekman) 10. Institut eksperimentallnoy meditsiny Akademii meditsinskikh nauk SSSR (for Zhinkin) (Origin of species)  IPATOV, V. S., Cand Biol Sci -- (disz) "Aspen forests of the Leningrad Economic Rayon." Leningrad, 1960. 13 pp; (Academy of i3ciences U5SR, Bot- annical Inct irn V. L. Komarov); .200 copies-, price not given; (KLI 24-60, 130)  E2 Is IPATOV, V.S. Mich forests in the eastern listricts of leniWad Province. Uch. zap. IGU no.290:156-170 ,6o. (KMA 13:9) (Uningrad Province-Birch)  IPATOT, V.S. s of aspen forests In the northwestern part of the R.S.Y.S.R. vestl lau 15 no.3:23-40 160. (MIRL 13:1) ~ (Rmssla, lorthwastern-Aspen)  SO IPATOV, V.S. "Comparative estimation of the participation of specios in the structure of a meadow community" by V.M.Po~iatovskaia,*- N.V. Syrokomskaia. Reviewed by V.S.Ipatov. Bot. zhur. 46 no.9: 1346-1348 S '61. (KDU 14: 9) l..Leningrad.skiy,gosi~~irstvennyy universitet. (Pasture researcO (Poniatovskaia, V.M.) (Syrokomskaia, N.V.)  IPATOV, V.S. Some cormiderationo on the concreption of the "forest type". Vest. LGU 17 noo9:131-134 162. (MM 15:5) (Forest ecology)  IPATOV, V. S. Aspen and aspen forests as A vource of vegetable raw material. Trudy PBI itlo.19:8"7 '62. (MIRA 16--:0 1, Laboratorlya geabotaniki Petergofekogo biologicheakogo institute. (Aspen)  IPATOVq V.S. Comparison of some methods for determining the role of a species in the structure of the herbaceous cover of an oak forest. Bot. zhur. 47 no-3:360-368 Mr 162. (XIRA 15:3) 1. Leningradakiy gosudarstvennyy universitet. (Forest ecology) (Grasses)  IPATOV VOS- C orrelation between We~projective cover and the weight of herbaceous plants. Bot, zhur. 47 no.7t991-992 Jl 162. (MIRA .15:9) 1. leningradskiy osudarstvennyy universitet, lBotanical research)  IFATOVO V.S.; KRKINp B.M. Onoodland meadows of the Yanisey" by L.I.Nomokonov. Reviewed by V.S.Ipatov.. B.H.Mirkin. Bot. zhur. 47 no.9tl388-1390 S 162. (KM 16:5) 1. Leningradakiy, gosWaratteaw universitet. (Yeniney Valley-Pastures and meadows) (Namokonov, L.I.~  MIRKIII, B.M.; IPATOV~ V.S. Goobotany at the Second Interuniversity Conference "Contribution of Universities to Agriculture". Bot. zhur. 48 no.7:1088-1090 J1 163. (UIRA 16:9) 1. Leningradskiy gosudarstvennyy universitet. (Phytogeography) (Botany, Economic)   IPATOVI V. S. ......... Evaluation of the data obtained by projective surveying. Bot. zhur. 49 no.3082-386 Mr 364. (MM 170) 1. Leningradskiy gosudarstvenrqy universitet. H  IPATOV, V.S. ~ - l-, Z,W~ -~ -:,-,~'.- Use of ecological tables in evaluating forest types. Vest. LGU 19 no.21WC-152 964 (Mru 1821)  DROZDOV, Aleksandr Aleksandrovichi.,,.IIPPA~TT~OOVV ~V~Va~pi~t e~vich- _MIG", L.S.j vedushchiy red,j FOLOSINA, A.S., tekbn. red. [Tbe SS-24P standard seismic station) Seriinaia seismicbealmia atantoiia SS-24F. Moskval Goo. nauobzo-tekhn. izd-vo neft. i gorno-toplivnoi lit-ry .1961, 89 (KMA 24: 10) (Seismic prospectinjo  N442 S/05/61'000/003/006/013 I kv 90 BI'WB20'4 AUTHORSt Ipatov, Vi- V. and Magin, 1. Ya. TITLF.t k miniature resistance thermompter for checking the'servioe of bearings PERIODIULt lzmeriteltnaya tekhnika, no. 31 196ij 19-20 TEXTo The service ofthe bearings in turbo-generators is usually con- trolled with the'temperature of the oil emerging from the bearingi but this is not enough to avert the danger of breakdowns early enough.- A more promising method of checking load and support bearings is direct measurement of the temperature of the bearing metal layer in the bear. .Lng. The controls showed that the temperature of the race depends on the.type of design, amount-of load, quantity, and temperature of the cooling oil, and tliat'it-usually varies between 70 and 900C, whereas on critical con- 0 -difions it may reach 110-140 . Thus, the apparatus for checking the 0 service, of bearings must be able to measure temperatures ~f up ~o 150 C. However,. the usual resistance thermometers which are suited for this ra-nge are toIo.big and therIafore asInnot be attached to the caning of the Card .1/3  20442 slivI611000100310061013 A.m,iniature-resistanoe..thermometer... B124 B204 support- bearings. For this reas'on',,a miniatur4 thermometer with a- diam,eter.of 3.2-mm and a*12 mm long active part ias developed at the laboratory of,& turbine engine factory. This resistance thermometer (Fig.1) is a copper wiro'(0-05 mm in diameter) which is bifilarly wound upon the thermometer and covered with a layer of bakelits paper of,the ty.P: T1qn r.(2CT 2773 '51 ~ (PVT. anqm The res is tance of the thermo- met r at 090 -is ~3 'ohis, it.s graduation the same'as Itha.t -Of 'the' copper thermometers ~a.' '.Stability and measurinj error of the thermometers a'ited meats the requiiements of'rOCT 6651-59 (GOST 6651-~9) for-third-class, thermomete's. Inertia of these resistance thermometers is low. The F mounting of miniature resistance thermometers to the casings of the support bearing of ilTrT-25-4 (VPT-25-4) type' turbine and in the 'casings of the load bearings is shown.in Fig.2. The resistance thermometers are placedIin especially drilled oIp.enings (diameter of 3.4.mm) and fixed with BU-2 (BF-2) idheisiVe. The termi nals of the'resistance thermometers are, over a plug, connected to-a switch and a measuring instrument. As measuring instrument, the electron bridge ~M-11 (EMV-11) or 3MAC-26 (E)OB-26) was used-. There are 2 figures- Card 2/3  20442 - S/11 61/oo6/do3/006/0113 B124Y33204 . -1. . a . 7 1 - A/ ' Legend to Fig.23 1) Thermometer. Fig. 2  3/189/62/ooo/o63/011/021 El'94/F-436 'ov xu*" IT AUTHORS: I atov Yu.s Leykum, V.I,, 01eynik, P.N*,- -Va-tovalkl-aya ~.,ZJK. TITLE: Instruments for measuring thermal conductivity SOURCE: USSR. Komitet standartov, mer-i izmeritellnykh priborov. Trudy institutov Komiteta. no.63(123). Moscow, 1962. lsslbdovaniya v oblasti teplovykh i temperaturnykh izmereniy. 1.43-150 TEXT: in 1960 a need was pointed out for instruments to measure thermal conductivity.quickly, though not necessarily with great accuracy. For this purpose the here described instrument A-21 is suitable. The cylindrical specimen in in contact with an insulated heater. The measurements are carried out with a constant current passing through the heater. Under such conditions the thermal flux passing through specimens in a functi,*on Pf their thermal conductivity, providing they have the same length, In the*base of the instrument is a transformer which supplies the' heater.- Microammeter M-95 measures the output from the thermo-; couples in the contact plates at the top and bottom of the test Card 1/3  Instruments for measuring thermal S/589/62/ooo/063/OILI/023L E194/E436 piece. The influence on the readings of the pressure onthe specimen, the air temperature around the specimen and the cooling temperature were studied, using test pieces 15 mm diameter and 20 mm long made of fused quartz or of fluoroplast-4 (teflon). These specimens are longer than the optimum length of 5 to 10 M and so the maximum stabilisation time could readily be determined~ with quartz It was up to 125 minutes. similar re ults were obtained with fluoroplast-4. The specimen diamet:r in not critical but it will probably be convenient to use a value of 10 to 15 mm- The mean standard error was + 1% and the overall error of measuring the coefficient of therZ1 conductivity of a specimen 10 to 15 mm diameter and 5 to 10 mm long in about + 2% for a large number of tests or about + 3% for two or three measurements. These values apply for thermal conductivities in the range 0 to I W/(metre degree) but for materials of greater thermal conductivity the errors will be greater and indeed the A-21 instrument is not recommended for them. A somewhat improved 'j version, type A-22, is of very similar' performance. In order to extend the range of thermal conductivity.tha.t can be measured, Card 2/3  s/589/62/000/063/011/021 i Instruments for measuring thermal ... E194/E436 instrument type A-24 has been developed. It measures the heat flow through a given specimen which is in thermal contact witha standard specimen. In this instrument there is no need to maintain the heater output constant. By ~tppropriate calibration of the microammeter scale, measurements can be made in the same way as with instrument A-22. However, the range of thermal.conductivity coefficients that can be measured may be extended to semiconducting mateiials by u3ing a standard specimen'of convenient dimenslons and thermal conductivity. By measurements of quartz and fluoroplast-4 specimens of 15 mm diameter and 10 mm long, it was found that the repeatability was about + 1%. The overa-11-orror in the measurements is about + 3% and the instrument can measure thermal conductivities-up to 2W/(metre degree). There are 7 figures. ASSOCIATION: VNIIM SUBMITTED: February 20, 1961 Card 3/3