SCIENTIFIC ABSTRACT SHVETS, A.S. - SHVETS, I.T.

SW&S. A.S. Iodine in iodizf.--; salt and maksures contributing to the stabiliza- tior. of Iodine In Iodized salt. Vop.pit. 14 no.2:49 Mr-Ap 155. (ML'RA 8:6) Chernovitakogo maditsinskogo instituta. 1, 1z ki"fddry biokhImit (IODINE, iodizert salt) (SODIUM CHLORM, Iodized salt)  SHVXTS. A.S., assistant A short study of the Vashkovtoy and Kellmentey Districts of Chernovtoy Province area in connection with iodine content in the water and incidence of goiter. Gig. I sano 23 no.4-71-72 Ap '58- (HIRA 11:6) 1. Iz kafedr7 biokhimii Chernovitskogo meditsinskogo instituta. (10DON, determ. in water, relation to incidence of goiter (Run)) (GOITER, etiol. & pathogen. relation to iodine content In water (Rue))  KOW,U,',V, X.M.; Z-AMANSKIY, L.N.; YUKH1,%ETS, A.D.; SIVIETS, S.; RUSIN"K, I.K. Pre- and postoperative oxidation-reduction processes in nodular endemic goiter. Probl. endok. i gorm. 10 no.5:37-40 S-0 164. (MIRA 18:6) 1. Kafedra fakulltetskoy khirurgii (zav. - prof. M.M. Kovalev) i kafedra biologicheskoy khimii (zav. - dotsent L.N. Zamanskiy) '-'hprnov-*Ltskoc,o ired-itsinskogo instituta. U  POPOV9KIy,- V. G,; GIDALEVICH, If. G.; DULINEVA, 1. ?.1 ZA.SLAVSKIY, A. S.; Prinimali uchR6ti7-6: UL'YANM4, M. G.; ZELENSKAYA, M. I.; SHGRELOKOVAJ, 1. M.; UNILOVJ M. A.; SHVETS, A. T. Improving the te~hn6lo& of grape Juice manufacture. Tructr bffTlIPP 1:9-37 161. (MIRA 16:1) (Moldaria-Graps juice)  GASYUK,, G.D.; TSVETKOVA, L.M.; Prinimali uchastiye: SHVETS,-4.T,.-X-LAGUNOVA., G.A. F.ffect of ultrasonic waves on the microflora in thre process of grape juice production. Trudy 1,24IIPP 2:75-80 162. (MIRA 16:4) (Ultrasonic waves-Industrial applications) (Wine and wine making-Microbiology)  KOROBOVA, K. L. , SHAIM, H.G. ; J011UTS, A.V. Lntroducing the manufatcture of percale on automatic IoLxw. ~ekst. prom. 24 no.2:32-33 F 164. (HIFU 1": 3) .1. Glavn-yy inzh. Novo-Tkatskoy fabriki Glukhovskago khlopL'hatubu- mazhnogo, kombinata (for Korobova). 2. Zaveduyushchiy tkatskim, proizvodstvom Novo-Tkatskoy fabriki Glukhovskogo khlopchal.L-bu- mazhriogo kombinata (for Sharov). 3. Nachallnik tkatskogo tsekha Novo-Tkatskoy f-abriki !Glukhovsko.go kIllopst,--tolp--maziincoao kor-abinata (for Shvets).  -ft SHUTS, B. 1. Treating fractures of the clavicle by surgery and subsequent fixing of the splints with RudIko's suparatus. Vrach.delo na.8:823-825 Ag '57. (KLRA 10:8) 1. ghirurgicheskoye otdeleniye (zav. - B.I.Shvets) Karbonitskoy bol'nitsy Popasnyanskogo rayona Vorshilovgradskoy obl. (CLAVIGLE--SURGERY)  GANTSKEY A-K~, SJIVEIS, B.S.; SOKOIDVA, G.S.., red.; SAYTANIDI, L.D., te-khn, red ~ [OfTiz.-ial republic-dide norms and estimates for building, as- sembling, and repairing work. Collection VR-4; repair of trans- former substations in the electric system of the Rural Powr Organization] Vedomstvennye reopublikanskie norcW i rastsenki na stroitelInye, montazhnye i remontno-stroitellnyo raboty. Sbornik VR-4: remont transfomatoMkh podstantsii v elektro- setiakh Sellenergo. Moskva, Izd-vo M-va sell.khoz. RSFSR, 1961. 26 p. (MIRA 15:3) 1. Russia (1917- ,R.S.F.S.R.) Ministerstvo sel'skogo khozyaystva. (Electric substations---i4aintenance and repair)  SHVETS, D. Use speed and skill in fire extinction. Pozh.delo 9 no.8:27 Ig 163. (MIRA 16:9) 1. Nachallnik Otdela pozharnoy okhrany g. Nikolayeva. (Fire extinction)  BIZYAY.&VA, P.S.; SHVATS, D.S. M"thods for using duodenal sounds. Had.sestra 17 no.1:39-41 Ja 158. (MIRA 11:2) i. Iz klinicheskogo sanatoriya "19shchery' (Suk-humi) (DUODIWUH) (H"ICAL INSTRUMUS AND APPARATUS) Or  SHV7,TS, D,-, , Zrftnular carbons, for the manufacture of refined sugar. Sakh.prom. 36 no,11:34-36 N *. (MIRA 17Q) .1, Ukrainskiy g6sudarstvennyy institut po proyektirovaniyu predpri- 7atly sakharnoy promyshlennosti.  -L 29948-65 WP(e)/EWT(M)/F.PF(n)-2/,EPR/T/EWP.(t)/WP(b);~ a JD ~i IJP Awl TC,7A--T-/'W- 'J. ACCESSION NR: AP5006188 'W060/00i/ 0022/00261 AUTHOR: Kuz1maj Yu. 8 redorov,_T. Fo,6_ Shvetst Ei TITLE- Phase equilibria'in the Zr-W-C system SOURCE: Poroshkovaya metallurgiya, no. 2, 1965, 22-26 TOPIC TAGS: zirconium alloy, tungsten alloy, phase equilibrium,', solid solutions x-ray crystallography, microstructure [ABSTRACT: The Zr-W-.C system'is studied by-x-ray and micro6tr-uctbral analysis methods. The phase equilibria are determined in cast abd.,a aled alloys at 1500 and 19500C. Previous studies of this system have been devoted solely to the ZrC-WC! section. It is found that 34 molA WC is dissolved in trC:at 150066. , This solu- bility increases to 40 mol.% at 19500. It-is found that ifilare 1~ a type NaCl W-phase with cubic structure (a R) in cast Alloys -based on an isoconcen-'. trate of 50 at A C which contain 2-10 at A Zr. It is pointed,6:ut that there is a~ possibility for a still greater solubility of WC in ZiC.4t4emp4iitures which are. Iclose to the melting point of the alloys. ."The authors ex I-$as w iii7 gratitude to Mai;` 4 Agures. lye. I. GILdyshevskiv for discussing this work. Orig. artil -j: Card  L 29948-65 AP5006188 1ACCESSION NR: ASSOCI4TION., - Institut jdetallt~rall A. A..Daykovgi 046 kly!", fia Lenina gosuniversitet im. Iv. Franko (Institute of Metallurgy i 1!~~.Q% *Of LerAn". University) !SUBMITTED: 26Jtil63 ENCL., 02 atm CODE, m 4. 5.m. NO IMF SOV: 004. OTHER.- 00 2/4 -4 iv  L 29948-65 ACCESSION N.R:: APS006188 01 4 c c A~ VN~ , , bOAPMAM! -- ~ A7V A Fig I Phase equilibria in 'cast alloys 6e Zr- .~P. system of t Card 3/4  L-29948L.,65- AcCESSION MR: Fig. 2. Card 4/4 EHCLOSUltfA f A q j ,44.11 i a Now  .1, ~~ f , -, . ; ~.,, i ~ ( ; nr no  ABPjiMDV; F.A., Prof., doktor tekhn. nauk-.4 BOYKO, V.A., kand. tekhn. nauki SIIVETS..~4A., inzh.~, TYAN, R.B., Inzh. Calculating cormlicated ventilation systems with the use of an electronic computer. Gor. zhur. no.11;61-63 N 164. ., (NMA 18.-2) 1. Dnepropetrcvsk-.y gornyy institut- i FIM AN UkrSSR.  With gor. -hur. Cf, -joid VVS. K,- r m, ALT MOV FL tit t imc- n -I - DYI( C, j r, ,l i ,.a me k han i AN -'K r 3,SR ')r ~ ' ,  N 1: .~!;V S Gr goriy ClecwFiyev-i h De~, gn cif p-4-3:- manual fc,--- -.e=.. -.,:-.-)je,--ts] ;iasc'lat S- i lo vykh ~~ransfcj--,matorov; posobie po kiL-sovomu isprr, I diop, Lenineradp Lerir47, fi 1 i--k tro tell- im. ini 4, 19: 1) 1. Krtfi-~dra mash;n Lenini:,Iradskogo elekt-n),, to4 ill. I c: ili~itutt,n imen; (fir Yermo'l-In.i.  ii~ ~- -, ~ , ., , Run-off Distri~~ution of USSR ~'dvers According to Press of AcaderW of Science Ukrainian SSSt?, Kiev: 1,04t. 10E po with Drai,.,-*Lngs. (i.,.eteorologiya i Gidrolc.Iiya, No 6 ',Ov,/Dec 1/047) 19L,3 SO: U-31218, 3 Apr -  ivers) IzP. ,,"Lniw;.mi Ui c,f u~,f: '['~-Ivur L-n.-f-l" (Hydrolc-Ly uf bind, U I Fot  T 7 T? 0, ~i T-~rs T. I T 2. TISSR (6oo) 4. Hydrology Dnieper Valley 7. Fron. the history of hydrological invest-'aations of the Dnieper, Visnyk AN TRSIF 2L No. 1, 1953 9. Monthly List of Russian Accessions, Library of Congress, M8Y -1953. Unclassified.  SUKHOMKL. G. I.; SHYMS, G. I. Dewelopment of research In hydrolo&7. hydraulics. and hydrmlic engineering in the Ukraine. JXT. T-,t. g1dr. AS LIM 130;~]Lq I~P_ (Ukraine--Hydraulic engineering) Owu 9:2)  SHTETS, G. 1. Dnlepr River high vaters for a thoumand-year perldd. IST.Inst. gidrol. i gidr.All URS 13:20-48 '55, (KURA 9: 2) . lDnidpi& Riviri-FloMm)  DROZD, R.I.; SHVWS. G. I. Dnieper River levels at LotsmanoAamenka. Isv.1nst.Cidr*l.1 g1dr. AN URM 13:112-121 '55. (KM 9:2) (Dniep6? River--Strom aeasurements)  SRVETS I , G. I. ~' Hydrological management. investigations for the use of the water resouces VisnyIr AN URSR 26 n0-5:57-58 JW '55. 0912A 8:8) (Ukraine--Hydrology)  SRM, SI, G.I. Some conclumions about fluctuations in the water level of the Dnieper River. Visnyk AN URM 26 no.10:64-66 0 155. (XI.HA 9:1) (Dnieper River)  SHVETS, G.I. Basic characteristics of flow in the Dnieper River at Kromenchug. Dop. UK URSR no.4:365-369 0560 (MI2A 9:12) I.Institut giclrologii i gidrotekhniki Akademii nauk URSR. Predstavle- no akademikom Akademii nauk USSR G.I. Sukhomelom. (Dnieper Jt~ver)  SIIVVTC;t CHIPPING,.G.O.,,kandidat tekhnichnikh nauk, vidpovidallnly %moo Aw~ "06,0 redaktor; SHTU1114AN, I.F., redaktor vidavaitstva; ZHUKOVSIKIY, A.D., takhnichniy rAdak-tor. [Dnicpar rtxn-off belqv,KieT]- Stik Dnipra nyzhche Kyleva'., Kyiv, Vyd-vo Akad.nauk URSR. 1957. 126 v. (MIRA 10:11) (Dnieper River)  SHVNTSI~~DROZD, N.I.; LEVCHINKO, S.P.; MOKLYAK, 7.1., vidpovi-~-' ' 'dallaiy relaki6r; ZISIMMO-Te.A.- tfthulcheskiy'-'~-' redektor , ' , -*;- -- - [Catalog of rivers of the Ukraine] Katalog richok Ukrainy. Kytv, 1957. 191 p - (XLRA 10:7) 1. Akademlys aauk URSR. Kiyev. Institut gidrologii to gidiotekhniki (Ukraine-Rivers)  Repcrted t~,e secular fluctuatLons ,:,f t~,e amciuritl A' water ."n. tine Dne-.,.r and ,.n '-i-stnrical fLo(As at the lower narts of the Daugava. qW MPOM Pre"Ilted ELI. the 3rd All-lblon E4-dmlogical CorigMes, 7-1-7 Oct 1-957, 1-calngrM . ilzv- Ak Nauk SSSR, ser geograf., 3, PP3-9, '58~  MOKLYAK, Vladislev Ivanovich; SHVWTSIJ G.I.(Shvetal, H.I.], kand.tekh.nauk, vidpovidallayy red.; PBURKO'19"t O.M. [Pechkovslka. O.M.I. red. r vidavnit6tva; RAKHLINA,11.?., tekhn.red. [Maximum discharge of snow waters by rivers of the Ukraine] Maksymallni vytraty vid talykh vod na richkakh LIBSR. Kytv. Vi-vo Akad. nauk MR. 1957. 162 p. (MIRA 11:2) (Ukraine--Runoff)  . On the results of the conference. Trud7 OGMI no.15:223-224 158. (YIiA 12:7) (Runoff)  . lot! i I' Arotiovi (-It I 7hol to rm 1,,de . I . A. I : '-KVX'l%' ,G. 1 , r shv ~! t-.A , . A -0. .- t)'m 11.1. 1, I-arld. toldill.'I.-I I tic, otv.rod. -, P! CUM ZXY' ,* 'M ~-hkov!,, '1:.,i , 0.14.1. red.izd-va-, MIL'OKWIN, I.D., tekIlLn.red. [Annual distribiitirn cf -r4y.-j, -r in J Vmit ' ~ _i 3 in the Uk q & r '- ricl-m2,i rozpodil stolza riefick Mcrainy. Kviv, Vyd-v-, Ak---id.nauk- M-IM, 1959. 135 P. (MITIA i3:*-,)  SHVETS, Grigoriy Ivanovich [Sh,,ets, H.1.1; MOKLYAK, T.I., kand.tekhn. nauk, otv.i-e-d.-, PBCHKOYMIYA, O.M. [Piechkoyslks, O.M.1, red. izd-va; BUNIT, R.A., tekhn.red. [Stream flow rate of the Dnieper River] Todnist' Dnipra. Kyiv, Tyd-vo Akad.nauk URSH. 1960. 180 p. (MIM 14:4) (Dnieper River-Hydrography)  SHV-&T 5, G-~~ LsllveW. H.-'.J-, ""IMBAlij K.S.; KoBh-jUjIK, B.".3. Llrbernyk, S.H.]; A.YB. [OliiaY'k, O-IA-j; PIVOVAR, N.G. LPY-vovar, M.H.]; :iOZO-VOUT, 1,L. [Rozovs1kyl, T.L.1; ZOBODY-Ui, R.T.-o DIDKOVaIT, V-Rz gdl.-J, k:and.tekhn.r-a-uk, otv.red.-, K.~SIITSMI, Sh.G. CK.1batsel' . SE.H.j. red. -leka iicograf; SHMIN, V.L.. BbIl" TLY. R. 0. , teklul . red . (lh.,sslar.!-b'kralnlan iVdi-aulic-engineering dictiocary; 1)000 terms] Ru:;skc--ukrainskh .-idrotekhnicheskli alcvarl. 1)000 terminov. Kiev, Ak-ul.aaak- USSR. 1960. XIV. -i9? p. (Ml-U 13:7) (Hydraulic ongiuooring--Dlctionari6!-~) language---Dictiotiarie;--UkrairL4.ti!j.,I  SHVETS, G.I. Information on the vater volume of the Dnieper in prehisotric time. Izv.Voes.geog.ob-va 92 no-5:443-449 S-0 160. OVIRA 13:9) (Dnieper River--Hydrology)  SIIVLeTO"P G. 1. Water supply indicators for the Northern Donets River. Trudy Ukr- NIGIAI no.31+:68-75 162. (MIRA 15:7) (Donets River-Runoff)  SHVETS, (;.I. (Shvets', H.I.1 Water resoarces of "he Ul.-raine and their util,4zatlon. Geog. abir. nc.6:100-108 162. OCRA (Ukraine-Water resources development)  STEC, G.I. [Shvets, G.I.), C.Sc. - ---- An attempt at reconstructing the hydrological data of the Dnieper River. Vodohosp cas 10 no.1:3-10 162. 1. Ustay hydrologie a hydrotechniky Akademie vied Ukrajinskej SSR, Kijev Lfliev].  VISHNEVSKIY, Palladiy Fedorovich(Vyshnevalkyi, P.F.1; DROZD, Nafanail Iosipovich; ZHELEZNYAK, Iosif Aronovich; KRYZHANOVSKAYA, Ariada Borisovna[Kryzhanivalka, A.B.]; KUBYSHKIN, Geo-,giy Pimenovich[Kubyshkin, H.Pj; LYSENKO, Klara Arkhipovna; MOKLYAK, Vladislav Ivanovich; GHIPPING, Galina Aleksandrovna jShvets, H. I.]; (Chippinh, H.O.]; SHVETS, Gr Agq#y_lvanovich FECHKOVSKAYA, O.M.PwChkE;vs'ka, O.M.], red.izd-va; RAKHLINA, N. P. , tekhn. red. [Hydrologic calculations for rivers of the Ukraine]Gidrologichni rozrakhunky dlia richok Ukminy; pry vidsiltnosti sposterezhem'. (By]P.F.Vyshnevlkyi ta inshi. Kyiv, Vyd-vo Akad.nauk URSR, 1962. 385 P. (MIRA 16:2) (Ukraine--Rivers)   SHMSY G.I. Beginning of hydrologic observations on the rivers of the Ukraine. Trudy UkrNIGMI no.51:105-115 165. (MIRA 18:9)  KEPFJOHA,\~.M.; GAYDUKOV, I.M.; BOVIN, Ye.I.; DENISOVA., V.P.; PANOV, A.M.; SHVETS., G.I. Rubber coating of metal-cord cloth in a cord calen667 unit. Kauch. i rez. 24 no.8:29-33 165. ~MIRA 18:10) 1. Nauchno-issledovatellskiy institut shinnoy promyshlennosti i Omskly shinnyy zavod.  L 55855-65 51T (1)/DJT (m)/T/EWP (t)/EEC (b)-2/&T (b) Pi-4 IJP(0 JD/JG/GG 'ACCESSION NR: AP5013114 UR/0370/65/000/002/0120/0127 669.017.13 Y iAUTHOR: Gladyshevskiy, Ye. I. Wvov); Shvets, G.__!..~LIvov) JITLE: The equilibrium diagram and cMrstal -structures f V-Fe-Si ternary compounds AN SSSR. Izvestiya. Metally; no. 2, 1965, 120-1-27 !TOPIC TAGS: phase equilibrium, vanadium compound, iron compound.,silicon compound Q to determine'~"tl uiliblium dia- 1ABSTRACT: The purpose of the article wa e ternary eq igram for V-Fe-Si and to specify the boundaries and crystal structures of single, lphase regions of ternary compounds. Alloys were examined in the cast state and an- inealed at 1200, 1000 and 8000C. X-ray and metallographic (Hr-HHO.3 etchant) analy- :sis of phase boundaries were used. The existence of four ternary compounds (X, R., 16, and 41 phase) was established. The X-phase has a wide homogeneity region at tem. ;peratures close to the melting point (40-55 at. % Fe and 15-3b at. % SD, which nar. 'rows as the temperature is reduced. This phase has a body-centered cubic crystal structure; the lattice period in the homogeneity region varies from 8.81 to B.86 !when the V content is increased. The narrow region of homogeneity which includes' LCard 1/2  L 55855-65 ACCESSION NR: AP5013114 the V3Fe5SiZ composition (a= 8.8113% 0.001 A) corresponds to' this phase at 10000C The R-phase region at 10000C has a trigonal crystal structure, includes the,composil- tion ViFe2Si and is analogous to the R-phase in the Mo-C-Co system. The 6-phase at 10000C is tetragonai, includes the composition V5Fe4Si4 and approximates the struc-1, ture 6-MoNi. In alloys annealed at 8000C in the central portion of the diagram:in cluding VFeSi, 6 (unknown crystal structure) forms. Tables of interplanar spacing hkI indices and relative intensities are given for the R-phase. ~Due to the stabi- lizing effect of silicon, the a-phane of V-Fe forms at much higher temperatures than the 12000C solid state formation temperature of the binary a. Solubilities are given at 10000C for Si and V in Fe, and for.the addition of Si, re, or V to a binary compound containing the remaining two elements. ~Orig. art. has: 3 figures,, 2 tables. ASSOCIATION: none SUBMITTED: 19Jun63 ENCL: .00 SUB CODE: HM NO REF SOV: 009 OTHER: 007 dazd, 2/  SHVETS, G.V. Concenri-ing con-m1tration "U!ie of groii-,rdJ!:,g conductors." Energettik 11 no.11340-41 ff lrq. (MIRA .16-1-1)  SHVETS, 1. -- For effective competition. Blok.agit.vod.tranap. no.16:16-22 S 136 Mu 9: 11) 1. Sekretarl partorganizatsii teplokhoda "Kapitan Antipov" Dunay- skogo parakhodstva. (Shipping)  SIFVETS , I. , inzh. sdatoclinyy mekhanik Maintenance and repair of the crankshafts of type D-50 engines. Mor.flot 21 no.2:31-34 F 161o (MIRA 14:6) 1. Zavod imeni 61 kommunara. (Marine ergines-Maintenance and repair)  19PYNIER, V.A., kand. tekhn. naia-; VATKIN, N.I., gornyy inzh.; DANDZBMG, L.K., brigadir; ZAYON, Ya.A., inzh.; STPIFTS, I.A., inzh.; YUDIN, IN.P., kand. tekhn. nauk New record for mining development workings in coal with the "Karaganda 7/1511 cutter-loader. Ugoll 40 no.6:7-11 Je 165. (MIPA 18:7) 1. Giprouglegormash (for Brenner, Yudin). 2. Kombinat Karabandaugoll (for Vaslkin). 3. Shakhta No.122 tresta Sararfugol I (for Dandzberg, Zakon). 44,, 4. Trrst Sararl igoll (for Shvets).  D')9RO-T1O'i,",'i'.jY, irizh.; 711'-Aff, N.F., inzh.-, MIT-ETS, I.L., Inzh. --v ~--- - - - S o-iP renarks nn marine nn,,,Pr plants ii S sed on whalers. Sudostroenie .1 94 no.9:40-10 S 158. (,NaRi, 11:11) (Marine enginps) (Whalers)  SHVETS9 I.L., inzh. 4T Grarikshaft 3traightening witiout a complate disassembly of the B-50 motor. Sudostroenie 27 no.3:52-54 Mr t6l. (14IM 14:3) (Cranks and crankshafts)  SHVE'T,13, i 1 11-4. Dependence of the mag-netic properties of powder-ed magnetite on grain size. Zap. Ukr. otd. Min. ob.-va Ino.l]%140-145 164'. (MIRA 16:8) 1. Pedagogicheskiy institut, kafedra fiziki, Krivoy Rog.  SWE"I's, I. N. Magnetic properties of the ores of t-,,c- Krivoi Rog B%E-fr, Mining and Ore Dressing Combines. Sbor. nauch. tT-,ld. KGRI no.17-.201-208 t63. Changes in the magnetic properties of oxidized ores of the 00ILthern Mining and Ore Dressing Combine following magnetizing redur,-tion roasting. Ibid.:209-212 (ITIRA 17: 1)  SHUTS, I.T. 35160. Teorotichaskie 0snovy. Isslodovemlya Gasovybh Potokov. V SB:50 Lot Kievvk. Polttekhn. In-%-. Kiev, 1q48, $- 325-3? SO: Letopts' Zhurnallnvkh Statey. Vol. 48, f4oskva. 1949  Sp~T~~qa ILT.,., rofessor. - , . ! I Analytical determination of the optimal rate of pressure Increase In -the TYRD unit. Dop.AN URSR no.2:50-54 148. (KLRA 9: 9) l.Prodstavlono Vchenoyu rad*yu Institutu. tepleenergetiki AN UM. (Gas turbines)  SHMS, I.T, pr*feteser. Calculation of combustion chamber processes in jit engines. Sber.trud.Inst.energ.Alf URSR Ne.3;47-64 148. (MLRA 9:1) (Airplanes-Turb*Jet engines)  SHVETS', I.T., professor. "I Problems in the over-all utilization of natural and industrial gases In the national economy of the Ukrainian S.S.R. Vinzyk AN URSR 21 no.1:64-68 J& 149. (MLRA 9:9) (Ukraine--Gas Industry)  SHVETS. I.T., deyetvitellnyy chlen; SHVXTSOV, P.D., professor Leditorel. [Thermodynamic installations Of small and medium capacity; a reference book. Teploenergeticheskie ustanovki maloi i srednei moshchnosti; spravochnoe ruko- vodatvo. Pod red. I.T.Shvetsa i P.D.Shvetsova. Kiev, Goo.nauchno-tekha.izd- vo mashinostroit.lit-ry [Ukr.otd-niel 1952. 514 p. (MI-RA 6:7) 1. Akademiya nauk Ukrainskoy SSR (for Shvets). (Thermodynamics)  1. 3FIETS, I. T. 2. U3SR (600) /,. Russia - Public ',Icrks 7. iLidinjr, comownism's great ccn:3tz-.jcti.-,n projects. Trudy Inst. te-A. AN URSR No. 6-Y 1952. 9. Monthly LiLst of Russian Accessions, Library of Congress, -April L953, Uncl.  PALIADIN. 0.V.; SIKKNI:NKO. M.P.; SAVIN, G.M.; SHVITS JX.; PATON. Ye.O.: KAVSTS'KiY, R.Ye.; STBJA.ZHESKO, M.D.; PTaME., V.P.; PROTOPOPOV, V.P.; FOL'BORT, G.V.; VOROEYOV. A.M. Grigorii Ivanovych WArkelov; obituary. Hedych.zhur. 22 no-3:101 '52. (MARKELOV, GRIGCRII WitliffYCH, 1880-1952) (MIRA 11:2)  ROMMIENKO, S.V.; SH'rh'TSI, I.T.0 dlysiyy chlen. Flow of gas in conditions of cG~ivective heist exchange and friction. Do-p. AN URSR no.3:20,9-214 '53. (MI-Ri 6:6) 1. Kiyi,7s'kyy politekhaichrivy instytilt (for Romaneako). 2. Akademiya nauk Tlkrayins Iko,,,ri RSR (for Shvets I ). (Gases, Flow of) (Thermodynamics) W,  ShVETS, I.T. The Communist Party in the Soviet Union's electrification program. 7isnyk AN URSR 24:10-19 D 153. (MLRA 7:3) (Ukraine--Electrification) Mootrification--Ukrafte) 1. Diyaniy chlen AN URSR.  SWVKPS', I.T.; DIBAN, JC.; KOIEDAK. M.M. The problem of contact heat exchange. Dop. AN URSH no-5:345-350 154. (MLRA 6:7) 1. Diyanly, chlen AN MR (for Shvets). 2. Institut teploonegetiki AN URSR. (Heat-Coaduction)  V1 53".24:1 :621 8-253 -)f Conl~~,t jT (-;,at -ichulw~l 1%-lrts of )54 IV,% Kondah, and U. S. S. C077=c- =ea C_=ht-_nac was studied on a turbine vfilenl VrIth bl,zaes madc of different steeln and alloys and anchored in ,11 f f rxent ways. The effect of the follov6ng factors on .~-)ntact heat cxchwigc vaa r34Uuai,,.d: surface finish, mach-anim! ,,roncrtics of ruati.-rials involved, compreasion,of tile contact, L,xbtonoe of oxidd -layer, insulation layer and the~n~ treat- mmit of the surface of .,ontact. As EL result of ex-oerjmelnts an appre-ciable offect of heat conductivity of the 6urrounding. :~-~(Ilum oil the con' act heat exchange was established.(BIbI.1)  -SHVETSI, I.T. ,-- 1 -:-, Utilizing brown coal of the Ukraine for over-all Power production. Vir.n.rk AN URSR 25 no 12:34-37 D 154. (MIRA 8:4) 1. Diysniy- chlen AN UM. (Ukraine-Coal) 411-N  SHUTS, I.T. .., o ' - 4 - " COOPeratiOn Of 3u5sian and Ukrainian scientists in the development of power engineering in the Ukraine. Nar. z ist.tekh. no.2:5-13 155. (Ukraine--P*wer engineering) (MIJqA 9:4)  FFMROT, V.I.; SMTS3 I.T.- SHELIMENKO, N.N. On tomparature distribution in turbine rotors. Dop.All URSR no.6: 533-536 '55. (MIJU 9:7) 1.Diyani3r chlan AN URSR (for Shveta').Mnatitut teployanargetiki AN URSR. (Impellers)  AID P _3835 Subject USSR/Power Eng. Card 1/1 Pub. 110-a - 6/17 Authors Fedorov, V. I., Karid. Techn. Set, 1. T. Shvetr3,,Dr,. Tech. Sci., and N. N. Shellmenko, En*g-.----*---"- Title Research on temperature distribution in some turbine rotors at unstable heat transfer Periodical Teploenergetika, 11, 27-31, N 1955 Abstract The article deals with research on deformations in rotors which occur during start and stoppage of operations due to increased heat loads. Different makes of rotors rre discussed. The results of the research are nresented with 7 figures. The use of welded,, disc-shaped rotors is advocated. Institution : None Submitted : No date  SUETS_,_L.T~; SHVBTSOV, P.D., profemser; DYBAN, Te.P., mWshiy nanchn" metnid- 4-1-- -a.alk . Study of heat transfer around the base of moving bWes in turbines. Trudy Inst.tepl.URSR se.12:13-20 155. (MLRA 9:7) I.Doystvitel'Vy chlox AN USSR (for Shvets) (Hitat-Tranaminnion) (Blades)  SMTS, I.T.; DYBAN, Ye.P., mladshiy nauchnyy setrudmik; KONDAK, N.M., kandidat tektfnicheskikh nauk. Research on contact heat exchange between parts of heat engine@. Trudy Imst.tepl.UBSR ne.12:21-53 155. (MLRL 9:7) l.Deystvitmllnyy, chlen AN USSR (for Shvats). (Eleat-Transmission) (Heat'engises)  MM111F. will Distr- 4W cases 1; solving OqU311OMF F44 the 6unjary layar In a tompCOS6 Me fluid (in Russisal Prikl. Jfat. ifeth. 19, 4, 309-512, juIY/AU 1955. Authors any equations far die ~~~n :kuexm rressib,'o fluidl have been solved only (cc constant .ity! pressure-gradlear, They give A solution for a further class of suesm velocity tribUtioas, assuming, always, that Ptandti num5et - 1, viscosity,is proportional to temperature, and no heat transfer to body. They Introduce new variables & q, (3) said to be analogous to. Docodaitsin's variables. Vatiables e, q axe related by InteStid-Ca. Latibas wich.coordlastes X, Y and with Sa.9 arguments. With.help* of and a a-ream function 0. anthers obtain, from general aqua- tions, a special to= of equation in partial derivatives (16) ha * ' . the property dmt [cc the particulaz stream velocity distributin's V - cfl (17) which can be transformed into the common differeatw equation (20) + I where Vr) and r are new viLriables related to Authors sail? (20) is of the same (atm as the known boundary-layer equation far incompressible fluid for U - CX'. whose solutions are tabulsred.'.~ In the exceptional cAsL m - - 1, equation (20) deaece'a'es intor  Popi f-mi;w) 51Y., -,D,s 4 1-0 (22) also etrial to that of (hild (havins MoNtioas obli (Of C > 0, Acceletsted sticam') Finally, authors Siv. a transforniatian pcrjrjijjjlg A idejuj C, tilo Old arguments X, Y. For Integer aromicity of the gas, opt-cially fox air A - 1, 4, solarion cakes a simple analytical forill. Reviewer notes a parameter a patticipating ill delinition ol rri r! - abIcs (5) Is drurrainc-tel atur Sly;ng to velocity distributiod ill t, special shape (17b end so e constancy of moblig*s to mainti a that distribution. Accariiin,3 to this, authors title their psper~ "Certain particular cases However, thti pos3ibility o1 vaq- lag C and m gives to expression (17) certain Ill tPilbillry, acid, 6.lre- fore, reviewer believer., authors' solution may be of practicil in- terest. Their at athematical deductions are done in an elegant Two bibliographical references Irl Rueslan atc given. L1  SHVETS, I.T. Some scientific problems in the field of heat-power engineering. Vie- nyk AN URSR 26 no.2:3-14 F 155- (KM 8:4) 1; Dianly ehl'9n AN UIM (Heat engineering)  S VWS LT - 9 .. Situation and problems of scientific research in the fiela of the history of technolog7 in the Ukrainian S.S.R. Visnyk AN URSR 26 no.9:61-72 S 155. (KLRA 8:11) (Ukraine-1ndustrial nrts--Ffistory)  Abst Jouroat. Zb.,-.r - M-!'Kh%n:.Ra: N.- -3. jr-q7 31~, A;,j.-Ih- r: D--ba,* E. P, T. Ins Lf.tut.l."n P t, 1. f, ~A:.o y3v fv~ ffft! it K;t -:")angfII y C)r" _9__ Peri,-vdj!.-_aI*. AN TITRSR, 195,:, N - 1., 50-533 R,.;_sE3J_".an realm.- P;-p r -~W.ts an experf_.M,~-.ntal bvdrc~-- and heat exc.-Inenge Ln -"he ~f mc~':'cn ar mpr=~_qs.'Jule 1'.quf.d I~a'X,~ M < 0.15) througti capillary chamnels. 1:1, _.i slaled ".hs.~-. th.;F~ o..rdfnaT-y qualitat~_ve laws that the and th= b_~rdx-aul..'_c~ repl.stance remafn j--r fci-~e. Card 1/ 1  USSI-II/Fiv Mc. cl ian.".c 3 X)s Jour: Re' '71 r Mcklaanika, No 11`171'; 90Y Authci, Shvets, I. T., D.7ban, Ye. P. Inst T-Itle, Investil-lation of the energy exchange in the mounting clearances al~' herring-bone stems of working blades. Or--'-c P,,i'): Sb. tr. In-t. teT)loenerr,-. MISSSR, lc)'--;'-, No 13, 3-19 CD I-0 j ~ Abstract: 'Results o_f' 'LlIlle experimental investic-ation of heat- emission and hydraulic resistance to the flux of air Lhrou.-h clearances in Joints between turbine blades anC herringDone stems are Siven. A description of apparatus and methods of measurement is included. The vali-dit,., of t.,ie laws of Poiseuille and Blasius -Lor 11-he tcrefficient of resistance of a capillary tube wit7- laminar and turbulent flow of air through _LU confirmed, and certain condit-Jons for the existence of a transition state are established. Erm-.,.*,.rJ_cal conr-7-Ttional dependence relationships are Cal-d 1/2  SOV 1 '4 z;7 8 ~' 10 3 F latwn- f rorn- Reie rat,-. rv L~ zfTj rri;.o 5 7 N - 8 f) 7 5 USSR'! AUTHORS- Sh-. -t~ '. T, D,;bat. Ye. P Kc, N Ii! 'r 'T L,E 71:1.esf~.gaficn. c; ~he c.ing ~-,; 'ri r- r.: Wl_e,~~, Mcans cT. Air 3~cwrl T,,rcu.gli the Gaps r I.Le S-lailovif .&:i Mc: ct:rigg C tne 3ades '!ssledc ar.~~ie +h__izh(:.e-J;ya 7- - pr~-i'_ ~0"- ~Z~iu'rla cherez moi-azi nvvc -~azcr\. Lh a c h'; P, c-pa tol'- PER.T.ODICAL.- Sh. t rg. AN -S6R -.";b Nr pp I) ABSTRACT - Air exams nat;c,-7. c -f ft,~ne heat. d. r a v-.!.ee' eq,.._~ped ,wrh 1--,Iades when _ - ~I-ng ,;.r -, !)'11~171T' !~-_Ugh -he gdp- -.7 #,he I I. rncunt~-.gs. n e a u f' c - s s o' ~.ai T r and er-nr-.,-cv e Wei: r~f~tl -he atI:.;e ic tne elemen-s c. t~-e !U-!7t~rle wheei a-d ~,~erebv el : - - - -, 4 r determine the temperature :'felc In the reg.c-m ni the swa_'.'*c,~;.-Ta~I M(-,t;-Iing5 EcuatJons are a so iC!' '2.t~ I..~Mper~ture 01 tne r~rn n the roo, reg or, and for ~he atr-"O%v .,e wheel. 's dir cc,eled bv mears o, rad'a" '_'cw, and tne ~ftect. e-ess ..-, 'Ihe two C~'ro i;' rnehcd5 cf coci Ing are cornp,rec T-... compa.-.son, shown- -J,.at I-_e.  SOV! 1 ~4 1;7 S )l ,i~c Cuc,~;rio oi Turbirie Wheels by Means o~' A~r Blown ~conf_ (-,-c ~:-.o -,iec,ceress of he method employing an air flow rhrc,;ch the Svvallcv, -a !YI(''I!n1:!I,I., gaps is greater than tliat. of the radial.-flow method Ref also RZhMek- 0 1111~7. T\ir L I Ca.~d  'k - . - . . I FEDOROV, V.I.; SHVETS, I.T.; SHELI~MNKO, U.N. Experimental investigation of temperature distribution in a rotor of drum design subject to nonsteady heat exchange. Trudy Inst.tepl. AN URSR no.13:53-59 156. (MLRA 10:5) (Turbines)  SHVETS', I.T., akademik.;DIRAN, Ye.P.;GRWIERENKO, O.A. .Heat_~kchange in the herring bons blade fastening zone of rotors. [with summary in Raglish]. Dop. AN URSH np.1:38-41 '57. (KLRA 10:4) 1. Akademiya nauk bMM (for Shvets). 2. Institut toployenergetikl AN UFAR. (Impellers) (Heat-Transmission)  A1JT1i0R: _Lt_'Tt_,_4cademician1 Gerashchenkov O.A.t Candidate ~?hvets. - echnical Sciences and )yban, E.P., Candidate of of T Technical Sciences. 96-7-4/25 Investigation of the temperature fields in the roots of the working blades of tu~7bines using electrical models. (Issledovaniye temperaturnykh poley v zone khvostovikov rabochikh lopatok turbin na elektricheskikh modelyakh.) P_~~U.ODICAL: "Teploenergetiiza "(Thermal Power), 1957, Vol.L~, IT.O.?, pp. 20 - 26 (U.S.S.R.) ABS'_'L'HA,CT The increasingly sevm working conditions in steam and oaiticularly in 6~as turbines make increasing demands on !he preliminary design calculations of the tempei-ature fields in the most heavily loaded parts. Determination of the to:aiperature fields in the region of the blade roots is particularly necessary since these govern the condit- W ions of heat exchange between the blades and the disc or drum parts of the rotor. Most blade root designs are of symmetrical profile. Therefore, the determination of temperatun fields is a two-dimensional problem. This is C4rdi/8 not strictly true insofar as ti_~ansition from the blade profile proper to the root is asymmetrical and it should be justified experimentally as was done in the tests  Investigation of the temperature fields in t~e roots of the working blades of turbines using electrical models. (Cont.) 96-7-4/25 described here. An eq,~ation is given for the heat conduction in rectangular co-ordinates for plane steady the-mal con- ditions. In the particular case considered this ecua- tion can only be solved by a numerical method. An analysis was made of various methods of solving the problem and this showed that -the analogue method and particularly the electro-thermal analoGue method is simplest. The general principle of the electro-thermal anal- ogue consists of obsc;rving similarity of the following conditions in the thermal original and the electrical model: 1) geometrical similarity; 2) similarity of potentials; 3) similarity of fielcl5of conduct- ivity, and 4) similarity of boundary conditions. The fulfilment of these conditions is briefly discussed. For the purpose of carrying out electro-model Card 2/8 measurements use was made of an integrator -31-talh-6/53, the circuit of -~--ihich is E~Lven in Fig. 1. A step-down transforme~r with full wave rectifier gives an output  Investigation of the temperature fields in the roots of the working blades of turbLnes using electrical 0 models. (Cont. 96-7-4/25 of 28 volts, the measurin- device is a decade and potentiometer which permits readings to be made with an accuracy of 0.1~,.'Y of the total potential difference. The boundary conditions can be set up roughly by a potential divider with steps of 10~_'. Boundary poten- tials are set up more accurately by special dividers. The conductin- medium consisted of special electric- ally conducted paper, different kinds of which have different conductivity. The electrical non-uniformity of paper of a given quality does not exceed 5cl~_. The experimental procedure is as follows: a work- ing scale (usually of the order of 20:1) is selected from the working draurings. On the basis of experi- ence of analogous blade roots the mean temperature of the blade and rotor is roug1ily estimated and the ratio of their the=21 conductivities is deteTnined so that card 3/8 the appropriate quality of conducting paper can be selected. The two halves of the model are then cut out of the paper and joined with an electrically  Investigation of the temperature fields in the roots of the working blades of turbines UsIng. electrical models. (Cont.) 96-7-4/25 wriducLini,: tvlhof~.ivo. Tho condoctivtty of pA'ps and the addiLdonal Uiuiijial roslAaiice of contuctliib~- suffaces are represented by further strips of conduct- ing paper. The model is connected to the integrator and equipotential lines are found with a probe. These lines correspond to isotherms. The thermal resistance of the root is read& determined. a The coefficien-, at transfer from the gas to the working surfaces of the blade may be determined by one of -the published methods. Ten equations were compared and were found to agree within + 2550'. The heat that passes through the root is removed by air 3-a contact with the lateral sarfaces of the disc and so the disc may be replaced by an equivalent resistance. The blade roots tested were typical of those used in practice including double and single mushroom- card 4/8 shaped (of the Kharkov Turbine Works (XT3)desiSa)md:dr tree-shaped (of the Neva Works (Nevskogo Zavod) design) and also fir tree-sha-Ded with free fitting blades from I  Investigation of the temperature fields in the roots of the working blades of turbines using electrical models. (Cont.) 96-7-4/25 oix avlation turbine engines of Soviet production. In each case the Uoti.Ll ii)siotancc and the temperature field of the root was detertained. In add- ition separate series of tests were made to elucidate the -,)hysical nature of heat exchange processes in the region of the roots. Some of the test results in the form of charts of relative equi-potential lines are given in Figs. 2, 3 and 4. fn order to check the ace- uracy of modelling determinations were first made of the temperature fields of roots in direct thermal experiments. Fi;,-~-. 2 shows dimensionless equipotential cD lines in the root of the working blade of E~ turbine together with isotherms. The thermal test- results lie between the electric model results using the tmio limit- ing assumptions in preparation of the model. The tests that have been done show that for the majority of blade Card 5/8 roots the thermal resistance on the contacting planes is very small (for circumferential speeds of the onier of 300 metres/sec the thexmal resistance of contact  Investigation of Lhe temperature fields in the roots of the working blades of turbines u ' electrical models. (Cont.) S~ ~-7 -54/2 5 does not exceed 0.0001 m 2/hr.OC/kcal) and has practic- ally no influence on the temperature distribution in the zone of the roots. This considerably simplifies the conduct of -the experiments. Until now the mechanism of heat exchange near blade roots of fir tree shape has remained unexplained. We had supposed that most of the heat is transmitted throuCh the erection g-aps. However, special tests made on the electrical model showed that when the resistance of the e mction gaps was increased to infinity the temperature field was hardly changed. This showed that the main part of the heat is transmitted through the contacting surfaces and the tensile forces on the blade have no influence because with a compression of about 40 kg/cm (the minimum obtained in the previous work) the heat transfer coefficient at contact exceeds 5 000 Card 6/8 kcal/m hrs. OC. This result is illustrated in Fig. 4. Hence it may be concluded that the additional thermal resistance of -fir tree-shaped blade roots is  Investigation of the tempeinature fields in the roots of the working blades of turbines usin-S electrical mode 1s (Cont. ) 96-7-4/25 mainly due to increase in the length of the path through which heat passes and the contraction (or expansion) of Wic Flow lines with sudden change in the area of the CondUCLU'v. The electro-modellinG pi-ocedurc, waa uand W (IsAur- mine the actual thermal resistance of some typical blade root desig~ns and the results are given in Table 2. It is concluded that if axial heat leakage may be neglected the temoerature fields in the zone of tile blade roots may be deteimined by means of electrick--l paper models. The method is simple and the results are in good agreement v;ith those of thermal experiment. Tl'ne procedure car, also be used to study the influence of such factors as the rate of supply or removal of heat, the type of joint, or the operating conditions on the temperature field of the disc. Card 7/8 When axial leak-age of heat in the zone of the roots cannot be neglected, data obtained from an electr-ical model for the radial thermal resistance makes it  InvestiSation of the temperature fields in the roots of the working blades of turbines using, electrical models. (C ont . ) 96-7--4/25 possible to replace the region of the root joint by a ring of equivalent resistance and dimensions. The method described by Kndrnschild may then be used to determine the temperature field of a disc of this land. There are 5 figures, 2 tables and 8 references, 6 of which are Slavic. ASSOCIATION: Institute of Therval Bnginee ring of the Ac.Sc. of t1io Ukrainian OSSR. (In!jtitut Teploonetyetiki AN USSR) AVAILABLE: card 8/8  SHMS, I.T.; [Shvets',.I.Tj; DYBAN, Ye. P. DeveloDinp methods for engineering calculations involved in the cooling of turbine rotors. Ilauk. zap. Kylv. un. 16 no.16:43-50 '57. (Turbines) (MM 13:3)  24(8);26(1) PHASE I BOOK EXPLOITATION Sov/1982 Shvets, Ivan Trofimovich, and Yevgeniy Pavlovich Dyban Opredelenip temperaturnogo polya okalazhdayamogo oblopacheanogo turbinnogo disks, (Determining the Temperatum Field of Cooled Turbine Rotors) Kiyev, Izd-vo All USSR, 1958- 75 p. 2,000 copies printed. Dponsoring Agency: kkademiya nauk Ukrainskoy SSR. Institut teltloenerg-ptiki. Resp. Ed.: M.A. Kondak, Doctor of Technical Sciences; Ed. of Publishing House: I.V. Kisina., Tech. Ed.: I.D. Milekhin. PURPOSE: This book is intended for engineers and scientific personnel concerned with turbine design and my also be of use to students of aeronautical and power engineering vuzes preparing diploma projects. COVERAGE: The book presents the results of theoretical and experimental investi- .Ations on heat exchange and cooling of turbine rotor disks performed at the g Institut teploenergetikil AN USSR Heat-Itiver Kngineering Institute, Ac&de:kY of Sciences, Ukrainian SSR. A method of electrothermal ar-logy permitting a simple Card 1/4  Determining -the Temperature Field of (Cont. SOV/1982 and sufficiently emct solution of two -dime ns ional problems of heat conductivity is presented. The effects of temperature fields during initial heating on the state of stress of an intensively cooled disk arra analyzed as are the bases for hydraulic calculation of cooling systems. The book contains data necessary for engineering calculations of the temperature fields of cooled turbine disks based mainly on test results obtained by the authors in the heat-engine lab- oratory of the Heat-Power Engineering Institute, UkrSSR. In analyzing problems connected with the determination of the temperature field of a disk cQoled by a radial blower, this book uses the material from a dissertation by Candidate O.A. Gerashchenko. Candiclate of Technical Sciences N.M. Kondak participated in the analysis of results of an experimental study of heat ex- change in the slit channels between the blade roots, in the construction of the test setup, and in performing the tests. There are 32 references: 28 Soviet, 3 English, and 1 German. TA-BLE OF COWMNTS: PI"'I NCO Standard Symbols 5 Card 2/4  IYaternidning the TLemperature Field of (coat.) sov/1982 Introduction 7 11eat Flows in a Cooled Turbine Rotor Disk 19 aftat exchange between rotor disk and surrounding Medium 19 Heat transfer from the working body to the effective outer Mdius of the rotor disk 21 Determination of Mass Flow and Pressure of the Cooling Air 40 Summary of Fesults 6o conclusions 66 Bibliography 68 Appendixes: 70 Card 3/4  Determining the Temperature Field of (Cont.) SOV/19B2 Appendix 1: Physical parameters of dry air for P = 735-5 mm mercury column 70 Appendix 2: Value of Bessel functions from an imaginary argument 71 Appendix 3: Kernels of the clAracteristic Uation /1; J, ( ~d ) - BiJO ( 7 ) 73 Appendix 4: Values of the constants An 2 2 iBi R + Bi.2 74 n AVAILABLE: Library of Congress IS/f&l 8-4-59 Card 4/4  I 26(l) PHASE I BOOK EXPLOITATION sov/1966 Shvets, Ivan Trofimovich Gazoturbinnyye ustanovki (Gas Turbine Installations) Kiyev, AN Ukrainskoy 03-11, 1958. 122 p. 8,000 copies printed. Errata slip inserted. Sponsoring Agency: Akademiya nauk Ukrainskoy SSR, Kiyev. Institut toploonergetiki. Resp. Ed.: Ye. P. Dyban, Candidate of Technical Sciences; Ed. of Publishing House: T.K. Remennik; Tech. Ed.: M.I. Tefimova, PURPOSE: This book may be useful to beginners in the study of the modern heat engine - the gas turbine. COVERAGE: The book covers fundamentals of theory and design of various types of gas turbines. The historical development of the gas turbine from the beg~Lnning of the 20th century is given in brief. The author states that the Wevskiy Plant imeni Lenin produces turbines of liooo - 6,ooo kv with TOO*C working-gaa teVerature. It is also stated that the production of gas turbines has begun at the Leningrad Metal Plant, KhTGZ (Khar1kov Turbogenerator Plant) and the Kirov Plant in Leningrad. Locomotive gas-turbines are produced at the Kolomna and Lugansk Card 1/4  Gas Turbine Installations sovI1966 Diesel Locomotive Plants, and at the Leningrad Metal plant produ6tion of a 25,000 kv turbine is under way. A test model of a 50,000 kv stationary gas turbine is also under way at KMZ. The following scientists In this fleld are mentioned: N. Ye. Zhukovskiy, A.S. Chaplygin, B.N. Yuryev, A.S. Khristianovich, L.G, Loytsyanskiy, A.I.Sedov and G.I. Zotikov. There are 17 references: 15 Soviet, 1 English and 1 German. TABLE OF CONTENTS Introduction 3 Fundamentals of the Theory of Heat Processes in Gas Turbines 17 Gas Turbines with Constant Combustion Pressure 22 Determination of the efficiency and optimm pressure increetse in the cycle 22 Installations with heat regeneration 27 Losses of pressure in cycles 31 Compression in a compressor with interstage air cooling 34 Intermediate heating of gas during exparmion 40 Card 2/4)  Gas Turbine Installations sovI1966 Cycle of a gas turbine with interstage cooling of air in the compressor and intermediate heating of gas in the turbine 46 Influence of gas temperature in front of the turbine and air 11-empe-ratuil-, in front of the compressor on the efficiency of a gas turbine 50 Inf luence of 7?-r and 'fy on the efficiency of a gas turbine 51 Efficiency of a gas turbine 55 Gas Turbines With a Constant Combustion Volume Closed Cycle Gas Turbines Gas Turbine Heat Diagrams and Their Analysis Fundamentals of Gas Turbine Heat Analysis Gas Turbine Design Compressors Turbines Gas turbine regulation 57 62 71 77 83 83 88 98 Card 3/4  Gas Turbine Installations sovI1966 A:Lrcrmfb Gas Turbines Regenerators Fuel and Combustion Chambers Chembers for liquid fuel Gaseous fuel Solid fuel Bibliography AVAILABIE: Library of Congress (TXM.S526) 102 109 112 114 1-17 i:L8 122 IS/mas Card 4/4 8-19-59  J PHASE I BOOK EXPLOITATION SOV/3898 SOV/31-14-14 Akademiya naWc UkrSSR. Institut teploenergetiki Teplooljmen 5- gidrodinamika (Heat Transfer and Hydrodynamics) Kiyev, 191~8. 190 p. (Series: Its: Sbornik trudov, no. 14) 2,000 Copi,~-s printed. Ed8. of Publishing House- Ya.L. Kaplan and N.M. Labinova; Tech. Efl'.: M,I. Yef1mova; Editorial Board: I.T. Shvets (ResP. Ed.) Academy of Sciences UkrSSR; G.M. Shchegolev (Deputy Resp. Ed.~, Candidate of Technical Sciences; N.M. Kondak (Resp. Secretsa-j), Candidate of Technical Sciences; V.I. Tolubinskiy, Cor'-espondlng Member, Academy of Sciences UkrSSR; I.I. Chernobyl'- -::~kiy, Doctor of Technical Sciences; M.M. Nazarchuk, Candidate of Techr-Ical Sciences; P.I. Lavrov, Candidate of Technical Sci- encesi P.D. Shvetsov, Professor; and N.M. Pyatyshkin, Candidate of 1~--..haleal Sciences. P-URP',')'SE: !Uhis collection of articles is intended for scientific ,,t)---kers and technical personnel in the fields of heat transfer and hydrodynamics. C(TTEPUE~CzE: r-Phis collection of 18 articles deals with experimental ,-i " - ...-I t,~,,~~7iretical studies of problems in heat transfer and hydro- -"/7  H-aatl- and Hydrodynamics SOV/3898 dyna?-~il ~E as they affect steam and gas turbines and heat-transfer results of theoretical investigations of heat trans- in -111?rbine components and in elements of heat-utilizing appar- :~Lre deacribed,and new calculation methods are suggested. D--oblems of the thermodynamics and aerodynamics of steam 1~,nd g-as are discussed. References follow each article. T TAO,'-B., 0? 1,10'hTENTS: I I Shvets. I.T., O.A. Gerashchenko, and Ye.P. Dyban. Investigation of the T Fields in the Hubs of Turbine Rotors by Means cf the Method 3 -asis of a theoretical analysis of the system of equa- tllon.i describing the temperature field of a bladed rotor, the authora present a method for taking into account the thermal of the blade stems. This method may be used for of steady-state heat conditions as well as t~~ ady- state conditions. V.M., O.A. Gerashchenko., and M.M. Nazarchuk. Approximate fcr~ Determining Temperature Fields and Stresses In a Drum- c Rot-or at StaAing 20 t C a:,