SCIENTIFIC ABSTRACT VUJEVIC, P. - VUKALOVICH, M.P.

VUJ'-'.IITC 9 P. niermal eoriditior!S of the Met~orolcfllcal f)bgerv,3t,,.T- y z~ F Belprads. WI se wit 13", no.9;11,1-153 163. 1. Sulinitted October 12, 1962.  vaivic, P. Difference between summer and fall precipitation as a "ano for evaluating its maritime or continental character* po 1. Vols 46, 1955. (Srpska akadeodja nauka. Geografaki institut. ZBORNIK RADOVAt Beograd) SOURCE: East European Accessions List, (ESAL) Library of Congress, Vol. 5, No. 8, August, 1956s  VUZM, Pavles 1881- ad. ZBORNIK radova posvecen jovanu Cvijicu,, povodom tridesetpetogodianjice nauenog rada., od prijatelja i saradnika. Reausil do travaux offert a M. Jovan Cvijic par sea amis at collaborateurs a lloccasion do ses trente-cinq- ana do-travail acientifique. Beograd,, Drzavua staVarija, 1924, 646 po mvs* (29-U33) QU1.Z4  ~5! 571  SLT:Uwlxl ZT. ca~pa) j Civen Names Country. Yugoslavia no Academic Degrees: t given Affiliation: !not itut.9 -of-Y11:t~e r Medicine of the People's Republic 0 arbija (Vaterinarski insiWit-NRS) Belgrade source*. Belgrade, Vaterinaraki Zlasnik, No 5, 1961s PP 377-382- Data: 'Administration of 'Frantin* in the Prevention of Namatodirosis.6 Authores -VUJIQ, 3. PETROV3-3, K. -S-E~VER,  TU_CQ SL.~= XRDZILLIC, P.; VUJIC, B and BABIC, P., o-f -the Veterinary improvement In- 'jti-.Utc (Za _' -1 vod za Unapredjeznje Veterinarstja) j~q Belgrade, the Veterin- aTy Center (Veterinarski Centar) in Sjen-ica, and the Galenika FIB .-abbreviation not oxplaine.'7 in Belgrade. 'Troncl~al Pneumonia among Lambs in the Sjenica-Pester Highlands." Belgrade, Vete::-inarski Glasnik, Vol 17, 1,10 7, 1963, pp 641-644. Abstract: In contrast to incidence amon- adult shoo , in which bronchial U P -oneumonia is most likely to strike during times of transition from one season to another, bronchial pneumonia is most common among lambs in the Sjenican-Pestor highlands during the hottest months of summer. The ob- sorvation3 of the authors loac~ them to reject lung parasites and viru-es as possible causes. Two factors seem to be -~he moot important, viz., inadequate diet and the climate of the area in summer (extremely hot days and cold nights). Lambs need better food and to be allowed to build uD resistance. Four illustrations, one table, no references. 1/1  4*4 q Id 4 I - I PH Oft 15, V. -% id! In W.i a ft p'. 130 P, 1r; a h ^ 5 to  4r g  lYTJGC) V J -,~'T C 17L ~771 C U C -h8 I r, -, t I i t f E r a E. I ,A A.,~ I - r rin n r:3 d,'! ~- r.*, o tuva "Coc". o 11-1 Lz!z-hri a n,~' ~,-jrq Ptrxd.4 t In I" t4 k4 hora' 9~i suoimary rqc6iflod-7 A oa:ie of Lit o. Th Mt "-,3,atlbc-;7 j 0.3-S ay In JRnuavv 1 1 c~d th 'n r.) `5 i i t r r 'r es ar."j, moln a~ 'Ict; e~ wa s n and' 1,lai-ch 2- -j .1 ~4- Llo Q - . CA C 1'r' 3 C bl~ 10; e.~ t~, m Ina t t o n c e s v-:j-veal e t~: a ex I f!- L'. e Epo n 9 o v ! a fe v ar-f %I  4 , ; j.(jGkjj, F, FFISY Duanni F4 7 no.1/2:241 31 lp,,F Inatitull;e of Auv)matlon, Fv~soaroh tuid Sector N Liubljana, Trza3l,-~a ~-. 2,  L Y U 11.0 IT AT 1011 u j c i c L W Cr, 1 one I Je I a C a Jadrijevi C p te I am r t an r I c v i c j io r d C, Genera,, tjtj.-9 )f .je infijr,trv (Opsta taktika kopnene vOj3ke). E. r a 1) r1 q -i k-1 1 lug FrrAt a 9 1 Se r - d o p t e q p r n E T 0 p " %- .-,, A q C Ci C S a7* r o r e d f o r c e is ( ft c C i c -3 9. u e r I t a t i c a , d '- f e n f, e t a c t c 9 C Omf: a t t a C t i C PURPOSE: This book ia designed-' r j u a in I I I t a r v p e r 8 rt e t h general irtfantry tactics. 6 fT frr t1in d e a t; n r C tj I a - I v w i t h r t funmery, SIMA f B a .1 1 C c- o of tacticg, Commdnd, Incurf"11 V C, 'i ans! -~e ~ en 5 e an -)-r::? a t a r- t i o ri a fo 7 m i, I ~ t a r y art 6 g ie r a !In 5Eire oiscuaged. T it I,, F C  _57 AM301 3 5 5 rac I Cs as a r arsch a L, I.,he mi L i L dry ocience a m -act-ice en tx:-~-dt IV~ Tactical commands 15(: -at actLons VTI. Movements -- 443 V T T.1, ,P P.,3 ;, I P. g4 7 5 SUb -(~DF "i SUBHTTI'El: 0 0 0 6 4 NO REF SOV, 002 CITHE R 1.39 Ct,,d 22  1 Z'q;~'d Jo 17- ul Y z ~o'-,ju;j oti, ~jnvqYv (r.A4-..zr,;rs it 4' Irc C; '-.,E To.,.  NEDELJKOVICP Srecko, dr; JOSIPWICP Vladan, doe., dr; DURIC, Vukosava, dr; SPUZICY Ivan# dr; PEntASK6V2:C, Dragoalav, dr; _VU.TIC, Ljubica, dr MyocardiPl infarct in subjects under 40 years of age. Med. glas. 15 no.3:139-144 14r 161. 11 ' - 1. Interna klinika B. Nedicinakog fakulteta u Beogmdu (Upravnik: prof. dr R. Berovic) I Dom narodnog zdravlja u Beogradu (Upravnik: dr S. Jancic) Opota bolnica u Bihaeu (Upravnik: dr M. Tatlic) (MYOCARDIAL INFARCT case reports)  vwic) m. IXJIC, M. Coriparison bet-ween recirrocating, turborrop, and jet enkitics on thn baqis of Weight to ;ower ratio. ni- 51. Po. 45, 1955 ZPOHNiK F?%Xvili Eeograd, Yugoslavia So: Eastern Eurorean Accessior. Vol.5 No. h April 1956  1wics M. a VURC$ 214. TheorctiCal possiblliti~-.s of increas'n" heat trannfr~r to o"l in int(.-n% 1- combustion ergines. c. 73. Ill'o. 45, 1955 ,tIT r ZEOr, Beograd, Yugoslavia So: Eastern Europoar. Accession Vol. 5 No. 4 'Pril 195 56  TUJIC. X.-; STAMBMVIC. L. Case of acute ileus caused by- giant entereocystona. Acta chir. Jugool. .1 no.4:363-367 1954. 1. Hlrursko odaljenjo Gradake bolnice u Senti (W dr. Milan Vuljic) i fttolooko-anatomaki institut Kedicinske velike skole u Beogradu (Upravnik prof. dr. Irsenofon Sahovic) (HIKARTOKA enterocystoma, causing acute ileus, surg.) (IMSTINAL OBMUCTION atiol. & pathogen. anterocyntons, surg-5  VUJIC., M "Possibilities Od Flight in the Universe". p. 198, (NAUKA I PhIhODA) Vol. 6, No. 5,, 1953, Rebgrad, Yiigoslavia ) SO: Monthly List of East European Accessions L. C. Vol.3, No. 4, April 1954  Viij I C, M. The study of complete inversion of the uterus. Srpoki arb. calok. lek. 83 no.5-6:688-6911 14sy-June 55. 1. Hlrursko-ginekolosl-o odelenje Javne bolnice u Senti. Upravnik: Milan, M. Vujic. (UTMUS, die. inversion, completn. surg., hysterectomy (Ser))  y TT - ------------ muc-FROPI'm JET EIMIIIM 5all. "nmlsaf DC.AIO(EFI( RLrIFR(r Tl IA f 11 -;~ " '12, -1 (' ryls!s Cv WFII 'vir' Q~ MIT. V5717.M. qj r 00101C tc -'Cr'vr rrt I , ns n r 1 ,n:*,, '-wr T ri m i -r. c ;r u-~ - i - r%. af-c-C'I q 72C kr./Il !n ~ha Oc4ur. Rcc I or--cc c I ng figims ar,i t4~ ~ndl aj--c-leii onL!ntia; J,C ~nfln,,4 ar,i lvl'l~d lrt Or, r rtjj-!~ COJIL,-) 11;'0 i. irr o3z 1,r 9 ,Tho o"'11131 'T's dr, in luir 5 c-;;1. .(,r i"ra i rcr f., L ,1 0 L ;"-r "ur cc ,r,c it rg -!'w! ifi rit nr ---vpr,,ssrr) ;,.r abe'A 0.15r) lfjvr-,.P. t r~ol a -fllgt L- S 'Miur far., ~Lj.  VMD121OVIC., Svet -ozar Transportation problem of linear programming. Zeleziice Jug 19 no.9;12-18 3 163.  VUKALOVICII, M. I - (Dr.,Prof.) Moscow -L?nergetica Inztttu-ee "Thermal Properties of Imperfect Gases." paper presented at Conf. on Thermodynamic and Transport Properties of Fluids, held by the Inst. of Mech. Etigr., London, 10-12 July 1958.  VUKAJLOVIC, R. Using aerial rit'les in the preparation of firing,, p. 71 VOJ141 GLASNIK (Jugoslavengka narodna armija) Beograd, Yugoslavia. Vol. 12; no. 10 Jan 1956 Monthly List of East European Accessions EFAI LC,, Vol. 8, no. 6, June 1959 Unitla.  VUKALOVICH, M.P., doktor tekhn, nauk, prof.; GUREYEV, A.N., Inzli. - ------ l-"'-'-:'- I ~ -1- F-xperimental study of the heat capacity c Z) of carbon dlcxide. Teplo- onergetika 11 no.8:80-83 Ag 164. (MIRA 18:7) 1. Moskovskiy energeticheakiy institut.  ItultI" V 1, -,,-a ,.- .1-3 k.' n telchn. riallk. AL, fy -.,,y-,, nia u k ; -, L-;;-, Jrzh., 6! tan Exijari:aental FLu-cly of the hoat cap,-.,zty of carl)on at a E, ge t 3 k8 en I o P, n hi-gh pre-ssurea. .1. Moskovskiy energaLiciiesli,!Y Liq3titlit-  UKUM11CH , doktor tePhil. nauk, prof.; AliTUNIP, V.V., kand. tekhn. aia~ nauk; GURCEY~;'i, A.N., kpand. tlek,.-n. rwauk Experimental study of the heat capacity c, of carbon dioxide at high Ixenvures. Teploenergetala 12 no.7:5 -62 J1. 1651. (MIPA 18-7) 1. I-Ioskovskiy energeticheskiy institut.  T T T 7 7 T I Z 7 7 7 so to 1009 tow 0$0 GNU-- WPM 41 gum- 1L jVW. N- 33-4g)-- ASO, 1, 18) to tham swu %*load to cvv ast u a I In . X, ; a, at; 11, IaI -00 coo Xse wool 1 41 nd aa w I w in I a 4 3 1 1 woe  4 1 6 1 1 1 14 t 11. W 11 1& 11 so a & L Al It r 14 k.1 MON I b so RIM t capefty of f lee LOM'scitand 1. f. Nova MWE'Nch IM N j i .. O. . the pvceding abvtmc~ is i ee, OV030. S. heat calpanty of Aamocatert URGICAL LITIOATLAKE CLASIWK&ItCu L WALL --ZT-T- 1) u S1 it PO Is 91 [trill ~qfit Ka KO Ofult t(K 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0; 0 0 0 0 0 0 0 0 a -00 i-00 pe". Amd. 11 1-128~-Tbe theory of =00 appUed to calculation o(the pac J. J. 0. as* 1 200 1 91 I boo too W U nd 0 0 0 % i too -cc. 1 .9 L 4 . o , ! dn' 0 10 0 o 0 o 0 0 0 o 0 0 0, :!1$ *00 *so 00900 00 0 0 0 0!  - 9 oil 00 000 009 Of *0 00 004 00 00 sew eqp I A$4 I&A NUTALLOKKAA. U11ROW11 CLAUVC&TOM to the Ism Of dkt. VAVW- NOTOW. Boa. 490 1:4Q6101- w" ima wkb proputilhe of sk F aopkpd bavv Nd= of the C. P. A. *still CK G". 141 01 a ow .11 K a it a 9 v -a doo 0- 0-0-#_O 0019000 4p 0 1 -00 -.00 .00 coo .00 00 b'o 0  004 004 00 tt~ Tho "addee ad $00 01 ftd 4200. M. P. VurkwK - S, WKS 1. 1. Nav"V. c4mm. "lid. Maglimit)-AmmutbW a system 4 simple umAm W am Wed in fuma-wilm wquU. with its drst-acdet awn, product. mid cc lbe twatiod of State of c1spr" to tech r4 =Y' the Cquatisma 4 -,of ov - ATO - a as . . .), wbeft a - 4c- ,Vr #Igo, It (1/0). e is 0 proportionauty tool'. mw No is the no. 41 cotadead dwm 4 (tw4am ~wt to a s*k- mal. by the savem. proc"a. 'Applytm the van ckt Wdals cogreciiams to each em 1. ON equation lot Ica Pac* A(T)NMAVI I - wkcm 4 n - (A/R7) + (CRI 14 * t-)/I) - b &ad B(r) - ibeft/7" * 01)"); a and it we CM van der w"1$ CMOs. This dewrilm waur vapor at Xvomm up to 223 atms. mind trmpa. ficat aim. to 6W* with me , deviation ut 411 For diAt. Sum a" #k, tbq dcvkd= in Sess twe 1-219: Gruter Promm is mm by comWelma more exteadcd &SSW=. The amma. theory is -a practical sod gmtpk than the kimKk ON Bard Fudue uckc. d at, in =arclaucft M We =;[c S. R. lConma a 6 A. S L A ACTALLY116CAL WINAt"i tLASWCAT01 11 an Q 1xii 0'r 0- two- *-a itAi 011i wiffs st 41 4m a a V I IF w I a 0 of 0 ire -74 0 c !-00 -00 -00 of* we* so* 0*0 go* CO* 000 fir** 4410 as*, ISO* no* woo  VUKIIIIILOVICII$ M. P. The thermodynamic properties of stealil, tables ana diavrorns Moskva, G,s. crici-j-. izd-vo, 19h6. 87 p. (52-64171) TJ20'8.VBh 1. Steam. 2. Thermodyiiairdcs.  CA Is~ t.l.t UjSV*Md*G"- P, M& (Tbe i6ts Gi d. .U=ftu-'p-s P---. . is ft, 464 ao"). %a"*' 19 . lm. i3sm 419Z str  Ar"VICIlt doktor tukhn,nauk,, prof.; ZUBAIIEV V.N kand,tak-hn.raukj -,.: -- PRUSAKOVO P.G.# kand.teklin,nauk; ALEXSANDRO~j A,;:, kand.tokhaenauk The in-diagram of steam at 800-15000C temperatures and pressures up to 1000 bar# Teploozergetika, 12 no,100&89 0 165, (MIRA 18:10) lo Moskovskiy energeticbeskiy instituto  VUKAWVICHq M. P. *Heat Conductivity of Nonstationory Presses"," by*A.V.Lykov, "aw-Leningrad State Power Preas,, 1948, Reviewed by M.P.Vukalovich,, Sov. KnIga,, No*7, 1949  YUM"Y 96AA., doktor tekhnicheskikh nauk, professor; FONOKAREVA, K.A., inzhener, redaktor; PMVA, S.M.. tekhnicheskiy redaktor. (Thermodynamic properties of water and of water vapor] Termodinami- cheekle evoistva vody i Yodnogo para. 4-e izd. Koskva, Gos. nauchno- takhn. izd-vo mashinostroit. lit-ry, 1951. 93 P. (KLRA 8:2) (water) (Steam) (Thermodynamics)  PTI-ASE I TREASURE ISLAND BIBLIOGRAPHICAL REPORT AID 164 - I BOOK Call Ka.i TJ265.V84 Authors VUUUNICH, M. P. and NOVIKOV, 1. 1. F'ull Titles TECRICIVIftNODYMMICS Transliterated Titles Tekhnichaskaya termodinamika, JAN 54 Publishing Data Originating Agencys None Publishing Houses State Publishing House of Literature on Power Engineering Date: 1952 No. pp 567 No. of copies: l5pOOO f Editorial Staffs Editorst Ay~enshtat,,I. I. and Tech. Ed.-. None Shpillrayn, E. Z. Zditor-in-Chief;* None Appraiser: None Others: Thanks for assistance are given tos Prof. A. -S. Yastrzhembskly; Prof. M. V. Nosav; Assistant Prof. A. 9. Sheyndlin; Master of Eng. Sdi E. Z. Shpillra ; Prof. V. A. Wirillin; Assistant Prof. yn D. L. Kalafati; "LA to the entire'6taff assigned to the Chair of Theoretic~ Principles of Haat Technology at the Moscow Institute of Power Engineering im. Molotov. Text Data Coverage: The authors present the thermodynamic lava and related problems with specific emphasis an their analytical aspects. The authors applied statistical interpretation to the energy distribution in thermodynamic 1/2  Tekhnicheskaya termodinamika Purposet Facilities; AID 164 - I processes and differential analysis to the characteristic functions of variable parameters. They also discuss the question of the equilibrium of thermodynamic systems and their different phases. In view of the different approach, in comparison vith that given in American and British publications, this part of the book maybe o This textbook is approved by the Hinistry of Higher Mucation for students of thermotechnical branches of technical colleges, engineers, scientific workers, and teachers. For problems on technical thermodynamics and their solutions the reader is referred to the book on problems by V. A..---Kirillin and A. E. Shayndlin. gliik-Uftrinces: (1947-52) No. of Russian and 21 Available: Library of Congress. 2/2  V'r,ALOV jr- H V-). ~-. kiR iNOVSKIY. V., professor, doktor tekhaicheskikh na-uk! GOKRSHTEYN. D., professor, doktor tekhaicheakikh nauk. "Techincal thermodynamics." M.F.Vukalovich, I.I.Novikov. Reviewed by V.Kartynovskii, D.Gokhahtein. Khol.tekh. 30 no.4:76-77 0-1) '53. (Thermodynamics) (Vukalovich, M.P.) (Novikov, I.I.)  VITYADMIGH, 1% r. N15 613.5,11; .Vq Thermadmamische Eigenschaften des Wassers und des Wasserdarapfes (TATasser- sampftafeln) Auszug aus einer Arbe it ... bearbeitet von Korbert Elsner. Berlin, Techniky 1954. 94 p. diagrs.) folded in pocket on rear cover, tables. Abstract from Russian publications by M. P. VUKAa)VTCII and I. T. NOVTYOV.  VUKP,LVIJIC-H, M-P ,ACMWAN, N.G., doktor tekhnicheskikh nauko professor. glavivy redaktor; ANTSTMOT, M.S., kandidat fisiko-matswatichaskikh nank; ASTAKHOT, K-V-9 professor; ATANTIOff -Zt-.IL , professor, doktor tekhnicheskikh nank; KOFJLIN, A.I., kandidat takhnichookikh nauk; IRIPETS, B.S., Inzhener; IAZAFJV, L.P.. kandidat tekhnichookikh nauk; KAMIR, I.T., inshener; KATTUKHIN, T.M.. kandidat tekhnicheskikh nauk; NIKITIN, N.N., kandidat fittko-matematichaskikh nauk; PANICHKIV, I.A., kandidat tekhnicheskikh nauk; PETUNHOV, B.S., katididat tekhniche'skikh wuk; PODVIDZ. L.G., kandidat tekbuicheakikh nauk; SWUM A.F., inshe'ner; SKIRYAGIN, A.P., kandidat tokhnichookikh nauk; YAYNZILIBIR, N.M., proNssor, doktor tokhnichaskikh nauk; IMIZCT, O.P., kandidat tokhnichaskikh nauk; YANISHIN, B.I., kandidat tekhnicheakikh nauk; MARKLIS, X.Ye., inzhener, redaktor; KARGANOV, V.G., rodaktor grafichaskikh materialov, Inzhener; SOKOZOVA, T.F., tekhnicheskiy redaktor, (A machinebuilder's manual In six volumes) Spravochalk mashinostrottelia Y shesti tonakh. Ixd. 2-9, ispr. i dop. Moskva, Goa. nauchno-takha. Izd-vo mashinostroit. lit-ry, Vol. 2. 1954. 559 p. (MIRA, 8:1) (Kachinery-Constraction) (Keahanical engineering)  "4L)'r,fj LO V I c- rl 1*,,-,,) - -- I - -- -- - - - -1 FDKS. G.I., doktor takhnicheskikh nauk. OTechnical thermodynamics.* X.F.Tuimlovich, I.I.Novikov. Reviewed by G.I.Fake. Ilek.sta. 23 no.2,.62-64 F 154. (MLRA 7:2) Mimlovich, M.P.) (Novikov, I.I.) (Thermodynamics)  VUXALOVICH H.P., professor. doktor tokhnicheskikh nauk. laureat 'MITING'j"Premii. PONOKLMA, K.A.. inzhener, redaktor; UVAROVA, A.F., tokhnichenkly rodaktor. (Thermodynamic properties of water and steam; tables and diagrams) Termodina,micheakie evoistva vody i vodianooo para; tablitay i diagram-,V. Izd.5-e,'Moskva, Goa.nauchno-tekhn.izd-vo mashino- stroitellnoi lit-ry, 1945. 89 P. (KLAA 8:11) (Steam--Tableo, calculations, etc.) (Water--Tables, calculations, etc.)  YUKALOVICH, Mikhail Petypyich; NOVIKOV, Ivan Ivanovich; ANDRYUSHCHINKO, ktof-- FRIDKIN, A.M., tekhnicheskly redaktor. [Technical thermodyTuLmical Tekhnicheskaia. teroodinamika. Izd. 2-oo, perer. Moskva, Gos.energ.izd-vo 1955. 336 p. (MLRA 9:1) (Thermodynamics)  tj Subject USSR/Power Eng. Card 1/1 Pub. 110-a - 12/14 Author Vukalovich, Title 50 years ~i Periodical Teploenergetika', Abstract A report on Institute. AID P - 4087 M. P., Dr. Tech. Sci. Prof. the Moscow Power Institute im. V. M. Molotov. 12, 52-53, D 1955 the activities and functions of this One photo. Institution : None Submitted : No date  BWRMKOTICH, F.; VUK fall M P [translator], radaktor; KIRILLIN. V.A., (translator I ZOV. D.S., redaktor; SKVOBTSOV, I.M.. I takhaichaskLy redakt4o (Ingineering thermodynamics. Translated from the German] Tekhuichs- skmia tormodinamika. Parevod s nemetakego i red. K.P.Tukelovicha i T.A.Kirillina. Koakwa, Goo. energ. izd-vo, Pt.2. 1956. 255 P. (Thermodynamics) (MLRA 9:10)  ,, VUKAIDVICK, M.P. - -- - -- ---- ---------------- (Thermodynamic properties of water and ateez] Termodinamicheskie avoistva vody i vodianogo para. Berlin, VEB Verlag technik; Mo- skva., FEB Izd-vo Tekhnik., 1958. 245 p. (VIIRA 14:10) (Water-Thermal properties) (Steam-Thermal properties)  VORORIN, Grigoriy Ivanovich. prof. dokt.tekhn.nnuk.,jyK prof. doI-.t,tekhn.n9uk# retsenzents; PUTUKHOV, B.S.. prof., dokt.tekhn*nmukm retsenzents; ZUBAnYp TeX., dots~,kand*tektn,nRukO ret8enzentp; ISA.CHmm. V.P., dots..knnd.tekhn.nauk, retmenzent,; RASSKAZOV. D.S.. inzh.,red.; PITROVA, I.A., izd.red.; PUKEILIKOVA. N.A.. tekhn.red, (Principles of thermodynamics nnd hent trnnsfer) Oenovy termodinnmiki i teploperedachi. Moskva, Goo. izd-vo obor., promyehl., 1958. 341 P. (MIRA 11:9) (ThemodynRmice) (HeAt-Tranamission)  tKOVLOV ~Q 1A 016-4-8/24 AU111MRS: Vuhalovichl M.P.1 Dr. Tech.Sc. arid Dza=Do-.-' ~. 7. -Y TITL,': Equations of state, themo-dynarnic functions aid tables of reference points f8r water and super-heated. stec"11 up to 1000 atms ond 1000 C. (Uravneniye sostoyaniyal termodin~-.aiches'_-,iya funktsii i tablitsy opornykh tochch c1lya vo(Ty i perc-'retooo vodyanoSo para do 1000 ata i 1000 00). U PP. 4'-52 (USSR). PERIODICAL: TeDloener6etika, 1958, No.4 0 ABSTRAM: In an earlier work the authors proposed an equation of state to facilitate the preparation of steam tables. The earlier article gave results of preliminary calculations of thermnal and calorific magnitudes derived from -the equation of state over the pressure ran,,.,,e of 100 - ~50 atr,,wspheres and. the temperature ranf-,,;e of 450 - 1000 C. Iffork, done since the publication of that article -aade -it possible to considerab14 extend the range of ap,,) lie ability of the equation of state and to make it somewhat more simple and accurate. At present the equation Gives satisfactory ar;reezent with experiment -up to a precs-ure 0f 1000 atmospheres. The equation is then Uiven. Card 1/4 It ic cotii, I paratively sifo-ple cand can be used to calculate  V')4 Equations of state, bhermo-dynaLdic functions ,_nd tables of referencQ poin-Is for water and ouper-heated 101!/C~ at-n and 100OUC. tables of the thormo-dynai-iiie propertie,-.; of -aator z~zld steam, also to construct i - s, and T - S dia~--ra-js. The physical concept of interaction bet-,-jee-.- molecules, ... hich is -the basio of the equation, -, '.nd the very accurate o-,--perimental data used to deter.~Iine tho constants that enter into the equation, iaa.1,e it roliable for purposes of extrapolation. To check it a-ainst experimental results, calculations vere made at pressur up to 1000 atmospheres in the temDerature ran---c 400-650 01 where reliable experimental data already exist. The results of the comparison are :--iven in Table 1. A-s 0 0 be seen 7 up to a temperature of 500 C, the difference between calculated and ,iwasured values doos not e,--ceea 0.3%, and -the averar-e differSnce ic about 0.12%. In the sub-critical rart, -'e below 400 C the differences are -roater and reach a10. This is also to be e_x-pected alon- the saturation curve. The comparison shoyls that a,,*reermont betvie,~n calculated is satisfactou at tc-,AporatiLres above 420'JC, sinco the Card 21L~ differences are 7'.Jthin the lijAiit-, of cxpcri_:,i~~I-ntal (~=or. By employi-n-, the equation of state for stec.7' .' and the  CG-4-8/24 Equations of state them-o-dyn, ic fmctions a-~d tablo %I U --z-: of referencs Points for -..-.,ater and ;-.uper-heated stear:i u-p to 1000 at-:s and 1000 C. differential couations of thn-rmo-d,:-na.,.Acs, the autliors obtained amalZ.,-tical expressions for therno-dynamic functions and made calculations to checic the foI---*.',ulae derived. The equation of state is fir~;t userd to derive an e:xmression for the entha' -py. This is co-xared i:i-'U-h J- e,--perimental data in Table 2, sntisfacto---,-- a.-recaen:t. amres2ioa,s are then derived for the entro-py ejld inter-r-al encr-y. The authors, ussin'- the equation of ctate and the existinG Idosco,- Power Instit"ute Tables of then.io- dynamic propertier, of viatuer anj- stein at orescurcs ulp to 300 atmos-phereo and tomperature- up to 700(JC, drew up U,,bic.oc- of refe.-cncr; values of r3p-ccific volwjcz-, Ont-Ii-~'alpy Daid entrop.7 for, 'Prez;curc rLmLeol - 1000 at'-Osphol-0-1 and the te-.-iperazure ranGe 0 - 1000 C. The r~-,~;Ults of ~he ar~, ontered in Table 3; values are Uiven every 50 C. of 'Ow ref(-,~Porwo value~-.~ rhm-m -,I,?t V---, W are suitable for forLmlation of the stabed of pres-sure :;md. Loreover, tlie tablu of refercace-point:5 is itself useful for c. Card 3/11- nu,,iber of 'Wher---iai calculations and for construc-"on U-  06-4-,l'j'/24 Equations of state, functions and tabl3s of referenc- points for water mi,~~, cuper-heated st--r-. to 1000, -tms and 10006C. of i - s and T - s dia3rans. There are 3 tables and 11 references - 10 Russian, 1 Ilwl~;'--Irian. ASSOCIATION: Moscow Po,.-.,er Institute. Oloskovskiy Enerz~-ticheskiy Instuitut). AVAILABLE,: Library of Congress. C ard 4/4  AUTHOM Vukalovich, U.P. Dr. Teth.Sci., Sheyndlin, AJO-jr SOV/96-38-7-2/22 Dr.-Tech-Sc'i.' and Rasskazov, D.S. Cand.Tech.Sci. TITLE.- Investigation of the specific heat at constant pressure ep of steam up to 700 atm. and 7000C. (Issledovaiiiye Teployemkostiep vodyanogo para do 700 ata i 7000 C.) PERIODICALs Teploenergatika, 1958, No.7, pp. 7-9 (USSR) ABSTRACT: This is a continuation of the work described in Teploenergetika No.11 1957, on the cp of steam in the super-critical region from 300 to 500 atm. The same method and equipment were used in the present work. The work was done on the isobars 550, 600 and 700 atm at temperatures of 280 - 7000C. The errors are estimated not to exceed 2%. The 116 experimental values of specific heat obtained in the work are tabulated., Graphs of new experlr~ental values of specific heat in co-ordinates of c,-+,, and also values obtained in the previous investigation, are given in Fig.l. The agreement between the two sets of work is illustrated in Figs.3. and 4. by graphs of e against pressure for various isotherms. The work in the previous d3icle is also compared graphically with that of other authors in Fig.2; Card 1/2  Investigation of the specific heat at constant pressure cp .130V/9G-58-7-2/212 of steam up to 700 atm and 7000C. agreement is good and the reasons for such differences as exist are discussed. Data of other Soviet authors is included in Figs.3. and 4, and the new data are in reasonable agreement with old where they overlap. There are 4 figures, I table and 8 literature references (6 Soviet and 2 German) ASSOCIATION: Hoskovskiy Eaergeticheskiy Institut (Moscow Power Institute) 1. Stom - Specific heat 2. Sfo5am - Pressure factors 3. Steam - Temperature factors Card 2/2  AUTHOR: -y~mlpyjch M.P., Dr.Tech.Sti., Zubarev, V.N., SOV/96-58-7-3/22 ,-A- '-; Cand:'ieXlCf. iZd Prusakov, P.G., Engineer. TITLE: Experimental investigations on the enthalpy of steam I.Eksperimentallnoye issledovaniye eatallpii vodyanogo par&.) PERIODICALs Teploenergetika, 1958; N0,71 pp. 22-26 (USSR) ABSTRACTz Although extensive work has been done in the USSR on the properties of steam, there has so far been no attempt to determine directly the enthalpy of steam. Enthalpy figures have been calculated either from experimental data for C., the specific heat at constant pressure, or from the specific volume. Both methods are theoretically sound but subject to error, for ezample in integration, and appreciable differenies have been found between results obtained by the two methods. The method of determining the enthalpy of steam used in the present work is ascurate. In analogous work carried out in England by Callender and Egerton, the enthalpy error was within 0.1%. Havlicek and Miskovsky used the same method to determine the enthalpy of steam at pressures up to 400 kg/cm2 with an accuracy of 0.25%. The equipment used for the present work is illustrated diagrammatically in Fig.l., and is described in detail. Water io distilled, de-aerated and cooled; it is then pumped at the rate of 14 litres per houir to a single-pass ele~~tric boiler. In the first Card 1/4 stage of the boiler the temperature is raised to 200 - 2500C and  Experimental investigations an the enthalpy of steam. SOV/94-58-7-G/22 in the second the required temperature is reached. The steam then passes to a pressure-and temperature-measuring chamber, and thence -through two similar and separate throttling devices, in which the pressure is reduced to approximately atmospheric. Finally the steam passes to calorimeters. The rate of flow through one throttling device and calorimeter is twice that through the other. Under these conditions, by appropriate calculations, thermal losses beyond the measuring chamber can be allowed for. The experimental procedure is described and formulae used in the calculations are given. The heat extracted from the steam in the calorimeters is measured dire~ltly. A more detailed dencription of the construction of the apparatus is then given, including information about the 3alibration of the measuring equipment. The calorimeters used are illustrated in Pig.2~ and described. The accuracy of determinations depends mainly on the accuracy of measurement of the temperature difference of the cooling water, which is estimated at 0.04 - 0.05%~ The accuracy of weighing the condensate is about 0.01%. The tests were repeated several times. Other tests established that the losses in the two throttling and calorimeter installastions were equal. The maximum error in enthalpy determination is different for different regions of measurement, but should not be greater than 1.5 kcal/kg. The Card 9-1/4 experimental data obtained in the work are given in Tables 1 - 7,  Experimental investigations on the enthalpy of steam. SOV/95-i8-7-0/22 .m2, 4700C. to 400 kg/cm2, 5000C. The tables which range from 200 kg/r show that the scatter of enthalpy values round the mean does not exceed � 1.5 kcal/kg, the greatest scatter being obtained in one of the first tests at 200 kg/cm2 and 4700C. Uean values of enthalpy of steam rounded off to even values of pressure and temperatures are given in Table.8. and are zompated with other available data,. Values obtained at pressures below 300 kg/cm2 are also included- The new experimental data are in good agreement with those of Havitek and Miskovsky and with previous work of Vukalovich, but agreement with the tables of the All-Union Thermotechnical Institute is not so good. The next task before the authors is to make measurements at pressures up to 500 kg/c-m2 and temperatures up to OOOOC; the Card 3/4  Experimental investigations on the enthalpy of steam. SOV/96-58-7-6/212 region not covered by previous work will be studied in most detail, because it is here than divergencies in enthalpy tables are greatest. When the work has been done it is hoped to correct the steam tables accordingly. There are 2 figures, 8 tables and 6 literature references (5 Soviet and I German) ASSOCIATION2 Moskovskiy Energeticheakiy Inatitut (Moscow Power institute) 1. Steam - Enthalpy 2. Enthalpy - Determination Card 4/4  SOV/96-59-10-14/22 AJJTHORS: Yukalovich, M.P. (Dr.Tech.Sci )- Zubarev V N - (Cand. Tech.bel.); Aleksandrov, A.k: ?Kngineer3 a~d Kalinin, Yu.Ya. (Engineer) TITLE: An Experimental Determination of the Specific Volumes of Water up to Pressures of 1200 kg/cm2 PERIODICAL: Teploenergetikaj 1959, Nr 10, Pp 74-77 (USSR) ABSTRACT., Available information about the thermo-dynamic properties of water at high pressures is inadequate and experimental data on the specific volume of water were required. The data are needed both to formulate tables of specific volumeg and also to calculate calorific values of the specific heat at constant pressure and of the enthalpy of water at high pressures. Similar work is in hand in the U.S.A. by Kennedy, Knight and Holser. The equipment used was very similar to that described by Kirillin in Teploenergetika Nr 11, 1935. The piezometer was made of steel lKhl8N9T9 whose thermal coefficient of expansion is tabulated. Precautions taken to ensure accuraQy of the experiments are described in considerable detail. Card 1/2 Specific volumes of water were determined at six temperatures, and the experimental data are tabulated.  sov/96-59-io-lL/22 .An Experimental Determination of the Specific Volumes of Water up to Pressures of 1200 kglcm2 The maximum error of the test data calculated in the usual way is 0.06-0.08%, the latter figure relating to the maximum test temperature. The experimental data obtained in this work are compared with published . American and Soviet data at each of the six temperatures. Agreement between the present work and published American work is good; such differences as there are lie within the total experimental error of the two sets of data. At low temperatures there is good agreement with the published Soviet data, but differencss become appreoiable at higher temperatures. This is e1iidently benause values of specific volume at high pressure previously published were obtained by extrapolation of experimental data Card obtained at a pressure of 300 kg/cm2. The previously 2/2 published Soviet data of Vukalovich appeaz! to be in need of correction. There are 2 tables, 1 figure and 8 refsl ASSOCIATION: Moscow Power Institute (5 soviets 3 Eliglish) (Mozkovskiy energeticheBM-y institut)  bb ) b9 BOV/96-50-11-13/22 AUTHORS: Vukalovich. M. F.--, Doctor of Technical Sciences, a-d-11-tunin, V. V., Engineer TITLE: An Experimental Investigation of the p.-v-t Relationship of Carbon Dioxide FERIODICAL: Teploenergetika, 1959, Nr llt PP 58-65 (USSR) ABSTRACT: Knowledge of the thermo-dynamic properties of carbon dioxide in the temperature range of 500 - 7000C and pressure range of 300 - 500 atm is required for atomic and gas-turbine power engineering,, Previous work on this subject is reviewed and it is concluded that A. Michels, work is reliable in the range of 0 - 1500C and 16 - 3000 atm. Published work at higher temperatures is considered unreliable and. it was accordingly decided to make the measurements at temperatures up to 5000C and pressures up to 300 kg/cm2, Experimental procedures for studying the thermo-dynamic properties of carbon dioxide are briefly reviewed and the disadvantages of existing methods pointed out. A new method was accor- dingly developed, using an unballasted constant volume piezometer with one 'hot' valve. The quantity of gas contained in the piezometer is determined by adsorbing Card 1/4 it in another vessel. With effective adsorbents the  66569 SOV/96-'39-11-13/22 An Experimental Investigation of the p-v-t Relationship of Carbon Dioxide residual pressure in the system may be kept low, and as the adsorbent vessel is not exposed to high temperature or pressure it may be kept light so that weighing is more accurate., The experimental equipment that was used is illustrated schematically in Fig 1 and is described. Gas is admitted to the piezometer and after equilibrium has been established~the temperature and pressure are measured. Then the gas is evacuated and adsorbed in a separate vessel, The next test is made at the same temperature but higher pressure, and in this way a series of isotherms.are obtained. Two piezometers were made, one with a volume of 25 ml and the other of 75 ml, The material was steel lKhl8N9T and the ratio of external to internal diameter was 3:1, so that the piezometers worked throughout in the region of elastic strain, The 'hot' valves comprised the constant-volume type developed by D. S. Tsiklis and a valve of the authors own design. Fig 2 gives a graph of the temperature Card 2/4 distribution alon;-, the valve, as measured by thermocouples. C~ ~_r  b6 ~-69 SOV/96-59-11-13/22 An Experimental Investigation of tb~, p-i-11- Relat.-ionshil.-n of Ca:rbon Dioxido It will be seen that the presence of the valve does not distort the piezometer temperature. The temperature in the piezometer was taken by plaLinum r.,esistance thermometers, A piston manometer was used to determine the gas pressure. The gas adsorption vessel is illustrated diagrammatically in Fig 3 and is made of aluminium alloy; the weight of the vessel empty is about 60 g and the adsorbent 170 - 190 g. The most suitable adsorbent for carbon dioxide is activated charcoal. The greatest quantity of carbon dioxide adsorbed in a vessel is about 15 g, and amounts less than 5 g were rarely used. The method of determining the volume of the piezometer Js explained, The commercial carbon dioxide used was first purified: the procedure used to ensure absence of air is described,, It is considered that the error of determination of the specific volume of carbon dioxide is not greater than 0 0.2%. Control tests were made on two of the isotherms used by Michels for purposes of comparison, The results Card 3/4 obt4ined in these tests are given in Tabs 1 and 21 they LK  66369 SOV/96-59-11-13/22 An Experimental Investigation of the p-v-t Reiationship of Carbon Dioxide agree with those of Michels within 0.2%,. Some values of specific volume obtained during the initial tests are given in Tab X. Three series of tests were made in which the specific volume of carbon dioxide was determined on nine isotherms over -the temperature range of 75 - 5000C and the pressure range of 27.64 to 323.41 kg/cm2.; the results are given in Tabs 1 - 10. The measurements were made two or three times on ea(.h isotherm, and agreement between the three tests was good in a11 cases. The reproduceibility of the data was not worse than 0.1916 in the value of pv, and was 0.250161 in one case only, The results are plotted in a z-p diagram in Fig 4. They are briefly compared with those of other authors, and it will be seen from Fig 4 that the divergence increases with increase in temperature and pressure, indicating the need for further study of this question. There are 4 figures, 10 tables and 11 references, 8 of which are Soviet and 3 English. ASSOCIATION: Moskovskiy energeticheskiy institut (Moscow Power Institute) Card 4/4  HILDISKIY, Semen Yakovlevich; !~~~P -, red.; KTR IN, V.A.. red.; KOKAROV, L.P.. red.; KBYKM, K.V., red.; TYURN. P.Ya., red.; SUORTSOV. A.A., red.; LAR GKOV, G.Te., takhn.red. (Heat and electric power plants and beating from central stations] Teplofikatsiia i teploelektrotsentrali. Koskya, Goe.energ.lzd-vo, 1960. 86 p. (Biblioteka toplotakhnika, no.4). (MBA 13:9) (Heating from central stations) (Blectric power plants)  DIMOTBERG, F.M., doktor tekhn.n;ni ; LTUXSHIN,,V.S., kand.fiz.-mt.nauk; IfIBERQ* N.Ta., kand.tel~=.na~k; OBK'ORSOV, A.N., prof., doktor tekhn-nauk; PLUZE191KOV. I.S.. kend.fiz.-mat.no-ak; UKAHSHT. A.A., prof., doktor tekhn.nauk; ACHEWCA, H.S., prof.. doktor takhn.nauk, red.; prof., doktor tekhn.nauk, laureat Leninskoy premii, red.; XUDRTAVTS3V, V.N., prof., doktor tekhn.nauk, red.; POHOMRBV, S.D., prof., doktor takhn.nauk. laureat Leninskoy premii, red.; 3ATHL',--X.A*. prof.. doktor tekhn.nauk, red.; SKR S.V., akademik, red.; RESEMOV, D.N., prof.. doktor tekhn.nauk, red.; GILIDM- BERG, M.I., red.izd-va; SOKOLOTA, T.F., tekhn.red. [Reference book for msc~inery designers in six volume] Spravochnik mashinostroitelia; v shesti tomakh. Red.sovet: N.S.Acherkan L dr. lod.3., isp-r. i dop. Moskva, Goo.nauchno-takhn.izd-vo mashinostroit. lit-ry. Vol.l. Pod red.H.S.Acherkana. 1960. 592 p. (MIRA 13:10) 1. AN USSR (for Serensen). . (Nachinery--Desigm)  VUKALOIJICH, M.P., doktor- tekhn. nank, prof.; ZUBAREII, V.N.j. kand. tekbn. -.I- ~. Il- ---- nau .k,* .. PRUSAKOV, .?*G.j. inzho Experimental study of the entWpy of steam. Teploenergetika 10 no.10:63-69 063 (MIRA 170) 1. Moskovskiy energeticheskly institut.  ,BURDUN, Grigoriy Dmitriyevich, Drof.. KALASHNIKOV, Nikolay Vasillyevich; STOTSKIY,Lev Rudolifovich; U4a ,._qy~qg,~tj~,,_prof.o doktor tekhn. nauk,, laureat Laninskoy premii.. retsenzent; SHIROKG-V,K.P.,, doktor tekhn. naukp retsenzent; MKOVSKArA, G.Ye., red. (International system of units) Mezhdunarodnaia sistema edinits. Moskvat Vysshaia shkola, 1961,. 273 p. (RIRA 17:11) 1. Rukovoditell kafedry teoreticheskikh osnov teplotekhniki Mockovakogo energetichookogo inatituta (for Vukalovich). 2. Rukovoditell matrologichankogo otdola Veasoyuznogo na- uchno-iseledovatellskogo instituta metrologil imo D.I. Mendeleyeva (for Shirokov).  ACCESSION XRs AP404456o 6/0096/64/000/oog/C-068/0071 AUMORS: V*~alovichl(.~P. (Doctor of technical sciences, Professor); Altunin, V* V. (Candidate of technioal sciences); Cureyev, A. N. (Engineer) TITLEt An experimental study of 'the heat capaoity c P of carbon dioxide at high pressures SOURM Teploenergetikat no. 9, 1964p 66-71 .TOPIC TAGSs carbon dioxideg heat cal5acity# flow rate/ PPTV 1 potentiometert DM 8 differential manometer ABSTRACTt Using an adiabatic calorimeter in a semicloeed circulation system with I the experimental setup described by M. P. Vukalovich and A. N. Gureyer ("Teploenergetikall No. 8, 1960-the heat capacity c of CO was measured on the P 2 ~.basie of where Q is the quantity Gf heat given off * the calorimeter heater controlled by a PPTV-1 potentiometer in the heater power supply (8-21 XJT/hr). The thermal looses q of the calorimeter at the experimental pressures em loyed and .,,the temperatures /,100C are inoigriificanto The temperature differences fb t is the gas temperature increase in the calorimeter with the heater inpif tt is the temper-, ature difference cawed by the throttling of the pa in the calorimeter) were &rrd-- 1/3  ACCESSION M AP4044560 measured at the gas outlet with the gas inlet temperature maintained constant. G in the gas-flow through -the calorimeter, controlled by a differential manometer DM-6 jand measured in a volume flow meter. The collected gas was thermally stabilized for where: P is i.24 hours, and the volume V was calculated to determine G by 0 +k. the CO2 density, and k is a correction factor which# at the low collection pressure,' ..was 4 0.01%. This calculation gave G with a maximum error - 0. 15FA over the flow !.,range 2-5 kg/hr. The calorimetric temperature increase was limited to 4C, and the ,,resulting c on the isobar was shown to be linearly dependent on the temperature. p The experimental points plotted had a maximum scatter of 0.~%t which lies within the 'limit of reproducibility. The systematic error was calculated as O.W., giving a total error 4 O.V,. The op meaeurementa for CO 2 .were compared to measurements of ;V. E. Schrock (Hat,. Adv. Comm. Aeronaut. Tech. Note No. 2838, 1952) which were 'found to be low by 2.5%, and to measurements by H. I. Workman (Phys. Rev, v. 36, 1083, 19301 v4 37t 1345, 1931; v- 38, 587t 1931) which were low by as much as 1 A comparison with calculated values (including Ciro 564j Nat. Bur. Stand.p 1955~- ,showed that the calculated values were considerably in error. Orig. art. hast 3 .figures and 3 tables.  ~ACCESSION NR: AP40445W ISSOCIATIONt Moskovokiy energeticheokiy inotitut (Moaco* Power Engineering .''ilnatitute) !SUBMITTEDs 00 ENCLs 00 -SUB CODFt TD NO REP SOVt 003 3 OMRs 006  ACCESSIM NR: AP403TC41 810096164100010061005610058 AUTHCH: Vukalov1c.hs_, N*_.P. (Doctor of ted2nical sciences, Professor); Rasskazov, Do S. (candidate of technical sciences); Popm,, V. N. (Candidate of tedinical sciences); Babikov,, Wo X. (Engineer) TITIE: Therma"Ical properties of monoLsoprqpyUUjhezW1 SOMM Teplcleaergetlka, no. 6,,1964, 56-58 TOPIC MAW; monoisoproWldiphenyl, Hagen Poiseuille equation, Vargaftik equation, ABSTRACT: The authors present the results of an experimental investigatica of tbd density, thermal conductivity, beat capacity, and viscosity of monoisopropyldiphenyl. The density was determined by the pyncaaetric method at roon temperature and by the piezaaetric method, for a constant volme at t a 50-35OC- Frou the experiment- al results the authors determined that the temperature dependence of the density is .81, . 16-3 2 A*3 - 0.475t - 0 t '0 kz/63 Calculatica and experlment agreed within 0.7ifs. Tbarmal caa&uativity was deter- Card 1/3  ACCESSIcti m: AP037al min6d at t - 30-230C. The experimental data axe well described by the Vargaftik eqpatiou ("Teplofizicheskiye evoy'stva veshchesty," Gosemergolzdat, 1956.) B4/3 (2) Calculation accuracy was vithin experimntal error. Viscosity vas computed Qc- cording to the Hagen-PoLseville equation, 4 IrApr v 8LVL and vas measured ut t2"500. Beat capecity vas determimd, according to a fomula obtained from the thezuel balance of two calorimeters, aiA vas messured at t 38-22X, Moerimantal data an descrlbe& by the foUawing equation o~ I-6W + 34.6 10-4t (5) ;,Card  Acassica NR: AP037641 Discrepancy between calculation and experiment did not exceed 1-yp. All the above values agree within experimental error with those obtainea by N. B. Vargaftik et al. ("Neft' i gaz" no- 7, 1963). Orig. art* has: 1 figure, 5 fomulas, and 2 tables. ASSOCIATICK: Moskovskly enerpticheskiy institut (Moscow Power Institute) SU&MITTED: 00 DATE ACQ: =iw4 EWL: 00 SUB CODE& CWj -rD NO MW SOV: 013 T= 001 Card 3/3  ANT5TMOV, H.S., kand.fiz.-mat.nauk; -VUX=VjCH,-_Xa?,, profes doktor takhn.nauk, laureat Loninskoy promll; KRIPM-7-N.-Se, Insh.; T-A T9 L.P., profev doktor tekhn.nauk; KAZYRIN, LV., iazh.; NIKITIN. R.N., ksnd.fiz.,-mt.nauk; OCHKIN, A.T., insh.; PARICEM11p I.A., prof., doktor takhn.nank; PBTMOV, B.S#, prof., doktor takhn.nauk; PODTIDZ. L.Go, lmnd.tekhn.nauk; SIKONOT, A.F., insh,; SMIRYAGIN, A.P., kand.takhn.nauk; TCKWOV. G.A., kand.takhn.nauk; FAYNMIBU, J.H.. prof., dottor takh-u.naukl IMMY, GaPg kands tekhn.nauk; CHISACHENKO, T.F., kand.takha,nauk; YANISHIN, B.I., kand,,tokhn.nauk; ACHVJW, H.S*, profoo doktor takhn.nauk,, red.; KMYAVTSBV, T.N.. prof., doktor takhn.nauk, red,; POCK41W9 S.D., prof., doktor tokhn.nauk, laureat Laninskoy previlli,radel'SATS'. B.As, prof*, doktor tekhn.nauk, red,; MMON, S.T.0 okodamik, red,; RMSIMTOV, D.M.0 prof,# doktor takhn.nauk~ red.; URGANOT, T.O.9 inzh., red.grafichookikh materialov; GILIMXMG, M.L. rad.ivd-va; SOKOLOVA. T.F.. tekha.red. (Kanual of a machanioal engineer In elm volwas) Opravochalk me- shinostroitalls, v shentl tomakh. Rad.sov6t V.S.Aohorkan I dr. lzd*3., Ispr. I dop. Koskva, Gos.nauchno-tokhu.1sd-vo mashino- stroit,lit-ry, Vol,2, 1960, 740 p, (HIBA 1411) 1. AN USSR (for Sorenson). (Keebanical engineering) (Nachinery-Construotion) -1  SOV/96-60-1-14/22 '2 j4' 5, 21 0 0 AUTHORS: Vukajoyjcji.._,M.._j , Doctor of Technical Sciences, and Tzampov, B. V.1 and Zubarev,-V. N., Candidates of Technical Sciences TITLE: Tables of the Thermal-physical Properties of Ammonia PERIODICAL: Teploenergetika, 1960, Nr 1, PP 63-69 (USSR) ABSTRACT: Extensive use is now being made of ammonia as a heat- transfer5~medium, but adequate tables of its thermal physical properties are not available. Accordingly, the authors decided to study, analyse and select the most reliable experimental and calculated data on the properties of ammonia and to work out the tables given in this article. The tables of pressure, volume and temperature --over the range of 40 - 290OC; those of specific0heat at constant pressure are for the range 40 - 280 C; and the viscosity tables cover from 2 30 - 2500C. The pressure range is 1 - 800 kg/cm in all cases. International published work on the properties of ammonia is critically reviewed and the best is used in formulation of the tables. Table 1 gives values of the specific volume of ammonia for temperatures up to Card 1/2 290OC; available values for highEr temperatures were not  67645 SOV/96-60-1-14/22 Tables of the Thermal-physical Properties of Ammonia used because there is evidence of decomposition of ammonia above 2900C. The values tabulated were obtained by calculation and graphical mothods. There is satisfactory agreement with other autliars and differences do not exceed 0.2 - 0.3%, Work done on -the specific heat at constant pressure is reviewed. Values were calculated or determined graphically and the results are plotted in Fig 2. It was considered that the errors in this table may be 2 - 3%, and on the l' OC isotherm at ."o pressures of 100 - 150 kg/cm2 they may be somewhat greater. The properties of animonia on the saturation line have been studied by several authors but the data remain inadequate; the thermo-dynamic properties of ammonia on the saturation line from temDeratures of - 70.to + 132.40C,are given In Table 3. Work on the viscosity of ammonia is reviewed and values are given in Table 4. It is considered that the values in this cable are accurate and reliable up to 2500C and 800 kg/cm , TLere are 1 figure, 4 tables and 13 references, 4 of which are Soviet, 8 English and 1 German. ASSOCIATION: Moskovskiy energeticheskiy institut (Moscow Power Institute) Card 2/2  ,_VMWUG11,-j4.?..,-Aoj~ctor tekhn.nauk; DZA14POT. B.T.. kand.tekhn.nauk; ZUBARXV, V.N., kand.tekbn.nau)~ Thermod7mmic properties of a 96 percent (by volune) solution of ethyl alcohol In water. Toploonergetika 7 no.2:70-77 P 160. OGM 13:5) 1. Moskovskly snargetichaskly Institut. (Mbyl alcohol--Therml properties)  vuy=vrc;ff. K.P.. doktor tekhn.nauk; KIRILLrN, V.A. Development of thermal power engineering in the U.S.S.R. and the problems of thermodynamics. Teploenergettka 7 n0-7: 3-4 ii 16o. WRA 13:7) 1. Chlen-korrespondent AN SM (for Kirillin) (Power engineering) (Thermodynamics)  doktor tekhn.nauk; DZAMPOT. B.T., kandotakhn. nauk; R&SSELZOT, D.S., lmnd.tekhn.nauk; RENIZOT, S.A. lnzh. Theroll properties of water under pr1swares up to 1200 kg/eu and at temperatures up to 300'0- Teploonergettka 7 no.7:4-12 J1 t6o. (MIRA 13:7) 1. Nbskovskly energeticheakiyr institnto (Water-Therml properties)  -NUKAIDVICH, M.P., doktor tekhn.nauk; ZUBARFVI V.N., kand.tokhn.nauk; -- kand.tekhn.nauk Calorific properties of the 96 per cent (by volume) ethyl alcohol water solution. Teploenergetika 7 no.10:63-67 o 16o. (MIRA 14:9) 1. Moskovskiy energeticheakiy institut. (Ethyl alcohol)  MZYKLYAR 9 MikhaI2, Vladbdirovfth; - lf~ P. j re4. ; KIRI 1.;.U 9 V. A. 9 red. ; KWAROV9 L.P.9 red.; TYURINI P.Ya-.t-rW.-, TROYANSKIYq Ye.A.9 red.; BORUNOVj N.I., tekhn. red. [Engineering performance of the metal of a steam boiler] Kak ra- botast metal-I parovogo kdtla. Moskva Goo, energ. izd-yo, 1961. 93 p. (Biblioteka toplotekhnikag no.8~ (MIRA 14:8) (Boilers) (Metals)  VUKALOVICH, M.P. (-Moskva); NOVIKOV, I.I. (Moskva) Remarks on the equation describing the exponent of the adiabatic of wet steam. PMTF no-3:108-110 S-0 161. (MIRA 14:8) (Differential equations) (steam)  KIRIUIN, V.A.j YUKALOVIC %H, M.P.9- doktor tekhn.nauk -4 tta-e developments in power engineariDg and now problems in the Phy0ica of heat. Toploenergetilm 8 no.6:3-5 Je 161. (MIRA 14:10) 1. Chlen-korrespondent AN SSSR (for Kirillin). (Electric power) (Thermodynamics)  MMKAWVICH,--~ doktor takhn.nauk; DZAMPOV, B.V.., kand.tekhn.nauk; WSK=V, D.S., knnd.tekhn.nauk Thermal properties of water and steam at pressures up to 2000 kg.Am:2 and a temperature range of 300 to 10000 C. Teplooner- getika 8 no.7:48-49 JI 161. (MIRA 14:9) 1. Moskovskiy energeticheskiy institut. (Water-Thermal properties) (Steam-Thermal properties)  t3l.lin.nauk; j!-j~ -.pj-7 and "nia Teplo nc (IfIPA 14. Y  VbKALOVICH., M.P., doktor tokhn.naulc; ALTUITIN, V.V., kand.takhn.nauk Thermodynamic properties of carbon dioxide. Teploonargatika 8 no.11:73-80 R 161. Q-"mh 11': 10) 1. Moskovskiy,snergeticheskiy institut. (Carbon dioxide-Thermal prrlpr4ss)  VUKALOVICH. M.P., doktor tekhn.nauk; DZAMPOV, B.V., kand.tekhn.nauk-, - RASSKAZOV, D.S., kand.tekhn.nauk; REMIZOV, S.A., inzh. Tables of Cp heat capacity of water arKI water vapor. TeDlDenerEetika 8 no.12:70-77 D *61. (MIRA 14:12) 1. Moskovskiy energeticheskiy institut. (Heat--Tables) Ik  -- 7W.VIO.,-Kikbs,1144strovich; NOVIKOV., Ivan Ivanovich; KALAFATI, D.D., dots., kand. takhn.naukj retsenzent; SILETSKIY, V.S. red.; BORUNIOV, N.L., tekbn. red. [Technical thermodynamics] Tekhnicheskaia termodinamika. 1zd. 3 perer. i. dop. Pqd red. M.P.Vukalovicha. Moskva, Gosenergoizdat, 1962. 304 P. (Thermodynamics) (MIRA 15:7)  VUKALMICHt 14.PG '6kt~r takhn.nauk, prof.; ZMAREV, V.N. 0 kand.tekhn.nauk,; A.A., inzh,* I V Experimental determining of the specific vol=eo of steam at temperatures from 7000 to 9W C and under a pressure up to :1200 Kilogram per square centimeter. Teploenergetika 9 no.l-.49-51 Ja 162a. (MIRA 14:12) 1, Mookovskiy onergeticheskiy institut. (Steam)  VUKALOVICF, M.P., doktor tekhn.nauk, prof.: ZUBAREV, V.N., kand.tekhn.nauk; TIM-SAYOV, P.G., inzh. Experimental study of the enthalpy of water vapor. Teploonergetika 9 no.3:56-63 Mr '62. (MIRA 15:2) 1. Moskovskiy energeticheskiy institut. (Steam--Thermal properties)  39743 s/oq6/62/OOO/OO8/oo4/oo4 E194/E455 AUTHORS: Vukalovich, M.P.,'Doctor of Technical Sciences,Professor, -Zuoarev, V.N., .randidate of Technical Sciences, Fokin'. L.R., Engineer TITLE: Calculation of the thermodynamic properties of potassium vapour at temperature-s up to 1300*C and. pressures up to 25 kg/cm2 PERIODICAL; *Teploenergetika, no.8, 1962, 81-86 TEXT: Potassium vapours are a mixture of molecules of various atomicity (KI, K2 etc)- The thermodynamic properties of the components such as Kl and K2'in the ideal gas condition have been calculated previously up to 2500*K but the*properties of mixtures have apparently not been studied. This article shows that to a first approximation and up to the maximum pressures used (about 25 kg/cm2) it is possible to ignore the reality of the vapours and also the possible prosence of molecules K3, Kh and so on. Accordingly, the potassium vapours are considered as an equilib~rium mixture of chemically reactive ideal monatornic and diatomic gases. Existing data on the following subjects is Card 1/#  S/096/62/000/008/0041004 Calculation of the thermodynamic E194/E455 reviewed: hea't of dissociation, saturated vapour pressure, equilibrium concentrations and'properties of reacting mixture. The available results are used to calculate the valuvs given in Table 2. These values apply on the saturation line. The results obtained are compared with those of other authors and are discussed. An enthalpy/entropy diagram for potassium is plotted. The likely errors in the results are assessed and are mostly of the order of a few percent. There is need for more accurate experimental knowledge of the heat of dissociation of the molecule X2 and of other properties, The calculations are valid provided that thermodynamic equilibrium is set up in the mixture, but the extent to which this equilibrium is in fact observed, for example during supersonic flow of vapour, requires. special consideration. . In addition to the work described in this article, tables have been drawn up and diagrams of state constructed for suporhoutod Votammium vApour At tomporaturao up to 13000C, including the specific heats at-the speed of sound; and a more complete table of the properties of the saturated vapour has been drawn up. There are 3 figures and 2 tables. Card 2/f?',  s/oq6/62/ooo/oo8/0o4/oo4 Calculation of the thermodynamic ... E194/E455 ASSOCIATION: Moskovskiy exiergeticheskiy institut (Moscow Power Engineering Institute) Table 2 - column headings: i - t QC 2-- p, kZ cm- 3 - a" (degree of dissociation) 4 - 11 kg/kmol (weight per kilomole) 5 - v m3/kS 6 - ill kcal/kg (enthalpy) 7 ill kcal/kg (enthalpy) 8 - r, kcal/kg (specific heat of vapourization) 9'- s', kcal/kg OK (entropy) 10- sitIkcal/kg *K (entropy) Card 3/8  VUKALOVICII, M.P., doktor tekhn.nauk, prof.; ALTUNIN, V.V., kand.tekhn.nauk; inzh. Experimental study of the specific yolumes of carton diozide under temperatures ranping from 200 C to 750 ard prfossuros up to 600 kg per square centimeter. Teploenergetika 9 no.5:~6_62 my 162. (YURA 15:4) 1. Moskovskiy energeticbeskiy institut. (Carbon dioxide--Thermal properties)  s/o96/62/000/010/001/001 E202/E435 AUTHORS: Yuka1mmj-ch,-M-P- Doctor of Technical. Sciences, Professor, Zubarev, V.N., Candidate of Technical Sciences, Fokin, L.R., Engineer TITLE: Calculation of thermodynamic properties of potassium at temperatures up to 13000C and pressures up to 25 kg/cm2 PERIODICAL: Teploenergetika, no.10, 1962, 65-72 TEXT: Gases dissociating at high temperatures according to X2 jE2 2X are treated as reacting, ideal mono- and bi-atomic components of equilibrium mixtures. A table is compiled for partial derivatives of first order for pressure p , temperature T, degree of dissociation a specific volume v , entropy s enthalpy i and internal energy u. This table, compiled on the basis of published work, can also be used for the calculation of 'QT- coeff. of heat expansion and isothermal and adiabatic compressibility PT and Ps respectively.* A detailed discussion of a number of thermodynamic properties in the regions of partly condensed vapour and along the saturation curve bard 1/4 1 .1  S/096/62/000/010/001/001 Calculation of thermodynamic E202/E435 is given; it includes the differential Joule-Thomson effect aJT for superheated vapour and by referring p, a, c p to saturation curve it is possible to calculat.e the JT effect on the saturation curve, from the side of the single phase region. The Clausius-Clapeyron equation is used for the evaluation within the condensing vapour region. Detailed attention is given to the application of sound velocity in the-analyses of flow processes in vapours. In the calculation of the former, it is assumed that the vapours comprise a hydrodynamically homogeneous medium of reacting ideal gases, their degree of dryness x , 'being sufficiently high to disregard the volume and compressibility of- the liquid phase. The sound velocity is calculated from the Laplace equation, assuming infinitely small adiabatic perturbation propagated in the non-viscous and non (heat) conducting medium. Further assumptions are used in calculating the "thermodynamic" velocity of sound in superheated and saturated vapours on the side of the single phase region of the dissociating vapours. In actual calculations a concept of "sonic adiabatic indicator" was introduced, defined as Card 2/4 "Y"  s/o96/62/000/010/001/001 Calculation of thermodynamic ... Z202/E435 ks V ( ap) s, which in the came of dissociating gas was P BV c expressed as: ks where Sa - a). 2 The considerably more complex flow processes of the partly condensed vapour are also considered using largely formulae and conditions stipulated by I.I.Novikov and Yu,.S.Trelin (Prikladnaya mekhanika i tekhnicheskaya fiziki., no.2, ig6o). The latter are also used to compile a table of thermoaynamic propertie's of p6tassium vapours from 500 to 13000C, taking heat of dissociation D0(K2) = 11842 + 1000kcal/mol and taking the values of saturation 0 pressure by extrapolating the equilibrium vApour to liquid from 800 to 13000C from the experimental enthalpy daia of liquid potassium. The,,table o~ saturated,, potassium vapour lists: heat contents csat sing.ph C sing.ph. and c"two ph.' differential JT effect Pallsing.PA. vand (x"two ph- anvd the above I'sing.ph. JT JT k as k and k"twO ph- and als.osound velocities a"sing'-ph. and al'two ph.. Yet another table lists the Card 3/4 .1.  S/096/62/000/010/001/ool Calculation of thermodynamic E202/E435 following properties of superheated potassium vapours: a, specific volumes, i and s Additional three diagrams give the results of calculations on the side of the superheated vapour viz: CP vs tOC; ks vs t0C and a vs s, the last including the region of condensing vapour up to 0.6. Brief general conclusions and error analysis are included. There are 3 figures and 3 tables. ASSOCIATION: Moskovskiy energeticheskiy institut (Moscow Power Engineering Institute) Card 4/4  S/O -1 '/000/002/013/013 9 'Professor, k Doctor of Tee c&L -Sci-encess A(ttinin, V.V., Candidate of Tee-Mics-I.-Scionces.. TTT L. i An investigation of the coinpressibility of'carbox dioxide at Itigh temperatures,' PE R.i C Tcj)loenergetika, no.2, 1963, 92"9.3 Irx T)ata oil specific Volumes of CO in:the tviaperaturs. r"190 2 9 - f ''!"T LT) 7500C and at presFures up -to 600: kg./cm pr;eviousty, P!Ihl_i!,0w,d (Te r)).o (m e rget ilia, no.5, 1962) A-e supplemented by-new (Ia_(.;,i f'oj- the following isothermist, 65o.A -700, .750 &4d. 8031.3i C 4kt j)reP5Lir-cF in the range 21 to 201 kg/cm-. - Tonsible errors'in the j-Oj5-ult-i are di-SCLIS:-jed: they alay be greatest at the. highOSt. hil-t! l)ccjju-.-,c a heater flil.ed during-, the tests. Them'; j-,k,srgi ii i 1 i Ly of ois.-~ociation of the C02 during. the tests and, reactiori ivith the steel. are discueaed. There. In- I fl&". Ciird J./I  VUKALOUCH. M P daktor tekhn.nauk, prof.; ALTUNIN, V.V., kand.tekhn.nalik; R-A--imo, T A 4 N.I., inzh. Experimental determination ot-the specific volume of carbon dioxide at temperatures ranging from 40 to W C and pressures up to 600 kg./cm2. Teploanergetika 10 no.1,M-88 Ja 163. (MIRA 16-.1) 1. Moskovskiy energeticheakiy ipstitut, I (Carbon dioxide)