Geodesic
An implicit relaxation method for computing steady two-dimensional flows of spontaneously condensing steam
Žurnal vyčislitelʹnoj matematiki i matematičeskoj fiziki, Tome 36 (1996) no. 6, pp. 138-151 Cet article a éte moissonné depuis la source Math-Net.Ru

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Yu. S. Kosolapov; A. S. Liberzon. An implicit relaxation method for computing steady two-dimensional flows of spontaneously condensing steam. Žurnal vyčislitelʹnoj matematiki i matematičeskoj fiziki, Tome 36 (1996) no. 6, pp. 138-151. http://geodesic.mathdoc.fr/item/ZVMMF_1996_36_6_a13/

[1] Deich M. E., Filippov G. A., Gazodinamika dvukhfaznykh sred, Energiya, M., 1968

[2] Deich M. E., Filippov G. A., Dvukhfaznye techeniya v elementakh teploenergeticheskogo oborudovaniya, Energoatomizdat, M., 1987

[3] Saltanov G. A., Neravnovesnye i nestatsionarnye protsessy v gazodinamike odnofaznykh i dvukhfaznykh sred, Nauka, M., 1979 | Zbl

[4] Sternin L. E., Osnovy gazodinamiki dvukhfaznykh techenii v soplakh, Mashinostr., M., 1974

[5] Gorbunov V. N., Pirumov U. G., Ryzhov Yu. A., Neravnovesnaya kondensatsiya v vysokoskorostnykh potokakh gaza, Mashinostr., M., 1984

[6] Davydov L. M., “Issledovanie neravnovesnoi kondensatsii v sverkhzvukovykh soplakh i struyakh”, Izv. AN SSSR. Mekhan. zhidkosti i gaza, 1971, no. 3, 66–73

[7] Tkalenko R. A., “O spontannoi kondensatsii para pri obtekanii sverkhzvukovym potokom vypuklogo ugla”, Izv. AN SSSR. Mekhan. zhidkosti i gaza, 1970, no. 5, 73–77

[8] Mathieu Ph., Smolderen J. J., “Calcul d'un ecoulement supersonique bidimensionnel d'un fluide diphasique en presence de condensation”, Internat. J. Heat and Mass Transfer., 20:10 (1977), 1003–1012 | DOI

[9] Filippov G. A., Saltanov G. A., Simanovskii G. P., “Chislennoe issledovanie do-, trans- i sverkhzvukovykh techenii spontanno kondensiruyuschegosya i vlazhnogo para v reshetkakh turbin”, Teploenergetika, 1979, no. 9, 62–65

[10] Moheban M., Young J. B., “A time-marching method for the calculation of blade-to-blade nonequilibrium wet steam flows in turbine cascades”, Paper C76/84, IMechE Conf. Comput. Methods in Turbomachinery, Birmingham, United Kingdom, 1984, 89–99

[11] Young J. B., “Two-dimensional, nonequilibrium, wet-steam calculations for nozzles and turbine cascades”, Trans. A.S.M.E. J. Turbomachinery, 114 (1992), 569–579 | DOI

[12] Denton J. D., “An improved time-marching method for turbomachinery flow calculation”, A.S.M.E. J. Engng Power., 105 (1983), 514–524 | DOI

[13] Schnerr G., “2-$\mathrm{D}$ transonic flow with energy supply by homogeneous condensation; Onset condition and 2-$\mathrm{D}$ structure of Steady Laval nozzle flow”, Experiments Fluids, 1989, no. 7, 145–156

[14] Schnerr G., “Transonic aerodynamics including strong effects from heat addition”, Comput. Fluids, 22:2/3 (1993), 103–116 | DOI

[15] Chirikhin A. V., “K raschetu avtokolebanii, initsiiruemykh spontannoi kondensatsiei potoka v transzvukovoi chasti sopla Lavalya”, Matem. modelirovanie, 4:10 (1992), 28–40

[16] Kosolapov Yu. S., Protsenko E. Yu., Chirikhin A. V., “Metod rascheta statsionarnykh i nestatsionarnykh dvumernykh techenii spontanno kondensiruyuschegosya para v soplakh”, Zh. vychisl. matem. i matem. fiz., 34:4 (1994), 597–607 | MR | Zbl

[17] Kosolapov Yu. S., “Raschet techenii spontanno kondensiruyuschegosya para v ploskoi turbinnoi reshetke”, Izv. RAN. Mekhan. zhidkosti i gaza, 1995, no. 6, 152–161

[18] Chakravarthy S. R., The versatility and reliability of Euler solvers based on high accuracy TVD formulations, AIAA Paper No 243, 1986

[19] Ivanov M. Ya., Liberzon A. C., Nigmatullin R. Z., Tsyaston A. P., “Chislennoe modelirovanie transzvukovykh prostranstvennykh techenii nevyazkogo gaza s primeneniem monotonnykh raznostnykh skhem povyshennoi tochnosti”, Konstruirovanie algoritmov i reshenie zadach matem. fiz., IP Matem. AN SSSR, M., 1989, 207–211 | Zbl

[20] Beam R. M., Warming R. F., “An implicit factored scheme for the compressible Navier-Stokes equations”, AIAA Journal, 16 (1978), 393–401 | DOI

[21] Kolgan V. P., “Primenenie printsipa minimalnykh znachenii proizvodnykh k postroeniyu konechnoraznostnykh skhem dlya rascheta razryvnykh reshenii gazovoi dinamiki”, Uch. zap. TsAGI, 3:6 (1972), 68–77

[22] Barshdorff D., “Verlauf der zustandsgroben und gasdynamische Zusammenhange bei der spontanen Kondensation reinen Wasserdampfes in Lavaldusen”, Forsch. Ingng-Wes., 37:5 (1971), 146–157 | DOI

[23] Seleznev L. N., Shanin V. K., Tsiklauri G. V., “Issledovanie spontannoi kondensatsii v shirokom diapazone nachalnogo davleniya”, Inzh.-fiz. zhurnal, 23:3 (1972), 472–478