Passive prandtl-meyer expansion flow with homogeneous condensation

Seungwon Baek1, Soon Bum Kwon1, Heuy Dong Kim2
1Department of Mechanical Engineering, Kyungpook National University, Daegu, Korea
2School of Mechanical Engineering, Andong National University, Songchun-dong, Andong, Korea

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Tài liệu tham khảo

Adam, S. and Schnerr, G. H., 1997, “Instabilities and Bifurcation of Non-Equilibrium Two-Phase Flows,”Journal Fluid Mechanics, Vol. 348, pp. 1–28.

Bahi, L., Ross, J. M. and Nagamatsu, H. T., 1983, “Passive Shock Wave/Boundary Layer Control for Transonic Airfoil Drag Reduction,” AIAA Paper-83-0137.

Baldwin, B. S. and Lomax, H., 1978, “Thin Layer Approximation and Algebraic Model for Separated Turbulent Flows,” AIAA paper 78–257.

Delale, C. F. and Crighton, D. G., 1998, “Prandtl-Meyer Flows with Homogeneous Condensation. Part 1, Subcritical Flows,”Journal of Fluid Mechanics, Vol. 359, pp. 23–47.

Delale, C. F. and Crighton, D. G., 2001, “Prandtl-Meyer Flows with Homogeneous Condensation. Part 2, Supercritical Flows,”Journal of Fluid Mechanics, Vol. 430, pp. 231–265.

Frank, W., 1979, “Prandtl-Meyer Expansion Mit Warmezufuhr,”Z. Angew. Math. Mech., Vol. 59. pp. 223–226.

Frank, W., 1985, “Condensation Phenomena in Supersonic Nozzles,”Acta Mechanica, Vol. 54, pp. 135–156.

Kalra, S. P., 1975, “Experiments on Non-equilibrium, Nonstationary Expansion of Water Vapor/Carrier Gas Mixture in a Shock Tube,” Univ. of Toronto, Institute of Aerospace Studies, Report 195.

Kawada, H. and Mori, Y., 1973, “A Shock Tube Study on Condensation Kinetics,”Bulletin of JSME, Vol. 16, pp. 1053–1066.

Kurshakov, A. V., Saltanov, G. A. and Tkalenko, R. A., 1971, “Theoretical and Experimental Investigation of Condensation in a Centered Rarefaction Wave,”Journal of Applied Mechanics and Technical Physics, Vol. 12, No. 5, pp. 732–735.

Matsuo, K., Kawagoe, S., Sonoda, K. and Sakao, K., 1985, “Studies of Condensation Shock Waves (Part 1, Mechanism of Their Formation), ”Bulletin of JSME, Vol.28, pp. 2577–2582.

Matsuo, K., Kawagoe, S., Sonoda, K. and Setoguchi, T., 1985, “Oscillations of Laval Nozzle Flow with Condensation (Part 1),”Bulletin of JSME, Vol.28, No. 241, pp. 1416–1422.

Peters, F., 1987, “Condensation of Supersaturated Water Vapor at Low Temperatures in a Shock Tube,”J. Phys. Chem. Vol. 91, pp. 2487–2489.

Peters, F. and Paikert, B., 1989, “Nucleation and Growth Rates of Homogeneously Condensing Water Vapor in Argon from Shock Tube Experiments,”Experiments in Fluids, Vol. 7, pp. 145–156.

Raghunathan, S. R., 1988, “Passive Control of Shock-Boundary Layer Interaction,”Prog. Aerospace Sci., Vol. 25, pp. 271–296.

Schnerr, G. H., 1986, Homogene Kondensation in Sationaren Transsonischen Strömungen durch Lavaldusen und um Profile, Habilitationsschrift, Universitat Karlsruhe (TH), Germany.

Sislian, J. P. and Glass, I. I., 1976, “Conde nsation of Water Vapor in Rarefaction Waves, 1. Homogeneous Nucleation,”AIAA Jour., Vol. 14, pp. 1731–1737.

Smith, L. T., 1971, “Experimental Investigation of the Expansion of Moist Air Around a Sharp Corner,”AIAA Jour., Vol. 9, No. 10, pp. 2035–2037.

Walters, P. T., 1985, “Wetness and Efficiency Measurements in LP Turbines with an Optical Probe as an Aid to Improving Performance,” Joint ASME/IEEE Conf. on Power Generation, Paper No. 85-JPGCGT-9, Milwaukee.

Wegener, P. P. and Mack, L. M., 1958, “Condensation in Supersonic Hypersonic Wind Tunnels,” Adv. in Applied Mechanics, Academic Press, Vol. 5, pp. 307–447.

Wegener, P. P. and Pouring, A. A., 1964, “Experiments on Condensation of Water Vapor by Homogeneous Nucleation in Nozzles,”Phys. of Fluids, Vol. 7, pp. 352–361.

Wegener, P. P. and Cagliostro, D. J., 1973, “Periodic Nozzle Flow with Heat Addition,”Combustion Science and Technology, Vol. 6, pp. 269–277.

White, A. J., Young, J. B. and Walters, P. T., 1996, “Experimental Validation of Condensing Flow Theory for a Stationary Cascade of Steam Turbine Blades,”Phil. Trans. Royal Society of London, A, Vol. 354, pp. 59–88.

Yee, H.C., 1989, “A Class of High-Resolution Explicit and Implicit Shock-Capturing Methods,” NASA TM-89464.