A comparative study of field measurements of the pressure wave with analytical aerodynamic model for the high speed train in tunnels |
Kim, Hyo-Gyu
(JS G&B Inc.)
Choi, Pan-Gyu (Div. of CFD Engineering, JS G&B Inc.) Hong, Yoo-Jung (Div. of R&D Center, JS G&B Inc.) Yoo, Ji-Oh (Dept. of Automotive Engineering, Shin-Han University) |
1 | Anderson (2011), Fundamentals of aerodynamics, 5th Edition, McGraw-Hill, pp. 572-575. |
2 | Baron, A., Molteni, P., Viegevano, L. (2006), "High-speed trains: Prediction of micro-pressure wave radiation from tunnel portals", Journal of Sound and Vibration, No. 296, pp. 59-72. |
3 | Choi, J.K., Jeong, S.M., Kim, K.H. (2013), "Pressure change inside the train according to an increase in speed of the train travelling in tunnels", Conference of THE KOREAN SOCIETY FOR RAILWAY, KSR2013A130. |
4 | Hara, T. (1960), "Aerodynamic problems when train is running into tunnel with large velocity", Railway Technical Research Report(In Japanese), No. 153(12), pp. 1-20. |
5 | Hong, S.W., Yun, S.H., Cho, T.H., Kwon H.B. (2014), "Study on the required Air-tightness performance of passenger train operated in the a line of GTX network", Conference of THE KOREAN SOCIETY FOR RAILWAY, KSR2014A387. |
6 | Howe, M.S. (1998), "Mach number dependence of the compression wave generated by a highspeed train entering a tunnel", Journal of Sound and Vibration, No. 212(1), pp. 23-36. DOI |
7 | International Union of Railways (2005), "Determination of railway tunnel cross-sectional areas on the basis of aerodynamic considerations", International Union of Railways (UIC), 2nd edition, pp. 11-16. |
8 | Kaoua, J.N., Pope, C.W., Henson, D.A. (2006), "A parametric study into the factors affecting the development and alleviation of micro-pressure waves in railway tunnels", 12th AVVT, pp. 789-804. |
9 | Miyachi, T., Ozawa, S., Fukuda, T., Iida, M., Arai, T. (2011), "A new simple equation governing distortion of compression wave propagating through shinkansen tunnel with slab tracks", Japan Society of Mechanical Engineers, Vol. 79, No. 785, pp. 60-73. |
10 | Oh, H.J., Shin, D.Y., Lee, S.G., Kim, D.H. (2012), "Numerical study of pressure wave in underground station with vent shaft position", Conference of THE KOREAN OF COMPUTATIONAL FLUIDS ENGINEERING, No. 11, pp. 306-313 |
11 | Ozawa, S. (1979), "Studies of micro-pressure wave radiated from a tunnel exit", Railway Technical Research Report(In Japanese), No. 1121(7), pp. 1-92. |
12 | Palmero, N.M., Vardy, A. (2014), "Tunnel gradients and aural health criterion for train passengers, proceedings of the institution of mechanical engineers part F-journal of rail and rapid transit", No. 228(7), pp. 821-832. DOI |
13 | Sibilla, S., Baron, A., Mossi, M. (2001), "The alleviation of the aerodynamics drag and wave effects of high-speed trains in very long tunnels", Journal of Wind Engineering and Industrial Aerodynamics, No. 89, pp. 365-401. |
14 | Tollmien, W. (1927), "Der luftwiderstand und druckverlauf bei der fahrt von zugen in einem tunnel", VDI-Zeitschrift Vol. 71, pp. 199-203. |
15 | Vardy, A., Brown, J. (2002), "An overview of wave propagation in tunnels", TRANSAERO - A European Initiative on Transient Aerodynamics for Railway System Optimisation, Notes on Numerical Fluid Mechanics, Vol. 79, pp. 249-266. DOI |
16 | Yamamoto, A. (1983), "Aerodynamics of train and tunnel", Railway Technical Research Report(In Japanese), No. 1230(3), pp. 1-70. |