The principal sources of aerodynamic drag on simple trains in tunnels are (a) surface skin friction and (b) stagnation pressure losses at the nose and tail. On sufficiently long trains, the first of these is dominant. On shorter trains, local losses can be more important.
This paper seeks to provide a theoretical basis for predictions of the dependence of drag on the train/tunnel blockage ratio, attention being given to tunnel resistance as well as to train resistance. Hitherto, most predictions have relied on empirical formulae.
It is shown that the train skin friction coefficient varies approximately linearly with the blockage ratio, βz. The dependence increases with increasing train roughness. The nose loss coefficient kN is shown to be smaller than 0.1 for reasonably streamlined noses. An approximate relationship between kN and βz is hypothesized. The tail loss coefficient kT is shown to be approximately equal to β2z for poorly streamlined tails. A tail shape coefficient is introduced for use with more streamlined tails.
VardyA. E.FoxJ. A.Compressible and leaky trains in tunnels. Proc. Instn Mech. Engrs, Part D, 1987, 201(D3), 209–215.
2.
SchultzM.SockelH.Pressure transients in short tunnels. Proceedings of Seventh International Symposium on The aerodynamics and ventilation of vehicle tunnels (Ed. HaerterA.), Brighton, 27–29 November 1991, pp. 221–237 (BHR Group, Cranfield).
MatsuoK.AokiT.KashimuraH.IwamotoK.NoguchiY.TsujimotoY.Numerical simulation of an impulsive wave emitted from an exit of high-speed railway tunnel. Proceedings of Third International Conference on Computer aided design, manufacture and operation in the railway and other advanced mass transit systems, Washington, D.C., 18–20 August 1992, Vol. 2, pp. 455–463.
5.
WoodsW. A.PopeC. W.Secondary aerodynamic effects in rail tunnels during vehicle entry. Proceedings of Second International Symposium on The aerodynamics and ventilation of vehicle tunnels, Cambridge, 23–25 March 1976, C56–C71 (BHR Group, Cranfield).
6.
DaymanB.HammittA. G.HolwayH. P.TuckerC. E.VardyA. E.Alleviation of pressure pulse effects for trains entering tunnels. US Department of Transport report UMTA-MA-06-0100-79-10, 1979.
7.
GlöckleH.PfretzschnerP.High speed tests with ICE/V passing through tunnels. Proceedings of Sixth International Symposium on The aerodynamics and ventilation of vehicle tunnels, Durham, 27–29 September 1988, pp. 23–44 (BHR Group, Cranfield).
8.
GaillardM. A.Aerodynamic measurements with high-speed trains (250 km/h) in the Heitersberg Tunnel. Proceedings of Third International Symposium on The aerodynamics and ventilation of vehicle tunnels, 19–21 March 1979, pp. 281–302 (BHR Group, Cranfield).
9.
FoxJ. A.HensonD. A.The prediction of the magnitudes of pressure transients generated by a train entering a single tunnel. Proc. Instn Civ. Engrs, 1971, 49(5), 53–69.
10.
WoodsW. A.PopeC. W.A generalised flow prediction method for the unsteady flow generated by a train in a single track tunnel. Proceedings of International Symposium on The aerodynamics of transportation, Niagara, USA, 18–20 June 1979, pp. 137–151 (American Society of Mechanical Engineers, New York).
11.
SchlichtingH.Boundary layer theory, 7th edition, 1979 (McGraw-Hill, New York).
12.
JainA. K.Accurate explicit equation for friction factor. J. Hydraul. Engng, ASCE, 1976, 102, 674–677.
13.
BrunoneB.GoliaU.GrecoM.Modelling of fast transients by numerical methods. Proceedings of Ninth Round Table IAHR Group, Valencia, Spain, 1991, pp. 273–280.
14.
SchultzM.SockelH.The influence of unsteady friction on the propagation of pressure waves in tunnels. Proceedings of Seventh International Symposium on The aerodynamics and ventilation of vehicle tunnels (Ed. HaerterA.), Brighton, 27–29 November 1991, pp. 123–136 (BHR Group, Cranfield).
15.
VardyA. E.Approximating unsteady friction at high Reynolds numbers. Proceedings of International Conference on Unsteady flow and fluid transients, Durham, 29 September-2 October 1992, pp. 21–29 (Balkema Press, Wallingford).
16.
BarrowH.PopeC. W.A simple analysis of flow and heat transfer in railway tunnels. Heat and Fluid Flow, 1987, 8(2), 119–123.
17.
HaraT.Method of measuring the aerodynamic drag of trains. Bull. J. Soc. Mech. Engrs, 1965, 8(31), 390–396.
18.
GawthorpeR. G.PopeC. W.GreenR. H.Analysis of train drag in various configurations of long tunnel. Proceedings of Third International Symposium on The aerodynamics and ventilation of vehicle tunnels, Sheffield, 19–21 March 1979, pp. 257–280 (BHR Group, Cranfield).
19.
MaedaT.KinoshitaM.KajiyamaH.TanemotoK.Estimation of aerodynamic drag of Shinkansen trains from pressure rise in tunnel. Proceedings of Sixth International Symposium on The aerodynamics and ventilation of vehicle tunnels, Durham, 27–29 September 1988, pp. 61–78 (BHR Group, Cranfield).
20.
GaillardM. A.Aerodynamics of trains in tunnels. Proceedings of First International Symposium on The aerodynamics and ventilation of vehicle tunnels, Canterbury, 10–12 April 1973, pp. J33–J47 (BHRA Group, Cranfield).
21.
VardyA. E.Aerodynamic drag on trains in tunnels. Part 1: synthesis and definitions. Proc. Instn Mech. Engrs, Part F, 1996, 210(F1), 29–38.
