References
- Zou YF, Fu ZY, He XH, et al. Wind load characteristics of wind barriers induced by high-speed trains based on field measurements. Appl Sci. 2019;9(22):4865.
- Xiong XH, Yang B, Wang KW, et al. Full-scale experiment of transient aerodynamic pressures acting on a bridge noise barrier induced by the passage of high-speed trains operating at 380–420 km/h. J Wind Eng Ind Aerodyn. 2020;204:104298.
- Baker C, Jordan S, Gilbert T, et al. Transient aerodynamic pressures and forces on trackside and overhead structures due to passing trains. Part 1: model-scale experiments; Part 2: standards applications. Proc Inst Mech Eng Part F: J Rail Rapid Transit. 2014;228(1):37–70.
- Gilbert T, Baker C, Quinn A. Gusts caused by high-speed trains in confined spaces and tunnels. J Wind Eng Ind Aerodyn. 2013;121:39–48.
- Sakuma Y, Suzuki M, Ido A, et al. Measurement of air velocity and pressure distributions around high-speed trains on board and on the ground. J Mech Syst Transp Logist. 2010;3:110–118.
- Tanaka Y, Kikuchi K, Iida M, et al. Field measurement of pressure waves radiated from tunnel portals at train entry/exit. Jpn Soc Mech Eng B. 2001;67:82–89.
- Miyachi T, Saito S, Fukuda T, et al. Propagation characteristics of tunnel compression waves with multiple peaks in the waveform of the pressure gradient: Part 1: field measurements and mathematical model. Proc Inst Mech Eng Part F: J Rail Rapid Transit. 2016;230(4):1297–1308.
- Ko YY, Chen CH, Hoe IT, et al. Field measurements of aerodynamic pressures in tunnels induced by high-speed trains. J Wind Eng Ind Aerodyn. 2012;100:19–29.
- Liu F, Yao S, Zhang J, et al. Field measurements of aerodynamic pressures in high-speed railway tunnels. Tunn Undergr Space Technol. 2018;72:97–106.
- Cheng HC, Zhang Y, He DH, et al. Experimental study on the basic laws of the aerodynamic effect of 350 km h−1 high speed railway tunnel. China Railw Sci. 2014;35(001):55–59. (in Chese).
- Fu M, Li P, Liang XF. Numerical analysis of the slipstream development around a high-speed train in a double-track tunnel. PLoS ONE. 2017;12(3):0175044.
- Jiang ZH, Liu TH, Chen XD, et al. Numerical prediction of the slipstream caused by the trains with different marshalling forms entering a tunnel. J Wind Eng Ind Aerodyn. 2019;189:276–288.
- Liu TH, Chen XD, Li WH, et al. Field study on the interior pressure variations in high-speed trains passing through tunnels of different lengths. J Wind Eng Ind Aerodyn. 2017;169:54–66.
- Liu TH, Chen MY, Chen XD, et al. Field test measurement of the dynamic tightness performance of high-speed trains and study on its influencing factors. Measurement (Mahwah NJ). 2019;138:602–613.
- Soper D, Baker C, Sterling M. Experimental investigation of the slipstream development around a container freight train using a moving model facility. J Wind Eng Ind Aerodyn. 2014;135:105–117.
- Miyachi T, Fukuda F, Saito S. Model experiment and analysis of pressure waves emitted from portals of a tunnel with a branch. J Sound Vib. 2014;333:6156–6169.
- Zhang L, Yang MZ, Liang XF, et al. Oblique tunnel portal effects on train and tunnel aerodynamics based on moving model tests. J Wind Eng Ind Aerodyn. 2017;167:128–139.
- Wang TT, Han XB, Zhang L, et al. Effect of non-circular tunnel linings on pressure transients induced by high-speed train passes through a tunnel based on moving model test. J Wind Eng Ind Aerodyn. 2021;214:104649.
- He XH, Guo KZ, Yang B, et al. Numerical simulation of air pressure load on 840 m fully-enclosed sound barrier of high-speed railway. China Railw Sci. 2020;41(03):137–144.
- Huang S, Che ZX, Li ZW, et al. Influence of tunnel cross-sectional shape on surface pressure change induced by passing metro trains. Tunn Undergr Sp Technol. 2020;106:103611.
- Choi JK, Kim KH. Effects of nose shape and tunnel cross-sectional area on aerodynamic drag of train travelling in tunnels. Tunn Undergr Sp Technol. 2014;41:62–73.
- Muñoz-Paniagua J, García J, Crespo A. Genetically aerodynamic optimization of the nose shape of a high-speed train entering a tunnel. J Wind Eng Ind Aerodyn. 2014;130:48–61.
- Rabani M, Faghih AK. Numerical analysis of airflow around a passenger train entering the tunnel. Tunn Undergr Sp Technol. 2015;45:203–213.
- Chen G, Li XB, Liu Z, et al. Dynamic analysis of the effect of nose length on train aerodynamic performance. J Wind Eng Ind Aerodyn. 2019;184:198–208.
- Li WH, Liu TH, Martinez-Vazquez P, et al. Influence of blockage ratio on slipstreams in a high-speed railway tunnel. Tunn Undergr Sp Technol. 2021;115:104055.
- Heine D, Ehrenfried K, Heine G, et al. Experimental and theoretical study of the pressure wave generation in railway tunnels with vented tunnel portals. J Wind Eng Ind Aerodyn. 2018;176:290–300.
- Guo ZJ, Liu TH, Chen ZW, et al. Comparative numerical analysis of the slipstream caused by single and double unit trains. J Wind Eng Ind Aerodyn. 2018;172:395–408.
- Huo XS, Liu TH, Chen ZW, et al. Effect of the formation type with different freight vehicles on the train aerodynamic performance. Veh Syst Dyn. 2021. doi:10.1080/00423114.2021.1981951
- Niu J, Wang Y, Liu F, et al. Numerical study on comparison of detailed flow field andaerodynamic performance of bogies of stationary train and moving train. Veh Syst Dyn. 2020;59(12):1–23.
- Niu J-Q, Zhou D, Liu T-H, et al. Numerical simulation of aerodynamic performance of a couple multiple units high-speed train. Veh Syst Dyn. 2017;55(5):681–703.
- Chu CR, Chien SY, Wang CY, et al. Numerical simulation of two trains intersecting in a tunnel. Tunn Undergr Sp Technol. 2014;42:161–174.
- Li WH, Liu TH, Chen ZW, et al. Comparative study on the unsteady slipstream induced by a single train and two trains passing each other in a tunnel. J Wind Eng Ind Aerodyn. 2020;198:104095.
- BS EN 14067-5-2010. Railway applications-aerodynamics. Part 5: requirements and test procedures for aerodynamics in tunnels. London: British Standard Institute; 2010.
- TB/T 3503.1-2018. Railway applications-aerodynamics. Part 1: symbols and units. Beijing: China Railway Press; 2018.
- Guo DL, Shang KM, Zhang Y, et al. Influences of affiliated components and train length on the train wind. Acta Mech Sin. 2016;32(2):191–205.
- Liu TH, Jiang ZH, Chen XD, et al. Wave effects in a realistic tunnel induced by the passage of high-speed trains. Tunn Undergr Sp Technol. 2019;86:224–235.
- Liu TH, Tian HQ, Liang XF. Aerodynamic effects caused by trains entering tunnels. J Transp Eng. 2010;136(9):846–853.
- Li RX, Zhao J, Zhang S, et al. Influence of the aerodynamic force to human body near high-speed trains. China Railw Sci. 2007;28(5):98–104.