<b>Reducing Micro-pressure Waves Using Train Nose Optimization Based on Linear Acoustic Theory</b>-Reference-Cited by-同舟云学术

<b>Reducing Micro-pressure Waves Using Train Nose Optimization Based on Linear Acoustic Theory</b>

Published:2023-05-01 Issue:2 Volume:64 Page:135-141
ISSN:0033-9008
Container-title:Quarterly Report of RTRI
language:en
Short-container-title:QR of RTRI

Author:

MIYACHI Tokuzo¹,OKUBO Hidehiko¹,KIKUCHI Katsuhiro²

Affiliation:

1. Heat and Air Flow Analysis Laboratory, Environmental Engineering Division

2. Vehicle Aerodynamics Laboratory, Environmental Engineering Division

Publisher

Railway Technical Research Institute

Subject

Mechanical Engineering

Link

https://www.jstage.jst.go.jp/article/rtriqr/64/2/64_135/_pdf

Reference21 articles.

1. [1] Ozawa, S., "Studies of micro-pressure waves from a tunnel exit." Railway Technical Research Report, No. 1121, 1979 (in Japanese).

2. [2] Kajiyama, H., Kinoshita, M., Maeda, T., Tanemoto, K., "Model experiments on effect of extension of train nose on reducing micro-pressure waves generated upon train entry into tunnel," Railway Technical Research Report, No. A-87-119, 1987 (in Japanese).

3. [3] Maeda, T., Matsumura, T., Iida, M., Nakatani, K., Uchida, K., "Effect of Shape of Train Nose on Compression Wave Generated by Train Entering Tunnel," Proceedings of the International Conference on Speedup Technology for Railway and Maglev Vehicles, pp. 315-319, 1993.

4. [4] Iida, M., Matsumura, T., Fukuda, T., Nakatani, K., Maeda, T., "Optimization of train nose shape for reducing impulsive pressure wave from tunnel exit," Transactions of the Japan Society of Mechanical Engineer Series B, Vol. 62, pp. 1428-1435, 1996 (in Japanese).

5. [5] Ogawa, T., Fujii, K., "Numerical Simulation of Compressible Flow Induced by a Train Moving in a Tunnel," Computational Fluid Dynamics Journal, Vol. 3, pp. 63-82, 1994.