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Perforated Partition Walls in Extra-Long Tunnels: A One-Dimensional Flow Model Based on Orifice Theory
China Railway-Southwest Research Institute Co., Ltd., Chengdu, China
* Corresponding Authors: Yunchao Du. Email: ,
Fluid Dynamics & Materials Processing 2026, 22(4), 6 https://doi.org/10.32604/fdmp.2026.080083
Received 02 February 2026; Accepted 08 April 2026; Issue published 07 May 2026
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Perforated partition walls are widely employed in complex underground transportation systems to mitigate tunnel pressure waves, harness train-induced piston wind for reduced ventilation energy consumption, and support emergency operations. Building on orifice flow theory, this study develops a one-dimensional flow model for tunnels equipped with perforated partition walls. The model is applied to examine the aerodynamic performance of such walls in extra-long tunnels through a comprehensive parametric analysis, considering the presence of openings, opening ratio, spacing, and spatial arrangement. The results demonstrate that, for opening ratios, defined as the ratio of the perimeter of a single opening to the wetted perimeter of the tunnel on the train-passing side, ranging from 0 to 0.32, the model accurately captures train-induced pressure fluctuations. The introduction of a perforated partition wall reduces the overall amplitude of pressure fluctuations by 41.7% compared with the non-perforated configuration. Specifically, pressure peaks outside the leading and trailing cars decrease by 41.4% and 28.5%, respectively. Increasing the opening area enhances cross-wall airflow and effectively attenuates pressure fluctuations on the train-passing side, while reducing opening spacing further intensifies this effect. For a fixed number and ratio of openings, a uniformly distributed arrangement along the entire wall produces smoother pressure variations than configurations concentrated near the center or ends. An optimal design is identified, consisting of a uniform opening distribution with an opening ratio of 0.20 and a spacing of 10 m.Keywords
High-speed train; extra-long tunnel; perforated partition wall; pressure fluctuations; one-dimensional flow model
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APA Style
Du, Y., Shi, X., Liu, Z., Wu, J. (2026). Perforated Partition Walls in Extra-Long Tunnels: A One-Dimensional Flow Model Based on Orifice Theory. Fluid Dynamics & Materials Processing, 22(4), 6. https://doi.org/10.32604/fdmp.2026.080083
Vancouver Style
Du Y, Shi X, Liu Z, Wu J. Perforated Partition Walls in Extra-Long Tunnels: A One-Dimensional Flow Model Based on Orifice Theory. Fluid Dyn Mater Proc. 2026;22(4):6. https://doi.org/10.32604/fdmp.2026.080083
IEEE Style
Y. Du, X. Shi, Z. Liu, and J. Wu, “Perforated Partition Walls in Extra-Long Tunnels: A One-Dimensional Flow Model Based on Orifice Theory,” Fluid Dyn. Mater. Proc., vol. 22, no. 4, pp. 6, 2026. https://doi.org/10.32604/fdmp.2026.080083
Copyright © 2026 The Author(s). Published by Tech Science Press.This work is licensed under a Creative Commons Attribution 4.0 International License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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