多隧道气压频变环境下动车组客室压力舒适性实车试验——以西成秦岭山区、宝兰高铁为例

doi:10.3973/j.issn.2096-4498.2025.09.006

隧道建设（中英文） ›› 2025, Vol. 45 ›› Issue (9): 1684-1697.DOI: 10.3973/j.issn.2096-4498.2025.09.006

多隧道气压频变环境下动车组客室压力舒适性实车试验——以西成秦岭山区、宝兰高铁为例

马瑶^{1， 2}，梅元贵^{1， *}，杜权¹，魏康¹，万有财¹

(1. 兰州交通大学甘肃省轨道交通力学应用工程实验室，甘肃兰州 730070； 2. 中车长春轨道客车股份有限公司工程研究中心，吉林长春 130062）

出版日期:2025-09-20 发布日期:2025-09-20
作者简介:马瑶（1994—），女，吉林长春人，兰州交通大学载运工具运用工程专业在读博士，研究方向为轨道交通空气动力学及应用。E-mail： mayao62@163.com。*通信作者：梅元贵， E-mail： meiyuangui@163.com。

Real-Train Tests on Pressure Comfort of Passenger Compartment of EMUs Under Frequent Air Pressure Variations in Multi-Tunnel Environments: Case Studies of Qinling Mountains Section of Xi′an-Chengdu High-Speed Railway and Baoji-Lanzhou High-Speed Railway

MA Yao^{1, 2}, MEI Yuangui^{1, *}, DU Quan¹, WEI Kang¹, WAN Youcai¹

(1. Gansu Province Engineering Laboratory of Rail Transit Mechanics Application, Lanzhou Jiaotong University, Lanzhou 730070, Gansu, China; 2. National Rail Transit Engineering Research Center, CRRC Changchun Railway Vehicles Co., Ltd., Changchun 130062, Jilin, China)

Online:2025-09-20 Published:2025-09-20

摘要/Abstract

摘要： 我国西北地区高铁线路长大隧道、隧道群分布密集，且线路气压环境受海拔影响持续变化，动车组频繁穿越此类复杂隧道环境时，车内压力波动显著加剧，从而影响车内人员耳部压力舒适性。为解决该问题，基于西成线秦岭山区段（西安北—汉中）和宝兰线（天水—兰州）的实车试验数据，系统研究高速动车组通过不同线路时车内外压力波动规律、压力舒适性及整车气密效率的变化特性。结果表明： 1）隧道坡度增大显著加剧车内压力波动，25‰坡度下Δp/1 s和Δp/3 s分别增加了64.8%和51.35%； 2）隧道群会恶化动车组车内外压力舒适性环境，导致车内压力累积下降，且不同车厢间压力峰峰值差异小于4.44%，R²>98.61%； 3）基于UIC 660的压力舒适度评价指数PCI显示，西成线秦岭山区段压力舒适度劣于宝兰线，且同一线路下行方向更易引发耳部不适； 4）不同线路环境下客室压力保护阀开闭特征不同，通过宝兰线不同隧道动车组的整车气密效率均值为0.77，较西成线秦岭山区段高60.4%。

关键词: 隧道群, 隧道坡度, 多隧道线路, 压力舒适性, 整车气密效率, 实车试验

Abstract: High-speed railway lines in northwestern China include densely distributed long tunnels and tunnel groups, where continuous variations in air pressure arise from altitude changes. When electric multiple units (EMUs) frequently traverse such complex tunnel environments, pressure fluctuations inside passenger compartments intensify, adversely affecting passengers′ aural comfort. In this study, based on full-scale real-train test data from the Qinling Mountains section of the Xi′an-Chengdu high-speed railway and the Baoji-Lanzhou high-speed railway, the characteristics of internal/external pressure fluctuations, pressure comfort, and airtightness efficiency of high-speed EMUs operating on different lines are systematically investigated. The results show that (1) increasing tunnel slope significantly amplifies internal pressure fluctuations, with Δp/1 s and Δp/3 s rising by 64.8% and 51.35%, respectively, under a 25‰ slope; (2) tunnel groups degrade pressure comfort both inside and outside the train, causing cumulative internal pressure reductions, although peak-to-peak pressure variations between compartments remain below 4.44% (R²> 98.61%); (3) the pressure comfort index, evaluated using UIC 660, indicates that passenger comfort in the Qinling Mountains section of the Xi′an-Chengdu high-speed railway is inferior to that of the Baoji-Lanzhou high-speed railway, with the downward direction on the same line more prone to inducing aural discomfort; and (4) the opening/closing characteristics of passenger compartment pressure protection valves vary with line environment. The average airtightness efficiency of EMUs on the Baoji-Lanzhou high-speed railway is 0.77, which is 60.4% higher than that of the Qinling Mountains section of the Xi′an-Chengdu high-speed railway.

Key words: tunnel group, tunnel slope, multi-tunnel lines, pressure comfort, train airtightness efficiency, real-train test

马瑶, 梅元贵, 杜权, 魏康, 万有财. 多隧道气压频变环境下动车组客室压力舒适性实车试验——以西成秦岭山区、宝兰高铁为例[J]. 隧道建设, 2025, 45(9): 1684-1697.

MA Yao, MEI Yuangui, DU Quan, WEI Kang, WAN Youcai. Real-Train Tests on Pressure Comfort of Passenger Compartment of EMUs Under Frequent Air Pressure Variations in Multi-Tunnel Environments: Case Studies of Qinling Mountains Section of Xi′an-Chengdu High-Speed Railway and Baoji-Lanzhou High-Speed Railway[J]. Tunnel Construction, 2025, 45(9): 1684-1697.

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多隧道气压频变环境下动车组客室压力舒适性实车试验——以西成秦岭山区、宝兰高铁为例

Real-Train Tests on Pressure Comfort of Passenger Compartment of EMUs Under Frequent Air Pressure Variations in Multi-Tunnel Environments: Case Studies of Qinling Mountains Section of Xi′an-Chengdu High-Speed Railway and Baoji-Lanzhou High-Speed Railway

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