Reducing Railway Induced Ground-Borne Vibration by Using Trenches and Buried Soft Barriers

被引:10
|
作者
Jiang, J. [1 ]
Toward, M. G. R. [1 ]
Dijckmans, A. [2 ]
Thompson, D. J. [1 ]
Degrande, G. [2 ]
Lombaert, G. [2 ]
Ryue, J. [3 ]
机构
[1] Univ Southampton, Inst Sound & Vibrat Res, Southampton SO17 1BJ, Hants, England
[2] Katholieke Univ Leuven, Dept Civil Engn, Leuven, Belgium
[3] Univ Ulsan, Sch Naval Architecture & Ocean Engn, Ulsan, South Korea
来源
NOISE AND VIBRATION MITIGATION FOR RAIL TRANSPORTATION SYSTEMS | 2015年 / 126卷
关键词
D O I
10.1007/978-3-662-44832-8_65
中图分类号
TH [机械、仪表工业];
学科分类号
0802 ;
摘要
To reduce railway induced low frequency vibration, two mitigation measures - open trenches and buried soft wall barriers have been studied in this paper by using coupled finite element-boundary element models. These models were developed at KU Leuven and ISVR, and have been cross-validated within the EU FP7 project RIVAS (Railway Induced Vibration Abatement Solutions). Variations in the width, depth, location of trench and properties of soft barrier material are considered under various soil conditions. Results show that in all ground conditions, the notional rectangular open trench performs better than the other constructions. The width of an open trench has little influence on its performance, whereas increasing the width of a filled trench reduces the stiffness of the barrier, improving the performance of the trench. Likewise, fill materials with lower Young's modulus give higher insertion losses.
引用
收藏
页码:555 / 562
页数:8
相关论文
共 50 条
  • [41] The influence of the soil on track dynamics and ground-borne vibration
    Auersch, L.
    NOISE AND VIBRATION MITIGATION FOR RAIL TRANSPORTATION SYSTEMS, 2008, 99 : 122 - 128
  • [42] Wireless Measurement System for Ground-borne Vibration and Vibration Amplifications in Buildings
    Yoshihiro Hirao
    Sunao Kunimatsu
    Takuji Hamamoto
    MAPAN, 2012, 27 : 231 - 239
  • [43] Wireless Measurement System for Ground-borne Vibration and Vibration Amplifications in Buildings
    Hirao, Y.
    Kunimatsu, S.
    Hamamoto, T.
    MAPAN-JOURNAL OF METROLOGY SOCIETY OF INDIA, 2012, 27 (04): : 231 - 239
  • [44] Ground-borne noise and vibration: classification of railway vehicles based on a track-independent vehicle indicator
    Ntotsios, E.
    Thompson, D.
    Reumers, P.
    Nelain, B.
    Degrande, G.
    Bouvet, P.
    XII INTERNATIONAL CONFERENCE ON STRUCTURAL DYNAMICS, EURODYN 2023, 2024, 2647
  • [45] Ground-Borne Vibration due to Railway Traffic: A Review of Excitation Mechanisms, Prediction Methods and Mitigation Measures
    Lombaert, G.
    Degrande, G.
    Francois, S.
    Thompson, D. J.
    NOISE AND VIBRATION MITIGATION FOR RAIL TRANSPORTATION SYSTEMS, 2015, 126 : 253 - 287
  • [46] Field Measurement and Energy Analysis of Ground-Borne Vibration around High-Speed Railway Viaduct
    Cao, Yanmei
    Xiang, Qi
    Li, Boyang
    Li, Zhaoyang
    SHOCK AND VIBRATION, 2023, 2023
  • [47] Predicting railway-induced ground-borne noise from the vibration of radiating building elements using power-based building acoustics theory
    Villot, Michel
    Jean, Philippe
    Grau, Loic
    Bailhache, Simon
    INTERNATIONAL JOURNAL OF RAIL TRANSPORTATION, 2018, 6 (01) : 38 - 54
  • [48] Prediction of ground-borne vibration induced by a moving underground train based on excitation experiments
    Liu, Weifeng
    Wu, Zongzhen
    Li, Chunyang
    Xu, Lihui
    JOURNAL OF SOUND AND VIBRATION, 2022, 523
  • [49] Simulation of Ground-borne Vibration and Noise Due to High -speed Trains through Changsha Railway Station
    Shen Daoming
    Zhang Laidong
    Xue Songtao
    PROCEEDINGS OF THE 5TH INTERNATIONAL CONFERENCE ON CIVIL ENGINEERING AND TRANSPORTATION 2015, 2016, 30 : 1599 - 1603
  • [50] Prediction of train-induced ground-borne vibration transmission considering parametric uncertainties
    Tao, Ziyu
    Zhang, Duo
    Tu, Desi
    He, Lingshan
    Zou, Chao
    PROBABILISTIC ENGINEERING MECHANICS, 2025, 79
12345