Double wall barriers for the reduction of ground vibration transmission

Stiff wall barriers can be effective in reducing the transmission of environmental ground vibration. Up to now, single wall barriers have mostly been studied. In building acoustics, however, double walls are used in order to realize a high level of sound insulation. In this paper, the potential of u...

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Bibliographic Details
Published in:Soil dynamics and earthquake engineering (1984) 2017-06, Vol.97, p.1-13
Main Authors: Van hoorickx, C., Schevenels, M., Lombaert, G.
Format: Article
Language:English
Subjects:
2.5D FE methodology
Acoustic insulation
Acoustics
Barriers
Computation
Computer simulation
Concrete
Double wall
Elastic properties
Elastodynamic wave propagation
Finite element method
Ground motion
Grout
Numerical analysis
Numerical simulations
Reinforced concrete
Sandy soils
Seismic engineering
Soil properties
Stiffness
Studies
Vibration
Vibration control
Vibration reduction measures
Walls
Wave barriers
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Summary:Stiff wall barriers can be effective in reducing the transmission of environmental ground vibration. Up to now, single wall barriers have mostly been studied. In building acoustics, however, double walls are used in order to realize a high level of sound insulation. In this paper, the potential of using double walls in reducing ground vibration transmission is investigated by means of numerical simulations. Two cases are studied: jet-grout walls and concrete walls in a homogeneous soil with elastic properties representative of a sandy soil. For both cases, the three-dimensional free field response due to a point load is computed using a 2.5D finite element methodology. Subsequently, the free field response is computed for a simplified train load. Double jet-grout wall barriers are found to be slightly more effective than single wall barriers, in particular when the thickness of the walls and the intermediate soil matches a quarter Rayleigh wavelength. The largest increase in vibration reduction is found for the area closest to the vibration source, where the vibration levels have the highest values. The performance of concrete wall barriers, however, is mainly determined by the stiffness of the walls, and almost no difference in performance is found for single and double walls. •The potential of double walls in reducing ground vibration transmission is studied.•The three-dimensional free field response due to a point and train load is computed.•Physical interpretation in the frequency-wavenumber domain and with a 1D model.•Double jet-grout walls are effective for quarter Rayleigh wavelength thicknesses.•Almost no difference in performance is found for single and double concrete walls.
ISSN:0267-7261
1879-341X
DOI:10.1016/j.soildyn.2017.02.006