Ground Vibration Prediction and Assessment - PowerPoint PPT Presentation

About This Presentation
Title:

Ground Vibration Prediction and Assessment

Description:

Source term - dependent on excitation, source impedance, ... of source, geological characteristics (Lam constants, loss factor, layering, water tables) ... – PowerPoint PPT presentation

Number of Views:48
Avg rating:3.0/5.0
Slides: 13
Provided by: rmthorne
Category:

less

Transcript and Presenter's Notes

Title: Ground Vibration Prediction and Assessment


1
Ground Vibration Prediction and Assessment
  • R.M. Thornely-Taylor
  • Rupert Taylor Ltd

2
Noise SOURCE ? PATH ? RECEIVER Vibration
SOURCE ? PATH ? RECEIVER
3
  • Source term - dependent on excitation, source
    impedance, mounting impedance, foundation
    impedance and surrounding lithology
  • Transmission characteristics - dependent on
    geometry of source, geological characteristics
    (Lamé constants, loss factor, layering, water
    tables)
  • Building response - consisting of coupling
    between foundations and the ground and the
    dynamic response of the building, and, in the
    case of re-radiated groundborne noise, the
    receiving room characteristics
  • Receiver and support impedance. Receiver attitude.

4
(No Transcript)
5
Driving-point impedance (z-axis) of seated human
body
6
Receiver Issues
  • Foundation coupling
  • transfer functions
  • piled foundations
  • Structure response
  • Power transmission through/up building
  • transmission line
  • floor impedances
  • vary with location
  • Receiver impedance
  • axes
  • support
  • standing
  • chair
  • bed

7
Propagation Issues
  • Soil parameters
  • on-site measurement
  • bore-hole tests
  • impedance of spherical source in an elastic
    medium
  • departs from inverse-square law for velocity
  • pressure and strain dependence of dynamic moduli
  • Uncertainties
  • unknown features in lithology
  • perched water tables
  • boulders/limestone layers

8
(No Transcript)
9
Seismic measurement of P-wave and S-wave
velocities
10
Propagation Issues
  • Many wave types
  • body waves (dilatational)
  • shear waves
  • Rayleigh waves
  • Stoneley waves
  • Lamb waves
  • two-phase propagation
  • liquid in a porous medium
  • Wave conversion at interfaces
  • SV ? P
  • one layer may attenuate
  • several layers may increase propagation at
    eigenfrequencies
  • progressive change in soil may bend propagation
    path

11
Correct Source Data
  • Source power
  • dependent on
  • source impedance
  • source mounting/support
  • resilient elements
  • dynamic stiffness - frequency dependence
  • loss factor - frequency dependence
  • Source signal

12
Modelling
  • Empirical
  • Extrapolating measurements from similar case
  • Statistical treatment of large numbers of
    measurements from many cases
  • empirical methods of correcting for changes in
    parameters
  • Algebraic
  • Isolator transmissibility
  • Simple distance function
  • Numerical
  • Finite element (FEM)
  • Finite difference (FDM)
  • Boundary Element (BEM)
  • Hybrid (FEM/BEM)
Write a Comment
User Comments (0)
About PowerShow.com