Affiliation:
1. University of Dundee, UK
2. University of Cambridge, UK
Abstract
One of the major concerns for engineers in seismically active regions is the prevention of damage caused by earthquake-induced soil liquefaction. Vertical drains can aid dissipation of excess pore pressures both during and after earthquakes. Drain systems are designed using standard design charts based around the concept of a unit cell, assuming each drain is surrounded by more drains. It is unclear how predictable drain performance is outside that unit cell concept, for example, drains at the edge of a group. Centrifuge testing is a logical method of performing controlled experiments to establish the efficacy of vertical drains. Centrifuge testing is used to identify the effect of drains dealing with very different catchment areas. The importance of this is further highlighted by the results of a test where the same drains have been modified so that each should behave as a unit cell. It is shown that drains with large catchment areas perform more poorly than unit cells, and also have a knock-on detrimental effect on other drains.
Subject
Geotechnical Engineering and Engineering Geology
Reference20 articles.
1. Drainage capacity of stone columns or gravel drains for mitigating liquefaction.;R. W.Boulanger;Geotechnical Earthquake Engineering and Soil Dynamics IIII,1998
2. Brennan, A. J. (2004). Vertical drains as a countermeasure to earthquake-induced soil liquefaction. Unpublished doctoral dissertation, University of Cambridge, UK.
3. Effectiveness of vertical drains in mitigation of liquefaction
4. Liquefaction and Drainage in Stratified Soil
5. Brennan, A. J., Madabhushi, S. P. G., & Houghton, N. E. (2006). Comparing Laminar and Shear Beam Containers for Dynamic Centrifuge Modelling. In Proceedings of the International Conference on Physical Modelling in Geotechnics, Hong Kong (pp. 171-176).
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