Reliability-based semi-analytical solution for ground improvement by PVDs incorporating inherent (spatial) variability of soil

Reliability-based semi-analytical solution for ground improvement by PVDs incorporating inherent (spatial) variability of soil

The design of soil consolidation via prefabricated vertical drains (PVDs) has been traditionally carried out deterministically and thus can be misleading due to the ignorance of the uncertainty associated with the inherent (spatial) variation of soil properties. To treat such uncertainty in the desi...

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Bibliographic Details
Main Authors: Bari, Md. Wasiul, Shahin, Mohamed
Format: Journal Article
Published: Elsevier, Pergamon Press 2015
Subjects:
Finite element method
Prefabricated vertical drains
Soil spatial variability
Soil consolidation
Monte Carlo technique
Reliability-based design
Online Access:http://hdl.handle.net/20.500.11937/21637
Description
Summary:The design of soil consolidation via prefabricated vertical drains (PVDs) has been traditionally carried out deterministically and thus can be misleading due to the ignorance of the uncertainty associated with the inherent (spatial) variation of soil properties. To treat such uncertainty in the design process of soil consolidation by PVDs, stochastic approaches that combine the finite element method with the Monte Carlo technique (FEMC) have been usually used. However, such approaches are complex, computationally intensive and time consuming. In this paper, a simpler reliability-based semi-analytical (RBSA) method is proposed as an alternative tool to the complex FEMC approach for soil consolidation by PVDs, considering soil spatial variability. The RBSA method is found to give similar results to those obtained from the FEMC approach and can thus be used with confidence in practice.

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