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Large-Strain Consolidation Analysis for Clayey Sludge Improved by Horizontal Drains

Honglei Sun, Hao Zhang, Xueyu Geng, Yu‐Jun Cui, Yuanqiang Cai

2023Journal of Geotechnical and Geoenvironmental Engineering28 citationsDOI

Abstract

The use of prefabricated horizontal drains (PHDs) with combined surcharge and vacuum preloading is an effective improvement approach for dredged clayey slurries. However, there is no large-strain analysis method for PHD-induced consolidation of high-water-content sludge, even though it is a typical large-strain problem. This study develops a two-dimensional plane strain model based on Gibson’s large-strain theory, considering horizontal and vertical flows, nonlinear hydraulic conductivity, and compressibility during the consolidation process. The alternative direction implicit (ADI) difference method is used to solve the governing equation. The proposed model is verified by the data from an analytical one-dimensional (1D) large-strain model and from field measurements. Compared with the improved small-strain models, the proposed model produces a slower consolidation of sludge. Furthermore, the analyses incorporating geometrical and mechanical nonlinearities show that, in comparison with the external load and the horizontal permeability, the spacing of the PHDs (horizontal and vertical) and the vertical permeability are more crucial factors significantly impacting consolidation efficiency. Specifically, smaller PHD spacing and greater vertical permeability lead to a more efficient consolidation.

Topics & Concepts

Consolidation (business)Geotechnical engineeringClay soilGeologySoil scienceSoil waterBusinessAccountingGrouting, Rheology, and Soil MechanicsGeotechnical Engineering and Underground StructuresGeotechnical Engineering and Soil Mechanics
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