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Combination of vacuum preloading and lime treatment for improvement of dredged fill
AbstractNumerous land reclamation projects that utilise dredged fill are currently being executed in the eastern regions of China to cater to the demands of economic development and address the land shortage problem. However, the dredged fill has high water content, low shear strength, and mainly consists of fine-grained particles. A long period is thus normally required for the treatment of dredge fill by vacuum preloading, and clogging always occurs around the prefabricated vertical drains (PVDs), resulting in insufficient consolidation of the soil. To address this issue, combination of vacuum preloading and lime treatment is proposed in this paper. In this method, a certain percentage of hydrated lime (Ca(OH)2) is added into the dredge fill slurry before vacuum preloading, to enhance the engineering properties of the fill, such as the shear strength and permeability. The added hydrated lime would induce cation exchange on the clay surface and flocculation of the fine soil particles. As a result, this method would significantly mitigate the risk of clogging around the PVDs with the enhanced soil permeability, thereby improving the consolidation efficiency. In this study, dredged slurry with a water content of approximately 187% was utilised. Lime modification optimum (LMO) was first determined using the vacuum preloading method, and a comparison test was then conducted to verify the effectiveness of the proposed method. It was found that, compared to the conventional vacuum preloading method, the proposed method significantly increased the vane shear strength of all the soil layers, especially the deep soil layers, and afforded a higher consolidation rate.
HighlightsCombination of lime treatment and vacuum preloading to improve dredged slurry fillOptimum lime content for best water discharge and shear strength is 2% (dry mass).Substantial improvement of vacuum preloading efficiencyHigher vacuum pressure within soil and higher rate of consolidationReduction of clogging around PVDs and reduced formation of soil columns
Combination of vacuum preloading and lime treatment for improvement of dredged fill
AbstractNumerous land reclamation projects that utilise dredged fill are currently being executed in the eastern regions of China to cater to the demands of economic development and address the land shortage problem. However, the dredged fill has high water content, low shear strength, and mainly consists of fine-grained particles. A long period is thus normally required for the treatment of dredge fill by vacuum preloading, and clogging always occurs around the prefabricated vertical drains (PVDs), resulting in insufficient consolidation of the soil. To address this issue, combination of vacuum preloading and lime treatment is proposed in this paper. In this method, a certain percentage of hydrated lime (Ca(OH)2) is added into the dredge fill slurry before vacuum preloading, to enhance the engineering properties of the fill, such as the shear strength and permeability. The added hydrated lime would induce cation exchange on the clay surface and flocculation of the fine soil particles. As a result, this method would significantly mitigate the risk of clogging around the PVDs with the enhanced soil permeability, thereby improving the consolidation efficiency. In this study, dredged slurry with a water content of approximately 187% was utilised. Lime modification optimum (LMO) was first determined using the vacuum preloading method, and a comparison test was then conducted to verify the effectiveness of the proposed method. It was found that, compared to the conventional vacuum preloading method, the proposed method significantly increased the vane shear strength of all the soil layers, especially the deep soil layers, and afforded a higher consolidation rate.
HighlightsCombination of lime treatment and vacuum preloading to improve dredged slurry fillOptimum lime content for best water discharge and shear strength is 2% (dry mass).Substantial improvement of vacuum preloading efficiencyHigher vacuum pressure within soil and higher rate of consolidationReduction of clogging around PVDs and reduced formation of soil columns
Combination of vacuum preloading and lime treatment for improvement of dredged fill
Wang, Jun (author) / Ni, Junfeng (author) / Cai, Yuanqiang (author) / Fu, Hongtao (author) / Wang, Peng (author)
Engineering Geology ; 227 ; 149-158
2017-02-12
10 pages
Article (Journal)
Electronic Resource
English
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