Leaching evaluation of the cement stabilisation/solidification treatment of kaolin clay
John, U.E., Jefferson, I., Boardman, D.I., Ghataora, G.S. and Hills, C.D. (2011) Leaching evaluation of the cement stabilisation/solidification treatment of kaolin clay. Engineering Geology, 123 (4). pp. 315-323. ISSN 0013-7952 (doi:10.1016/j.enggeo.2011.09.004)Full text not available from this repository.
Sustainable land management often requires redevelopment of existing and often contaminated Brownfield sites over use of Greenfield or agricultural land. Stabilisation / solidification (S/S) offer a viable remediation option with particular suitability in treating heavy metal contaminants. However, uncertainties over longterm durability and previously cheap landfill disposal costs resulted in limited use in many countries. There is a need to characterise treated material and assess components containment and release, to improve S/S confidence and inform remedial design, using the evaluation of the leaching controlling mechanisms. To improve understanding of key features that will enable improvements to such designs, this paper presents an evaluation of leaching for CEM II stabilised kaolin, using the leaching behaviour of 4 main components—aluminium, silicon, calcium and sulphur. Results show no detrimental implications on chemical durability due to kaolin degradation with hydration under induced alkalinity, with increased formation of stable cementitious minerals. Availabilities for components show that aluminium and silicon had minimal leachability compared to total content, whilst calcium and sulphur show almost total leaching availability. Decreasing calcium and silicon leachability under natural chemical conditions with increased hydration duration supports the increased formation of stable cementitious products with time, using the products of kaolin dissociation.
|Additional Information:|| First published online: 19 September 2011.  Published in print: November 2011.|
|Uncontrolled Keywords:||stabilisation/solidification, cement, kaolin, leaching|
|Subjects:||T Technology > TD Environmental technology. Sanitary engineering|
|Pre-2014 Departments:||School of Science
School of Science > Centre for Contaminated Land Remediation Research Group
|Last Modified:||14 Oct 2016 09:18|
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