首页|Investigation on solidified/stabilized behavior of marine soil slurry by lime-activated incinerated sewage sludge ash-ground granulated blast furnace slag under multifactor conditions
Investigation on solidified/stabilized behavior of marine soil slurry by lime-activated incinerated sewage sludge ash-ground granulated blast furnace slag under multifactor conditions
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This study aims to evaluate the possibility of reusing treated marine clayey soils by stabilization/solid-ification(S/S)technology as geomaterial in reclamation projects from the aspects of engineering strength,chemical modification and environmental risk assessment.The lime-activated incinerated sewage sludge ash(ISSA)together with ground granulated blast furnace slag(GGBS)was employed as the binder.The multi-controlling factors including water content,curing time,salinity,and chemical compositions of mixing solution were taken into account to identify the S/S treated Hong Kong marine deposit(HKMD)slurry based on the strength tests,pH measurement,thermo-gravimetric(TG)analysis,X-ray diffractometer(XRD),Fourier transform infrared spectroscopy(FTIR),scanning electron micro-scopy coupled with energy-dispersive spectrometry(SEM-EDS)and toxicity characteristic leaching procedure(TCLP)tests,etc.The results show that the S/S treatment using lime-activated ISSA-GGBS can effectively enhance the strength of marine soil at the initial water content of 110%and 200%.The water content and curing time have a significant impact on the S/S treated HKMD.The pH of treated soils is higher than 11.1,which proves an alkaline environment for the reactions in the treated soil.A special case is the treated HKMD at 200%water content hydrated by MgCl2 solution,which has a low pH of 10.23 and maintains a slurry state.Based on the TCLP results,the leaching concentration of heavy metals from S/S treated HKMD is environmentally safe and meets Hong Kong standard for reusing treated soil with a low level of<0.2 mg/L.The content of main products such as calcium/magnesium silicate hydrate,ettringite or Friedel's salt depends on the chemical additions(e.g.distilled water,seawater,NaCl and Na2SO4).The products in the specimens mixed with MgCl2 solutions are mainly composed of Mg(OH)2,M-S-H and MgCO3,which is distinct with the neoformations in the other cases.Therefore,this study proves that the S/S treated soil slurry could be reused as geomaterials in reclamation projects,and the S/S process is greatly affected by water content,curing time and solution compositions,etc.
Hong Kong marine depositsStabilization/solidificationEngineering strengthPhysicochemical propertyEnvironmental risk assessment
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