Effects of specimen size and mix ratio on the nickel migration behavior of landfill waste mixed mortar

Landfill solid waste management system poses the potential source of silent wide-spread heavy metals like nickel poisoning in the entire ecosystem of nearby environment. Nickel containing demolish solid wastes are disposed at landfill zones to a great extent from where nickel migrate into the food c...

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Bibliographic Details
Published in:Journal of environmental management 2017-04, Vol.190, p.290-301
Main Author: Haque, M. Aminul
Format: Article
Language:English
Subjects:
Dominant leaching mechanism
Humans
Immobilization
Landfill waste
Mechanical strength
Metals, Heavy - chemistry
Nickel
Nickel - chemistry
Refuse Disposal - methods
Soil Pollutants - chemistry
Solidification
Waste Disposal Facilities
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Summary:Landfill solid waste management system poses the potential source of silent wide-spread heavy metals like nickel poisoning in the entire ecosystem of nearby environment. Nickel containing demolish solid wastes are disposed at landfill zones to a great extent from where nickel migrate into the food chain through the surface water body as well as groundwater. Consequently, nickel exposure may cause different environmental problems. From this sense, it may be an attractive proposal to recycle the waste as a sustainable product. Herein is presented a long-term feasibility study on potential leaching behavioral pattern of nickel from different sizes and mixes based solidified landfill waste mixed mortar block. The calculated results revealed the larger sizes block entrapped more nickel content than the smaller in relation to the available for leaching. Moreover, the specimen bearing the higher amount of waste resulted the significant nickel immobilization within the crystalline structure. The study observed the fixation results 97.72%–99.35%, 97.08%–99.11%, 96.19%–98.58% and 95.86%–91.6% under the stabilizing agent to fine aggregate mixing combination 1:1, 1:1.5, 1:2 and 1:2.5 respectively where 30% of the total volume of fine aggregate was replaced by landfill waste. Although, mechanical strength test of all surrogate waste forms was also conducted that showed acceptable performance for land disposal, the current research pointing out that constructed green products were non-hazardous except the specimens having mixture ratio 1:2.5 because nickel ion release mechanism was observed under this ratio by surface decay or physical erosion of the monolithic matrices. Furthermore, semi-empirical based dominant leaching mechanism models were justified against the goodness of fit statistical parameters for interpreting the experimental observations of nickel transport profile where the adopted models possessed strong potential for predicting Ni content with high accuracy. •Ni(II) contaminated landfill waste was recycled for mortar block construction.•S/S technique was adopted to entrap Ni(II) within the structural bond of block.•Leaching parameters was analyzed for evaluating the green products.•Analytical results depicted that products could be used as sustainable material.•Constructed green products were non-hazardous except 1:2.5 mixture ratio.
ISSN:0301-4797
1095-8630
DOI:10.1016/j.jenvman.2016.12.061