Potential application of pre-treated municipal solid waste incineration fly ash as cement supplement

Pre-treatment process carried out on raw municipal solid waste incineration (MSWI) fly ash (FA) sample that did not comply initially with the USEPA method 1311 toxicity characteristic leaching procedure (TCLP) regulatory limits of 2011 reduced its chloride and heavy metal content appreciably, thereb...

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Bibliographic Details
Published in:Environmental science and pollution research international 2018-06, Vol.25 (16), p.16167-16176
Main Authors: Yakubu, Yahaya, Zhou, Jun, Shu, Zhu, Zhang, Yi, Wang, Wenbin, Mbululo, Yassin
Format: Article
Language:English
Subjects:
Aquatic Pollution
Atmospheric Protection/Air Quality Control/Air Pollution
Cadmium
China
Chromium
Coal Ash - analysis
Cobalt
Combustion
Compressive Strength
Construction Materials
Copper
Earth and Environmental Science
Ecotoxicology
Environment
Environmental Chemistry
Environmental Health
Environmental science
Fly ash
Heavy metal content
Heavy metals
Immobilization
Incineration
Incineration - methods
Industrial applications
Leachates
Leaching
Metal concentrations
Metals, Heavy - analysis
Municipal solid waste
Municipal waste management
Nickel
Pretreatment
Research Article
Solid Waste
Solid waste management
Toxicity
Waste disposal
Waste Water Technology
Water Management
Water Pollution Control
Zinc
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Summary:Pre-treatment process carried out on raw municipal solid waste incineration (MSWI) fly ash (FA) sample that did not comply initially with the USEPA method 1311 toxicity characteristic leaching procedure (TCLP) regulatory limits of 2011 reduced its chloride and heavy metal content appreciably, thereby making it compliant with the aforementioned regulatory requirement. More than 98% of each heavy metal was successfully removed. The process was excellent in removing cadmium (Cd) (99.99%) and very good at removing the rest. About 99.96% of Cu was eliminated, 99.96% of cobalt (Co), 99.95% of Zn, 98.61% of Cr, and 98.12% of nickel (Ni). Also, the leachate resulting from these pre-treatment steps met the China (GB 16889-2008) and USEPA method 1311 regulatory standards for safe discharge. The density and compressive strength of all the samples prepared increased as the FA content decreased. The compressive strength of all the samples passed the 1989 USEPA-recommended value of 0.34 MPa (50 psi), thereby making them suitable for industrial application. The sample that attained the highest compressive strength (2.08 MPa) after 28 days of curing incorporated 55% fly ash (FACS55), while the one with the least compressive strength (0.65 MPa) after the same period was made from only fly ash (FACS100). Moreover, the concentration of heavy metals in all the samples generally decreased with the FA content. Chromium was not detected in all the samples, thereby making this an excellent method for its immobilization. From the leachability test results, all the samples prepared met the USEPA method 1311 TCLP regulatory limits.
ISSN:0944-1344
1614-7499
DOI:10.1007/s11356-018-1851-3