Removal of uranium and gross radioactivity from coal bottom ash by CaCl2 roasting followed by HNO3 leaching

•Roasting the ash with CaCl2 enhanced the removal of uranium and gross radioactivity.•87.3% of the total uranium was removed via the optimized roast-leach process.•Nearly 90% of gross α and β radioactivity was removed via the roast-leach process.•Molten CaCl2 promoted the incorporation of Ca and Al...

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Bibliographic Details
Published in:Journal of hazardous materials 2014-07, Vol.276, p.346-352
Main Authors: Lei, Xuefei, Qi, Guangxia, Sun, Yinglong, Xu, Hui, Wang, Yi
Format: Article
Language:English
Subjects:
Applied sciences
Ashes
Calcium Chloride - chemistry
Coal
Coal Ash
Coal bottom ash
Constants
Density
Exact sciences and technology
Leaching
Nitric Acid - chemistry
Pollution
Radioactivity
Radioisotopes - isolation & purification
Radionuclides
Roast-leach method
Silicates
Uranium
Uranium - isolation & purification
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Summary:•Roasting the ash with CaCl2 enhanced the removal of uranium and gross radioactivity.•87.3% of the total uranium was removed via the optimized roast-leach process.•Nearly 90% of gross α and β radioactivity was removed via the roast-leach process.•Molten CaCl2 promoted the incorporation of Ca and Al into SiO matrices in ash.•Radionuclides were removed by the acid decomposition of newly formed silicates. A roast-leach method using CaCl2 and HNO3 to remove uranium and gross radioactivity in coal bottom ash was investigated. Heat treatment of the ash with 100% CaCl2 (900°C, 2h) significantly enhanced uranium leachability (>95%) compared with direct acid-leaching (22.6–25.5%). The removal efficiency of uranium and gross radioactivity increased steeply with increasing CaCl2 content, from 10% to 50%, and a HNO3 leaching time from 5min to 1h, but remained nearly constant or decreased slightly with increasing CaCl2 dosage >50% or acid-leaching time >1h. The majority of the uranium (87.3%), gross α (92.9%) and gross β (84.9%) were removed under the optimized roast-leach conditions (50% CaCl2, 1M HNO3 leaching for 1h). The mineralogical characteristics of roasted clinker indicated that molten CaCl2 promoted the incorporation of Ca into silica and silicates and resulted in its progressive susceptibility to acid attack. Uranium and other radionuclides, most likely present in the form of silicates or in association with miscellaneous silicates in the highest density fraction (>2.5gmL−1), were probably leached out as the result of the acid decomposition of newly formed “gelatinizing silicates”.
ISSN:0304-3894
1873-3336
DOI:10.1016/j.jhazmat.2014.05.052