College of Resources and Environment, University of Chinese Academy of Sciences, Beijing 101408, PR China; Research Center for Eco-Environment Sciences, Chinese Academy of Sciences, Beijing 100085, PR China.
CHINALCO Environmental protection and Energy Conservation Group Co. Ltd., Beijing 102209, PR China.
J Hazard Mater. 2022 Mar 15;426:128072. doi: 10.1016/j.jhazmat.2021.128072. Epub 2021 Dec 14.
Trivalent metals-modified-biochar (BC) has been widely used for the removal of fluorine (F) in water, but little is known about its effects on the stability and mobility of F-contaminated soil. Two types of modified-BC materials (BC-loaded iron-lanthanide (BC/Fe-La) and BC-loaded aluminum-lanthanide (BC/Al-La)) were synthesized and used for the remediation of F-contaminated soil. The forms of BC/LaFe(OH) in BC/Fe-La and BC/LaAl(OH) in BC/Al-La were identified by spectroscopy, X-ray dispersion, thermogravimetric, and pore diameter/volume analyses. Following application (4-12%, w/w) to F-contaminated soil for 30 d, water soluble fluoride (WSF) decreased significantly. The modified-BC with a 1:1:1 molar ratio (BC: Al or Fe: La) were more effective than those at 1:0.5:0.5. The BC/Al-La were the most effective to stabilize F. In particular, the highest decrease in WSF (by 91.75%) was obtained with the application of 12% BC/Al-La-2, while 8% BC/Al-La-2% and 12% BC/Al-La-1 reduced the WSF by 87.58% and 90.17%, respectively; all values obtained were lower than the national standard of China (< 1.5 mg/L). In addition, the sequential extraction results showed that modified-BC promoted the transformation of the other chemical speciation to the Fe/Mn-F.
三价金属修饰生物炭 (BC) 已广泛用于去除水中的氟 (F),但对于其对 F 污染土壤稳定性和迁移性的影响知之甚少。两种类型的改性 BC 材料(负载铁镧的 BC(BC/Fe-La)和负载铝镧的 BC(BC/Al-La))被合成并用于修复 F 污染土壤。通过光谱、X 射线分散、热重和孔径/体积分析,确定了 BC/Fe-La 中 BC/LaFe(OH)和 BC/Al-La 中 BC/LaAl(OH)的形式。在将 4-12%(w/w)的改性 BC 应用于 F 污染土壤 30 天后,水溶性氟化物(WSF)显著降低。摩尔比为 1:1:1(BC:Al 或 Fe:La)的改性 BC 比 1:0.5:0.5 的效果更好。BC/Al-La 最有效地稳定 F。特别是,应用 12% BC/Al-La-2 时,WSF 的降低幅度最大(降低了 91.75%),而 8% BC/Al-La-2%和 12% BC/Al-La-1 则分别降低了 87.58%和 90.17%;所有这些值均低于中国国家标准(<1.5mg/L)。此外,连续提取结果表明,改性 BC 促进了其他化学形态向 Fe/Mn-F 的转化。
