期刊
JOURNAL OF HAZARDOUS MATERIALS
卷 408, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.jhazmat.2020.124973
关键词
Thermus thermophilus; Thermophiles; Biomineralization; Lead; Chloropyromorphite; Composting
资金
- National Key Research and Development Program of China [2017YFD0800900]
- Science Fund for Distinguished Young Scholars of Fujian Agriculture and Forestry University [xjq201904]
- National Science Fund for Distinguished Young Scholars [41925028]
- Project of Fujian Provincial Department of Science and Technology, China [2018J05039]
- National Students' Platform for Innovation and Entrepreneurship Training Program [202010389004]
This study proposes a thermophilic biomineralization strategy for in situ heavy metals passivation during composting, demonstrating that Thermus thermophilus can effectively promote the transformation of Pb(II) into chloropyromorphite, increasing the insoluble residual fractions of Pb and decreasing its extractable content. The results suggest that inoculation of T. thermophilus FAFU013 can significantly passivate Pb in solid biowastes, providing new insights into the mechanism of heavy metal passivation during composting.
Composting is an effective technology for the disposal and utilization of solid biowastes. However, conventional composting is inefficient for the passivation of heavy metals in solid biowastes, thus limiting the applications of compost derived from solid biowaste. Here, a thermophilic biomineralization strategy was proposed and demonstrated during sludge composting for in situ heavy metals passivation via thermophiles inoculation. It was found that Thermus thermophilus could promote the transformation of Pb(II) into the most stable chloropyromorphite [Pb-5(PO4)(3)Cl, K-sp = 10(-84.4)] during composting. After 40 days of composting with T. thermophilus FAFU013, the most insoluble residual fractions of Pb increased by 16.0% (from 76.5% to 92.5%), which was approximately 3 times higher than that of the uninoculated control. The DTPA-extractable Pb decreased to 11.5%, which was 14.4% less compared with the uninoculated control, indicating a significant Pb passivation by inoculation of T. thermophilus FAFU013. A series of batch experiments revealed that Pb(II) could be rapidly accumulated by selective biosorption and gradually transformed into chloropyromorphite through the biomineralization of T. thermophilus FAFU013. This study provides new insight into the mechanism of heavy metal passivation during composting and the problem associated with the disposal of Pb-contaminated solid biowastes through the biomineralization of thermophiles.
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