Co-removal and recycling of Ba 2+ and Ca 2+ in hypersaline wastewater based on the microbially induced carbonate precipitation technique: Overlooked Ba 2+ in extracellular and intracellular vaterite

Co-removal and recycling of Ba 2+ and Ca 2+ in hypersaline wastewater based on the microbially induced carbonate precipitation technique: Overlooked Ba 2+ in extracellular and intracellular vaterite

This study investigates the co-precipitation of calcium and barium ions in hypersaline wastewater under the action of Bacillus licheniformis using microbially induced carbonate precipitation (MICP) technology, as well as the bactericidal properties of the biomineralized product vaterite. The changes...

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Veröffentlicht in:Journal of hazardous materials 2024-06, Vol.475, p.134923
Hauptverfasser: Yan, Huaxiao, Zhu, Xiaofei, Liu, Zhiyong, Jin, Shengping, Liu, Jilai, Han, Zuozhen, Woo, Jusun, Meng, Long, Chi, Xiangqun, Han, Chao, Zhao, Yanyang, Tucker, Maurice E, Zhao, Yueming, Waheed, Junaid, Zhao, Hui
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container_issue
container_start_page 134923
container_title Journal of hazardous materials
container_volume 475
creator Yan, Huaxiao
Zhu, Xiaofei
Liu, Zhiyong
Jin, Shengping
Liu, Jilai
Han, Zuozhen
Woo, Jusun
Meng, Long
Chi, Xiangqun
Han, Chao
Zhao, Yanyang
Tucker, Maurice E
Zhao, Yueming
Waheed, Junaid
Zhao, Hui
description This study investigates the co-precipitation of calcium and barium ions in hypersaline wastewater under the action of Bacillus licheniformis using microbially induced carbonate precipitation (MICP) technology, as well as the bactericidal properties of the biomineralized product vaterite. The changes in carbonic anhydrase activity, pH, carbonate and bicarbonate concentrations in different biomineralization systems were negatively correlated with variations in metal ion concentrations, while the changes in polysaccharides and protein contents in bacterial extracellular polymers were positively correlated with variations in barium concentrations. In the mixed calcium and barium systems, the harvested minerals were vaterite containing barium. The increasing concentrations of calcium promoted the incorporation and adsorption of barium onto vaterite. The presence of barium significantly increased the contents of O-CO, N-CO, and Ba-O in vaterite. Calcium promoted barium precipitation, but barium inhibited calcium precipitation. After being treated by immobilized bacteria, the concentrations of calcium and barium ions decreased from 400 and 274 to 1.72 and 0 mg/L (GB/T15454-2009 and GB8978-1996). Intracellular minerals were also vaterite containing barium. Extracellular vaterite exhibited bactericidal properties. This research presents a promising technique for simultaneously removing and recycling hazardous heavy metals and calcium in hypersaline wastewater.
doi_str_mv 10.1016/j.jhazmat.2024.134923
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Extracellular vaterite exhibited bactericidal properties. This research presents a promising technique for simultaneously removing and recycling hazardous heavy metals and calcium in hypersaline wastewater.</abstract><cop>Netherlands</cop><pmid>38889469</pmid><doi>10.1016/j.jhazmat.2024.134923</doi></addata></record>
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title Co-removal and recycling of Ba 2+ and Ca 2+ in hypersaline wastewater based on the microbially induced carbonate precipitation technique: Overlooked Ba 2+ in extracellular and intracellular vaterite
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