矿物材料去除水中抗生素的研究进展
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李矿军,张秀丽
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Research progress of antibiotic removal from water using mineral materials
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Kuangjun LI,Xiuli ZHANG
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表2 金属矿物对抗生素的去除性能
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Table 2 Removal performance of minerals for antibiotics
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| 项目 | 处理工艺 | 抗生素 | 质量浓度/(mg·L-1) | 矿化能力/% | 文献 |
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| 黄铜矿 | EF | TC | 89.0 | 98.0 | 〔64〕 | | HPEF | CEFX | 50.0 | 92.0 | 〔65〕 | | 黄铁矿 | EF | SMT | 55.7 | 95.0 | 〔68〕 | | EF | LEVO | 83.6 | 95.0 | 〔69〕 | | HPEF | TAP | 50.0 | 85.0 | 〔66〕 | | F-l | TC | 50.0 | 85.0 | 〔70〕 | | 催化氧化 | TC | 50.0 | 46.1 | 〔71〕 | | 针铁矿 | F-l | SMX | 20.0 | 27.0 | 〔72〕 | | F-l | NOFX | 10.0 | 27.4 | 〔73〕 | | F-l | OFX | 20.0 | 44.8 | 〔26〕 | | 催化臭氧化 | SSZ | 10.0 | 56.7 | 〔74〕 | | 钛铁矿 | 光催化 | SFZ | 10.0 | 35.0 | 〔75〕 | | CWPO-光辅助 | SFZ | 10.0 | 85.0 | 〔75〕 | | 锐钛矿 | 光催化 | TC | 10.0 | 29.6 | 〔76〕 | | 斑铜矿 | 催化氧化 | TC | 150.0 | 48.7 | 〔77〕 |
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