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生物强化植物修复技术用来处理被1,4-二恶烷(有机化合物有毒)污染的地下水.pdf

上传人: le****ng 编号:187033 2024-12-17 83页 21.09MB

1、Reid Simmer,Emily Jansen,Joel Burken,Lou Licht,Tim Mattes,and Jerry SchnoorRemTEC&Emerging Contaminants SummitOctober 15,2024BioaugmentationCO21,4-D1,4-D1,4-D1,4-DioxaneChlorinatedSolventsBioaugmented Phytoremediation to Treat 1,4-Dioxane Contaminated GroundwaterER21-5096ER-2719Data Source:EPA UCMR3

2、UCMR3:1,4-Dioxane Contamination in Finished Drinking Water US Public Water Systems,2013-2015Simmer et al.,20202“1,4-Dioxane in drinking water:emerging for 40 years and still unregulated”3-McElroy,Hyman and Knappe,Current Opinion in Environmental Science&Health,20193ITRC,2021 EPA HRL=0.35 ppb3Source:

3、ITRChttps:/14d-1.itrcweb.org/regulatory-framework/#2_2Common remediation strategies are costlyAdvanced Oxidation Facility for Dioxane Treatment,Tucson,AZAdvanced Oxidation Facility for Dioxane Treatment,Arden Hills,MN4MetabolitesEvapotranspirationPhytoremediation is a low cost,greenremediation techn

4、ology for 1,4-dioxane mass removal5Phytoremediation is a low cost,greenremediation technology for 1,4-dioxane mass removal6“76 to 83%of the dioxane taken up by poplars was transpired from leaf surfaces”MetabolitesEvapotranspiration6ChlorinatedSolventsInterstate Technology and Regulatory Council,2021

5、MetabolitesEvapotranspiration77Bioaugmented phytoremediation speeds treatment of 1,4-dioxaneCO2MineralizationMetabolitesEvapotranspirationBioaugmentation88CO2MineralizationBioaugmentationCO2MetabolitesEvapotranspirationBioaugmentationChlorinatedSolventsBioaugmentationCO2MineralizationMetabolitesEvap

6、otranspiration1111ChlorinatedSolventsBioaugmentationCO2MineralizationMetabolitesEvapotranspiration12Limit of Detection:1 mg/L(GC/FID)12ChlorinatedSolventsBioaugmentationCO2MineralizationMetabolitesEvapotranspiration1313ER-27191314Does Mycobacterium sp.PH-06 utilize root exudates as a supplementary c

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本文主要探讨了生物修复技术在处理1,4-二氧六环(1,4-Dioxane)污染地下水方面的应用。关键数据包括:1,4-Dioxane在水中的限值浓度为0.35 ppb,而通过生物修复,其浓度可降至<0.18 μg/L。研究显示,通过植物和特定微生物(如Rhodococcus ruber 219)的相互作用,可以有效去除这种污染物。此外,文章还提到了一个在明尼苏达州的前军事弹药厂进行的现场示范项目,该项目使用了一种结合了植物修复和微生物增强技术的系统,在9周内将1,4-Dioxane浓度从初始的>100 μg/L降低至<0.5 μg/L。这一研究强调了生物修复作为一种成本效益高、环境友好的方法,对于处理低浓度1,4-Dioxane污染具有潜力。
"1,4-Dioxane: Why Is It Still Unregulated?" "Bioaugmentation: A Cost-Effective Solution for Dioxane Removal?" "Phytoremediation: Can Plants and Bacteria Clean Up Our Water?"
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