Treating and reusing polluted runoff from an informal settlement, South Africa

IF 1.6 Q3 WATER RESOURCES
K. Winter, S. Mgese, Emily Nicklin, Kalpana Maraj
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引用次数: 1

Abstract

Biofiltration holds one of the most promising options for removing environmental pollutants from water by reducing inorganic matter, and nutrient concentrations and removing pathogens. This study evaluates the performance of six large field-scale biofiltration cells and assesses the risk of reusing this treated water for irrigating food gardens. The study took place at an abandoned wastewater treatment work (WWTW) in Franschhoek, South Africa. A batch operation was used to measure physical water properties and nutrient concentrations. Large stone cells performed best in reducing ammonia nitrogen (NH3) and orthophosphate (PO43-) by 98 and 95%, respectively, however, an overall increase in nitrate (NO3-) and nitrites (NO2-) was also observed in these and other cells. Phytoremediation made a marginal contribution to reducing contamination. The extent to which biofiltration can be used to clean and reuse contaminated surface water runoff from an informal settlement to safely reuse the water for irrigation purposes is poorly understood. Laboratory analyses revealed that the water quality from four successive harvests broadly met South African guidelines for irrigation and compared favourably with the quality of vegetables from local supermarkets.
处理和再利用来自一个非正式定居点的污染径流,南非
生物过滤是通过减少无机物、营养物浓度和去除病原体来去除水中环境污染物的最有希望的选择之一。本研究评估了六个大型野外生物过滤细胞的性能,并评估了将这些处理过的水重新用于灌溉菜园的风险。这项研究在南非Franschhoek的一个废弃废水处理厂(WWTW)进行。间歇式操作用于测量水的物理性质和营养物质浓度。大石细胞对氨氮(NH3)和正磷酸盐(PO43-)的还原效果最好,分别为98%和95%,但在这些细胞和其他细胞中也观察到硝酸盐(NO3-)和亚硝酸盐(NO2-)的总体增加。植物修复对减少污染的贡献很小。生物过滤在多大程度上可以用于清洁和再利用来自非正式住区的污染地表水径流,以安全地将水重新用于灌溉目的,人们知之甚少。实验室分析表明,连续四次收获的水质基本符合南非的灌溉准则,与当地超市的蔬菜质量相比也很好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
2.30
自引率
6.20%
发文量
136
审稿时长
14 weeks
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