Treating carbon-limited wastewater by DWTR and woodchip augmented floating constructed wetlands
文献类型: 外文期刊
第一作者: Shen, Cheng
作者: Shen, Cheng;Wang, Jie;Shen, Cheng;Liu, Ranbin;Yang, Yan;Zhao, Yaqian;Li, Yan;Liu, Ranbin
作者机构:
关键词: Constructed floating wetland (FCW); Carbon-limited wastewater; Low temperature; Nitrogen removal; Phosphorus fate
期刊名称:CHEMOSPHERE ( 影响因子:7.086; 五年影响因子:6.956 )
ISSN: 0045-6535
年卷期: 2021 年 285 卷
页码:
收录情况: SCI
摘要: Floating constructed wetlands (FCWs) have attained tremendous popularity for water purification purposes. However, FCW functions establishment in nutrients removal from carbon-limited wastewater, especially in cold weather, is still a challenge. Here, two drinking water treatment residual (DWTR) based biocarriers (B-I: DWTR cakes, B-II: DWTR cakes combined with woodchips) have been augmented into FCW to enhance the nutrients (N and P) removal performance. Compared to the traditional FCW, the intensified FCWs simultaneously achieved higher N and P removal efficiencies, with average pollutants removal of 52.16 +/- 11.51% for TN and 92.72 +/- 1.61% for TP in FCW-I and 57.65 +/- 9.43% for TN and 92.17 +/- 2.55% for TP in FCW-II, respectively, while their removal in FCW-III of 27.74 +/- 7.11% for TN and 17.91 +/- 9.27% for TP. B-II performed best in overcoming the negative influence of low temperature in nutrients removal. Mass balance budget indicated that most P was enriched in DWTR based biocarriers. Thus it is feasible to recycle and recover P from the surface water. Furthermore, P in the sediment can be changed from active P to stable P, mitigating the internal P release risk. This study can help to expand the understanding of the intensified FCWs and promote the practical application of FCWs.
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