人工湿地处理富营养化地表水体的研究
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摘要
针对地表水体富营养化越来越突出的问题,采用以碎石为基质、以芦苇为植物的人工湿地,对模拟污水进行实验研究,考察了人工湿地对COD、氨氮和无机磷的去除性能。结果表明,人工湿地对COD和无机磷的去除率分别为84.78%和82.37%,对氨氮去除率仅达到67.50%,其主要原因在于反硝化过程碳源不足制约了脱氮效果。
The problem of eutrophication of surface water is becoming more and more prominent. A constructed wetland with breakstones as matrix and Phragmites australiss as plants was used to treat synthetic wastewater. The removal performance of COD,ammonia nitrogen and inorganic phosphorus by constructed wetland was investigated. The results showed that the removal efficiencies of COD and inorganic phosphorus in constructed wetlands were 84.78% and 82.37% respectively. However,the removal efficiency of ammonia nitrogen was only 67.50%.The main reason was that the lack of carbon source for denitrification process restricted nitrogen removal.
The problem of eutrophication of surface water is becoming more and more prominent. A constructed wetland with breakstones as matrix and Phragmites australiss as plants was used to treat synthetic wastewater. The removal performance of COD,ammonia nitrogen and inorganic phosphorus by constructed wetland was investigated. The results showed that the removal efficiencies of COD and inorganic phosphorus in constructed wetlands were 84.78% and 82.37% respectively. However,the removal efficiency of ammonia nitrogen was only 67.50%.The main reason was that the lack of carbon source for denitrification process restricted nitrogen removal.
引文
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[7]Li,W.,Shan,X.Y.,Wang,Z.Y.,et al. Effect of self-al kalization on nitrite accumulation in a high efficiency deni trification system:performance,microflora and enzymatic activities[J]. Water Res,2016,88:758-765.
[8]李旭东,周琪,张荣社,等.三种人工湿地脱氮除磷效果比较研究[J].地学前缘,2005(12):73-76.
[2]Nyquist,J.,Greger,M. A field study of constructed wet lands for preventing and treating acid mine drainage[J].Ecol. Eng. 2009,35(5):630-642.
[3]Vymazal,J. Constructed wetlands for treatment of industrial wastewaters:A review[J]. Ecol. Eng,2014,73:724-751.
[4]姚枝良.潜流人工湿地处理城市受污染水体研究[D].上海:同济大学,2007.
[5]王凯军,贾立敏.城市污水生物处理新技术开发与应用[M].北京:化学工业出版社,2001.
[6]Maltais-Landry,G.,Maranger,R.,Brisson,J.,et al. Ni trogen transformations and retention in planted and artifi cially aerated constructed wetlands[J]. Water Res,2009,43(2):535-545.
[7]Li,W.,Shan,X.Y.,Wang,Z.Y.,et al. Effect of self-al kalization on nitrite accumulation in a high efficiency deni trification system:performance,microflora and enzymatic activities[J]. Water Res,2016,88:758-765.
[8]李旭东,周琪,张荣社,等.三种人工湿地脱氮除磷效果比较研究[J].地学前缘,2005(12):73-76.
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