城市雨水径流氮组成及在生物滞留系统中的归宿。

Urban stormwater runoff nitrogen composition and fate in bioretention systems.

机构信息

School of Environmental Studies, China University of Geosciences , Wuhan, Hubei, 430074, P. R. China.

出版信息

Environ Sci Technol. 2014 Mar 18;48(6):3403-10. doi: 10.1021/es4055302. Epub 2014 Mar 7.

Abstract

Multiple chemical forms of nitrogen in urban stormwater make its management challenging. Sixteen storm events were monitored and analyzed for total nitrogen (TN), particulate organic nitrogen (PON), nitrate (NO3-N), nitrite (NO2-N), ammonium (NH3-N), and dissolved organic nitrogen (DON) in stormwater runoff and in treated discharge through a conventional bioretention cell. Influent PON can be effectively removed via bioretention sedimentation/filtration, NH3-N by ion exchange/sorption, and NO2-N by oxidation. However, significant DON and NO3-N leached from the bioretention cell, resulting in only 9% net overall TN concentration reduction. Captured PON and vegetation detritus in the bioretention cell can be leached as DON or mineralized into NO3-N. The effluent N is dominated by NO3-N (46%) and DON (42%). Therefore, in addition to creating denitrification conditions for NO3-N, preventing DON leaching is also critical for effective nitrogen removal though bioretention systems. The bioretention cell exhibited a moderate mass load reduction for TN (41%), which mainly results from runoff volume reduction.

摘要

城市雨水含有多种形态的氮，这给其管理带来了挑战。通过传统的生物滞留池，对 16 次雨水事件中的总氮（TN）、颗粒态有机氮（PON）、硝酸盐（NO3-N）、亚硝酸盐（NO2-N）、氨氮（NH3-N）和溶解有机氮（DON）在雨水径流和处理后的排放中的浓度进行了监测和分析。生物滞留沉降/过滤可有效去除 PON，离子交换/吸附可去除 NH3-N，氧化可去除 NO2-N。然而，生物滞留池中大量的 DON 和 NO3-N 淋滤出来，导致 TN 总浓度仅降低了 9%。生物滞留池中截留的 PON 和植物碎屑可能会淋滤出 DON，或者矿化形成 NO3-N。出水的 N 主要以 NO3-N（46%）和 DON（42%）为主。因此，除了为 NO3-N 创造反硝化条件外，防止 DON 淋滤也是通过生物滞留系统有效去除氮的关键。生物滞留池对 TN 的质量负荷减少了 41%，这主要是由于径流量减少。

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城市雨水径流氮组成及在生物滞留系统中的归宿。

Urban stormwater runoff nitrogen composition and fate in bioretention systems.

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