Zeolite amended bioretention media improves nitrogen removal from stormwater

IF 2.3 4区农林科学 Q1 AGRICULTURE, MULTIDISCIPLINARY Agricultural & Environmental Letters Pub Date : 2022-01-10 DOI:10.1002/ael2.20060

Lillie C. Sweeney, Thorsten Knappenberger, Eve F. Brantley, Joey N. Shaw

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Abstract

Bioretention cells alleviate stormwater toxicity by permeation through soil media. Amending bioretention materials may result in increased chemical pollutant removal while maintaining hydraulic properties. Zeolite was tested in bioretention media for zinc, copper, phosphorus, ammonium, and nitrate removal from synthetic stormwater in a column study. Ecolite did not improve metal or phosphorus removal; however, significantly lower effluent concentrations of ammonium (p < .001) and nitrate (p = .014) were measured compared with the standard media. The standard media averaged a 70% reduction in ammonium concentration, while mixtures containing 10 and 20% Ecolite per volume averaged 86 and 87% reduction, respectively. All media leached higher nitrate concentrations than the influent stormwater. Ecolite significantly increased the saturated hydraulic conductivity by up to 55% (p < .001). The inclusion of Ecolite in bioretention cells may be practical in areas with nitrogen-impaired watersheds.

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沸石改性生物保留介质提高了雨水中氮的去除效果

生物滞留细胞通过渗透土壤介质来减轻雨水的毒性。改良生物滞留材料可以在保持水力特性的同时提高化学污染物的去除率。在一项柱状研究中，在生物滞留介质中测试了沸石对合成雨水中锌、铜、磷、铵和硝酸盐的去除作用。Ecolite没有改善金属或磷的去除；然而，与标准介质相比，测得的铵（p＜0.001）和硝酸盐（p＝.014）的出水浓度明显较低。标准介质的铵浓度平均降低了70%，而每体积含有10%和20%Ecolite的混合物的铵浓度分别平均降低了86%和87%。所有介质浸出的硝酸盐浓度都高于流入雨水。Ecolite显著提高了饱和导水率达55%（p<.001）。在氮受损的流域，将Ecolite纳入生物滞留池可能是可行的。

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来源期刊

Agricultural & Environmental Letters Multiple-

CiteScore

3.70

自引率

3.80%

发文量