Pollutant removal and greenhouse gas emissions in horizontal subsurface flow constructed wetlands with iron ore treating ammonium-rich wastewater.

IF 2.2 4区环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES

Environmental Technology Pub Date : 2025-06-01 Epub Date: 2024-12-31 DOI:10.1080/09593330.2024.2443601

Yan Zhang, Xinhua Li, Hongyun Dong, Piet N L Lens

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引用次数: 0

Abstract

Horizontal subsurface flow constructed wetlands (HFCWs) are capable of eliminating organic matter and nitrogen while emitting less methane (CH₄) and nitrous oxide (N₂O) than free water surface flow wetlands. However, the simultaneous removal of pollutants and reduction of greenhouse gases (GHG) emissions from high-strength wastewater containing high levels of organic matter and ammonium nitrogen (NH₄⁺-N) has not get been investigated. The influent COD concentration affected the efficiency of nitrogen removal, GHG emissions and the presence of iron from iron ore, but the COD and TP removal efficiencies remained unaffected. CO₂ and CH₄ fluxes were significantly influenced by influent COD concentrations, whereas less N₂O emissions were obtained during 7d. The highest CO₂ and CH₄ fluxes, along with the GHG emissions, were observed in HFCWs with COD concentrations of 375.6 mg/L and NH₄⁺-N concentrations of 159.0 mg/L at a COD/N ratio of 2.4. Conversely, the lowest CH₄ (-1.72 mg/m²/h) and N₂O fluxes (0.13 mg/m²/h) were recorded in HFCWs with COD concentrations of 375.6 mg/L and NH₄⁺-N concentrations of 162.4 mg/L at a COD/N of 4.5, although nitrogen removal was weak in these HFCWs. HFCWs at a COD/N ratio of 3.6 exhibited greater removal of nitrogen and other pollutants, along with a lower global warming potential (GWP). In conclusion, the concentrations of organic matter and NH₄⁺-N in wastewater affected both pollutant removal and GHG emissions. The simultaneous enhancement of pollutant removal and the reduction of GHG emissions can be achieved in HFCWs with a COD/N ratio of 3.6.

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铁矿水平潜流人工湿地处理富氨废水的污染物去除及温室气体排放

水平潜流人工湿地（HFCWs）能够去除有机物和氮，同时排放的甲烷（CH4）和氧化亚氮（N2O）比自由水面流湿地少。然而，从含高浓度有机物和铵态氮（NH4+-N）的高浓度废水中同时去除污染物和减少温室气体（GHG）排放的研究尚未得到证实。进水COD浓度影响脱氮效率、温室气体排放和铁矿石中铁的存在，但COD和总磷的去除效率不受影响。CO2和CH4通量受进水COD浓度的显著影响，而N2O排放量在7d内有所减少。COD浓度为375.6 mg/L、NH4+-N浓度为159.0 mg/L、COD/N比为2.4时，CO2和CH4通量及温室气体排放量最高。相反，当COD浓度为375.6 mg/L、NH4+-N浓度为162.4 mg/L、COD/N为4.5时，CH4 （-1.72 mg/m2/h）和N2O通量最低（0.13 mg/m2/h），但这些hfcs的脱氮能力较弱。COD/N比为3.6的hfcs对氮和其他污染物的去除率更高，全球变暖潜值（GWP）更低。综上所述，废水中有机物和NH4+-N浓度对污染物去除和温室气体排放都有影响。当COD/N为3.6时，可同时实现对污染物的去除和温室气体的减少。

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

Environmental Technology 环境科学-环境科学

CiteScore

6.50

自引率

3.60%

发文量

审稿时长

4 months

期刊介绍： Environmental Technology is a leading journal for the rapid publication of science and technology papers on a wide range of topics in applied environmental studies, from environmental engineering to environmental biotechnology, the circular economy, municipal and industrial wastewater management, drinking-water treatment, air- and water-pollution control, solid-waste management, industrial hygiene and associated technologies. Environmental Technology is intended to provide rapid publication of new developments in environmental technology. The journal has an international readership with a broad scientific base. Contributions will be accepted from scientists and engineers in industry, government and universities. Accepted manuscripts are generally published within four months. Please note that Environmental Technology does not publish any review papers unless for a specified special issue which is decided by the Editor. Please do submit your review papers to our sister journal Environmental Technology Reviews at http://www.tandfonline.com/toc/tetr20/current