摘要
人工湿地是处理不同领域复杂污染物的有效方法,已经被广泛应用。植物—基质—微生物三者之间协同作用是人工湿地去除污染物的主要机理,其中基质是系统中重要的组成部分,但日趋复杂的污染物组成对提高人工湿地性能和可持续性的基质提出了新的要求。本研究综述了人工湿地常用基质的理化性质、污染物去除效率,归纳了基质在人工湿地处理过程中遇到的问题,进一步结合国内外学者提出的解决方案,总结并提出了人工湿地优化措施,为人工湿地构建及处理效率优化提供了依据。
Artificial wetlands is an effective solution for addressing complex environmental pollutants.The synergy among plants,substrates,and microorganisms is the key mechanism driving the removal of pollutants in artificial wetlands,with the substrate playing a particularly vital role.However,the growing complexity of pollutants necessitates the development of sustainable substrates and more efficient artificial wetland systems.This study begins by conducting a comprehensive review of the physicochemical properties,pollutant removal mechanisms,and efficiency of commonly used substrates.Challenges faced by substrates during the treatment process in constructed wetlands are also brought to the forefront.By amalgamating the solutions proposed by both domestic and foreign scholars,this research outlines and proposes optimization measures for constructed wetlands.In conclusion,this study serves as a foundational resource for the construction of constructed wetlands and the enhancement of treatment efficiency in the face of evolving environmental challenges.
作者
莫晶
黄钰铃
骆辉煌
曹天正
杨青瑞
Mo Jing;Huang Yuling;Luo Huihuang;Cao Tianzheng;Yang Qingrui(China Institute of Water Resources and Hydropower Research,Beijing 100038)
出处
《湖北林业科技》
2024年第2期51-56,共6页
Hubei Forestry Science and Technology
基金
中国长江三峡集团有限公司资助科研项目(202103360)
长江生态环保集团有限公司资助科研项目“污水厂尾水生态湿地及河道生态用水技术研究”(HB/AH 2021046)。
关键词
人工湿地
基质
去污能力
优化
constructed wetland
substrate
decontamination ability
optimization
