将活性炭作为基质纳入人工湿地。综述

Petro Karungamye
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引用次数: 0

摘要

本综述探讨了在建造湿地中利用活性炭作为基质的潜力。整合活性炭的目的是通过利用自然处理过程和活性炭的吸附能力来提高水和废水的质量。由于活性炭具有高表面积和独特的孔隙结构,因此能有效吸附一系列污染物,如有机化合物、重金属和营养物质。研究人员专注于提高传统建造的湿地系统可能难以解决的污染物去除率。整合活性碳的方法多种多样,包括将活性碳与其他基质混合,或将其作为湿地床内的一个独立层。这些策略的成功与否受污染物类型、水力停留时间和湿地植被特征等因素的影响。研究表明,活性炭可以提高建造湿地对药物、杀虫剂和工业废物等污染物的清除率。不过,还需要进行更多的研究,以优化这些系统的设计和运行,调查碳颗粒大小和负载率等变量,并进行长期监测,以评估活性碳强化构建湿地的稳定性和可持续性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The incorporation of activated carbon as a substrate in a constructed wetland. A review
This review examines the potential of utilizing activated carbon as a substrate in constructed wetlands. The integration of activated carbon aims to enhance the quality of water and wastewater by leveraging natural treatment processes alongside the adsorptive capabilities of activated carbon. Due to its high surface area and unique pore structure, activated carbon effectively adsorbs a range of pollutants, such as organic compounds, heavy metals, and nutrients. Researchers are focused on improving the removal of contaminants that traditional constructed wetland systems may struggle to address. Various methods for integrating activated carbon include mixing it with other substrates or employing it as a distinct layer within the wetland bed. The success of these strategies is influenced by factors such as the type of pollutants, hydraulic retention time, and the characteristics of wetland vegetation. Studies have shown that activated carbon can enhance the elimination of contaminants like pharmaceuticals, pesticides, and industrial waste in constructed wetlands. Nonetheless, additional research is required to optimize the design and operation of these systems, investigate variables such as carbon particle size and loading rates, and perform long-term monitoring to evaluate the stability and sustainability of activated carbon-enhanced constructed wetlands.
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