Waste Removal Efficiencies of Floating Macrophytes for Restoration of Polluted Stream: An Experimental Analysis

IF 2.1 Q3 ENVIRONMENTAL SCIENCES

Urban science (Basel, Switzerland) Pub Date : 2023-02-16 DOI:10.3390/urbansci7010027

B. Mahajan, S. Shastri, S. Londhe

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引用次数: 2

Abstract

Freshwater sources are affected by a diverse range of pollutants, which increases the demand for effective remediation. Aquatic phytoremediation is a nature-based solution. It has the potential to provide efficient, adaptable, and multi-targeted treatment of polluted waters. The aim of this research is to evaluate non-mechanized, low-cost onsite treatment of waste water intrusions. It includes an experimental set up with three replicates. Each consists of a modified flow pattern under outdoor conditions. Experimental set up A and B were provided with macrophytes, water lettuce and duckweed, respectively, with plant coverage at 50% and 90%. Experimental set up C was a controlled set up without macrophytes. The highest removal of BOD, COD and Total solids by using water lettuce were observed to be 89%, 77% and 38.5%, respectively. By using duckweed, the highest removal of BOD, COD and Total solids were observed at 88%, 66% and 27.59%, respectively. Removal was also observed in Set up C for BOD, COD and Total solids; its efficiency was 48%, 47% and 25%, respectively. Set up A can be recommended for treating wastewater intrusion, so that wastewater will purify to a to satisfactory to disposal standard level before mixing in river water. The area available in the stream itself can be used as a treatment zone.

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漂浮大型植物对污染河流修复的除污效果实验分析

淡水资源受到各种污染物的影响，这增加了对有效补救的需求。水生植物修复是一种基于自然的解决方案。它有潜力提供高效、适应性强、多目标的污水处理。本研究的目的是评估废水侵入的非机械化、低成本现场处理。它包括一个有三个重复的实验装置。每个都由室外条件下的修改后的流动模式组成。实验装置A和B分别种植了大型植物、生菜和浮萍，植物覆盖率分别为50%和90%。实验装置C是一个没有大型植物的对照装置。生菜对BOD、COD和总固体的去除率最高，分别为89%、77%和38.5%。浮萍对BOD、COD和总固体的去除率最高，分别为88%、66%和27.59%。在设置C中也观察到BOD、COD和总固体的去除；其效率分别为48%、47%和25%。建议设置A装置处理进水，使污水在掺入河水前净化至符合处理标准的水平。流本身的可用区域可以用作处理区。

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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