人工湿地-固定化藻类系统同步去除高强度废水中的有机物和营养物质。

Simultaneous removal of organic matters and nutrients from high-strength wastewater in constructed wetlands followed by entrapped algal systems.

机构信息

Environment and Sustainability Department, CSIR-Institute of Minerals and Materials Technology, Bhubaneswar, 751013, India.

Australian Maritime College, College of Science and Engineering, University of Tasmania, Launceston, Tasmania, 7248, Australia.

出版信息

Environ Sci Pollut Res Int. 2020 Jan;27(1):1112-1117. doi: 10.1007/s11356-019-06896-z. Epub 2019 Dec 9.

DOI:10.1007/s11356-019-06896-z

PMID:31820236

Abstract

The present work designs a low-cost biological treatment strategy consisting of constructed wetlands (CWs) followed by entrapped algae (EA) for removing nutrients (PO, NO, and NH) and organic matters from high-strength wastewater. The CWs are efficient means for organic pollutant removal but face challenges in nutrient removal. Algae have a high growth rate and nutrient uptake capabilities from wastewater. The severe challenge that limits the use of algae for nutrient removal from wastewater is its post-treatment separation from wastewater. This work presents a strategy to address the described problems of CWs and algae-based system. It also assesses the performance of the system using synthetic wastewater. A combined system of CW followed by EA (CW-EA) was able to treat 86.0% of phosphate, 95.0% of nitrate, 74.0% of ammonium, and 87.0% of chemical oxygen demand (COD) from high-strength wastewater.

摘要

本工作设计了一种低成本的生物处理策略，包括人工湿地 (CWs) 和包埋藻类 (EA)，用于从高强度废水中去除营养物质 (PO、NO 和 NH) 和有机物。CWs 是去除有机污染物的有效方法，但在去除营养物质方面面临挑战。藻类具有从废水中快速生长和高效吸收营养物质的能力。限制藻类用于从废水中去除营养物质的一个严重挑战是其从废水中分离后的后续处理问题。本工作提出了一种策略来解决 CW 和基于藻类的系统中存在的问题。它还使用合成废水评估了系统的性能。CW 后接 EA 的组合系统能够处理高强度废水中 86.0%的磷酸盐、95.0%的硝酸盐、74.0%的铵和 87.0%的化学需氧量 (COD)。

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人工湿地-固定化藻类系统同步去除高强度废水中的有机物和营养物质。

Simultaneous removal of organic matters and nutrients from high-strength wastewater in constructed wetlands followed by entrapped algal systems.

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