Influence of different Wastewater Treatment Processes on the rate and characteristics of MPs released from WWTPs in Fiji, South Pacific

Malelili Naulivou Rokomatu, Geetika Bhagwat-Russell, Logeshwaran Panneerselvan, Subash Raju, Viliame Savou, Timaima Waqainabete, Thavamani Palanisami
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Abstract

Abstract The global effects of MP (MP) pollution on the environment are concerning, and they are exacerbated by the multiple sources of pollution in aquatic environments such as urban runoff, waste mismanagement, industrial pollution, and so on. South pacific islands host a large diversity of aquatic flora and fauna and given its ecological significance it is necessary to identify the sources of MP pollution in the region. To date, very little attention has been given to identify whether effluents from wastewater treatment plants (WWTP) are acting as a significant source of MP in the South Pacific region and its countries. Therefore, the present study analyzed and compared the treatment methods and fate of MPs in the country’s two main WWTPs: 1) the Kinoya WWTP (simple secondary clarifier and trickling filter) and 2) Natabua WWTP (secondary pond treatment system). Sampling locations were based on the different treatment stages, and samples were collected from each stage of treatment before effluents were released into the ocean. Kinoya WWTP had an average of 3.45 ± 0.3 particles/L in the inlet stage and released an average of 0.3 ± 0.26 particles/L of MP through the outlet with 91% removal efficiency (RE) with an output equivalent of 4500 particles per day. The initial stage of treatment from the anaerobic pond outlet at Natabua had an average of 2.9 ± 1.05 particles/L, and the maturation outlet had an average of 0.53 ± 0.42 particles/L, a removal efficiency of 81% and thus an output equivalent of 4558 particles/L of MP. Polymer analysis under FTIR confirmed that cellophane or semi-synthetic cellulose and polypropylene were common polymers in the final effluent in Kinoya WWTP, and Natabua plant has cellophane or semi-synthetic cellulose, polypropylene and polyethylene were observed as common polymers. Although there are numerous study that have compared wastewater treatment processes, this is the first study in Fiji that investigates the efficiency of the two methods of water treatment process in the context of microplastic pollution and emphasizes the effectiveness of the treatment stages in determining the concentration of MP released into the ocean.
不同废水处理工艺对斐济南太平洋污水处理厂释放多磺酸盐的速率和特性的影响
摘要/ Abstract摘要:MP (MP)污染对环境的全球性影响令人关注,而城市径流、废弃物管理不善、工业污染等多重污染源又加剧了MP (MP)污染对环境的影响。南太平洋岛屿拥有丰富多样的水生动植物,鉴于其生态意义,有必要确定该地区的MP污染源。迄今为止,很少有人注意确定废水处理厂的流出物是否是南太平洋区域及其国家的一个重要的多氯污染物来源。因此,本研究分析和比较了国内两大污水处理厂:1)Kinoya污水处理厂(简单二级澄清池和滴滤池)和2)Natabua污水处理厂(二级池处理系统)中MPs的处理方法和命运。采样地点基于不同的处理阶段,在污水排放到海洋之前从每个处理阶段收集样本。木屋污水处理厂进水阶段平均为3.45±0.3个颗粒/L,出口平均释放0.3±0.26个颗粒/L的MP,去除效率(RE)为91%,相当于每天输出4500个颗粒。纳塔布瓦厌氧池出水处理初期的平均去除率为2.9±1.05粒/L,成熟出水平均去除率为0.53±0.42粒/L,去除率为81%,相当于输出4558粒/L的MP。FTIR聚合物分析证实,木屋污水处理厂最终出水中常见的聚合物是玻璃纸或半合成纤维素和聚丙烯,纳塔布瓦厂的常见聚合物是玻璃纸或半合成纤维素、聚丙烯和聚乙烯。虽然有许多研究对废水处理过程进行了比较,但这是斐济第一个调查微塑料污染背景下两种水处理过程方法效率的研究,并强调了处理阶段在确定释放到海洋中的MP浓度方面的有效性。
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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