Distribution of Microplastics in Domestic Wastewater and Microplastics Removal Potential in Wastewater Treatment Plants

IF 1.3 Q4 ENGINEERING, ENVIRONMENTAL

Journal of Ecological Engineering Pub Date : 2023-12-01 DOI:10.12911/22998993/172293

M. Fauzi, Y. Darnas, Cut Rauzatun Muna, Muhammad Nizar

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引用次数: 0

Abstract

Microplastics in domestic wastewater are detrimental to living organisms and appear in a variety of sizes, colors, and shapes. The purpose of this study is to examine the distribution of microplastics in domestic wastewater, as well as the possibility for microplastic removal in wastewater treatment plants (WWTP). The sampling method used is SNI 6989.59:2008 concerning Wastewater Sampling Methods that Apply in Indonesia. To remove organic compounds in the sample, 0.05 M Fe (II) and 30% H 2 O 2 solution were added by the digestion process at 75 °C for 30 minutes and cooled. Samples were filtered using Whattman GF/C filter paper with the help of a vacuum pump and dried. To identify the concentration, shape, size, color of microplastics, visual analysis was used with the help of a microscope using the zig-zag technique. The concentration of microplastics in domestic wastewater in Gampong Garot is 30.17 ± 0.75 particles/100 mL sample. The most commonly found microplastic size is 1,001–5,000 µm, while the dominant color is transparent. The forms of microplastic found in the samples were fiber, fragments and microbeads with a percentage of 65.20%, 23.16% and 11.64%, respectively. These micro - plastics come from local community activities such as washing clothes, bathing, washing dishes, and other activities. So, it is necessary to treat domestic wastewater using WWTP. Not only does it remove organic matter and nutrients, WWTP also has the potential of microplastics removal around 7–99% depending on the processing unit.

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生活污水中微塑料的分布和污水处理厂去除微塑料的潜力

生活废水中的微塑料对生物有害，并以各种大小、颜色和形状出现。本研究的目的是研究微塑料在生活废水中的分布，以及在污水处理厂去除微塑料的可能性。所使用的采样方法是SNI 6989.59:2008，关于适用于印度尼西亚的废水采样方法。为去除样品中的有机物，加入0.05 M Fe (II)和30% h2o2溶液，在75℃下溶出30分钟后冷却。样品使用Whattman GF/C滤纸在真空泵的帮助下过滤并干燥。为了鉴定微塑料的浓度、形状、大小和颜色，使用显微镜下的锯齿形技术进行了视觉分析。甘榜加罗特市生活废水中微塑料的浓度为30.17±0.75个颗粒/100 mL样品。最常见的微塑料尺寸为1001 - 5000µm，而主要颜色是透明的。样品中发现的微塑料形态为纤维、碎片和微珠，分别占65.20%、23.16%和11.64%。这些微塑料来自当地的社区活动，如洗衣服、洗澡、洗碗和其他活动。因此，利用污水处理厂处理生活污水是十分必要的。污水处理厂不仅可以去除有机物和营养物质，还可以去除7-99%的微塑料，具体取决于处理单元。

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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来源期刊

Journal of Ecological Engineering ENGINEERING, ENVIRONMENTAL-

CiteScore

2.60

自引率

15.40%

发文量

379

审稿时长

8 weeks

期刊介绍： - Industrial and municipal waste management - Pro-ecological technologies and products - Energy-saving technologies - Environmental landscaping - Environmental monitoring - Climate change in the environment - Sustainable development - Processing and usage of mineral resources - Recovery of valuable materials and fuels - Surface water and groundwater management - Water and wastewater treatment - Smog and air pollution prevention - Protection and reclamation of soils - Reclamation and revitalization of degraded areas - Heavy metals in the environment - Renewable energy technologies - Environmental protection of rural areas - Restoration and protection of urban environment - Prevention of noise in the environment - Environmental life-cycle assessment (LCA) - Simulations and computer modeling for the environment