用于城市污水处理的集成式上流式厌氧污泥毯反应器与滴滤器的性能评估以及污水回用于农业的潜力

Rahel Sintayehu Tessema, Mekonnen Maschal Tarekegn, Mitiku Adisu Worku, Agizew Nigussie Engida, Ann Van Griensven
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摘要

污水回用是一个快速发展的研究领域,评估污水的质量是重点领域之一。本研究通过在旱季测试集成式上流式厌氧污泥毯(UASB)反应器和滴滤器(TF)系统,考察将废水用于农业的可行性。从 2021 年 5 月 11 日至 6 月 9 日,进行了为期 30 天的合规性监测。按照标准废水分析程序收集、处理和分析样本,包括生物需氧量 (BOD)、化学需氧量 (COD)、总悬浮固体 (TSS)、挥发性悬浮固体 (VSS)、阳离子、阴离子、重金属、大肠杆菌和蠕虫卵。Kality 废水处理中的 UASB-TF 系统在去除 COD、BOD5 和 TSS 方面表现出色,平均去除率分别为 80.5%、82.9% 和 80.9%,与类似的处理配置相比表现良好。出水水质符合国家内陆排放限值,COD、BOD5 和 TSS 的剩余浓度分别为 125.1 mg/L、61.7 mg/L 和 85.8 mg/L。另一方面,高浓度的铬、硝酸盐氮和蠕虫卵计数限制了污水的农业再利用,因为这些物质会带来高健康风险和环境污染。我们发现,将工业污水排入生活污水管网会抑制微生物生长,影响生物处理过程。此外,发展中国家采用综合处理系统可能会面临运行挑战,而监测硝酸盐、蠕虫卵和重金属将有助于及时提供运行反馈。因此,需要引入适当的三级处理单元--建造湿地或抛光池--以确保污水回用于农业目的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Performance evaluation of integrated Upflow Anaerobic Sludge Blanket reactor with trickling filter used for municipal wastewater treatment and effluent reuse potential for agriculture
Effluent reuse is a rapidly growing field of research where assessing the quality of effluent is one of the focus areas. This research examines the viability of using wastewater in agriculture by testing an integrated Upflow Anaerobic Sludge Blanket (UASB) reactor with a trickling filter (TF) system during the dry season. Compliance monitoring was conducted for 30 days from May 11 to June 9 of 2021. Samples were collected, handled, and analyzed following standard wastewater analysis procedures for biological oxygen demand (BOD), chemical oxygen demand (COD), total suspended solids (TSS), volatile suspended solids (VSS), cations, anions, heavy metals, E. coli, and helminth egg. The UASB-TF system in Kality wastewater treatment performed well in removing COD, BOD5, and TSS with average removal rates of 80.5%, 82.9%, and 80.9%, respectively, compared well with similar treatment configurations. The effluent quality satisfied the national inland discharge limit with a residual concentration of 125.1 mg/L for COD, 61.7 mg/L for BOD5 and 85.8 mg/L for TSS. On the other hand, high concentrations of chromium, nitrate-nitrogen, and helminth egg count restricted effluent reuse for agricultural purposes due to high health risks and environmental contamination. We found out that discharging industrial sewage into the domestic sewer network could inhibit microbial growth and affect the biological treatment processes. Furthermore, adopting integrated treatment systems in developing countries might face operational challenges and monitoring nitrate, helminth egg, and heavy metals would help provide timely operational feedback. An appropriate tertiary treatment unit—constructed wetlands or polishing ponds—is therefore needed to be introduced to ensure effluent reuse for agricultural purposes.
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