太阳能膜生物反应器 (MBR) 处理乌干达坎帕拉一家医院的废水以供再利用--试点规模试验的结果

Q2 Environmental Science Environmental Challenges Pub Date : 2024-08-01 DOI:10.1016/j.envc.2024.100986
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引用次数: 0

摘要

为乌干达坎帕拉的 Lubaga 医院开发了一种坚固耐用、经济高效的太阳能供电膜生物反应器 (MBR) 试验项目,其下游为颗粒活性炭 (GAC) 过滤器,用于医院废水处理。MBR-GAC 试点项目包括一个 25 平方米的超滤 (UF) 模块、一个 100 千克的 GAC 过滤器、20 块总功率为 7 千瓦的光伏电池板和一个 3.55 千瓦时的超级电容器储能装置,用于生产非饮用水和可重复使用的水,用于冲洗厕所、清洁和灌溉。试点项目以 43% 的清洁能源自给率运行,停电超过 1 小时时有电网和柴油发电机备用。MBR 试点的平均流量为 10-15 L m-2 h-1,总有机碳 (TOC) 去除率为 50%。硝化池、反硝化池和过滤池是分开的,硝化率达到 80%,反硝化率达到 20%。下游 GAC 过滤器升级后,MBR 无法去除的典型医院药物残留物的去除率提高到约 90%。GAC 的去除效率在达到 4290 床容积 (BV) 时降至约 25%。在 MBR 中,双氯芬酸的去除率大幅提高了 75%,这要归功于活性污泥的适应性。试点工厂处理后的废水水质足以回用于医院花园灌溉、厕所冲洗和清洁。最后,研究还讨论了优化工厂设计和运行的方法。该试点项目具有可扩展性,可以在其他地方推广,并以高效、经济的方式适用于非洲撒哈拉以南国家。
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Solar powered membrane bioreactor (MBR) treating wastewater for reuse at a hospital in Kampala, Uganda – Results of pilot-scale trials

A robust and cost-effective pilot solar-powered membrane bioreactor (MBR) with downstream granular activated carbon (GAC) filter hospital wastewater treatment was developed for the Lubaga hospital in Kampala, Uganda. The MBR-GAC pilot included a 25 m2 ultrafiltration (UF) module, a 100 kg GAC filter, 20 photovoltaic panels totaling 7 kWp and a 3.55 kWh supercapacitor energy storage unit to produce non-potable and reusable water for toilet flushing, cleaning and irrigation. The pilot operated with 43% clean energy autonomy with grid and diesel generator backup for power outages of more than 1 hour. The MBR pilot produced an average flux of 10–15 L m–2 h–1 with 50% total organic carbon (TOC) removal. The nitrification, denitrification and filtration tanks were separated to achieve a nitrification of 80% and denitrification of 20%. The removal of typical hospital pharmaceutical residues that could not be reduced by the MBR increased to approximately 90% after the downstream GAC filter was upgraded. The removal efficiency of the GAC decreased to approximately 25% at 4,290 bed volume (BV). The significant increase of 75% in the removal efficiency of diclofenac in the MBR was attributed to the acclimation of the activated sludge. The quality of the treated wastewater from the pilot plant was sufficient for reuse by irrigation of the hospital garden, toilet flushing and cleaning. Finally, the study discussed ways to optimize the design and operation of the plant. The pilot is scalable to be replicated elsewhere and adapted in an efficient and cost-effective manner in sub-Saharan countries in Africa.

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来源期刊
Environmental Challenges
Environmental Challenges Environmental Science-Environmental Engineering
CiteScore
8.00
自引率
0.00%
发文量
249
审稿时长
8 weeks
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