Wastewater Treatment and Reuse on Campus: A Case Study in Kun Shan University

W. Kuo, C.-W. Pan, L. Lin
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引用次数: 2

Abstract

Because of water shortage, water treatment and reuse have become crucial. In this study, on the campus of Kun Shan University, an ecological channel with a treatment capacity of 150 CMD and a hydraulic retention time of 46.6 hr was used for the purification of reclaimed water. Different aquatic plants were grown to purify the used water, including floating aquatic plants such as water lettuce (Pistia stratiotes L.), Salvinia (Salvinia molesta D.S. Mitch.), and water hyacinth (Eichhornia crassipes (Mart.) Solms); submerged aquatic plants such as hornwort (Ceratophyllum demersum L.); and emergent plants such as Hygrophila pogonocalyx Hayata and H. salicifolia (Vahl) Nees. In water quality monitoring programs, dissolved oxygen, chemical oxygen demand, suspended solids, total nitrogen, total phosphate, and turbidity were measured weekly. The system was in operation from March 2015 to April 2017, across a total of nine seasons. The results obtained in this study indicated significant improvement in water quality, and dissolved oxygen in water increased from 1.6 mg/L to 5.3 mg/L. After treatment, performance for chemical oxygen demand, suspended solid, turbidity, total nitrogen, and total phosphate removal was 44.0%, 81.2%, 80.1%, 41.6%, and 18.0%, respectively. The results also revealed that Salvinia made little contribution to nitrogen removal, whereas Da-Ann hygrophila, willowleaf hygrophila, and hornwort exhibited great potential for nitrogen removal. Additionally, hornwort demonstrated great potential for phosphorus removal. The purified water is currently used for environmental maintenance and for supplying the landscape pool; moreover, the water purification process reduces the consumption of tap water and improves the efficiency of water utilization.
校园污水处理与回用——以昆山大学为例
由于水资源短缺,水处理和回用变得至关重要。本研究在昆山大学校园内,采用处理能力为150 CMD、水力停留时间为46.6 hr的生态通道净化再生水。种植不同的水生植物来净化废水,包括漂浮的水生植物,如水莴苣(Pistia stratiotes L.),萨尔维尼亚(Salvinia molesta D.S. Mitch.)和水葫芦(Eichhornia crassipes (Mart.))。索姆斯);沉水植物,如角苔;以及水杨花(H. salicifolia, Vahl)等新兴植物。在水质监测项目中,每周测量溶解氧、化学需氧量、悬浮物、总氮、总磷酸盐和浊度。该系统于2015年3月至2017年4月共运行了9个季节。本研究结果表明,水质得到了显著改善,水中溶解氧从1.6 mg/L增加到5.3 mg/L。处理后,化学需氧量、悬浮物、浊度、总氮和总磷酸盐去除率分别为44.0%、81.2%、80.1%、41.6%和18.0%。结果还表明,Salvinia对氮的去除贡献不大,而大安、柳叶和角苔对氮的去除潜力较大。此外,角草显示出很大的除磷潜力。净化后的水目前用于环境维护和景观池的供水;此外,水净化过程减少了自来水的消耗,提高了水的利用效率。
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