Tam Thi Thanh Vang, Dan Phuoc Nguyen, Thy Linh Le, Long Nguyen Thien Le, Anh Thi Ngoc Pham, Thanh Quang Do Le, Hieu Nguyen Trung Tran, Tran Thi Bich Pham
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引用次数: 0
Abstract
In recent years, anammox has not only economic benefits but also potential for wastewater treatment containing ammonium and low organic carbon. Along with breakthroughs ammonium treatment in the world, anammox process in internal circulation reactor (IC) is a new technology being researched and developed in high-load ammonium treatment. There In this study, an laboratory scale IC was used to enrich anammox sludge by seeding anaerobic granular sludge and feeding old leachate from the Go Cat municipal solid waste landfill. The seed sludge, which was anaerobic granular sludge taken from an UASB reactor of an industrial wastewater treatment plant was innoculated to IC at MLSS and MLVSS concentrations of 55.1 g.L-1 and 45 g.L-1, respectively, equivalent to the MLVSS:MLSS ratio of 0.82. Since 80 days of operation, the sludge in the IC was divided into two separate zones: a granular zone at the IC bottom part and the floc zone in the upper part. The average total nitrogen (TN) removal efficiency was 45% at nitrogen loading rate 0.4 – 0.6 kg N. m-3.day. The SAA of floc sludge and granular sludge on day 61, increased 6 and 8 times compared to thosed on day 27. The study illustrated that the enrichment of anammox sludge took a long time and granulation in the IC reactor was an important operating factor for anammox growth.
近年来,厌氧氨氧化不仅具有经济效益,而且在含铵低有机碳废水处理中也具有很大的潜力。随着国内外铵盐处理技术的突破,内循环厌氧氨氧化工艺是高负荷铵盐处理中正在研究和开发的一项新技术。在本研究中,利用实验室规模的IC通过播种厌氧颗粒污泥和投料从Go Cat城市生活垃圾填埋场的旧渗滤液来富集厌氧氨氧化污泥。种子污泥为工业废水处理厂UASB反应器中提取的厌氧颗粒污泥,在MLSS和MLVSS浓度为55.1 g的条件下接种于IC。L-1和45克。分别为L-1,相当于MLVSS:MLSS比值为0.82。运行80天以来,集成电路内的污泥分为两个独立的区:集成电路底部的颗粒区和上部的絮凝区。当氮负荷为0.4 ~ 0.6 kg n - m-3 d时,总氮(TN)平均去除率为45%。与第27天相比,第61天絮凝污泥和颗粒污泥的SAA分别提高了6倍和8倍。研究表明,厌氧氨氧化污泥的富集需要较长的时间,IC反应器中的造粒是厌氧氨氧化生长的重要操作因素。