Enhancing biofilm growth in an integrated fixed-film activated sludge process through modification of polypropylene carriers

Shujie Liu, Yun Li, Jinghou Wang, Fuming Chen, Jian-e Zuo
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Abstract

Biofilm is crucial in implementing integrated fixed-film activated sludge (IFAS) systems. However, current carriers face challenges in long-term stable operations. This study proposes using cationic polyacrylamide (PAM) as a positive-charged addictive and surface abrasion to modify polypropylene (PP) pipes to enhance biofilm growth and maintain long-time operation in IFAS applications. The modified PP carriers have significantly increased specific surface area compared to unmodified ones. The growth of biofilm on modified carriers is as much as over four times due to the improved biocompatibility of the material. The follow-up aerobic IFAS process achieves over 40% total nitrogen (TN) removal through simultaneous nitrification and denitrification with no specific anoxic stages or reactors. The sludge settling performance of the system is also improved with a stable 30-min sludge settling ratio of 18%. The maximum specific denitrification rate of the detached biofilm is 17.82 mg NO3−-N/g MLVSS/h, which is 33% higher than the pure activated sludge system. The high-throughput sequencing analysis results reveal that the abundance of biofilm-formation beneficial microbes increased from 0.02% to 16.47%.
通过改性聚丙烯载体促进固定式活性污泥法生物膜的生长
生物膜是实施集成固定膜活性污泥(IFAS)系统的关键。然而,目前的航空公司在长期稳定运营方面面临挑战。本研究提出使用阳离子聚丙烯酰胺(PAM)作为带正电荷的添加剂和表面磨蚀剂来改性聚丙烯(PP)管道,以促进生物膜的生长和维持IFAS应用中的长时间运行。改性后的PP载体比表面积比未改性的显著增加。由于材料的生物相容性得到改善,生物膜在改性载体上的生长速度提高了四倍以上。后续好氧IFAS工艺通过同时硝化和反硝化实现40%以上的总氮(TN)去除率,无需特定的缺氧阶段或反应器。系统的污泥沉降性能也得到了提高,30分钟污泥沉降率稳定在18%。分离生物膜的最大比脱氮率为17.82 mg NO3−-N/g MLVSS/h,比纯活性污泥系统提高33%。高通量测序分析结果显示,形成生物膜的有益微生物丰度从0.02%增加到16.47%。
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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