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[1]刘唯源,邓博苑,朱海龙,等.基于分子生物学的前置生物活性炭工艺除污效能研究[J].中国给水排水,2023,39(21):21-26.
　LIUWei-yuan,DENGBo-yuan,ZHUHai-long,et al.Efficacy of Pre?BAC Process for Pollutant Removal Based on Molecular Biology[J].China Water & Wastewater,2023,39(21):21-26.

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基于分子生物学的前置生物活性炭工艺除污效能研究

中国给水排水[ISSN:1000-4062/CN:12-1073/TU] 卷: 第39卷期数: 2023年第21期页码: 21-26 栏目: 出版日期: 2023-11-01

Title:: Efficacy of Pre?BAC Process for Pollutant Removal Based on Molecular Biology

作者:: 刘唯源¹，邓博苑¹，朱海龙¹，周宇¹，王雪峰²，董志强³，李伟英^1,4; （1.同济大学环境科学与工程学院，上海 200092；2.上海浦东威立雅自来水有限公司，上海 200120；3.中铁上海工程局集团市政环保工程有限公司，上海 201906；4.上海污染控制与生态安全研究院，上海 200092）

Author(s):: LIU　Wei-yuan¹， DENG　Bo-yuan¹， ZHU　Hai-long¹， ZHOU　Yu¹， WANG　Xue-feng²， DONG　Zhi-qiang³， LI　Wei-ying^1，4; （1. College of Environmental Science and Engineering， Tongji University， Shanghai 200092， China； 2. Shanghai Pudong Veolia Water Co. Ltd.， Shanghai 200120， China； 3. Municipal Environmental Protection Engineering Co. Ltd. of CERC Shanghai Group， Shanghai 201906， China； 4. Shanghai Institute of Pollution Control and Ecological Security， Shanghai 200092， China）

关键词:: 前置生物活性炭; 分子生物学; 污染物去除; 菌落总数; 微生物群落结构

Keywords:: pre?BAC; molecular biology; pollutant removal; total number of bacteria; microbial community structure

摘要:: 通过实验室小试，开展了前置生物活性炭工艺（PBAC）和常规生物活性炭工艺（CBAC）与砂滤联用时对浊度、氨氮、COD_Mn、UV₂₅₄、BDOC等污染物指标的去除效果，以及活性炭表面生物量、微生物多样性、群落结构、出水菌落总数等指标异同性的研究。相较于CBAC工艺，PBAC工艺与砂滤联用时对氨氮、COD_Mn、BDOC的去除率分别提高了5.79%、5.04%、16.07%，对浊度和UV254的去除率相近，出水菌落总数下降了53.82%。PBAC工艺活性炭表面微生物量提高了31.11%，且其群落结构特异性显著，所具有的优势菌种较好地发挥了对有机物的降解作用，说明PBAC工艺在保障饮用水化学安全性与生物稳定性方面具有较好的效果。

Abstract:: The similarities and differences in the removal of turbidity, ammonia nitrogen, COD_Mn, UV₂₅₄, BDOC and other pollutants, as well as the surface biomass of activated carbon, microbial diversity, community structure, and the total number of bacteria in the corresponding effluent were investigated by combining the pre-BAC process (PBAC) and the conventional BAC process (CBAC) with sand filtration in a small-scale test. Compared to the CBAC process, when PBAC was combined with sand filtration, the removal rates of ammonia nitrogen, COD_Mn and BDOC were increased by 5.79%, 5.04% and 16.07%, respectively, and the removal rates of turbidity and UV₂₅₄ were similar. The total number of bacteria in the effluent decreased by 53.82% when the PBAC process was combined with sand filtration. Compared with the CBAC process, the biomass of the PBAC increased by 31.11%. The specificity of the community structure was significant, and the dominant species played a better role in the degradation of organic matter, indicating that the PBAC process had a better effect in ensuring the chemical safety and biological stability of drinking water.

更新日期/Last Update: 2023-11-01