[1]张栋杰,李星,于海宽,等.混凝沉淀/超滤处理给水厂生产废水及回用可行性[J].中国给水排水,2023,39(15):45-50.
 ZHANGDong-jie,LIXing,YUHai-kuan,et al.Treatment of Production Wastewater from Drinking Water Treatment Plant by Coagulation-Sedimentation/Ultrafiltration Technology and Feasibility of Reuse[J].China Water & Wastewater,2023,39(15):45-50.
点击复制

混凝沉淀/超滤处理给水厂生产废水及回用可行性

中国给水排水[ISSN:1000-4062/CN:12-1073/TU] 卷: 第39卷 期数: 2023年第15期 页码: 45-50 栏目: 出版日期: 2023-08-01
Title:
Treatment of Production Wastewater from Drinking Water Treatment Plant by Coagulation-Sedimentation/Ultrafiltration Technology and Feasibility of Reuse
作者:
张栋杰1, 李星1, 于海宽2, 周志伟1, 于淑花3, 于洁3, 陈清4
(1.北京工业大学 城市建设学部,北京 100124;2.中国人民武装警察部队后勤学院 后勤保障系,天津 300309;3.东营自来水公司,山东 东营 257091;4.苏州立升净水科技有限公司,江苏 苏州 215000)
Author(s):
ZHANG Dong-jie1, LI Xing1, YU Hai-kuan2, ZHOU Zhi-wei1, YU Shu-hua3, YU Jie3, CHEN Qing4
(1. Faculty of Architecture, Civil and Transportation Engineering, Beijing University of Technology, Beijing 100124, China; 2. Department of Logstics Support, Logistics University of PAP, Tianjin 300309, China; 3. Dongying Waterworks Company, Dongying 257091, China; 4. Suzhou Litree Water Purification Technology Co. Ltd., Suzhou 215000, China)
关键词:
给水厂 生产废水 混凝沉淀 超滤 回用可行性
Keywords:
drinking water treatment plant production wastewater coagulation-sedimentation ultrafiltration feasibility of reuse
摘要:
以山东某大型给水厂的沉淀池排泥水、滤池反冲洗废水、活性炭池反冲洗废水和超滤膜池反冲洗废水组成的混合生产废水为研究对象,分别采用混凝沉淀、超滤、混凝沉淀/超滤3种工艺进行处理,考察了对有机物、三卤甲烷生成势(THMFP)的去除效果以及膜污染特性,探究了3种处理工艺出水的回用可行性。结果表明,混凝沉淀工艺或超滤工艺均可不同程度地去除混合生产废水中的有机物和THMFP,而混凝沉淀/超滤组合工艺可显著提高有机物和THMFP的去除效果;混凝沉淀可有效去除不可逆膜污染物的主要组分即类溶解性蛋白质和类腐殖质,对分子质量(MW)>100 ku的DOC也有明显的去除效果,可使后续超滤单元的不可逆膜污染指数降低49.83%、膜比通量提高4.75倍;超滤可有效去除类溶解性蛋白质和类色氨酸芳香族蛋白质,并高效截留MW>100 ku的DOC;而混凝沉淀/超滤组合工艺可显著提高类色氨酸芳香族蛋白质的去除效果,使各个分子质量区间的有机物均可得到更高效的去除。直接混凝沉淀或直接超滤处理出水宜回流到给水厂进水端进行回用,混凝沉淀/超滤处理出水宜回流到给水厂超滤单元或炭滤单元进水端进行回用。
Abstract:
Three processes of coagulation-sedimentation, ultrafiltration and coagulation- sedimentation/ultrafiltration were used respectively for the treatment of mixed production wastewater consisting of sludge discharge wastewater from sedimentation tank, backwashing wastewater from filter, backwashing wastewater from activated carbon tank and backwashing wastewater from ultrafiltration membrane tank in a large drinking water treatment plant in Shandong Province. The removal performance of organic matter, trihalomethane formation potential (THMFP) and membrane fouling characteristics of the processes were investigated, and the reuse feasibility of effluent from the three treatment processes was explored. Coagulation-sedimentation or ultrafiltration process was effective in removing organic matter and THMFP from the mixed production wastewater to varying degrees, and coagulation-sedimentation/ultrafiltration process significantly improved the removal performance of organic matter and THMFP. The coagulation-sedimentation process effectively removed the main substances (soluble proteins and humic-like substances) that led to irreversible membrane fouling, and also had obvious removal performance for DOC with molecular weight (MW) greater than 100 ku, which reduced the irreversible membrane fouling by 49.83% and increased the membrane flux by 4.75 times in subsequent ultrafiltration unit. The ultrafiltration process effectively removed soluble proteins and tryptophan-like aromatic proteins, and efficiently intercepted DOC with MW greater than 100 ku. The coagulation-sedimentation/ultrafiltration process significantly improved the removal efficiency of tryptophan-like aromatic proteins, so that the organic matter in each molecular weight range was more efficiently removed. The effluent from coagulation-sedimentation or ultrafiltration process should be returned to the inlet end of the drinking water treatment for reuse, and the effluent from coagulation-sedimentation/ultrafiltration process should be returned to the inlet end of the ultrafiltration unit or carbon filter unit for reuse.

相似文献/References:

[1]吴君怡,张燕,李宁远,等.中国水环境微塑料污染及水处理工艺对其去除效果[J].中国给水排水,2020,36(16):17.
 WU Jun-yi,ZHANG Yan,LI Ning-yuan,et al.Microplastic Pollution in China Water Environment and the Effect of Water Treatment Process on Microplastics Removal[J].China Water & Wastewater,2020,36(15):17.
[2]徐敬,李学勤,陈余星.不锈钢净水装置在给水厂全流程工艺中的应用[J].中国给水排水,2021,37(6):138.
 XU Jing,LI Xue-qin,CHEN Yu-xing.Application of Stainless Steel Water Purification Device in the Whole Process of a Waterworks[J].China Water & Wastewater,2021,37(15):138.
[3]史志皓,朱海涛,欧阳卓明,等.武汉市汉江原水悬浮物浓度与浊度对应关系的研究[J].中国给水排水,2022,38(21):51.
 SHIZhi-hao,ZHUHai-tao,OUYANG Zhuo-ming,et al.Relationship between Suspended Solid and Turbidity in Raw Water from Han River in Wuhan[J].China Water & Wastewater,2022,38(15):51.
[4]沈虎,王永磊,鞠玲,等.城镇给水厂气浮工艺运行性能与经济性分析[J].中国给水排水,2023,39(3):47.
 SHENHu,WANGYong-lei,JULing,et al.Performance and Economic Analysis of Air Flotation Process in Urban Water Supply Plant[J].China Water & Wastewater,2023,39(15):47.
[5]李晓,鲍磊,杨力,等.华北某大型给水厂加氯加药间设计经验总结[J].中国给水排水,2023,39(18):95.
 LIXiao,BAOLei,YANGLi,et al.Design Experience Summary of Chlorination and Dosing Room in a Large Water Supply Plant in North China[J].China Water & Wastewater,2023,39(15):95.
[6]杨熙,唐炜文,陈伟雄,等.新型重力浓缩池在给水厂污泥浓缩中的应用[J].中国给水排水,2024,40(17):65.
 YANGXi,TANGWei-wen,CHENWei-xiong,et al.Application of New Type of Gravity Thickening Tank for Sludge Concentration in Waterworks[J].China Water & Wastewater,2024,40(15):65.

更新日期/Last Update: 2023-08-01