ZHOU Jia-zhong,WU Di,ZHENG Lin-ao.Engineering Application of Pure MBBR Process at Home and Abroad[J].China Water & Wastewater,2020,36(22):37-47.
纯膜MBBR工艺在国内外的工程应用
- Title:
- Engineering Application of Pure MBBR Process at Home and Abroad
- Keywords:
- MBBR; suspended carrier; biofilm; pure MBBR; micro-polluted water; anommox; emergency; limited occupancy area
- 摘要:
- 纯膜MBBR工艺系统不设二沉池,无污泥回流,以附着态形式存在的悬浮载体生物膜完成污染物的去除,生物膜在流化的作用下实现动态更新,无需反冲洗,具备极佳的抗低温性能,处理负荷高,停留时间短,可灵活应用于污水厂各工艺段,从而获得优良的出水水质。总结了纯膜MBBR工艺污染物的去除特性,描述了该工艺脱碳、硝化和反硝化过程。介绍了国外Lillehammer、Gardermoen、Sjolunda、Phillips Petroleum Borger、TAU污水厂纯膜MBBR工艺的设计和应用情况,回顾了国内纯膜MBBR工艺在微污染水、工业废水、市政污水、高氨氮废水处理中的应用情况。实践应用表明,纯膜MBBR工艺结合更加紧凑的深度处理工艺,最大可节约80%的占地,去除负荷高,工艺流程短,具有占地省、投资低、运行简便等优势,适用于污水厂新建以及扩容提标,具有极大的发展空间和广泛的应用前景。
- Abstract:
- There is no secondary sedimentation tank and sludge return system in the pure MBBR process.The pollutants can be removed effectively by biofilm which attached to the suspended carriers. The biofilm can be dynamically renewed by fluidization without backwashing. The pure MBBR process has excellent advantages, such as low temperature resistance, high removal loading, short retention time, flexibility application to the many sections of WWTP, so as to obtain excellent effluent quality. In this paper, the characteristics of removal pollutants in pure MBBR process are summarized, and the decarbonization, nitrification and denitrification processes are described as well. The design and application of pure MBBR process in Lillehammer WWTP, Gardermoen WWTP, Sjolunda WWTP, Phillips Petroleum Borger WWTP, and TAU WWTP which are located abroad are introduced. The application of pure MBBR process in micropolluted water, industrial wastewater, municipal wastewater and high ammonia nitrogen wastewater in China are reviewed. Practical application shows that the pure MBBR process combined with a more compact advanced treatment process can save up to 80% of the land occupation compared with the conventional process. The pure MBBR process has the advantages of high removal loading, short process flow, low land occupation, low investment and simple operation. It is suitable for new construction and expansion of WWTP, and has great development space and wide application prospect.
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[1]朱点钰,陈年浩,朱津苇,等.填料类型对MBBR启动及运行效能的影响[J].中国给水排水,2018,34(21):1.
ZHU Dian yu,CHEN Nian hao,ZHU Jin wei,et al.Effect of Carrier Type on Startup and Operating Efficiency of Moving Bed Biofilm Reactor[J].China Water & Wastewater,2018,34(22):1.
[2]郑临奥,吴迪,张晶晶,等.城市污水泵站改为河道生态补给站的实践总结[J].中国给水排水,2018,34(20):82.
ZHENG Lin ao,WU Di,ZHANG Jing jing,et al.Practice of River Ecological Replenishment Retrofitting from an Urban Sewage Pumping Station[J].China Water & Wastewater,2018,34(22):82.
[3]张晓霞,熊仁久,周家中,等.浙江某工业废水处理厂升级改造运行效果解析[J].中国给水排水,2021,37(5):37.
ZHANG Xiao-xia,XIONG Ren-jiu,ZHOU Jia-zhong,et al.Analysis on Upgrading and Retrofitting Effect of an Industrial Wastewater Treatment Plant in Zhejiang[J].China Water & Wastewater,2021,37(22):37.
[4]孙庆花,张晓霞,赵益华,等.天津某高盐高排放标准污水厂提标改造工程设计[J].中国给水排水,2021,37(8):83.
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[5]周家中,宋平周,张爽,等.占地受限下北方某高标准新建污水厂工程设计[J].中国给水排水,2021,37(12):76.
ZHOU Jia-zhong,SONG Ping-zhou,ZHANG Shuang,et al.Engineering Design of a New High-standard Wastewater Treatment Plant with Limited Footprint Area in North China[J].China Water & Wastewater,2021,37(22):76.
[6]王雪欣,毕学军,麻弛张,等.两点进水三段A/O-MBBR生物脱氮中试研究[J].中国给水排水,2021,37(17):62.
WANG Xue-xin,BI Xue-jun,MA Chi-zhang,et al.Nitrogen Removal of Pilot-scale Three Stages A/O-MBBR with Two-step-feed[J].China Water & Wastewater,2021,37(22):62.
[7]周小琳,樊星,毕学军,等.两段式A/O-MBBR工艺生物脱氮中试与系统优化[J].中国给水排水,2021,37(19):72.
ZHOU Xiao-lin,FAN Xing,BI Xue-jun,et al.Pilot-scale Test and System Optimization of Two-stage A/O-MBBR Process for Biological Nitrogen Removal[J].China Water & Wastewater,2021,37(22):72.
[8]张亚莉,霍克影,周坤,等.悬浮载体有效比表面积的生物法测定研究[J].中国给水排水,2022,38(3):29.
ZHANGYa-li,HUOKe-ying,ZHOUKun,et al.Determination of Effective Specific Surface Area of Suspended Carrier by Bioassay Method[J].China Water & Wastewater,2022,38(22):29.
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GAOYan-bo,YANGZhong-qi,ZHOUJia-zhong,et al.Application of BFM Fabricated Structure in the Design of Land Limited Wastewater Treatment Plant[J].China Water & Wastewater,2023,39(22):46.
[11]郭莉芳,朱宇峰,滕良方,等.MBBR用于南方某污水厂强化脱氮效果分析[J].中国给水排水,2020,36(7):101.
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YANG Ping,ZHOU Jia-zhong,GUAN Yong-jie,et al.Comparison of AAO and Bardenpho Processes Transformation Effect Based on MBBR[J].China Water & Wastewater,2021,37(22):11.
[13]陈如勇,张晓霞,周家中,等.MSBR改为三级A/O-MBBR连续流工艺的应用效果[J].中国给水排水,2021,37(14):108.
CHEN Ru-yong,ZHANG Xiao-xia,ZHOU Jia-zhong,et al.Practical Application Effect of Retrofitted MSBR into Three-stage A/O-MBBR Continuous Flow Process[J].China Water & Wastewater,2021,37(22):108.