焦点提醒：节地型HBR生物膜手艺在贵阳金百再生水厂的利用 作者:刘彦君1，蒋崇德2，曹效鑫1,2，庞洪涛1，侯锋1,2，邵彦青1，孙事昊1，袁菊2，高霖2(1.国投信开水情况投资无限公司，北京100084；2.贵州筑信水务情况财产无限公司，贵州贵阳550081)

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• English上一篇下一篇[1]刘彦君,蒋崇德,曹效鑫,等.节地型HBR生物膜手艺在贵阳金百再生水厂的利用[J].中国给水排水,2021,37(4):87-91.　LIU Yan-jun,JIANG Chong-de,CAO Xiao-xin,et al.Application of a Land-saving Hybrid Biofilm Reactor (HBR) in Guiyang Jinbai Reclaimed Water Plant[J].China Water & Wastewater,2021,37(4):87-91.点击复制

  节地型HBR生物膜手艺在贵阳金百再生水厂的利用中国给水排水[ISSN:1000-4062/CN:12-1073/TU]卷:第37卷期数:2021年第4期页码:87-91栏目:出书日期:2021-02-17

  Title:

  Application of a Land-saving Hybrid Biofilm Reactor (HBR) in Guiyang Jinbai Reclaimed Water Plant

  作者:

  刘彦君^{1，蒋崇德2，曹效鑫1,2，庞洪涛1，侯锋1,2，邵彦青1，孙事昊1，袁菊2，高霖2}

  (1.国投信开水情况投资无限公司，北京100084；2.贵州筑信水务情况财产无限公司，贵州贵阳550081)

  Author(s):

  LIU Yan-jun^{1,JIANG Chong-de2,CAO Xiao-xin1,2,PANG Hong-tao1,HOU Feng1,2,SHAO Yan-qing1,SUN Shi-hao1,YUAN Ju2,GAO Lin2}

  (1. SDIC Xinkai Water Environment Investment Co. Ltd., Beijing 100084, China; 2. Guizhou Zhuxin Water Environment Co. Ltd., Guiyang 550081, China)

  要害词:

  污水处置;生物膜;固定床;节地

  Keywords:

  wastewater treatment;biofilm;fixed bed;land-saving

  摘要:

  贵阳金百再生水厂设想范围为3.0×10^{4m3/d，出水水质履行《城镇污水处置厂污染物排放尺度》（GB 18918—2002）一级A尺度，就近作为麦架河河流生态补水。生化处置采取节地型生物膜手艺，经由过程悬浮填料和高填充率的固定床布局，实现生物膜处置和生物过滤的两重感化，高效去除污染物，省去二沉池，节流占地面积。引见了该厂的工艺流程、修建物设想和装备设置装备摆设环境，并对运转结果进行总结。自运转以来,出水水质不变达标，COD、SS、氨氮、总氮、总磷去除率别离为89.4%、92.8%、96.3%、48.4%、90.9%;节地结果较着，吨水占地仅为0.36 m2/(m3·d-1);运转本钱为0.56元/m3，与划一范围的保守活性污泥法污水厂的运转本钱附近。}

  Abstract:

  The effluent quality of Jinbai reclaimed water plant in Guiyang City, with designed treatment capacity of 30 000 m^{3/d, meets level Ⅰ- A of Discharge Standard of Pollutants for Municipal Wastewater Treatment Plant (GB 18918-2002) and recharged into Maijia River as replenishment. A hybrid biofilm reactor (HBR) was applied in bio-treatment process, which utilized high volumetric filling ratio of suspended carriers to achieve biofilm treatment and filtration simultaneously. This biofilm technology removed pollutants efficiently and saved plant footprint obviously by omission of secondary settling tank. This paper described the treatment process, structure design and equipment configuration of the plant, and also summarized the operation effect. The effluent pollutants meet the discharge standard since operation. The removal efficiencies of COD, SS, ammonia nitrogen, TN, TP are 89.4%, 92.8%, 96.3%, 48.4%, 90.9%, respectively. The footprint for unit treated wastewater is 0.36 m2/(m3·d-1). The operation cost is 0.56 yuan/m3, which is close to that of conventional activated sludge process with similar capability.}

  类似文献/References:

  [1]张莹,王昌稳,李军,等.投加微粉强化低浓度糊口污水活性污泥好氧颗粒化[J].中国给水排水,2018,34(21):12.ZHANG Ying,WANG Chang wen,LI Jun,et al.Strengthening Aerobic Granulation of Activated Sludge by Adding Micro Powder in Low Concentration Sewage Treatment[J].China Water & Wastewater,2018,34(4):12.[2]马君妍,吴比,朱南文,等.硝酸钙辅助生物膜法用在污染河流原位修复[J].中国给水排水,2018,34(21):31.MA Jun yan,WU Bi,ZHU Nan wen,et al.In Situ Remediation of Polluted River Using Combination of Calcium Nitrate and Biofilm Carrier[J].China Water & Wastewater,2018,34(4):31.[3]卢如,巨志剑,杜琼.采取A/O工艺的污水处置厂提标革新项目设想[J].中国给水排水,2018,34(20):56.LU Ru,JU Zhi jian,DU Qiong.Upgrading and Reconstruction Project Design of Wastewater Treatment Plant with A/O Process[J].China Water & Wastewater,2018,34(4):56.[4]王连杰,李金河,郑兴灿,等.城镇污水系统中病毒特征和纪律相干研究阐发[J].中国给水排水,2020,36(6):14.[5]顾玉中,黄学军,金秋景,等.污水处置厂轴流泵电流爬升的缘由和处理方式[J].中国给水排水,2020,36(10):119.[6]王凯,高波,张磊,等.危废措置中间污水份质处置工艺设想和运转经验[J].中国给水排水,2020,36(16):69.WANG Kai,GAO Bo,ZHANG Lei,et al.Experience in Design and Operation of Wastewater Separate Treatment in the Hazardous Waste Disposal Center[J].�����APPChina Water & Wastewater,2020,36(4):69.[7]李爽,王朝阳,郝晓地,等.全生命周期评价在污水处置中的研究与利用[J].中国给水排水,2020,36(18):32.LI Shuang,WANG Xiang-yang,HAO Xiao-di,et al.Research and Application of Life Cycle Assessment in Wastewater Treatment[J].China Water & Wastewater,2020,36(4):32.[8]周家中,吴迪,郑临奥.纯膜MBBR工艺在国表里的项目利用[J].中国给水排水,2020,36(22):37.ZHOU Jia-zhong,WU Di,ZHENG Lin-ao.Engineering Application of Pure MBBR Process at Home and Abroad[J].China Water & Wastewater,2020,36(4):37.[9]尹真真,赵丽,规模,等.城市糊口污水厂处置工业废水的运营治理对策[J].中国给水排水,2020,36(24):54.YIN Zhen-zhen,ZHAO Li,FAN Wei,et al.Suggestions on Operation and Management of Urban Domestic Sewage Treatment Plant Handled Industrial Wastewater[J].China Water & Wastewater,2020,36(4):54.[10]Jan Vymazal,卫婷,赵亚乾,等.细数动物在人工湿地污水处置中的感化[J].中国给水排水,2021,37(2):25.Jan Vymazal,WEI Ting,ZHAO Ya-qian,et al.Counting the Roles of Plants in Constructed Wetlands for Wastewater Treatment[J].China Water & Wastewater,2021,37(4):25.

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