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爱游戏,北排清河第二再生水厂低碳运行实践 时玉龙, 鲍海鹏, 李伟, 张荣兵, 李广路, 白煜, 李杰, 王之敏, 葛勇涛, 刘利群, 刘屹坤, 宋垚, 王宇, 吴雪松, 段长江(北京城市排水集团有限责

发布时间:2024-03-30

焦点提醒:北排清河第二再生水厂低碳运转实践 时玉龙, 鲍海鹏, 李伟, 张荣兵, 李广路, 白煜, 李杰, 王之敏, 葛勇涛, 刘利群, 刘屹坤, 宋垚, 王宇, 吴雪松, 段长江(北京城市排水团体无限义务公司,北京 100044) 中国给水排水2024年污水处理厂提标改造(污水处理提质增效)高级研讨会(第八届)邀请函暨征稿启事中国给水排水2024年污水处理厂提标改造(污水处理提质增效)高级研讨会(第八届)邀请函暨征稿启事

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  • English上一篇下一篇PDF下载[1]时玉龙,鲍海鹏,李伟,等.北排清河第二再生水厂低碳运转实践[J].中国给水排水,2022,38(14):99-105. SHIYu-long,BAOHai-peng,LIWei,et al.Low-carbon Operation Practice of Qinghe Ⅱ Wastewater Reclamation Plant under Beijing Drainage Group[J].China Water & Wastewater,2022,38(14):99-105.点击复制

    北排清河第二再生水厂低碳运转实践中国给水排水[ISSN:1000-4062/CN:12-1073/TU]卷:第38卷期数:2022年第14期页码:99-105栏目:出书日期:2022-07-17
    Title:
    Low-carbon Operation Practice of Qinghe Ⅱ Wastewater Reclamation Plant under Beijing Drainage Group
    作者:
    时玉龙, 鲍海鹏, 李伟, 张荣兵, 李广路, 白煜, 李杰, 王之敏, 葛勇涛, 刘利群, 刘屹坤, 宋垚, 王宇, 吴雪松, 段长江
    (北京城市排水团体无限义务公司,北京 100044)
    Author(s):
    SHI Yu-long, BAO Hai-peng, LI Wei, ZHANG Rong-bing, LI Guang-lu, BAI Yu, LI Jie, WANG Zhi-min, GE Yong-tao, LIU Li-qun, LIU Yi-kun, SONG Yao, WANG Yu, WU Xue-song, DUAN Chang-jiang
    (Beijing Drainage Group Co. Ltd., Beijing 100044, China)
    要害词:
    污水再生;污泥处置;节能降耗;碳减排;厌氧消化;可再生能源
    Keywords:
    wastewater reclamation;sludge treatment;energy conservation;carbon emissions reduction;anaerobic digestion;renewable energy
    摘要:
    “双碳”方针的告竣,对再生水厂低碳运转提出新的更高的要求。2021年清河第二再生水厂聚焦水区节能降耗与泥区消化产能晋升重点工作,包罗:阐扬流域化运营劣势,经由过程流域水量联调,不变进水负荷;对鼓风机、进水泵等重点耗能装备展开节能优化,保障装备工况与工艺需求实时婚配,实现药耗、电耗双降,水区日均电耗0.353 kW·h/m3,较2020年下降20.7%,节电对应CO2减排比例26.1%;针对泥质与消化池氨氮负荷转变,经由过程包管初沉泥比例、不变消化负荷、调控进泥含水率等办法,消化系统沼气产量稳步晋升,9月—11月沼气产量均值298 m3/tDS,较1月—8月增幅为21.6%,沼气发电、光伏发电、水源热泵等三项可再生能源操纵项目CO2减排比例近22%。清河第二再生水厂将继续以节能降耗与可再生能源操纵为抓手引领行业绿色低碳转型。
    Abstract:
    To achieve the “double carbon” targets, carbon emissions reduction is becoming increasingly important for wastewater reclamation plant. In 2021, Qinghe Ⅱ wastewater reclamation plant (QH Ⅱ) focused on energy conservation in wastewater treatment process and biogas production enhancement in sludge treatment process. It took advantages of watershed operation and stabilized inlet load through joint adjustment of watershed water quantity. Energy efficiency of major energy consuming equipment, such as blowers and inlet pumps, was optimized to ensure the timely matching of equipment wo����Ϸapprking conditions and treatment process requirements. The average daily electricity use in wastewater area was 0.353 kW·h/m3, 20.7% lower than that of 2020, and CO2emission was reduced by 26.1% corresponding to power saving. In response to changes in sludge characteristics and ammonia nitrogen load of digestion tank, the biogas production was steadily increased by ensuring the proportion of primary sludge, stabilizing the organic loading rate of digester, and regulating the water content of its feed sludge. The average biogas production from September to November was 298 m3/tDS, an increase of 21.6% compared with January to August. The CO2emission reduction rate of three renewable energy projects, including biogas power generation, photovoltaic power generation and water source heat pump system, was nearly 22%. QH Ⅱ will continue to take the lead in the wastewater industry’s green and low?carbon transformation with energy conservation and renewable energy utilization.

    类似文献/References:

    [1]张彩云,张朋川,袁璐璐,等.超高尺度除磷的纳滤再生水工艺设想和项目验证[J].中国给水排水,2021,37(10):116.ZHANG Cai-yun,ZHANG Peng-chuan,YUAN Lu-lu,et al.Design and Engineering Verification of Nanofiltration Process for Super High Standard Phosphorous Removal in Wastewater Reclamation[J].China Water & Wastewater,2021,37(14):116.[2]谭学军,王磊.我国重点流域典型污水厂污泥处置措置体例调研与阐发[J].中国给水排水,2022,38(14):1.TANXue-jun,WANGLei.Investigation and Analysis on the Treatment and Disposal Methods of Typical Sewage Treatment Plant Sludge in China’s Key River Basins[J].China Water & Wastewater,2022,38(14):1.

    更新日期/Last Update:2022-07-17


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