PDF下载

[1]姜明洁,夏业.水力冲洗应用于排水小管径倒虹吸管的效果与优化[J].中国给水排水,2021,37(7):92-95.
　JIANG Ming-jie,XIA Ye.Performance and Parameters Optimization of Hydraulic Flushing in Small Diameter Inverted Siphon[J].China Water & Wastewater,2021,37(7):92-95.

点击复制

水力冲洗应用于排水小管径倒虹吸管的效果与优化

中国给水排水[ISSN:1000-4062/CN:12-1073/TU] 卷: 第37卷期数: 2021年第7期页码: 92-95 栏目: 出版日期: 2021-04-01

Title:: Performance and Parameters Optimization of Hydraulic Flushing in Small Diameter Inverted Siphon

作者:: 姜明洁¹，夏业²; (1.北京城市排水集团有限责任公司第四管网运营分公司，北京100032；2.北京北排智慧水务有限公司，北京100032)

Author(s):: JIANG Ming-jie¹，XIA Ye²; (1. No.4 Network Operation Company, Beijing Drainage Group Co. Ltd.， Beijing 100032, China; 2. Beijing BEIPAI Smart Water Co. Ltd., Beijing 100032, China)

关键词:: 污水管道; 管道养护; 自冲洗; 水力冲洗; 倒虹吸

Keywords:: sewage pipeline; pipeline maintenance; self-flushing; hydraulic flushing; inverted siphon

摘要:: 为了延长污水管道的使用寿命、减少管道冲洗成本、降低人工养护风险、提高污水管网管理水平，设计了一种水力冲洗小管径倒虹吸管道的方法，并研究了倒虹吸管段流速与污泥沉淀量的关系、蓄水冲洗前后倒虹吸管段流速的变化、拦蓄水量与倒虹吸管段冲洗效果的关系、冲洗频率与倒虹吸管段沉淀量的关系。结果表明，随着流速的增大，污泥沉淀量出现逐渐降低的趋势；随着拦蓄盾拦蓄水位的升高，倒虹吸管段的流速也逐渐增大，超过55 cm时，流速上升趋势变缓；当拦蓄水位在50~55 cm之间时，倒虹吸管段污泥浓度的去除率明显升高，最优拦蓄水位为55 cm；设备的最优冲洗频率为3次/d；自冲洗设备对管道中的漂浮物和悬浮物具有非常好的去除效果。

Abstract:: In order to extend service life of sewage pipelines, reduce pipeline flushing costs and the risk of manual maintenance, and improve the management level of sewage pipelines, a method for hydraulic flushing of small diameter inverted siphon was designed, and relationship between flow velocity of the inverted siphon pipeline and content of sludge sedimentation, variations in flow velocity of the inverted siphon pipeline before and after water storage and flushing, relationship between water storage and flushing performance of the inverted siphon pipeline, and relationship between flushing frequency and sedimentation content of the inverted siphon were explored. With the increase of flow velocity, the amount of sludge sedimentation tended to be a gradual decreasing trend. As the water storage capacity of the intercepting shield increased, the flow velocity of the inverted siphon pipeline gradually increased. When the water level exceeded 55 cm, the flow velocity increased slowly. When the interception water level was between 50 cm and 55 cm, the removal efficiency of sludge concentration in the inverted siphon pipeline increased obviously. Therefore, the optimal water level was 55 cm, and the optimal flushing frequency of the device was 3 times/day. Self-flushing equipment had a very good removal performance on floating and suspended matters in the pipeline.

相似文献/References:

[1]李亚芹,杨静,张志强,等.营造光照环境控制污水管道中有害气体的研究[J].中国给水排水,2021,37(11):28.
　LI Ya-qin,YANG Jing,ZHANG Zhi-qiang,et al.Control of Harmful Gas in Sewage Pipeline through Creating Light Environment[J].China Water & Wastewater,2021,37(7):28.
[2]姜文超,杨希,董晓霞,等.重庆市某城区市政污水管道水力参数监测与分析[J].中国给水排水,2022,38(15):78.
　JIANGWen-chao,YANGXi,DONGXiao-xia,et al.Monitoring and Analysis of Hydraulic Parameters of Municipal Sewer in an Urban Area of Chongqing City[J].China Water & Wastewater,2022,38(7):78.
[3]穆莹,高晨晨,孙永利,等.污水管道沉积底泥污染物利用潜力分析[J].中国给水排水,2023,39(7):114.
　MUYing,GAOChen-chen,SUNYong-li,et al.Analysis of Utilization Potential of Sediment Pollutants Deposited in Sewage Pipelines[J].China Water & Wastewater,2023,39(7):114.

更新日期/Last Update: 2021-04-01