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AN EXPLORATORY RESEARCH ON ONLINE MONITORING METHOD FOR RURAL DOMESTIC SEWAGE
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摘要: 流量是农村生活污水处理设施所需在线监测的重要运行参数之一。根据农村生活污水的导电特性,探索出了一种农村生活污水流量在线监测的新方法,该方法主要利用巴歇尔槽和基于污水导电性的液位计(CLG)实现流量的在线监测。巴歇尔槽可将流量数据测量转化为液位数据测量。CLG主要由测量电极和参比电极2部分组成,通过试验进一步确定CLG的最佳工艺设计条件为:400 Hz频率的交流电源供电条件下,测量电极和参比电极支路上均串联10 kΩ的电阻。经校正后,CLG平均相对误差为3.49%,测量误差中位数为0.3 cm,量程至少为2.1~19.2 cm。将由CLG和巴歇尔槽所构成的流量在线监测试验样机安装应用于实际发现,该样机与其他流量计所监测到的日流量数据均在0.01水平(双侧)上显著相关,说明该农村生活污水流量在线监测方法在实际应用中可实现流量的远程在线监测,具有可行性。Abstract: Flow is one of the important indicators for online monitoring of rural sewage treatment facilities. Based on the conductive characteristics of rural domestic sewage, this study explored a new method for online monitoring the flow of rural domestic sewage. The designed online flow monitoring setup was mainly divided into two parts, a PAP metering tank and a conductivity level gauge (CLG). The PAP metering tank could convert the flow data measurement into liquid level data measurement. The CLG was made up by a measuring electrode and a reference electrode. The study found that the setup had the best performance when it was powered by a 400 Hz frequency AC source and branches of both the measuring electrode, and the reference electrode were connected in series with a 10 kΩ resistor. After laboratory calibration, the average relative error of the CLG could achieve 3.49%. The median measurement error was ±0.3 cm and the measurement range was 2.1~19.2 cm. After application of online flow monitoring setup, it was found that the daily flow data monitored by the prototype and other flow meters were significantly correlated at 0.01 level (both sides). Therefore, the method put forward by this study has good feasibility in actual application process and can realize remote online flow monitoring.
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Key words:
- rural domestic sewage /
- flow /
- online monitoring /
- conductivity level gavge (CLG)
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[1] 张秀娥.浅析我国农村生活污水排水现状及对策[J].低碳世界,2017(6):14-15. [2] 徐志荣,叶红玉,卓明,等.浙江省农村生活污水处理现状及其对策[J].生态与农村环境学报,2015(4):33-37. [3] 何起利,邱琳,陈德全,等.新农村生活污水处理设施问题初探[J].环境科学与管理,2010,35(5):103-105. [4] 马鲁铭,王云龙,刘志刚,等.南方农村生活污水处理目标及工艺模式探讨[J].中国环境科学,2013,33(1):118-122. [5] 杜清府,任文建,张超.低功耗电磁流量计的设计与实现[J].仪表技术与传感器,2015(3):25-27. [6] 张霞,张效伟,朱惠人,等.组合阀式转子流量计应用初探[J].科学技术与工程,2010,10(21):5155-5158. [7] ZHANG Y,DUAN H P,SUN A L,et al.Rural sewage treatment techniques mode and purifying effect of nitrogen and phosphorus in jiangsu province,China[J].Journal of Agro-Environment Science,2013,32(1):172-178. [8] 徐乐年,员玉良,陈明.巴歇尔槽在智能流量传感器中的应用[J].仪表技术与传感器,2007(6):9-10. [9] 陈金荣,王洪云.浅谈污水处理厂巴歇尔槽设计[J].中国给水排水,2014,30(4):35-37. [10] 卫开夏,李斌,王树梅.四电极污水液位测量方法研究[J].传感器与微系统,2010(10):50-52,55. [11] 赵利强,王建林,于涛.聚合反应过程溶液电导率测量方法的研究[J].仪表技术与传感器,2009(8):86-88. [12] 张广平,李孟林,吴细毛,等.尺度对金属材料电阻率影响的研究进展[J].材料研究学报,2014,28(2):81-87. [13] 白德安,菅汉文,刘世君.亚克力板的发展状况[J].化工科技市场,2002,25(6):19-20. [14] 孙伟丽,刘绍俨,高宇,等.高效藻类塘处理北方农村模拟生活污水试验研究[J].科学技术与工程,2015,15(28):217-220. [15] TANG J W,LI M,ZHANG Y F.Research on the optimal operation of inverted A2/O & MBR process for rural domestic sewage treatment[J].IOP Conference Series Materials Science and Engineering,2018,452:022163. [16] 田志刚,李延开,李浩.巴歇尔量水槽选型安装存在问题及建议[J].山东水利,2018(7):1-2. [17] 聂文.影响超声波流量计计量准确性的因素与对策[J].石油化工自动化,2017(2):57-59. [18] 宋文淼.推广的赫姆霍兹定理及其在电磁理论中的应用[J].电子与信息学报,1991,13(1):49-56. [19] 杨春,王金海,谢晓峰,等.丙三醇对钒液流电池电解液影响的交流阻抗研究[J].化工学报,2011(增刊1):163-167. [20] 王辉,顾利忠.电导式液位变送器的设计[J].传感器技术,2004,23(6):38-40. -
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