水利工程施工中的废水排放防污染控制技术研究
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摘要
由于水利工程局限了调节水资源分布均衡情况,造成传统废水排放防污染控制缺位以及污染问题。设计废水排放远程数据采集监测系统,利用系统完成废水排放防污染数据的收集以及数据分析,根据分析结果搭建废水排放污染风险评价体系,实现废水排放防污染控制。设计的水利工程施工中的废水排放防污染控制技术相比传统防污染控制技术,无论是从污染形成概率角度还是污染影响程度角度都显著降低,这一技术能使污染形成概率降低55%,使污染影响程度降低35%,对污染控制效果显著。
Due to the limitation of water resources distribution balance in water conservancy projects, the probability of pollution formation and the degree of pollution influence of traditional waste water emission control technology are high. Design of wastewater discharge of remote data acquisition monitoring system, using the system to complete the wastewater pollution prevention data collection and data analysis, according to the analysis of data structures, wastewater discharge pollution risk evaluation system, the wastewater pollution prevention control. Experimental results show that the wastewater pollution prevention in the design of water conservancy project construction control technology compared to the traditional pollution prevention control technology, whether from the angle of probability and the pollution extent are significantly reduced, this technology can reduce pollution formation probability 55%, reduce pollution extent of 35%, the pollution control effect is remarkable.
Due to the limitation of water resources distribution balance in water conservancy projects, the probability of pollution formation and the degree of pollution influence of traditional waste water emission control technology are high. Design of wastewater discharge of remote data acquisition monitoring system, using the system to complete the wastewater pollution prevention data collection and data analysis, according to the analysis of data structures, wastewater discharge pollution risk evaluation system, the wastewater pollution prevention control. Experimental results show that the wastewater pollution prevention in the design of water conservancy project construction control technology compared to the traditional pollution prevention control technology, whether from the angle of probability and the pollution extent are significantly reduced, this technology can reduce pollution formation probability 55%, reduce pollution extent of 35%, the pollution control effect is remarkable.
引文
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[2]耿红磊,孔垂雨,古小七.浅谈加强对水利水电工程液压启闭机液压油污染度检测的必要性[J].水利技术监督,2017,25(5):22-23.
[3]鲁维佳,潘玉恒,果颖,等.基于虚拟仪器和单片机的实时温度采集与控制系统[J].仪表技术与传感器,2018,26(6):1009-1016.
[4]邓锦明,陆明红,宋建辉,等.远程实时监测系统在斜纹夜蛾种群监测上的应用探索[J].中国植保导刊,2018,52(1):37-47.
[5]刘一鸥.基于物联网与Android平台的环境感知模型构建与实现[J].电子设计工程,2017,25(22):15-17.
[6]张连华,王文波,邓泽宏,等.基于DPSIR模型的企业环境行为评价体系研究[J].安全与环境学报,2018,34(7):120-124.
[7]宋金茜,朱权,姜小三,等.基于GIS的农业土壤重金属风险评价研究——以南京市八卦洲为例[J].土壤学报,2017,35(1):80-92.
[8]胡家僖,管宏友.基于STIRPAT模型和Tapio脱钩模型的废水排放驱动因素研究——以重庆市为例[J].环境污染与防治,2018,54(1):81-91.
[9]戴晶晶,陈红,彭焱梅,等.太浦闸水量水质联合调度对金泽水库水质影响[J].水利水运工程学报,2017,24(4):20-27.
[10]郑继东,陆泉芳,俞洁,等.辉光放电电解等离子体降解水体中的罗丹明B[J].环境科学学报,2017,37(6):2164-2170.