摘要
设计了一款远程水质智能监测系统,分析了系统总体方案以及组成结构,系统由现场控制层、远程传输层和监测管理层组成。通过MC9S12XS128控制芯片和传感器实现水质数据的自动检测、数据采集。通讯模块采用4G-DTU完成水质相关数据的传输,并在远程监测中心实现水质信息在线监测和数据库管理。
A remote intelligent monitoring system for water quality is designed in this research.Firstly,the overall scheme and composition structure of the system,which consists of field control layer,remote transmission layer,and monitoring management,was analyzed.Then,the water quality data was detected and collected automatically through MC9S12XS128 control chip and sensor.Finally,necessary water quality data was transmitted by using 4G-DTU,and the online monitoring and data management for water quality was accomplished in the remote monitoring center.
引文
[1]Shaposhnika A,Ryabtsevb S,Zviagina A,et al.Selective detection of ammonia and its derivatives using MOX-sensor and microreactor[J].Procedia Engineering,2011,25:1097-1100.
[2]Bourgeois W,Gardey G,Servieres M,et al.A chemical sensor array based system for protecting wastewater treatment plants[J].Sensors and Actuators B Chemical,2003,91(1/2/3):109-116.
[3]Song X,Li Q,Yan D.Nutrient removal by hybrid subsurface row constructed wetlands for high concentration ammonia nitrogen wastewater[J].Procedia Environmental Sciences,2010,2(1):1461-1468.
[4]董加宝.基于CAN总线的水质在线监测嵌入式系统研究[C].合肥:中国科学技术大学,2015.
[5]马明建.数据采集与处理技术[M].西安:西安交通大学出版社,2005.
[6]郝勇.地表水水质监测管理信息系统的数据库设计[J].上海工程技术大学学报,2003,17(3):211-216.
[7]刘志雄,余臻,陈燕萍.GPRS DTU数据中心的通信设计[J].工业控制计算机,2007,20(12):23-24,26.
[8]鲁东海,孙纯军,王晓虎.智能变电站中在线监测系统设计[J].电力自动化设备,2011,31(1):134-137.
[9]马成龙,段斌,龙辛,等.支持远程监测的风电场网络体系架构设计[J].电力自动化设备,2011,31(1):95-99.
[10]张磊,冯建华,袁爱军,等.物联网在高原寒区地下水监测系统中的应用[J].自动化仪表,2016,37(2):54-56,60.
[11]王永涛,吴艳英,李家春,等.基于GPRS DTU的农业灌溉施肥智能化控制系统的应用研究[J].中国农村水利水电,2013(12):93-97.
[12]楼鸿强.基于嵌入式技术和分布式数据库的水质监测系统[D].杭州:浙江大学,2007.
[13]熊子明.基于氨气敏电极法的氨氮在线检测系统研究及其工程应用[D].北京:北方工业大学.2014.