基于单片机的鳗鱼养殖水质参数监测系统
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摘要
采用STC89C52单片机作为设计的核心,通过传感器检测水中的pH值、溶解氧、温度以及浑浊度.系统通过对应的传感器探头检测到数据后再经过ADC0832传送给单片机,并实时显示在LCD12864液晶显示屏上.单片机根据养殖环境判断水质是否达到水产养殖的水质要求,并在水质不符合养殖要求时,通过GSM短信模块发送短信,通知养殖人员及时采取措施而改善水质环境.实验结果表明,基于单片机控制的鳗鱼养殖水质参数监测系统可以采集水质参数并判断养殖环境是否符合水产养殖条件.
STC89C52 microcontroller is utilized as the core of the design, and the pH, dissolved oxygen,temperature and turbidity in water are detected by sensors. The system detects data by corresponding sensor probe and then transmits it to the microcontroller through ADC0832, and displays it on LCD 12864 in real time. MCU judges whether water quality meets aquaculture water quality requirements according to aquaculture environment, and sends short messages through GSM short message module when the water quality does not meet aquaculture requirements, notifying aquaculture personnel to take timely measures to improve water quality environment. Experimental results show that eel culture water quality parameters monitoring system based on single chip microcomputer can collect water quality parameters and judge whether culture environment meets aquaculture conditions.
STC89C52 microcontroller is utilized as the core of the design, and the pH, dissolved oxygen,temperature and turbidity in water are detected by sensors. The system detects data by corresponding sensor probe and then transmits it to the microcontroller through ADC0832, and displays it on LCD 12864 in real time. MCU judges whether water quality meets aquaculture water quality requirements according to aquaculture environment, and sends short messages through GSM short message module when the water quality does not meet aquaculture requirements, notifying aquaculture personnel to take timely measures to improve water quality environment. Experimental results show that eel culture water quality parameters monitoring system based on single chip microcomputer can collect water quality parameters and judge whether culture environment meets aquaculture conditions.
引文
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[2]许航,谢小辉,胡攀.多传感器无线智能水质监测系统设计[J].科学与财富,2014(11):287-288.
[3]常虹.在线水质分析仪在污水处理中的应用[J].科技资讯, 2010(19):46-47.
[4]李厚群.在线溶解氧分析仪的测量原理与使用维护[J].泸天化科技,2008(3):263-264.
[5]喻金钱.三种水体中溶解氧的检测方法介绍[J].当代水产, 2017(2):23-24.
[6]杨继明.浅谈溶解氧在线监测仪器影响因素及维护方法[J].黑龙江环境通报, 2010(2):51-52.
[7]周鹏.基于STC89C52单片机的温度检测系统设计[J].现代电子技术,2012(22):10-13.
[8]洪宗海.基于LabVIEW的数据采集分析系统开发[J].科技信息,2011(29):109-110.
[9]翟顺,王卫红,张衎,等.基于SIM900A的物联网短信报警系统[J].现代电子技术,2012(5):86-89.
[10]葛耿育.基于STC89C52的LCD12864液晶串并行显示设计[J].遵义师范学院学报,2016(5):98-101.
[11]李秀民.崔引安.水产养殖环境工程技术的研究展望[J].中国农业大学学报,1998(4):59-62.