基于光伏板的灰尘检测监控系统设计
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摘要
本文旨在研究出一个应用于光伏板的监控系统,由于灰尘对光伏板的发电效率有非常大的影响,因此,本文采用灰尘传感器检测光伏板的灰尘,从所检测出的浓度通过传感器转化成数值,并通过电脑进行实时地监测,然后根据所设定的浓度参数检测判断光伏板是否需要清理;通过自动监测手段来进行实时监测灰垢对发电效果从而确定清洗方案和清洗时间,对于降低光伏发电系统的维护成本和提高发电利用率有很大帮助。因此,采用适当的技术手段对光伏板进行监控和清理,可以有效地提高光伏板的发电量和效率。
The purpose of this paper is to study a monitoring system for photovoltaic solar panel. Because dust has a great influence on the power generation efficiency of photovoltaic solar panel, the dust sensor is used to detect the dust of photovoltaic solar panel, and the detected concentration is converted into a numerical value through the sensor. And the computer carries on the real-time monitoring, and then according to the set concentration parameters test to determine whether the photovoltaic solar panel needs to be cleaned; Monitoring ash in real time by means of automatic monitoring is very helpful to reduce the maintenance cost and increase the utilization of power generation. Therefore, adopting appropriate technical means to monitor and clean up the photovoltaic solar panel can effectively improve the power generation and efficiency of the photovoltaic solar panel.
The purpose of this paper is to study a monitoring system for photovoltaic solar panel. Because dust has a great influence on the power generation efficiency of photovoltaic solar panel, the dust sensor is used to detect the dust of photovoltaic solar panel, and the detected concentration is converted into a numerical value through the sensor. And the computer carries on the real-time monitoring, and then according to the set concentration parameters test to determine whether the photovoltaic solar panel needs to be cleaned; Monitoring ash in real time by means of automatic monitoring is very helpful to reduce the maintenance cost and increase the utilization of power generation. Therefore, adopting appropriate technical means to monitor and clean up the photovoltaic solar panel can effectively improve the power generation and efficiency of the photovoltaic solar panel.
引文
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[10]孟伟君,朴铁军,司德亮,张文华,于俊峰,陈志燕.灰尘对光伏发电的影响及组件清洗研究[J].太阳能,2015(02):22-27,34.
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[12]褚昊,张恩迪.基于ZigBee的光伏电池检测监控系统设计[J].电源技术,2016,40(03):621-624.
[13]刘雅莉,张亚秋,王俊峰.基于Matlab/GUI的温度采集监测系统设计[J].玉溪师范学院学报,2017,33(08):67-70.
[14]曹妍,陈伟.基于MATLAB GUI的指纹图像增强技术研究[J].软件,2018,39(11):30-32.
[2]唐连伟,曹西金,高瑶.灰尘对太阳能真空集热管性能的影响[J].中原工学院学报,2009,20(4):69-72.
[3]林少伯.含光伏电源的微电网储能控制技术研究[D].保定:华北电力大学,2013:17-19.
[4]臧建彬,王亚伟,王晓东.灰尘沉积影响光伏发电的理论和试验研究[J].太阳能学报,2014,35(04):624-629.
[5]郭莉.太阳能光伏发电单元综合监控系统的研究与设计[D].华北电力大学(河北),2009.
[6]彭继慎,李文帅,李秋香.太阳能光伏发电无线远程监控系统的研究与设计[J].计算机测量与控制,2012,20(12):3228-3231.
[7]武永鑫,王虎,李世杰,李芮,王靖雯.灰尘沉积对光伏组件发电性能的影响[J].分布式能源,2017,2(05):55-59.
[8]卢育发,吴可凡,董庆国.灰尘对光伏电站发电量的影响及解决方案的对比分析[J].安徽电子信息职业技术学院学报,2016,15(06):33-36.
[9]孟广双.荒漠光伏太阳能电池板表面灰尘作用机理及其清洁方法研究[D].青海大学,2015.
[10]孟伟君,朴铁军,司德亮,张文华,于俊峰,陈志燕.灰尘对光伏发电的影响及组件清洗研究[J].太阳能,2015(02):22-27,34.
[11]陈文豪,谢安.工业尾气灰尘检测系统的研制[J].电子世界,2016(14):174.
[12]褚昊,张恩迪.基于ZigBee的光伏电池检测监控系统设计[J].电源技术,2016,40(03):621-624.
[13]刘雅莉,张亚秋,王俊峰.基于Matlab/GUI的温度采集监测系统设计[J].玉溪师范学院学报,2017,33(08):67-70.
[14]曹妍,陈伟.基于MATLAB GUI的指纹图像增强技术研究[J].软件,2018,39(11):30-32.