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| Design of a standardized modular detection system for photovoltaic power station based on internet of things and cloud platform |
| SUN Lu, DING Zhenhua, DING Hong, DONG Lei, GAO Wushuang |
| Anhui Instiute of Product Quality Supervision, Hefei 230051 |
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Abstract In response to the challenges faced by third-party inspection agencies during on-site photovoltaic testing, such as device diversity, high data storage costs, low processing efficiency, and data synchronization issues, this paper proposes a standardized module detection system for photovoltaic power stations based on the internet of things and cloud platforms. The aim is to enhance inspection efficiency, reduce costs, and improve data interconnectivity. By deploying standardized detection modules that include various sensors and data collectors, and utilizing network protocols for time synchronization, all measurements are ensured to occur within the same reference framework. Concurrently, a data acquisition and management system built upon cloud computing technology is developed to achieve cloud-based data storage, sharing, and collaboration with excellent scalability. Research findings indicate that the proposed detection system can effectively address existing problems encountered during inspection processes. Furthermore, it significantly lowers equipment deployment expenses, saving considerable manpower and material resources. Suitable for third-party inspectors conducting on-site photovoltaic station assessments, it holds broad application prospects.
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Received: 08 October 2024
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| Cite this article: |
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SUN Lu,DING Zhenhua,DING Hong等. Design of a standardized modular detection system for photovoltaic power station based on internet of things and cloud platform[J]. Electrical Engineering, 2025, 26(3): 75-80.
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https://dqjs.cesmedia.cn/EN/Y2025/V26/I3/75
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[1] 郑伟烁, 郑文悦, 李志伟, 等. 光伏电站在线监测技术现状与进步趋势展望[J].电测与仪表, 2021, 58(9): 1-7.
[2] 谭大帅, 戴彬, 郭刚, 等. 分布式光伏管控平台的设计与实现[J].电气技术, 2023, 24(2): 41-51.
[3] 盛庆博, 王涛, 邹林, 等. 模块化光伏电站参数采集系统设计[J].工业仪表与自动化装置, 2023(1): 67-71.
[4] 乔苏朋, 杨艳, 陈世群, 等. 光伏阵列故障检测方法综述[J].电气技术, 2021, 22(7): 1-6.
[5] 周亮, 武美娜, 胡安. 局部遮挡下光伏阵列的快速建模及极值点分布特征研究[J].电工技术学报, 2021, 36(增刊2): 572-581.
[6] 刘伟, 杨凯宁. 基于数值天气预报因子扩充和改进集成学习的高寒地区短期光伏功率预测[J].电气技术, 2024, 25(8): 1-10.
[7] 时珉, 许可, 王珏, 等. 基于灰色关联分析和GeoMAN模型的光伏发电功率短期预测[J].电工技术学报, 2021, 36(11): 2298-2305.
[8] 刘晓艳, 王珏, 姚铁锤, 等. 基于卫星遥感的超短期分布式光伏功率预测[J].电工技术学报, 2022, 37(7): 1800-1809.
[9] 谢骊骊, 叶青, 陈伟, 等. 光伏电站在线监测智能诊断系统设计与实现[J].太阳能, 2017(1): 16-21, 27.
[10] 陈国灯, 林培杰, 赖云锋, 等. 基于电流时间序列的光伏故障在线监测系统[J].电气技术, 2018, 19(6): 20-25.
[11] 周盛龙, 常梦星, 杨鹤松, 等. 光伏电站在线监测及故障诊断系统设计[J].电气技术与经济, 2024(4): 95-97, 102.
[12] 顾超, 宋树平, 方凯. 智能化光伏电站监控系统设计与实现[J].南方农机, 2022, 53(5): 187-189.
[13] 张丽瑾, 李昌恩, 王卓. 便携式光伏电站多路电流比测仪的研发与应用[J].青海科技, 2022, 29(4): 146-150.
[14] 海涛, 纪昌青, 李晓念, 等. 基于Web的光伏电站监控与故障诊断系统[J].自动化与仪表, 2016, 31(10): 5-9, 18.
[15] 测试和校准实验室能力的一般要求: ISO/IEC 17025—2017[S].
[16] 检测和校准实验室能力的通用要求: GB/T 27025—2019[S] GB/T 27025—2019[S].北京: 中国标准出版社, 2019.
[17] 光伏系统性能监测测量、数据交换和分析指南: IEC 61724-1—2021[S]. |
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2025, Vol. 26 
