PVmet 150光伏气象站产品介绍(中英双语)
【中文版】
PVmet 150光伏气象站是一款专为光伏发电系统设计的智能环境监测设备,通过多维度数据采集为电站效率优化提供科学支持。该设备集成高精度传感器与智能化数据处理模块,可实时监测太阳辐射强度、环境温湿度、风速风向等关键气象参数,同时配备光伏组件背板温度监测功能,帮助用户全面掌握光伏阵列运行环境。
在太阳辐射监测方面,设备采用双层传感器结构,同步测量水平面总辐射与组件斜面辐射数据,结合内置算法自动生成有效发电时长分析。针对光伏系统热损耗问题,其搭载的非接触式温度传感单元可实现±0.5℃的测量精度,准确反映组件工作温度变化趋势。环境监测模块包含抗紫外线强化型风速传感器和防结露湿度探头,适应-40℃至+85℃的宽温域工作环境,确保在沙尘、盐雾等严苛条件下的长期稳定性。
设备采用模块化设计,支持太阳能供电与锂电池双电源模式,内置数据存储单元可在网络中断时自动保存30天以上监测数据。配备标准通信接口,兼容主流光伏监控系统平台。通过可视化数据报表,运维人员可精准定位组件效率异常区域,优化清洁维护周期,预估发电量波动。适用于地面电站、分布式屋顶、光伏农业等多种应用场景,特别适合需要精细化管理的百兆瓦级大型光伏电站。
【English Version】
The PVmet 150 Solar Monitoring Station is an intelligent environmental detection system specifically engineered for photovoltaic power generation systems. Equipped with multi-dimensional sensing technology, this device delivers comprehensive environmental insights to enhance operational efficiency of solar plants. Its integrated high-precision sensors and advanced data processing modules enable real-time tracking of solar irradiance, ambient temperature/humidity, wind speed/direction, along with PV module backsheet temperature monitoring.
The dual-layer radiation sensing structure simultaneously captures global horizontal irradiance (GHI) and plane-of-array (POA) radiation data. Proprietary algorithms automatically calculate productive sunlight duration for performance benchmarking. To address thermal loss concerns, its non-contact temperature sensors achieve ±0.5℃ accuracy in tracking module temperature fluctuations. The environmental monitoring suite incorporates UV-resistant anemometers and anti-condensation humidity probes, maintaining reliable operation across extreme conditions from -40℃ to +85℃, including dust-prone and coastal environments.
Featuring modular architecture, the system supports hybrid power supply with solar panels and lithium batteries. Its built-in memory module safeguards over 30 days of continuous data recording during network outages. Standardized communication interfaces ensure seamless integration with major PV monitoring platforms. Through intuitive data visualization, operators can pinpoint underperforming module clusters, optimize maintenance schedules, and predict energy yield variations. Ideal for utility-scale solar farms, distributed rooftop installations, and agrivoltaic projects, it proves particularly valuable for GW-level solar plants requiring precision management.
The system s corrosion-resistant enclosure (IP66 rating) and wireless configuration options significantly reduce installation complexity. By correlating meteorological data with power output patterns, the PVmet 150 empowers operators to maximize energy harvest while extending critical equipment lifespan through predictive maintenance strategies.
