Virtual Wind Measurement Devices Reduce Deployment Time To Three Months
A virtual side-wind tower device has been deployed in Zhangye, Gansu province, to support renewable energy stability. The technology allows for continuous meteorological data collection with a data acquisition rate exceeding 99 percent. Traditional physical wind towers are noted for high costs, long construction cycles, and potential data inaccuracies due to complex terrain. The new virtual devices can be deployed within three months to assist in energy production and scheduling. The wind measurement device utilizes laser reflection frequency changes via a 350-meter high physical tower equipped with 24 side-wind units. The devices utilize a laser generator to reflect off atmospheric aerosols to collect data with a 99 percent acquisition rate.
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Sources · 7 independent
CRI News Radio
“A type of faster-deployed, higher-density, and more stable virtual side-wind tower has been put into application in Zhangye, Gansu. It can achieve continuous and stable meteorological data collection with a data acquisition rate of over 99 percent.”
CRI News Radio
“如今,僅需三個月即可部署完成的虛擬側風裝置 能實現連續穩定的氣象數據採集 且數據獲取率超99%”
CRI News Radio
“通过这种激光反射频率的变化来 相当于建了一座350米高配备24套侧风装置的实体侧风塔... 设备还进行了防风防纱和极端温差等针对型设计”
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