Recently, Qingdao Leice Transient Technology Co., Ltd. successfully delivered a Doppler wind lidar system to the Hong Kong Polytechnic University and provided professional services. The system serves Hong Kong's urban meteorological monitoring and guarantee, structural load and safety analysis of super high-rise buildings under strong winds, and urban building structural safety research during typhoons. It helps clients such as the Hong Kong Polytechnic University and meteorological research to conduct cutting-edge pioneering research in the field of wind engineering.

The Doppler wind lidar delivered by the Leice has technological advantages such as high spatiotemporal resolution, high precision, unmanned operation, and flexible deployment. It can provide high-quality data for urban meteorological monitoring support, and disaster prediction and early warning in Hong Kong, and provide valuable data support for cutting-edge scientific research.

In the future, key equipment such as Doppler wind lidar developed by Leice will continue to assist Hong Kong's structural wind engineering and meteorological research institutions in providing new technologies and ideas in innovative research in multiple fields such as building wind engineering, bridge and road safety monitoring, meteorological observation, and extreme weather warning and forecasting, serving the effective improvement of Hong Kong's urban meteorological safety guarantee capabilities.

Wind 3D 6000/10K Scanning Wind Lidar

The 3D scanning wind lidar Wind3D 6000/10K is equipped with high-precision optical scanning mirrors, which can achieve precise detection of three-dimensional wind fields in the middle and lower layers of the troposphere. The detection radius can reach up to 6km/12km, and can meet the wind measurement needs of low altitude wind shear, aircraft wake, complex terrain three-dimensional wind fields, wind wake, and remote virtual wind measurement towers at sea.

WindMast PBL Boundary Layer Wind Lidar

The boundary layer wind profile lidar WindMast PBL is based on the principle of optical pulse coherent Doppler frequency shift detection, which can meet the high-precision and refined detection requirements of three-dimensional wind fields in the atmospheric boundary layer. Widely used in meteorological and climate research, assimilation of meteorological forecasting models, research on atmospheric material flux and regional transfer and diffusion of pollutants, detection of low-level wind shear, and many other fields.