Distance Layers Up To 300 Doppler Wind Lidar with Pointing Accuracy ±0.005 Degrees Sight Wind Speed Range Negative 75 to Positive 75 Meters per Second

This device offers advanced 3D wind field measurement with exceptional refinement, allowing for up to 300 customizable distance layers. This feature ensures detailed and precise data collection tailored to specific requirements.

Capable of detecting sight distances up to 10 kilometers, it performs effectively within an altitude of 600 meters. This vast range allows comprehensive monitoring over large areas.

With a pointing accuracy of just 0.005°, the system delivers extremely accurate targeting. Additionally, it achieves a visual direction wind speed accuracy of 0.1 meters per second, ensuring reliable and precise measurements.

The device supports multiple scanning techniques such as PPl, RHl, DBS, and programmable arbitrary scan methods. This versatility enables customized scanning patterns to suit various operational needs.

Designed to be small and lightweight, the system is easy to transport and set up in different locations. Its adaptable deployment facilitates quick transitions and installation in diverse environments.

Built to withstand harsh wild environments, the equipment maintains high survivability, conforming to LPz0 lightning protection zones. This robustness ensures continuous operation regardless of weather conditions.

Featuring GPS location reporting and geo-fencing capabilities, the device enhances operational safety. Data encryption safeguards against any leakage risk, providing secure data handling.

Users can choose from 4 different distance resolutions and 5 accumulation times, allowing customized settings to optimize performance according to specific application scenarios.

Wind resource assessment involves measuring wind field information over a large area to minimize risks associated with site selection. This comprehensive evaluation helps in identifying the most suitable locations for wind energy projects.

Additionally, long-distance power curve measurement and wake eddy current analysis are conducted to enhance the utilization of wind energy. By optimizing these factors, the efficiency of individual wind energy units can be significantly improved.

Detecting and providing early warnings for hazardous meteorological phenomena, such as wind shear and microbursts, is crucial for safety. Accurate measurement of wake vortices also assists in optimizing flight separation, contributing to smoother and safer airport traffic management.

Supplying detailed wind field information allows for a better understanding of wind behavior within the boundary layer. This includes the provision of precise, high-resolution, spatiotemporal wind profiles within a few kilometers of the surface, addressing the lack of observations at low altitudes.

Real-time three-dimensional data on plume dispersion is used to track emission sources effectively. In the mining industry, this information plays a vital role in optimizing dust emission control, thereby reducing environmental impact.