WindFlux 3000 Boundary Layer Wind Lidar is based on the optical pulse coherence Doppler frequency shift detection principle, enabling refined detection of the three-dimensional wind field in the lower and middle troposphere, including the atmospheric boundary layer.
It provides real-time output of data products such as wind profiles, turbulence intensity, vertical airflow, boundary layer height, cloud base height, signal-to-noise ratio, backscattering coefficient, ground temperature, humidity, pressure, and more.
The system is widely used in meteorological and climate research, assimilation of meteorological forecasting models, studies on atmospheric material fluxes, regional transport and diffusion of pollutants, and low-altitude wind shear detection.
High accuracy
High resolution
Unmanned operation
High robustness
Eye-safe
| Laser Wavelength 1550nm | Maximum Detection Distance 6000m | Spatial Resolution 15m/30m/60m/150m(configurable) | Time Resolution 1s~10min(configurable) |
| Wind Speed Measurement Accuracy ≤0.1m/s | Wind Direction Measurement Accuracy ≤3° | Weight <150kg | |
Radial velocity, spectral width, spectral intensity, signal-to-noise ratio, horizontal wind speed, horizontal wind direction, vertical airflow, turbulence intensity, wind shear index, atmospheric extinction coefficient, atmospheric backscattering coefficient, and cloud base height.
Air Quality Improvement and Management in Key Regions
Fine Traceability of Atmospheric Particulate Matter Pollution
Analysis of Atmospheric Pollution Causes
Meteorological Support for Fire Emergency Rescue
Wind Measurement Network in Complex Terrain
Integrated Meteorological Observation and Service Platform
Refined Meteorological Observation and Forecasting
Wind Power Prediction
Preliminary Survey of Onshore and Offshore Wind Resources
