Leice - Model WindMast PBL(SV) - Boundary Layer Wind Lidar
WindMast PBL(SV) Boundary Layer Wind Lidar is based on optical coherent Doppler frequency shift detection principles. It is designed to meet the requirements for high-precision, refined detection of three-dimensional atmospheric wind fields within the atmospheric boundary layer up to a height of 3000m.
The lidar system is designed with an IP67 protection rating, incorporating anti-corrosion and salt-resistant technologies. When mounted on wave gliders, it enables ultra-low-power autonomous navigation, heading stabilization, and real-time communication observations in marine environments.
Applications include offshore wind resource assessment, meteorological and climate research, weather forecasting model assimilation, atmospheric flux and pollutant transport studies, and low-altitude wind shear detection.
- High Range Detection
- Bankable accuracy
- Low power
- Compatible platforms
- Real-time attitude correction
- Data products combined with GIS displays
- Unattended
- High robustness
- Laser Wavelength: 1550nm
- Maximum Detection Distance: 1500m
- 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: <15kg
Second-level wind speed and direction, average wind speed and direction, maximum and minimum horizontal wind speed, wind direction, end-stream velocity, vertical wind speed, and signal-to-noise ratio data.
- 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