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Wave Glider Wind Measurement Radar


Category :

Meteorological Radar


Compact wave glider wind LiDAR with low power consumption and IP67 protection. It measures vertical wind profiles from 50–2000 m, supports observation under typhoon-level extreme marine environments, and serves offshore wind prospecting, marine meteorology and atmospheric environmental research.

Keyword :

Wave Glider Wind Measurement Radar

Product Introduction:

It is applied to offshore wind resource survey, meteorological and climatic research, meteorological forecast model assimilation, atmospheric substance flux research, regional transport and diffusion of pollutants and other fields. It can measure wind field information under extreme marine conditions such as typhoons and hurricanes.

Product Parameters:

I.Technical Parameters

Measuring Height 50 ~ 2000 m
Wind Speed Measurement Range 0 ~ 80 m/s
Wind Speed Measurement Accuracy ≤ 1 m/s
Wind Direction Measurement Range 0 ~ 360°
Wind Direction Measurement Accuracy ±5°
Weight ≤ 10 kg
Power Consumption ≤ 70 W

 

II. Working Principle

This marine wind measurement LiDAR radar emits laser beams vertically to the atmosphere, calculates Doppler frequency shift of backscattered aerosol particles, and retrieves real-time vertical profiles of wind speed and wind direction from 50m to 2000m above sea level. Mounted on wave gliders, the built-in self-calibration algorithm continuously compensates for attitude interference caused by vessel sway. With IP67 fully sealed housing and ultra-low power design, it stably acquires high-precision wind field data under harsh offshore environments including typhoons and heavy sea waves for long-term marine meteorological observation.

 

III. Product Applications and Functional Characteristics

  • Low power consumption
  • Excellent resistance to wind and waves
  • Automatic self-calibration function
  • IP67 ingress protection rating

Product Applications:

This device is applicable to offshore wind resource survey, meteorological and climatic research, meteorological forecast model assimilation, atmospheric substance flux analysis, as well as research on regional transport and diffusion of pollutants. It is capable of measuring wind field data under extreme marine weather conditions such as typhoons and hurricanes.

Teaching System

Teaching System

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