With an array of three radars the elevations of the sea surface is measured at three positions. Knowing the slopes and the phase relations, the directional spectrum can be accurately calculated. Radac is the only company that brings this technology to the market.
The directional system consists of three downward-pointing radars. The standard set-up in the one-point frame is one sensor pointing perpendicularly downwards and two tilted under an angle of 15 degrees. See visualisation below.
Wavelengths are optimally monitored with 3 to 30 times the array size. For example, if the wave radar system is mounted at a 18.6 m height, the footprints of the radars are five meters apart. So the optimal measurements are between 15m and 150m wave length (3-10 sec period).
Comparison directional wave radar with directional wave buoy
Radac has published a report in which data from the field experiment with a directional waverider buoy are compared to those of the directional WaveGuide. The experiment took place at Prinses Amaliawindpark, 25 kilometres off the Dutch coast. Two versions of the Directional WaveGuide have been compared to a Directional Waverider over a period spanning several months. The test shows no statistical difference in the directional information from the buoy and from the WaveGuide radars. Therefore, it can be concluded that the Directional WaveGuide can accurately and reliably measure wave direction:
Directional wave radar products
- WaveGuide Direction
- WaveGuide Direction Ex
- No maintenance
- Easy installation
- Suitable for all weather conditions
- Low power consumption device
- Explosion-proof certified (optional)
- Wave direction
- Wave height
- Wave period
- Water level / tide
- Offshore oil and gas platforms
- Offshore wind parks and platforms
- Harbour and coast water monitoring
- Input to Met-Ocean systems