Title :
Advance warning of loop current from single-site SeaSonde on Genesis oil platform in the Gulf of Mexico
Author :
Barrick, D. ; Long, R. ; Whelan, C. ; Cooper, C. ; Abadin, J.
Author_Institution :
CODAR Ocean Sensors, Mountain View, CA, USA
Abstract :
A single SeaSonde HF radar operates on Chevron´s Genesis deep-water floating platform in the Gulf of Mexico. The radar´s purpose is to provide advance warning of strong loops or eddies that approach the rig. A single radar like this, however, only produces a map of the surface current component toward or away from the radar, called a radial map. A pair of radars with overlapping coverage is required for a 2D total vector map. Despite this limitation, and overcoming the strong antenna pattern distortions caused by the all-steel rig, useful information was obtained to a distance of 90 km. To verify the accuracy and utility, comparisons were done with an ADCP 72 km away. Low-pass filtering was used to remove short-term inertial oscillations, revealing close agreement with the 40-m deep ADCP measurement of the persistent geostrophic loops. Both saw the strong loop features.
Keywords :
data acquisition; geophysical signal processing; low-pass filters; oceanographic techniques; oceanography; offshore installations; remote sensing by radar; 2D total vector map; 90 km; ADCP measurement; Genesis deepwater floating platform; Genesis oil platform; Gulf of Mexico; SeaSonde HF radar; advance warning; all-steel rig; antenna pattern distortion; eddies; geostrophic loops; loop current warning; low-pass filtering; oil rig; radial map; short-term inertial oscillations; single-site SeaSonde; surface current; Antenna measurements; Current measurement; Distortion measurement; Doppler radar; Filtering; Low pass filters; Offshore installations; Radar antennas; Sea measurements; Sea surface;
Conference_Titel :
Current Measurement Technology, 2005. Proceedings of the IEEE/OES Eighth Working Conference on
Print_ISBN :
0-7803-8989-1
DOI :
10.1109/CCM.2005.1506337
