The geotechnical survey involved more than 150 pneumatic vibracores and over 150 Neptune 5K cone penetration tests gathered from both lease areas and along the offshore cable route.
Along with multiple export cable route surveys, a reconnaissance survey covering the entirety of the lease area with 150-m spaced survey lines was conducted, followed by a more detailed archaeological survey with 30-m spaced lines. Survey sensors including dual head multibeam sonar, side scan sonar, sub bottom profiler, UHRS seismic, single-channel seismic, and transverse gradiometer was utilized, all meeting BOEM specifications for archaeological surveys.
The goals, determined by the collected data, were to assess the conditions of the seabed and sub-seabed, which may include potential risks (geohazards or man-made hazards) that could impact the installation of wind turbines and subsea cables in the future. The investigations conducted involved measuring variations in water depth and slope changes, examining the morphology (composition of the seabed and lithology in the formations below in relation to local geology), identifying any natural or man-made obstructions on or below the seabed, such as rock outcrops, channels, depressions, gaseous fluid features, debris (natural or manmade), wrecks, industrial structures, cables, etc., and assessing any shallow geohazards that could affect the sites and future deep geotechnical soil studies within the top 100 m beneath the seabed.
TDI-Brooks said the collection of data plays a vital role in determining the optimal location and design for offshore projects such as wind farms. The company offers a comprehensive range of offshore support services that include subsea operations, construction support, exploration and production assistance, ROV and diving services, scientific marine research and survey mapping, and even military support.
04.01.2024
