Seabed Frames to Assess Sediment Mobility
The OKLNG project was created to oversee the development of a natural gas liquefaction facility and marine terminal in the Olokola Free Trade Zone in Nigeria. The complex will process LNG and, it is hoped, will better link the oil and gas sector with the Nigeria economy. The project's partners include British Gas, Shell, Chevron and NNPC and the gas processed will be supplied from their onshore and offshore fields. GEMS (Geotechnical Engineering and Marine Surveys) were employed by OKLNG in July 2005 to perform an extensive metocean study around the prospective site in Olokola. The application was concerned with monitoring the liquid mud fields present off the Nigerian coast by collecting directional wave, tide and current data to meet design and operational criteria.
OKLNG Site in Olokola, Nigeria
Turbidity and near-bed current also needed to be monitored to assess the mobility of the sediment, the reasons behind its movement and why it eventually settles. These factors are all essential to the project so that the rate of dredging infill and dredging maintenance requirements can be calculated, along with the assessment of the seabed's conditions for piling and construction. The primary equipment deployed by GEMS for the duration of the project was three octagonal Seabed Mounting Frames, built for GEMS by OSIL. OSIL then fitted each 316 stainless steel frame with a Nortek Acoustic Wave and Current (AWAC) Profiler. Wave, tide and current data profiles were collected by GEMS using the AWACs at two to three different locations from April 2006 until February 2008 when the monitoring project was completed. A combination of YSI 600 and 6600 Multiparameter Sondes and SonTek Pulse Coherent ADCPs from OSIL, were also deployed by GEMS to collect the necessary turbidity and near-bed current data. The PCADCP was chosen by OSIL because of it's ability to measure fine scale currents with 1cm increments in bin depths. The instruments were used to assess sediment transportation within certain boundary current conditions and were recovered in September 2007. OSIL's Seabed Mounting Frames are manufactured to be as versatile as possible and can be customized for any application's needs. The YSI 6600 are available in a variety of dimensions and designs and come complete with PVC clamps designed to mount an array of instrumenta46 MTR OSIL Seabed Mounting Frame mounted with Nortek AWAC
tion to the frames including various ADCPs, sensors and Multiparameter Sondes. The larger frames have a diameter of approximately 2 m and are designed to deploy multiple sensors on board at varying heights. This allows parameters such as turbidity to be measured at alternating depths above the seabed. The lowest height for a frame is 300 mm, which was used by GEMS in Nigeria, as it is highly trawl resistant and able to maintain station. The area surrounding the proposed LNG site was subject to industry, OSIL are able to collate the most appropriate equipment for each project and compile it into the most suitable system for the customer. GEMS' requirements for the OKLNG monitoring project included monitoring current in water with a depth of up to 50 m. With a wide variety of current meters available, Richard Williams, OSIL's Managing Director, explains that they chose the AWAC because, "the Nortek AWAC is the best way to collect wave and current data in these types of environments." The combination of the OSIL Frames and Nortek AWACs has been so successful for GEMS that they have recently ordered further frames for contracts in West Africa and the Middle East. Improvements to the systems design were discussed between GEMS and OSIL, which lead to OSIL designed gimbals, Sonardyne LRTs and pop-up floats being added to the frames to provide an even more efficient system for their clients.
Email: osil@osil.co.uk June 2008
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