The rotor on each 6 MW, WTG will reach 656 ft above mean sea level. Each FLOWS will be anchored about 1,000 meters (3,300 ft) apart to eliminate or reduce wind shadow effects. Each FLOWS will consist of a floating sub-support structure and a large Offshore Wind Turbine Generator (OWTG). Our marine advanced composite concrete (MACC) and cost opinion are based on building and anchoring 100 Floating Offshore Wind Systems (FLOWS). The station-keeping crew will tether the assembled unit to anchors on the ocean bottom. For instance, it is built on an ocean-going deck barge (OGDB) tied to the quay, then towed to an offshore site for final assembly and deployment. The lower installation costs come from the way the spar buoy is produced and deployed. The cost of its construction and deployment would be a fraction of the current foundation costs for deep-water wind farms. To make deep water installations more feasible, this article will describe a spar buoy or floating foundation system. Furthermore, this location and its winds also allow the use of larger turbines. Better yet, far offshore places turbines in steadier and stronger wind. The beauty of placing wind turbines offshore in deep water is that the wind farm consumes no real estate nor blocks a seascape view from land.
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