ABS Okays UMaine’s Floating Offshore Wind Turbine

Houston-based classification society ABS has completed the design review of the Front End Engineering and Design (FEED) documentation for the VolturnUS, a floating offshore wind turbine (FOWT), developed by the University of Maine Advanced Structures and Composites Center.

Image source: The University of Maine

ABS completed a design review of the semisubmersible, verifying compliance with the ABS Guide for Building and Classing Floating Offshore Wind Turbine Installations.

The process consisted of an independent review of the hull/tower structure, coupled aeroelastic/hydrodynamic loads, safety, stability, electrical systems, equipment, piping and hydrodynamic and station keeping design. ABS determined that FEED design, as presented, met the requirements of the relevant ABS Rules and regulatory standards.

“UMaine is pleased that its innovative design became the first floating wind turbine concrete semisubmersible hull to be reviewed by ABS, and found to meet the ABS requirements,” said Dr. Habib J. Dagher, P.E, UMaine Composites Center executive director and principal investigator.

“After 10 years of development, this is a major milestone for our program, and we expect the VolturnUS hull concept to continue to attract private investment from the U.S. and around the world. Nearly 70 percent of the U.S. offshore wind resources can be captured using the UMaine VolturnUS technology, and we are looking forward to working with offshore wind developers across the U.S.”

The patented VolturnUS is based on a concrete four-column semi-submersible hull concept.

In 2013, the UMaine team tested the feasibility of the concept by developing a 1:8 scale model and deploying it in Castine, Maine.

Maine Aqua Ventus I, GP, LLC, is now leading a full-scale, two turbine demonstration project called New England Aqua Ventus I, a 12 megawatt (MW) floating offshore wind pilot project off Maine’s shores. This pilot project is expected to demonstrate the VolturnUS at full-scale as a viable and economical alternative for offshore wind developments in water depths greater than 50 meters.