Sandia Makes Case for Floating Vertical-Axis Wind Turbines

R&D

The larger scale of offshore wind turbines and improved materials indicate that the vertical-axis wind turbine (VAWT) designs may have certain advantages and benefits for floating offshore wind energy installations, a new study by Sandia National Laboratories has found.

Source: Sandia National Laboratories

For instance, VAWT designs have a lower center of gravity, which would reduce the platform costs, Sandia said.

“From a systems perspective, that could be a huge breakthrough for floating offshore wind, where the platform is the single largest contributor to the system cost,” said Brandon Ennis, Sandia’s Wind Energy Technologies Department offshore technical lead.

“The turbine represents approximately 65% of the system cost for land-based wind plants, compared to only around 25% for deep-water offshore sites. This distinction opens up the opportunities for radically different wind turbine designs than what would be developed for land-based applications, which could significantly reduce the cost for floating offshore wind energy.”

The study identified an optimized system design to produce system levelized cost of energy (LCOE) estimates for five potential scenarios, such as what the LCOE might look like today, or what the cost might become as the technology matures. The LCOE projections for the optimized system in the study reflect an updated, in-depth analysis of new technology, system optimizations, and other factors related to VAWT designs.

Source: Sandia National Laboratories

Overall, the research predicts that LCOE could be as low as USD 110 per megawatt-hour if the system includes anticipated technical advancements to reach an optimized design. The projected near-term LCOE, or what the system is estimated to cost today, was predicted to be USD 213 per megawatt-hour. The most significant contributors to a reduced cost are an optimized platform design, advances in materials and rotor structural design, control strategies to optimize energy generation, and a reduced finance rate equivalent to that of land-based wind turbines.

As shown in the study, the reduced platform cost for the VAWT design decreased the LCOE, although a direct comparison to horizontal-axis design is merited to better understand the relative LCOE comparison.