@misc{d41a41b865c24250bd199650117cc93e,
title = "Capacity Density Considerations for Floating Offshore Wind Farms in Ultradeep Waters",
abstract = "Capacity density describes the concentration of wind energy development in an area and is often specified in terms of megawatts-per-square-kilometer (MW/km2). Understanding capacity density trends in wind energy projects helps to inform both energy system and spatial planning efforts. Borrman et al. (2018) and Mulas Hernando et al. (2023) analyze capacity density trends for fixed-bottom offshore wind farms in Europe and the United States, respectively, and Cooperman et al. (2022) explores how floating offshore wind mooring technology choices may impact wind plant layout through setbacks from lease area boundaries in waters up to 1,300 m deep. Technical challenges facing floating offshore wind development in ultradeep waters (beyond 1,300 m) could impact achievable capacity densities, with potential implications to marine spatial planning and project economics. When compared to fixed-bottom commercial-scale wind farms, mooring system footprints from floating offshore wind systems can constrain capacity density in some circumstances. In this study, we conduct an initial investigation of how taut mooring configurations may constrain floating offshore wind turbine placement and estimate capacity density for representative floating wind plants in generic lease areas. In addition, we explore floating wind plant capacity density drivers in ultradeep waters by characterizing area utilization for a range of lease area characteristics. This analysis highlights the primary challenges that floating offshore wind systems may encounter in achieving capacity densities comparable to commercial-scale fixed-bottom projects at ultradeep water depths, from a technical standpoint.",
keywords = "capacity density, floating, offshore wind, ultradeep, water depths",
author = "{Mulas Hernando}, Daniel and Patrick Duffy and Aubryn Cooperman and Stein Housner and Matt Hall",
year = "2024",
language = "American English",
series = "Presented at the American Offshore Floating Offshore Wind Technical Summit (AFloat), 24-25 September 2024, Portland, Maine",
type = "Other",
}