Litcius/Paper detail

Design and analysis of a ten-turbine floating wind farm with shared mooring lines

Matthew Hall, Ericka Lozon, Stein Housner, Senu Sirnivas

2022Journal of Physics Conference Series37 citationsDOIOpen Access PDF

Abstract

This paper discusses the development and analysis of a novel design for a 10-turbine floating wind farm with shared mooring lines. Shared mooring lines tether adjacent floating platforms together, reducing the number of anchors required but increasing system complexity. We present a systematic, multistage design process for shared mooring systems, involving linearized analysis of array layout options, quasi-static mooring line optimization, and design refinement based on coupled dynamic loads analysis. The design developed from this process is thought to represent one of the most advantageous shared-mooring configurations for this scale of floating wind array. It features perpendicular anchor line pairs and allows shared, multiline anchors, making it an example of a shared-mooring-and-anchor array. Comparing the performance and cost characteristics of the shared-mooring design with more conventional three-line individual mooring systems shows equivalent dynamic response characteristics and stationkeeping system cost savings of 25% when using shared mooring lines and shared anchors. The design is also advantageous in the case of a mooring line failure, with offsets and redundancy characteristics similar to four-line individual mooring systems.

Topics & Concepts

MooringMarine engineeringRedundancy (engineering)Line (geometry)Process (computing)Computer scienceTurbineEngineeringSimulationMechanical engineeringReliability engineeringOperating systemGeometryMathematicsWave and Wind Energy SystemsWind Energy Research and DevelopmentMarine and Offshore Engineering Studies