As the offshore wind industry advances, the operation in deeper waters require more complex structures. This increase in complexity also impacts computational models, making them larger and costlier.
Traditional time domain methods for floating offshore wind substructures are often very computationally expensive and time consuming, which is a problem when hundreds or thousands of design load cases are required to be simulated.
In this webinar, we will introduce two innovative time domain methods designed to accelerate the design process for floating offshore wind substructures. Learn how these new methods address industry challenges, delivering a balance of flexibility, accuracy, and computational efficiency to meet the evolving needs of floating offshore wind development.