Assessment of First- and Second-Order Wave-Excitation Load Models for Cylindrical Substructures: Preprint

Fabian Wendt, Brandon Pereyra

Research output: Contribution to conferencePaper

Abstract

The hydrodynamic loads on an offshore wind turbine's support structure present unique engineering challenges for offshore wind. Two typical approaches used for modeling these hydrodynamic loads are potential flow (PF) and strip theory (ST), the latter via Morison's equation. This study examines the first- and second-order wave-excitation surge forces on a fixed cylinder in regular waves computed by the PF and ST approaches to (1) verify their numerical implementations in HydroDyn and (2) understand when the ST approach breaks down. The numerical implementation of PF and ST in HydroDyn, a hydrodynamic time-domain solver implemented as a module in the FAST wind turbine engineering tool, was verified by showing the consistency in the first- and second-order force output between the two methods across a range of wave frequencies. ST is known to be invalid at high frequencies, and this study investigates where the ST solution diverges from the PF solution. Regular waves across a range of frequencies were run in HydroDyn for a monopile substructure. As expected, the solutions for the first-order (linear) wave-excitation loads resulting from these regular waves are similar for PF and ST when the diameter of the cylinder is small compared to the length of the waves (generally when the diameter-to-wavelength ratio is less than 0.2). The same finding applies to the solutions for second-order wave-excitation loads, but for much smaller diameter-to-wavelength ratios (based on wavelengths of first-order waves).
Original languageAmerican English
Number of pages7
StatePublished - 2017
EventInternational Society of Offshore and Polar Engineers Conference (ISOPE 2016) - Rhodes, Greece
Duration: 26 Jun 20162 Jul 2016

Conference

ConferenceInternational Society of Offshore and Polar Engineers Conference (ISOPE 2016)
CityRhodes, Greece
Period26/06/162/07/16

NREL Publication Number

  • NREL/CP-5000-68131

Keywords

  • hydrodynamics
  • monopile
  • potential flow
  • second-order forces
  • strip theory

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