Feasibility Study of a Nonlinear Wave Energy Converter With Variable Buoy Geometry

Authors

David G. Wilson, Sandia National Laboratories, New Mexico
Rush Robinett, Michigan Technological UniversityFollow
Wayne Weaver, Michigan Technological UniversityFollow
Steve F. Glover, Sandia National Laboratories, New Mexico

Document Type

Article

Publication Date

5-28-2024

Department

Department of Mechanical Engineering-Engineering Mechanics

Abstract

This paper presents a nonlinear control design technique that capitalizes on an hour glass (HG) variable geometry wave energy converter (WEC). The HG buoy is assumed to operate in the heave motion of the wave. The unique interaction between the HG buoy and the wave creates a nonlinear cubic storage effect that produces actual energy storage or reactive power during operation. A multi-frequency Bretschneider spectrum wave excitation input is reviewed for the varying steepness angle profile for refinements to the respective sea state. As part of our feasibility study, the numerical simulations showed further increase in power generation over the constant steepness angle baseline. As a result this will increase efficiency of operation and power generation by reducing conventional buoy size and weight, respectively.

Publication Title

IEEE Transactions on Industry Applications

Recommended Citation

Wilson, D., Robinett, R., Weaver, W., & Glover, S. (2024). Feasibility Study of a Nonlinear Wave Energy Converter With Variable Buoy Geometry. IEEE Transactions on Industry Applications, 60(5), 7817-7823. http://doi.org/10.1109/TIA.2024.3405906
Retrieved from: https://digitalcommons.mtu.edu/michigantech-p2/1191