한국해양공학회지 (Apr 2019)

Numerical and Experimental Study on Linear Behavior of Salter's Duck Wave Energy Converter

  • Dongeun Kim,
  • Sunny Kumar Poguluri,
  • Haeng Sik Ko,
  • Hyebin Lee,
  • Yoon Hyeok Bae

DOI
https://doi.org/10.26748/KSOE.2019.023
Journal volume & issue
Vol. 33, no. 2
pp. 116 – 122

Abstract

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Among the various wave power systems, Salter’s duck (rotor) is one of the most effective wave absorbers for extracting wave energy. The rotor shape is designed such that the front part faces the direction of the incident wave, which forces it to bob up and down due to wave-induced water particle motion, whereas the rear part, which is mostly circular in shape, reflects no waves. The asymmetric geometric shape of the duck makes it absorb energy efficiently. In the present study, the rotor was investigated using WAMIT (a program based on the linear potential flow theory in three-dimensional diffraction/radiation analyses) in the frequency domain and verified using OrcaFlex (design and analysis program of marine system) in the time domain. Then, an experimental investigation was conducted to assess the performance of the rotor motion based on the model scale in a two-dimensional (2D) wave tank. Initially, a free decay test (FDT) was carried out to obtain the viscous damping coefficient. The pitch response was extracted from the experimental time series in a periodic regular wave for two different wave heights (1 cm and 3 cm). In addition, the viscous damping coefficient was calculated from the FDT result and fluid forces, obtained from WAMIT, are incorporated into the final response of the rotor. Finally, a comparative study based on experimental and numerical results (WAMIT & OrcaFlex) was performed to confirm the performance reliability of the designed rotor.

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