The Geometrical Design of the L-shaped Oscillating Water Column Using Artificial Neural Network

Authors

  • CHEN-CHOU LIN National Taiwan Ocean University
  • YI-CHIH CHOW National Taiwan Ocean University
  • DUY TONG NGUYEN National Taiwan Ocean University

DOI:

https://doi.org/10.36688/ewtec-2023-555

Keywords:

Oscillating Water Column, L-shaped, Artificital neural network, Air chamber design, Energy capture

Abstract

Among the various wave energy converters available, the oscillating water column (OWC) shows a number of advantages in terms of implementation and maintenance. In dealing with the survivability issues, incorporating OWCs into reinforced concrete constructions, like breakwaters, is more cost-effective and can endure the effects of seawater impact and erosion.

This paper focuses on optimizing the geometrical design of a novel OWC type, the L-shaped OWC, by establishing a general design procedure to achieve higher energy-capturing efficiency. The performance of the OWC is influenced significantly by the OWC’s geometry under a specified wave condition. It is found that the dimension of the air chamber and water duct is critical in determining OWC’s performance. We develop the chamber and duct design procedure based on the artificial neural network approach by establishing a collection of two-dimensional RANS simulations as the training database. In the end, the performance of the optimal design is compared with the design of a previous paper. The result shows that the capture factor of the optimized chamber geometry of the L-shaped OWC is 12% more than the former design.

Author Biographies

  • CHEN-CHOU LIN, National Taiwan Ocean University

    Dr. Lin currently serves as Professor at the Department of Mechanical and Mechatronic Engineering, National Taiwan Ocean University. He has been the director of Center for Ocean Energy System in College of Engineering of NTOU since 2018. He has been appointed as the Organizing Committee member of AWTEC (Asian Wave and Tidal Energy Conference) since 2018.

      His research interests include Wave energy (Wave energy converter Design/Development, Numerical simulation, Power Take-off Control), Intelligent robot, Mechanism design, Medical device design. He is an active member of ASME, IEEE, and CSMMT.

     Dr. Lin obtained his Ph.D. and MS degrees from the ME department of the University of Maryland (UMCP), and the B.S. degree from National Cheng Kung University.

  • YI-CHIH CHOW, National Taiwan Ocean University

    Associate Professor of Department of Systems Engineering & Naval Architecture, National Taiwan Ocean University.

  • DUY TONG NGUYEN, National Taiwan Ocean University

    Ph.D. candidate of Department of Systems Engineering & Naval Architecture, National Taiwan Ocean University.

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Published

2023-09-02

Issue

Vol. 15 (2023): Proceedings of the European Wave and Tidal Energy Conference

Track

Wave device development and testing

Categories

License

Some rights reserved. Please see https://ewtec.org/proceedings/ for more details.

How to Cite

[1]
“The Geometrical Design of the L-shaped Oscillating Water Column Using Artificial Neural Network”, Proc. EWTEC, vol. 15, Sep. 2023, doi: 10.36688/ewtec-2023-555.

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