Experimental investigation of a dual-pontoon WEC-type breakwater with a hydraulic-pneumatic complementary power take-off system
Cheng, Yong and Song, Fukai and Fu, Lei and Dai, Saishuai and Yuan, Zhiming and Incecik, Atilla (2024) Experimental investigation of a dual-pontoon WEC-type breakwater with a hydraulic-pneumatic complementary power take-off system. Energy, 286. 129427. ISSN 1873-6785 (https://doi.org/10.1016/j.energy.2023.129427)
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Abstract
Floating offshore multi-purpose structures have recently attracted much attention worldwide in terms of sharing costs, enhancing efficiencies and reducing environmental impacts. In this paper, hydrodynamic experiments are conducted to examine the accessibility of wave energy absorption by a dual-pontoon floating breakwater integrated with hybrid-type wave energy converters (WECs). The main structure and the air chamber between the two pontoons are designed as an Oscillating Buoy (OB) and an Oscillating Water Column (OWC), respectively. Two power take-off (PTO) systems, including a hydraulic system and a Wells turbine, are selected to extract wave energy from structural motion and chamber airflow. To investigate the hydraulic-pneumatic complementary effects, PTO damping coefficients of two systems are adjusted both individually and synchronously. Besides, the hydrodynamic comparison among different geometrical parameters, are further studied. The breakwater-integrated hybrid WEC system led to a larger optimal pneumatic damping for the OWC while the optimal hydraulic damping for the OB is not affected. Additionally, the internal air pressure is acting as a resistive force to pontoons, hence the pontoon motion is smaller, and part of the kinematic energy from pontoons is extracted by the OWC. Correspondingly, the wave attenuation capacity is enhanced by multiple harvesting manners, especially for long-period waves.
ORCID iDs
Cheng, Yong, Song, Fukai, Fu, Lei, Dai, Saishuai ORCID: https://orcid.org/0000-0002-9666-6346, Yuan, Zhiming ORCID: https://orcid.org/0000-0001-9908-1813 and Incecik, Atilla;-
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Item type: Article ID code: 87375 Dates: DateEvent1 January 2024Published30 October 2023Published Online19 October 2023Accepted11 June 2023SubmittedSubjects: Technology > Hydraulic engineering. Ocean engineering Department: Faculty of Engineering > Naval Architecture, Ocean & Marine Engineering
Faculty of EngineeringDepositing user: Pure Administrator Date deposited: 17 Nov 2023 15:57 Last modified: 11 Dec 2024 21:52 URI: https://strathprints.strath.ac.uk/id/eprint/87375