1. Experimental and Numerical Study of Novel Vortex Bladeless Wind Turbine with an Economic Feasibility Analysis and Investigation of Environmental Benefits.
- Author
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Hamdan, Hasan, Dol, Sharul Sham, Gomaa, Abdelrahman Hosny, Tahhan, Aghyad Belal Al, Al Ramahi, Ahmad, Turkmani, Haya Fares, Alkhedher, Mohammad, and Ajaj, Rahaf
- Subjects
WIND turbines ,FREQUENCIES of oscillating systems ,ENERGY harvesting ,RENEWABLE energy sources ,POTENTIAL energy ,RUNWAYS (Aeronautics) - Abstract
This study combines experimental and numerical evaluations of Vortex Bladeless Wind Turbines (VBWTs) to understand their potential in renewable energy generation. The methodology employs Two-Way Fluid–Solid Interface (FSI) simulations, alongside real-world data, providing important insights into the turbine's vibration dynamics and flow interactions during operation. Key findings include identifying optimal vibration frequencies and amplitudes that enhance energy harvesting and a clear advantage in power-generation estimations shown by one of the models used. The study reveals possible applications of VBWT in various settings like airport runways, highways, and buildings, indicating a promising avenue for incorporating such renewable-energy solutions. Discussions on the economic feasibility and environmental benefits of VBWT deployment are also presented, suggesting a need for further research and optimization in this area. A conceptual generator design and business model are introduced as part of a broader discussion on technology integration and energy storage. The research in this study encompasses experimental and numerical analysis, to achieve a broader understanding of the workings of a VBWT, realizing the feasibility of using such systems in lower-wind-speed conditions and upscaling to higher-wind-speed cases. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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