Numerical Investigation on the Aerodynamics of a Dual Vertical Axis Wind Turbine with a New Dual-Deflector.
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| Title: | Numerical Investigation on the Aerodynamics of a Dual Vertical Axis Wind Turbine with a New Dual-Deflector. |
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| Authors: | Cao, Yang1 (AUTHOR), Yuan, Yongfei1,2 (AUTHOR), Qian, Zhong2,3 (AUTHOR), Wu, Aihua1 (AUTHOR), Yang, Yuan1,2 (AUTHOR), Cao, Zhening1,3 (AUTHOR), Chen, Xiang1 (AUTHOR), Cai, Yinuo1 (AUTHOR), Mao, Lin1 (AUTHOR), Shi, Chengyun1 (AUTHOR), Wang, Jia3 (AUTHOR), Chen, Chao3 (AUTHOR), Song, Chenguang1 (AUTHOR) chenguang_1987@hotmail.com |
| Source: | Energies (19961073). May2026, Vol. 19 Issue 10, p2284. 23p. |
| Subject Terms: | *Vertical axis wind turbines, *Computational fluid dynamics, *Wind turbine efficiency, *Torque measurements, *Computer simulation, *Aerodynamics |
| Abstract: | This work investigates the performance degradation of dual vertical axis wind turbines at low tip speed ratios using numerical simulation using two-dimensional computational fluid dynamics (CFD). In order to address this problem, it suggests a unique deflector configuration and arrangement. The results show a 21.33% improvement in self-starting potential at low TSRs when dual-configuration deflectors are deployed close to the twin rotors. Additionally, the average torque coefficient increases by 24.31% and the peak power coefficient increases by 53.12%, indicating a significant improvement in performance at high tip speed ratios. While curved deflectors on both sides provide converging channels that increase flow volume and dynamic pressure in the downwind zone, the central deflector decreases reverse airflow in the midsection. The proposed deflector arrangement also exhibits great potential for the compact layout of wind farm arrays; the accelerated wake recovery characteristic is beneficial to improving the overall efficiency of wind farms. With important ramifications for the advancement of renewable energy technology, this work provides fresh insights into dual vertical axis wind turbine optimization. [ABSTRACT FROM AUTHOR] |
| Database: | Energy & Power Source |
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| Abstract: | This work investigates the performance degradation of dual vertical axis wind turbines at low tip speed ratios using numerical simulation using two-dimensional computational fluid dynamics (CFD). In order to address this problem, it suggests a unique deflector configuration and arrangement. The results show a 21.33% improvement in self-starting potential at low TSRs when dual-configuration deflectors are deployed close to the twin rotors. Additionally, the average torque coefficient increases by 24.31% and the peak power coefficient increases by 53.12%, indicating a significant improvement in performance at high tip speed ratios. While curved deflectors on both sides provide converging channels that increase flow volume and dynamic pressure in the downwind zone, the central deflector decreases reverse airflow in the midsection. The proposed deflector arrangement also exhibits great potential for the compact layout of wind farm arrays; the accelerated wake recovery characteristic is beneficial to improving the overall efficiency of wind farms. With important ramifications for the advancement of renewable energy technology, this work provides fresh insights into dual vertical axis wind turbine optimization. [ABSTRACT FROM AUTHOR] |
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| ISSN: | 19961073 |
| DOI: | 10.3390/en19102284 |
