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Maximizing efficiency with active diameter modulation of vertical axis wind turbine

Maximizing efficiency with active diameter modulation of vertical axis wind turbine
Maximizing efficiency with active diameter modulation of vertical axis wind turbine
Wind turbines rely heavily on prevailing wind conditions, yet the dynamic nature of wind often limits the efficiency of turbines with fixed dimensions. While previous research has explored variable concepts such as pitch angle, deformable aerofoils, etc., studies on variable solidity are scarce. This study proposes a novel variable diameter vertical axis wind turbine (VD-VAWT) designed to dynamically adapt to varying tip speed ratios (TSR), enhancing performance and expanding its wind capture range. This VD-VAWT comprises a special mechanism design that enables the turbine blade to slide along the strut. Experiments were conducted on a VD-VAWT with two straight-bladed NACA0018 aerofoils. Initially, the fixed diameter experiments spanning 300 mm to 800 mm were conducted which identified 600 mm as the optimal diameter, achieving a maximum power coefficient (CP, max) of 0.2748. The active control VD-VAWT demonstrated significant performance improvements, with power yields surpassing fixed diameter turbines by 34 % at 600 mm and 68 % at 800 mm. While changing its diameter, it can maximize the CP at different TSRs. In addition, the VD-VAWT enhanced self-starting capabilities, dynamic self-regulation for optimal conditions, and potential storm protection. This innovation demonstrates the potential of adaptable turbines to achieve higher efficiency and versatility in fluctuating wind conditions.
Darrieus turbine, Variable Diameter, Vertical Axis Wind Turbine, Wind energy, coefficient of power, Vertical axis wind turbine (VAWT), Coefficient of power (C ), Variable diameter
2213-1388
Lee, Ken Yeen
5a3b2045-af8d-423d-994c-b49ba75c81c2
Cruden, Andrew
ed709997-4402-49a7-9ad5-f4f3c62d29ab
Ng, Jo-Han
4c9c51bd-1cfc-46c0-b519-23b77566fe50
Wong, Kok-Hoe
4ab87de5-7d69-4274-a951-75cb22c9d8c8
Lee, Ken Yeen
5a3b2045-af8d-423d-994c-b49ba75c81c2
Cruden, Andrew
ed709997-4402-49a7-9ad5-f4f3c62d29ab
Ng, Jo-Han
4c9c51bd-1cfc-46c0-b519-23b77566fe50
Wong, Kok-Hoe
4ab87de5-7d69-4274-a951-75cb22c9d8c8

Lee, Ken Yeen, Cruden, Andrew, Ng, Jo-Han and Wong, Kok-Hoe (2025) Maximizing efficiency with active diameter modulation of vertical axis wind turbine. Sustainable Energy Technologies and Assessments, 80, [104363]. (doi:10.1016/j.seta.2025.104363).

Record type: Article

Abstract

Wind turbines rely heavily on prevailing wind conditions, yet the dynamic nature of wind often limits the efficiency of turbines with fixed dimensions. While previous research has explored variable concepts such as pitch angle, deformable aerofoils, etc., studies on variable solidity are scarce. This study proposes a novel variable diameter vertical axis wind turbine (VD-VAWT) designed to dynamically adapt to varying tip speed ratios (TSR), enhancing performance and expanding its wind capture range. This VD-VAWT comprises a special mechanism design that enables the turbine blade to slide along the strut. Experiments were conducted on a VD-VAWT with two straight-bladed NACA0018 aerofoils. Initially, the fixed diameter experiments spanning 300 mm to 800 mm were conducted which identified 600 mm as the optimal diameter, achieving a maximum power coefficient (CP, max) of 0.2748. The active control VD-VAWT demonstrated significant performance improvements, with power yields surpassing fixed diameter turbines by 34 % at 600 mm and 68 % at 800 mm. While changing its diameter, it can maximize the CP at different TSRs. In addition, the VD-VAWT enhanced self-starting capabilities, dynamic self-regulation for optimal conditions, and potential storm protection. This innovation demonstrates the potential of adaptable turbines to achieve higher efficiency and versatility in fluctuating wind conditions.

Text
SETA-VD-VAWT-UoSM-Manuscript-PURE_System (2) - Accepted Manuscript
Restricted to Repository staff only until 5 June 2027.
Available under License Creative Commons Attribution Non-commercial No Derivatives.
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More information

Accepted/In Press date: 21 May 2025
e-pub ahead of print date: 5 June 2025
Published date: 5 June 2025
Keywords: Darrieus turbine, Variable Diameter, Vertical Axis Wind Turbine, Wind energy, coefficient of power, Vertical axis wind turbine (VAWT), Coefficient of power (C ), Variable diameter

Identifiers

Local EPrints ID: 503091
URI: http://eprints.soton.ac.uk/id/eprint/503091
DOI: doi:10.1016/j.seta.2025.104363
ISSN: 2213-1388
PURE UUID: cf434281-087f-4d81-be9c-548d9131a000
ORCID for Andrew Cruden: ORCID iD orcid.org/0000-0003-3236-2535

Catalogue record

Date deposited: 21 Jul 2025 16:48
Last modified: 13 Sep 2025 01:59

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Contributors

Author: Ken Yeen Lee
Author: Andrew Cruden ORCID iD
Author: Jo-Han Ng
Author: Kok-Hoe Wong

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