Exploring biomimicry in wind and hydrokinetic turbine design: bridging nature and engineering
Exploring biomimicry in wind and hydrokinetic turbine design: bridging nature and engineering
Nature has remained one of the key sources of inspiration for human technology. While striking for higher efficiency, design improvements in power-generating turbines have started to reach a saturation point. Biomimicry- learning from nature, has great potential for significant performance improvements. This paper provides a comprehensive review of the current trends in research of bioinspired technology on wind and hydrokinetic turbines. The aim is to identify the most effective bioinspired methods and the factors affecting the turbine performance. Various methods adopted are inspired by animals and plants and their interaction with fluid to enhance aero/hydrodynamic properties. These promising methods include the humpback whale tubercle and bird wing, where flow characteristics can be improved such as delaying the stall conditions and suppressing flow separation. Methods inspired by dragonfly wings, sea pen leaves, and plant seeds showed substantial merit for operating at low wind speeds, as a better glide ratio, enabling them to be suitable for low wind speed turbines. Furthermore, additional surface and structural modifications are explored, and their contributions are discussed in this paper. Various biomimicry methods were compared and critically analysed. This paper closes with a brief overview of future development options.
biomimicry,, bio-inspired,, wind turbine,, hydrokinetic turbine,, coefficient of power
Wen Lee, Ya
ea9eda22-eb2b-48e3-9425-596ccc48045a
Megat Iskandar Hashim, Adam Hazim Bin
d5476f29-db7f-4e66-a851-699f0594fb47
Conrad, Franziska
ee74a7c3-1c1c-43b0-8a2f-f2284e704dbd
Fazlizan, Ahmad
a7e108b2-87aa-42de-9403-e7eb50107a24
Wong, Kok-Hoe
53ba2820-d005-479f-a0a7-1c5f7fd2532c
9 September 2025
Wen Lee, Ya
ea9eda22-eb2b-48e3-9425-596ccc48045a
Megat Iskandar Hashim, Adam Hazim Bin
d5476f29-db7f-4e66-a851-699f0594fb47
Conrad, Franziska
ee74a7c3-1c1c-43b0-8a2f-f2284e704dbd
Fazlizan, Ahmad
a7e108b2-87aa-42de-9403-e7eb50107a24
Wong, Kok-Hoe
53ba2820-d005-479f-a0a7-1c5f7fd2532c
Wen Lee, Ya, Megat Iskandar Hashim, Adam Hazim Bin, Conrad, Franziska, Fazlizan, Ahmad and Wong, Kok-Hoe
(2025)
Exploring biomimicry in wind and hydrokinetic turbine design: bridging nature and engineering.
Mechanical Systems and Signal Processing, 20 (5), [051002].
(doi:10.1088/1748-3190/ae0080).
Abstract
Nature has remained one of the key sources of inspiration for human technology. While striking for higher efficiency, design improvements in power-generating turbines have started to reach a saturation point. Biomimicry- learning from nature, has great potential for significant performance improvements. This paper provides a comprehensive review of the current trends in research of bioinspired technology on wind and hydrokinetic turbines. The aim is to identify the most effective bioinspired methods and the factors affecting the turbine performance. Various methods adopted are inspired by animals and plants and their interaction with fluid to enhance aero/hydrodynamic properties. These promising methods include the humpback whale tubercle and bird wing, where flow characteristics can be improved such as delaying the stall conditions and suppressing flow separation. Methods inspired by dragonfly wings, sea pen leaves, and plant seeds showed substantial merit for operating at low wind speeds, as a better glide ratio, enabling them to be suitable for low wind speed turbines. Furthermore, additional surface and structural modifications are explored, and their contributions are discussed in this paper. Various biomimicry methods were compared and critically analysed. This paper closes with a brief overview of future development options.
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Exploring biomimicry in wind and hydrokinetic turbine design- bridging nature and engineering - published version
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Accepted/In Press date: 28 August 2025
Published date: 9 September 2025
Keywords:
biomimicry,, bio-inspired,, wind turbine,, hydrokinetic turbine,, coefficient of power
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Local EPrints ID: 509802
URI: http://eprints.soton.ac.uk/id/eprint/509802
ISSN: 0888-3270
PURE UUID: 78b60ff6-71a5-423e-82c4-c77d7f1e83ab
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Date deposited: 05 Mar 2026 23:12
Last modified: 06 Mar 2026 03:23
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Contributors
Author:
Ya Wen Lee
Author:
Adam Hazim Bin Megat Iskandar Hashim
Author:
Franziska Conrad
Author:
Ahmad Fazlizan
Author:
Kok-Hoe Wong
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