Recycling of wind turbine blades through modern recycling technologies: a road to zero waste
Recycling of wind turbine blades through modern recycling technologies: a road to zero waste
Wind is a clean, efficient, fastest-growing, renewable energy source, which is extensively applied for power generation. The expected design lifetime of a wind turbine lies between 20 to 25 years and requires decommissioning at its end-of-life (EOL) stage. In recent years, the global trend is shifted towards power generation through wind turbines and has globally increased the decommissioned wind turbine blades (WTBs). Compared to other components of wind turbines, it is not convenient to recycle the carbon/glass fiber-reinforced composite-based WTBs, due to their complicated nature and inhomogeneity. Additionally, it is extremely harmful to landfill or incinerate WTBs, as these strategies may result in severe health and environmental issues. Consequently, recycling of WTBs is a viable pathway for the renewable energy sector that ensures the sustainability of wind turbines. To date, only 80% - 85% of the wind turbine materials can be recycled but have potential to reach at 100 % through proper attention required on recovery of all wind turbine materials and adaptation of circular economy (CE) models. The motivation behind this review is to emphasize the importance of sustainable options to treat WTB wastes and minimize the utilization of conventional EOL approaches such as landfilling and incineration. This review also shed lights on the current research and development (R&D) projects, which are related to the adaption of various hybrid recycling technologies and CE models. Moreover, this review also highlights current challenges and future developments of WTB composites. It is concluded that consistent and collaborative efforts should be made by each of the individuals, such as researchers, policy makers, and legislative and industrialist stake holders to improve the viability and effectiveness of the wind energy.
carbon fibers, Circular economy, Composite waste, Glass fibers, Recycling, Wind turbine blades
373-389
Khalid, Muhammad Yasir
156549c9-dd36-42d8-a9d1-8118a3286d3f
Arif, Zia Ullah
49914102-f4f6-417f-9881-22a80015dedf
Hossain, Mokarram
67bb0446-f78a-4021-b2b9-3d95fce006f9
Umer, Rehan
cdf372ed-5abe-46be-a34a-9107d8813ac3
6 February 2023
Khalid, Muhammad Yasir
156549c9-dd36-42d8-a9d1-8118a3286d3f
Arif, Zia Ullah
49914102-f4f6-417f-9881-22a80015dedf
Hossain, Mokarram
67bb0446-f78a-4021-b2b9-3d95fce006f9
Umer, Rehan
cdf372ed-5abe-46be-a34a-9107d8813ac3
Khalid, Muhammad Yasir, Arif, Zia Ullah, Hossain, Mokarram and Umer, Rehan
(2023)
Recycling of wind turbine blades through modern recycling technologies: a road to zero waste.
Renewable Energy Focus, 44, .
(doi:10.1016/j.ref.2023.02.001).
Abstract
Wind is a clean, efficient, fastest-growing, renewable energy source, which is extensively applied for power generation. The expected design lifetime of a wind turbine lies between 20 to 25 years and requires decommissioning at its end-of-life (EOL) stage. In recent years, the global trend is shifted towards power generation through wind turbines and has globally increased the decommissioned wind turbine blades (WTBs). Compared to other components of wind turbines, it is not convenient to recycle the carbon/glass fiber-reinforced composite-based WTBs, due to their complicated nature and inhomogeneity. Additionally, it is extremely harmful to landfill or incinerate WTBs, as these strategies may result in severe health and environmental issues. Consequently, recycling of WTBs is a viable pathway for the renewable energy sector that ensures the sustainability of wind turbines. To date, only 80% - 85% of the wind turbine materials can be recycled but have potential to reach at 100 % through proper attention required on recovery of all wind turbine materials and adaptation of circular economy (CE) models. The motivation behind this review is to emphasize the importance of sustainable options to treat WTB wastes and minimize the utilization of conventional EOL approaches such as landfilling and incineration. This review also shed lights on the current research and development (R&D) projects, which are related to the adaption of various hybrid recycling technologies and CE models. Moreover, this review also highlights current challenges and future developments of WTB composites. It is concluded that consistent and collaborative efforts should be made by each of the individuals, such as researchers, policy makers, and legislative and industrialist stake holders to improve the viability and effectiveness of the wind energy.
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Accepted/In Press date: 2 February 2023
Published date: 6 February 2023
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Publisher Copyright:
© 2023 Elsevier Ltd
Keywords:
carbon fibers, Circular economy, Composite waste, Glass fibers, Recycling, Wind turbine blades
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Local EPrints ID: 488308
URI: http://eprints.soton.ac.uk/id/eprint/488308
ISSN: 1755-0084
PURE UUID: d2535730-4294-4818-ae99-4e17edd9aa4a
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Date deposited: 19 Mar 2024 18:23
Last modified: 27 Mar 2024 03:06
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Contributors
Author:
Muhammad Yasir Khalid
Author:
Zia Ullah Arif
Author:
Mokarram Hossain
Author:
Rehan Umer
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