Abstract
This paper reviews the published research pertaining to the use of superheated steam for carbon fibre reinforced polymer (CFRP) composite reclamation. Superheated steam has been used for this purpose for around a decade and was initially investigated to prevent the degradation of reclaimed fibres, which occurs during the oxidative char removal step of most pyrolysis-based reclamation techniques.
The review evaluates the various methodologies employed with particular focus on the physical, mechanical, and chemical properties of the reclaimed fibres, and the environmental impact of using superheated steam for carbon fibre reclamation as determined by life cycle assessment.
Superheated steam studies report recovering carbon fibres with retained tensile moduli of around 90%–100% and tensile strengths of 65%–100% when compared to virgin carbon fibres, however, when optimised it is shown that carbon fibres can be recovered with no loss in stiffness and strength. Most studies are still at laboratory- or pilot-scale, however, several companies are collaborating with researchers to investigate the potential of this reclamation method on a larger scale. Early analysis on the energy use of carbon fibre reclamation using superheated steam shows that energy savings of 25% could be made by recycling CFRP waste using superheated steam and using the recovered carbon fibres to displace virgin carbon fibres rather than landfilling and incinerating this waste.
The review evaluates the various methodologies employed with particular focus on the physical, mechanical, and chemical properties of the reclaimed fibres, and the environmental impact of using superheated steam for carbon fibre reclamation as determined by life cycle assessment.
Superheated steam studies report recovering carbon fibres with retained tensile moduli of around 90%–100% and tensile strengths of 65%–100% when compared to virgin carbon fibres, however, when optimised it is shown that carbon fibres can be recovered with no loss in stiffness and strength. Most studies are still at laboratory- or pilot-scale, however, several companies are collaborating with researchers to investigate the potential of this reclamation method on a larger scale. Early analysis on the energy use of carbon fibre reclamation using superheated steam shows that energy savings of 25% could be made by recycling CFRP waste using superheated steam and using the recovered carbon fibres to displace virgin carbon fibres rather than landfilling and incinerating this waste.
| Original language | English |
|---|---|
| Article number | 139320 |
| Number of pages | 12 |
| Journal | Journal of Cleaner Production |
| Volume | 428 |
| Early online date | 26 Oct 2023 |
| DOIs | |
| Publication status | Published - 20 Nov 2023 |
Bibliographical note
Funding Information:This work was funded under the UK Engineering and Physical Science Research Council (EPSRC) Centre for Doctoral Training in Advanced Composites for Innovation and Science ( EP/L016028/1 ) and by the Ocean Family Foundation (London, UK) . The authors thank the teams at North Sails (Connecticut, USA), B&M Longworth (Blackburn, UK), and the National Composites Centre (Bristol, UK) for useful discussions during the preparation of this review.
Funding Information:
This work was funded under the UK Engineering and Physical Science Research Council (EPSRC) Centre for Doctoral Training in Advanced Composites for Innovation and Science (EP/L016028/1) and by the Ocean Family Foundation (London, UK). The authors thank the teams at North Sails (Connecticut, USA), B&M Longworth (Blackburn, UK), and the National Composites Centre (Bristol, UK) for useful discussions during the preparation of this review.
Publisher Copyright:
© 2023 The Authors
Keywords
- Carbon fibre reclamation
- Superheated steam
- Composites
- Sustainability
