Bio-based foams as fish guiding systems and artificial floating islands
| Reference number | |
| Coordinator | Cellufy AB |
| Funding from Vinnova | SEK 3 997 000 |
| Project duration | August 2024 - November 2026 |
| Status | Ongoing |
| Venture | The strategic innovation programme Bioinnovation |
| Call | Increased carbon efficiency in bio-based circular value chains - efficient use of every carbon atom |
Purpose and goal
This project aims to optimize the production of shapeable, bio-based and degradable foams from cellulose-rich fibers or lignin by further developing and tailoring the properties and the process. The project aims to evaluate and use these bio-based foam materials for two different application areas: as migration solutions for safe guidance of fish past hydroelectric power plants to maintain biodiversity and as artificial floating islands to help strengthen and preserve the ecosystem in hydropower-regulated rivers.
Expected effects and result
The project focuses on two valuable markets aimed at maintaining biological diversity and preserving ecosystems by utilizing a bio-based material. Customer needs have already been identified, technical specifications established, and a customer for pilot-scale technical validation secured. The project´s goal is to work towards optimizing the foam formulation, properties and processes to eventually launch a commercially viable product. This is also expected to lead to new patent applications.
Planned approach and implementation
The project is divided into 4 work packages (WP) to advance the TRL, MRL, and SRL levels. WP1 aims to optimize the recipes for cellulose and lignin foams and improve the performance of floating rods and floating islands. WP2 focuses on designing an efficient scaling-up process. WP3 involves long-term testing of materials by Vattenfall in relevant environments. WP4 includes a market analysis to validate the material´s potential in the intended applications. Prioritizing bio-based raw materials and sustainable methods will enhance the material´s lifecycle and sustainability.