PROJECT

Project leader

Clara Valente

Duration

01/09/2023 -

31/03/2028

Funder

Horizon Europe

Partners
Danmarks Tekniske universitet DK
Högskolen i Borås I BORAS SE
Sintef AS NO
Sintef Energi AS NO
Nofima AS NO
Rise Research Institutes of Sweden AB SE
Bergene Holm AS NO
Skretting Aquaculture Research Centre AS NO
Dechema Gesellschaft DE


Synoprotein

The project SynoProtein (Carbon capture from syngas to Single Cell Protein (SCP) and use as fish feed Ingredient) started on September1st and it will end by March 2028.

Synoprotein is funded by the Horizon Europe programme under the call-JU-CBE-2022 (Circular Bio-based Europe Joint Undertaking).

The project’s coordinator is WAI ENVIRONMENTAL SOLUTIONS. WAI is a Norwegian technology company developing and implementing environmental technologies within wastewater treatment, bio-sludge treatment, nutrients and resources recovery, hazardous waste and soil remediation and aquaculture.

The main objective of SynoProtein is to develop and demonstrate a novel carbon-negative process that enables high value creation from sawmill by-products through carbon capture and use (CCU). The aim is to establish a sawmill by-products valorisation process in a continuous flow system at a pilot scale with a production capacity of 5 kg/day for Single Cell Protein (SCP) and biochar each (dry weight). Innovative processes are developed using forest residues to be converted to single cell protein for fish feed ingredients as alternative to the traditional climate and energy intensive soybean and resource-limited wild fish protein production and to biochar production for animal feed.  11 partners from four different European countries (Norway, Denmark, Sweden, and Germany) are part of the consortium representing industry, academia, and research institutes. For more information about the project see: https://www.cbe.europa.eu/projects/synoprotein

NORSUS is responsible for assessesing the potential environmental and social impacts of the novel SynoProtein solution by using environmental and social Life Cycle Assessment (LCA) methodologies. Data will be collected in the consortium from lab scale to pilot plant and published by the end of the project in European platforms. Comparison with the state-of-the-art of the technologies will also be established. Several environmental impact categories such as climate change, water scarcity, resource scarcity and biodiversity will be investigated. In addition, NORSUS will use the Responsible Research & Innovation (RRI) framework and will employ methods for involving the public in the development of the Synoprotein biobased value chains.

We acknowledge that the project is supported by the Circular Bio-based Europe Joint Undertaking (CBE-JU) and its members under Grant Agreement No. 101112345.