Novel energy and resource-efficient value chains through co-combustion of straw fuels and sludge

Sweden has an untapped potential of straw fuels of 20 TWh on unused arable land of approximately 700 000 ha and further 4 TWh in the form of unused straw. The operational challenges of straw fuels can be solved in co-combustion with sludge, there is thus an opportunity to combine agricultural residual streams with sustainable food production and bioenergy.
The project develops new actor constellations in the form of intra- and intersectional collaborations in order to enable sustainable value chains for the co-combustion of straw fuels and sludge, attractive value chains that are energy and resource efficient, and can be used both nationally and globally. The project develops new technical process solutions required for the value chain, for example in terms of fuel quality through co-briquetting and examining quality of the ash produced. Additionally, legal barriers, opportunities and techno-economic and environmental aspects are evaluated to enable the realisation of the value chain.

Marcus Öhman
Luleå University of Technology
marcus.ohman@ltu.se
Project information
Participants
Luleå University of Technology
Glommers miljöenergi
RISE Research lnstitutes of Sweden
Fortum Waste Solutions AB
Skellefteå Kraftaktiebolag
Umeå universitet
Vatten och Avfallskompetens i Norr AB
Schedule
January 2022 - December 2025
Total project cost
6 277 900 SEK
The Swedish Energy Agency's project number
2021-00054
More projects

Synthesis, structure and application of bio-binders for electrodes and refractories in the metallurgical process industries
Carbon is a critical material in several metallurgical industrial sectors, and not just as a reducing agent. The unique chemical and structural…
Manager: Jesse White
Ongoing

Sustainable aviation fuel from thermocatalytic refining of lignin and lignin-derivatives: development of biorefinery catalysts and reaction systems
This project aims to develop a cost-effective and efficient lignin refining technology as an alternative for petroleum refinery, with the goal of…
Manager: Linda Sandström
Ongoing

Upgrading of biobased pyrolysis oil in existing refinery infrastructure
Forestry and agricultural residues are attractive raw materials to make biofuels from. The biomass can be liquefied into bio-oil via pyrolysis, but…
Manager: Linda Sandström
Ongoing