Forest fertilization using nutrient-enriched biochar for climate change mitigation effects
WP1.2: Climate Smart Forestry Norway
Improving the scientific foundation for CSF by developing a framework for holistic assessments of forest management that simultaneously consider carbon, other biophysical forcings, substitution, and risk of natural disturbance while acknowledging forest owners to have a sustainable income from their forests.
WP1.3: ENABLE - Enabling the green transition in Norway
A green transition must be implemented in a way that provides acceptance in society.
WP1.3: NorENS - Developing the Norwegian energy system in the European energy transition
Providing a holistic assessment of how Norwegian renewable energy resources and infrastructure may be affected by, benefit from, and contribute to, the ongoing European energy transition.
WP2.4: B2A - Biomass to Aviation Fuel
Develop a fast pyrolysis (FP) technology platform for an integrated two stage catalytic upgrading, which is capable of producing cost competitive biofuels, achieving by developed low cost, highly active and stable catalysts to obtain high carbon yield of targeted fuels, as well as on-site hydrogen supply.
Conversion of Lignocellulosic wastes to biofuels and Bioplastics
Development of crude bio oil upgrading strategies based on nanostractured catalysts
WP3.2: Enzymes4Fuels - Innovative enzyme technology for sustainable biofuels
More efficient processes for enzymatic saccharification of Nordic woody biomass that yield high quality sugar and lignin streams.
WP3.2: Foods of Norway
Increasing food production in Norway while minimizing environmental impact and value creation by developing sustainable feed ingredients from natural bioresources
WP3.2: OXYMOD - Optimized oxidative enzyme systems for efficient conversion of lignocellulose to valuable products
Define, develop and apply innovative enzyme systems that fully harness the potential of redox enzymes for efficient conversion of lignocellulose into valuable products
WP3.2: The Norwegian Seaweed Biorefinery Platform
A hub for research, knowledge, methodology and stakeholder networks.
The project aims at utilizing the unique potential of oleaginous fungi versatile metabolism and will develop a sustainable process for the conversion of a set of Norwegian agriculture supply chain by-products into high-value multifunctional biomass by fungal fermentation.
To develop a single fermentation process for co-production of high-value lipids and chitin/chitosanbiopolymers for agricultural applications as animal feed additive and plant biostimulant from sugar-richlignocellulose hydrolysates originating from forestry waste streams.
The project aims at developing a novel multicomponent microbial biomass as a salmon feed from Nordic woody feedstock. SAFE will develop a process for producing microbial biomass enriched with lipids, carotenoid pigments, and β-glucans.
The project aims at evaluating aquaculture sludge material as a substrate for fermentation and algae production. In the project a set of high-throughput screenings will be performed by utilising oleaginous microorganisms
WP4.1: BioSynGas - Next generation Biogas production through the Synergetic Integration of Gasification
Increasing carbon conversion to biomethane and reduce metal content in the nutrient fraction of the digestate for typical biogas plants
WP4.1: Improved energy efficiency of biomass gasification processes through new knowledge on mass, energy and momentum transfer at the particle level
Demonstrating a new type of modular small-scale energy recovery plant for environmentally friendly management of municipal waste through successive prototype construction and critical testing for achieving minimal emissions (EU requirements), optimal efficiency and good mechanical solutions.
WP4.2: GasPro - Gasification for biofuel production
Improved energy efficiency of biomass gasification processes through new knowledge on mass, energy and momentum transfer at the particle level
Predicting the FLow behaviour of ASH mixtures for production of transport biofuels in the circular economy
Reducing the price of biocarbon with a circular economy approach
Low Emission Centre: Carbon-free firing of thermal power cycles
Examining several strategies to deliver the ammonia into the combustion chamber of the ICE, how to best ignite the ammonia, including the use of liquid fuels, and improve combustion with hydrogen.