Prosjekter
Kontaktperson, prosjekter
Publikasjoner
- Pilot tests with waste and biomass in a 150 kW auto-thermal CLC unit (submitted article)
- Experimental study on the effect of pressure on single and two stage combustion of decomposed ammonia (NH3-H2-N2) blends over a swirl stabilized burner Les publikasjonen
- Corrosion performance of different alloys exposed to HTL conditions—A screening study Les publikasjonen
- Sub-Supercritical Hydrothermal Liquefaction of Lignocellulose and Protein-Containing Biomass Les publikasjonen
- Corrosion performance of different alloys exposed to HTL conditions - A screening study
- Enhanced Combustion by Photo Ignition of Carbon Nanotubes in a Constant Volume Chamber
- Experimental and Numerical Results of a Non-DLE Aeroderivative GT Combustion System Burning Methane-Ammonia Blends at Intermediate Pressures
- Evaluation of CLC as a BECCS technology from tests on woody biomass in an auto-thermal 150-kW pilot unit Les publikasjonen
- D3.4 Fuel conversion phenomena
- Experimental Study on Combustion of Methane / Ammonia Blends for Gas Turbine Application
Annen formidling
- Pilot tests with waste and biomass in a 150 kW auto-thermal CLC unit
- STUDY OF HYDROGEN-OXYGEN FLAMES FOR MELTING FURNACES
- Experimental Investigation of the Diffusion Flame Performance of an Oxy-fuel Burner with Direct Front Nozzle Water to Flame Zone Injection
- CLC as a BECCS technology – Testing waste and biomass in a 150 kW pilot
- Corrosion performance of different alloys exposed to HTL conditions – a screening study
- CLC of waste-derived fuel and biomass in a 150-kW pilot unit
- Materials Selection and Testing Corrosion Results at SINTEF
- Effect of wall boundary conditions on 3D hydrodynamic numerical simulation of a CLC unit with dual circulating fluidized-bed reactors
- Partial decarbonization of Johan Castberg by ammonia addition in fuel. Effect of adding ammonia to fuel in an industrial gas turbine.
- Chemical looping combustion of methane using a copper-based oxygen carrier in a 150 kW reactor system