Prosjekter
Kontaktperson, prosjekter
Publikasjoner
- Demonstration of a 5-MWth Chemical Looping Combustion Unit Fueled by Lignite
- Generalization of Oberlack’s definition of the MILD combustion regime
- Pilot tests with waste and biomass in a 150 kW auto-thermal CLC unit (submitted article) Les publikasjonen
- Numerical Investigation of Premixed and Non-premixed Ammonia Main Charge Configurations Ignited by a Hydrogen-Fired Prechamber Les publikasjonen
- On the inaccuracies of point-particle approach for char conversion modeling Les publikasjonen
- Evaluation of CLC as a BECCS technology from tests on woody biomass in an auto-thermal 150-kW pilot unit Les publikasjonen
- Building the world's largest Chemical Looping Combustion (CLC) unit Les publikasjonen
- The effects of Stefan flow on the flow surrounding two closely spaced particles Les publikasjonen
- D3.4 Fuel conversion phenomena Les publikasjonen
- Three-dimensional unsteady numerical simulation of a 150 kWth full-loop chemical looping combustion pilot with biomass as fuel: A hydrodynamic investigation Les publikasjonen
Annen formidling
- Pilot tests with waste and biomass in a 150 kW auto-thermal CLC unit
- Numerical investigation of hydrogen- fired prechamber ignition of the ammonia main charge in reciprocating engines
- Large eddy simulations of diesel ignited ammonia dual fuel combustion
- CLC of waste-derived fuel and biomass in a 150-kW pilot unit
- Advanced Turbulent Combustion Physics and Applications
- Effect of wall boundary conditions on 3D hydrodynamic numerical simulation of a CLC unit with dual circulating fluidized-bed reactors
- Modelling of grate fired woody biomass and waste to energy plants - Status and further needs
- Validation of a numerical approach for simulation of the thermal decomposition behaviour of biomass in grate combustion plants
- A detailed experimental study on the thermal decomposition behaviour of wood pellets under inert and oxidative conditions in a fixed bed reactor
- Transient CFD simulations of wood stoves with varying heat storage capacity