930 02 214
- Unit:
- SINTEF Industry
- Department:
- Process Technology
- Office:
- Trondheim
Employs a background in multiphase, reactive fluid dynamics to develop the next generation of reactor technologies for enabling more sustainable chemical, energy and metallurgical processes.
Education
PhD from the Department of Energy and Process Technology, NTNU, Norway on developing multiscale computational fluid dynamics models for industrial-scale fluidized bed reactor simulations.
Master of Engineering from the Department of Chemical Engineering, Stellenbosch University, South Africa on physical and numerical modelling of a steelmaking tundish
Competence and research areas
Computational fluid dynamics
Multiphase flow
Reactor design
Carbon capture
Fluidization
Highlighted publications
- Development and verification of anisotropic drag closures for filtered Two Fluid Models
- Simulation-Based Design and Economic Evaluation of a Novel Internally Circulating Fluidized Bed Reactor for Power Production with Integrated CO2 Capture
- Efficient hydrogen production with CO2 capture using gas switching reforming
- Techno-Economic assessment of natural gas pyrolysis in molten salts
- Development and verification of anisotropic solids stress closures for filtered Two Fluid Models
Expertise
Other publications
- Gas switching technology: Economic attractiveness for chemical looping applications and scale up experience to 50 kWth
- Energy-Intensive Industry as a Practical and Cost-Effective Vector for Blue Hydrogen Exports – A Norwegian Case Study
- Energy-intensive Industry as a Practical and Cost-effective Vector for Blue Hydrogen Exports - A Norwegian Case Study
- Exergy Analysis of Gas Switching Chemical Looping IGCC Plants
- CFD Simulations of an Additional H2 Combustor for Improving Efficiency in Chemical Looping Combustion Power Plants
- Proceedings from the 14th International Conference on CFD in Oil & Gas, Metallurgical and Process Industries, SINTEF, Trondheim, Norway, October 12–14, 2020
- An opensource tool for filtered two-fluid simulations of fluidized gas-particle flows
- Assessing the generality of a computational fluid dynamics model for simulating the flame spray synthesis of ZrO2 nanoparticles
- Assessment of the generality of computational fluid dynamics models for simulating flame spray synthesis of nanoparticles
- Integration of gas switching combustion in a humid air turbine cycle for flexible power production from solid fuels with near‐zero emissions of CO2 and other pollutants