Publikasjoner
- Simulation and optimization of fixed bed and moving bed TSA processes for post-combustion CO2 capture.
- Prospects of the Novel CSAR Concept for Fully Electric or Flexible Electric–Thermal Hybrid CO2 Capture from CHP Plants
- Energy assessments of onboard CO2 capture from ship engines by MEA-based post combustion capture system with flue gas heat integration Les publikasjonen
- Numerical approach for generic three‐phase flow based on cut‐cell and ghost fluid methods Les publikasjonen
- The effect of chordae tendineae on systolic flow Les publikasjonen
- Development of an algorithm to detect hydraulic jacking in high pressure rock mass grouting and introduction of the PF index Les publikasjonen
- Economic assessment of chemical looping oxygen production and chemical looping combustion in integrated gasification combined cycles
- Velocity profiles in a 2D model of the left ventricular outflow tract, pathological case study using PIV and CFD modeling Les publikasjonen
- Thermodynamic assessment of the swing adsorption reactor cluster (SARC) concept for post-combustion CO2 capture
- Mass transfer between bubbles and seawater Les publikasjonen
Annen formidling
- Performance of Lewatit adsorbent at dry conditions in various contactor/regeneration environments in a NGCC context; a comparative study
- Onboard CO2 Capture From Ship Engines
- Beslutningsstøtte for behandlingsplanlegging av hjertesykdom basert på pasient-spesifikke strømningssimulering i hjertet
- SINTEF Webinar "Bridging the gap between the lab and the field- Session2: Hydrate Management"
- A breakthrough in IGCC efficiency with CO2 capture (COMPOSITE)
- Techno economics of the IGCC based COMPOSITE Process
- COMPOSITE Process: Highly efficient IGCC power generation with CO2 capture by integration of CLAS and CLC
- A Multi-Domain 1D Particle-Reactor Model For Packed Bed Reactor Applications
- COMPOSITE A breackthrough in IGCC efficiency with CO2 capture
- A Novel Swing Adsorption Reactor Cluster (SARC) for cost effective post-combustion CO2 capture: A thermodynamic assessment.