Publikasjoner
- Modelling of Biomass-to-X: Challenges and Strategies
- From laboratory scale to innovative spruce-based biorefinery. Note II: Preliminary techno-economic assessment
- From laboratory scale to innovative spruce-based biorefinery. Note I: Conceptual process design and simulation
- HS3 as a novel solvent for carbon capture: Model validation and an industrial case study with comparison against 30 wt% MEA
- An approach for VLE model development, validation, and implementation in Aspen Plus for amine blends in CO2 capture: the HS3 solvent case study
- Soft modelling of spruce conversion into bio-oil through pyrolysis – Note I: steam explosion and LPMO-activated enzymatic saccharification
- Soft modelling of spruce conversion into bio-oil through pyrolysis – Note II: pyrolysis.
Annen formidling
- Equivalent CO2 emissions assessment of an integrated biorefinery
- CO2 Capture From An Integrated Biorefinery: A Carbon-Negative Path
- Process design and environmental assessment of an integrated biorefinery for Bioethanol and Bio-Oil production
- From laboratory scale to innovative spruce-based biorefinery. Note I: Conceptual process design and simulation
- From laboratory scale to innovative spruce-based biorefinery. Note II: Preliminary techno-economic Assessment
- Modelling of Biomass-to-X: Challenges and Strategies.
- From laboratory scale to innovative spruce-based biorefinery. Note II: Preliminary techno-economic assessment
- From laboratory scale to innovative spruce-based biorefinery. Note I: Conceptual process design and simulation
