Publikasjoner
- Effect of nickle on cerium oxide support to develop cyclic catalytic methane decomposition followed by CO2 gasification
- Effect of Ni/SiO2 catalyst preparation method on methane decomposition and CO2 gasification cycles Les publikasjonen
- 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
- Green and recyclable mesoporous silica supported WO3–ZrO2 solid acid catalyst for biodiesel production by transesterification of Ankol seed oil with methanol
- Developing the next generation of renewable energy technologies: an overview of low-TRL EU-funded research projects
- Preparation of aromatic hydrocarbons from catalytic pyrolysis of digestate
- Upgradation of Eugenol to ASTM D 1655 standard Bio-Jet(A) fuel range hydrocarbons via hydrodeoxygenation process over Ru-Ni supported KIT-6/HZSM-5
- 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
- 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
- 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
- Electrochemical Depolymerisation of Kraft Lignin in Black Liquor
- EFFECTS OF ELECTROLYTE COMPOSITION AND ELECTRODE MATERIAL ON DIRECT ELECTROCHEMICAL LIGNIN DEPOLYMERIZATION
- Scale up of electrochemical lignin depolymerization
- Electrocatalytic valorisation of industrial black liquor
- 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 modelling