
- Enhet:
- SINTEF Energi AS
- Avdeling:
- Termisk energi
- Kontorsted:
- Trondheim
Dr. Øyvind Skreiberg is Chief Scientist of Stationary Bioenergy at SINTEF in Trondheim, Norway and holds a doctoral degree in thermal conversion of biomass from the Norwegian University of Science and Technology (NTNU) in Trondheim. He has 30 years' experience in the field and has worked and published on a number of bioenergy topics. He is active in international networks as IEA Bioenergy, EERA Bioenergy and RHC-ETIP as well as biocarbon/biochar networks.
Utdanning
1997 Dr.ing., Thermal Energy, Norwegian University of Science and Technology (NTNU)
1992 M.Sc., Thermal Energy, Norwegian Institute of Technology (NTH)
1990 B.Sc., Mechanical Engineering, Østfold Polytechnic School
Kompetanse og fagområder
Present research activities and fields of interest:
- Fundamentals of thermochemical conversion processes
- Fundamental and applied experimental work
- Biomass heat and power
- Small-scale combustion units; Stoves for low-energy houses
- Emissions from combustion
- Chemical kinetics, with special focus on fuel-NOx
- Torrefaction (dry and wet)
- Pyrolysis and carbonization (for fuel, reductant and alternative uses)
- Techno-economics, value chains, sustainability
- Renewable heating and cooling
Fremhevede publikasjoner
- Numerical models for thermochemical degradation of thermally thick woody biomass, and their application in domestic wood heating appliances and grate furnaces
- Upgrading biomass fuels via wet torrefaction: A review and comparison with dry torrefaction
- A critical review on additives to reduce ash related operation problems in biomass combustion applications
- TGA and macro-TGA characterisation of biomass fuels and fuel mixtures
- Ammonia chemistry below 1400 K under fuel-rich conditions in a flow reactor
Prosjekter
- SusWoodStoves - Bærekraftige vedovner gjennom ovn, bygningsintegrasjon og verdikjede optimalisering
- BioCarbUp - Optimalisering av biokarbon verdikjeden for en bærekraftig metallurgisk industri
- Arbaheat
- GrateCFD
- WoodCFD
- BioCarb+ – Realisering av biokarbon verdikjeden for energiformål
- StableWood
- STOP
- KRAV = KRAft + Varme - for kombinert kraft- og varmeproduksjon fra biomasse
- aCOM
Ekspertise
Øvrige publikasjoner
- Effect of calcination temperature and time on properties of steam exploded pellets
- Investigation of the properties and reactivity of biocarbons at high temperature in mixture of CO/CO2
- A critical review and discussion on emission factors for wood stoves
- Bed Model for Grate-Fired Furnaces: Computational Fluid Dynamics Modeling and Comparison to Experiments
- Investigation of the properties and reactivity of biocarbon at high temperature in mixture of CO/CO2
- A comparative study on the effect of slow pyrolysis temperature on softwood and hardwood pyrolysis products yields and biochar properties
- Biokull i tråd med bærekraft
- Nye utslippskrav for vedovner fra 2022
- Dagens rentbrennende ildsteder er mye mer effektive enn de gamle
- Bio-Binders and its Carbonization and Interaction with Petroleum Coke during Baking