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Øyvind Skreiberg
Øyvind Skreiberg
Chief Scientist, SINTEF
Verified email at sintef.no - Homepage
Title
Cited by
Cited by
Year
The handbook of biomass combustion and co-firing
J Koppejan, S Van Loo
Routledge, 2008
2522*2008
The pellet handbook: the production and thermal utilisation of pellets
I Obernberger, G Thek
Routledge, 2010
616*2010
Upgrading biomass fuels via wet torrefaction: A review and comparison with dry torrefaction
QV Bach, Ø Skreiberg
Renewable and Sustainable Energy Reviews 54, 665-677, 2016
4392016
A critical review on additives to reduce ash related operation problems in biomass combustion applications
L Wang, JE Hustad, Ø Skreiberg, G Skjevrak, M Grønli
Energy Procedia 20, 20-29, 2012
3742012
Ammonia chemistry below 1400 K under fuel-rich conditions in a flow reactor
Ø Skreiberg, P Kilpinen, P Glarborg
Combustion and Flame 136 (4), 501-518, 2004
3262004
TGA and macro-TGA characterisation of biomass fuels and fuel mixtures
A Skreiberg, Ø Skreiberg, J Sandquist, L Sørum
Fuel 90 (6), 2182-2197, 2011
2692011
NOx and N2O Precursors (NH3 and HCN) in Pyrolysis of Biomass Residues
M Becidan, Ø Skreiberg, JE Hustad
Energy & Fuels 21 (2), 1173-1180, 2007
2092007
Comparative assessment of wet torrefaction
QV Bach, KQ Tran, RA Khalil, Ø Skreiberg, G Seisenbaeva
Energy & Fuels 27 (11), 6743-6753, 2013
1992013
Products distribution and gas release in pyrolysis of thermally thick biomass residues samples
M Becidan, Ø Skreiberg, JE Hustad
Journal of Analytical and Applied Pyrolysis 78 (1), 207-213, 2007
1872007
Effect of torrefaction on physiochemical characteristics and grindability of stem wood, stump and bark
L Wang, E Barta-Rajnai, Ø Skreiberg, R Khalil, Z Czégény, E Jakab, ...
Applied Energy 227, 137-148, 2018
1752018
Predictions of biochar yield and elemental composition during torrefaction of forest residues
QV Bach, WH Chen, YS Chu, Ø Skreiberg
Bioresource technology 215, 239-246, 2016
1302016
Effect of excess air ratio and temperature on NOx emission from grate combustion of biomass in the staged air combustion scenario
E Houshfar, Ø Skreiberg, T Løvås, D Todorović, L Sørum
Energy & Fuels 25 (10), 4643-4654, 2011
1282011
A critical review on production, modification and utilization of biochar
Y Xie, L Wang, H Li, LJ Westholm, L Carvalho, E Thorin, Z Yu, X Yu, ...
Journal of Analytical and Applied Pyrolysis 161, 105405, 2022
1272022
Effects of wet torrefaction on pyrolysis of woody biomass fuels
QV Bach, KQ Tran, Ø Skreiberg, TT Trinh
Energy 88, 443-456, 2015
1272015
Numerical models for thermochemical degradation of thermally thick woody biomass, and their application in domestic wood heating appliances and grate furnaces
I Haberle, Ø Skreiberg, J Łazar, NEL Haugen
Progress in Energy and Combustion Science 63, 204-252, 2017
1222017
A comparison of low-NOx burners for combustion of methane and hydrogen mixtures
GJ Rørtveit, K Zepter, Ø Skreiberg, M Fossum, JE Hustad
Proceedings of the Combustion Institute 29 (1), 1123-1129, 2002
1212002
Torrefaction of Norwegian birch and spruce: an experimental study using macro-TGA
D Tapasvi, R Khalil, Ø Skreiberg, KQ Tran, M Grønli
Energy & Fuels 26 (8), 5232-5240, 2012
1152012
NOx emission reduction by staged combustion in grate combustion of biomass fuels and fuel mixtures
E Houshfar, Ø Skreiberg, D Todorović, A Skreiberg, T Løvås, A Jovović, ...
Fuel 98, 29-40, 2012
1112012
Thermal decomposition of biomass wastes. A kinetic study
M Becidan, G Várhegyi, JE Hustad, Ø Skreiberg
Industrial & engineering chemistry research 46 (8), 2428-2437, 2007
1092007
Effects of wet torrefaction on reactivity and kinetics of wood under air combustion conditions
QV Bach, KQ Tran, Ø Skreiberg, RA Khalil, AN Phan
Fuel 137, 375-383, 2014
1052014
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