PUBLICATIONS
- B. Andresen et al., Energy Procedia 63 (2014) 279 – 285; BioZEG – pilotplant demonstration of high efficiency carbon negative energy production
- J. Meyer et al., Energy Procedia 63 (2014) 6800 – 6814; Sustainable Hydrogen Production from Biogas Using Sorption-Enhanced Reforming
- Ulleberg Ø, Meyer J., Eriksen J., Norheim A.,Gjerløw J.C. (2014); Hynor Lillestrøm – A Renewable Hydrogen Station & Technology Test Center
- A. Norheim et al., 11th European SOFC and SOE Forum 2014; BioZEG – Highly Efficient Standalone Green Production of Hydrogen and Electricity
- J. Meyer et al., Energy Procedia 4 (2011) 1949-1956; Techno-economical study of the Zero Emission Gas power concept
- J. Mastin et al., Energy Procedia 4 (2011) 1184 – 1191; New synthesis method for CaO-based synthetic sorbents with enhanced properties for high-temperature CO2-capture
- Johnsen, K. , Grace, J.R, Powder technology, Vol. 173 (2007), 200-202 High-temperature attrition of sorbents and a catalyst for sorption-enhanced steam methane reforming in a fluidized bed environment
- Johnsen, K. , Grace, J.R. , Elnashaie, S.S.E.H , Kolbeinsen, L. , Eriksen, D. Industrial and engineering chemistry research, Vol. 45, no. 12 (7 June 2006), 4133-4144; Modeling of sorption-enhanced steam reforming in a dual fluidized bubbling bed reactor
- Johnsen, K. Trondheim : Norwegian University of Science and Technology (NTNU), 2006, Thesis. Sorption-enhanced steam methane reforming in fluidized bed reactors
- Johnsen, K. , Ryu, H.J. , Grace, J.R. , Lim, C.J. Chemical engineering science, Vol. 61, no. 4 (Feb 2006), 1195-1202; Sorption-enhanced steam reforming of methane in a fluidized bed reactor with dolomite as CO2-acceptor