325) Hanning,
M., Possibilities and Challenges of Using Combined Manganese
Oxides as Oxygen Carriers, PhD Thesis,
Dept. of Space, Earth and Environment, Division of Energy
Conversion, Chalmers University of Technology, Göteborg,
Sweden 2018
The complete thesis includes a 50-page
"kappa" (click to download), followed by the papers I-VI:
Paper I
Källén M, Rydén M, Dueso C, Mattisson T, Lyngfelt A.
CaMn0.9Mg0.1O3-δ as Oxygen
Carrier in a Gas-Fired 10 kWth Chemical-Looping
Combustion Unit.
Industrial & Engineering Chemistry Research. 2013.
52:6923-32.
Paper II
Hallberg P, Hanning M, Rydén M, Mattisson T, Lyngfelt A.
Investigation of a calcium manganite as oxygen carrier during 99
h of operation of chemical-looping combustion in a 10 kWth
reactor unit.
International Journal of Greenhouse Gas Control. 2016.
53:222-9.
Paper III
Källén M, Hallberg P, Rydén M, Mattisson T, Lyngfelt A.
Combined oxides of iron, manganese and silica as oxygen carriers
for chemical-looping combustion.
Fuel Processing Technology. 2014. 124:87-96.
Paper IV
Källén M, Rydén M, Lyngfelt A, Mattisson T.
Chemical-looping combustion using combined
iron/manganese/silicon oxygen carriers.
Applied Energy. 2015. 157:330-337.
Paper V
Hanning M, Frick V, Mattisson T, Rydén M, Lyngfelt A.
Performance of Combined Manganese-Silicon Oxygen Carriers and
Effects of Including Titanium.
Energy and Fuels. 2016. 30:1171-82.
Paper VI
Hanning M, Corcoran A, Lind F, Rydén M.
Biomass Ash Interactions with a Manganese Ore Used as
Oxygen-Carrying Bed Material in a 12 MWth CFB Boiler.
Submitted for publication.