Olav Bolland
TítuloCitado porAño
High-temperature membranes in power generation with CO2 capture
R Bredesen, K Jordal, O Bolland
Chemical Engineering and Processing: Process Intensification 43 (9), 1129-1158, 2004
A quantitative comparison of gas turbine cycles with CO2 capture
HM Kvamsdal, K Jordal, O Bolland
Energy 32 (1), 10-24, 2007
Working fluids for low-temperature heat source
AA Lakew, O Bolland
Applied Thermal Engineering 30 (10), 1262-1268, 2010
Control strategy for a solid oxide fuel cell and gas turbine hybrid system
C Stiller, B Thorud, O Bolland, R Kandepu, L Imsland
Journal of power sources 158 (1), 303-315, 2006
Comparison of two CO2 removal options in combined cycle power plants
O Bolland, P Mathieu
Energy Conversion and Management 39 (16-18), 1653-1663, 1998
Exergy analysis of a gas-turbine combined-cycle power plant with precombustion CO2 capture
IS Ertesvåg, HM Kvamsdal, O Bolland
Energy 30 (1), 5-39, 2005
A novel methodology for comparing CO2 capture options for natural gas-fired combined cycle plants
O Bolland, H Undrum
Advances in Environmental Research 7 (4), 901-911, 2003
Method for removing carbon dioxide from exhaust gases
Y Bjerve, O Falk-Pedersen, G Glittum, O Bolland
US Patent 5,832,712, 1998
Modeling and control of a SOFC-GT-based autonomous power system
R Kandepu, L Imsland, BA Foss, C Stiller, B Thorud, O Bolland
Energy 32 (4), 406-417, 2007
Inherent Capture Using Chemical Looping Combustion in a Natural Gas Fired Power Cycle
O Brandvoll, O Bolland
J. Eng. Gas Turbines Power 126 (2), 316-321, 2004
Finite-volume modeling and hybrid-cycle performance of planar and tubular solid oxide fuel cells
C Stiller, B Thorud, S Seljebø, Ø Mathisen, H Karoliussen, O Bolland
Journal of power sources 141 (2), 227-240, 2005
Power generation with CO2 capture: Technology for CO2 purification
G Pipitone, O Bolland
International journal of greenhouse gas control 3 (5), 528-534, 2009
Modeling of thermal stresses and probability of survival of tubular SOFC
A Nakajo, C Stiller, G Härkegård, O Bolland
Journal of Power Sources 158 (1), 287-294, 2006
New concepts for natural gas fired power plants which simplify the recovery of carbon dioxide
O Bolland, S Saether
Energy Conversion and Management 33 (5-8), 467-475, 1992
Comparative evaluation of combined cycles and gas turbine systems with water injection, steam injection, and recuperation
O Bolland, JF Stadaas
Direct air capture of CO2 with chemicals: a technology assessment for the APS Panel on Public Affairs
R Socolow, M Desmond, R Aines, J Blackstock, O Bolland, T Kaarsberg, ...
American Physical Society, 2011
Removal of CO {sub 2} from gas turbine power plants: evaluation of pre-and postcombustion methods
O Bolland, H Undrum
Worst case scenario study to assess the environmental impact of amine emissions from a CO2 capture plant
M Karl, RF Wright, TF Berglen, B Denby
International Journal of Greenhouse Gas Control 5 (3), 439-447, 2011
Comparison of solvents for post-combustion capture of CO2 by chemical absorption
A Kothandaraman, L Nord, O Bolland, HJ Herzog, GJ McRae
Energy Procedia 1 (1), 1373-1380, 2009
Investigation of Physical Properties for CO2/H2O Mixtures for use in Semi-Closed O2/CO2 Gas Turbine Cycle With CO2-Capture
RE Ulfsnes, G Karlsen, K Jordal, O Bolland, HM Kvamsdal
Department of Energy and Process Eng., Norwegian Univ. of Science and …, 2003
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