Magnus Korpås
Magnus Korpås
Professor, Electric Power Engineering, Norw. Univ. of Science and Technology (NTNU)
Verified email at - Homepage
Cited by
Cited by
Operation and sizing of energy storage for wind power plants in a market system
M Korpaas, AT Holen, R Hildrum
International Journal of Electrical Power & Energy Systems 25 (8), 599-606, 2003
Operation planning of hydrogen storage connected to wind power operating in a power market
M Korpas, AT Holen
IEEE transactions on energy conversion 21 (3), 742-749, 2006
A Norwegian case study on the production of hydrogen from wind power
CJ Greiner, M KorpÅs, AT Holen
International Journal of Hydrogen Energy 32 (10-11), 1500-1507, 2007
Opportunities for hydrogen production in connection with wind power in weak grids
M Korpås, CJ Greiner
Renewable Energy 33 (6), 1199-1208, 2008
Long-term electricity load forecasting: Current and future trends
KB Lindberg, P Seljom, H Madsen, D Fischer, M Korpås
Utilities Policy 58, 102-119, 2019
Variability characteristics of European wind and solar power resources—A review
I Graabak, M Korpås
Energies 9 (6), 449, 2016
Methodology for optimal energy system design of Zero Energy Buildings using mixed-integer linear programming
KB Lindberg, G Doorman, D Fischer, M Korpås, A Ånestad, I Sartori
Energy and Buildings 127, 194-205, 2016
A case-study on offshore wind power supply to oil and gas rigs
M Korpås, L Warland, W He, JOG Tande
Energy Procedia 24, 18-26, 2012
Energy storage scheduling in distribution systems considering wind and photovoltaic generation uncertainties
IB Sperstad, M Korpås
Energies 12 (7), 1231, 2019
Power system decarbonization: Impacts of energy storage duration and interannual renewables variability
M Jafari, M Korpås, A Botterud
Renewable Energy 156, 1171-1185, 2020
A stochastic dynamic model for optimal timing of investments in new generation capacity in restructured power systems
A Botterud, M Korpås
International Journal of Electrical Power & Energy Systems 29 (2), 163-174, 2007
System impact studies for near 100% renewable energy systems dominated by inverter based variable generation
H Holttinen, J Kiviluoma, D Flynn, JC Smith, A Orths, PB Eriksen, ...
IEEE Transactions on Power Systems 37 (4), 3249-3258, 2020
The potential of integrating wind power with offshore oil and gas platforms
W He, G Jacobsen, T Anderson, F Olsen, TD Hanson, M Korpås, ...
Wind Engineering 34 (2), 125-137, 2010
Distributed energy systems with wind power and energy storage
M Korpås
Addressing technical challenges in 100% variable inverter‐based renewable energy power systems
BMS Hodge, H Jain, C Brancucci, GS Seo, M Korpås, J Kiviluoma, ...
Wiley Interdisciplinary Reviews: Energy and Environment 9 (5), e376, 2020
Impact of local electricity markets and peer-to-peer trading on low-voltage grid operations
MF Dynge, PC del Granado, N Hashemipour, M Korpås
Applied Energy 301, 117404, 2021
Review of wind generation within adequacy calculations and capacity markets for different power systems
L Söder, E Tómasson, A Estanqueiro, D Flynn, BM Hodge, J Kiviluoma, ...
Renewable and Sustainable Energy Reviews 119, 109540, 2020
Robust planning of distributed battery energy storage systems in flexible smart distribution networks: A comprehensive study
SA Bozorgavari, J Aghaei, S Pirouzi, A Nikoobakht, H Farahmand, ...
Renewable and Sustainable Energy Reviews 123, 109739, 2020
Distributed control scheme for residential battery energy storage units coupled with PV systems
I Ranaweera, OM Midtgård, M Korpås
Renewable Energy 113, 1099-1110, 2017
Optimal partitioning of smart distribution systems into supply-sufficient microgrids
M Barani, J Aghaei, MA Akbari, T Niknam, H Farahmand, M Korpås
IEEE Transactions on Smart Grid 10 (3), 2523-2533, 2018
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