Matej Krpan
Matej Krpan
HVDC System Performance Engineer, Hitachi Energy
Verified email at - Homepage
Cited by
Cited by
Introducing low‐order system frequency response modelling of a future power system with high penetration of wind power plants with frequency support capabilities
M Krpan, I Kuzle
IET Renewable Power Generation 12 (13), 1453-1461, 2018
Vibro-acoustic methods in the condition assessment of power transformers: A survey
A Secic, M Krpan, I Kuzle
IEEE Access 7, 83915-83931, 2019
Dynamic characteristics of virtual inertial response provision by DFIG-based wind turbines
M Krpan, I Kuzle
Electric Power Systems Research 178, 106005, 2020
Impact of wind capacity share, allocation of inertia and grid configuration on transient RoCoF: The case of the Croatian power system
J Đaković, M Krpan, P Ilak, T Baškarad, I Kuzle
International journal of electrical power & energy systems 121, 106075, 2020
Challenges of high renewable energy sources integration in power systems—the case of croatia
N Holjevac, T Baškarad, J Đaković, M Krpan, M Zidar, I Kuzle
Energies 14 (4), 1047, 2021
Modeling and initialization of a virtual synchronous machine for power system fundamental frequency simulations
B Barać, M Krpan, T Capuder, I Kuzle
IEEE Access 9, 160116-160134, 2021
Modelling of Supercapacitor Banks for Power System Dynamics Studies
M Krpan, I Kuzle, A Radovanović, JV Milanović
IEEE Transactions on Power Systems 36 (5), 3987-3996, 2021
Inertial and primary frequency response model of variable‐speed wind turbines
M Krpan, I Kuzle
The Journal of Engineering 2017 (13), 844-848, 2017
Detailed mathematical and simulation model of a synchronous generator
M Brezovec, I Kuzle, M Krpan
Journal of Energy: Energija 64 (1-4), 0-0, 2015
Linearized model of variable speed wind turbines for studying power system frequency changes
M Krpan, I Kuzle
IEEE EUROCON 2017-17th International Conference on Smart Technologies, 393-398, 2017
Towards the new low-order system frequency response model of power systems with high penetration of variable-speed wind turbine generators
M Krpan, I Kuzle
2018 IEEE Power & Energy Society General Meeting (PESGM), 1-5, 2018
The mathematical model of a wind power plant and a gas power plant
M Krpan, I Kuzle
Journal of Energy 66, 69-86, 2017
Analysis and treatment of power oscillations in hydropower plant Dubrava
M Brezovec, I Kuzle, M Krpan, N Holjevac
IET Renewable Power Generation 14 (1), 80-89, 2020
A model predictive control approach to operation optimization of an ultracapacitor bank for frequency control
M Beus, M Krpan, I Kuzle, H Pandžić, A Parisio
IEEE Transactions on Energy Conversion 36 (3), 1743-1755, 2021
Multi-energy microgrid ability to provide flexibility services to the system operator and security of supply to end-users
T Capuder, M Kostelac, M Krpan, I Pavić
2020 International Conference on Smart Energy Systems and Technologies (SEST …, 2020
Coordinated control of an ultracapacitor bank and a variable-speed wind turbine generator for inertial response provision during low and above rated wind speeds
M Krpan, I Kuzle
2019 IEEE Sustainable Power and Energy Conference (iSPEC), 1693-1698, 2019
Improved dynamic model of a bulb turbine-generator for analysing oscillations caused by mechanical torque disturbance on a runner blade
M Brezovec, I Kuzle, M Krpan, N Holjevac
International Journal of Electrical Power & Energy Systems 119, 105929, 2020
Using deep neural networks for on-load tap changer audio-based diagnostics
A Secic, M Krpan, I Kuzle
IEEE Transactions on Power Delivery 37 (4), 3038-3050, 2021
Effectiveness of wind turbine fast frequency response control on electrically distanced active power disturbance mitigation
J Dakovic, P Ilak, T Baskarad, M Krpan, I Kuzle
IET Digital Library, 2018
Department of Energy and Power Systems—80 years of success in science, teaching and cooperation with industry
I Kuzle
Journal of Energy 64 (1), 3-28, 2015
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