Dynamic wind turbine models in power system simulation tool DIgSILENT AD Hansen, F Iov, PE Sørensen, NA Cutululis, C Jauch, F Blaabjerg Danmarks Tekniske Universitet, Risø Nationallaboratoriet for Bæredygtig Energi, 2007 | 452 | 2007 |
International comparison of requirements for connection of wind turbines to power systems C Jauch, J Matevosyan, T Ackermann, S Bolik Wind energy 8 (3), 295-306, 2005 | 258 | 2005 |
Simulation of the impact of wind power on the transient fault behavior of the Nordic power system C Jauch, P Sørensen, I Norheim, C Rasmussen Electric power systems Research 77 (2), 135-144, 2007 | 109 | 2007 |
Design of a wind turbine pitch angle controller for power system stabilisation C Jauch, SM Islam, P Sørensen, BB Jensen Renewable energy 32 (14), 2334-2349, 2007 | 96 | 2007 |
International review of grid connection requirements for wind turbines C Jauch, P Sørensen, B Bak-Jensen | 80 | 2004 |
Design of a system substituting today’s inherent inertia in the European continental synchronous area H Thiesen, C Jauch, A Gloe Energies 9 (8), 582, 2016 | 74 | 2016 |
A fuzzy logic pitch angle controller for power system stabilization C Jauch, T Cronin, P Sørensen, BB Jensen Wind Energy: An International Journal for Progress and Applications in Wind …, 2007 | 70 | 2007 |
Transient and dynamic control of a variable speed wind turbine with synchronous generator C Jauch Wind Energy: An International Journal for Progress and Applications in Wind …, 2007 | 54 | 2007 |
Stability and control of wind farms in power systems C Jauch Risø National Laboratory, 2006 | 54 | 2006 |
Simulation model of an active-stall fixed-speed wind turbine controller C Jauch, AD Hansen, P Sørensen, F Blaabjerg Wind Engineering 28 (2), 177-195, 2004 | 48 | 2004 |
Continuous provision of synthetic inertia with wind turbines: implications for the wind turbine and for the grid A Gloe, C Jauch, B Craciun, J Winkelmann IET Renewable Power Generation 13 (5), 668-675, 2019 | 44 | 2019 |
Hydraulic–pneumatic flywheel system in a wind turbine rotor for inertia control C Jauch, S Hippel IET Renewable Power Generation 10 (1), 33-41, 2016 | 39 | 2016 |
Investigation of laminar–turbulent transition on a rotating wind-turbine blade of multimegawatt class with thermography and microphone array T Reichstein, AP Schaffarczyk, C Dollinger, N Balaresque, E Schülein, ... Energies 12 (11), 2102, 2019 | 36 | 2019 |
A flywheel in a wind turbine rotor for inertia control C Jauch Wind Energy 18 (9), 1645-1656, 2015 | 33 | 2015 |
Advanced tools for modeling, design and optimization of wind turbine systems I Florin, HA Daniela, J Clemens, S Poul, B Frede Journal of Power Electronics 5 (2), 83-98, 2005 | 30 | 2005 |
Determining the load inertia contribution from different power consumer groups H Thiesen, C Jauch Energies 13 (7), 1588, 2020 | 27 | 2020 |
Simulation model of a transient fault controller for an active-stall wind turbine C Jauch, P Sørensen, BB Jensen Wind Engineering 29 (1), 33-47, 2005 | 16 | 2005 |
Controls of a flywheel in a wind turbine rotor C Jauch Wind Engineering 40 (2), 173-185, 2016 | 15 | 2016 |
Grid support with wind turbines: the case of the 2019 blackout in Flensburg A Gloe, C Jauch, T Räther Energies 14 (6), 1697, 2021 | 14 | 2021 |
Hydraulic-pneumatic flywheel configurations for controlling the inertia of a wind turbine rotor S Hippel, C Jauch, U Ritschel Wind Engineering 43 (2), 114-132, 2019 | 10 | 2019 |