RT Journal Article
A1 Tianyu Shi
A1 Libao Shi
A1 Liangzhong Yao

PB iet
T1 Detailed modelling and simulations of an all-DC PMSG-based offshore wind farm
JN The Journal of Engineering
VO 2019
IS 16
SP 845
OP 849
AB A detailed modelling method and corresponding simulations for an all-DC offshore wind farm equipped with a permanent magnet synchronous generator (PMSG) are elaborately discussed and conducted. This all-DC wind farm is designed in series-connected topology with an offshore DC substation and a voltage-sourced converter−high-voltage direct current (VSC-HVDC) transmission system. Some major components including wind turbine, synchronous generator, VSC, and isolated full bridge converter are all modelled based on the complete electrical models and engineering parameter settings. Containing the start process of the system, the simulations under various wind speed conditions and the specific faults analysis under different situations are carried out in the MATLAB/SimulinkTM environment. Simulation results reveal the comprehensive operating characteristics of this all-DC offshore wind farm and its system response to faults.
K1 isolated full bridge converter
K1 complete electrical models
K1 detailed modelling method
K1 Simulink
K1 wind speed conditions
K1 permanent magnet synchronous generator
K1 VSC-HVDC transmission system
K1 simulation results
K1 all-DC PMSG-based offshore wind farm
K1 offshore DC substation
K1 engineering parameter settings
K1 wind turbine
K1 MATLAB
K1 voltage-sourced converter-high-voltage direct current transmission system
DO https://doi.org/10.1049/joe.2018.8403
UL https://digital-library.theiet.org/;jsessionid=cgl492pg5cqx.x-iet-live-01content/journals/10.1049/joe.2018.8403
LA English
SN
YR 2019
OL EN