Title :
Inertial Response From Offshore Wind Farms Connected Through DC Grids
Author :
Martinez Sanz, Inmaculada ; Chaudhuri, Balarko ; Strbac, Goran
Author_Institution :
Dept. of Electr. & Electron. Eng., Imperial Coll. London, London, UK
Abstract :
Inertial response from remote offshore wind farms (WFs) connected through point-to-point DC links relies on emulation of the onshore AC system frequency variation at each offshore wind turbine generator (WTG). This is not straightforward for a DC grid interconnecting WFs to multiple onshore AC systems. To address this problem, this paper builds up on a communication-less approach previously reported for provision of frequency services from offshore WFs connected through a DC grid. A weighted frequency scheme is adopted which relies on the fiber optic link embedded within the sub-sea cables for fast communication of onshore frequency variations up to the offshore converters. The effectiveness of the proposed approach is shown analytically and also through a case study on a 4-terminal DC grid interconnecting an offshore wind farm and two onshore AC systems.
Keywords :
DC-AC power convertors; offshore installations; power cables; power grids; wind power plants; wind turbines; 4-terminal DC grid; WTG; communication-less approach; dc grids; frequency variations; inertial response; offshore converters; offshore wind farms; onshore AC system; onshore AC systems; point-to-point DC links; remote offshore wind farms; sub-sea cables; weighted frequency scheme; wind turbine generator; Frequency control; Generators; Optical frequency conversion; Voltage control; Wind farms; Wind turbines; DC grid; droop control; frequency support; inertial response; offshore wind farm; voltage source converter (VSC);
Journal_Title :
Power Systems, IEEE Transactions on
DOI :
10.1109/TPWRS.2014.2349739
