论文信息 - Control strategies of DC-based offshore wind farm

Control strategies of DC-based offshore wind farm

The interest about offshore wind farm (WF) has increased significantly during past years. Usually, local distribution is achieved by an AC grid. For distance higher than 100 km, HVDC (High Voltage Direct Current) connection is used for power distribution from farm to shore. Considering the recent improvements of DC-DC converters and theirs impact on electrical architecture, the generalization of DC link within the distribution scheme of the farm becomes easier and really interesting. In this paper, a wind farm topology is under study as well as different possible control strategies for converters. Especially DC-DC converter in WT and in offshore platform. Firstly, several control strategies for offshore wind farm will be studied. Then, a global comparison of the different technical solutions has been done in terms of: • advantages and drawbacks for each control strategy • possible technological choices resulting from control scheme. Finally, a comparison about the control strategies for DC-DC converters for a wind farm topology is achieved by simulating Real-Time Simulations. Full-Bridge technology for DC-DC converter appears to be a suitable solution given it has a simple control mode, and less expensive technology than Double Active Bridge DC-DC converter.

[1] Christopher Smith,et al. DC transmission and distribution system for a large offshore wind farm , 2010 .

[2] N. Takorabet,et al. Performances comparison of induction motors and surface mounted PM motor for POD marine propulsion , 2005, Fourtieth IAS Annual Meeting. Conference Record of the 2005 Industry Applications Conference, 2005..

[3] Stephan Meier. System Aspects and Modulation Strategies of an HVDC-based Converter System for Wind Farms , 2009 .

[4] G.O. Garcia,et al. Switching Control Strategy to Minimize Dual Active Bridge Converter Losses , 2009, IEEE Transactions on Power Electronics.

[5] Georgios D. Demetriades,et al. On small-signal analysis and control of the single- and the dual-active bridge topologies , 2005 .

[6] Lazaros Lazaridis. Economic Comparison of HVAC and HVDCSolutions for Large Offshore Wind Farms underSpecial Consideration of Reliability , 2005 .

[7] Benoit Robyns,et al. Topologies comparison of multi-cell Medium Frequency Transformer for offshore farms , 2010 .

[8] Dietmar Retzmann,et al. HVDC PLUS – Basics and Principle of Operation , 2011 .

[9] Neville R. Watson,et al. Flexible power transmission--the HVDC options , 2007 .

[10] Stefan Lundberg,et al. System efficiency of a DC/DC converter‐based wind farm , 2008 .