The European wind energy sector invests over 1 billion Euro, nearly 5% of its direct contribution to GDP1, annually in development of new cutting-edge technologies to drive down costs even further and facilitate the integration of wind energy into the energy system. An estimation by IRENA states that costs for onshore and offshore wind will drop by 21% and 14% on a global level respectively with every doubling of cumulative installed capacity. They predict an LCOE reduction of 26% for onshore wind and 35% for offshore wind by 2025. However, to deliver this cost reductions, major technological developments are needed. As wind energy becomes a mainstream source of power generation, wind turbine technology and grid infrastructure must develop accordingly. Out-of-the-box technological advances especially in transformers, rotors and generators are a chance for breakthroughs that should not be neglected. Current major needs of the market are focused on: facilitate the integration of renewables in the grid (to deploy wind power in harsh grid conditions), new technologies to support the leap towards bigger and more efficient wind turbines (wind power cost reductions are driven mainly by advancements in WTG technology), major optimisation and cost reduction (drive down of CAPEX and OPEX costs); and technology innovations for uptake of offshore wind in the coming decades. Industry lacks sustainable technological solutions which make wind projects with difficult grid conditions and requirements possible, and that allow for a more adaptive and intelligent power delivery system, thus an opportunity window is open. The FASTAP project is conceived as the vehicle to offer a response to those challenges, contributing to many advantages over the conventional technology solutions. FASTAP is focused on a) Reducing the cost of energy, b) Increase grid integration, c) Open up new markets and, as consequence, it will d) decrease environmental impact and e) improve health and safety of society. FASTAP solution aims to disrupt the existing Wind Energy sector offering a high-tech market enabling solution based on a very fast electronic OLTC transformer technology, offering a new vision of power generation: RESPONSIVE, FLEXIBLE AND ADAPTIVE, not only in steady-state conditions but also for dynamic and transient events. WF operating with FASTAP will be more efficient in energy production and sustainability, allowing the maximization of its WTGs electric capabilities, especially in weak grid conditions.
The FASTAP project aims to achieve the following specific objectives, in a timeframe of 29 months.
1) To develop two FASTAP prototypes, one for oil-immersed transformers (OIT) and another one for dry-type transformers (DTT) -main technologies currently used in WTGs.
2) To demonstrate the functioning of the FASTAP transformer technology through the development of one ad hoc test bench and two operational demos for WTGs with less (4.5 MW) and more than 5 MW (6 MW).
3) To ensure the FASTAP system architecture customization to maximize electric capabilities of all WTGs from any installation type (onshore and offshore) and rated power (<5MW & >5MW), as well as its application to PV energy.
4) To increase WTG electric capabilities especially in weak grid conditions, reducing the need of installing additional equipment at WF level.
5) To enlarge WTG’s Low Voltage Ride Through (LVRT) and High Voltage Ride Trough (HVRT) capabilities.
6) To allow a new more optimized WTG electric design to reduce the required oversizing due to operation in extended voltage ranges.