- June 26, 2011
ABB will provide a System 800xA to control the hydroelectric pumped storage plant, and integrate into the island grid the energy generated by wind and hydropower turbines.
June 24, 2011 — A Spanish island in the Atlantic Ocean is set to become the first island in the world to be powered solely by renewable energy. The $87 million project will provide electricity for the island's 11,000 inhabitants using a combination of wind power and pumped water storage. ABB power and automation technologies are playing a leading role. ABB was selected by the project’s engineering, procurement and construction (EPC) contractor, Elecnor. Located about 1,500 kilometers off the Spanish coast in the Atlantic Ocean, El Hierro is the smallest and most remote of the Canary Islands, an archipelago of sun-drenched Spanish islands and one of Europe’s most popular tourist destinations. Like many remote islands, El Hierro generates electricity with diesel oil transported from mainland terminals by oil tanker. The carbon impact is significant - in El Hierro’s case it amounts to 18,200 tons of CO2 per year in power generation emissions alone, an impact that the renewable energy project will eliminate. The project consists of an 11.5 megawatt (MW) wind farm and an 11.3 MW hydroelectric pumped storage plant that will provide the island’s 11,000 inhabitants with 80 percent of their energy needs. The remaining 20 percent will be generated by solar thermal collectors and grid-connected photovoltaic systems. ABB is providing a power and System 800xA automation solution that will electrify and control the hydroelectric pumped storage plant, and integrate into the island grid the energy generated by wind and hydropower turbines. The solution comprises a new interconnection substation, equipped with UniGear and UniMix medium voltage switchgear, which will receive the power generated by the five wind turbines and the hydropower turbines, and deliver it to the island’s main substation via distributed transformers and a Relion® REF 670 intelligent protection system. An important challenge for ABB was the installation of Automatic Generation Control (AGC), which maintains stable plant frequency and voltage by sharing active and reactive power demand in the generators and tie-lines. This is done in a way that allows the working points of the generator sets to operate with as much margin as possible, so that the plant can withstand bigger disturbances. At the two pumping stations, ABB motors, variable speed drives and dry-type transformers will power the pumps at high levels of reliability and ensure that the entire process is smooth and efficient, consuming minimal levels of energy and reducing equipment wear and tear. Scheduled for completion in 2011, the project is fast becoming a model for other communities striving to become self-sufficient in renewable energy. The entire renewable energy project will be controlled by an ABB distributed control system (DCS). Based on ABB’s System 800xA extended automation platform, the solution will control the four hydropower turbines, the pumped storage process, the new interconnection substation and the existing substation, and communicate with the new wind farm. By communicating with the wind farm, the ABB control solution will automatically start releasing water from the upper reservoir to generate power at the hydroelectric plant whenever the wind power generated is insufficient to meet demand. Conversely, excess wind power will be used to pump water to the upper reservoir, for use when wind power is low. The Greek island of Icaria is already building a hydro-wind project modeled on El Hierro, and the power industry as a whole is following the project closely with an eye to larger scale implementation. ABB is a leader in power and automation technologies that enable utility and industry customers to improve their performance while lowering environmental impact. The ABB Group of companies operates in around 100 countries and employs about 124,000 people.Learn More
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