GE Power to supply 4 nuclear turbine islands for El Dabaa, Egypt's first nuclear plant
- GE Power’s technology will support Egypt’s energy plan to diversify and secure its energy supply and be a stable, reliable source of electricity for its growing demand
- With 4.8GW of CO2 free energy, the GE Power’s Arabelle TM steam turbines will deliver enough CO2 free electricity to power more than 4 million homes
- GE Power’s Arabelle half speed steam turbine has a reliability rate of 99.96%, demonstrated in France, and is today providing more than 20 GW of power in nuclear power plants around the world
Baden, Switzerland -- October 9, 2018: Today GE Power announced it won the contract to deliver the turbine island equipment for El Dabaa nuclear power plant project in Egypt through AAEM its joint venture with Atomenergomash. GE Power will supply the basic design of four conventional island, supply four nuclear turbine generator sets, including the Arabelle half-speed steam turbines, and provide technical expertise for the on-site installation and commissioning.
“As Egypt works to diversify its energy production and to support its growing economy, the El Dabaa nuclear power plant, equipped with GE Power’s Arabelle technology, will help Egypt deliver on their ambitious goals,” said Andreas Lusch, CEO of GE’s Steam Power. “Today, the Arabelle is helping to deliver more than 20GW of power around the world and we will leverage this experience and know-how to deliver reliable, dependable and CO2 free energy to the Egyptian grid.”
Electricity demand in Egypt has increased rapidly as a result of their growing population and increasing industrial activity. It’s estimated that an additional 1.5GW of new capacity will be needed each year - that’s a 6% increase year over year until 2022. To support this increasing demand without blackouts, Egypt has an ambitious energy plan which includes diversifying its installed base. El Dabaa nuclear power plant will help deliver on that plan by stabilizing the Egyptian grid with dependable, CO2 free energy and having a predictable low cost of electricity. Once in operation, El Dabaa will produce 4.8GW - enough to power up more than 4 million homes in Egypt.
The Arabelle steam turbine has been in operation for the past 18 years and still holds the world power output record. This unique technology, adaptable to all reactor types, produces 2% more power output than the traditional configurations. The French fleet of Arabelle has a demonstrated reliability rate of 99,96% over more than 400,000 operating hours.
The El Dabaa project builds on GE Power’s supporting the development of Egypt’s energy sector for more than 40 years which includes delivering up to 16 GW to the Egyptian grid. Recently, GE Power completed building and connecting the Badr substation in Egypt to the national grid. The new 500/220 kilovolt (kV) Gas-Insulated Substation will dispatch 1.5 GW of electricity and play a strategic role in the upcoming Egypt - Saudi Arabia Interconnection, linking the national grids of both countries with a 1,300-kilometer transmission line.
Globally, GE Power’s Steam Power business is a technology leader in the nuclear steam turbine industry. Today, 50% of the world’s nuclear power plants in operation are equipped with a GE steam turbine which are able to generate more than 200 GW of CO2 free, reliable energy.
About GE Power
GE Power is a world energy leader providing equipment, solutions and services across the energy value chain from generation to consumption. Operating in more than 180 countries, our technology produces a third of the world’s electricity, equips 90 percent of power transmission utilities worldwide, and our software manages more than forty percent of the world’s energy. Through relentless innovation and continuous partnership with our customers, we are developing the energy technologies of the future and improving the power networks we depend on today. For more information please visit www.ge.com/power
Anne-Claire Delsol +33 6 69 77 43 64 email@example.com Andrea Doane +41 79 554 70 13 firstname.lastname@example.org