As nations across the Middle East and North Africa region pivot to cleaner energy systems to achieve the carbon dioxide reduction commitments and drive decarbonisation, GE
has unveiled a whitepaper on the role of nuclear energy in achieving a carbon-free future.
The whitepaper titled, Nuclear Energy: A Critical Pillar of a Carbon-Free Future, provides an overview of the current energy landscape and the efforts for decarbonisation as well as recommendations on how to achieve these goals by drawing on nuclear power as a dependable emissions-free generation option.
In the Mena region, the first phase of the Barakah Nuclear Power Plant in the UAE has generated over 2,100 GWh of cleaner electricity, and cut emissions of over 950,000 kilotonnes of CO2. Saudi Arabia plans to build two large nuclear power plants (NPPs) with the goal of achieving 17GWe of nuclear capacity by 2040 that will meet 15% of the kingdom’s needs.
In Egypt, GE’s Arabelle nuclear steam turbine, the world’s largest, will be installed in Egypt’s El Dabaa NPP to provide 4,800 MW of carbon-free power generation for millions of homes. Iraq has also announced plans to build nuclear reactors that can produce about 11 GW. Further afield, Pakistan has 2,332 MW operating nuclear capacity and another 1,100 MW under construction while Turkey is currently building the Akkuyu nuclear power plant, which will use GE’s Arabelle steam turbine and generate up to 4,800 MW. GE has just delivered the first equipment for Akkuyu in January this year.
With the whitepaper, GE highlights the need for addressing highly-emission intensive power systems through low-carbon and emissions-free energy sources, such as nuclear power generation, to reduce greenhouse gas emissions. Apart from hydro power, which has limited or no availability in most countries in Mena, nuclear is the only carbon-free dispatchable source of fuel to complement wind and solar, and it can produce large amounts of power on less land than any other cleaner energy source. It also provides the necessary 24/7 baseload power to flexibly support renewables with load-follow operation, helping to stabilise the grid and prevent blackouts when weather-dependent energies such as wind and solar are part of the mix.
The whitepaper also underlines the commitment of GE to fund research, development, and demonstration projects to encourage early adoption of cleaner technologies, such as advanced reactors and Small Modular Reactors (SMRs) that have the potential to drive down investment cost per megawatt.
GE will also promote the commercial application of nuclear power technologies beyond electricity generation, including industrial heat, district heating, water desalination, and electrolysis to produce cleaner hydrogen.
Frederic Wiscart, Global Managing Director, Nuclear Projects, at GE Steam Power, said: “With the world preparing for the UN Climate Change Conference (COP26) in Glasgow in October, the focus on decarbonisation has assumed even more significance. In the Mena region, governments have set remarkable roadmaps to transition to a cleaner energy future by diversifying the energy mix. These efforts at decarbonisation can be amplified by considering nuclear power as a key pillar in the energy transition strategy. With our proven track-record in nuclear power generation since the 1950s, we recommend urgent investment in a combination of nuclear, renewables, energy storage, combined cycle gas turbines with carbon capture and hydrogen to secure cleaner future energy systems.”
GE has two businesses involved in nuclear power: GE Hitachi Nuclear Energy, a Joint Venture that provides nuclear reactor technology, fuel and nuclear services and has installed more than 65 reactors in 10 countries to date; and GE Steam Power, which provides technology and services for steam turbines and generators. GE supports nuclear power plants over the lifecycle, regularly servicing around 200 units with both GE and other original equipment manufacturer (other OEM) technology across the globe.
“Today, GE’s steam turbine technology operates in 50 percent of the world’s nuclear power plants, producing 200 GW for the global grid. We are currently installing 26 GW of new capacity with the Arabelle, the most powerful nuclear steam turbine available. The Arabelle can generate 2% more power output than a previous turbine configuration with 99.96% reliability,” Frederic added. -- TradeArabia News Service