Egypt has launched a major renewable energy initiative, marking a significant step in its efforts to reduce reliance on fossil fuels and address ongoing power shortages. The country has commenced work on its first large-scale hybrid solar and battery energy storage facility, located in Nagaa Hammadi, an area well known for its abundant sunlight. This innovative project, dubbed Obelisk, will combine solar generation with battery storage in a move to strengthen energy reliability and sustainability.
The $590 million undertaking is being developed by Scatec, a renewable energy firm based in Norway that focuses on advancing clean energy solutions in emerging markets. Obelisk is set to deliver 1.1 gigawatts (GW) of solar electricity paired with 200 megawatt-hours (MWh) of battery storage, providing a dependable energy supply even when the sun isn’t shining.
Egypt, historically reliant on natural gas to generate electricity—with roughly 75% sourced from this energy type—has been grappling with an escalating power shortage in recent times. The country has seen a drop in domestic gas output, while climbing global rates have compelled it to purchase fuel at steep prices. The ensuing strain on Egypt’s power grid has led to regular outages, leading to urgent demands for immediate resolutions.
Scatec is no stranger to Egypt’s energy landscape, having previously implemented four renewable energy projects in the country. But Obelisk stands out for its scale and technological integration. As Terje Pilskog, CEO of Scatec, notes, energy security is not only about generation—it’s about independence from volatile fuel markets. “Renewables offer predictability,” Pilskog explains. “You’re not subject to fuel imports or price shocks.”
In response to its growing energy challenges, Egypt has committed to increasing the share of renewables in its energy mix. The government plans to raise the current 13% renewable contribution to 42% by 2030. While these targets are ambitious, they are seen as critical to reducing reliance on fossil fuels, especially as output from major fields like the Zohr gas field diminishes.
As a component of this shift, Egypt launched a tender around mid-2024 to acquire almost two million tons of fuel oil to handle the high demand during the summer peak, which puts pressure on the electricity system as temperatures frequently surpass 40°C (104°F) in the southern areas. Prime Minister Mostafa Madbouly has encouraged people to save energy to assist in reducing more power outages.
However, as Egypt examines new local gas resources, it is also progressively focusing on its geographical strengths. The southern area of the nation is located in what specialists refer to as the “Magic Solar Belt,” an area with some of the highest solar radiation levels worldwide. Based on the Global Solar Atlas, Egypt is ranked fourth internationally for photovoltaic (PV) potential. This optimal spot makes the Obelisk project particularly encouraging.
Karim Elgendy, executive director of the Middle East and North Africa-focused think tank Carboun Institute, highlights the dual economic and strategic significance of Obelisk. “This isn’t just a green initiative,” he says. “It’s an economically driven investment. Projects like this can demonstrate the viability of solar-plus-storage solutions in the developing world.”
Traditionally, solar energy’s primary weakness has been its intermittency—it only produces power during daylight hours. However, the falling costs of battery storage are changing that. Since 2010, the price of large-scale battery storage projects has dropped by 89%, driven in part by manufacturing scale-ups in countries like China. As a result, hybrid plants that combine solar power with storage have become significantly more feasible.
In fact, the Global Solar Council projects that by 2027, solar-plus-battery configurations will offer the lowest-cost electricity generation globally. However, despite this potential, Africa remains underrepresented in global battery storage deployment. Of the estimated 363 gigawatt hours (GWh) of global storage capacity in 2024, Africa accounts for just 1.6 GWh.
This disparity highlights a broader challenge—financing. Despite the fact that renewable energy technologies are becoming more economically viable, securing funding for large-scale endeavors in emerging markets remains a significant obstacle. The “risk premium” frequently associated with investments in developing regions increases project costs and complicates their initiation. In 2024, Africa accounted for just 3% of energy investments worldwide, despite its vast renewable potential.
To overcome these barriers, the Obelisk project is supported by several international financial institutions. The European Bank for Reconstruction and Development, the African Development Bank, and British International Investment have together pledged nearly $480 million to fund the initiative. This backing is essential to moving the project forward and signals growing international confidence in Africa’s renewable future.
Construction of Obelisk is scheduled in phases, with 561 MW of solar power and the full battery storage capacity expected to be operational by mid-2026. The project will ramp up to its full 1.1 GW capacity by the end of that year. When completed, it will be among the largest hybrid renewable energy systems on the continent.
Egypt’s shift towards solar energy aligns with a wider movement in Africa, where renewable energy is becoming a vital force for economic growth. Despite the continent having 60% of the world’s prime land for solar power, only 3% of Africa’s energy originated from solar in 2023. However, progress is being made. By 2024, South Africa and Egypt represented 75% of new solar developments in Africa, and at least 18 nations are anticipated to undertake projects surpassing 100 MW in 2025.
Meanwhile, Egypt has been expanding its infrastructure footprint in other ways. High-profile projects such as the 2,000-kilometer high-speed rail system—linking 60 cities across the country—and expansions to the Suez Canal aim to modernize transportation and trade. These developments reflect a broader strategy to position Egypt as a regional hub for energy, logistics, and economic growth.
Nevertheless, energy remains a critical issue. The country’s dependency on fossil fuels has made it vulnerable to external shocks, and rising temperatures only exacerbate power demands. But projects like Obelisk offer a pathway toward energy resilience and independence.
Beyond its practical benefits, Obelisk represents a shift in how nations in the Global South are approaching energy policy—not just as a climate issue, but as a matter of economic security, investment attractiveness, and long-term growth.
Egypt’s solar push may be in its early stages, but it’s already sending a clear message: with the right mix of resources, technology, and international support, renewable energy can play a central role in reshaping the region’s energy landscape.
As construction moves forward, the Obelisk project may well become a model not only for Egypt, but for other nations facing similar energy and economic challenges—highlighting the importance of sustainable infrastructure as both a solution and a strategic opportunity.
