Energy

The solar plant was completed in 18 months. (Image source: AMEA Power)

AMEA Power, a renewable energy company, has announced the commissioning of the 500MW Abydos Solar PV Plant in Egypt

The plant is the country's largest solar project yet. 

The project was inaugurated at a ceremony attended by the Minister of Electricity and Renewable Energy, His Excellency Mahmoud Esmat and chairman of AMEA Power, Hussain Al Nowais.

Financed by the International Finance Corporation (IFC), Dutch Entrepreneurial Development Bank (FMO), and Japan International Cooperation Agency (JICA), the Abydos Solar PV Plant will generate around 1,500GWh of clean energy annually which is enough to power approximately 300,000 households. According to AMEA Power, the plant has been completed within just 18 months, with more than 3,000 personnel contributing to its construction.

“I am proud to announce that the 500MW Abydos Solar PV Plant is now fully operational – a landmark achievement that highlights the dedication of our team, the strength of collaboration, and the importance of empowering local communities,” remarked Al Nowais. “This milestone demonstrates AMEA Power’s technical excellence and sets a new standard for renewable energy projects. The solar power plant is a significant step in Egypt’s renewable energy strategy, supporting the goal of achieving 42% of energy generation from renewables by 2030. Together, we are driving progress toward a sustainable future.”

Recent months have seen significant strides in H2 production. (Image source: Adobe Stock)

The Gulf Cooperation Council (GCC) is emerging as a global hub for hydrogen development, with countries in the region advancing ambitious projects in green and blue hydrogen.

Recent months have seen significant strides, underpinned by strategic investments and collaborations aimed at achieving global decarbonisation goals.

In a major development, Abu Dhabi National Oil Company (ADNOC) has made a bold entry into the low-carbon hydrogen market.

In September 2024, ADNOC secured a 35% stake in ExxonMobil's planned hydrogen facility in Baytown, Texas.

This plant, slated to become one of the largest of its kind, will produce up to one billion cubic feet of low-carbon hydrogen daily.

It is designed to capture approximately 98% of carbon dioxide emissions, aligning with global efforts to minimise environmental impact.

Production at the Texas facility is expected to commence in 2029, with hydrogen and ammonia destined for markets in Japan, Korea, and Europe.

Read the rest of the story in the latest issue of Technical Review Middle East.

Rystad predicts energy sector volatility in 2025. (Image source: Adobe Stock)

The coming year looks set to bring more volatility, geopolitical tension and policy evolutions in terms of the energy scene, according to new research from Rystad Energy, which has highlighted significant trends that will shape the energy world in 2025

The US-China dynamic, ongoing conflicts in the Middle East and the war in Ukraine will take centre stage, while rising instability across the Global South, and the transformative impact of AI will also shape the global order. A global trade war sparked by US tariffs, and China economic slowdown are potential clouds on the horizon.

In terms of global upstream investments, Rystad forecasts a decline of 2% in 2025, with deepwater developments in Surname, Mexico and Turkiye and offshore shelf investments in Suriname Indonesia, Qatar and Russia offset by a decline in shale/tight oil investments. Despite Donald Trump’s “drill baby drill” rhetoric, US operators are less likely than ever to spend more on drilling in the face of an oversupplied market. A forecast growth in both OPEC+ and non-OPEC+ supply is set to put a downward pressure on oil prices.

“Leading into 2025, the OPEC+ balancing act will make or break oil prices, seeking to manage its market share expectations alongside non-OPEC+ growth and slowing demand,” said Aditya Saraswat, senior vice president, Upstream Research at Rystad.

Rystad also highlights ongoing supply chain issues, with geopolitical tensions and increased protectionism likely to impact the global supply chain supporting the energy transition. Within offshore oil and gas, bottlenecks around floating production, storage and offloading vessels (FPSOs), subsea kits, drilling rigs and other vessels will continue to inflate and delay capital projects. Overall, increased divestments, mergers and acquisitions are likely across the energy supply chain.

Global power demand is entering a period of accelerated growth, fuelled by industrial decarbonisation efforts, the rise of EVs and the rapid expansion of data centres, with global electricity demand from data centres set to more than double by the end of the decade.

Low carbon energy markets are set to grow, boosted by climate plans emerging from the COP29 summit.

“However, However, 2025 could be another reality check for renewables and cleantech, with shifting policies favouring fossil fuels, green energy stocks under pressure, and uncertainty about funding and subsidies,” commented Artem Abramov, head of Clean Tech Research at Rystad Energy.

Nevertheless Solar PV is set to grow by around 600TWh in 2025, and the CCUS market is poised for rapid growth, thanks to policy support, despite infrastructure hurdles.

The hydrogen sector is however facing a reality check with challenges and cancellations on the cards.

“We expect a more pragmatic approach in the clean hydrogen sector, as the cost premium for renewable hydrogen and derivatives remains largely unchanged. Additionally, 2025 will see continued progress from China and India, as they advance their clean hydrogen and derivatives agendas,” said Minh Khoi Le, head of Hydrogen Research at Rystad.

“We’re moving from a time of energy scarcity to a time of energy abundance,” says Rystad Energy CEO and founder Jarand Rystad. “Capacity additions in both fossil fuels and renewables will outpace increases in demand next year. Similarly, in the face of an oversupplied oil market, OPEC+ may need to extend its production cuts far into 2025 to protect oil prices. The era of China driving oil consumption growth is over, with the country’s peak diesel in the rearview mirror, gasoline demand plateauing and coal consumption levelling off, as it is globally.

“This is echoed in the electricity market, with 90% of the power consumption growth in 2025 coming from renewables, while nuclear and gas share the remaining 10%. The intermittency of renewable power capacity has triggered record periods of negative prices, intensifying the need for reliable energy storage. As such, 2025 could be a breakout year for energy storage systems. Of the expected 1,350 terawatt hours (TWh) of growth in global power demand, consumption by data centres – primarily fuelled by AI – is likely to grow by 13% in 2025. This equals about 3% of total electricity consumption growth, similar to the growth from the 20 million new electric vehicles (EVs) expected.

“The new Trump administration will impact domestic and global energy priorities, including pulling any levers available to increase domestic crude production, even though the industry is unlikely to respond to this stimulus.

"However, President Trump might have more success in accelerating liquefied natural gas (LNG) infrastructure investments, the results of which will not be felt for several years. These dynamics underscore the importance of careful navigation as the sector balances short-term challenges with long-term opportunities.”

Lithium-sulphur battery technology delivers higher performance at a lower cost compared to traditional lithium-ion batteries. (Image source: Adobe Stock)

Stellantis, a leading automaker that is seeking to provide clean, safe and affordable freedom of mobility, has signed a joint development agreement with Zeta Energy Corp, a company focused on developing rechargeable batteries that are lower cost and sustainably produced, to advance battery cell technology for electric vehicles

The two are seeking to develop lithium-sulphur EV batteries with gravimetric energy density while achieving volumetric energy density comparable to today’s lithium-ion technology. The ambition is to create a lighter battery pack with the same usable energy as contemporary lithium-ion batteries. This is expected to enable greater range, improved handling and enhanced performance as well as having the potential to improving fast-charging speeds by up to 50%. These benefits will make EV ownership more convenient for users as well as costing less than half the price per kWh of current lithium-ion batteries.

“We are very excited to be working with Stellantis on this project,” remarked Tom Pilette, CEO of Zeta Energy. “The combination of Zeta Energy’s lithium-sulphur battery technology with Stellantis’ unrivaled expertise in innovation, global manufacturing and distribution can dramatically improve the performance and cost profile of electric vehicles while increasing the supply chain resiliency for batteries and EVs.”

The collaboration includes both pre-production development and planning for future production. Upon completion of the project, the batteries are targeted to power Stellantis electric vehicles by 2030.

“Our collaboration with Zeta Energy is another step in helping advance our electrification strategy as we work to deliver clean, safe and affordable vehicles,” commented Ned Curic, Stellantis chief engineering and technology officer at Stellantis. “Groundbreaking battery technologies like lithium-sulphur can support Stellantis’ commitment to carbon neutrality by 2038 while ensuring our customers enjoy optimal range, performance and affordability.”