In The Spotlight
Declines in output from existing oil and gas fields globally have accelerated – largely due to a higher reliance on shale and deep offshore resources – but are lower in the Middle East than other parts of the world, according to a new report from the IEA
The new report, 'The Implications of Oil and Gas Field Decline Rates', draws on production data from around 15,000 oil and gas fields from around the world, and highlights the wide variation in decline rates across field types and geographies, with production from larger fields declining more slowly than from smaller fields, and offshore fields declining more quickly than onshore fields. The declines rates for the Middle East and Russia, which are home to the majority of conventional onshore supergiant fields, are therefore much lower than those elsewhere. This could mean that oil production from existing fields would become more concentrated among the OPEC member countries and Russia, who could see their share of global oil production rise from 43% today to 53% in 2035 and more than 65% in 2050, according to the IEA.
In Saudi Arabia and the UAE, where major upstream expansion projects are underway, production growth from approved projects, along with existing spare capacity and continued investment in existing projects, can more than offset the loss of production from natural declines, especially as decline rates are relatively low in both countries.
Onshore supergiant oil fields in the Middle East decline at less than 2% per year, while smaller offshore fields in Europe average more than 15% per year, according to the report. Tight oil and shale gas decline even more steeply: without investment, output falls by more than 35% over one year and a further 15% over a second year. The Middle East has the lowest oil post-peak decline rate at 1.8%, compared with global average annual post-peak decline rate of 5.6% for conventional oil and 6.8% for conventional natural gas.
IEA executive director Fatih Birol noted that nearly 90% of upstream investment annually is dedicated to offsetting losses of supply at existing fields. “Decline rates are the elephant in the room for any discussion of investment needs in oil and gas, and our new analysis shows that they have accelerated in recent years. In the case of oil, an absence of upstream investment would remove the equivalent of Brazil and Norway’s combined production each year from the global market balance. The situation means that the industry has to run much faster just to stand still. And careful attention needs to be paid to the potential consequences for market balances, energy security and emissions.”
The development of new resources would therefore be need to keep up the level of global oil and gas production. Even with continued spending on existing fields, more than 45mn bpd of oil and nearly 2,000 bcm of gas from new conventional fields would be required by 2050 to maintain production at today’s levels, according to the IEA.
The report also highlights that it has taken almost 20 years on average to move from issuing an exploration licence for oil and gas until first production. Around 230 billion barrels of oil and 40 trillion cubic metres (tcm) of gas resources have been discovered that have yet to be approved for development, mainly in the Middle East, Eurasia, and Africa. Developing these resources could add around 28 mn bpd and 1,300 bcm by 2050, the IEA says.
TotalEnergies has announced the start of the construction of the final two components of Iraq’s Gas Growth Integrated Project (GGIP) which it is operating alongside its partners Basra Oil Company and QatarEnergy
The 4-in-1 project comprises the recovery of gas that is currently flared at three oil fields in southern Iraq to supply electric power plants, the redevelopment of the Ratawi oil field, the construction of a 1 GWac (1.25GWp) solar farm and a seawater treatment plant. With total investment exceeding US$13bn, it aims to sustainably develop Iraq’s natural resources to improve the country’s electricity supply while contributing to its energy independence and reducing its greenhouse gas emissions. Following the start of construction of the 300 Mcf/d gas treatment plant and the 1 GWac solar facility at the beginning of this year, all parts of the multi-energy GGIP project are now in their execution phase.
Patrick Pouyanné, chairman and CEO of TotalEnergies, and His Excellency Saad Sherida Al-Kaabi, Qatari Minister of State for Energy Affairs, deputy chairman and CEO of QatarEnergy, met on 14 September in Baghdad with His Excellency Mohammed Shia al-Sudani, Prime Minister of the Republic of Iraq, and His Excellency Hayan Abulghani, Minister of Oil and Deputy Prime Minister, to announce the start of construction of the Common Seawater Supply Project (CSSP) and the full field development of the Ratawi oil field.
The CSSP will be built on the coast near the town of Um Qasr. It will process and transport 5 million barrels of seawater per day to the main oilfields in southern Iraq, thereby freeing up to 250,000 cubic meters of freshwater per day for irrigation and local agriculture needs. The plant will be operated by Basra Oil Company.
The Ratawi redevelopment was launched in September 2023. Phase 1 aims to increase production to 120,000 bpd and is expected to come on stream by early 2026. Phase 2 (full field development) will increase production to 210,000 bpd starting in 2028, with no routine flaring.
All 160 Mcf/d of associated gas will be fully processed thanks to the 300 Mcf/d Gas Midstream Project (GMP), whose construction began early 2025. The GMP, which will also treat previously flared gas from two other fields in southern Iraq, will deliver processed gas into the national grid where it will fuel power plants with a production capacity of approximately 1.5 GW, providing electricity to 1.5 million Iraqi households. An Early Production facility to process 50 Mcf/d of associated gas will start early 202,6 together with the Ratawi phase 1 oil production.
“We are delighted today to award the two final contracts of the Gas Growth Integrated Project, in particular the seawater treatment plant which has been long awaited by the oil industry in Iraq. In less than two years since the GGIP effective date in August 2023, TotalEnergies and its partners have fully executed their commitment towards the people of Iraq and launched all projects included in the multienergy GGIP projet, the best showcase of TotalEnergies transition strategy. All these projects will bring a significant contribution to the Iraq economy and employ during the construction phase 7,000 Iraqi nationals,” said Patrick Pouyanné. “Furthermore, I am proud to confirm that the first phase of the associated gas, oil and solar projects will start-up as soon as early 2026.”

The event will bring together national and international oil companies, technology pioneers, leading academics, and service providers to address the industry's most pressing challenges and opportunities. (Image source: Informa)
The Middle East is set to reaffirm its leadership in the global energy sector with the upcoming Middle East Oil, Gas, and Geosciences Show (MEOS GEO 2025)
Scheduled for 16-18 September 2025 at Exhibition World Bahrain, this landmark event is more than just an industry gathering; it is a strategic platform embodying the region's commitment to innovation, collaboration, and sustainability in a rapidly transforming energy landscape.
Held under the patronage of His Royal Highness Prince Salman bin Hamad Al Khalifa, The Crown Prince and Prime Minister of The Kingdom of Bahrain, MEOS GEO 2025 is recognised as the premier upstream oil, gas, and geosciences exhibition and conference in the Middle East. The event will bring together national and international oil companies, technology pioneers, leading academics, and service providers to address the industry's most pressing challenges and opportunities.
Driving energy leadership and sustainability
Under the theme "Energy for a prosperous future: Leading a sustainable tomorrow," MEOS GEO 2025 reflects the balance between energy security and environmental stewardship. The event will explore optimising hydrocarbon production, accelerating digital transformation, and advancing decarbonisation strategies.
A cutting-edge strategic & technical programme
The strategic conference will feature high-level panel discussions where global energy leaders tackle complex questions about balancing immediate energy demands with long-term transition goals. The technical programme will feature 123 specialised sessions covering the full spectrum of upstream energy industry challenges and innovations, providing practical knowledge and implementable solutions.
Collaboration and innovation at the core
Beyond knowledge-sharing opportunities, MEOS GEO 2025 serves as a hub for strategic collaboration. The exhibition floor will feature innovations from over 120 companies, while specialised zones will facilitate networking and partnerships.
Specialised feature zones
MEOS GEO 2025 offers specialised zones designed to foster innovation and knowledge exchange, including:
• Start-up zone for emerging companies.
• Digitalisation zone focused on cutting-edge digital solutions.
• Live Labs & Genius Talks stage for dynamic discussions.
• e-Poster zone for sharing research in digital formats.
• Young Professionals & Students Programme aimed at nurturing future talent.
Leading the future with purpose and sustainability
MEOS GEO 2025 exemplifies Informa's FasterForward strategy by embedding sustainability at its heart. From its focus on low-carbon innovation to the inclusion of SANAD as the Sustainability Sponsor, the event highlights emissions-reduction technologies and enhanced ESG practices. Initiatives such as showcasing hydrogen and geothermal exploration, alongside efforts to reduce waste, reflect a commitment to driving meaningful change.
Streamlined sponsorship highlights
The event's sponsorship lineup underscores its strategic importance in the global energy sector. Industry leaders such as SLB, and Saudi Arabian Chevron are among the key sponsors, alongside Alkhorayef Petroleum Company and Baker Hughes.
MEOS GEO 2025 is not just a trade show; it is a transformative platform where stakeholders can collectively chart a course toward a sustainable and prosperous energy future, blending traditional strengths with forward-looking technologies and practices.
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GPT Industries - Iso-Smart
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ADIPEC 2024 - Exclusive Interview with Joseph El Bitar, Hexagon
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ADIPEC 2024 - Exclusive Interview with Alexander van Veldhoven, Bapco Energies
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ADIPEC 2024 - Exclusive Interview with Friedrich Portner, Safeen Group
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ADIPEC 2024 - Exclusive Interview with Kevin Brilz, Fishbones
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ADIPEC 2024 - Exclusive Interview with Mohamed Malak, Fishbones
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ADIPEC 2024 - Exclusive Interview with Dileep Divakaran, SLB
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ADIPEC 2024 - Exclusive Interview with Eric Kjol, SLB
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ADIPEC 2024 - Exclusive Interview with Dmitry Shubenok & Aleksandr Dolgikh, North Side
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ADIPEC 2024 - Exclusive Interview with Adam Stephenson, AkzoNobel
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ADIPEC 2024 - Exclusive Interview with Frazer Young, Oil States
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ADIPEC 2024 - Exclusive Interview with Peter Foith, CS Combustion Solutions GmbH
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Exclusive interview with Maurits van Tol
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Rockwell Automation interview with Sebastien Grau
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Rockwell Automation interview with Michael Sweet
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ADIPEC 2023 - Exclusive interview with Wissam Chehabi, Fishbones
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Rockwell Automation interview with Kalypso’s Rodrigo Alves & Knowledge Lens’ Ganesh Iyer
Global shale oil and gas production is set to increase, with Saudi Arabia and Algeria among those countries in the region looking to exploit their shale gas reserves
According to a recent report from leading data and analytics company titled Global Data titled “Emerging Oil and Gas Shale Plays", notable increases in production are expected over the next few years, including the USA, the current leading producer. These are driven by technological advancements and significant discoveries in countries such as China, Argentina, and Saudi Arabia. GlobalData’s Strategic Intelligence report titled “Emerging Oil and Gas Shale Plays”, reveals that the US was the undisputed leader in global shale oil and gas production with over 80% share in 2024, thanks to its vast reserves, advanced extraction technologies, and supportive regulatory environment.
Ravindra Puranik, Oil and Gas Analyst at GlobalData, commented, “The combination of hydraulic fracturing and horizontal drilling has unlocked unprecedented volumes of shale resources, particularly in formations like the Permian Basin, the Eagle Ford, and the Marcellus Shale. The growth of the shale industry has bolstered the US energy independence, reducing reliance on foreign oil and altering the country's geopolitical strategy.”
Canada holds the second-largest recoverable reserves of shale oil and gas after the USA. It is also ranked second in production due to the technological similarities with its neighbour and government encouragement for unconventional hydrocarbon development.
Argentina is another emerging hotspot for shale oil and gas, particularly the Vaca Muerta formation, which is characterised by strategic asset management by YPF, significant infrastructure investment, and robust growth in production and exports.
Recently, China has made significant progress in shale oil exploration, which could enhance its energy security and reduce dependency on foreign oil supplies, while Saudi Arabia is exploring gas shales within its northern and eastern regions, targeting a 60% rise in its gas output from 2021 to 2030. The focus of development is its giant Jafurah unconventional gas field, the largest liquid-rich shale play in the MIddle East, estimated to hold more than 200 trillion cubic feet of raw gas, which is set to commence production this year.
Algeria, which has significant proven shale gas reserves, is reported to be negotiating with the USA’s ExxonMobil and Chevron, global leaders in shale production, on an agreement that would allow them to explore and develop Algeria's natural gas reserves, including its shale gas reserves. Algeria is seeking to revive its flagging oil and gas sector, on which its economy is heavily dependent, and boost gas exports, with an eye on Europe as it seeks alternative suppliers to Russian pipeline gas.
Puranik said, “The future of shale oil and gas will be shaped by a delicate balance between technological innovation, cost efficiency, and environmental stewardship. Countries that can align production growth with carbon management and energy transition goals will not only secure domestic energy resilience but also strengthen their position in an increasingly competitive and sustainability-driven global market.”
The oil market landscape for Q4 2025 is looking highly volatile, with rising oil exports from Iraq exacerbating oversupply concerns, says Mohanad Yakout, senior markets analyst at Scope Markets
Oil prices are hovering around US$67 as the IEA warns of a ‘looming oversupply’ outweighing geopolitical tensions in Russia and the Middle East.
Adding to pressures including the unwinding of OPEC + production cuts and higher non-OPEC production is the prospect of rising oil exports from Iraq, OPEC’s second-largest producer. The country has increased oil exports under the OPEC+ agreement, according to state oil marketing organisation SOMO, as reported by Reuters. It expects September's exports to range from 3.4-3.45 mn bpd, up from around 3.38mn bpd in August.
Baghdad is also reported to have come to a preliminary agreement with the Kurdistan region to resume pipeline oil exports from the Kurdistan region through Turkey, amounting to around 230,000 bpd, after a two-year hiatus.
“This shift comes as part of Iraq’s broader effort to boost production after a relaxation of some commitments under the OPEC+ agreement and to strengthen the country’s financial revenue,” comments Yakout.
“However, despite the clear benefits of this move in terms of revenue generation and improved financial liquidity, multiple risks loom over the global oil market as the end of 2025 approaches. First, there's the risk of oversupply, especially if the Kurdistan pipeline returns to full capacity without alignment with global demand, which is expected to remain relatively weak due to global economic conditions and the accelerating shift toward renewable energy and electric vehicles.
“Second, there are logistical, legal, and political risks related to the ongoing dispute between Baghdad and Erbil over export contracts, revenue sharing, or obligations to foreign companies. Any delays or sudden stoppages could disrupt pipeline flows and undermine investor and market confidence.
“Third, price volatility remains a major concern. Geopolitical tensions in the Middle East or the imposition of sanctions on supplies from countries like Russia could trigger sharp market swings, especially if news is conflicting or if the implementation of agreements faces obstacles.”
Yakout concludes that the oil landscape for Q4 2025 looks highly volatile.
“While the increase in exports offers an opportunity to bolster Iraq’s financial position and improve revenues, the success of this strategy depends on legal and political stability, infrastructure reliability, alignment with global supply and demand, and effective risk management. If these factors are handled properly, Iraq stands to gain significantly, but if markets are caught off guard by any serious disruptions, prices could fall, and market tensions may rise.”
Abu Dhabi-based petrochemicals company Borouge is collaborating with Honeywell to conduct a proof of concept for AI-powered autonomous operations, which is set to deliver the petrochemical industry’s first AI-driven control room designed for full-scale, real-time operation
The initiative aims to deploy the proof-of-concept technologies to enhance Borouge’s operations across its Ruwais facilities in the UAE. Autonomous operations will enable Borouge to optimise production, reduce energy use, and enhance safety while reducing costs at what will be the single largest petrochemical site in the world. Both companies will leverage their expertise in process technology and autonomous control capabilities to identify new opportunities to deploy Agentic AI solutions and advanced machine learning algorithms.
The project is a key component of Borouge's companywide AIDT programme, which is projected to generate US$575mn in value this year. In 2024, Borouge’s portfolio of over 200 AIDT initiatives—spanning operations, health and safety, sales, sustainability, and product innovation—generated $573mn in value
Borouge has already installed the world’s largest Real-Time Optimisation (RTO) system across three large-scale ethane crackers and 20 furnaces. The initiative analyses over 2,500 parameters per minute, enabling instant data-driven decisions, significantly enhancing productivity, optimising energy consumption and reducing emissions. The unique system minimises ethane dumping and optimises resource use, in line with Borouge's commitment to sustainable growth and operational excellence.
Borouge has invested in its state-of-the-art Innovation Centre located in Abu Dhabi and is now using advanced AI-powered tools to accelerate innovation, enabling the company to bring new grades of advanced polymers to market quicker. In collaboration with ADNOC AI Lab, Borouge has completed its first “Polymer Optimisation” programme, achieving a 97% accuracy, enabling Borouge to reduce its development timeline from months to weeks.
Hazeem Sultan Al Suwaidi, chief executive officer of Borouge, said, “Borouge's AI, Digitalisation, and Technology (AIDT) transformation programme is setting new standards in operations, innovation and business performance. By collaborating with global AI leaders such as Honeywell, we are accelerating growth, driving efficiency, and enhancing shareholder value. This project further strengthens Borouge’s competitive edge as we continue to deliver on our ambitious AIDT roadmap.”
George Bou Mitri, president of Honeywell Industrial Automation, Middle East, Turkey, Africa, Central Asia, said, “By integrating AI and automation technologies into core operations, we are helping unlock new levels of efficiency, safety, and performance. This agreement shows how advanced technologies, applied with purpose, can reshape industrial operations at scale.”
Forum Energy Technologies has launched its next generation remotely operated vehicle (ROV) control system – ICE Unity
The system, introduced in response to the growing demand for data and control access from outside the main control system, can be rolled out across FET’s range of ROVs, which support underwater industry applications globally. It is compatible with the latest sensors and tooling.
Key features of ICE Unity include:
• A modern user interface with physical and touchscreen controls;
• One common user interface across different ROVs, minimising operator training;
• Network connectively which allows for remote operations as well as live streaming of survey data, and system monitoring.
Network connectively also enables machine learning, predictive maintenance, and remote support and updates.
Kevin Taylor, FET’s vice president operations – Subsea, said, “ICE Unity brings together innovation with seamless collaboration. This a step change in ROV controlling, bringing immense time and cost-saving benefits by enabling remote operations from outside the core control system.
“One major benefit is the ability to monitor performance remotely and reduce downtime by allowing the replacement of components when needed rather than using fixed maintenance intervals.”
Despite advances in digital technology, many oil and gas sites across the Middle East still rely on manual entry for tank and vessel inspections, resulting in days of downtime, high scaffolding costs and risk to human life
What if you could change all that with drone technology?
Inspections drones such as the Elios 3 are revolutionising the world of confined space inspections, improving safety, reducing downtime and enhancing operational efficiency.
Join us for an exclusive live webinar hosted by Flyability in association with Oil Review Middle East on ‘Transforming oil and gas operations with the Elios 3 drone’ on Tuesday 2 September at 2pm GST. Industrial experts will explain how drones such as the Elios 3 are transforming confined space inspections, and how you can integrate this technology into your operations seamlessly.
Key highlights:
Drone integration: learn how to safety and effectively implement drones in confined space
Safety and training: understand essential safety protocols and training strategies for your team
ROI: discover how to measure and achieve a strong return on investment with drone technology
Real world use cases: hear from the engineers using drone tech in the field on the impact Elios 3 is having on in oil and gas inspections.
Speakers and host:
Fabio Fata – senior sales manager, Flyability (moderator)
Eralp Koltuk – inspection lead engineer, Tüpraş
Danijel Jovanovic – director of operations, ZainTECH
Take your operations to the next level! Don’t miss out on gaining valuable insights into how drones can make inspections safer, faster and smarter .
From making inspections in hazardous confined spaces much safer to streamlining the whole process and providing valuable real-time data, you will get to see exactly how the Elios 3 is changing the game.
Sustainable technologies are attracting unprecedented attention across sectors, particularly as the global shift toward net zero intensifies.
From the increasing use of low-carbon hydrogen in industries like green steel to the development of alternative fuels and renewable energy solutions, companies are actively seeking viable pathways to decarbonise.
IDTechEx’s Energy & Decarbonisation and Sustainability Research Reports provide in-depth coverage of these trends, exploring cutting-edge technologies and their impact on various markets.
The steel industry’s role in emissions
Steel remains one of the most carbon-intensive industries, and demand continues to rise due to global population growth, accelerating industrialisation, the AI-driven expansion of data centres, and the rollout of renewable energy infrastructure. As a result, efforts to decarbonise steelmaking have become critical.
The traditional blast furnace route, still the dominant method for crude steel production, emits roughly 2.3 tonnes of CO₂ per tonne of steel produced. This poses significant sustainability challenges and is pushing regulators to tighten emissions controls and promote low-carbon alternatives.
Electric arc furnaces (EAFs), often used in steel recycling, offer a cleaner alternative. When powered by renewable electricity, EAFs can enable near-zero-emission steel production. This method is already in use and forms the backbone of green steel projects. When paired with direct reduced iron (DRI) technology, hydrogen can be used as a reducing agent instead of fossil fuels. IDTechEx’s report Green Steel 2025–2035 explores these technologies in detail, outlining their benefits, challenges and commercial potential.
Hydrogen as a low-emissions alternative
Green hydrogen, produced via water electrolysis using renewable energy, is emerging as a viable low-carbon energy carrier. It is particularly suited to sectors where electrification is difficult or inefficient. Companies already using hydrogen in industrial processes, such as chemical manufacturers, fertiliser producers and refineries, are expected to lead the early adoption of green hydrogen, given the relatively minor adjustments required to existing infrastructure.
Heavy industries such as steel and long-haul transportation are likely to be major consumers of green hydrogen up to 2040. Hydrogen fuel cells are gaining traction due to their faster refuelling times and longer range compared to batteries. In these cases, green hydrogen provides a sustainable energy source that aligns with decarbonisation goals.
Beyond 2040, green hydrogen is expected to play a growing role in power generation, aviation, and long-duration energy storage, though cost remains a key barrier. Progress in water electrolyser technologies will be crucial to scaling green hydrogen. Advances in component innovation and reduced dependence on critical raw materials will help drive adoption. IDTechEx’s report Materials for Green Hydrogen Production 2026–2036 covers the key technologies and suppliers supporting this evolution.
Green energy technologies rely heavily on advanced materials. Composite materials like carbon fibre offer the strength and lightweight properties needed for efficiency and durability. However, their own production processes can be energy-intensive and difficult to decarbonise.
Also read: Advanced tracer technology for CCS monitoring