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Kuwait Oil Company (KOC) has announced a new discovery in the Al-Jazah offshore natural gas field

According to a KOC statement, the initial exploration well recorded the highest production rate from a vertical well in the Minagish formation in Kuwait’s history.
Initial tests at the Jazah-1 well indicate production exceeding 29 million cubic feet per day (mcf/d) of natural gas and more than 5,000 barrels a day of condensate, according to the statement.

With an area estimated at around 40 sq. km, the field is estimated to hold potential reserves of around one trillion cubic feet (tcf) of gas and more than 120 mn barrels of condensate, which may be revised upwards with further exploration in surrounding areas.

KOC said the reservoir has low CO2, no hydrogen sulfide and no associated water.

The new discovery follows other offshore discoveries including the Nokhatha field discovery last year, which is estimated at about 2.1bn barrels of oil and 5.1 trillion cubic feet of gas, and the Julaiah field early this year, described by KOC CEO Ahmad Jaber Al Eidan as a “strategic breakthrough.”

This is a result of KOC’s push to develop its offshore resources as it seeks to boost gas output and reduce its dependence on imported LNG. Phase 1 of its offshore exploration programme, consisting of the drilling of six wells, is underway, with planning for Phase Il also underway, with nine additional locations identified for further exploration and appraisal, according to Al Eidan.

Kuwait is the fifth-largest producer in OPEC, currently producing approximately 2.7mn bpd of oil, with plans to increase its production capacity to 4mn bpd by 2035. Al Eidan commented in an earlier interview with Oil Review Middle East, “Our strategy focuses on optimising production from mature assets, accelerating the development of high-potential reservoirs, and unlocking new growth frontiers, both onshore and offshore, to ensure sustainable and resilient capacity growth.”

He said the new offshore discoveries “significantly expand Kuwait's hydrocarbon frontier beyond the onshore legacy and add a new dimension to our long-term production sustainability,” adding that offshore development will play an increasingly vital role in KOC’s production mix in the coming decade.

The northern Emirates is considering natural hydrogen as a medium for power generation or other industrial uses, as Sharjah National Oil Corporation and Siemens Energy has collaborated with Decahydron, a natural hydrogen and carbon mineralisation company, to assess its feasibility

The collaboration expands ongoing technical studies by Decahydron and SNOC on an existing exploration well in Sharjah to assess the Emirate’s natural hydrogen potential. Early results are encouraging, with drilling planned for 2026 in order to provide detailed resource data and measured flow rates.

The project intends to avoid storage and transport costs while creating a new low-carbon energy source for the UAE, which could be used for energy-intensive facilities such as data centres.

Khamis Al Mazrouei, CEO of SNOC, said, “We look forward to advancing this feasibility study in parallel with our ongoing exploration activities. The potential discovery of natural hydrogen could mark a new chapter in Sharjah’s energy landscape — providing an abundant, naturally occurring source of clean energy. If proven viable, it would not only strengthen Sharjah’s role in the national energy transition but also reaffirm SNOC’s commitment to driving sustainable, secure, and resilient energy solutions for generations to come.”

Khalid Bin Hadi, Managing Director UAE, Siemens Energy, said, “Hydrogen has the potential to be central to the decarbonisation of the power sector, and our technology is ready to enable this transition. This collaboration marks the start of a new initiative to explore the potential of natural hydrogen as a clean, sustainable energy source for the region.”

Arnaud Lager, CEO of Decahydron, said, “Natural hydrogen has the potential to transform the energy landscape. Our early findings suggest that this resource could redefine how clean hydrogen is produced by offering an abundant and continuous supply directly from the Earth. This is the right moment for the energy industry to come together and prepare for the opportunities that natural hydrogen will bring. Our work indicates that Sharjah and the northern Emirates hold exceptional potential, a finding also supported by independent research from the Colorado School of Mines and the Université de Pau.”

Farabi Petrochemicals Company has inaugurated its fourth integrated Linear Alkyl Benzene (LAB) plant in Saudi Arabia

The US$950mn state-of-the-art facility, located in Yanbu Industrial City, adds 120,000 metric tons per year of LAB capacity. Built adjacent to Aramco’s refineries, the plant leverages locally produced kerosene and benzene feedstocks, ensuring world-class integration, efficiency, and sustainability performance.

The new plant underlines Farabi’s commitment to Saudi Arabia’s Vision 2030 objectives of downstream diversification, localisation and GDP growth.

The company also signed a new Memorandum of Understanding (MoU) with Unilever to expand their 20-year strategic partnership. Unilever is the world’s largest buyer of LAB, a key ingredient in household and industrial cleaning products.

The expanded agreement aligns Farabi’s capacity growth with Unilever’s constantly growing global demand in home care products, supporting innovation and sustainable growth. Both companies expressed confidence that this deepened collaboration will generate long-term value and advance their shared sustainability goals.

Eng. Mohammed Al Wadaey, CEO of Farabi Petrochemicals Group, said, “Farabi Petrochemicals is proud to be the world’s largest producer of LAB and NP which is the result of consistent growth, product diversification, advanced industrial infrastructure and dedication of our talented employees. We actively support Vision 2030 driving economic diversification, creating job opportunities, contributing to Saudi Arabia’s position as a global industrial hub, while maintaining a positive impact in the environment.”

Halliburton has launched LOGIX unit vitality, an AI-powered platform that delivers actionable insights that improve equipment readiness, reduce downtime, and optimise operational efficiency

The system monitors cementing equipment in real-time, prepares for upcoming jobs, and provides direct insight into equipment operation and performance.

The platform uses real-time data and AI-driven models to provide actionable insights into equipment readiness that help increase reliability, efficiency, and barrier execution consistency. The system connects critical cement unit components to intelligent controllers and monitors more than 400 real-time parameters to ensure optimal performance. Data flows into a secure cloud, where machine learning models immediately process and analyse it to deliver constant insight into equipment health, operational readiness, operator performance, and preventive maintenance recommendations.

In high-demand cementing environments, equipment reliability is essential. Traditional maintenance methods, such as manual inspections and scheduled tests, often miss early signs of wear. This approach can lead to failures between inspections, unplanned downtime, and fails to provide real-time insights into equipment health.

LOGIX unit vitality combines the power of AI with human expertise to operate smarter, respond faster, and execute with confidence. This system supports Halliburton's land-based Elite and the new Elite Prime cement units. Offshore equipment deployment will begin in 2026.

“LOGIX unit vitality delivers unprecedented visibility into equipment health and operator performance. Artificial intelligence (AI) and real-time data transform equipment maintenance from reactive to predictive to help customers gain greater insight into their operations and reduce non-productive time,” said Daniel Casale, vice president, Cementing, Halliburton.

The LOGIX automation and remote operations family of solutions includes analytics and visualisation services that deliver reliability, consistency, and efficiency. This enables smarter decisions, improved performance, safer operations, and lower total cost of ownership. LOGIX™ automation and remote operations helps provide the insights and solutions that operators need to maximize their asset value. With real-time adaptability from machine learning algorithms and dynamic adjustment of drilling parameters, LOGIX™ automation and remote operations helps ensure optimal operations even in difficult geological formations.

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.

Register for the free webinar here.

Fadi Al-Shihabi, sustainability solutions lead, KPMG Middle East, discusses how decarbonisation is transforming the lubricant oil industry and accelerating the Middle East’s journey to net zero

The lubricant (lube) oil sector is under growing pressure to minimise its environmental footprint as industries worldwide confront the realities of climate change. A rapidly growing industry in the UAE, it is currently estimated at 166.27mn litres, and is expected to reach a staggering 202.68mn litres by 2030. In the Middle East, where the current lubricant market is estimated at 2.94 billion litres and expected to reach 3.31bn litres by 2030, similar trends are evident in Saudi Arabia, Oman, and Qatar.

From the automotive industry to power generation, the lubricant oil sector is a widely growing area. It plays a critical role in keeping engines, machinery, and industrial systems operating efficiently, but its traditional production, packaging, and end-of-life management contribute significantly to greenhouse gas (GHG) emissions.

According to the International Energy Agency (IEA), oil and gas operations, including extraction, processing, and refining, account for approximately 5.1 Gt CO2e annually, or about 15% of global energy sector emissions. To remain on track for net-zero by 2050, these emissions must fall by over 60% by 2030.

The UAE has set itself enormous emissions targets – the UAE Net Zero by 2050 strategic initiative aims to achieve net-zero emissions by 2050 – with stakeholders in key sectors, including energy, implementing projects to decarbonise in line with their needs and growth requirements. Saudi Arabia’s Circular Carbon Economy framework and Oman’s Net Zero 2050 pledge echo similar decarbonisation ambitions.

The deployment and use of clean energy solutions is one of the UAE’s main pillars to address climate change and reduce GHG emissions. The country began financing clean energy projects more than 15 years ago and has invested over US$40bn in the sector to date. The Middle East region as a whole is set to receive over US$75bn in investments for renewable energy projects by 2030, according to a report released by the Energy Industries Council (EIC). Ahead of the COP28 summit in the UAE in 2023, more than 60 top executives from the oil and gas, cement, aluminium and other heavy industries agreed to cut their emissions to meet their climate obligations.

Within the lubricants sector, electrifying process heat, cutting methane leaks, and using low-emissions hydrogen, particularly in energy-intensive refining steps like hydrotreating and hydroisomerisation, are vital for efficiency improvements. These innovations are critical as it is estimated that a single liter of lubricant can generate over 3.5 kg CO₂e. Refineries across the GCC are piloting hydrogen and CCUS technologies to curb emissions in lubricant production.

Innovation powering the lubricants industry

The journey of lube oil begins with crude oil extraction, followed by vacuum distillation to separate heavier fractions suitable for base oil production. These base oils undergo further refining processes such as hydrotreating, hydroisomerisation, dewaxing and other processes, enhancing their viscosity, stability, and longevity.

Recent innovations in catalyst technology and feedstock selection are driving both product quality improvements and emissions reduction. Producers are also blending biomass-derived feedstocks with conventional inputs to create lower-carbon base oils. These bio-based oils perform similarly to fossil-based ones but have less carbon footprint and can be processed using existing infrastructure. Scientists are also exploring entirely renewable base oils.

However, innovation doesn’t stop at production. Digital monitoring tools help reduce lubricant waste during use. For example, Finnish company Lassila & Tikanoja installed real-time oil monitoring across its hydraulic systems and reduced oil use by 13,400 litres over four years, saving around 10 tonnes of CO₂e annually. They also cut lubricant-related emissions by up to 80% through smarter maintenance without affecting performance.

Packaging and handling

When it comes to packaging, manufacturers are increasingly optimising designs by reducing material use and enhancing handling and distribution. While traditional rigid plastics and metals have historically provided the necessary protection, they also present significant challenges in terms of disposal and GHG emissions.

Consequently, the lubricant industry is undergoing a transition toward low-carbon packaging alternatives that can maintain safety and performance while addressing environmental concerns. Lightweighting and design optimisation reduce raw material demand, shipping weight, and CO2 emissions per litre delivered, without compromising safety or performance.

TotalEnergies has been at the forefront with the integration of 50% post-consumer recycled (PCR) HDPE in its premium lube oil bottles, launched in France and Belgium since September 2023. These bottles retain the same weight, design, and performance while significantly reducing the carbon footprint.

Lowering cradle-to-grave emissions

Beyond production and packaging, extending lubricant life is key to decarbonisation. Modern additives have enabled lubricant change intervals to increase from 5,000 km in legacy vehicles to upwards of 30,000 km in modern engines.

Bio-based or biomass-balanced additives further support environmental goals by reducing the emissions linked to additive manufacture and enhancing overall oil performance. The result is less frequent oil manufacture, transport, and disposal.

As the UAE accelerates its journey towards decarbonisation, these steps will be crucial in ensuring the responsible end-of-life management of lube oils. Technological advancements and environmentally friendly formulations will create new growth avenues and set a new benchmark in the UAE’s industrial revolution. As neighbouring countries pursue similar ambitions, regional collaboration in innovation and policy will be key to transforming the Middle East lubricant landscape.