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The system will be deployed for the first time in Egypt. (Image source: STRYDE)

Exploration & Production

Egypt’s oil and gas exploration capabilities are taking a step forward with the first-ever deployment of cutting-edge nodal technology for onshore seismic acquisition

Leading exploration services company ARGAS has purchased 30,000 Range+ STRYDE nodes and STRYDE’s Nimble Seismic System. These will be deployed on a very large 2D seismic survey in Egypt to acquire high-quality seismic data across highly prospective sedimentary basins, supporting oil and gas exploration efforts in one of Egypt’s most promising frontier regions.

The ultra-lightweight Range+ nodes, coupled with a state-of-the-art, high-capacity charging, harvesting, and QC ecosystem, enable thousands of nodes to be rotated daily.This ensures faster acquisition cycles and rapid delivery of high-quality seismic data, giving ARGAS a competitive edge in Egypt’s rapidly evolving energy sector.

“After working with STRYDE’s system on previous projects, it became clear that this technology brings a significant advantage to both us and our clients,” said Soufiane Azzi, Director of Commercials and Collaborations of ARGAS. “The system has proven to drastically reduce deployment time, reduce headcount and vehicles count, simplifies logistics, improve recording time window, and delivers excellent seismic data. We are proud to be the first to bring node technology to Egypt.”

“This is a major milestone, not only for STRYDE and ARGAS, but for Egypt’s energy sector as a whole,” said Mehdi Tascher, sales director at STRYDE.“ARGAS’s purchase is spot on, and reflects the growing demand for scalable and efficient seismic acquisition systems that enable high-density data capture for superior subsurface imaging, empowering more confident and informed exploration decisions.”

The acquisition will combine the global footprint of APC and leading technology of GRC. (Image source: Adobe Stock)

Industry

Saudi Arabia-headquartered Alkhorayef Petroleum Company (APC), a global leader in artificial lift solutions, has acquired GRC Technologies LLC, supplier of precision downhole gauges and well instrumentation

With the acquisition, APC now adds ESP sensors to its range — which includes ESP pumps, motors, protectors, intakes, gas handling devices and surface electrical equipment — strengthening its position as a global end-to-end ESP solutions provider.

GRC Technologies will deliver accurate and reliable data, analytics and scalable digital intelligence, helping customers to optimise performance and extend asset life and opening the path to autonomous operations, where data-driven insights evolve into predictive, autonomous field optimisation. By combining the research and development strengths of both APC and GRC Technologies, the integration of artificial intelligence into artificial lift optimisation can be significantly advanced.

“GRC has been a quiet powerhouse in the ESP industry for a century. By joining the APC family, we are expanding our capability, closing the physics gap and positioning ourselves to deliver greater innovation and reliability for our customers,” said Mohamed Doghmi, president, Alkhorayef Petroleum Company.

“For over 100 years, GRC has set the standard for gauge reliability in the world’s most challenging wells. With APC’s resources and support, we will remain the trusted independent supplier our customers rely on, while accelerating our journey from gauges to intelligence — and ultimately from knowledge to autonomy,” said William Milne, senior director, GRC Technologies.

The inauguration of the new plant. (Image source: Farabi Petrochemicals)

Petrochemicals

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.”

Weatherford has launched Weatherford Industrial Intelligence at the company’s flagship FWRD 2025 Technology Conference in Houston

Weatherford Industrial Intelligence contextualises the physical world through physics-based and data-driven software. This delivers actionable insights for every end user, from engineers to executives, resulting in greater reliability, improved efficiency, and enhanced performance across the energy value chain.

The new portfolio sees the integration of Modern Edge, which enables customers to modernise their edge operations and facilitate autonomous production, with the flexibility to expand operations, while optimising resource usage and reducing costs. It features:
Weatherford Autonomous Surveillance Platform (WASP) – Provides full-time remote visibility above, below, and on-surface infrastructure and assets using a network of distributed fibre optic systems, cameras, and IoT devices.
R2TUs Edge Device Family – Family of Edge Devices with embedded physics and empirical models, as well as network models that are self-connected and powered to deliver closed-loop automation in the field.
MetaFlow Virtual Flow Meter (VFM) – Delivers accurate, real-time flow measurements using AI and physics-based models in conjunction with existing and new flow meters.

Unified data model

Weatherford is also advancing its own unified data model through its Synsera Unified Data Model, which integrates multi-asset, multigeneration asset metadata across operations into a structure of the customers’ choosing. By combining operational and financial analysis into an API-supported framework, the platform enables smarter decision-making and streamlined workflows across facilities.

In addition, the WFRD Software Launchpad gives customers a single, comprehensive industrial SaaS platform to manage all of their software needs, providing a secure and centralised point of access for all Weatherford and partner-built applications while also giving customers the ability to publish their own applications to be consumed across the enterprise.

Girish Saligram, president and chief executive officer of Weatherford, commented, “Weatherford Industrial Intelligence empowers our customers to accelerate adoption, regardless of infrastructure maturity, by integrating our software, our partners’ software, and our customers’ systems with any hardware. With domain intelligence embedded at the edge and grounded in decades of engineering expertise, we deliver automation that drives safer operations, greater efficiency, and stronger returns.”

The webinar will transform confined space inspections. (Image source: Flyability)

Webinar

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.

Shipping is seen as one of the most promising opportunities for low-carbon ammonia and methanol. (Image source: Adobe Stock)

Energy Transition

While ammonia and methanol are gaining traction as low-carbon fuels and hydrogen carriers to support the global energy transition, large-scale adoption is slow due to uncertain demand, says data and analytics company GlobalData

Demand for low-carbon ammonia and methanol is being driven by industries such as shipping, power generation, fertilizers, and chemicals, given their potential to decarbonise existing operations. GlobalData’s Strategic Intelligence report, “Ammonia and Methanol in Energy Transition,” reveals that countries such as Japan, South Korea, China, and members of the European Union are backing low-carbon projects, while companies including Yara, Maersk, CF, and Mitsubishi are exploring large-scale investments to boost their production.

Low-carbon ammonia capacity is estimated to grow to nearly 250 million tonnes per annum (mtpa) by 2030, with more than 460 upcoming plants globally. Low-carbon methanol is also projected to grow, with plant numbers approaching 150 by 2030. However, many projects are in early stages of development, with some hydrogen-linked initiatives already seeing delays or cancellations.

The report also highlights that low-carbon ammonia and methanol are closely linked to the scaling of hydrogen, acting as carriers for transport and storage. However, growth depends on stronger infrastructure commitments, technology advancements, and regulatory requirements. Shipping is seen as the most promising immediate opportunity, but significant investment and regulatory clarity are required to move beyond pilots.

Ravindra Puranik, Oil and Gas analyst at GlobalData, commented, “Low-carbon ammonia and methanol could complement the energy transition by acting as fuels and hydrogen carriers, but their role is far from guaranteed. Cost competitiveness, safety standards, and infrastructure development will be critical. Without supportive regulation and faster project execution, many of the current net-zero ambitions may not translate into reality.

“Low-carbon ammonia and methanol initiatives had a promising start earlier this decade. However, the pace of development is already slowing, with some high-profile hydrogen projects seeing cancellations or postponement. Combined with high production costs and technical challenges in handling, this raises doubts about whether low-carbon ammonia and methanol can achieve the scale once envisioned. These challenges underline the gap between announced capacity and what will realistically materialise by 2030.”