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Oman’s Ministry of Energy and Minerals has announced the offering of five concession areas in the oil and gas sector for competitive bidding to local and international petroleum companies

The five concession areas are distributed across a wide geographical area and have significant geological potential, according to the Ministry. They are as follows:
· Blocks 12 and 16: Located in the “Greater Barik Area” in central Oman, covering areas of 5,050 sq km and 4,496 sq. km respectively.
· Block 55: Located in the “Eastern Flank Province”, spanning an area of 7,564 sq. km.
· Blocks 42 and 45: Located in the “Sharqiyah Sands Basin” and surrounding areas, with Block (42) covering 30,682 sq. km and Block (45) covering 5,483 sq. km.

The Ministry explained that the application process goes through several stages, including reviewing the available opportunities, registering and submitting the required documents, obtaining the technical data, and then submitting proposals through the designated platform before the deadline. Companies interested in participating can review the tender details through the tender website via the QR Code. Registration will commence on 12 April 2026 and continue until 30 September 2026, with results to be announced following the completion of the technical and financial evaluation of the submitted bids.

The Ministry affirmed that the bid round is part of its ongoing approach to enhancing the investment environment and improving transparency, thereby contributing to attracting quality investments, strengthening international partnerships, transferring modern technologies, and maximising the added value of the oil and gas sector, while supporting sustainability and enhancing the sector’s contribution to the national economy, in line with the objectives of Oman Vision 2040.

The launch of the bid round follows the signing of a concession agreement in February between Oman's Ministry of Energy and Minerals and a joint venture of OQ Exploration and Production and Malaysian group Petronas for offshore block (18) in the Sea of Oman covering a 21,000 sq km area, which offers significant frontier exploration potential across diverse geological settings, from shallow to ultra-deep water.

Print everything you need, where you need it! With the first transportable printer to deliver 101.60 mm wide labelling without cords or limits

Automated identification and data capture specialist Brady Corporation launches a new type of hybrid label printer that offers industrial label printing performance in a cordless, portable design.

Larger labels

Brady´s new BradyPrinter i4311 is designed to bridge the gap between stationary benchtop label printer power and mobile flexibility. A well-known limitation for most mobile label printers is the maximum width of the label. Brady´s i4311 marks the new maximum label width at 101.60 mm for connected label printing systems that retain true portability.

The larger print width brings a lot more applications into the mobile label printing range, including perforated work-in-progress tags, common size rating plates and larger cable tags, wraps, sleeves, asset labels, component labels and GHS-compliant chemical labels.

No need to look for power outlets with the i4311. The printer is powered by a battery that can handle 5000 large labels on a single charge. Swapping batteries has been made easy and they can be charged in 3.5 hours.

Easy to integrate

The new BradyPrinter i4311 can print labels from phones, tablets and laptops, and even from central company systems using Brady´s software development kit or ZPL support. In addition to Wi-Fi and Bluetooth connectivity, the i4311 also features ethernet and USB-C connections.

The printer´s on-board 7´´ (17.78 cm) touch screen offers both on-device support as well as the capability to print labels directly from the printer. Users can store on average different 85 000 label templates in the printer that can be completed with an on-board ´fill in´ option, fully responsive to your touch.

Industry feedback

Brady also revealed i4311 printer features that were developed with close involvement from the company´s long-standing customers. As a result, the printer´s footprint was limited to 23 x 23 x 33 cm and 5.9 kg and the device´s easy-to-grip handle was optimised.

A battery-saver was also added for when the printer is not in use and battery-swapping was made even easier.

Portable benchtop

Right in the middle of Brady´s mobile label printer and industrial benchtop label printer line ups now sits the BradyPrinter i4311: a portable printer with the company´s benchtop industrial printing capabilities.

Compatible with more than 1300 Brady label parts, the i4311 can print on a majority of Brady´s reliable, laboratory-tested label materials. Just like other Brady printers the i4311 includes LabelSense technology to automatically set label material burn, size and pre-print settings as soon as a label roll is loaded.

The company´s newest label printer also works with a host of free Brady Express Labels mobile apps. These enable users to select text in an image file for example, and import it for printing on a label. Or to read barcodes with a phone and send them to the printer. With a commanding voice, labels can even be printed completely hands-free, using BradyVoice, a smartphone microphone and the BradyPrinter i4311.

Watch the printer in action & learn more >>

BRADY in the Middle East

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As the Uganda National Oil Company aims to build a crude refinery, it has reached out to a unit of global commodities trader, Vitol, for a US$2bn loan to support the project alongside construction and infrastructure developments

According to Henry Musasizi, Uganda's junior finance minister, this seven-year tenor loan from Vitol Bahrain EC (VBA) comes with an interest rate of 4.92%. The minister worked on advancing the approval process for the credit line and the loan, which involved significant lawmakers, who sanctioned the development with a majority verdict.

Musasizi said that Vitol's support "presents an opportunity to access non-traditional financing to implement. ..projects and support the government in developing national infrastructure."  

Vitol Bahrain EC has a long-standing presence in Uganda's downstream sector, functioning as the sole supplier of refined petroleum products to UNOC, before the state-owned company sells it to retailers across the country.

Alongside the refinery, the loan amount will also be covering road construction, a petroleum products storage terminal and extension of a petroleum pipeline from western Kenya to Uganda's capital Kampala.

Previously, the UNOC also concluded a deal with the UAE-based Alpha MBM Investments, whereby a domestic refinery with a capacity of 60,000 barrels per day is in the pipeline. The agreement accords 60% stake on the refinery to the UAE firm while UNOC retains 40%.

Uganda is looking to begin commercial oil generation starting next year from fields in its west.

Halliburton and Shape Digital have collaborated to advance digital asset performance management through a unified asset view that connects subsurface and surface intelligence

The collaboration extends trusted data, domain science, operational expertise, and applied AI to support predictive, asset-level decision-making over the full production lifecycle.

As production systems come more complex and interconnected, production performance can only improve if reservoirs, wells, networks, equipment, and safety systems can be managed as a single connected asset. Integrating engineering models with operational data provides a clearer system-level view and enables more consistent decision-making throughout production operations.

“At the core of this collaboration is the ability to connect decisions throughout the production system. The integration of subsurface and surface intelligence helps our customers plan with confidence, adapt to change, and execute more consistently throughout the asset lifecycle,” asserted Tony Antoun, senior vice president of Halliburton. “Together with Halliburton, we bring operational intelligence and applied AI into the context of real production systems,” added Felipe Baldissera, CEO of Shape Digital.

Halliburton Landmark’s Digital Field Solver (DFS) decision system has been combined with Shape Digital’s applied AI portfolio: Shape Lighthouse, Aura, and Reef. Landmark’s integrated reservoir, well, and production network models serve as the foundation, while Shape Digital provides expertise in equipment reliability, energy efficiency, and safety throughout surface operations. Together, the solution supports connected decision workflows.

Landmark’s integrated production models receive continuous updates from surface intelligence related to equipment condition and reliability. Shape Digital evaluates live and historical equipment behavior through AI, while Landmark feeds the system context to understand effects on flow, constraints, and production targets. This connection has enabled team to identify constraints earlier and respond more quickly to variability while maintaining alignment irrespective of the changes in operating conditions.

Detailed facilities data such as live and historical operating conditions are brought together with Landmark’s production schedules and real-time production context. Shape Digital then utilises AI and engineering expertise to analyze facilities' performance and energy consumption, while Landmark presents a clear view of how operational adjustments are interacting with production plans and system constraints. This is how team can assess tradeoffs between energy efficiency and production objectives, while maintaining execution stability.

Through Shape Digital’s focus on facilities' health and operational risk indicators, Landmark provides the subsurface context required to understand how risks can propagate throughout the asset. Integrity concerns can be much earlier identified and it helps to improve coordination between subsurface and surface teams during safety-critical decisions.

For a faster alignment on priorities, operations, maintenance, safety, and engineering teams work from a shared system view. The path from insight to action is significantly reduced and teams can be more consistent in production operations.

The collaboration between Halliburton and Shape Digital has paved a path toward decisions grounded in science, informed by intelligent automation, and validated through real-world operations. By maintaining a constant connection between subsurface and surface intelligence, this approach certainly helps operators manage complexity, maintain execution consistency, and maximise performance throughout the asset lifecycle.

In the oil and gas industry, where every second counts and every decision impacts profitability and safety, robust security is not just a luxury – it's a necessity

From protecting critical assets to safeguarding human lives, security systems must meet the highest standards of reliability and performance.

Pelco, a leader in video security, is uniquely positioned to address the challenges faced by oil and gas companies in the Middle East, offering a fresh perspective on how to optimise security systems seamlessly. With our upcoming online event, we invite you to explore how Pelco can help tackle worker safety, asset protection and operational efficiency in this complex industry.

Addressing oil and gas challenges head-on

Oil and gas operations in the Middle East span harsh deserts, sprawling refineries and high-risk offshore environments. Physical, environmental and digital threats are converging, and security systems must evolve to meet these overlapping demands. Our upcoming online event will focus on three critical areas where Pelco's expertise can make a difference:

1. Improve worker safety and HSE compliance

Ensuring worker safety is both a moral responsibility and a regulatory imperative. Health, Safety and Environmental (HSE) compliance is a top priority for oil and gas operations. Pelco's advanced portfolio is designed to help you meet these standards.

Edge-based analytics and intelligent video security can be valuable tools in supporting site safety. These systems can help detect safety incidents, such as slips or falls, especially in areas where oily surfaces, heat or dust create additional hazards. When incidents occur in remote areas, automated detection can prompt faster intervention, thereby closing the gap between the event and the response.

Personal Protective Equipment (PPE) compliance is another key safety concern. High temperatures in the Middle East can lead to discomfort, and in some cases, workers may be tempted to remove protective gear, such as hard hats or vests, for temporary relief. In this case, AI-enabled video analytics can help identify instances of non-compliance, enabling safety teams to address the issue before it becomes a liability.

Zone-based behavioural analytics can help detect when someone enters a restricted or hazardous area or remains in a dangerous zone longer than necessary. For example, loitering detection near flare stacks or storage tanks can support situational awareness and proactive incident mitigation.

2. Improve security and asset protection

From refineries in the desert to offshore rigs in corrosive marine environments, your assets operate under pressure, so your security systems must withstand these harsh conditions. In areas where explosive gases or dust particles may be present, even basic equipment can pose risks. That’s why choosing video solutions built for hazardous environments is critical.

ExSite Enhanced cameras, featuring 316L stainless steel construction and certifications such as ATEX and IECEx, are designed for use in hazardous atmospheres. Whether it’s observing pipeline manifolds, wellheads or chemical storage areas, these systems deliver dependable performance in high-risk environments. In corrosive coastal locations, such as LNG terminals or offshore rigs, Pelco’s anti-corrosion models withstand salt spray, humidity and chemical exposure without compromising visibility.

For perimeter defence, long-range Silent Sentinel cameras give security teams early warning of approaching threats, detecting vehicles, vessels or drones from kilometres away in fog, darkness or dust. These systems are especially valuable for remote desert pipelines or unstaffed offshore installations, where rapid detection is critical to prevent disruptions.

3. Minimise downtime and maximise uptime

Every minute of downtime impacts revenue. For oil and gas operations, the cost of unplanned outages is measured in millions of dollars. With Pelco, your video security can become an operational asset.
Radiometric thermal cameras can detect overheating in transformers, compressors and electrical panels, allowing teams to take action before equipment failure occurs. At the same time, Pelco’s camera image health analytics help ensure your video infrastructure is always performing at its best. Our cameras automatically detect issues such as lens obstructions, misalignment or tampering, reducing the need for manual inspections and helping ensure your security coverage is always clear, optimised and ready when it matters most.

Join us to discover the Pelco advantage

We invite you to join our upcoming online event, where industry leaders and Pelco experts will dive deeper into these challenges and solutions. Together, we'll explore how Pelco can be the missing ingredient to supercharge your security and drive operational excellence in the Middle East oil and gas sector.

Don't miss this opportunity to gain actionable insights and position your operations for success. Register now and discover how Pelco can transform your approach to security.

The Middle East and North Africa (MENA) is set to become the world’s largest hydrogen exporter by 2060, while maintaining a dominant position in global oil and gas markets, according to DNV’s Oil & Gas Decarbonization in the Gulf Region report

The report highlights how Gulf Cooperation Council (GCC) countries are cutting the emissions intensity of their core oil and gas production while continuing to play a central role in global energy supply, presenting a picture of a region approaching the energy transition from a position of confidence and capital strength. Reductions in emissions intensity are occurring alongside continued hydrocarbon production and investment across renewables, electrification, hydrogen, methane abatement, digitalization, and carbon capture.

Since 2005, the GCC has produced nearly 18% of global oil and gas, a share expected to increase as investment continues in low-cost, advantaged resources. As global energy demand increasingly shifts toward Asia, the region’s location and cost competitiveness strengthen its position as a preferred supplier. At the same time, decarbonization measures are becoming an integral part of long-term competitiveness.

“The global energy transition will not progress at the same pace across regions, nor will it follow a single pathway,” said Brice Le Gallo, vice-president & regional director for Southern Europe, MEA & LATAM, Energy Systems at DNV. “In the Middle East, oil and gas remain central to economic stability and global energy security. The key challenge is to reduce their emissions footprint while accelerating investment in the technologies needed for a lower-carbon energy system.”

Electrification is being used to cut Scope 2 emissions from pumps, compressors, and offshore facilities, through grid connections, renewable power, and hybrid solutions. These efforts are supported by energy-efficiency measures and the use of digital tools and artificial intelligence to optimise drilling, reservoir management, and asset operations, reducing energy intensity and emissions per barrel produced.

Methane reduction remains one of the most immediate and cost-effective options for lowering emissions. Across the GCC, routine flaring is planned to be phased out by 2030 and leak detection and repair (LDAR) programmes are increasingly standard. National oil companies are also aligning with international methane initiatives, enabling continued production growth while reducing methane intensity in line with national net-zero targets.

GCC countries are realigning domestic energy systems to reduce oil and gas use domestically and free up volumes for export and low-carbon fuel production. Growth in renewables, electrification of transport and buildings, and efficiency gains are driving this shift. Investment in downstream industries, petrochemicals, and low-carbon fuels is also changing export profiles, moving beyond crude oil toward higher-value and lower-carbon energy products.

With access to low-cost natural gas, strong solar resources, and established industrial and export infrastructure, the region is well placed to scale both low-carbon hydrogen (produced from natural gas with carbon capture) and renewable hydrogen produced through electrolysis. By 2060, the Middle-East and North Africa region is projected to produce around 19 million tonnes of hydrogen and 13 million tonnes of ammonia per year, exporting about 50%, mainly toward Europe and advanced Asian economies.

“Hydrogen, ammonia, and carbon capture are becoming core elements of the GCC’s energy export model,” said Jan Zschommler, market area manager for the Middle East, Energy Systems at DNV. “As emissions requirements tighten, access to international markets will increasingly depend on carbon intensity. Integrating hydrogen production with renewable power, carbon capture, and existing industrial clusters allows the region to remain competitive while meeting these requirements.”

Carbon capture, utilization and storage (CCUS) is also set to grow. In January 2026, the UAE's Supreme Council for Financial and Economic Affairs has introduced Carbon Capture Policy as a further commitment to meeting their carbon reduction targets. Captured CO₂ volumes (including CO₂ removal) are expected to reach around 250 million tonnes per year by 2060, equivalent to roughly 8% of regional energy-related and industrial emissions.

Bioenergy with carbon capture (BECCS) and direct air capture (DAC) combined are expected to remove around 81 million tonnes of CO₂ per year by 2060, helping to offset emissions from sectors that are more difficult to decarbonise.

The full report is available at https://www.dnv.com/energy-transition-outlook/oil-and-gas-decarbonization-in-the-gulf-region/