The oil and gas industry has emerged as a significant adopter of the technology. (Image source: GlobalData)

Data and analytics company GlobalData has released a thematic report, Robotics in Oil and Gas, which highlights the role of major oil and gas companies, such as ADNOC, BP, Eni, Equinor, ExxonMobil, Repsol, Rosneft, Shell, and TotalEnergies in the development and adoption of robotics to enhance safety and productivity on the field

With the applications of robotics continuously evolving, the oil and gas industry has emerged as a significant adopter of the technology to improve safety and efficiency of operations. According to the GlobalData report, robots equipped with advanced technologies are yielding increasingly positive results, bringing a continued transformation in the operations of oil and gas companies.

Ravindra Puranik, oil and gas analyst at GlobalData, said, “Robots are proving invaluable to execute complex tasks at production facilities, thereby protecting workers from hazardous environments and reducing the likelihood of costly shutdowns. As a result, companies such as Equinor, TotalEnergies, and Shell are deploying them to work alongside humans on offshore sites. For instance, robotic automation can manage remote operations, such as those conducted on Equinor's Oseberg H platform in the North Sea. Their ability to perform repetitive and mundane tasks with minimal errors is saving time and internal resources for companies. Furthermore, it allows them to deploy field technicians on more critical issues.”

Oil and gas operations are labor-intensive and involve numerous repetitive tasks, many of which occur in hazardous environments and face various obstacles. Robotics presents an excellent solution to many challenges within the industry, as they can handle more strenuous tasks and complex procedures more effectively than humans.

Puranik said, “Robots provide greater reliability and efficiency in completing assigned tasks while also enhancing operational safety. The integration of terrestrial, aerial, and underwater robots is already playing a crucial role in several high-stakes oil and gas projects throughout the value chain. French oil major TotalEnergies, in collaboration with Oceaneering, recently conducted a pilot inspection of subsea pipelines in the North Sea using autonomous underwater vehicles (AUVs).”
Robots can access hard-to-reach areas, carry out tasks beyond human capabilities, and operate continuously without needing breaks. Hence, they are being utilized as effective solutions for conducting inspections in difficult or hazardous environments, thereby avoiding preventing human exposure to such sites. Recently, cleaning of storage tanks is emerging as another prominent use case for robotics with companies, such as Saudi Aramco, Woodside, SK Innovation, and Indian Oil Corp, exploring the potential of robotic crawlers in this application.“Advancements in technology have equipped robots to effectively replace field personnel on oil rigs. Additionally, there is an increase in collaboration between oil and gas companies and technology vendors, enabling the diversification of robotic use cases with the integration of AI, IoT, cloud, and edge computing. These developments are anticipated to drive future growth in robotics within the oil and gas sector, reducing risks to human workers who operate alongside heavy machinery in often remote and challenging environments,” said Puranik.

The wireless steam trap monitoring device. (Image source: Yokogawa)

Yokogawa Electric Corporation has launched a new ATEX-compliant wireless steam trap monitoring device for steam trap status monitoring in steam piping equipment

Developed with thermal utility engineering firm Armstrong International, the new product is part of its Sushi Sensor range in the OpreX Asset Management and Integrity family.

Steam traps are installed on steam distribution pipes, heat exchangers, humidifiers, sterilisers, tracers, and other equipment to remove condensate and ensure efficient heat transfer. Losses from failures in steam traps can reach tens of thousands to millions of US dollars annually. Currently, in most instances, workers are responsible for inspecting and monitoring steam traps wherever they have been installed. While the installation of an automatic monitoring system is an effective way to reduce this inspection workload, the cost of installing such systems has been cost prohibitive. In addition, there is the need to monitor not only the status of steam traps, but also a wide range of related equipment.

By facilitating the timely detection of failures in steam traps, the new product can significantly reduce energy loss. When used in combination with the other wireless pressure sensors, wireless temperature sensors, and wireless vibration sensors in the Sushi Sensor lineup, this device enables the monitoring of a wide range of equipment. Features include:

1. Automatic detection of steam trap status

This device utilises a high-quality temperature sensor and an acoustic sensor to detect the status of steam traps. It can be used in environments with a maximum steam temperature of 440°C.

2. Lower wireless network construction costs

The use of long-range wireless LoRaWAN communication gives this device the ability to communicate at distances of up to around 1km, enabling the monitoring of equipment over a wide area. These monitoring devices can thus be easily installed wherever steam traps are located, and can be connected to a single gateway, thereby holding down network construction costs.

3. Better consistency in inspection quality and less time spent on on-site inspections

The use of Yokogawa’s on-premise GA10 data logging software or other similar cloud-based software will enable the centralised monitoring of steam traps and other equipment wherever they are installed around a plant. Not only will this make for greater consistency in inspection quality, it will mean that on-site inspections do not need to be carried out as frequently.

Hiroshi Tanoguchi, a Yokogawa Electric vice president and executive officer, and head of the Yokogawa Products Headquarters, said, “With this release, we have enriched the Sushi Sensor family of solutions and made it possible to construct networks efficiently and at a lower cost. In the future, we intend to provide this as an energy monitoring solution. Based on steam trap status, this will enable the calculation of projected energy losses in monetary terms and facilitate the creation of maintenance plans, with the priority on high-risk equipment. Through the provision of such highly convenient solutions, Yokogawa is helping its customers reduce their emissions of greenhouse gases and hit their ESG management targets.”

This new product is available in Malaysia, Singapore, Thailand, and Saudi Arabia. It will be later released in the USA, Europe and India in compliance with IECEx, FM, and other explosion-protected standards.

SLB will work with NVIDIA to optimise models to the specific needs of the data-intensive energy industry. (Image source: SLB)

The energy sector is in for a ride as industry pioneers SLB and NVIDIA is cultivating its long-standing collaboration to develop generative artificial intelligence solutions 

The collaboration accelerates the development and deployment of industry-specific generative AI foundation models across SLB’s global platforms, including its Delfi digital platform and Lumi data and AI platform, by leveraging NVIDIA NeMo, part of the NVIDIA AI Enterprise software platform, to develop custom generative AI that can be run in the data centre, in any cloud or at the edge. 

In Nigeria, NNPC Energy Services Limited is in a technical partnership with SLB to boost upstream operations.

SLB will work with NVIDIA to build and optimise models to the specific needs and requirements of the data-intensive energy industry, including subsurface exploration, production operations and data management. This will help unlock the full potential of generative AI for energy domain experts including researchers, scientists and engineers―enabling them to interact with complex technical processes in new ways to drive higher value and lower carbon outcomes.

Energy optimisation

"As we navigate the delicate balance between energy production and decarbonisation, generative AI is emerging as a crucial catalyst for change," said Olivier Le Peuch, chief executive officer, SLB. "Our collaboration with NVIDIA will accelerate the creation of tailored generative AI solutions, enabling our customers to optimise operations, enhance efficiency and minimise their overall footprint." 

The Kaminho Deepwater Project in Angola, where TotalEnergies has onboarded SLB OneSubsea for the delivery of a 13-well subsea production system scope, promises 'greater efficiencies and long-term value', as the partners have also sealed a 10-year deal to leverage next-generation digital solutions. 

“AI offers the energy industry an extraordinary tool for sustainably providing the resource that powers life across our planet,” said Jensen Huang, founder and CEO of NVIDIA. “Custom models created by SLB leveraging NVIDIA NeMo will provide the industry’s scientists and engineers unprecedented insight to speed their work in optimising the energy supplies today and unlocking the clean energy innovations of tomorrow.”

The clamps are designed for versatility. (Image source: Adobe Stock)

Ik Group has launched a subsea pipelines repair company called Norclamp

This is a strategic spin off from IK Subsea, the group's repair clamp business unit, in response to the increasing need for maintenance solutions in the subsea pipeline repair segment. The move ensures the new company's exclusive focus on high-end, standardised clamps to maintain pipeline and production systems. Clamp standardisation reduces lead times and costs, making it ideal for emergency delivery.

The company’s flagship product line is market-ready and includes three distinct standardised clamps – split clamp, compact clamp, and infinity clamp. These clamps are designed for versatility, offering various dimensions and pressure rating options. 

This comes as a timely development as experts predict the subsea market to grow at a 10% annual compound growth rate (CAGR) from 2024 to 2027.

Net zero 2050 goals

As the urgency to achieve net zero 2050 goals determine the strategies of exploration and production companies today, IK Group aims to support their initiatives through life extension services for pipelines infrastructure, or repurposing them for carbon capture, transport, and storage (CCS) and, eventually, for hydrogen supply. 

For industry stakeholders from the African energy market, CCS will be vital in attracting energy investments and eradicating energy poverty from the continent. 

“We have started this journey and will work tirelessly to support the change,” said Eirik Berge, CEO of IK Group.