INDUSTRY FOCUS Energy & renewables
Nuclear plant, Missouri Image credit: Michael Gattorna for Pexels
MANAGING OBSOLESCENCE MANAGING OBSOLESCENCE IN THE NUCLEAR INDUSTRY
N
uclear plant operators face an uncomfortable reality: many of the control and monitoring systems still in use today were never
designed to support the full operational lifespan of the facilities they serve.
In the 1980s and 1990s, distributed control systems (DCSs) were typically installed as integrated platforms that incorporated radiological surveillance functionality in the same hardware and software environment. At the time, this made sense. Systems were engineered to the standards of the day, and shorter than those now anticipated. Today, however, nuclear facilities are
routinely expected to operate for at least 80 to 100 years. That fundamental shift has exposed the limitations of tightly coupled control and monitoring architectures, particularly where safety-critical radiation surveillance is concerned.
Over time, industry best practice has evolved
to recognise that DCSs and radiological purposes. A DCS is designed to manage and control industrial processes whereas a RSS exists to protect people and the environment. Separating these systems and ensuring they
risk and prevents faults. This separation is now a standard requirement for new nuclear installations and upgrades across all the UK’s nuclear sites and is supported by the Nuclear Decommissioning Authority (NDA). Early detection of radiological anomalies and the ability to trigger alarms and evacuations quickly are critical. Therefore, these functions must remain operational regardless of what is happening elsewhere in the control architecture. One of the biggest challenges facing nuclear operators is that, while legacy DCS and RSS platforms are becoming obsolete, the facilities
32 April 2026 | Automation
remain operational beyond their original expected service lives. In fact, many buildings are expected to remain operational for decades still to come, making long-term technological support non-negotiable. Replacing an obsolete system in a nuclear
environment is never straightforward. Wholesale replacement of sensors, cabling and disruption, particularly in radiation- controlled areas.
For example, installing new network cables involving digging a cable trench is a major hassle, as all the materials that have been disturbed must be radiation tested and carefully disposed of as hazardous waste. Risk assessments and method statements must also be written up to determine how the new trench will impact radiation protection across the site, making the process even more complicated. This makes it prohibitively time and cost intensive in most scenarios. Therefore, the challenge is not simply to modernise, but to do so intelligently by reusing existing infrastructure wherever possible while bringing systems in line with modern standards. This is precisely the challenge we set out
to address when we began working with many of the radiation protection monitors in use were still current models, but operators needed a way to decouple RSS functionality from DCS platforms.
Our solution was to develop a range of platform capable of interfacing with a wide range of radiation detectors, regardless of manufacturer, while remaining open to future technologies. These systems support diverse network types, including ethernet, radio, LoRaWAN, GSM, and our proprietary
IN THE NUCLEAR INDUSTRY
Conet technology. Conet is particularly valuable because it allows operators to reuse existing cabling for modern digital communications, bypassing the need for expensive rewiring and risk, while allowing the RSS to evolve independently of the primary control platform. Over the past 30 years, this approach has
across the UK’s nuclear sector continue to provide reliable real-time and historical data, supporting both operational safety and regulatory compliance. In nuclear environments, change itself is a risk factor. Every cable replaced, every sensor the ability to upgrade monitoring systems advantage.
For legacy DCS/RSS replacement projects, solution. Its unlimited I/O capacity allows existing radiation monitors to be retained alongside onboarding new ones, while its with modern control room systems. The approach taken in our work across modernisation is not about wholesale replacement. It is about designing systems that can evolve, accommodate legacy equipment and remain supportable for decades. In nuclear environments, that approach is both good engineering practice and essential to maintaining safety and public trust. To give nuclear plant operators peace of mind that they will not encounter the same service support for all its products that remain in service.
As the industry continues to modernise, success will depend not on how quickly new technology can be deployed, but on how carefully it can be integrated into the complex, long-lived systems that nuclear facilities rely on every day. For more information on control and monitoring systems for use in nuclear facilities, download for free on its website.
automationmagazine.co.uk
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