With the NHS having committed to becoming the world’s first Net Zero national health service, with ambitious targets set for 2040 across directly controlled emissions and 2045 for wider supply chain impacts, one area increasingly under the spotlight is power quality and energy management, says Christian De Knock, Healthcare Divisional manager at Power Control (pictured).
He said: “As Estates and Facilities professionals know, this transformation must be achieved without compromising patient care or operational resilience. This is especially important in the face of rising energy demands, growing digitalisation, and an ageing infrastructure estate. Although often considered in the context of operational risk and business continuity, these elements are now pivotal to the NHS’s sustainability agenda.”
Power Control says that ‘at the heart of this conversation’ lies the uninterruptible power supply (UPS) system, dubbing this ‘a critical technology evolving to meet the dual challenges of energy resilience and carbon reduction’.
Christin De Knock added: “Healthcare environments are uniquely dependent on stable, clean power. Operating theatres, diagnostic imaging suites, laboratory equipment, data centres, and even building management systems require continuous, disturbance-free electricity. Yet many NHS sites contend with legacy infrastructure, fluctuating loads, and increasingly complex electrical ecosystems that are prone to voltage sags, harmonic distortion, and transients.”
Power Control stresses that these issues do not solely pose a threat to uptime and patient safety, but also waste energy. Christian De Knock said: “Power quality problems can lead to inefficient operation of equipment, increased heat losses, and premature asset degradation, all of which contribute to a higher carbon footprint.”
He continued: “UPS systems, traditionally specified for emergency power continuity, are now playing a broader role in mitigating these challenges. Today’s technologies can deliver both clean, conditioned power and enhanced visibility into energy performance. In this way, they become active components of an estate’s Net Zero strategy.”
Modern UPS systems offer significant advancements over legacy solutions, Power Control maintains. The company said: “Online double conversion UPS architectures, now operating at efficiencies in excess of 98%, isolate loads from grid disturbances while minimising losses. Many incorporate intelligent energy-saving modes and real-time monitoring tools that support active energy management at site level.
“Modular UPS designs also allows Estates teams to scale capacity in line with actual demand. This avoids the pitfalls of oversizing, a common issue in older systems that results in unnecessary energy consumption and emissions. Moreover, some UPS systems can interface with building energy management systems (BEMS), battery storage, and even renewable energy installations. This opens up opportunities for participation in demand response schemes and more strategic load management.”
Christian De Knock added: “These features make the UPS more than just a back-up system; it becomes a controllable asset within a low-carbon, digitally integrated infrastructure. The Greener NHS programme and the associated Net Zero Supplier Roadmap make clear that procurement must increasingly favour products that demonstrate transparency, accountability, and low environmental impact throughout their lifecycle.”
Power Control says ‘leading manufacturers are rising to this challenge with more sustainable UPS solutions’. It said: “For instance, UPS systems with up to 90.1% recyclability rates are now available, dramatically reducing environmental burden at end of life. Lifecycle analyses supported by PEP ecopassports provide independently verified data on environmental impact from design through to disposal. This is crucial for evidence-based specification and compliance.
“Certifications such as ISO 14001 reflect a systemic commitment to environmental management and continuous improvement. This ensures that sustainability is embedded not just in the product, but in the entire manufacturing and support process. Working with technology partners that are aligned to these goals helps Estates teams make procurement decisions that support long-term environmental and operational resilience.”
Christian De Knock added: “No single technology will deliver Net Zero for the NHS. It will require a systems-based approach where digital tools, renewable generation, energy storage, and high-efficiency electrical infrastructure work in harmony. Within this framework, UPS systems represent a critical enabler. They support clinical continuity while contributing to carbon reduction goals.
“Importantly, UPS systems should not be considered in isolation, or as late-stage additions to capital projects. Their full value is realised when integrated into the early stages of electrical and energy infrastructure planning. Doing so ensures they are right-sized, future-ready, and capable of supporting both operational resilience and sustainability objectives.”
The drive towards Net Zero is redefining the role of infrastructure across healthcare estates. Power quality and energy management – once primarily risk-mitigation concerns, are now central to a greener, more resilient NHS.
UPS systems, when specified and integrated intelligently, have the potential to make a meaningful contribution to this transformation. They are not just about keeping the lights on in an emergency. They are about building an estate that is cleaner, smarter, and more sustainable, without compromising the vital services it delivers every day.”
