Nuclear engineers know reactors. This course teaches you the one reactor that is actually being built.

The Rolls-Royce SMR is the most advanced small modular reactor programme in Europe — 18 months ahead of every competitor in Generic Design Assessment, a signed contract with Great British Energy – Nuclear, a confirmed site at Wylfa, and a Final Investment Decision expected in 2029. It is no longer a concept. It is a programme.

Yet most engineers working in or around the UK energy sector have never had a structured, technical explanation of what the Rolls-Royce SMR actually is, how it works, why it costs what it costs, how it is regulated, and what has to happen before concrete is poured at Wylfa. This course fills that gap.

Across seven core sections and approximately seven hours of instruction, you will build a systematic, engineering-grade understanding of the Rolls-Royce SMR from first principles. You will start with why small modular reactors are emerging now — the energy trilemma, the failure of conventional large nuclear, and why the factory-built model changes everything — before moving into the physics, the design, and the deployment.

The design deep dive is the core. You will walk through the 470 MWe pressurised water reactor component by component — the three-loop primary circuit, pressuriser, steam generators, reactor core, control and instrumentation (including the Yokogawa CENTUM VP contract), containment, and passive safety systems — using the published Rolls-Royce SMR plant layout and GDA documentation as your reference.

The factory-built revolution section explains the central innovation: approximately 90% of manufacturing off-site, 16m × 4m transportable modules, a 500-day on-site construction target, and the Sheffield manufacturing facility. You will understand what this means for cost, schedule, and quality — and where the risks remain.

Safety and regulation demystifies the UK Generic Design Assessment: what Step 3 means for Rolls-Royce, what the March 2026 Regulatory Justification Decision represents, and what must happen before a site licence is granted at Wylfa. The section covers defence-in-depth, ONR and Environment Agency roles, waste categories, and how UK GDA status supports the Czech Republic and Sweden regulatory engagements.

The Wylfa deployment section follows the real programme: the GBE-N selection process, the April 2026 contract, the National Wealth Fund £760m loan, the CEZ Group Czech contract, the 2029 Final Investment Decision criteria, the construction timeline to mid-2030s first power, and the £54bn economic impact forecast.

Five expansion modules add depth for engineers who need it: primary systems engineering calculations, project finance and LCOE analysis, digital I&C and cybersecurity, environmental lifecycle and waste, and beyond-electricity applications including nuclear hydrogen, district heating, and desalination.

Every lesson is built for engineers working in or near the nuclear sector — reviewing GDA documentation, writing procurement specifications, assessing technical bids, advising clients, or simply needing a rigorous technical foundation before the UK's biggest infrastructure programme of the next decade goes into construction.

Built by a practising engineer with over fifteen years delivering safety-critical projects across energy infrastructure. If you work in nuclear, energy, or engineering — or you want to — this is the course that puts the Rolls-Royce SMR in your professional toolkit.