More power and updated design revealed as nuclear power team targets first place in the assessment queue in Autumn 2021

More power and updated design revealed as nuclear power team targets first place in the assessment queue in Autumn 2021

(Press release Rolls-Royce:) 17 May 2021 - The consortium, led by Rolls-Royce, which is creating a compact nuclear power station known as a small modular reactor (SMR), has revealed its latest design and an increase in power as it completes its first phase on time and under budget.

It has also announced it is aiming to be the first design to be assessed by regulators in the second half of 2021 in the newly-opened assessment window, which will keep it on track to complete its first unit in the early 2030s and build up to 10 by 2035.

As the power station’s design has adjusted and improved during this latest phase – with more than 200 major engineering decisions made during this latest phase – the team has optimised the configuration, efficiency and performance criteria of the entire power station , which has increased its expected power capacity, without additional cost, from 440 megawatts (MW) to 470MW.

The refreshed design features a faceted aesthetic roof; an earth embankment surrounding the power station to integrate with the surrounding landscape; and a more compact building footprint, thanks to successes optimising the use of floor space.

With a focus on continuing its progress at pace, the UK SMR team is transitioning from being a collaborative consortium to a stand-alone business, which will deliver a UK fleet of power stations to become a low carbon energy bastion alongside renewables, while securing exports to make the power station a key part of the world’s decarbonisation toolkit.

The power station’s compact size makes it suitable for a variety of applications, helping decarbonise entire energy systems. Each power station can supply enough reliable low carbon power for around one million* homes, or be used to power net zero hydrogen and synthetic aviation fuel manufacturing facilities, desalination plants or energy intensive industrial sites.

Tom Samson, Chief Executive Officer of the UK SMR consortium, said: ‘Nuclear power is central to tackling climate change, securing economic recovery and strengthening energy security. To do this it must be affordable, reliable and investable and the way we manufacture and assemble our power station brings down its cost to be comparable with offshore wind at around £50 per megawatt-hour. As we reach the end of our first phase, I’m proud that our team has designed a product that can be commoditised to provide the scale required to be a key part of the world’s decarbonisation efforts. We are ready to go and hope to be first in line to start the rigorous Generic Design Assessment process in the Autumn of this year.’

In the UK alone the power station programme is forecast to:

  • create 40,000 regional UK jobs by 2050
  • generate £52 billion of economic benefit
  • have 80% of the plant’s components sourced from the UK
  • target an additional £250 billion of exports – memoranda of understanding are already in place with Estonia, Turkey and the Czech Republic
  • cost initially c.£2.2bn per unit dropping to £1.8bn by the time five have been completed
  • operate for at least 60 years

The design, which will be finalised at the end of the regulatory assessment process, proposes that all used fuel will be stored on each site for the lifetime of the plant.

The power station’s design cuts costs by using standard nuclear energy technology used in 400 reactors around the world, so no prototyping is required. The components for the power station are manufactured in modules in factories, before being transported to existing nuclear sites for rapid assembly inside a weatherproof canopy. This replicates factory conditions for precision activities and further cuts costs by avoiding weather disruptions. The whole sequence secures efficiency savings by using streamlined and standardised processes for manufacturing and assembly, with 90% of activities carried out in factory conditions, helping maintain extremely high quality. In addition, all spoil excavated will be reused on site to build the earth embankment, removing the need for it to taken off site, reducing road journeys that are both financially and environmentally costly.

The consortium members feature the best of nuclear engineering, construction and infrastructure expertise in Assystem, Atkins, BAM Nuttall, Jacobs, Laing O’Rourke, National Nuclear Laboratory, Nuclear Advanced Manufacturing Research Centre, Rolls-Royce and TWI. Consortium colleagues have worked in integrated teams – remotely during Covid – across all aspects of the first phase of the programme to progress the design and ensure innovations were targeted only at elements of the power station that would drive down costs.

The power stations will be built by the new UK SMR business, before being handed over to be operated by power generation companies. In November 2020 the consortium signed a Memorandum of Understanding with US giant Exelon Generation to pursue the potential for Exelon Generation to operate compact nuclear power stations both in the UK and internationally.

About Rolls-Royce Holdings plc

  1. Rolls-Royce pioneers the power that matters to connect, power and protect society. We have pledged to achieve net zero greenhouse gas emissions in our operations by 2030 [excluding testing] and joined the UN Race to Zero campaign in 2020, affirming our ambition to play a fundamental role in enabling the sectors in which we operate achieve net zero carbon by 2050.
  2. Rolls-Royce has customers in more than 150 countries, comprising more than 400 airlines and leasing customers, 160 armed forces and navies, and more than 5,000 power and nuclear customers.
  3. Annual underlying revenue was £11.76 billion in 2020 and we invested £1.25 billion on research and development. We also support a global network of 28 University Technology Centres, which position Rolls-Royce engineers at the forefront of scientific research.

*Calculated using Ofgem’s 2020 Typical Domestic Consumption Values ranges of c3100 kwh per household annual electricity usage and represents a new output baseline for this programme. 470 MW is 11280 MWh/day, and 4.1 million MWh/year, which is 4.1 billion kWh/year. At 3100 kWh per household this is 1.3 million homes. This takes no account of capacity and availability factors and other variables inherent in this type of calculation therefore around 1 million homes is the quoted estimate.

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