Article 2T0MM Rolls Royce has 450 MW modular nuclear reactor design

Rolls Royce has 450 MW modular nuclear reactor design

by
brian wang
from NextBigFuture.com on (#2T0MM)

Rolls-Royce's director of technology and engineering, John Molyneux gave more details on Rolls-Royce's new reactor design and the next steps in its development when speaking to the European Young Nuclear Generation Forum event in Manchester, organised by the European Nuclear Society and the UK Nuclear Institute.

Still without a publicized name, Rolls-Royce's design is a pressurized water reactor in a close-coupled four-loop configuration. A team of about 150 people have been working on it for around two years. The first months were taken with major design decisions including the use of a light-water as coolant and moderator and to select the close-coupled arrangement of steam generators as opposed to integrating them into the reactor vessel, or adopting a more spread out design similar to today's large reactors. At 450 MWe the output is higher than other innovative designs, and actually outside the usual range considered to define the SMR market of up to 300 MWe.

They are trying to make a design that is cost competitive with natural gas.

Rolls-Royce believes its SMR design will:
" Provide 450 MW, depending on the configuration, that's the equivalent of up to 160 onshore wind turbines.
" Supply power to the grid in a timely manner at lower cost to the taxpayer and consumer, generating electricity that is at least as cheap (per MW) as power generated by today's large scale reactors - potentially even cheaper when SMRs go into volume production.
" Represent the lowest risk by using proven technology and best value by using a high degree of commercial or standardized off-the-shelf components.

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" Be so compact (16 metres high and 4 metres in diameter) it can be transported by truck, train or even barge.
" Sit within a power station that would be roughly five and half times the size of the pitch at Wembley, which is just one-tenth the size of a typical large-scale reactor site (40,000m2 vs 400,000m2).
" Take just 5 years from the start of construction to the generation of the first electricity.
" Be up and running by 2028, maximizing the UK's first-mover advantage in the race for exports.
" Minimize operating costs such as refueling and the burden of decommissioning.
" Last for 60 years.

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