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The PWR2 was developed for the Vanguard-class Trident missile submarines and is a development of the PWR1. The first PWR2 reactor was completed in 1985 with testing beginning in August 1987 at the Vulcan Naval Reactor Test Establishment. The reactor fuel is highly enriched uranium (HEU) enriched to between 93% and 97%. The latest PWR2 reactor ...
The first reactor, PWR1, is known as Dounreay Submarine Prototype 1 (DSMP1). The reactor plant was recognised by the Royal Navy as one of Her Majesty's Submarines (HMS) and was commissioned as HMS Vulcan in 1963. It went critical in 1965. HMS Vulcan is a Rolls-Royce PWR 1 reactor plant and tested Cores A, B and Z before being shut down in 1984 ...
Current U.S. naval reactors are all pressurized water reactors, [4] which are identical to PWR commercial reactors producing electricity, except that: They have a high power density in a small volume and run either on low-enriched uranium (as do some French and Chinese submarines) or on highly enriched uranium (>20% U-235, current U.S ...
The boats of the Astute class are powered by a Rolls-Royce PWR2 (Core H) (a pressurised water reactor) and fitted with a pump-jet propulsor. The PWR2 reactor, which was developed for the Vanguard-class ballistic missile submarines, has a 25-year lifespan without the need for refuelling.
Reactor Fuel Assemblies: 257 Reactor Fuel: Advanced 17x17, 14 ft. Active Core Length: 4.2 meters Coolant System Loops: 4 Coolant Flow: 7.64 m 3 /s/loop Coolant Pressure: 15.5 MPa Steam Generator Type: 90TT-1 Number of Steam Generators: 4 Reactor Coolant Pump Type: 100A Number of Reactor Coolant Pumps: 4 Reactor Coolant Pump Motor Output: 6 MWe
Pages for logged out editors learn more. Contributions; Talk; PWR2 reactor
These experimental designs (all of which shared the BWR-1 classification despite their divergent designs) used fuel rod bundles in 6×6, 7×7, 8×8, 9×9, 11×11, and 12×12 configurations, but GE's 9×9 bundle later used in BWR/2–6 reactors is different from the one used in the BWR/1 era. [2]
The finished fuel rods are grouped in fuel assemblies, called fuel bundles, that are then used to build the core of the reactor. A typical PWR has fuel assemblies of 200 to 300 rods each, and a large reactor would have about 150–250 such assemblies with 80–100 tons of uranium in all.