Hinkley Point A nuclear power station

Hinkley Point A nuclear power station
Hinkley Point A nuclear power station
	File:Hinkley Point A Power Station - geograph.org.uk - 1951616.jpg Hinkley Point A twin buildings housing the Magnox reactors
	Hinkley Point A nuclear power station is located in Somerset Location of Hinkley Point A nuclear power station in Somerset
Country	England
Location	Hinkley Point, Somerset, South West England
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Status	Decommissioned
Construction began	1957
Commission date	1965
Decommission date	2000
Owner(s)	Central Electricity Generating Board; (1965–1989); Nuclear Electric; (1989–1996); Magnox Electric; (1996-2005); Nuclear Decommissioning Authority; (2005-Present)
Operator(s)	Magnox Limited
Nuclear power station
Reactor type	Magnox GCR
Reactor supplier	English Electric & Babcock & Wilcox Ltd
Fuel type	Magnox
Fuel supplier	British Nuclear Fuels Limited
Cooling source	Sea water Severn Estuary
Power generation
Make and model	English Electric
Units decommissioned	2 x 250 MWe (Net. 235 MWe)
Thermal capacity	2 x 960 MWt (Gross)
Nameplate capacity	500 MWe
	Website; Magnox Sites
	grid reference ST211460

Hinkley Point A nuclear power station is a decommissioned Magnox Nuclear power station located on a 19.4-hectare (48-acre) site in Somerset on the Bristol Channel coast, 5 miles (8 km) west of the River Parrett estuary.

History

The construction of the power station, which was undertaken by a consortium backed by English Electric, Babcock & Wilcox Ltd and Taylor Woodrow Construction,^[2] began in 1957. The reactors and the turbines were supplied by English Electric.^[3]

The power station, which is currently being decommissioned, had twin Magnox reactors, each supplying steam to three English Electric 93.5MW turbine generator sets which were all together across both reactors designed to produce 500 MWe but, after de-rating of the reactor power output due to corrosion concerns, both reactors combined produced 470 MWe.^[4]

The design followed the principles established by the Calder Hall nuclear power station, in that it used a reactor core of natural uranium fuel in Magnox alloy cans within a graphite moderator, all contained in a welded steel pressure vessel. The core was cooled by CO₂ pumped by six nominal 7,000 hp (5.2MW) gas circulators, which transported the hot gas from the core to the six Steam Raising Units (boilers) via steel ducts. The gas circulators could be driven by induction motors supplied with mains electricity or, when steam was available, dedicated variable speed turbo alternator sets. The design pressure of the gas circuit was 185 psig, and the temperature of the gas leaving the reactor was 378 °C, although this was later reduced when the hot CO₂ was found to be corroding the mild steel components of the gas circuit more quickly than had been anticipated. Like all Magnox reactors, Hinkley Point A was designed for on-load refuelling so that exhausted fuel elements could be replaced with fresh without shutting down the reactor.

While primarily planned for peaceful electricity generation, Hinkley Point A was modified so that weapons-grade plutonium could be extracted for military purposes should the need arise.^[5]^[6]

Like all other British Magnox power stations, Hinkley Point A had numerous backup systems to maintain an excellent safety record throughout its career. Emergency backup systems consisting of 5 x 1,050hp English Electric 8CSV Diesel Generating Sets were installed at the station, which provided power to both reactors gas circulation systems if power was lost in the event of a SCRAM.

Gas circulator design problem

File:Hinkley Point B reactors.jpg

Hinkley Point A reactors seen from the south side of the site

In August 1963 during a hot run test on the first reactor, which had not then been loaded with nuclear fuel, problems were encountered due to noise from the single stage axial flow gas circulators. This could be heard up to five miles away, and personnel working at the station had to wear ear defenders. After unexplained drops in the mass flow rate and motor driving current in number 3 and 5 gas circulators, the hot run tests were stopped and the gas circuit opened up. Severe mechanical damage to the blading and diffuser sections of the number 3 and 5 gas circulators was observed. Large sections of the diffusers had broken away, and extensive fatigue cracking was found in the outer tapering shell and central axial cone. Large pieces of the diffuser casing had entered the gas circulator blades and caused heavy impact damage, and large amounts of debris had been transported down the gas duct. The Inlet Guide Vanes (IGVs), which were provided to enable the performance of individual gas circulators to be "trimmed," were found to be extensively damaged, and the rotor blades and outlet guide vanes also had extensive impact and fatigue damage. Large numbers of the nuts and bolts involved had been shaken loose.^[7]

The subsequent investigation determined that the noise was caused by interaction between the IGVs and the rotor blades. The sound pressure levels generated by this noise were high enough to cause rapid fatigue failure in gas circuit components, and major re-design of the gas circulators and associated components was required. The IGVs were scrapped and flow straighteners introduced to smooth the flow of gas into the gas circulator intakes. Much pioneering experimental laboratory work on resonance and sound pressure levels was performed at English Electric's Gas Turbine and Atomic Power Division (APD) facilities at Whetstone, Leicestershire, to support the redesign work, and instrumentation to measure stress and sound pressure levels in the gas circuit during testing was developed. The delay caused severe financial difficulties for the consortium and set the construction schedule back; the station began generating electricity two years late in 1965.^[8]

Closure

Both reactors were shut down in April 1999 to carry out reinforcement work following a Nuclear Installations Inspectorate Periodic Safety Review. Reactor 2 was returned to service in September 1999, but shut down on 3 December 1999 because of newly identified uncertainties in the reactor pressure vessel material properties. Because of the cost of remedying these problems, it was announced on 23 May 2000 that Hinkley Point A would be shut down.^[9]

Hinkley Point A was one of eleven Magnox nuclear power stations commissioned in the United Kingdom between 1956 and 1971. During its 35 years of operation, Hinkley Point A generated more than 103 TWh of electricity, giving a lifetime load factor against design of 34%.^[10]

There are two nuclear power stations at Hinkley Point, the other is Hinkley Point B, operated by EDF Energy. There are also two other power stations nearby at Oldbury and Berkeley on the banks of the River Severn. In October 2013, the UK government announced that it had approved the construction of Hinkley Point C. The plant will be completed in 2023 and remain operational for around 60 years.^[11]

References

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↑ Nuclear Development in the United Kingdom
↑ Nuclear Power Plants in the UK
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↑ "Investigations into the failure of gas circulators and circuit components at Hinkley Point nuclear power station" Rizk, W and Seymour, D F Proceedings of the Institution of Mechanical Engineers, v179 1964 p627-703
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Hinkley Point A nuclear power station

Contents

History

Gas circulator design problem

Closure

References

See also

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