Dungeness power station

From Wikipedia, the free encyclopedia

Contents

There are two nuclear power stations located on the Dungeness headland in the south east of Kent, England.

[edit] Dungeness A

Dungeness A
Dungeness A

Dungeness A is a legacy Magnox power station, that was connected to the National Grid in 1965 and has reached the end of its life. It possessed two Nuclear reactors producing 223 MW of electricity each, with a total capacity of 446 MW. The reactors were built by The Nuclear Power Group and its turbines by Parsons. [1]

[edit] Closure and Decommissioning

On December 31, 2006 the A Station ceased power generation. It is anticipated that defuelling will be completed by 2009, the turbine hall demolished in 2010 to be replaced by an intermediate level waste store in 2014. The waste store and reactor building will then be placed on a care and maintenance basis until 2103, with final site clearance and closure by 2111. Decommissioning is estimated to cost £1.2 billion. An alternative proposal has been made to accelerate cleanup for completion by 2030. [2]

[edit] Dungeness B

Dungeness B
Dungeness B

Dungeness B is an Advanced gas-cooled reactor (AGR) power station. It began operating in 1983 and has two 600 MW reactors, producing an optimal capacity of 1200 MW (though actual output is 1110 MW [3]); it is due to be closed in 2018 [4]. Its reactors were built by Atomic Power Constructions (APC) and, like the "A" station, its turbines were built by Parsons[5][6].

[edit] HVDC station

From 1961 to 1984, Dungeness power station also housed the mercury arc valves of the static inverter plant converting AC into DC for transmission on HVDC Cross-Channel, the high-voltage direct current power cable carrying electric power across the English Channel to France. In 1983, a new much more powerful inverter at Sellindge replaced this facility.

[edit] Ownership

Both stations were originally built, owned, and operated by the Central Electricity Generating Board (CEGB) (which was a nationalised industry in the UK), but following privatisation of the Electricity Supply Industry and the later part privatisation of the Nuclear power generating industry, they are now vested with two different companies (Magnox Electric, now part of The British Nuclear Group (BNG), and British Energy).

[edit] Location

The stations are built on the largest area of open shingle in Europe, measuring 12 km by 6 km, which has been deposited by the sea and built up over thousands of years. The entire area is moving slowly north and east as the sea moves the shingle from one side of the ness to the other. It is surrounded by a nature reserve Site of Special Scientific Interest (SSSI). A fleet of lorries is used to continuously maintain shingle sea defences for the plant as coastal erosion would otherwise move shingle away at an estimated rate of 6 m per year. Around 30,000 cubic metres of shingle are moved each year. It seems that deposition on the north shore of the ness does not keep pace with demand. In all 90,000 cubic metres are moved each year along parts of the coast between Pett Level and Hythe. This is necessary for the safety of the entire area including the Power Stations. Approximately 100 million litres of cooling water are extracted and returned to the sea each hour, after being heated 12° Celsius (22 °F).

Because of the need for continuous shingle replenishment and increasing sea levels, it is unlikely that the site will be used for any future nuclear power stations once the existing stations are closed.

The relationship of the Power Stations with the ness in time is important. Geological history places the beginning of the promontory, some 3000 years ago, as shingle deposits offshore from Pett Level. From there the evidence suggests that the ness enlarged and migrated up Channel to its present position.

Importantly the ness and the coastline between Pett Level and Hythe are volatile. In recorded history Walland Marsh to the west of the Power Stations has been flooded. In the space of sixty years severe inundation occurred bringing the sea inland to Appledore and the original mouth of the River Rother from north of the ness at Romney to the south at Rye Harbour. The site is a few metres above Mean Sea Level and would be isolated in the event of flooding of the magnitude that submerged big areas of East Anglia and Holland in 1953. Conjecture says that the ‘hurricane’ of 1987 did not bring the sea to the actual stations because there was a low tide at the time. In 1990 the sea is reported to have reached the gates of the A Station and the compound of the National Grid switch house next to the B Station. With global warming, more frequent and powerful storms and their associated waves and surges are possible and might increase the instability of the ness.

[edit] References

  1. Eddison, J (2000). Romney Marsh Survival on a Frontier. Tempus. ISBN 0-7524-1486-0.  Page 139 also reports the 1990 flooding mentioned above. Page 139 also reports the 1990 flooding mentioned above.
  2. Romney Marsh. Retrieved on 5 February 2006.
  3. Kent Against a Radioactive Environment. Retrieved on 20 March 2006.
  4. British Energy. Retrieved on 16 April 2006.
  5. industcards. Retrieved on 16 April 2006.
  6. Going Critical. Retrieved on 16 April 2006.

[edit] See also

[edit] External links

Coordinates: 50°54′50″N, 0°57′50″E

Languages