Connah's Quay Power Station
Connah's Quay Power Station | |
---|---|
Country | Wales |
Location | Flintshire |
Coordinates | 53°13′56″N 3°04′53″W / 53.232162°N 3.0813°W |
Status | Operational |
Commission date | 1954 |
Owner | |
Operators | British Electricity Authority (1954) Central Electricity Authority (1954–1957) Central Electricity Generating Board (1957–1982) Powergen (1993–2002) E.ON UK (2002–2015) Uniper (2015–present) |
Thermal power station | |
Primary fuel | Natural gas |
Combined cycle? | Yes |
Power generation | |
Units operational | 4 × 330 MW |
Nameplate capacity | 1,420 MW |
External links | |
Website | www |
Commons | Related media on Commons |
Connah's Quay Power Station is the name of the current 1,420 MW gas-fired power station near Connah's Quay in Flintshire in North Wales. The power plant, which is situated on the south bank of the River Dee, is the modern successor to a coal-fired power station which closed in 1984 and demolished in 1992. The replacement gas-powered plant was completed in 1996 and began producing electricity a year later. It originally received its gas from the Point of Ayr terminal, which in turn comes from the offshore gas fields in Liverpool Bay.
The current Connah's Quay Power Station is not to be confused with Deeside Power Station, a similar CCGT power station with two chimneys situated on the north bank of the River Dee, one mile to the east of the Connah's Quay and the Flintshire Bridge.
Coal power station
[edit]The coal-fired power station named Connah's Quay Power Station was opened by Walter Citrine, 1st Baron Citrine, the chairman of the British Electricity Authority, on the 16 September 1954. The station, which was located less than a 1 km (0.62 mi) to the southwest of the current gas-powered station, was built to receive coal from Point of Ayr Colliery. It was brought to the site by special block trains and unloaded in sidings under the control of Rockcliffe Hall signalbox.[1] The water used by the station was cooled by three hyperbolic cooling towers.
The station was initially planned to be 60 megawatts (MW), but this was upgraded when it was realised that energy requirements would demand a larger station. Building work was completed in three stages: 1953, 1955, and 1957. Each stage was the installation of two 30 MW generating sets, giving the power station a total generating capacity of 180 MW.
The electricity output and thermal efficiency of the station during its operating lights was as follows:[2][3][4][5][6]
Year | Electricity output, GWh | Thermal efficiency, % |
---|---|---|
1954 | 15.71 | 25.69 |
1955 | 228.26 | 26.40 |
1956 | 479.91 | 27.00 |
1957 | 750.71 | 27.22 |
1958 | 959.68 | 27.59 |
1961 | 1066.816 | 26.94 |
1962 | 1134.089 | 26.92 |
1963 | 882.688 | 26.84 |
1967 | 1019.216 | 26.46 |
1972 | 550.38 | 24.97 |
1979 | 498.06 | 24.94 |
1982 | 185.94 | 24.70 |
The station was closed in 1984 and demolished in 1992.[7]
Since its decommission and demolition, the site of the old power station has remained undeveloped.
Gas-fired CCGT station
[edit]Construction of Connah's Quay's new gas-fired station began in July 1993. The station, which is a Combined Cycle Gas Turbine (CCGT) plant was built as a turnkey project by GEC Alsthom with all principal equipment supplied by GEC Alsthom divisions. Henry Boot were sub-contracted to undertake the civil engineering and building works.
The station was completed in March 1996 and cost £580m. It was officially opened by MP Margaret Beckett, then-Secretary of State for Business and Trade, on 4 July 1997. In June 1998, the station's visitor centre opened. The station was initially owned by Powergen, who became E.ON UK in 2004 and was transferred to Uniper in 2015. The station is currently Uniper's largest CCGT power station.
As Connah's Quay is a CCGT power station, it runs on natural gas. The plant has four 330 MW modules - hence four chimneys. Each module has a General Electric Frame 9FA gas turbine, a Stein Industrie heat recovery steam generator and a steam turbine; in a single-shaft layout.[8][9] The gas comes via an eighteen-mile pipeline from the Point of Ayr terminal, where gas is received from Eni's (formerly BHP and originally owned by Denver-based Hamilton Oil) Celtic gas fields (Hamilton and Hamilton North) in Liverpool Bay via the Douglas Complex. The station opened soon after the gas from the field was first produced. The station employs 81 people.
Gas treatment
[edit]The Point of Ayr Gas Terminal originally delivered 300 million cubic feet (8.5 million cubic metres) per day at standard conditions of treated gas to Connah's Quay. The fuel gas requirement of power station was about 230 million cu ft (6.5 million m3); this left a gas surplus of about 70 million cu ft (2.0 million m3) per day. The quality of this gas, although adequate for use in the power station, was not suitable for delivery to the National Transmission System (NTS). Because of the high nitrogen content (8–11 mol %) the Wobbe number was too low (45.9–48.1 MJ/m3) and the total sulphur content (35 ppm) was too high. A gas treatment plant with a capacity of 200 million cu ft (5.7 million m3) (for times when the power station operated at reduced capacity) was constructed at Connah's Quay to treat the gas to a quality suitable for delivery to the NTS.[10] The plant was owned and operated by PowerGen (now E.ON UK) and started up in November 1997, the plant was built by Costain's, the capital cost of the project was £40 million.
Current output
[edit]In the gas treatment plant gas passes through molecular sieves to remove sulphur to less than 15 ppm and water to less than 1 ppm to prevent ice formation in the downstream refrigeration plant. The dry sulphur-free gas passes through an activated carbon bed to remove any mercury to protect the downstream aluminium heat exchangers. The gas then passes to the cryogenic nitrogen removal system where it is cooled to -100 °C by Joule–Thomson chilling. In the pre-separation column the gas is separated into a methane stream and a nitrogen-rich stream. In the low temperature (-185 °C) double column the nitrogen-enriched gas is separated into the reject nitrogen stream containing less than 1.5% methane and a low pressure methane stream containing less than 1.5% nitrogen. The liquid methane stream is pumped to 10 bar and then to the sales gas compressors. The reject nitrogen stream is heated and used to regenerate the molecular sieves. Then the sulphur-rich gas is burnt in a thermal oxidiser. There are four electric motor-driven sales gas compressors each of capacity 50 million cu ft (1.4 million m3) per day at standard conditions with a discharge pressure of 55-75 barg. Gas was exported through a 30-inch 3 km pipeline to Burton Point where it was delivered into the National Transmission System.
As the production of gas from the offshore field declined so there was no longer a surplus of gas available at Connah's Quay. The Burton Point terminal is now identified by National Grid as an NTS offtake supplying gas to Connah's Quay power station.
References
[edit]- ^ "Connah's Quay Power Station". incebps.org.uk. British Electricity Authority. 1954. Retrieved 25 November 2008.
- ^ Garrett, Frederick C., ed. (1959). Garcke's Manual of Electricity Supply vol. 56. London: Electrical Press. pp. A-118.
- ^ CEGB (1972). CEGB Statistical Yearbook 1972. London: CEGB. p. 17.
- ^ CEGB (1979). CEGB Statistical Yearbook 1978-79. London: CEGB. p. 8. ISBN 0902543598.
- ^ CEGB (1982). CEGB Statistical Yearbook 1981-82. London: CEGB. p. 8. ISBN 0902543695.
- ^ CEGB Annual report and Accounts, 1961, 1962 & 1963
- ^ Altoft, R G (May 1996). "Demolition of the Connah's Quay coal-fired power station". Proceedings of the Institution of Civil Engineers - Civil Engineering. 114 (2): 64–72. doi:10.1680/icien.1996.28255. INIST 2136987.
- ^ http://www.gepower.com/prod_serv/products/gas_turbines_cc/en/f_class/ms9001fa.htm[full citation needed]
- ^ "Stein-industrie : ALSTOM, the full-service provider in power generation". Archived from the original on 2006-02-22. Retrieved 2008-05-24.[unreliable source?]
- ^ Healy, MJ (1 February 1999). "U.K. nitrogen-removal plant starts up". Oil & Gas Journal. 97 (5). Retrieved 9 August 2016.