Ottovale coke works

Ottovale coke works
Ottovale coke works

 Ottovale coke works shown within Tyne and Wear
List of places: UK • England • Tyne and Wear

Ottovale coke works was a large industrial complex situated at Blaydon Burn, near Blaydon-on-Tyne, Gateshead, North East England. The complex comprised a coke works, tar works and a power station. Built on the site of Dockendale Hall in 1904, it was operated by the Priestman Collieries until the 1970s.

The power station at the plant, known as Blaydon Burn Power Station or the Priestman Power Station was fuelled by waste heat from the coking process. In the 1910s, a number of advancements in steam turbine technology were first implemented at the station.

History

In 1853 a shaft was sank for the Blaydon Main coal seam at Blaydon Burn, and in 1902 a coke works was set up on the site of the nearby Dockendale Hall. This was operated by the Priestman Power Company, producing coke using 80 coke ovens, made by the Otto Hilgenstock company of Germany.[1]

Power station

Blaydon Burn Power Station
Country England
Location Tyne and Wear, North East England
Commission date 1904
Decommission date 1959
Operator(s) Priestman Power Company (1904-1914)
Newcastle upon Tyne Electric Supply Company (1914-1948)
British Electricity Authority (1948-1955)
Central Electricity Authority (1955-1957)
Central Electricity Generating Board (1957-1959)
Power station information
Primary fuel Waste heat
grid reference NZ165622

The power station was constructed in 1904 to utilise waste heat produced by the coke ovens.[1] The heat was piped from the coke ovens to under four land-type Babcock and Wilcox boilers, each with 500 HP capacity. The boilers supplied steam for two 275 kilowatt (kW) Parsons three phase turbo alternators. At the time of opening, this generating equipment was of the latest and best design. The alternators produced a current of 6,000 volts.[2] The electricity generated by the station was initially used as a power supply for the coal mine,[1] but the Priestman Power Company was bought by the Newcastle-upon-Tyne Electric Supply Company in 1914, meaning the electricity was also used to power the rest of the county, using the County Durham distribution system.[2][3]

Feed water for the boilers was taken from the Blaydon Burn, upon which the station was built. However, there wasn't a sufficient amount of water available for condensing purposes as well, and so the condensing water needed to be used over and over again. This necessitated the construction of a cooling tower and reservoir.[2]

The station's boiler house and turbine hall were of a steel framed construction, with corrugated iron cladding. The advantage of this type of construction is that if the coke ovens were to be abandoned, the station could be deconstructed and re-erected somewhere else at a minimal cost.[2]

In 1916, the station's generating equipment was replaced by a 3,000 kW Parsons generating set.[4] This was the first generating set in the world to use reheated steam between stages in its turbines, and to progressively heat feed-water using partially expanded steam.[5][6] In 1919 the station was further modified, becoming the first station in the world to use an enclosed ventilating circuit for the alternator with a gilled-tube cooler for extracting the heat from the ventilating air, which overcame problems caused by dust and moisture getting into the windings.[6][7] When the UK's national grid distribution system was brought into use in 1932, the station was one of a small number of stations in the region to be converted from the 40 hertz (Hz) frequency used by the North Eastern grid system to the 50 Hz frequency used by the national system.[8] The station ceased operating in 1959.[1] Reclaimation of the coke works began in the 1970s and the area has now been returned to grassland. An electrical substation still stands near the site.[9]

References

  1. ^ a b c d "Bessie drift mine, Blaydon Burn" (PHP). http://isee.gateshead.gov.uk/. http://isee.gateshead.gov.uk/detail.php?t=objects&type=browse&f=PLACE_MADE&s=Blaydon+Burn&record=0. Retrieved 2009-02-02. 
  2. ^ a b c d National civic federation Commission on public ownership and operation, ed. Municipal and Private Operation of Public Utilities. 2. National civic federation. p. 301. http://www.archive.org/stream/p2municipalpriva02natiuoft/p2municipalpriva02natiuoft_djvu.txt. Retrieved 2009-01-29. 
  3. ^ "ARCHAEOLOGICAL DESK BASED ASSESSMENT AND BUILDING SURVEY OF INDUSTRIAL STRUCTURES" (PDF). www.northernarchaeologicalassociates.co.uk. Gateshead: Gateshead Council. August 2005. pp. 2, 3, 14, 15, 35, 41, 42,. http://www.northernarchaeologicalassociates.co.uk/pdfs/BBI_vol1.pdf. Retrieved 2 October 2011. 
  4. ^ Westcott, George Foss (1955). Mechanical and Electrical Engineering. H. M. Stationery Off.. p. 22. http://books.google.co.uk/books?id=WpOFAAAAIAAJ&pgis=1. Retrieved 2008-12-26. 
  5. ^ Transactions of the American Society of Mechanical Engineers. 55. American Society of Mechanical Engineers. 1933. p. 39. http://books.google.co.uk/books?id=1jZWAAAAMAAJ&pgis=1. Retrieved 2008-12-26. 
  6. ^ a b Parsons, R.H. (1939). "X". The Early Days of the Power Station Industry. Cambridge: Cambridge University Press. p. 183. 
  7. ^ Scaife, Garrett. From Galaxies to Turbines. CRC Press. p. 426. ISBN 0750305827. http://books.google.co.uk/books?id=BeMjgxsifcQC. Retrieved 2009-02-02. 
  8. ^ Pears, Brian (23 February 2003). "Norfolk to Northumberland". Rootsweb. http://newsarch.rootsweb.com/th/read/NORTHUMBRIA/2003-02/1046007772. Retrieved 9 September 2009. 
  9. ^ "Blaydon Burn Nature Reserve" (PHP). whickham.mobi. http://www.whickham.mobi/desktop/explore/blaydon-burn/index.php. Retrieved 18 July 2011.