Drax Power Station

Last updated

Drax power station
Northeast of Drax - geograph.org.uk - 581958.jpg
Drax Power Station
From the east in October 2007
Drax Power Station
Official nameDrax power station
CountryEngland
Location Drax, North Yorkshire
Coordinates 53°44′9″N0°59′47″W / 53.73583°N 0.99639°W / 53.73583; -0.99639
StatusOperational
Construction began1967 (Phase 1) [1]
1979 (Phase 2) [2]
Commission date 1974 (Phase 1) [1]
1986 (Phase 2) [1]
Decommission date2021 (coal)
Owners
OperatorsDrax Power Limited
Thermal power station
Primary fuel Biomass [3]
Cooling towers12 × Natural Draft
Cooling sourceCooling Towers, River Ouse
Power generation
Units operational4 × 660 MW
(biomass)
Make and model C. A. Parsons and Company
Siemens
Nameplate capacity 1975: 1,980 MW [1]
1986: 3,960 MW [1]
2021: 2,595 MW [1]
External links
Website www.drax.com
Commons Related media on Commons

Drax power station is a large biomass power station in Drax, North Yorkshire, England. It has a 2.6 GW capacity for biomass and had a 1.29 GW capacity for coal that was retired in 2021. Its name comes from the nearby village of Drax. It is situated on the River Ouse between Selby and Goole. Its generating capacity of 3,906  megawatts (MW), which includes the shut down coal units, is the highest of any power station in the United Kingdom, providing about 6% of the United Kingdom's electricity supply. [4]

Contents

Opened in 1974 and extended in the 1980s, [2] the station was initially operated by the Central Electricity Generating Board. Since privatisation in 1990 ownership has changed several times, and it is operated by the Drax Group. Completed in 1986, it was the newest coal-fired power station in England until it closed in 2021. Flue gas desulphurisation equipment was fitted between 1988 and 1995. The high and low pressure turbines were replaced between 2007 and 2012.

By 2010, the station was co-firing biomass. In 2012, the company announced plans to convert three generating units to solely biomass, burning 7.5 million tonnes imported from the United States and Canada. [5] This work was completed in 2016 [6] and a fourth unit was converted in 2018. [7] The company planned to convert its remaining two coal units to Combined Cycle Gas Turbine units and 200 MW battery storage. [8] However, those two coal units were shut in 2021 without converting them to biomass.

History

Drax was initially conceived by the Central Electricity Generating Board (CEGB) in 1962 as the country's largest power station thus far, at about 3,000 MW. Subsequently, it was decided to use this opportunity as their first station to use the 660 MW turbogenerator sets which were planned to become the new standard, so the planning consents were revised to about 4,000 MW. [9]

Following the Selby Coalfield discovery in 1967 the Board would build three large power stations to use its coal. These were an expansion of the station at Ferrybridge, a new station at Eggborough, and Drax, which would be the largest. [10] [9]

Construction

The delivery of a Babcock steam drum during construction (1974) Drax power station boiler.jpg
The delivery of a Babcock steam drum during construction (1974)

Authority to carry out preparatory works was granted in December 1964, leading to full permission in March 1966, on the basis that the station would be designed to accommodate six 660 MW units, but that only the first three be proceeded with for the time being. [9]

Ground work for these three units, known at the time as 'Drax First Half', started in 1967. Two units were synchronised to the grid in 1973, and the third in 1974. [9]

Although authorised, the second half of the project – known as 'Drax Completion' – was deferred, because during the project's gestation the Board's energy mix policy shifted to working towards a majority nuclear system. The Board decided in 1977 that construction of the final three units would commence in 1979 with the target of commissioning in 1985/6, as part of meeting load growth with an adjusted mix policy aiming for a balance of coal, nuclear, and oil. However, later that year in July, the Government requested that Drax Completion proceed immediately, ahead of requirements, in order to secure jobs in the North East's heavy manufacturing industries. The Board agreed to this subject to being compensated. [9]

The architects were Jeff King and Dennis Merritt of Clifford, Tee and Gale. The architectural critic Reyner Banham was scathing of the design: 'less a brick cathedral than a concrete bunker... obsession with ribbed surfaces and forceful projections that have their origins in brutalism'. [11] Costain constructed the foundations and cable tunnels; Sir Robert McAlpine Ltd. laid the roads and built the ancillary buildings; Mowlem laid the deep foundations; Alfred McAlpine built the administration and control buildings; Balfour Beatty undertook general building works; and James Scott installed cabling. [12]

Tarmac Construction undertook the civil engineering works; Holst Civil Engineers built the chimney; Bierrum & Partners built the cooling towers; N.G. Bailey installed cabling; Reyrolle, English Electric and South Wales Switchgear produced and installed the switchgear; English Electric manufactured the generator cooling water pumps; T.W. Broadbent maintained the temporary electrical supplies; and Sulzer Brothers manufactured the boiler feed pumps. [12] In both phases the boilers were made by Babcock Power Ltd and the generators by C. A. Parsons and Company. [13]

The second phase was completed in 1986. [14]

Construction of the power station entailed the demolition of a farm known as Wood House. [15]

Mitsui Babcock fitted flue-gas desulphurisation (FGD) equipment between 1988 and 1995. [16]

Post-privatisation

On privatisation of the CEGB in 1990, the station was transferred from the CEGB to the privatised generating company National Power, which sold it to the AES Corporation in November 1999 for £1.87 billion (US$3 billion). [17] AES relinquished ownership in August 2003, after falling into £1.3 billion of debt. Independent directors continued the operation to ensure security of supply. [18] In December 2005, after refinancing, ownership passed to the Drax Group. [17]

Separate acquisition offers from International Power, private equity group Texas Pacific, and a private equity backed bid from Constellation Energy were rejected for undervaluing the company. The company's valuation subsequently increased to 2005 as a result of rising electricity prices, and on 15 December 2005 Drax Group plc floated its shares on the London Stock Exchange, issuing £400 million worth of shares, on a valuation of £2.6 billion. [19]

In 2009, Drax Group submitted a planning application for the 300 MW biomass Ouse Renewable Energy Plant next to the power station. [20] Government approval was obtained in mid 2011. [21] In February 2012 the company ceased planning development of the plant, citing logistics costs, and uncertainty concerning government financial support for biomass. [22] [23]

Carbon capture and storage

In 2006 Drax Power Limited, in response to a government consultation, stated they were sponsoring development studies into carbon capture and storage (CCS), but noted that it was not then commercially viable, with costs comparable with nuclear or offshore wind power. [24] On 17 June 2009, Secretary of State for Energy and Climate Change Ed Miliband announced plans that would require all UK coal-fired power stations to be fitted with CCS technology by the early 2020s or face closure. [25]

In 2012 a CCS project at Drax was shortlisted for government funding. [26] In 2013 the White Rose Carbon Capture and Storage project (formerly the UK OXY CCS project) was shortlisted for the UK government's CCS scheme and in late 2013 was awarded a two-year FEED contract (Front End Engineering Design) for the CCS project. [27] As of June 2014, Drax is engaged in a joint venture with Alstom and BOC to build a 626 MW oxygen-fuelled combustion power station adjacent to the existing Drax site. National Grid would simultaneously construct a pipeline to transport CO240 miles (64 km) to the Yorkshire coast for sequestration. [28]

In July 2014 the project was awarded €300 million funding from the European Commission. [29] [30]

A schematic diagram of the proposed pilot scheme at Drax power station to capture and store carbon dioxide emissions Drax Carbon Capture pilot scheme.svg
A schematic diagram of the proposed pilot scheme at Drax power station to capture and store carbon dioxide emissions

In September 2015 Drax announced it would not be making any further investments into the CCS scheme after completion of the feasibility study because negative changes to government support for renewable energy had made the project too financially risky, plus drops in the company's share price due to the same uncertainty had reduced Drax's ability to raise funds. Front End Engineering Design was expected to continue under Alstom and BOC with the project still being hosted at Drax. [31] [32] [33] In late 2015 the UK Government withdrew its potential financial support for CCS projects – up to £1 billion of funding, reversing support promised in the governing party's 2015 election manifesto. As a result, Leigh Hackett, CEO of Capture Power stated that "[I]t is difficult to imagine its continuation in the absence of crucial government support". [34] [35]

In May 2018, Drax announced a new carbon capture and storage pilot scheme that it would undertake in conjunction with the Leeds-based firm, C-Capture. The focus of this pilot will be on capturing carbon post combustion from the biomass burners as opposed to the coal burners. Drax will invest £400,000 into the project. The company, C-Capture, is a side company of the Department of Chemistry established at the University of Leeds. [36] [37] This would yield about 1-tonne (1.1-ton) of CO2 stored per day from the process, which could be sold on for use in the drinks industry. [38] The pilot scheme was launched in February 2019. The capture of carbon from biomas burners is known as Bio Energy with Carbon Capture and Storage (BECCS). [39]

Design and specification

Turbine hall (left: outside, right: inside) The taller light-coloured building behind is the boiler house Drax turbine hall in and outside (scanned).JPG
Turbine hall (left: outside, right: inside) The taller light-coloured building behind is the boiler house

The main buildings are of steel frame and metal clad construction. The main features are a turbine hall, a boiler house, a chimney and 12 cooling towers. The boiler house is 76 m (249 ft) high, and the turbine hall is 400 m (1,300 ft) long. [40] [41]

The chimney stands 259.3 m (851 ft) tall, with an overall diameter of 26 m (85 ft), [9] and weighs 44,000 tonnes. It consists of three elliptical flues of reinforced concrete, each serving two of the six boilers, set within a cylindrical 'wind shield', also of reinforced concrete. The topmost elements, the three cap rings of the flues which extend above the wind shield, are of cast iron. [9] When finished, the chimney was the largest industrial chimney in the world, and is still the tallest in the United Kingdom. [42] The chimney's dimensions, including the height, were dictated by a design total capacity of 5,100 m3/s of gases at 26 m/s. As the station was designed and constructed prior to the CEGB's commitment to Flue Gas Desulphurisation, extensive measures were made to limit acid attack from 'sulphurous condensate', namely the lining of the flues with a fluoroelastomer, and coating of the upper 29 m (95 ft) of the external surfaces with a mix of acid-resisting tiles and said fluoroelastomer. [9]

The twelve 114 m (374 ft) tall natural draft cooling towers stand in two groups of six to the north and south of the station. They are made of reinforced concrete, in the typical hyperboloid design, and each have a base diameter of 92 m (302 ft). [43] [44]

The station was the third-largest coal-fired power station in Europe, after Bełchatów Power Station in Poland, and Neurath Power Station in Germany. It produces around 24 terawatt hours (TWh) (86.4 petajoules) of electricity annually. Although it generates around 1,500,000 tonnes of ash and 22,800,000 tonnes of carbon dioxide each year, it is the most carbon-efficient coal-fired power plant in the United Kingdom. [45]

The design life was set out in terms of number of start-ups and operating "cycles", but with the presumption that the station would operate as a standard 2nd-tier (nuclear stations being 1st-tier) baseload generator in the pattern well established under the centralised state-owned electricity system, it was summarised as "in the order of 40 years". The minimum requirement was for providing 'full load for weekdays, over a spell of 3 months' with an availability over 85%. Weekend operations were expected to be between 50–100% of full power. Despite this intent for baseload operation, it was designed with a reasonable ability for load-following, being able to ramp up or down by 5% of full power per minute within the range of 50–100% of full power. [9]

Ouse jetty

The power station also has a jetty on the River Ouse, with a loading capacity of 200 tonnes. Historically the jetty was built and used for the construction of the power station in the 1960s/70s – such as the delivery of equipment. In 2015 a planning application was submitted for the improvement of the jetty's load capacity to 500 tonnes by White Rose CCS developer Capture Power Limited (Drax/Alstom/BOC joint venture), for the construction of the CCS project. [46] [47]

Fuel supply

The main transport route to the power station for fuel (originally coal) is train via a 4.5-mile (7.2 km)-long freight-only section of the former Hull and Barnsley Railway, from the Pontefract Line at Hensall Junction. [48] A balloon loop rail layout is used so that wagons of coal do not need to be shunted after being unloaded. Merry-go-round trains are used, so that wagons can be unloaded without the train stopping as it passes through an unloading house. On average, there are 35 deliveries a day, 6 days a week. [49]

The power station also has a jetty (see § Jetty) – imports via the jetty ended c.1980 – in 2004 the jetty was trialled for the import of Tall Oil by barge. [50]

Coal supply until 2021

The rotary coal loader feeding the plant from the stockyard Drax coal loader (scanned).JPG
The rotary coal loader feeding the plant from the stockyard

In its original form, the station had a maximum potential consumption of 36,000 tonnes of coal a day. [51] In 2011, it consumed 9.1 million tonnes of coal. [52] This coal came from a mixture of both domestic and international sources, with domestic coal coming from mines in Yorkshire, the Midlands and Scotland, and foreign supplies coming from Australia, Colombia, Poland, Russia and South Africa. As of 2020, all coal was sourced internationally. [53]

Fuel and other bulk commodities were supplied via a 6 mile stretch of the old Hull and Barnsley Railway line off the Wakefield and Goole railway line. Rail facilities include a west-facing junction on the Goole line, gross-weight and tare-weight weighbridges, limestone and gypsum handling facilities, including a handling building and control room for the FGD plant, FGD Sidings G and H, biomass offload (Track A), coal offload (Tracks A, B and C), bypass line (Track D), oil siding (Track E) and ash loading (Track F) and an unloading building and control room. [54] [55]

When the station opened, most of the coal burned was from local collieries in Yorkshire, including Kellingley Colliery, Prince of Wales, Ackton Hall, Sharlston Colliery, Fryston Colliery, Askern Colliery and Bentley Colliery. Following the miners' strike in the mid-1980s, by 2006, all but Kellingley had closed. [56] (Kellingley closed at the end of 2015.) UK Coal had a five-year contract to supply coal, which ended at the end of 2009, from Kellingley, Maltby and, until its closure in 2007, Rossington. Coal was also brought from Harworth Colliery until it was mothballed, and was supplied by Daw Mill in Warwickshire. [57]

The foreign coal was brought via various ports by rail. In c.2007 GB Railfreight won a contract to move coal brought from the Port of Tyne, celebrated by the company naming one of their locomotives Drax Power Station in 2007. [58] DB Cargo UK haul coal from the nearby ports of Hull and Immingham, and from Hunterston Terminal on the west coast of Scotland. [56] [59]

In 2021, all coal supplies to Drax Power Station and commercial electricity generation from coal ended [60] in accordance with the plan to end coal fired generation announced in 2020 which will see Drax transition to biomass ahead of the deadline to phase out coal from the UK energy system. [61]

Biomass

Co-firing

The Goole straw pellet plant (2009) Goole Bio Fuel Production Plant.jpg
The Goole straw pellet plant (2009)

The station tested co-firing biomass in the summer of 2004, and in doing so was the first power station in the UK to be fuelled by wood. The initial trial of 14,100 tonnes of willow was locally sourced from nearby Eggborough. [62] Since the trial, the station's use of biomass has continued. It uses direct injection for firing the biomass, whereby it bypasses the pulverising mills and is either injected directly into the boiler or the fuel line, for greater throughput. [14] In 2009 a target was set for 12.5% of the station's energy to be sourced from biomass, and the shift to biomass was intended to contribute to the aim of cutting CO2 emissions by 15%. [63]

The station burns a large range of biomass, mostly wood pellets, sunflower pellets, olive, peanut shell husk and rape meal. The majority comes from overseas. [64] A 100,000 tonne pa capacity straw pelletization facility was constructed at Capitol Park, Goole in 2008, opened 2009. [65] [66] [67] Construction of specialised biomass handling facilities began in 2009 at the Port of Tyne and at Drax. [68]

New biomass plants

In the 2000s Drax Group applied for planning permission to build a new 300 MW power station, fuelled entirely by biomass, to the north of the station; the Ouse Renewable Energy Plant was expected to burn 1,400,000 tonnes of biomass each year, saving 1,850,000 tonnes of CO2 emissions, and expected to create 850 construction jobs and 150 permanent jobs created once opened, through direct and contract employment. [69] Plans were submitted to the Department of Energy and Climate Change in July 2009 for review; if permission was granted, construction was scheduled begin in late 2010 and to take up to three and a half years. [70] Two other 300 MW biomass plants were planned by Drax at the ports of Hull and Immingham. [71]

In 2012 Drax group abandoned plans for the discrete biomass plant development, due to changes in government subsidies for biomass energy production favouring plant conversions over newly built plants. It switched to a project to convert half of the units at its existing plant to biomass firing. [72] [73]

Full firing with biomass

In September 2012 Drax Group announced the conversion to full firing with biomass of three of its six units. The first unit was scheduled to be online by June 2013, the second unit in 2014, and the third by 2017; initially a biomass supply had been secured for the first unit. The cost was estimated at £700 million ($1.13 billion), including modifications to fuel mills and boilers and the construction of storage structures and conveyors for the wood pellet fuel. Each unit will consume about 2.3 million tonnes of biomass yearly, requiring an estimated annual total of 7.5 million tonnes in 2017. This is equivalent to two-thirds of Europe's entire energy biomass consumption in 2010, and requires 1,200,000 ha (4,600 sq mi; 12,000 km2) of forest to supply on a continuous basis. [74] [75] North America was expected to be the source of the vast majority of the biomass, although some would be domestically sourced willow and elephant grass. [76]

Drax Group's decision was enabled by a new UK government policy, effective in April 2013, to award 1.0 tradable ROCs (renewable obligation certificates) per megawatt of power generation from coal power plants that are fully converted to burn biomass; CEO Dorothy Thompson stated the company intended to become a predominately biomass-fuelled energy producer. [77] By April 2013 financing for the scheme include £190 million through sale of shares, £100 million from Prudential/ M&G UK Companies Financing Fund, £50 million from the UK Green Investment Bank, and £75 million Friends Life (underwritten by HM Treasury), as well as a £400 million credit facility. [78]

As of 2013 there were plans to install 1 million tonne per year wood pellets pelletizing plants at Morehouse Parish, Louisiana, and Gloster, Mississippi, which would be shipped by road and rail to the port of Baton Rouge, Louisiana then shipped in 50,000-tonne cargo ships to UK. [79] In the financial report for 2013, Drax announced that an additional 2 million tons pelletisation capacity was being considered, likely to be built in the US. [80]

In 2013 the company signed an agreement with Associated British Ports to develop handling facilities at the Hull, Immingham and Grimsby; [79] [81] construction of automated facilities began in 2013, creating capacities of 3 and 1 million tonnes per year at the ports of Immingham and Hull respectively, adding to the 1.4 million tonne per year Port of Tyne biomass facility built in 2009. [82] In the same year a new design covered rail wagon with high volumetric capacity for transporting the low density biomass pellets was unveiled for use by Drax in the UK; 200 wagons of the type were ordered. [83] [84] At Drax pellets would be stored in domes, and transferred by a conveyor system before grinding to dust for use. [79]

The Shepherd Building Group was contracted to construct the biomass handling and storage facilities at Drax, with RPS Group as the civil engineer. The design included automated rail to storage handling, screening and storage facilities consisting of four 50 by 63 m (164 by 207 ft) high by wide storage domes with a capacity of 110,000 m3 (3,900,000 cu ft). [85] [86] The concrete dome technology was supplied by E & D Company, PLLC (trading as Engineering System Solutions, ES2) and Dome Technology LLC. [87] [88]

By July 2013 one firing unit had been converted, and was reported to be functioning correctly; by 2013 the conversion of the second and third units was scheduled for 2014 and during or before 2016 respectively. [89] The second unit was converted by May 2014, initially co-firing an 85% biomass/coal mix due to limited biomass supply. [90]

In April 2014 Drax was awarded a renewable contract for difference (CFD) subsidy for biomass based power generation on another converted coal firing unit, but a third unit, which had been previously marked as eligible for CFD funding was excluded; Drax Group then legally challenged the decision, initially obtaining a ruling in its favour, which was overturned in the Court of Appeal. [91] [92] In July 2014 the High Court ruled in Drax's favour. [93] [94] [95]

Biomass conversion at Drax led to it requiring 82% of UK biomass imports from the US in 2014 (60% overall of all US wood pellet export), a large factor in a 40% yearly increase in biomass export from that country; US sourced imports represented 58% of Drax's biomass use in 2014, with 22% from Canada. [96]

A port facility in Baton Rouge, Louisiana was completed by April 2015. [97] In mid-2015 Drax reached an agreement with Peel Ports to construct a 3 million ton per year biomass importation facility at the Port of Liverpool, estimated cost £100 million. The rail connected facility was to include 100,000 tonnes storage, and be constructed by Graham Construction. [98] [99]

In September 2015 Drax Group and Infinis began a legal action against the UK government due to claimed insufficient notice being given about the withdrawal of a climate related tax exemption (see Climate Change Levy) – Drax claimed the change would reduce its earnings by £30 million. [100] The claim was rejected by the High Court in February 2016. [101]

In December 2016 the European Competition Commission approved UK government subsidies for the conversion of the third unit to biomass burning. [102] [103]

In 2024, Drax paid a penalty of £25 million to Ofgem after the regulator determined there was "an absence of adequate data governance and controls in place" regarding Canadian wood sources from April 2021 to March 2022. Ofgem found the breach was technical and not deliberate. [104]

Drax's subsidy scheme is scheduled to end in 2027, and Drax is arguing for an extension to 2030. [104] The Guardian reported, in December 2021, that the company intended to invest with a view to doubling production of wood pellets by 2030. [105]

Petroleum coke

The station started to trial the co-firing of petroleum coke (petcoke) in one of its boilers in June 2005, [106] ending in June 2007, [64] burning 15% petcoke and 85% coal. Petcoke was burned to make the electricity more competitive as the price of running the FGD equipment was making the electricity more expensive. The Environment Agency (EA) granted permission for the trial in June 2004, despite the plans being opposed by Friends of the Earth and Selby Council. [106] To meet their concerns, emissions were constantly monitored through the trial, and they were not allowed to burn petcoke without operating the FGD plant to remove the high sulphur content of the emissions. The trial proved that there were no significant negative effects on the environment, and so in late 2007 Drax Group applied to move from trial conditions to commercial burning. [64] The EA granted permission in early 2008 after agreeing with Drax's findings that the fuel had no significant negative effects on the environment. [64] [107] The station was able to burn up to 300,000 tonnes of the fuel a year, and stock up to 6,000 tonnes on site. [107]

Electricity generation

Generator unit No. 2 Drax power station generator.jpg
Generator unit No. 2

Coal is fed into one of 30 coal bunkers, each with a capacity of 1,000 tonnes. [108] Each bunker feeds two of the 60 pulverisers, each of which can crush 36 tonnes of coal an hour. [109] The station has six Babcock Power boilers, each weighing 4,000 tonnes. [14] [109] The powdered coal from ten pulverisers is blasted into each boiler through burners, which are ignited by propane. In 2003 the original burners were replaced by low nitrogen oxide burners. [51]

Each of the six boilers feed steam to a steam turbine set, consisting of one high pressure (HP) turbine, one intermediate pressure (IP) turbine and three low pressure (LP) turbines. Each HP turbine generates 140 MW. Exhaust steam from them is fed back to the boiler and reheated, then fed to the 250 MW IP turbines and finally passes through the 90MW LP turbines. [14] This gives each generating set a generating capacity of 660 MW: with six generating sets, the station has a total capacity of 3,960 MW. Each of the generating units is equipped with the Advanced Plant Management System (APMS), a system developed by RWE npower and Thales, and implemented by Capula. [110]

The station also has six gas turbines providing backup for breakdowns, or shut downs in the National Grid. Their annual output is generally low, generating 75 MW [44] [111] and three of the units have been mothballed and are out of operation, but they could be refurbished. [44] Emissions from these units are released through the station's second, smaller chimney, to the south of the main stack. [112]

Southern cooling towers seen across the River Ouse, which supplies water for the condensers Drax Power Station - geograph.org.uk - 865344.jpg
Southern cooling towers seen across the River Ouse, which supplies water for the condensers

Between 2007 and 2012 the high and low pressure turbines were replaced by Siemens in a £100 million programme. [113] [114] [115] [116]

Cooling system

Water is essential to a thermal power station, heated to create steam to turn the steam turbines. Water used in the boilers is taken from two licensed boreholes on site. Once this water has been through the turbines it is cooled by condensers using water taken from the nearby River Ouse. [44] Water is pumped from the river by a pumphouse on the river, north of the station. [117] Once it has been through the condenser, the water is cooled by one of the natural draft cooling towers, with two towers serving each generating set. Once cooled, the water is discharged back into the river. [44]

Waste products

Flue gas desulphurisation

A train of gypsum heading from the station to Kirkby Thore on the Settle-Carlisle Railway Drax gypsum train.jpg
A train of gypsum heading from the station to Kirkby Thore on the Settle-Carlisle Railway

All six units are served by an independent wet limestone-gypsum FGD plant, which was installed between 1988 and 1996. This diverts gases from the boilers and passes them through a limestone slurry, which removes at least 90% of the sulphur dioxide. This is equivalent to removing over 250,000 tonnes of SO2 each year. The process requires 10,000 tonnes of limestone a week, [118] sourced from Tunstead Quarry in Derbyshire. [119]

A byproduct of the process is gypsum, with 15,000 tonnes produced each week. This goes to be used in the manufacture of plasterboard. [118] The gypsum is sold exclusively to British Gypsum, and it is transported by rail to their plants at Kirkby Thore (on the Settle-Carlisle Line), East Leake (on the former Great Central Main Line) and occasionally to Robertsbridge (on the Hastings Line). [119] DB Cargo UK transport the gypsum. [120]

In 2023, Drax announced a full withdrawal from using coal power past the winter contingency agreement, Drax announced that it will now embark on a decommissioning process to remove coal-related infrastructure from the site. This will commence with the removal of the flue gas desulphurisation plant that was built in the 1990s to remove 90% of the sulphur from the plant’s air emissions. [121]

Ash use and disposal

Pulverised fuel ash (PFA) and furnace bottom ash (FBA) are two byproducts from the burning of coal. Each year, the station produces about 1,000,000 tonnes of PFA and around 220,000 tonnes of FBA: all FBA and 85% of PFA is sold. [122] Under the trade name Drax Ash Products, the ash is sold to the local building industry, where it is used in the manufacture of blocks, cement products, grouting and the laying of roads. [123] The ash is also used in other parts of the UK. [122]

Between 2005 and 2007, PFA was used as an infill at four disused salt mines in Northwich in Cheshire. 1,100,000 tonnes was used in the project, which was to avoid a future risk of subsidence in the town. Ash was delivered by DB Schenker in ten trains a week, each carrying 1,100 tonnes. [122] Following a trial in January 2010, PFA is also transported to Waterford, Ireland by boat. One ship a month will transport 1,200 tonnes for the manufacture of construction materials. This will replace 480 lorry journeys annually and is deemed more environmentally friendly. [124]

The unsold PFA is sent by conveyor belt to the Barlow ash mound, which is used for disposal and temporary stockpile. Three conveyors feed the mound, with a total capacity of 750 tonnes an hour. [122] FGD gypsum is disposed of on the mound if it is not of a high enough grade to be sold. The mound has won a number of awards for its nature conservation work. [123]

Environmental effects

Drax power station is the largest CO2 emitter in the UK. The cloud of water vapour emitted by the station is due to scrubber systems introducing moisture into the exhaust stream. Despite its visible density, it contains less pollutants than an invisible stream of unfiltered exhaust. Drax Power Station - geograph.org.uk - 1237044.jpg
Drax power station is the largest CO2 emitter in the UK. The cloud of water vapour emitted by the station is due to scrubber systems introducing moisture into the exhaust stream. Despite its visible density, it contains less pollutants than an invisible stream of unfiltered exhaust.

The environmental effects of coal burning are well documented. Coal is considered to be "easily the most carbon-intensive and polluting form of energy generation available". [125] In 2007 the station produced 22,160,000 tonnes of CO2, making it the largest single source of CO2 in the UK. [64] [126] Between 2000 and 2007, there has been a net increase in carbon dioxide CO2 of over 3,000,000 tonnes. [64] The station also had the highest estimated emissions of nitrogen oxides in the European Union. [127]

In 2007, in a move to try to lower CO2 emissions, Drax Group signed a £100 million contract with Siemens Power Generation to re-blade the steam turbines over four years. This is the largest steam turbine modernisation ever undertaken in the UK, and will increase efficiency. Coupled with the co-firing of biomass, this was part of a target to reduce CO2 emissions by 15% by 2011. [128]

Drax's annual report for 2013 reported that Drax's annual emissions were at 20,612,000 tonnes of CO2. This was a slight decrease from 2007 levels due to the burning of biomass. [129] Drax remained the UK's largest single emitter of carbon dioxide up until 2016, when the power station claimed that its improvement programmes and conversion to burning biomass, had meant a drastic decrease in greenhouses gases being released into the atmosphere. [130] [131]

Drax has opted in to the Large Combustion Plant Directive (LCPD) and thus is permitted to continue operating beyond 2015. The use of flue gas desulfurisation ensures that the limits on sulphur dioxide emissions are not exceeded. [132]

Protests, industrial action and incidents

Climate Camp (2006)

"Camp for Climate Action" (2006) Climate camp drax.jpg
"Camp for Climate Action" (2006)

On 31 August 2006, over 600 people attended a protest against the high carbon emissions. It was coordinated by the Camp for Climate Action group. At least 3,000 police officers from 12 forces were reported to have been drafted in for the duration of the protest, to safeguard electricity supplies and prevent the protesters from shutting the station down. Thirty-nine people were arrested after trying illegally to gain access to the plant. [133]

Train protest (2008)

At 8:00 am on 13 June 2008, more than 30 climate change campaigners halted an EWS coal train en route to the station by disguising themselves as rail workers by wearing high-visibility clothing and waving red flags. Stopping the train on a bridge across the River Aire, they scaled the wagons with the aid of the bridge's girders. They then mounted a banner reading "Leave it in the ground" on the side of the wagon and tied the train to the bridge, preventing it from moving. They then shovelled more than 20 tonnes of coal on to the railway line. The protest lasted the whole day, until several protesters were removed from the train by police that night. The station's management said that the protest had no effect on output. The action was coordinated by Camp for Climate Action. [134]

Worker strike (2009)

On 18 June 2009, fewer than 200 contractors walked out of or failed to show up in a wildcat strike, showing solidarity with workers at the Lindsey Oil Refinery in Lincolnshire where 51 workers had been laid off while another employer on the site was recruiting more staff. A spokeswoman said the strike did not affect electricity output. [135]

Biomass fires (2011, 2013)

In October 2011 a fire started by spontaneous combustion in a stockpile at the Port of Tyne biomass facility. [136] Another fire occurred at the same facility in a conveyor transfer tower in October 2013. [137]

See also

Related Research Articles

<span class="mw-page-title-main">Power station</span> Facility generating electric power

A power station, also referred to as a power plant and sometimes generating station or generating plant, is an industrial facility for the generation of electric power. Power stations are generally connected to an electrical grid.

<span class="mw-page-title-main">Fossil fuel power station</span> Facility that burns fossil fuels to produce electricity

A fossil fuel power station is a thermal power station which burns a fossil fuel, such as coal, oil, or natural gas, to produce electricity. Fossil fuel power stations have machinery to convert the heat energy of combustion into mechanical energy, which then operates an electrical generator. The prime mover may be a steam turbine, a gas turbine or, in small plants, a reciprocating gas engine. All plants use the energy extracted from the expansion of a hot gas, either steam or combustion gases. Although different energy conversion methods exist, all thermal power station conversion methods have their efficiency limited by the Carnot efficiency and therefore produce waste heat.

<span class="mw-page-title-main">Ironbridge power stations</span> Two former power stations in Shropshire, England

The Ironbridge power stations refers to two power stations that occupied a site on the banks of the River Severn at Buildwas in Shropshire, England. The Ironbridge B Power Station was operated by E.ON UK but the site is now owned by Haworth Group. The station stands near the Ironbridge Gorge World Heritage Site. Originally powered by coal, they were converted to use 100% biomass fuel. Ironbridge B Power Station stopped generating electricity on 20 November 2015, with the decommissioning process continuing into 2017. The main phase of the 27-month demolition process began at 11:00 GMT on 6 December 2019, commencing with the four cooling towers.

<span class="mw-page-title-main">Cockenzie power station</span> Former coal-fired power station in Scotland

Cockenzie power station was a coal-fired power station in East Lothian, Scotland. It was situated on the south shore of the Firth of Forth, near the town of Cockenzie and Port Seton, 8 mi (13 km) east of the Scottish capital of Edinburgh. The station dominated the local coastline with its distinctive twin chimneys from 1967 until the chimneys' demolition in September 2015. Initially operated by the nationalised South of Scotland Electricity Board, it was operated by Scottish Power following the privatisation of the industry in 1991. In 2005 a WWF report named Cockenzie as the UK's least carbon-efficient power station, in terms of carbon dioxide released per unit of energy generated.

<span class="mw-page-title-main">Longannet power station</span> Former coal-fired power station in Scotland

Longannet power station was a large coal-fired power station in Fife, and the last coal-fired power station in Scotland. It was capable of co-firing biomass, natural gas and sludge. The station stood on the north bank of the Firth of Forth, near Kincardine on Forth.

<span class="mw-page-title-main">Pellet fuel</span> Solid fuel made from compressed organic material

Pellet fuels are a type of solid fuel made from compressed organic material. Pellets can be made from any one of five general categories of biomass: industrial waste and co-products, food waste, agricultural residues, energy crops, and untreated lumber. Wood pellets are the most common type of pellet fuel and are generally made from compacted sawdust and related industrial wastes from the milling of lumber, manufacture of wood products and furniture, and construction. Other industrial waste sources include empty fruit bunches, palm kernel shells, coconut shells, and tree tops and branches discarded during logging operations. So-called "black pellets" are made of biomass, refined to resemble hard coal and were developed to be used in existing coal-fired power plants. Pellets are categorized by their heating value, moisture and ash content, and dimensions. They can be used as fuels for power generation, commercial or residential heating, and cooking.

<span class="mw-page-title-main">Ferrybridge power stations</span> Three coal-fired power stations in West Yorkshire, England

The Ferrybridge power stations were a series of three coal-fired power stations on the River Aire near Ferrybridge in West Yorkshire, England, in operation from 1927 to 2016 on a site next to the junction of the M62 and A1(M) motorways.

<span class="mw-page-title-main">Liddell Power Station</span> Coal-fired power station in Australia

Liddell Power Station is a decommissioned coal-fired thermal power station that had four 500 megawatts (670,000 hp) EE steam-driven turbine alternators, providing a combined electrical capacity of 2,000 megawatts (2,700,000 hp).

<span class="mw-page-title-main">Aberthaw power stations</span> Two decommissioned power stations in Wales

Aberthaw Power Station refers to two decommissioned coal-fired and co-fired biomass power stations on the coast of South Wales, near Barry in the Vale of Glamorgan. They were located at Limpert Bay, near the villages of Gileston and West Aberthaw. The most recent power station on the site, Aberthaw B Power Station, co-fired biomass and as of 2008 had a generating capacity of 1,560 megawatts (MW). The power station closed on 31 March 2020.

<span class="mw-page-title-main">Drax Group</span> Power generation business

Drax Group plc, trading as Drax, is a power generation business. The principal downstream enterprises are based in the UK and include Drax Power Limited, which runs the biomass fuelled Drax power station, near Selby in North Yorkshire. The Group also runs an international biomass supply chain business. The company is listed on the London Stock Exchange and is a constituent of the FTSE 250 Index.

<span class="mw-page-title-main">Thunder Bay Generating Station</span>

Thunder Bay Generating Station is a defunct biomass-fired thermal power station owned by Ontario Power Generation ("OPG"). It is located on Mission Island in Thunder Bay, on the shore of Lake Superior.

<span class="mw-page-title-main">Littlebrook Power Station</span> Series of four oil and coal-fired power stations in Dartford, Kent

The Littlebrook Power Station were a series of four oil and coal-fired power stations situated on the south bank of the River Thames, next to the Queen Elizabeth 2 Bridge and the Dartford Tunnel in Dartford, Kent. The final power station, Littlebrook D, ceased operating in March 2015, and has now been demolished.

<span class="mw-page-title-main">Taichung Power Plant</span> Power plant in Longjing, Taichung, Taiwan

The Taichung Power Plant is a coal-fired power plant in Longjing, Taichung, Taiwan (ROC). With an installed coal-fired generation capacity of 5,500 MW, it is the fourth largest coal-fired power station in the world. Together with its gas-fired and wind generation units, the total installed capacity of the plant is 5,824 MW.

<span class="mw-page-title-main">Blyth Power Station</span> Thermal Power Station in England

Blyth Power Station refers to a pair of now demolished coal-fired power stations, which were located on the Northumberland coast in North East England. The two stations were built alongside each other on a site near Cambois in Northumberland, on the northern bank of the River Blyth, between its tidal estuary and the North Sea. The stations took their name from the town of Blyth on the opposite bank of the estuary. Blyth A Power Station was built and opened first but had a smaller generating capacity than its sister station, Blyth B Power Station, which was built to its west four years later. The power stations' four large chimneys were a landmark of the Northumberland skyline for over 40 years; the A Station's two chimneys each stood at 140 metres (460 ft); the B Station's two chimneys were taller, at 170 metres (560 ft) each.

<span class="mw-page-title-main">Lynemouth power station</span> Biomass power station in Northumberland, England

Lynemouth Power Station is a biomass power plant which provides electricity for the UK National Grid. Until March 2012, it was the main source of electricity for the nearby Alcan Lynemouth Aluminium Smelter. It is located on the coast of Northumberland, north east of the town of Ashington in north east England. The station has stood as a landmark on the Northumberland coast since it opened in 1972, and had been privately owned by aluminium company Rio Tinto Alcan throughout its operation until December 2013, when RWE npower took over. In January 2016 it was acquired by the Czech company Energetický a průmyslový holding.

<span class="mw-page-title-main">Tilbury power stations</span> Thermal power stations in Essex, England

The Tilbury power stations were two thermal power stations on the north bank of the River Thames at Tilbury in Essex. The 360 MW dual coal- and oil-fired Tilbury A Power Station operated from 1956 until 1981 when it was mothballed, prior to demolition in 1999. The 1,428 MW Tilbury B Power Station operated between 1968 and 2013 and was fueled by coal, as well as co-firing with oil and, from 2011, biomass. Tilbury B was demolished in 2016–19. Since 2013 three other power stations have been proposed or constructed in Tilbury.

Carrington Power Station is a combined cycle gas turbine power station, which was completed in Autumn 2016 and began commercial operation on 18 September 2016. It is located on the site of a former coal-fired power station, close to the villages of Carrington and Partington in the Greater Manchester Area and 12 km (7.5 mi) southwest of Manchester City Centre. The Manchester Ship Canal and the River Mersey run alongside the site, in Trafford, Greater Manchester, in North West England.

<span class="mw-page-title-main">Uskmouth power stations</span> Series of two coal-fired power stations south-east of Newport, Wales

The Uskmouth power stations refers to a series of two coal-fired power stations at the mouth of the River Usk in the south-east of Newport, Wales. The first of the two station, Uskmouth A power station, was built in the 1940s and demolished in 2002.

<span class="mw-page-title-main">Wilton power stations</span> Series of coal, oil, gas and biomass fired CHP power stations

The Wilton power station refers to a series of coal, oil, gas and biomass fired CHP power stations which provide electricity and heat for the Wilton International Complex, with excess electricity being sold to the National Grid. It is located on the Wilton site in Redcar and Cleveland, south of the town of Middlesbrough in North East England. The station has provided for the site since opening in 1952, when it was operated by ICI. The station is currently owned and operated by SembCorp Industries.

<span class="mw-page-title-main">Avedøre Power Station</span> Power station in Denmark

The Avedøre Power Station is a combined heat and power station, located in Avedøre, Denmark, just south of Copenhagen, and is owned by Ørsted A/S. Avedøre Power Plant is a high-technology facility and one of the world's most efficient of its kind, being able to utilize as much as 94% of the energy in the fuel and convert 49% of the fuel energy into electricity. Apart from using petroleum (oil) and natural gas, the plant runs on a wide variety of biomass fuels such as straw and wood pellets. The plant consists of two units with a total capacity of 793 MW of electricity and 918 MW of heat. The combination of producing electricity and heat for district heating at the same time is widely used in Denmark and the rest of Scandinavia, due to the need of domestic heating together with the Danish energy companies putting a big effort into optimising the energy plants.

References

  1. 1 2 3 4 5 6 "Drax - Our History" . Retrieved 30 March 2020.
  2. 1 2 "Drax Power Station". Engineering Timelines. Retrieved 10 May 2020.
  3. Beeler, Carolyn; Morrison, James (20 June 2018). "The UK's move away from coal means they're burning wood from the US". Public Radio International. Archived from the original on 31 August 2018. Retrieved 20 September 2018.
  4. "About us". Drax Group plc. Retrieved 8 June 2018.
  5. Harrabin, Roger (12 November 2012). "Drax power station to burn wood and biomass (Video)". BBC News. Retrieved 26 October 2021.
  6. Simet, Anna (16 February 2017). "Drax reports good operational year, discusses future in biomass". Biomass Magazine. Retrieved 12 January 2019.
  7. "Drax closer to coal-free future with fourth biomass unit conversion". Drax. Retrieved 12 January 2019.
  8. "How to switch a power station off coal". Drax Group. 22 August 2018. Retrieved 3 September 2019.
  9. 1 2 3 4 5 6 7 8 9 Generation Development and Construction Division, CEGB Barnwood (1986). Advances in Power Station Construction. Pergamon Press. ISBN   0-08-031677-8.
  10. "Antiques Roadshow UK: Highlights: Selby". PBS . 10 February 2005. Archived from the original on 10 February 2005. Retrieved 4 December 2017.
  11. Clarke, Jonathan (2013). High merit: existing English post-war coal and oil-fired power stations in context. London: Historic England. p. 18.
  12. 1 2 Ritchie, Berry (1999). The Story of Tarmac. James & James (Publishers) Ltd. p. 100.
  13. "Siemens Energy and Drax Power Limited preserve vital piece of north east engineering history". Siemens. 25 February 2010. Retrieved 26 October 2021.
  14. 1 2 3 4 "Drax Power Station, Selby, United Kingdom". Power Technology. Net Resources International. Retrieved 14 February 2009.
  15. OS Maps (Map) (1925 ed.). Ordnance Survey.
  16. "Drax Power Limited" (PDF). Drax Group. 2003. pp. 3–11. Archived from the original (PDF) on 23 July 2011. Retrieved 14 February 2009.
  17. 1 2 "Our history". Drax Group. Archived from the original on 5 May 2013. Retrieved 14 February 2009.
  18. Gribben, Roland (7 August 2003). "Future of Drax power station under spotlight". The Telegraph . London. Retrieved 3 October 2012.
  19. Wade, Taron (15 December 2005). "Pricing power". Reuters . Retrieved 16 October 2020.
  20. "Drax Power Station submits biomass project planning bid". Selby Times . 6 August 2009. Archived from the original on 21 April 2013. Retrieved 3 October 2012.
  21. Nichols, Will (10 August 2011). "Drax biomass plants approved, but construction depends on subsidy boost". Business Green. Incisive Financial Publishing Limited. Retrieved 3 October 2012.
  22. Wachman, Richard (21 February 2012). "Drax scraps plans for UK biomass plants". The Guardian . London. Retrieved 3 October 2012.
  23. "Drax scarps plans for North Yorkshire biomass plant". BBC News . 22 February 2012. Retrieved 3 October 2012.
  24. "Carbon Capture and Storage: A consultation on barriers to commercial deployment" (PDF). Drax Group. May 2006. p. 1. Archived from the original (PDF) on 2 March 2012. Retrieved 14 July 2014.
  25. Webb, Tim; Macalister, Terry (17 June 2009). "Carbon capture plans threaten shutdown of all UK coal-fired power stations". The Guardian. London. Retrieved 23 January 2013.
  26. "Drax CO2 capture scheme may get government funding". BBC News. 30 October 2012. Retrieved 11 June 2014.
  27. "White Rose* Project Fact Sheet: Carbon Dioxide Capture and Storage Project". Carbon Capture & Sequestration Technologies @ MIT. Massachusetts Institute of Technology. Retrieved 11 June 2014.
  28. "White Rose Carbon Capture & Storage". Archived from the original on 14 July 2014. Retrieved 13 June 2014.
  29. Szabo, Michael (8 July 2014). "Britain's Drax wins 300 mln euro EU grant to trap and store CO2 (UPDATE 1)". Reuters. Archived from the original on 5 January 2016. Retrieved 14 July 2014.
  30. Farrell, Sean (8 July 2014). "Yorkshire carbon capture power plant gets EU funding". The Guardian. Retrieved 14 July 2014.
  31. Trotman, Andrew (25 September 2015). "Drax pulls out of Government's £1bn green energy project". The Telegraph. Retrieved 25 September 2015.
  32. "Drax calls time on carbon capture". renews.biz. 25 September 2015. Archived from the original on 25 September 2015. Retrieved 25 September 2015.
  33. "Drax pulls out of £1bn carbon capture project". BBC News. 25 September 2015. Retrieved 25 September 2015.
  34. Twidale, Susanna (25 November 2015). "UK scraps 1 bln stg carbon capture technology scheme (UPDATE 3)". Reuters. Retrieved 25 November 2015.
  35. Carrington, Damian (25 November 2015). "UK cancels pioneering £1bn carbon capture and storage competition". The Guardian. Retrieved 25 November 2015.
  36. Wright, Greg (21 May 2018). "Drax aims to place UK at the front of the green energy race". The Yorkshire Post. p. 17. ISSN   0963-1496.
  37. "Power plant aims to cut biomass gases". BBC News. 21 May 2018. Retrieved 21 May 2018.
  38. "Power station storing CO2 from fuel". BBC News. 26 November 2018. Retrieved 26 November 2018.
  39. Harrabin, Roger (8 February 2019). "UK carbon capture project begins". BBC News. Retrieved 9 February 2019.
  40. Brooke, Gordon Kneale (31 October 2005). "Drax Power Station". Geograph Britain and Ireland . Retrieved 23 January 2013.
  41. "Geospatial". 15 May 2007.[ dead link ]
  42. "Main Chimney". Drax Group. Archived from the original on 21 November 2007. Retrieved 15 February 2009.
  43. "Cooling Tower". Drax Group. Archived from the original on 30 March 2009. Retrieved 15 February 2009.
  44. 1 2 3 4 5 "Environmental Performance Review 2006" (PDF). Drax Group. 2006. pp. 2, 16. Archived from the original (PDF) on 5 January 2009. Retrieved 11 August 2009.
  45. "Drax Coal-fired Power Station". 7 May 2008. Retrieved 12 August 2009.
  46. "New jetty for Drax Power Station". York Press . 22 September 2015. Retrieved 22 September 2015.
  47. "(2015/0965/FUL) Proposed works in connection with the use of the existing Drax Power Station jetty". Selby District Council. 20 August 2015. Planning statement, §1.1–1.2, 1.6–1.7, 2.2. Retrieved 22 September 2015.
  48. "The Hull & Barnsley today". Hull & Barnsley Railway Stock Fund. Archived from the original on 7 August 2011. Retrieved 11 August 2009.
  49. "Drax Millenium Walks". North Yorkshire County Council. Archived from the original (PDF) on 13 July 2011. Retrieved 11 August 2009.
  50. "Biomass by barge". Drax. 20 October 2004. Archived from the original on 23 September 2015. Retrieved 22 September 2015.
  51. 1 2 "Boiler Burner". Drax Group. Archived from the original on 30 March 2009. Retrieved 15 February 2009.
  52. "Drax Power station in North Yorkshire completes upgrade". BBC News . 19 June 2012. Retrieved 3 October 2012.
  53. "Drax Group Plc". 2008. Archived from the original on 24 July 2008. Retrieved 10 August 2009.
  54. Jacobs, Gerald (1988). Eastern and Anglia Regions Track Diagrams. Exeter: Quail. pp. 21C. ISBN   0900609559.
  55. Brailsford, Martyn (2016). Railway Track Diagrams Book 2: Eastern. Frome: Trackmaps. pp. 40B. ISBN   9780954986681.
  56. 1 2 "English Welsh & Scottish Railways". 31 October 2006. Archived from the original on 26 November 2006. Retrieved 23 January 2013.
  57. "UK COAL AND DRAX AGREE FIVE-YEAR COAL DEAL" (PDF). UK Coal. 20 July 2004. Retrieved 11 August 2009.[ dead link ]
  58. Lawson, Paul (20 September 2007). "First GBRf locomotive named 'Drax Power Station'". First GBRf. Archived from the original on 11 October 2007. Retrieved 11 August 2009.
  59. Lucas, John (8 February 2009). "An empty coal train heads north on the Settle & Carlisle line". Geograph Britain and Ireland. Retrieved 11 August 2009.
  60. "Drax commences major turbine upgrade to drive down cost of biomass power generation". Drax. 5 August 2021. Retrieved 4 September 2021.
  61. "End of coal generation at Drax Power Station". Drax. 27 February 2020. Retrieved 4 September 2021.
  62. Gow, David (19 March 2004). "Drax goes green with willow". The Guardian. London. Retrieved 15 August 2009.
  63. "Co-firing". Drax Group. Archived from the original on 23 July 2011. Retrieved 16 August 2009.
  64. 1 2 3 4 5 6 "Drax: Environmental Performance Report 2007" (PDF). Drax Group. 2007. p. 12. Archived from the original (PDF) on 5 January 2009. Retrieved 23 January 2013.
  65. "Straw pellets to fuel power station". Hull Daily Mail . 21 October 2008. Archived from the original on 17 April 2014. Retrieved 6 November 2013.
  66. "Bio-fuel plant is a Capitol idea at Goole". www.capitolparkgoole.co.uk. 6 October 2008. Archived from the original on 26 June 2014. Retrieved 6 November 2013.
  67. "Drax biomass pellet plant scoops top award". Drax Group. 31 May 2010. Archived from the original on 6 November 2013. Retrieved 6 November 2013.
  68. Sources:
  69. "Ouse Renewable Energy Plant". Drax Group. 2009.[ dead link ]
  70. Stead, Mark (30 July 2009). "Biomass generator plan at Drax Power Station, near Selby". The Press . Retrieved 23 January 2013.
  71. "ABP and Drax sign agreement". Coal Trans International. 29 October 2008. Archived from the original on 6 January 2009. Retrieved 23 January 2013.
  72. Macalister, Terry (25 October 2012). "New biomass plants shelved as Drax and Centrica blame lack of support". The Guardian. Retrieved 29 October 2013.
  73. "Drax scraps Immingham biomass plan". BBC News Humberside. 26 October 2012. Retrieved 29 October 2013.
  74. Lundgren, Kari; Morales, Alex (26 September 2012). "Biggest English polluter spends $1 billion to burn wood". Bloomberg Businessweek . Archived from the original on 28 September 2012. Retrieved 3 October 2012.
  75. "Drax plans to create the biggest pellet fired power station". IHB. Fordaq S.A. 27 September 2012. Retrieved 3 October 2012.
  76. "£700 million biomass bill for Drax". Selby Times. 4 August 2012. Archived from the original on 21 April 2013. Retrieved 3 October 2012.
  77. "Drax biomass support boosts Haven offering for customers". Haven Power. 2 August 2012. Archived from the original on 20 February 2013. Retrieved 23 January 2013.
  78. "Drax secures $114MM for coal-to-biomass switch". Penn Energy. 24 April 2013. Archived from the original on 17 April 2014. Retrieved 29 October 2013.
  79. 1 2 3 Lovell, Jeremy (8 April 2013). "BIOFUELS: Europe's 2nd-biggest coal-fired power plant will turn to wood from North America". Climate Wire E&E Publishing. Archived from the original on 19 February 2014. Retrieved 8 April 2013.
  80. "Drax considers an additional 2 mil. tons pellet capacity". Fordaq. Fordaq S.A. 4 March 2014.
  81. "Humber docks to be boosted by creation of 100 jobs". BBC News. BBC. 27 March 2013.
  82. Portz, Tim (16 July 2013). "Preparing for a Pellet Tide". Biomass Magazine. Retrieved 29 October 2013.
  83. "Drax unveils high-volume biomass wagon". Railway Gazette International . 30 July 2013. Retrieved 15 December 2014.
  84. "Newly Designed Rail Freight Wagon Makes Logistics of Biomass Fuel More Viable". Handy Shipping Guide. 7 August 2013. Retrieved 29 October 2013.
  85. Morby, Aaron (15 March 2012). "Shepherd wins £50m Drax biomass facility". Construction Enquirer. Retrieved 29 October 2013.
  86. "Structural Engineering Case Studies – Drax Power Station". RPS Group. Archived from the original on 7 January 2014. Retrieved 29 October 2013.
  87. "Projects – Drax, Selby, UK – 2012". Engineering System Solutions. Archived from the original on 7 January 2014. Retrieved 29 October 2013.
  88. "Yorkshire Wood Pellet Storage, Dome #534–537". Dome Technology. Retrieved 29 October 2013.
  89. "Drax's biomass-fired unit 'performing beautifully'". Scunthorpe Telegraph . 16 July 2013. Archived from the original on 17 December 2014. Retrieved 11 November 2014.
  90. McKenna, John (13 May 2014). "Fuel shortage forces Drax co-firing". Process Engineering. Retrieved 30 April 2015.
  91. Chazan, Guy (23 April 2013). "Drax shares hit by UK subsidy move" . Financial Times . Archived from the original on 10 December 2022. Retrieved 24 April 2014.
  92. Schaps, Karolin (23 April 2014). Holton, Kate; Baird, Jane; Chestney, Nina (eds.). "Drax sues Britain over U-turn on converting coal unit (Update 2)". Reuters. Archived from the original on 5 January 2016. Retrieved 24 April 2014.
  93. "High Court backs Drax in CfD row". renews.biz. 14 July 2014. Archived from the original on 14 July 2014. Retrieved 14 July 2014.
  94. Gerlin, Andrea; Morales, Alex (7 August 2014). "Drax Tumbles Most Since April After Losing Court Ruling". Bloomberg. Retrieved 8 August 2014.
  95. Gosden, Emily (7 August 2014). "Drax shares drop after Government wins subsidy appeal". The Daily Telegraph. London. Retrieved 8 August 2014.
  96. Lowenthal-Savy, Danielle (22 April 2015). "U.K. renewable energy targets drive increased U.S. pellet exports". U.S. Energy Information Administration. Retrieved 30 April 2015.
  97. "Drax's Baton Rouge port facility opens for business". Bioenergy Insights. 22 April 2015.
  98. McDonough, Tony (22 June 2015). "Port of Liverpool to create 47 jobs at new £100m biomass facility". Liverpool Echo . Retrieved 3 September 2015.
  99. Hobbs, Harleigh (29 June 2015). "New biomass terminal planned for Port of Liverpool". World Coal. Retrieved 3 September 2015.
  100. "Drax, Infinis take UK government to court over lost tax exemption". Reuters. 2 September 2015. Archived from the original on 5 January 2016. Retrieved 3 September 2015.
  101. "High Court rejects Drax legal challenge over CCL exemption". Utility Week. 10 February 2016. Retrieved 10 February 2016.
  102. Vaughan, Adam (29 December 2016). "European commission approves Drax biomass subsidy". The Guardian. Retrieved 19 December 2016.
  103. "EU green light for Drax 3". renews.biz. 18 December 2016. Retrieved 19 December 2016.
  104. 1 2 Makortoff, Kalyeena; Ambrose, Jillian (29 August 2024). "Drax to pay £25m after regulator finds wood pellet reporting failures". The Guardian. Retrieved 9 October 2024.
  105. "Drax is expected to profit from UK energy crisis until 2023". The Guardian. 1 December 2021. Retrieved 18 December 2021.
  106. 1 2 Hemmings, Julie (29 April 2005). "Power station to start 'dirty' fuel trial". Yorkshire Post . Retrieved 16 August 2009.
  107. 1 2 "Plant to continue burning petcoke". BBC News . 11 January 2008. Retrieved 16 August 2009.
  108. "Boiler Coal Bunker". Drax Group. Archived from the original on 21 November 2007. Retrieved 15 February 2009.
  109. 1 2 "Pulverising Mill". Drax Group. Archived from the original on 30 March 2009. Retrieved 15 February 2009.
  110. "Advanced Plant Management System". Archived from the original on 30 March 2009. Retrieved 23 January 2013.
  111. "Table 3.3 – Generation Registered Capacities (in MW)". National Grid . Archived from the original (ASP) on 8 May 2003. Retrieved 5 October 2009.
  112. Roberts, Gary (7 December 2008). "Little & Large". Flickr . Retrieved 11 August 2009.
  113. "Drax signs contract with Siemens for £100 million turbine upgrade" (Press release). Drax Group. 15 February 2007. Archived from the original on 23 July 2011. Retrieved 11 August 2009.
  114. "Drax and Siemens celebrate manufacture of 28 turbines" (Press release). Drax Group. 31 August 2011. Archived from the original on 12 September 2011. Retrieved 3 October 2012.
  115. "Drax and Siemens celebrate turbine teamwork" (Press release). Drax Group. 26 September 2012. Archived from the original on 13 October 2012. Retrieved 3 October 2012.
  116. Ross, Kelvin (18 May 2012). "Drax nears end of five-year £100m turbine upgrade". Power Engineering International . Pennwell Corporation. Archived from the original on 27 April 2014. Retrieved 3 October 2012.
  117. Brooke, Gordon Kneale (21 January 2006). "Drax Power Station Intake Pumphouse". Geograph Britain and Ireland. Retrieved 11 August 2009.
  118. 1 2 "Drax FGD Plant – Supporting the Process". Cleveland Bridge & Engineering Company. Archived from the original on 16 October 2006.
  119. 1 2 "Gypsum: Mineral Planning Factsheet". British Geological Survey. 2006. pp. 4, 6, 7. Archived from the original (PDF) on 10 November 2009.
  120. White, David (March 2008). "Controversial new development at Milford Yard". Archived from the original on 27 August 2008.
  121. "Drax ends coal-fired power generation at UK power plant". Reuters. 25 April 2023. Retrieved 10 May 2023.
  122. 1 2 3 4 Brennan, Peter (10 May 2007). "Northwich – grouting using 1,000,000 tonnes of conditioned PFA from Drax Power Station" (PDF). Archived from the original (PDF) on 21 July 2011. Retrieved 12 August 2009.
  123. 1 2 "By products". Drax Group. Archived from the original on 5 May 2013. Retrieved 12 August 2009.
  124. Harris, Richard (1 April 2010). "Waste from Drax power station to be transported by boat". The Press . Retrieved 23 January 2013.
  125. "This foolish rush into the arms of the dirtiest fuel". The Independent . London. 10 March 2008. Retrieved 11 December 2014.
  126. "The great climate swoop goes public". The Ecologist . 10 August 2009. Archived from the original on 5 June 2011.
  127. Hontelez, John (December 2008). "A push for cleaner industrial production" (PDF). European Environmental Bureau . p. 16. Archived from the original (PDF) on 23 September 2015. Retrieved 11 December 2014.
  128. "Drax signs contract with Siemens for £100 million turbine upgrade". Drax Group. 15 February 2007. Archived from the original on 23 July 2011.
  129. "Drax annual report" (PDF). Drax Group. 2014. Archived from the original (PDF) on 13 December 2014. Retrieved 11 December 2014.
  130. Connor, Steve (4 January 2016). "How one power plant is chipping away at the UK's carbon footprint". The Independent. Retrieved 21 May 2018.
  131. Ellerman, A. Denny; Convery, Frank J.; De Perthuis, Christian (2010). Pricing carbon : the European Union Emissions Trading Scheme (1 ed.). Cambridge, U.K.: Cambridge University Press. p. 187. ISBN   978-0-521-19647-5.
  132. "Article: Drax Refit". September 2008. Archived from the original on 9 November 2014. Retrieved 9 November 2014.
  133. Brown, Jonathan (1 September 2006). "The Battle of Drax: 38 held as protest fails to close plant". The Independent . London. Archived from the original on 1 March 2007. Retrieved 16 August 2009.
  134. Wainwright, Martin (14 June 2008). "Coal train ambushed near power station in climate change protest". The Guardian . London. Retrieved 16 August 2009.
  135. "Wildcat strike spreads across Britain". The Daily Telegraph . London. 18 June 2009. Retrieved 16 August 2009.
  136. Butcher, Jonathan (31 October 2011). "Firefighters battle huge biomass fire at Port of Tyne". The Journal. Archived from the original on 4 November 2013. Retrieved 29 October 2013.
  137. "Port of Tyne fire: Tower blaze 'under control'". BBC News Tyne and Wear. 11 October 2013. Retrieved 29 October 2013.
Preceded by Largest power station in the UK
1986–present
Succeeded by
NA