Drax Power's biomass plant clears local planning
The final decision on the £700 million (US$1.2 billion) Ouse Renewable Energy Plant, which will have a power generation capacity of 290 megawatts (MW), now lies with the government's Department for Energy and Climate Change (DECC), which is responsible for granting permission for any projects in excess of 50 MW.
The plant will be located next to Drax's 4-gigawatt power plant in Selby, North Yorkshire, the UK's largest coal-fired plant, responsible for about 7% of the UK's electricity. A decision about when construction will begin is expected next year. The aim is to have the plant running by 2013, generating enough renewable power for more than 500,000 homes. The facility is expected to offset 1.8 million tonnes of carbon-dioxide emissions each year.
The plant will burn a variety of biomass fuels, including specially grown energy crops, recovered timber and paper, forestry residues and agricultural byproducts. According to Drax, the power output of the plant will be the equivalent of that generated by 460 large-scale wind turbines.
"The UK needs biomass-fired power stations to help meet the national renewable energy targets," said Brian Restall, project manager at Drax Power. "We are extremely pleased that both the local and county planning authorities have offered such unequivocal support to Drax's renewable energy growth strategy. The plant offers excellent prospects to people in the region."
If the plant gets the final go-ahead from DECC, it will be the first of three biomass facilities planned for the site and which Drax plans to have up and running by 2016. Drax has earmarked more than £2 billion (US$3.3 billion) for the projects. Drax has signed a construction and turbine supply agreement for the three plants with joint venture partner Siemens AG. Drax will manage and operate the plants and own 60% of the venture.
In July, DECC granted permission to MGT Power Limited to build a similarly sized biomass plant at Teesport. The £500 million (US$829 million) project will be ready in 2012 and will generate enough power for 600,000 homes.
Related News
7 steps to make electricity systems more resilient to climate risks
LONDON - Summer is just half done in the northern hemisphere and yet we are already seeing electricity systems around the world struggling to cope with the severe strain of heatwaves and low rainfall.
These challenges highlight the urgent need for strong and well-planned policies and investments to improve the security of our electricity systems, which supply power to homes, offices, factories, hospitals, schools and other fundamental parts of our economies and societies. This means making our electricity systems more resilient to the effects of global warming – and more efficient and flexible as they incorporate rising levels of solar and…
