Drilling starts at the UK's first deep geothermal electricity plant in Cornwall where 'hot rocks' could power 3,000 homes

  • The aim of the project is to show the potential of geothermal technology
  • Two wells will be drilled through granite rock, the deepest will reach 2.8 miles
  • The plant could have the potential to supply power to 3,000 homes

Drilling will start this week at what could become the UK's first deep geothermal electricity plant in Cornwall.

Two wells will be drilled through hot granite rock near St Day, the deepest of which will reach 2.8 miles (4.5km) deep and could power 3,000 homes.

The firm running the project, Geothermal Engineering, says the aim is to demonstrate the potential of geothermal technology to produce electricity and renewable heat in the UK.

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Drilling will start this week at what could become the UK's first deep geothermal electricity plant in Cornwall (pictured). Two wells will be drilled through granite rock near St Day, the deepest of which will reach 2.8 miles (4.5km) deep

Drilling will start this week at what could become the UK's first deep geothermal electricity plant in Cornwall (pictured). Two wells will be drilled through granite rock near St Day, the deepest of which will reach 2.8 miles (4.5km) deep

It is believed that the plant at the United Downs Industrial Estate has the potential to supply up to 3MWe (Mega Watt electrical) of electricity.

Once drilling at the site is complete, water will be pumped from the deepest well at a temperature of approximately 190C (374F).

This water will be fed through a heat exchanger at the surface and re-injected into the ground to pick up more heat from the rocks in a continuous cycle.

The extracted heat will be converted into electricity and supplied to the National Grid.

Geothermal technology is described as a 'continuous' energy source because it does not suffer from peaks and troughs experienced by other sustainable power sources.

Geothermal energy has an advantage over solar or wind energy in that it is not affected by the weather or the time of day

This water will be fed through a heat exchanger at the surface and re-injected into the ground to pick up more heat from the rocks in a continuous cycle. The extracted heat will be converted into electricity and supplied to the National Grid 

Developers hope the technology used at the facility could be used in other locations in Cornwall and Devon which are home to 'hot rocks' (pictured)

Developers hope the technology used at the facility could be used in other locations in Cornwall and Devon which are home to 'hot rocks' (pictured)

Developers hope the technology used at the facility could be used in other locations in Cornwall and Devon.

Similar plants have been developed at Insheim and Landau in Germany.

Dr Ryan Law, managing director of Geothermal Engineering, said geothermal resources have the potential to deliver up to 20 per cent of the UK's electricity and heat energy needs.

He said: 'It is incredibly exciting to see this pioneering project getting off the ground in what we hope will be the start of many similar initiatives across the UK.'

The £18 million ($24m) project has received £10.6 million ($13.8m) funding from the European Regional Development Fund, £2.4 million ($3.1m) from Cornwall Council and £5 million from private investors.

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