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  • Electrical pylons coming from Dungeness power station running through the Romney marsh, Kent, United Kingdom. In the distance, the twin reactor power station known as Dungeness B can be seen. <br />
(photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1536.jpg
  • The first electrical pylons coming out of Dungeness B nuclear power station in the Romney Marsh, Kent, United Kingdom. The original power station, Dungeness A, closed down in 2006. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1606.jpg
  • The first electrical pylons coming out of Dungeness B nuclear power station in the Romney Marsh, Kent, United Kingdom. The original power station, Dungeness A, closed down in 2006. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1578.jpg
  • The first electrical pylons coming out of Dungeness B nuclear power station in the Romney Marsh, Kent, United Kingdom. The original power station, Dungeness A, closed down in 2006. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1575.jpg
  • The first electrical pylons coming out of Dungeness B nuclear power station in the Romney Marsh, Kent, United Kingdom. The original power station, Dungeness A, closed down in 2006. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1557.jpg
  • Electrical pylons coming from Dungeness power station running through the Romney marsh, Kent, United Kingdom. In the distance, the twin reactor power station known as Dungeness B can be seen. <br />
(photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1537.jpg
  • Electrical pylons coming from Dungeness power station running through the Romney marsh, Kent, United Kingdom. In the distance, the twin reactor power station known as Dungeness B can be seen. <br />
(photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1533.jpg
  • The first electrical pylons running out of Dungeness B nuclear power station in Kent, United Kingdom. The native Romney sheep inhabit all surrounding marshland. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1518.jpg
  • The first electrical pylons running out of Dungeness B nuclear power station in Kent, United Kingdom. The native Romney sheep inhabit all surrounding marshland. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1512.jpg
  • The first electrical pylons running out of Dungeness B nuclear power station in Kent, United Kingdom. The native Romney sheep inhabit all surrounding marshland. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1509.jpg
  • Winter sun shining over the electricity pylons that travel across the mountains that are used to transfer power from the Fierzë Hydroelectric Power Station in Northern Albania on the 12th of December 2018, Albania. The power station dam has a total volume of 8 million cubic meters and has an annual average power output of 1,330GWh. (photo by Andrew Aitchison / In pictures via Getty Images)
    Albania-Northern-Region-3554.jpg
  • Electrical pylons coming from Dungeness B power station in the Romney Marsh, Kent, United Kingdom. Grazing below the pylons is a herd of Romney sheep, who are native to the marshland.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1601.jpg
  • Electrical pylons coming from Dungeness B power station in the Romney Marsh, Kent, United Kingdom. Grazing below the pylons is a herd of Romney sheep, who are native to the marshland.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1593.jpg
  • The first electrical pylons running out of Dungeness B nuclear power station in Kent, United Kingdom. The native Romney sheep inhabit all surrounding marshland. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1517.jpg
  • Winter sun shining over the mountain village of Dushaj in Northern Albania on the 12th of December 2018. The river Drin passes through the centre of the village which is used to power the Fierzë Hydroelectric Power Station. The power station dam has a total volume of 8 million cubic meters and has an annual average power output of 1,330GWh. (photo by Andrew Aitchison / In pictures via Getty Images)
    Albania-Northern-Region-3559.jpg
  • Winter sun shining over the mountain village of Dushaj in Northern Albania on the 12th of December 2018. The river Drin passes through the centre of the village which is used to power the Fierzë Hydroelectric Power Station. The power station dam has a total volume of 8 million cubic meters and has an annual average power output of 1,330GWh. (photo by Andrew Aitchison / In pictures via Getty Images)
    Albania-Northern-Region-3542.jpg
  • The Dam of the Fierzë Hydroelectric Power Station uses water from the river Drin to generate electricity on the 12th of December 2018, Sckoder County, Albania.  The dam has a total volume of 8 million cubic meters and has an annual average power output of 1,330GWh.  (photo by Andrew Aitchison / In pictures via Getty Images)
    Albania-Northern-Region-3536.jpg
  • The Dam of the Fierzë Hydroelectric Power Station uses water from the river Drin to generate electricity on the 12th of December 2018, Sckoder County, Albania.  The dam has a total volume of 8 million cubic meters and has an annual average power output of 1,330GWh.  (photo by Andrew Aitchison / In pictures via Getty Images)
    Albania-Northern-Region-3915.jpg
  • The Dam of the Fierzë Hydroelectric Power Station uses water from the river Drin to generate electricity on the 12th of December 2018, Sckoder County, Albania.  The dam has a total volume of 8 million cubic meters and has an annual average power output of 1,330GWh.  (photo by Andrew Aitchison / In pictures via Getty Images)
    Albania-Northern-Region-3556.jpg
  • A view of the electrical pylons coming from Dungeness B nuclear power plant in the Romney Marsh, Kent, United Kingdom. The 26 turbines from Little Cheyne Court Wind Farm can be seen in the distance. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1589.jpg
  • A view of the electrical pylons coming from Dungeness B nuclear power plant in the Romney Marsh, Kent, United Kingdom. The 26 turbines from Little Cheyne Court Wind Farm can be seen in the distance. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1581.jpg
  • A view of the electrical pylons coming from Dungeness B nuclear power plant in the Romney Marsh, Kent, United Kingdom. The 26 turbines from Little Cheyne Court Wind Farm can be seen in the distance. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1572.jpg
  • A view of the electrical pylons coming from Dungeness B nuclear power plant in the Romney Marsh, Kent, United Kingdom. The 26 turbines from Little Cheyne Court Wind Farm can be seen in the distance. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1566.jpg
  • A view of the electrical pylons coming from Dungeness B nuclear power plant in the Romney Marsh, Kent, United Kingdom. The 26 turbines from Little Cheyne Court Wind Farm can be seen in the distance. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1562.jpg
  • A large shipping container boat anchored in Hythe bay due to bad weather in The English Channel at sunset with Dungeness Nuclear Power Station in the background as seen from Folkestone, Kent, England, United Kingdom. <br />
(photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Kent-CoastLine-3680.jpg
  • Campaigners projected the word STUPID on the side of Kingsnorth Power Station
    09-stupid-7312.jpg
  • Campaigners projected the word STUPID on the side of Kingsnorth Power Station
    09-stupid-7325.jpg
  • A large shipping container boat anchored in Hythe bay due to bad weather in The English Channel at sunset with Dungeness Nuclear Power Station in the background as seen from Folkestone, Kent, England, United Kingdom. <br />
(photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Kent-CoastLine-3818.jpg
  • A large shipping container boat anchored in Hythe bay due to bad weather in The English Channel at sunset with Dungeness Nuclear Power Station in the background as seen from Folkestone, Kent, England, United Kingdom. <br />
(photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Kent-CoastLine-3767.jpg
  • Campaigners projected the word STUPID on the side of Kingsnorth Power Station
    09-stupid-7347.jpg
  • Campaigners projected the word STUPID on the side of Kingsnorth Power Station
    09-stupid-7333.jpg
  • A row of electricity pylons coming from Hartlepool Power Station in Hartlepool, North East England, UK.  The tall steel lattice transmission tower supports overhead power lines. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Energy-Electricity-Pylons-1593.jpg
  • Electrical pylons running from Dungeness power station, Kent, United Kingdom. Dungeness supplies 1120 MW to the national grid. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1483.jpg
  • Electricity Pylons leading from Hartlepool Power Station pass the decommissioned Brent Delta Oil Rig in Able Seaton Port, Hartlepool, North East England, UK.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Brent-Delta-Oil-Rig-1612.jpg
  • Battersea Power Station. PCS Union projected some of London main building with anti cut slogans and encouraged people to attend the March.
    11-MARCH-0375.jpg
  • Battersea Power Station. PCS Union projected some of London main building with anti cut slogans and encouraged people to attend the March.
    11-MARCH-0363.jpg
  • A person stands alone on Folkestone seafront looking out across Hythe Bay toward Dungeness Power station on the 4th of June 2020, Folkestone, United Kingdom.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Folkestone-Seafront-7298.jpg
  • A derelict fishing boat sits on the shingle beach in Dungeness on a misty winters day, on the 25th of January 2020, Dungeness, Kent, United Kingdom. Dungeness is a shingle beach on the coast in Kent, famous for the Dungeness Power Station and Derek Jarman’s Prospect Cottage.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Dungeness-Derelict-Fishing-Boat-5...jpg
  • Dungeness Nuclear Power Station, Kent, United Kingdom. This is a twin reactor plant located on the headlands overlooking a nature reserve and Site of Special Scientific Interest. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Dungeness-Power...jpg
  • The Old Lighthouse of Dungeness, Kent, United Kingdom. A Historic Grade II listed building, it is the fourth lighthouse built on Dungeness and was built in 1904. Behind the lighthouse is Dungeness Nuclear Power Station.  This is a twin reactor plant located on the headlands overlooking a nature reserve and Site of Special Scientific Interest. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Dungeness-Power...jpg
  • Dungeness Nuclear Power Station, Kent, United Kingdom. This is a twin reactor plant located on the headlands overlooking a nature reserve and Site of Special Scientific Interest. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Dungeness-Power...jpg
  • The cooling towers of Willington Coal fired power station, first commissioned in 1957 it contains four 104 M.W. generating units, Each unit, when on full load, burns approximately 1,000 tons of coal per day which produces 200 tons of ash. Willington, Derbyshire, United Kingdom.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Willington-Power-Station-1421.jpg
  • The cooling towers of Willington Coal fired power station, first commissioned in 1957 it contains four 104 M.W. generating units, Each unit, when on full load, burns approximately 1,000 tons of coal per day which produces 200 tons of ash. Willington, Derbyshire, United Kingdom.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Willington-Power-Station-1412.jpg
  • Dungeness Nuclear Power Station, Kent, United Kingdom. This is a twin reactor plant located on the headlands overlooking a nature reserve and Site of Special Scientific Interest. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Dungeness-Power...jpg
  • The cooling towers of Willington Coal fired power station, first commissioned in 1957 it contains four 104 M.W. generating units, Each unit, when on full load, burns approximately 1,000 tons of coal per day which produces 200 tons of ash. Willington, Derbyshire, United Kingdom.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Willington-Power-Station-1414.jpg
  • The 3 cooling towers at Didcot power station in Oxfordshire, UK. Didcot Power Station is a coal-fired station supplying electricity to the National Grid.
    08-didcot_3921.jpg
  • Smoke and steam bellows from the chimneys and cooling towers of Ratcliffe-on-Soar coal fired power station, owned and operated by Uniper at Ratcliffe-on-Soar in Nottinghamshire, England. The plant emits 8–10 million tonnes of CO2 annually. It has a generating capacity of 2,116 MW,  enough electricity to meet the needs of approximately 2 million homes. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Coal-Fired-Power-Station-7335.jpg
  • Smoke and steam bellows from the chimneys and cooling towers of Ratcliffe-on-Soar coal fired power station, owned and operated by Uniper at Ratcliffe-on-Soar in Nottinghamshire, England. The plant emits 8–10 million tonnes of CO2 annually. It has a generating capacity of 2,116 MW,  enough electricity to meet the needs of approximately 2 million homes. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Coal-Fired-Power-Station-7296.jpg
  • Smoke and steam bellows from the chimneys and cooling towers of Ratcliffe-on-Soar coal fired power station, owned and operated by Uniper at Ratcliffe-on-Soar in Nottinghamshire, England. The plant emits 8–10 million tonnes of CO2 annually. It has a generating capacity of 2,116 MW,  enough electricity to meet the needs of approximately 2 million homes. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Coal-Fired-Power-Station-7289.jpg
  • Smoke and steam bellows from the chimneys and cooling towers of Ratcliffe-on-Soar coal fired power station, owned and operated by Uniper at Ratcliffe-on-Soar in Nottinghamshire, England. The plant emits 8–10 million tonnes of CO2 annually. It has a generating capacity of 2,116 MW,  enough electricity to meet the needs of approximately 2 million homes. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Coal-Fired-Power-Station-7251.jpg
  • Smoke and steam bellows from the chimneys and cooling towers of Ratcliffe-on-Soar coal fired power station, owned and operated by Uniper at Ratcliffe-on-Soar in Nottinghamshire, England. The plant emits 8–10 million tonnes of CO2 annually. It has a generating capacity of 2,116 MW,  enough electricity to meet the needs of approximately 2 million homes. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Coal-Fired-Power-Station-7245.jpg
  • Old Power Station on the East side of River Thames between Osney Bridge and Botley Road Bridge in Oxford City, England, United Kingdom. The power station produced electricity for the city and elsewhere for 77 years and was opened in 1892 and closed in 1969. Oxford University plans to convert the building for Said Business School.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Old-Power-Station-Oxford-7817.jpg
  • Old Power Station on the East side of River Thames between Osney Bridge and Botley Road Bridge in Oxford City, England, United Kingdom. The power station produced electricity for the city and elsewhere for 77 years and was opened in 1892 and closed in 1969. Oxford University plans to convert the building for Said Business School.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Old-Power-Station-Oxford-7816.jpg
  • The 3 cooling towers at Didcot power station in Oxfordshire, UK. Didcot Power Station is a coal-fired station supplying electricity to the National Grid.
    08-didcot_3919.jpg
  • Smoke and steam bellows from the chimneys and cooling towers of Ratcliffe-on-Soar coal fired power station, owned and operated by Uniper at Ratcliffe-on-Soar in Nottinghamshire, England. The plant emits 8–10 million tonnes of CO2 annually. It has a generating capacity of 2,116 MW,  enough electricity to meet the needs of approximately 2 million homes. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Coal-Fired-Power-Station-7305.jpg
  • Smoke and steam bellows from the chimneys and cooling towers of Ratcliffe-on-Soar coal fired power station, owned and operated by Uniper at Ratcliffe-on-Soar in Nottinghamshire, England. The plant emits 8–10 million tonnes of CO2 annually. It has a generating capacity of 2,116 MW,  enough electricity to meet the needs of approximately 2 million homes. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Coal-Fired-Power-Station-7328.jpg
  • Smoke and steam bellows from the chimneys and cooling towers of Ratcliffe-on-Soar coal fired power station, owned and operated by Uniper at Ratcliffe-on-Soar in Nottinghamshire, England. The plant emits 8–10 million tonnes of CO2 annually. It has a generating capacity of 2,116 MW,  enough electricity to meet the needs of approximately 2 million homes. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Coal-Fired-Power-Station-7320.jpg
  • Smoke and steam bellows from the chimneys and cooling towers of Ratcliffe-on-Soar coal fired power station, owned and operated by Uniper at Ratcliffe-on-Soar in Nottinghamshire, England. The plant emits 8–10 million tonnes of CO2 annually. It has a generating capacity of 2,116 MW,  enough electricity to meet the needs of approximately 2 million homes. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Coal-Fired-Power-Station-7269.jpg
  • Smoke and steam bellows from the chimneys and cooling towers of Ratcliffe-on-Soar coal fired power station, owned and operated by Uniper at Ratcliffe-on-Soar in Nottinghamshire, England. The plant emits 8–10 million tonnes of CO2 annually. It has a generating capacity of 2,116 MW,  enough electricity to meet the needs of approximately 2 million homes. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Coal-Fired-Power-Station-7263.jpg
  • Smoke and steam bellows from the chimneys and cooling towers of Ratcliffe-on-Soar coal fired power station, owned and operated by Uniper at Ratcliffe-on-Soar in Nottinghamshire, England. The plant emits 8–10 million tonnes of CO2 annually. It has a generating capacity of 2,116 MW,  enough electricity to meet the needs of approximately 2 million homes. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Coal-Fired-Power-Station-6830.jpg
  • Hinkley Point C nuclear power station is a project funded by China to construct a 3,200 MWe nuclear power station with two European Pressurised Reactors in Somerset, England.
    UK-Nuclear_Power_Station-Hinkley_Poi...jpg
  • Hinkley Point C nuclear power station is a project funded by China to construct a 3,200 MWe nuclear power station with two European Pressurised Reactors in Somerset, England.
    UK-Nuclear_Power_Station-Hinkley_Poi...jpg
  • (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Electrical-Energy-Pylons-1619.jpg
  • Smoke and steam bellows from the chimneys and cooling towers of Ratcliffe-on-Soar power station
    UK-Ratcliffe-on-Soar-power-station-6...jpg
  • Smoke and steam bellows from the chimneys and cooling towers of Ratcliffe-on-Soar power station
    UK-Ratcliffe-on-Soar-power-station-6...jpg
  • Smoke and steam bellows from the chimneys and cooling towers of Ratcliffe-on-Soar power station
    UK-Ratcliffe-on-Soar-power-station-6...jpg
  • The word 'STUPID' is projected onto the side of Kingsnorth power station, Kent, UK.
    09-stupid-7330.jpg
  • An electricity sub station near Didcot Power station, Oxfordshire. Open Energi. ALL publication MUST include the credit © Andrew Aitchison / Ashden
    16-OpenEnergi-7221.jpg
  • The old power station near Osney lock. Low Carbon Hub, Oxford. A community energy hub developing community owned renewable energy projects across Oxfordshire.  ALL publication MUST include the credit © Andrew Aitchison / ASHDEN.
    16-LowCarbonHub-7816.jpg
  • The Brent Bravo Delta oil platform topsides in Able Seaton Port, Hartlepool, North East England, UK.   This was the heaviest single cargo ever to be lifted in the history of the oil and gas industry was brought to Seaton to be scrapped. The aim is to recycle 98% of the structure.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Brent-Delta-Oil-Rig-1613.jpg
  • The Brent Bravo Delta oil platform topsides in Able Seaton Port, Hartlepool, North East England, UK.   This was the heaviest single cargo ever to be lifted in the history of the oil and gas industry was brought to Seaton to be scrapped. The aim is to recycle 98% of the structure.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Brent-Delta-Oil-Rig-1616.jpg
  • The roof underside of 7.75 kWp solar photovoltaic array panels in Osney Lock Hydro on the River Thames, in Oxford, England, United Kingdom.  It is the first community owned hydropower scheme to be built on the River Thames, set up by local residents in 2002, it generates clean, green electricity. The solar panels generate 6,665 kWh of green energy annually.  (photo by Andrew Aitchison / In pictures via Getty Images)(photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Photovoltaic-Panels-Oxford-7850.jpg
  • A women walks over a bridge above the Archimedean screw hydropower system of the Osney Lock Hydro on the River Thames in Oxford, England, United Kingdom.  It is the first community owned hydropower scheme to be built on the River Thames, set up by local residents in 2002, it generates clean, green electricity and a source of income.  The building has solar photovoltaic array panels to maximise green energy production. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Osney-Lock-Hydro-Oxford-7947.jpg
  • A women walks over a bridge above the Archimedean screw hydropower system of the Osney Lock Hydro on the River Thames in Oxford, England, United Kingdom.  It is the first community owned hydropower scheme to be built on the River Thames, set up by local residents in 2002, it generates clean, green electricity and a source of income.  The building has solar photovoltaic array panels to maximise green energy production. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Osney-Lock-Hydro-Oxford-7937.jpg
  • A women walks over a bridge above the Archimedean screw hydropower system of the Osney Lock Hydro on the River Thames in Oxford, England, United Kingdom.  It is the first community owned hydropower scheme to be built on the River Thames, set up by local residents in 2002, it generates clean, green electricity and a source of income.  The building has solar photovoltaic array panels to maximise green energy production. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Osney-Lock-Hydro-Oxford-7919.jpg
  • Osney Lock Hydro smart monitoring system which monitors to hydropower and solar photovoltaic energy production in Oxford, England, United Kingdom.  It is the first community owned hydropower scheme to be built on the River Thames, set up by local residents in 2002, it generates clean, green electricity. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Osney-Lock-Hydro-Oxford-7872.jpg
  • The Archimedean screw hydropower system of the Osney Lock Hydro on the River Thames in Oxford, England, United Kingdom.  It is the first community owned hydropower scheme to be built on the River Thames, set up by local residents in 2002, it generates clean, green electricity and a source of income.  The building has solar photovoltaic array panels to maximise green energy production. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Osney-Lock-Hydro-Oxford-7836.jpg
  • Osney Lock Hydro smart monitoring system which monitors to hydropower and solar photovoltaic energy production in Oxford, England, United Kingdom.  It is the first community owned hydropower scheme to be built on the River Thames, set up by local residents in 2002, it generates clean, green electricity. (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Osney-Lock-Hydro-Oxford-7862.jpg
  • The Archimedean screw hydropower system of the Osney Lock Hydro on the River Thames in Oxford, England, United Kingdom.  It is the first community owned hydropower scheme to be built on the River Thames, set up by local residents in 2002, it generates clean, green electricity and a source of income.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Osney-Lock-Hydro-Oxford-7823.jpg
  • Osney Lock Hydro is the first community owned hydropower scheme to be built on the River Thames, Oxford, England, United Kingdom.  Set up by local residents in 2002, it generates clean, green electricity and a source of income through a Archimedean screw hydropower system.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Osney-Lock-Hydro-Oxford-7821.jpg
  • The roof underside of 7.75 kWp solar photovoltaic array panels in Osney Lock Hydro on the River Thames, in Oxford, England, United Kingdom.  It is the first community owned hydropower scheme to be built on the River Thames, set up by local residents in 2002, it generates clean, green electricity. The solar panels generate 6,665 kWh of green energy annually.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Photovoltaic-Panels-Oxford-7824.jpg
  • Prospect Cottage on a beautiful sunny mid summer morning, made famous by film maker Derek Jarman who found inspiration at Dungeness, where he created a shingle garden made from debris he found on the beaches of Dungeness, Kent, United Kingdom on the 13th of August 2020.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Dungeness-Prospect-Cottage-7270.jpg
  • Prospect Cottage on a beautiful sunny mid summer morning, made famous by film maker Derek Jarman who found inspiration at Dungeness, where he created a shingle garden made from debris he found on the beaches of Dungeness, Kent, United Kingdom on the 13th of August 2020.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Dungeness-Prospect-Cottage-7286.jpg
  • Prospect Cottage on a beautiful sunny mid summer morning, made famous by film maker Derek Jarman who found inspiration at Dungeness, where he created a shingle garden made from debris he found on the beaches of Dungeness, Kent, United Kingdom on the 13th of August 2020.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Dungeness-Prospect-Cottage-7285.jpg
  • Prospect Cottage on a beautiful sunny mid summer morning, made famous by film maker Derek Jarman who found inspiration at Dungeness, where he created a shingle garden made from debris he found on the beaches of Dungeness, Kent, United Kingdom on the 13th of August 2020.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Dungeness-Prospect-Cottage-7277.jpg
  • Prospect Cottage on a beautiful sunny mid summer morning, made famous by film maker Derek Jarman who found inspiration at Dungeness, where he created a shingle garden made from debris he found on the beaches of Dungeness, Kent, United Kingdom on the 13th of August 2020.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Dungeness-Prospect-Cottage-7268.jpg
  • Prospect Cottage on a misty winters day, made famous by film maker Derek Jarman who found inspiration at Dungeness, where he created a shingle garden made from debris he found on the beaches of Dungeness, Kent, United Kingdom on the 25th January 2020.  (photo by Andrew Aitchison / In pictures via Getty Images)
    UK-Dungeness-Propect-Cottage-5742.jpg
  • THe installers walk through the array of solar panels next to the line near Aldershot Railway Station.  This innovative project is the first in the UK to power the railway with electricity generated from solar power and, if successful, could see many Network Rail sites across the country adapting this sustainable energy approach. Riding Sunbeams is a social enterprise, run by 10:10 Climate Action. Built with Community Energy South and partnered with Network Rail and The Department for Transport and by InnovateUK.  Aldershot, Hampshire, United Kingdom. Riding Sunbeams is a world leading project to connect solar panels directly into electrified rail routes to power the trains. Direct supply of solar power to rail traction systems has never been done. But it has huge potential - from metros, trams and railways in the UK and around the world.<br />
(photo by Andy Aitchison / 1010 Climate Action)
    19-Riding-Sunbeams-7743.jpg
  • A train travels past an array of solar panels being cleaned next to the line near Aldershot Railway Station.  This innovative project is the first in the UK to power the railway with electricity generated from solar power and, if successful, could see many Network Rail sites across the country adapting this sustainable energy approach. Riding Sunbeams is a social enterprise, run by 10:10 Climate Action. Built with Community Energy South and partnered with Network Rail and The Department for Transport and by InnovateUK.  Aldershot, Hampshire, United Kingdom. Riding Sunbeams is a world leading project to connect solar panels directly into electrified rail routes to power the trains. Direct supply of solar power to rail traction systems has never been done. But it has huge potential - from metros, trams and railways in the UK and around the world.<br />
(photo by Andy Aitchison / 1010 Climate Action)
    19-Riding-Sunbeams-7178.jpg
  • Stuart Kistruck director of asset management for network rail Wessex route with Martin Heath from Basingstoke Energy Service at the array of solar panels next to the line near Aldershot Railway Station.  This innovative project is the first in the UK to power the railway with electricity generated from solar power and, if successful, could see many Network Rail sites across the country adapting this sustainable energy approach. Riding Sunbeams is a social enterprise, run by 10:10 Climate Action. Built with Community Energy South and partnered with Network Rail and The Department for Transport and by InnovateUK.  Aldershot, Hampshire, United Kingdom. Riding Sunbeams is a world leading project to connect solar panels directly into electrified rail routes to power the trains. Direct supply of solar power to rail traction systems has never been done. But it has huge potential - from metros, trams and railways in the UK and around the world.<br />
(photo by Andrew Aitchison / In Pictures via Getty Images)
    19-Riding-Sunbeams-7509.jpg
  • Leo Murray, director of innovation at 10:10 Climate Action with Stuart Kistruck director of asset management for network rail Wessex route, <br />
Patrick Flanagan of Network Rail and Martin Heath from Basingstoke Energy Service at the array of solar panels next to the line near Aldershot Railway Station.  This innovative project is the first in the UK to power the railway with electricity generated from solar power and, if successful, could see many Network Rail sites across the country adapting this sustainable energy approach. Riding Sunbeams is a social enterprise, run by 10:10 Climate Action. Built with Community Energy South and partnered with Network Rail and The Department for Transport and by InnovateUK.  Aldershot, Hampshire, United Kingdom. Riding Sunbeams is a world leading project to connect solar panels directly into electrified rail routes to power the trains. Direct supply of solar power to rail traction systems has never been done. But it has huge potential - from metros, trams and railways in the UK and around the world.<br />
(photo by Andrew Aitchison / In Pictures via Getty Images)
    19-Riding-Sunbeams-7478.jpg
  • Patrick Flanagan of Network Rail, overseeing at the array of solar panels next to the line near Aldershot Railway Station.  This innovative project is the first in the UK to power the railway with electricity generated from solar power and, if successful, could see many Network Rail sites across the country adapting this sustainable energy approach. Riding Sunbeams is a social enterprise, run by 10:10 Climate Action. Built with Community Energy South and partnered with Network Rail and The Department for Transport and by InnovateUK.  Aldershot, Hampshire, United Kingdom. Riding Sunbeams is a world leading project to connect solar panels directly into electrified rail routes to power the trains. Direct supply of solar power to rail traction systems has never been done. But it has huge potential - from metros, trams and railways in the UK and around the world.<br />
(photo by Andrew Aitchison / In Pictures via Getty Images)
    19-Riding-Sunbeams-7414.jpg
  • Leo Murray, director of innovation at 10:10 Climate Action cleaning the array of solar panels next to the line near Aldershot Railway Station.  This innovative project is the first in the UK to power the railway with electricity generated from solar power and, if successful, could see many Network Rail sites across the country adapting this sustainable energy approach. Riding Sunbeams is a social enterprise, run by 10:10 Climate Action. Built with Community Energy South and partnered with Network Rail and The Department for Transport and by InnovateUK.  Aldershot, Hampshire, United Kingdom. Riding Sunbeams is a world leading project to connect solar panels directly into electrified rail routes to power the trains. Direct supply of solar power to rail traction systems has never been done. But it has huge potential - from metros, trams and railways in the UK and around the world.<br />
(photo by Andrew Aitchison / In Pictures via Getty Images)
    19-Riding-Sunbeams-7448.jpg
  • Leo Murray, director of innovation at 10:10 Climate Action shaking hands with Stuart Kistruck director of asset management for network rail Wessex route over the array of solar panels next to the line near Aldershot Railway Station.  This innovative project is the first in the UK to power the railway with electricity generated from solar power and, if successful, could see many Network Rail sites across the country adapting this sustainable energy approach. Riding Sunbeams is a social enterprise, run by 10:10 Climate Action. Built with Community Energy South and partnered with Network Rail and The Department for Transport and by InnovateUK.  Aldershot, Hampshire, United Kingdom. Riding Sunbeams is a world leading project to connect solar panels directly into electrified rail routes to power the trains. Direct supply of solar power to rail traction systems has never been done. But it has huge potential - from metros, trams and railways in the UK and around the world.<br />
(photo by Andrew Aitchison / In Pictures via Getty Images)
    19-Riding-Sunbeams-7451.jpg
  • THe installers walk through the array of solar panels next to the line near Aldershot Railway Station.  This innovative project is the first in the UK to power the railway with electricity generated from solar power and, if successful, could see many Network Rail sites across the country adapting this sustainable energy approach. Riding Sunbeams is a social enterprise, run by 10:10 Climate Action. Built with Community Energy South and partnered with Network Rail and The Department for Transport and by InnovateUK.  Aldershot, Hampshire, United Kingdom. Riding Sunbeams is a world leading project to connect solar panels directly into electrified rail routes to power the trains. Direct supply of solar power to rail traction systems has never been done. But it has huge potential - from metros, trams and railways in the UK and around the world.<br />
(photo by Andy Aitchison / 1010 Climate Action)
    19-Riding-Sunbeams-7730.jpg
  • THe installers walk through the array of solar panels next to the line near Aldershot Railway Station.  This innovative project is the first in the UK to power the railway with electricity generated from solar power and, if successful, could see many Network Rail sites across the country adapting this sustainable energy approach. Riding Sunbeams is a social enterprise, run by 10:10 Climate Action. Built with Community Energy South and partnered with Network Rail and The Department for Transport and by InnovateUK.  Aldershot, Hampshire, United Kingdom. Riding Sunbeams is a world leading project to connect solar panels directly into electrified rail routes to power the trains. Direct supply of solar power to rail traction systems has never been done. But it has huge potential - from metros, trams and railways in the UK and around the world.<br />
(photo by Andy Aitchison / 1010 Climate Action)
    19-Riding-Sunbeams-7727.jpg
  • THe big switch on at an array of solar panels next to the line near Aldershot Railway Station.  This innovative project is the first in the UK to power the railway with electricity generated from solar power and, if successful, could see many Network Rail sites across the country adapting this sustainable energy approach. Riding Sunbeams is a social enterprise, run by 10:10 Climate Action. Built with Community Energy South and partnered with Network Rail and The Department for Transport and by InnovateUK.  Aldershot, Hampshire, United Kingdom. Riding Sunbeams is a world leading project to connect solar panels directly into electrified rail routes to power the trains. Direct supply of solar power to rail traction systems has never been done. But it has huge potential - from metros, trams and railways in the UK and around the world.<br />
(photo by Andy Aitchison / 1010 Climate Action)
    19-Riding-Sunbeams-7642.jpg
  • THe big switch on at an array of solar panels next to the line near Aldershot Railway Station.  This innovative project is the first in the UK to power the railway with electricity generated from solar power and, if successful, could see many Network Rail sites across the country adapting this sustainable energy approach. Riding Sunbeams is a social enterprise, run by 10:10 Climate Action. Built with Community Energy South and partnered with Network Rail and The Department for Transport and by InnovateUK.  Aldershot, Hampshire, United Kingdom. Riding Sunbeams is a world leading project to connect solar panels directly into electrified rail routes to power the trains. Direct supply of solar power to rail traction systems has never been done. But it has huge potential - from metros, trams and railways in the UK and around the world.<br />
(photo by Andy Aitchison / 1010 Climate Action)
    19-Riding-Sunbeams-7693.jpg
  • THe installers walk through the array of solar panels next to the line near Aldershot Railway Station.  This innovative project is the first in the UK to power the railway with electricity generated from solar power and, if successful, could see many Network Rail sites across the country adapting this sustainable energy approach. Riding Sunbeams is a social enterprise, run by 10:10 Climate Action. Built with Community Energy South and partnered with Network Rail and The Department for Transport and by InnovateUK.  Aldershot, Hampshire, United Kingdom. Riding Sunbeams is a world leading project to connect solar panels directly into electrified rail routes to power the trains. Direct supply of solar power to rail traction systems has never been done. But it has huge potential - from metros, trams and railways in the UK and around the world.<br />
(photo by Andy Aitchison / 1010 Climate Action)
    19-Riding-Sunbeams-7720.jpg
  • The Riding Sunbeams banner at the array of solar panels next to the line near Aldershot Railway Station.  This innovative project is the first in the UK to power the railway with electricity generated from solar power and, if successful, could see many Network Rail sites across the country adapting this sustainable energy approach. Riding Sunbeams is a social enterprise, run by 10:10 Climate Action. Built with Community Energy South and partnered with Network Rail and The Department for Transport and by InnovateUK.  Aldershot, Hampshire, United Kingdom. Riding Sunbeams is a world leading project to connect solar panels directly into electrified rail routes to power the trains. Direct supply of solar power to rail traction systems has never been done. But it has huge potential - from metros, trams and railways in the UK and around the world.<br />
(photo by Andy Aitchison / 1010 Climate Action)
    19-Riding-Sunbeams-7630.jpg
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