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  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • Waves form across a puddle in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • Waves form across a puddle in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • An access road to wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-50...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • An access road to wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-50...jpg
  • Sheep and young lambs grazing in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-50...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-50...jpg
  • Sheep and young lambs grazing in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Sheep and young lambs grazing in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Sheep and young lambs grazing in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Sheep and young lambs grazing in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Waves form across a puddle in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • Sheep grazing in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Investors and locals walk along the water entrance to Halton Lune hydro, a community owned renewable energy project, Halton, Lancashire.
    UK-Renewable-Energy-Halton-Lune-Hydr...jpg
  • Investors and locals walk along the water entrance to Halton Lune hydro, a community owned renewable energy project, Halton, Lancashire.
    UK-Renewable-Energy-Halton-Lune-Hydr...jpg
  • The monitoring screen and switches of Halton Lune hydro, a community owned renewable energy project, Halton, Lancashire.
    UK-Renewable-Energy-Halton-Lune-Hydr...jpg
  • The video screen used to monitor the fish pass and screen  through the water entrance to Halton Lune hydro, a community owned renewable energy project, Halton, Lancashire.
    UK-Renewable-Energy-Halton-Lune-Hydr...jpg
  • The water entrance to Halton Lune hydro, a community owned renewable energy project, Halton, Lancashire.
    UK-Renewable-Energy-Halton-Lune-Hydr...jpg
  • Investors and locals attend the official opening of, Halton Lune Hydro,  Halton, Lancashire on the 18th of September 2015. Adrian Ramsey, the Chief Executive of the Centre for Alternative Technology pressed the start button of the biggest community owned hydro in England. Hydro power has been used at this location since 1252 AD
    UK-Renewable-Energy-Halton-Lune-Hydr...jpg
  • Investors and locals attend the official opening of, Halton Lune Hydro,  Halton, Lancashire on the 18th of September 2015.The biggest community owned hydro in England. Hydro power has been used at this location since 1252 AD
    UK-Renewable-Energy-Halton-Lune-Hydr...jpg
  • An array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7312.jpg
  • A train travels past an array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7601.jpg
  • An array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7312.jpg
  • An array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7178.jpg
  • An array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7727.jpg
  • A train travels past an array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7743.jpg
  • The big switch on next to an array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7693.jpg
  • An array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7720.jpg
  • An array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7619.jpg
  • The Riding Sunbeams banner next to array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7630.jpg
  • The big switch on next to an array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7642.jpg
  • An array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7178.jpg
  • A train travels past an array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7256.jpg
  • An array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-1366.jpg
  • A train travels past an array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-1448.jpg
  • The big switch on next to an array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7642.jpg
  • A train travels past an array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7743.jpg
  • An array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7727.jpg
  • The big switch on next to an array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7693.jpg
  • An array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7720.jpg
  • The Riding Sunbeams banner next to array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7630.jpg
  • A train travels past an array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7256.jpg
  • An array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7619.jpg
  • A train travels past an array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-1448.jpg
  • An array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-1366.jpg
  • A train travels past an array of solar panels next to the line near Aldershot Railway Station on 23rd August 2019 in Aldershot, United Kingdom. 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.
    19-Riding-Sunbeams-7601.jpg
  • The solar panels array on the roof of Oldfield Park Infant School. Installed with the support of Bath and West Community Energy a community project. Bath, Somerset.
    UK-renewable-energy-solar-5751.jpg
  • The solar panels array on the roof of Oldfield Park Infant School. Installed with the support of Bath and West Community Energy a community project. Bath, Somerset.
    UK-renewable-energy-solar-5747.jpg
  • The community energy sign at St Briavels wind turbine, Great Dunkilns Farm, St. Briavels, Lydney. A project of the Resilience centre, Forest of Dean. Gloucestershire.
    UK-Renewable-Energy-Wind-turbine-423...jpg
  • A defibrillator supplied with money from the community wind turbine project outside Lydney village hall. A community energy project organised by the Resilience centre, Forest of Dean. Gloucestershire.
    UK-community-defibrillator-4353.jpg
  • Electricity power lines cross over Braydon Manor Farm. The site where Solarcentury started building Wiltshire Wildlife Community Energy’s (WWCE) 5MWp community-owned solar farm. Over 18,000 solar panels will be installed across 18 acres and the solar system will generate enough energy to power over 1,400 homes and save 2,500 tonnes of carbon a year.
    UK-energy-electricity-cable-5876.jpg
  • An electricity pylon towering over the solar panels of the 100kW solar array built by WREN, in partnership with South West Water, to power Nanstallon Sewage Treatment Works. WREN community energy. Wadebridge, Cornwall. UK
    UK-Renewable-Energy-Solar-Array-4906.jpg
  • Solar panels of the 100kW solar array built by WREN, in partnership with South West Water, to power Nanstallon Sewage Treatment Works. WREN community energy. Wadebridge, Cornwall. UK
    UK-Renewable-Energy-Solar-Array-4902.jpg
  • Solar panels of the 100kW solar array built by WREN, in partnership with South West Water, to power Nanstallon Sewage Treatment Works. WREN community energy. Wadebridge, Cornwall. UK
    UK-Renewable-Energy-Solar-Array-4862.jpg
  • Solar panels of the 100kW solar array built by WREN, in partnership with South West Water, to power Nanstallon Sewage Treatment Works. WREN community energy. Wadebridge, Cornwall. UK
    UK-Renewable-Energy-Solar-Array-4867.jpg
  • Solar panels of the 100kW solar array built by WREN, in partnership with South West Water, to power Nanstallon Sewage Treatment Works. WREN community energy. Wadebridge, Cornwall. UK
    UK-Renewable-Energy-Solar-Array-4899.jpg
  • Members of the Wadebridge Streetband perform at the in the town hall. They are one of the community projects supported by the money raised from feed in tariffs at WREN community energy. Wadebridge, Cornwall. UK
    UK-Community-Streetband-5097.jpg
  • Members of the Wadebridge Streetband perform at the in the town hall. They are one of the community projects supported by the money raised from feed in tariffs at WREN community energy. Wadebridge, Cornwall. UK
    UK-Community-Streetband-5084.jpg
  • Members of the Wadebridge Streetband perform at the in the town hall. They are one of the community projects supported by the money raised from feed in tariffs at WREN community energy. Wadebridge, Cornwall. UK
    UK-Community-Streetband-5077.jpg
  • Members of the Wadebridge Streetband perform at the in the town hall. They are one of the community projects supported by the money raised from feed in tariffs at WREN community energy. Wadebridge, Cornwall. UK
    UK-Community-Streetband-5072.jpg
  • Members of the Wadebridge Streetband perform at the in the town hall. They are one of the community projects supported by the money raised from feed in tariffs at WREN community energy. Wadebridge, Cornwall. UK
    UK-Community-Streetband-5067.jpg
  • Wadebridge youngsters line up to skate and scoot in Lidl car park. WREN community energy has given funding received from the Feed in tariff from their solar array to a project that build a local skate park within the town. Wadebridge, Cornwall. UK
    UK-Renewable-Energy-Wadebridge-WREN-...jpg
  • Wadebridge youngsters skating and scootering in Lidl car park. WREN community energy has given funding received from the Feed in tariff from their solar array to a project that build a local skate park within the town. Wadebridge, Cornwall. UK
    UK-Renewable-Energy-Wadebridge-WREN-...jpg
  • Wadebridge youngsters skating and scootering in Lidl car park. WREN community energy has given funding received from the Feed in tariff from their solar array to a project that build a local skate park within the town. Wadebridge, Cornwall. UK
    UK-Renewable-Energy-Wadebridge-WREN-...jpg
  • Wadebridge youngsters line up to skate and scoot in Lidl car park. WREN community energy has given funding received from the Feed in tariff from their solar array to a project that build a local skate park within the town. Wadebridge, Cornwall. UK
    UK-Renewable-Energy-Wadebridge-WREN-...jpg
  • A Wadebridge youngster scootering in Lidl car park. WREN community energy has given funding received from the Feed in tariff from their solar array to a project that build a local skate park within the town. Wadebridge, Cornwall. UK
    UK-Renewable-Energy-Wadebridge-WREN-...jpg
  • The plaque unveiled by Adrian Ramsey, the Chief Executive of the Centre for Alternative Technology at the official opening of, Halton Lune Hydro, Halton, Lancashire on the 18th of September 2015.
    UK-Renewable-Energy-Halton-Lune-Hydr...jpg
  • The Solar Park sign outside Braydon Manor Farm site where Solarcentury started building Wiltshire Wildlife Community Energy’s (WWCE) 5MWp community-owned solar farm. Over 18,000 solar panels will be installed across 18 acres and the solar system will generate enough energy to power over 1,400 homes and save 2,500 tonnes of carbon a year
    UK-sign-solar-array-5867.jpg
  • The Solar farm delivery sign outside Braydon Manor Farm site where Solarcentury started building Wiltshire Wildlife Community Energy’s (WWCE) 5MWp community-owned solar farm. Over 18,000 solar panels will be installed across 18 acres and the solar system will generate enough energy to power over 1,400 homes and save 2,500 tonnes of carbon a year
    UK-sign-solar-array-5865.jpg
  • A pupil from the St. Columb Minor school in Cornwall, completes a community energy survey by talking to customers in the local Co-Operative supermarket. The school won an Ashden Award in 2010 for it's appraoch to sustainable energy.
    10-stcolumbminor-0309.jpg
  • A pupil from the St. Columb Minor school in Cornwall, completes a community energy survey by talking to customers in the local Co-Operative supermarket. The school won an Ashden Award in 2010 for it's appraoch to sustainable energy.
    10-stcolumbminor-0293.jpg
  • Solar panels and wind turbines at the Solar array of community project Low carbon Gordano, a community renewable energy project. Delivering 1,750HWh per annum. Avon, Somerset.
    UK-Renewable-Energy-solar-wind-4792.jpg
  • Solar panels, wind turbines and electricity pylons at the Solar array of community project Low carbon Gordano, a community renewable energy project. Delivering 1,750HWh per annum. Avon, Somerset.
    UK-Renewable-Energy-solar-wind-4811.jpg
  • Solar panels and wind turbines at the Solar array of community project Low carbon Gordano, a community renewable energy project. Delivering 1,750HWh per annum. Avon, Somerset.
    UK-Renewable-Energy-solar-wind-4845.jpg
  • Solar panels, wind turbines and electricity pylons at the Solar array of community project Low carbon Gordano, a community renewable energy project. Delivering 1,750HWh per annum. Avon, Somerset.
    UK-Renewable-Energy-solar-wind-4753.jpg
  • Solar panels and wind turbines at the Solar array of community project Low carbon Gordano, a community renewable energy project. Delivering 1,750HWh per annum. Avon, Somerset.
    UK-Renewable-Energy-solar-wind-0001.jpg
  • Solar panels and electricity pylons at the Solar array of community project Low carbon Gordano, a community renewable energy project. Delivering 1,750HWh per annum. Avon, Somerset.
    UK-Renewable-Energy-solar-panels-483...jpg
  • Solar panels and electricity pylons at the Solar array of community project Low carbon Gordano, a community renewable energy project. Delivering 1,750HWh per annum. Avon, Somerset.
    UK-Renewable-Energy-solar-panels-480...jpg
  • Inside the Wadebridge Renewable Energy Network (WREN) energy shop in Wadebridge, North Cornwall, United Kingdom. The shop is the focal point for WRENs activities which aims to turn the area into the first renewable energy town.  A British man gets WREN currency money out of a money box for a local woman.
    UK-Community-Group-WREN-9992.jpg
  • A woman walks past the Wadebridge Renewable Energy Network (WREN) energy shop in Wadebridge, North Cornwall, UK. The shop is the focal point for WREN activities which aims to turn the area into the first renewable energy town.
    UK-Renewable-Energy-Wadebridge-WREN-...jpg
  • The solar pv panels at the Solar array of Low carbon Gordano, a community renewable energy project. Delivering 1,750HWh per annum. Avon, Somerset.
    UK-Renewable-Energy-solar-panels-476...jpg
  • The Solar array of community project Low carbon Gordano, a Solarsense renewable energy project. Delivering 1,750HWh per annum. Avon, Somerset.
    UK-Renewable-Energy-solar-wind-4648.jpg
  • The solar pv panels at the Solar array of Low carbon Gordano, a community renewable energy project. Delivering 1,750HWh per annum. Avon, Somerset.
    UK-Renewable-Energy-solar-panels-476...jpg
  • The solar pv panels at the Solar array of Low carbon Gordano, a community renewable energy project. Delivering 1,750HWh per annum. Avon, Somerset.
    UK-Renewable-Energy-solar-panels-476...jpg
  • The solar PV panels, fitted to the roof of Bradford Cathedral, generating funds to support the local community of Bradford.
    UK-Renewable-Energy-Bradford-Cathedr...jpg
  • A collection of Wren currency which the Wadebridge Renewable Energy Network (WREN) has launched for local businesses in North Cornwall, United Kingdom. For every Wren (Wr) redeemed, a percentage is put back into the Community Fund.
    UK-Community-Group-WREN-0016.jpg
  • The path leading to St Briavels wind turbine, at Great Dunkilns Farm, St. Briavels, Lydney. A renewable energy community project supported by the Resilience centre, Forest of Dean. Gloucestershire.
    UK-Renewable-Energy-Wind-turbine-423...jpg
  • The path leading to St Briavels wind turbine, at Great Dunkilns Farm, St. Briavels, Lydney. A renewable energy community project supported by the Resilience centre, Forest of Dean. Gloucestershire.
    UK-Renewable-Energy-Wind-turbine-425...jpg
  • The intake point for Ynni Anafon Energy hydro project. One of the largest community owned hydro projects in the UK. The site of the Anafon Hydro lies in the Anafon valley in the Carneddau massif which rises immediately south of the village of Abergwyngregyn just inside the northern boundary of the Snowdonia National Park and 4 km west-south-west of Llanfairfechan. Gwynedd, North Wales.
    UK-Renewable-Energy-Ynni-Anafon-3865.jpg
  • Founding directors Hywel Thomas & Gaving Gatehouse look at the intake point for Ynni Anafon Energy hydro project. One of the largest community owned hydro projects in the UK. The site of the Anafon Hydro lies in the Anafon valley in the Carneddau massif which rises immediately south of the village of Abergwyngregyn just inside the northern boundary of the Snowdonia National Park and 4 km west-south-west of Llanfairfechan. Gwynedd, North Wales.
    UK-Renewable-Energy-Ynni-Anafon-3872.jpg
  • The intake point for Ynni Anafon Energy hydro project. One of the largest community owned hydro projects in the UK. The site of the Anafon Hydro lies in the Anafon valley in the Carneddau massif which rises immediately south of the village of Abergwyngregyn just inside the northern boundary of the Snowdonia National Park and 4 km west-south-west of Llanfairfechan. Gwynedd, North Wales.
    UK-Renewable-Energy-Ynni-Anafon-3991.jpg
  • Founding directors Hywel Thomas & Gaving Gatehouse look at the intake point for Ynni Anafon Energy hydro project. One of the largest community owned hydro projects in the UK. The site of the Anafon Hydro lies in the Anafon valley in the Carneddau massif which rises immediately south of the village of Abergwyngregyn just inside the northern boundary of the Snowdonia National Park and 4 km west-south-west of Llanfairfechan. Gwynedd, North Wales.
    UK-Renewable-Energy-Ynni-Anafon-3869.jpg
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