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  • A worker in the Copper Industries factory in Northern Ireland soldering a copper pipe for part of a Willis Renewables Solar Syphon. Copper Industries are the company that manufacture the Solar Syphon for Willis Renewables.  Willis Renewables are the inventors and distributors of the Solar Syphon, and are based in Belfast, Northern Ireland.  The Solar Syphon system is a simple ‘add-on’ heat exchange unit which provides a lower cost installation alternative to the traditional twin coil solar cylinder. Willis Renewables won an Ashden Award in 2010 for its inspiring sustainable energy solutions.
    10-willis-1176.jpg
  • A factory worker cuting a whole in the lagging on a copper hot water tank for use with a Willis Renewables Solar Syphon.  Copper Industries are the company that manufacture the Solar Syphon for Willis Renewables.  Willis Renewables are the inventors and distributors of the Solar Syphon, and are based in Belfast, Northern Ireland.  The Solar Syphon system is a simple ‘add-on’ heat exchange unit which provides a lower cost installation alternative to the traditional twin coil solar cylinder. Willis Renewables won an Ashden Award in 2010 for its inspiring sustainable energy solutions.
    10-willis-1099.jpg
  • Soldering a part of the Willis Renewables Solar Syphon at the Copper Industires factory in Northern Ireland.  Copper Industries are the company that manufacture the Solar Syphon for Willis Renewables.  Willis Renewables are the inventors and distributors of the Solar Syphon, and are based in Belfast, Northern Ireland.  The Solar Syphon system is a simple ‘add-on’ heat exchange unit which provides a lower cost installation alternative to the traditional twin coil solar cylinder. Willis Renewables won an Ashden Award in 2010 for its inspiring sustainable energy solutions.
    10-willis-1240.jpg
  • A stack of half completed Willis Renewables Solar Syphons at the Copper Iindustries factory in Northern Ireland.  Copper Industries manufacture the Solar Syphon for Willis Renewables.  Willis Renewables are the inventors and distributors of the Solar Syphon, and are based in Belfast, Northern Ireland.  The Solar Syphon system is a simple ‘add-on’ heat exchange unit which provides a lower cost installation alternative to the traditional twin coil solar cylinder. Willis Renewables won an Ashden Award in 2010 for its inspiring sustainable energy solutions.
    10-willis-1156.jpg
  • A worker at the Copper Industries factory in Northern Ireland soldeers a copper hot water tank for use with the Willis Renewables Solar Syphone. Copper Industries are the company that manufacture the Solar Syphon for Willis Renewables.  Willis Renewables are the inventors and distributors of the Solar Syphon, and are based in Belfast, Northern Ireland.  The Solar Syphon system is a simple ‘add-on’ heat exchange unit which provides a lower cost installation alternative to the traditional twin coil solar cylinder. Willis Renewables won an Ashden Award in 2010 for its inspiring sustainable energy solutions.
    10-willis-1349.jpg
  • A Willis Renewables Solar Syphon in position next to the original water tank.  Willis Renewables are the inventors and distributors of the Solar Syphon, and are based in Belfast, Northern Ireland. The Solar Syphon system is a simple ‘add-on’ heat exchange unit which provides a lower cost installation alternative to the traditional twin coil solar cylinder.  Willis Renewables won an Ashden Award in 2010 for its inspiring sustainable energy solutions.
    10-willis-0848.jpg
  • Little Cheyne Court Wind Farm just north of Camber Sands, Sussex, United Kingdom. The farm was built by npower Renewables and has supported 26 turbines since 2008, and cost £50 million to erect. In the distance, the pylons can be seen.
    UK-Wind-Farm-1383.jpg
  • Little Cheyne Court Wind Farm just north of Camber Sands, Sussex, United Kingdom. The farm was built by npower Renewables and has supported 26 turbines since 2008, and cost £50 million to erect.
    UK-Wind-Farm-1379.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
  • 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 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 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
  • Wind turbine at the top of the farm. This renewable energy source provides some of the electricity required to run the daily operations of the farm. Wildon Grange Dairy Farm, Coxwold, North Yorkshire, UK. Owned and run by the Banks family, dairy farming here is a scientific business, where nothing is left to chance. From the breeding, nutrition and health of their closed stock of Holstein Friesian cows, through to the end product, the team here work tirelessly, around to clock to ensure content and healthy animals, and excellent quality milk. (photo by Mike Kemp/In Pictures via Getty Images)
    20150922_dairy farm views_C.jpg
  • Wind turbine at the top of the farm. This renewable energy source provides some of the electricity required to run the daily operations of the farm. Wildon Grange Dairy Farm, Coxwold, North Yorkshire, UK. Owned and run by the Banks family, dairy farming here is a scientific business, where nothing is left to chance. From the breeding, nutrition and health of their closed stock of Holstein Friesian cows, through to the end product, the team here work tirelessly, around to clock to ensure content and healthy animals, and excellent quality milk.
    20150922_dairy farm views_A.jpg
  • Wind turbine at the top of the farm. This renewable energy source provides some of the electricity required to run the daily operations of the farm. Wildon Grange Dairy Farm, Coxwold, North Yorkshire, UK. Owned and run by the Banks family, dairy farming here is a scientific business, where nothing is left to chance. From the breeding, nutrition and health of their closed stock of Holstein Friesian cows, through to the end product, the team here work tirelessly, around to clock to ensure content and healthy animals, and excellent quality milk. (photo by Mike Kemp/In Pictures via Getty Images)
    20150922_dairy farm views_D.jpg
  • Wind turbine at the top of the farm. This renewable energy source provides some of the electricity required to run the daily operations of the farm. Wildon Grange Dairy Farm, Coxwold, North Yorkshire, UK. Owned and run by the Banks family, dairy farming here is a scientific business, where nothing is left to chance. From the breeding, nutrition and health of their closed stock of Holstein Friesian cows, through to the end product, the team here work tirelessly, around to clock to ensure content and healthy animals, and excellent quality milk. (photo by Mike Kemp/In Pictures via Getty Images)
    20150922_dairy farm views_B.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-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-49...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
  • 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-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
  • 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
  • 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
  • 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
  • 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 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
  • 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
  • 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
  • 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
  • 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
  • Electrical pylons running alongside wind turbines fromvthe Little Cheyne Court Wind Farm on Romney Marsh, Kent, United Kingdom. The wind farm has a nameplate capacity of 59.8 MW.
    UK-Wind-Farm-Pylons-1449.jpg
  • Electrical pylons running alongside wind turbines fromvthe Little Cheyne Court Wind Farm on Romney Marsh, Kent, United Kingdom. The wind farm has a nameplate capacity of 59.8 MW.
    UK-Wind-Farm-Pylons-1398.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 Fierze 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.
    Albania-Northern-Region-3559.jpg
  • Winter sun shining over the electricity pylons that travel across the mountains that are used to transfer power from the Fierze 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.
    Albania-Northern-Region-3554.jpg
  • The Dam of the Fierze 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.
    Albania-Northern-Region-3556.jpg
  • Electrical pylons running alongside wind turbines fromvthe Little Cheyne Court Wind Farm on Romney Marsh, Kent, United Kingdom. The wind farm has a nameplate capacity of 59.8 MW.
    UK-Wind-Farm-Pylons-1468.jpg
  • Electrical pylons running alongside wind turbines fromvthe Little Cheyne Court Wind Farm on Romney Marsh, Kent, United Kingdom. The wind farm has a nameplate capacity of 59.8 MW.
    UK-Wind-Farm-Pylons-1460.jpg
  • Electrical pylons running alongside wind turbines fromvthe Little Cheyne Court Wind Farm on Romney Marsh, Kent, United Kingdom. The wind farm has a nameplate capacity of 59.8 MW.
    UK-Wind-Farm-Pylons-1446.jpg
  • Sheep and young lambs grazing on the marshland next to wind turbines from the Little Cheyne Court Wind Farm on Romney Marsh, Kent, United Kingdom. Romney sheep have many characteristics that enable them to live on the wetlands, including black hooves resistant to footrot and resistance to internal parasites.
    UK-Wind-Farm-1410.jpg
  • Electrical pylons running from Dungeness alongside the Little Cheyne Court Wind Farm on Romney Marsh, Kent, United Kingdom.
    UK-Electrical-Energy-Pylons-1475.jpg
  • The Dam of the Fierze 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.
    Albania-Northern-Region-3536.jpg
  • The Dam of the Fierze 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.
    Albania-Northern-Region-3915.jpg
  • Electrical pylons running alongside wind turbines fromvthe Little Cheyne Court Wind Farm on Romney Marsh, Kent, United Kingdom. The wind farm has a nameplate capacity of 59.8 MW.
    UK-Wind-Farm-Pylons-1402.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 Fierze 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.
    Albania-Northern-Region-3542.jpg
  • Extinction Rebellion solar panels as the camp starts to take shape in Waterloo Millennium Green on 17th July in London, England, United Kingdom. Extinction Rebellion is a climate change group started in 2018 and has gained a huge following of people committed to peaceful protests. These protests are highlighting that the government is not doing enough to avoid catastrophic climate change and to demand the government take radical action to save the planet.
    20190717_extinction rebellion013.jpg
  • Extinction Rebellion solar panels as the camp starts to take shape in Waterloo Millennium Green on 16th July in London, England, United Kingdom. Extinction Rebellion is a climate change group started in 2018 and has gained a huge following of people committed to peaceful protests. These protests are highlighting that the government is not doing enough to avoid catastrophic climate change and to demand the government take radical action to save the planet.
    20190716_extinction rebellion_007.jpg
  • Extinction Rebellion solar panels as the camp starts to take shape in Waterloo Millennium Green on 17th July in London, England, United Kingdom. Extinction Rebellion is a climate change group started in 2018 and has gained a huge following of people committed to peaceful protests. These protests are highlighting that the government is not doing enough to avoid catastrophic climate change and to demand the government take radical action to save the planet.
    20190717_extinction rebellion014.jpg
  • Extinction Rebellion solar panels as the camp starts to take shape in Waterloo Millennium Green on 17th July in London, England, United Kingdom. Extinction Rebellion is a climate change group started in 2018 and has gained a huge following of people committed to peaceful protests. These protests are highlighting that the government is not doing enough to avoid catastrophic climate change and to demand the government take radical action to save the planet.
    20190717_extinction rebellion013 1.jpg
  • Extinction Rebellion solar panels as the camp starts to take shape in Waterloo Millennium Green on 16th July in London, England, United Kingdom. Extinction Rebellion is a climate change group started in 2018 and has gained a huge following of people committed to peaceful protests. These protests are highlighting that the government is not doing enough to avoid catastrophic climate change and to demand the government take radical action to save the planet.
    20190716_extinction rebellion_006.jpg
  • Extinction Rebellion solar panels as the camp starts to take shape in Waterloo Millennium Green on 17th July in London, England, United Kingdom. Extinction Rebellion is a climate change group started in 2018 and has gained a huge following of people committed to peaceful protests. These protests are highlighting that the government is not doing enough to avoid catastrophic climate change and to demand the government take radical action to save the planet.
    20190717_extinction rebellion014 1.jpg
  • Consultation on Hackney Downs Station 25th May 2016, Hackney, London,United Kingdom. Representatives from TFL, Groundwork and Repowering London advertise the planned gardens to go on the plantforms and ask commuters for their suggestions on what to grow.  Repowering London and their Energy Garden project in the making. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A9323.jpg
  • Internship taster meeting at the Curve 23rd May 2016, Dalston, East London, United Kingdom.  Repowering London and their Energy Garden project in the making. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, local community groups and station managers working for TFL.
    AB9A9005.jpg
  • Juicey peas which have survived the winter and now out inthe early spring sun at Brondebury Park train station 22nd May 2016,London,United Kingdom. At the meeting are local residents, Repowering London representatives and the station manager. Repowering London and their Energy Garden project in the making. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A8837.jpg
  • A consultation meeting ahead of the planting of a community garden in Brondebury Park train station 22nd May 2016,London,United Kingdom. At the meeting are local residents, Repowering London representatives and the station manager. Repowering London and their Energy Garden project in the making. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A8817.jpg
  • A consultation meeting ahead of the planting of a community garden in Brondebury Park train station 22nd May 2016,London,United Kingdom. At the meeting are local residents, Repowering London representatives and the station manager. Repowering London and their Energy Garden project in the making. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A8811.jpg
  • Aminur from Groundwork finish of the garden in Hampstead Heath with wood chips 28th July 2016, London, United Kingdom. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A5375.jpg
  • Stephen and Aminur from Groundwork finish of the garden in Hampstead Heath with wood chips 28th July 2016, London, United Kingdom. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A5340.jpg
  • Hobs growing at a mobile city garden in Stratford, getting ready to be deployed in gardens across London 27th May 2016 East London, United Kingdom.  Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, local community groups and station managers working for TFL.
    AB9A9660.jpg
  • Consultation on Hackney Downs Station 25th May 2016, Hackney, London,United Kingdom. Representatives from TFL, Groundwork and Repowering London advertise the planned gardens to go on the plantforms and ask commuters for their suggestions on what to grow.  Repowering London and their Energy Garden project in the making. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A9302.jpg
  • Consultation on Hackney Downs Station 25th May 2016, Hackney, London,United Kingdom. Representatives from TFL, Groundwork and Repowering London advertise the planned gardens to go on the plantforms and ask commuters for their suggestions on what to grow.  Repowering London and their Energy Garden project in the making. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A9242.jpg
  • Drawings of a future society made by participants at the internship taster meeting at the Curve 23rd May 2016, Dalston, East London, United Kingdom. Repowering London and their Energy Garden project in the making. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, local community groups and station managers working for TFL.
    AB9A9028.jpg
  • Internship taster meeting at the Curve 23rd May 2016, Dalston, East London, United Kingdom. Repowering London and their Energy Garden project in the making. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, local community groups and station managers working for TFL.
    AB9A9025.jpg
  • A sign at Brondesbury Park Station in the Energy Garden 22nd May 2016,London,United Kingdom. At the meeting are local residents, Repowering London representatives and the station manager. Repowering London and their Energy Garden project in the making. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, local community groups and station managers working for TFL.
    AB9A8895.jpg
  • An energy garden sign at Brondebury Park train station 22nd May 2016,London,United Kingdom. At the meeting are local residents, Repowering London representatives and the station manager. Repowering London and their Energy Garden project in the making. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, local community groups and station managers working for TFL.
    AB9A8858.jpg
  • A consultation meeting ahead of the planting of a community garden in Brondebury Park train station 22nd May 2016,London,United Kingdom. At the meeting are local residents, Repowering London representatives and the station manager. Repowering London and their Energy Garden project in the making. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A8854.jpg
  • Green spread out on top of an Energy Garden information folder at Brondebury Park train station 22nd May 2016,London,United Kingdom. At the meeting are local residents, Repowering London representatives and the station manager. Repowering London and their Energy Garden project in the making. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A8846.jpg
  • A consultation meeting ahead of the planting of a community garden in Brondebury Park train station 22nd May 2016,London,United Kingdom. At the meeting are local residents, Repowering London representatives and the station manager. Repowering London and their Energy Garden project in the making. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A8773.jpg
  • Stephen, Liam, Danica and Simon from Groundworks install trellis structures at Brondesbury Park Station as part of the build of the stations energy garden 17th June 2016, London,United Kingdom. The  Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A6052.jpg
  • Stephen, Liam, Danica and Simon from Groundworks install trellis structures at Brondesbury Park Station as part of the build of the stations energy garden 17th June 2016, London,United Kingdom. The  Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A6037.jpg
  • A train driver stopping at Brondesbury Park station is having a laugh with the Groundwork crew installing the Energy Garden at the station 17th June 2016, London,United Kingdom. The  Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A6025.jpg
  • Stephen, Liam, Danica and Simon from Groundworks install trellis structures at Brondesbury Park Station as part of the build of the stations energy garden 17th June 2016, London,United Kingdom. The  Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A6017.jpg
  • Stephen, Liam, Danica and Simon from Groundworks install trellis structures at Brondesbury Park Station as part of the build of the stations energy garden 17th June 2016, London,United Kingdom. The  Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A5979.jpg
  • Stephen, Liam, Danica and Simon from Groundworks install trellis structures at Brondesbury Park Station as part of the build of the stations energy garden 17th June 2016, London,United Kingdom. The  Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A5889.jpg
  • Parts of the Energy Garden at Brondesbury Park Station with courgettes, herbs and fruits 28th July 2016, London, United Kingdom. The water is collected rain water and the pump is solar panel powered. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A5248.jpg
  • Parts of the Energy Garden at Brondesbury Park Station with courgettes, herbs and fruits 28th July 2016, London, United Kingdom. The water is collected rain water and the pump is solar panel powered. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A5233.jpg
  • Shelagh Molloy, a local resident to Brondesbury Park Stations puts in a few hours of work in the newly finished Energy Garden, watering and weeding 28th July 2016, London, United Kingdom. The water is collected rain water and the pump is solar panel powered. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A5163.jpg
  • Shelagh checks an artichoke for bugs 28th July 2016, London, United Kingdom. Shelagh Molloy, a local resident to Brondesbury Park Stations puts in a few hours of work in the newly finished Energy Garden, watering and weeding. The water is collected rain water and the pump is solar panel powered. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A5110.jpg
  • Shelagh explains to an Italian couple who have just come off thetrain about the garden 28th July 2016, London, United Kingdom. A massive goods train passes behind them. Shelagh Molloy, a local resident to Brondesbury Park Stations puts in a few hours of work in the newly finished Energy Garden, watering and weeding. The water is collected rain water and the pump is solar panel powered. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A5071.jpg
  • Shelagh Molloy, a local resident to Brondesbury Park Stations puts in a few hours of work in the newly finished Energy Garden, watering and weeding 28th July 2016, London, United Kingdom.The water is collected rain water and the pump is solar panel powered. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A5052.jpg
  • Shelagh Molloy reaches for black berries between the growing hobs 28th July 2016, London, United Kingdom. Shelagh Molloy, a local resident to Brondesbury Park Stations puts in a few hours of work in the newly finished Energy Garden, watering and weeding. The water is collected rain water and the pump is solar panel powered. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A4965.jpg
  • Hobs growing at a mobile city garden in Stratford, getting ready to be deployed in gardens across London 27th May 2016 East London, United Kingdom. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, local community groups and station managers working for TFL.
    AB9A9517.jpg
  • Consultation on Hackney Downs Station 25th May 2016, Hackney, London,United Kingdom. Representatives from TFL, Groundwork and Repowering London advertise the planned gardens to go on the plantforms and ask commuters for their suggestions on what to grow.  Repowering London and their Energy Garden project in the making. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A9309.jpg
  • Drawings of a future society made by participants at the internship taster meeting at the Curve 23rd May 2016, Dalston, East London, United Kingdom. Repowering London and their Energy Garden project in the making. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, local community groups and station managers working for TFL.
    AB9A9052.jpg
  • A honey bee drinks from a blue flower in the Energy Garden at Brondebury Park train station 22nd May 2016,London,United Kingdom. At the meeting are local residents, Repowering London representatives and the station manager. Repowering London and their Energy Garden project in the making. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, local community groups and station managers working for TFL.
    AB9A8869.jpg
  • Stephen, Liam, Danica and Simon from Groundworks install trellis structures at Brondesbury Park Station as part of the build of the stations energy garden 17th June 2016, London,United Kingdom. The  Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A6034.jpg
  • Stephen, Liam, Danica and Simon from Groundworks install trellis structures at Brondesbury Park Station as part of the build of the stations energy garden 17th June 2016, London,United Kingdom. The  Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A5916.jpg
  • Stephen from Ground Works who implements the gardens picks sweet black berries in the garden at West Hampstead 28th July 2016, London, United Kingdom.  The garden is ready and now need to grow over the summer.  Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A5330.jpg
  • A butterfly rests on a courgette plant leaf in the Brondesbury Park station Energy Garden 28th July 2016, London, United Kingdom. The water is collected rain water and the pump is solar panel powered. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A5246.jpg
  • Shelagh Molloy, a local resident to Brondesbury Park Stations puts in a few hours of work in the newly finished Energy Garden, watering and weeding 28th July 2016, London, United Kingdom. The water is collected rain water and the pump is solar panel powered. Energy Gardens is a pan-London community garden project where reclaimed land alongside over ground train stations and track are cultivated by local community groups. Up 50 gardens are projected with the rail network being the connection grid. The project is a collaboration between Repowering London, Groundwork, local community groups, station managers working for Transport For London and Network Rail.
    AB9A4998.jpg
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