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  • Two commercial tumble drier machines drying clothes in a launderette Wadebridge, Cornwall, UK.  The energy for the launderette is sourced from roof solar panels and is part of a scheme to make this town the first to be powered by renewable sources in the UK.
    UK-Laundrette-0187.jpg
  • A young British woman loads clothes into a washing machine in a launderette in Wadebridge, Cornwall, UK. The energy for the launderette is sourced from roof solar panels and is part of a scheme to make this town the first to be powered by renewable sources in the UK.
    UK-Laundrette-0181.jpg
  • A young British woman loads clothes into a washing machine in a launderette in Wadebridge, Cornwall, UK. The energy for the launderette is sourced from roof solar panels and is part of a scheme to make this town the first to be powered by renewable sources in the UK.
    UK-Laundrette-0161.jpg
  • American tourists admire one of their number riding who has hired a rickshaw in Hong Kong on what is called The Peak. A US tourist sits on the cart that is going to be pulled by its runner. Fellow travellers are taking pictures and smiling at their friend taken away from their group. The word rickshaw came from Asia where they were mainly used as means of transportation for the social elite. In recent times the use of rickshaws has been discouraged or outlawed in many countries due to concern for the welfare of rickshaw workers. Runner-pulled rickshaws have mainly been replaced by cycle rickshaws and auto rickshaws. The term "rickshaw" is today commonly used for those vehicles as well. The word "rickshaw" originates from the Japanese word jinrikisha = human riki = power or force, sha = vehicle which literally means "human-powered vehicle".
    rickshaw_tourists01-20-01-1995.jpg
  • A electric powered sightseeing tour bus with the Original Tour Union jack flag branding in London, United Kingdom. Tour buses like this drive all over the capital transporting tourists to see all the sights.
    20190717_electric tour bus_001.jpg
  • A electric powered sightseeing tour bus with the Original Tour Union jack flag branding in London, United Kingdom. Tour buses like this drive all over the capital transporting tourists to see all the sights.
    20190717_electric tour bus_002.jpg
  • Full Electric sign on the body of a blue Citroen electric car in Wadebridge, North Cornwall, United Kingdom, a town which is aiming to become the first to be powered by renewable energy.
    UK-sign-electric-car-0102.jpg
  • London Mayor Boris Johnson launches the new generation zero emissions London taxi, powered by an Intelligent Energy hydrogen fuel cell system in combination with lithium polymer batteries. The vehicle has a top speed of over 80 mph and a range of 250 miles with a full tank of hydrogen. It can operate all day without filling up and takes around 5 minutes to refuel.
    _PH28265.jpg
  • The village flour mill that is powered by water in the village of Subhai, Himalayas, India. Its over 200 years old and is constantly turning.
    10-pragya-4538.jpg
  • A village elder shows the village flourmill that is powered by water in the village of Subhai, Himalayas, India. Its over 200 years old and is constantly turning.
    10-pragya-4533.jpg
  • A village elder shows the village flourmill that is powered by water in the village of Subhai, Himalayas, India. Its over 200 years old and is constantly turning.
    10-pragya-4522.jpg
  • London Mayor Boris Johnson launches the new generation zero emissions London taxi, powered by an Intelligent Energy hydrogen fuel cell system in combination with lithium polymer batteries. The vehicle has a top speed of over 80 mph and a range of 250 miles with a full tank of hydrogen. It can operate all day without filling up and takes around 5 minutes to refuel.
    _PH28290.jpg
  • Solar power roof panels on the roof on a commercial launderette in Wadebridge, Cornwall, UK.
    UK-Laundrette-0149.jpg
  • Two men ride on a couple of Segway-powered GennyMobility wheelchairs in Leicester Square, central London. Travelling alongside a red London bus, we see the two riders on their own wheelchair vehicles, driving themselves on the pedestrian pavement area - their wheels repeated in those of the bus's. The GennyMobility wheelchair Genny™ was developed by Paolo Badano who due to a road accident looked for a way to improve his daily mobility . Four-wheelers seemed constraining with obsolete technology. Thanks to a partnership with Segway, Genny™ is gaining popularity.
    bus_wheels01-15-09-2015.jpg
  • A roof tiled with photovoltaic solar energy panels receives maximum sunlight exposure. A Freestanding panel powers a street light. These panels are made up of photovoltaic (PV) cells. PV cells convert sunlight into electrical energy. Photovoltaic panels are an economical, efficient way to produce electricity.
    08-pv_1199.jpg
  • Climate campaign group 10:10 covered Old Palace Yard outside the House of Commons with dozens of solar panels held by climate activists on 5th December 2018 in Westminster, London. United Kingdom. The opening of Westminsters first solar park calling on the government to stop their plans to axe the export tariff. The tariff pays small scale solar owners for their excess energy.
    1010-Solar-Campaign-2927.jpg
  • Campaigners protest outside the Department for Business, Energy & Industrial Energy BEIS with the words ‘Don’t Steal Our Sunshine’ written on solar panels on 5th December 2018 in Westminster, London. United Kingdom. They are calling on the government to stop their plans to axe the export tariff. The tariff pays small scale solar owners for their excess energy. Climate campaign group 10:10 also covered Old Palace Yard outside the House of Commons with dozens of solar panels held by climate activists, Westminster, London. United Kingdom.
    1010-Solar-Campaign-2970.jpg
  • Climate campaign group 10:10 covered Old Palace Yard outside the House of Commons with dozens of solar panels held by climate activists on 5th December 2018 in Westminster, London. United Kingdom. The opening of Westminsters first solar park calling on the government to stop their plans to axe the export tariff. The tariff pays small scale solar owners for their excess energy.
    1010-Solar-Campaign-2828.jpg
  • Climate campaign group 10:10 covered Old Palace Yard outside the House of Commons with dozens of solar panels held by climate activists on 5th December 2018 in Westminster, London. United Kingdom. The opening of Westminsters first solar park calling on the government to stop their plans to axe the export tariff. The tariff pays small scale solar owners for their excess energy.
    1010-Solar-Campaign-2795.jpg
  • Climate campaign group 10:10 covered Old Palace Yard outside the House of Commons with dozens of solar panels held by climate activists on 5th December 2018 in Westminster, London. United Kingdom. The opening of Westminsters first solar park calling on the government to stop their plans to axe the export tariff. The tariff pays small scale solar owners for their excess energy.
    1010-Solar-Campaign-2916.jpg
  • Climate campaign group 10:10 covered Old Palace Yard outside the House of Commons with dozens of solar panels held by climate activists on 5th December 2018 in Westminster, London. United Kingdom. The opening of Westminsters first solar park calling on the government to stop their plans to axe the export tariff. The tariff pays small scale solar owners for their excess energy.
    1010-Solar-Campaign-2841.jpg
  • Climate campaign group 10:10 covered Old Palace Yard outside the House of Commons with dozens of solar panels held by climate activists on 5th December 2018 in Westminster, London. United Kingdom. The opening of Westminsters first solar park calling on the government to stop their plans to axe the export tariff. The tariff pays small scale solar owners for their excess energy.
    1010-Solar-Campaign-2787.jpg
  • Antoinette Sandbach MP and Tim Loughton MP cut the ribbon for the opening of Westminsters first solar park calling on the government to stop their plans to axe the export tariff on 5th December 2018 in Westminster, London. United Kingdom. The tariff pays small scale solar owners for their excess energy. Climate campaign group 10:10 covered Old Palace Yard outside the House of Commons with dozens of solar panels held by climate activists.
    1010-Solar-Campaign-2751.jpg
  • Antoinette Sandbach MP and Tim Loughton MP cut the ribbon for the opening of Westminsters first solar park calling on the government to stop their plans to axe the export tariff on 5th December 2018 in Westminster, London. United Kingdom. The tariff pays small scale solar owners for their excess energy. Climate campaign group 10:10 covered Old Palace Yard outside the House of Commons with dozens of solar panels held by climate activists.
    1010-Solar-Campaign-2743.jpg
  • Close-up of a photovoltaic solar energy panel with the sun shining through. This panel, or module, is made up of photovoltaic PV cells. PV cells convert sunlight into electrical energy. Photovoltaic panels are an economical, efficient way to produce electricity that does not pollute or contribute to global warming. London, United Kingdom.
    UK-Renewable-Energy-Solar-Panel_0547.jpg
  • Close-up of a photovoltaic solar energy panel with the sun shining through. This panel, or module, is made up of photovoltaic PV cells. PV cells convert sunlight into electrical energy. Photovoltaic panels are an economical, efficient way to produce electricity that does not pollute or contribute to global warming. London, United Kingdom.
    UK-Renewable-Energy-Solar-Panel_0540.jpg
  • Close-up of a photovoltaic solar energy panel with the sun shining through. This panel, or module, is made up of photovoltaic PV cells. PV cells convert sunlight into electrical energy. Photovoltaic panels are an economical, efficient way to produce electricity that does not pollute or contribute to global warming. London, United Kingdom.
    UK-Renewable-Energy-Solar-Panel_0528.jpg
  • Solar photo voltaic PV panels on the roof of Hackney council estate Bannister House, the first community solar installation on a estate in Hackney, London, United Kingdom. Bannister House was Hackney’s first community solar installation, Banister House Solar, has been developed by Re-powering London in partnership with local estate residents and Hackney Council, and delivered using funds raised through a community share offer. The 102kWp solar array generates up to 82,000kWh of energy annually, saving 50,000kg of CO2 emissions. In addition, a portion of the revenue generated through the government’s Feed-in Tariff and sale of energy over the 20-year life of the project will generate over £28,000 for the Banister House Solar community fund. Hackney, London.
    UK-Solar-PV-Panels-Hackney-London_99...jpg
  • Close-up of a photovoltaic solar energy panel with reflection of the sun. This panel, or module, is made up of photovoltaic PV cells. PV cells convert sunlight into electrical energy in Hackney, London United Kingdom. Photovoltaic panels are an economical, efficient way to produce electricity that does not pollute or contribute to global warming. Solar photo voltaic PV panels on the roof of Hackney council estate Bannister House, the first community solar installation on a estate in Hackney, London United Kingdom.  Bannister House was Hackney’s first community solar installation, Banister House Solar, has been developed by Re-powering London in partnership with local estate residents and Hackney Council, and delivered using funds raised through a community share offer. The 102kWp solar array generates up to 82,000kWh of energy annually, saving 50,000kg of CO2 emissions. In addition, a portion of the revenue generated through the government’s Feed-in Tariff and sale of energy over the 20-year life of the project will generate over £28,000 for the Banister House Solar community fund. Hackney, London.
    UK-Solar-PV-Panels-Hackney-London_99...jpg
  • Solar photo voltaic PV panels on the roof of Hackney council estate Bannister House, the first community solar installation on a estate in Hackney, London, United Kingdom. Bannister House was Hackney’s first community solar installation, Banister House Solar, has been developed by Re-powering London in partnership with local estate residents and Hackney Council, and delivered using funds raised through a community share offer. The 102kWp solar array generates up to 82,000kWh of energy annually, saving 50,000kg of CO2 emissions. In addition, a portion of the revenue generated through the government’s Feed-in Tariff and sale of energy over the 20-year life of the project will generate over £28,000 for the Banister House Solar community fund. Hackney, London.
    UK-Solar-PV-Panels-Hackney-London_99...jpg
  • Close-up of a photovoltaic solar energy panel with reflection of the sun. This panel, or module, is made up of photovoltaic PV cells. PV cells convert sunlight into electrical energy in Hackney, London United Kingdom. Photovoltaic panels are an economical, efficient way to produce electricity that does not pollute or contribute to global warming. Solar photo voltaic PV panels on the roof of Hackney council estate Bannister House, the first community solar installation on a estate in Hackney, London United Kingdom.  Bannister House was Hackney’s first community solar installation, Banister House Solar, has been developed by Re-powering London in partnership with local estate residents and Hackney Council, and delivered using funds raised through a community share offer. The 102kWp solar array generates up to 82,000kWh of energy annually, saving 50,000kg of CO2 emissions. In addition, a portion of the revenue generated through the government’s Feed-in Tariff and sale of energy over the 20-year life of the project will generate over £28,000 for the Banister House Solar community fund. Hackney, London.
    UK-Solar-PV-Panels-Hackney-London_99...jpg
  • Solar photo voltaic PV panels on the roof of Hackney council estate Bannister House, the first community solar installation on a estate in Hackney, London, United Kingdom. Bannister House was Hackney’s first community solar installation, Banister House Solar, has been developed by Re-powering London in partnership with local estate residents and Hackney Council, and delivered using funds raised through a community share offer. The 102kWp solar array generates up to 82,000kWh of energy annually, saving 50,000kg of CO2 emissions. In addition, a portion of the revenue generated through the government’s Feed-in Tariff and sale of energy over the 20-year life of the project will generate over £28,000 for the Banister House Solar community fund. Hackney, London.
    UK-Solar-PV-Panels-Hackney-London_98...jpg
  • Solar photo voltaic PV panels on the roof of Hackney council estate Bannister House, the first community solar installation on a estate in Hackney, London, United Kingdom. Bannister House was Hackney’s first community solar installation, Banister House Solar, has been developed by Re-powering London in partnership with local estate residents and Hackney Council, and delivered using funds raised through a community share offer. The 102kWp solar array generates up to 82,000kWh of energy annually, saving 50,000kg of CO2 emissions. In addition, a portion of the revenue generated through the government’s Feed-in Tariff and sale of energy over the 20-year life of the project will generate over £28,000 for the Banister House Solar community fund. Hackney, London.
    UK-Solar-PV-Panels-Hackney-London_98...jpg
  • Solar photo voltaic PV panels on the roof of Hackney council estate Bannister House, the first community solar installation on a estate in Hackney, London, United Kingdom. Bannister House was Hackney’s first community solar installation, Banister House Solar, has been developed by Re-powering London in partnership with local estate residents and Hackney Council, and delivered using funds raised through a community share offer. The 102kWp solar array generates up to 82,000kWh of energy annually, saving 50,000kg of CO2 emissions. In addition, a portion of the revenue generated through the government’s Feed-in Tariff and sale of energy over the 20-year life of the project will generate over £28,000 for the Banister House Solar community fund. Hackney, London.
    UK-Solar-PV-Panels-Hackney-London_98...jpg
  • Solar photo voltaic PV panels on the roof of Hackney council estate Bannister House, the first community solar installation on a estate in Hackney, London, United Kingdom. Bannister House was Hackney’s first community solar installation, Banister House Solar, has been developed by Re-powering London in partnership with local estate residents and Hackney Council, and delivered using funds raised through a community share offer. The 102kWp solar array generates up to 82,000kWh of energy annually, saving 50,000kg of CO2 emissions. In addition, a portion of the revenue generated through the government’s Feed-in Tariff and sale of energy over the 20-year life of the project will generate over £28,000 for the Banister House Solar community fund. Hackney, London.
    UK-Solar-PV-Panels-Hackney-London_98...jpg
  • Solar photo voltaic PV panels on the roof of Hackney council estate Bannister House, the first community solar installation on a estate in Hackney, London, United Kingdom. Bannister House was Hackney’s first community solar installation, Banister House Solar, has been developed by Re-powering London in partnership with local estate residents and Hackney Council, and delivered using funds raised through a community share offer. The 102kWp solar array generates up to 82,000kWh of energy annually, saving 50,000kg of CO2 emissions. In addition, a portion of the revenue generated through the government’s Feed-in Tariff and sale of energy over the 20-year life of the project will generate over £28,000 for the Banister House Solar community fund. Hackney, London.
    UK-Solar-PV-Panels-Hackney-London_98...jpg
  • Solar photo voltaic PV panels on the roof of Hackney council estate Bannister House, the first community solar installation on a estate in Hackney, London, United Kingdom. Bannister House was Hackney’s first community solar installation, Banister House Solar, has been developed by Re-powering London in partnership with local estate residents and Hackney Council, and delivered using funds raised through a community share offer. The 102kWp solar array generates up to 82,000kWh of energy annually, saving 50,000kg of CO2 emissions. In addition, a portion of the revenue generated through the government’s Feed-in Tariff and sale of energy over the 20-year life of the project will generate over £28,000 for the Banister House Solar community fund. Hackney, London.
    UK-Solar-PV-Panels-Hackney-London_98...jpg
  • Re-Powering intern and an estate resident with the Solar photo voltaic PV panels on the roof of Hackney council estate Bannister House, the first community solar installation on a estate in Hackney, London, United Kingdom.  Bannister House was Hackney’s first community solar installation, Banister House Solar, has been developed by Re-powering London in partnership with local estate residents and Hackney Council, and delivered using funds raised through a community share offer. The 102kWp solar array generates up to 82,000kWh of energy annually, saving 50,000kg of CO2 emissions. In addition, a portion of the revenue generated through the government’s Feed-in Tariff and sale of energy over the 20-year life of the project will generate over £28,000 for the Banister House Solar community fund. Hackney, London.
    UK-Solar-PV-Panels-Hackney-London_01...jpg
  • Re-Powering intern and an estate resident with the Solar photo voltaic PV panels on the roof of Hackney council estate Bannister House, the first community solar installation on a estate in Hackney, London, United Kingdom.  Bannister House was Hackney’s first community solar installation, Banister House Solar, has been developed by Re-powering London in partnership with local estate residents and Hackney Council, and delivered using funds raised through a community share offer. The 102kWp solar array generates up to 82,000kWh of energy annually, saving 50,000kg of CO2 emissions. In addition, a portion of the revenue generated through the government’s Feed-in Tariff and sale of energy over the 20-year life of the project will generate over £28,000 for the Banister House Solar community fund. Hackney, London.
    UK-Solar-PV-Panels-Hackney-London_00...jpg
  • Re-Powering intern and an estate resident with the Solar photo voltaic PV panels on the roof of Hackney council estate Bannister House, the first community solar installation on a estate in Hackney, London, United Kingdom.  Bannister House was Hackney’s first community solar installation, Banister House Solar, has been developed by Re-powering London in partnership with local estate residents and Hackney Council, and delivered using funds raised through a community share offer. The 102kWp solar array generates up to 82,000kWh of energy annually, saving 50,000kg of CO2 emissions. In addition, a portion of the revenue generated through the government’s Feed-in Tariff and sale of energy over the 20-year life of the project will generate over £28,000 for the Banister House Solar community fund. Hackney, London.
    UK-Solar-PV-Panels-Hackney-London_01...jpg
  • The solar array inverters that monitor and invert the energy made by Brixton Energy Solar who have installed several hundred square metres of solar panels on the roof of Elmore House in the Loughborough Estate in Brixton, London, United Kingdom. Set up by Re-powering London, empower London communities to create their own renewable energy projects.
    UK-Solar-PV-Panels-Brixton-London_63...jpg
  • The solar array inverters that monitor and invert the energy made by Brixton Energy Solar who have installed several hundred square metres of solar panels on the roof of Elmore House in the Loughborough Estate in Brixton, London, United Kingdom. Set up by Re-powering London, empower London communities to create their own renewable energy projects.
    UK-Solar-PV-Panels-Brixton-London_63...jpg
  • Solar photo voltaic PV panels on the roof of Elmore House, a community owned solar installation in Loughborough estate in Brixton, London, United Kingdom.  Brixton Energy Solar has installed several hundred square metres of solar panels on the roof of Elmore House in the Loughborough Estate in Brixton. Set up by Re-powering London, empower London communities to create their own renewable energy projects.
    UK-Solar-PV-Panels-Brixton-London_63...jpg
  • The solar array inverters that monitor and invert the energy made by Brixton Energy Solar who have installed several hundred square metres of solar panels on the roof of Elmore House in the Loughborough Estate in Brixton, London, United Kingdom. Set up by Re-powering London, empower London communities to create their own renewable energy projects.
    UK-Solar-PV-Panels-Brixton-London_63...jpg
  • Solar photo voltaic PV panels on the roof of Elmore House, a community owned solar installation in Loughborough estate in Brixton, London, United Kingdom.  Brixton Energy Solar has installed several hundred square metres of solar panels on the roof of Elmore House in the Loughborough Estate in Brixton. Set up by Re-powering London, empower London communities to create their own renewable energy projects.
    UK-Solar-PV-Panels-Brixton-London_62...jpg
  • Solar photo voltaic PV panels on the roof of Elmore House, a community owned solar installation in Loughborough estate in Brixton, London, United Kingdom.  Brixton Energy Solar has installed several hundred square metres of solar panels on the roof of Elmore House in the Loughborough Estate in Brixton. Set up by Re-powering London, empower London communities to create their own renewable energy projects.
    UK-Solar-PV-Panels-Brixton-London_63...jpg
  • Solar photo voltaic PV panels on the roof of Elmore House, a community owned solar installation in Loughborough estate in Brixton, London, United Kingdom.  Brixton Energy Solar has installed several hundred square metres of solar panels on the roof of Elmore House in the Loughborough Estate in Brixton. Set up by Re-powering London, empower London communities to create their own renewable energy projects.
    UK-Solar-PV-Panels-Brixton-London_62...jpg
  • Solar photo voltaic PV panels on the roof of Elmore House, a community owned solar installation in Loughborough estate in Brixton, London, United Kingdom.  Brixton Energy Solar has installed several hundred square metres of solar panels on the roof of Elmore House in the Loughborough Estate in Brixton. Set up by Re-powering London, empower London communities to create their own renewable energy projects.
    UK-Solar-PV-Panels-Brixton-London_63...jpg
  • Solar PV Photo Voltaic panels on the roof of the Priory school in Lewes, East Sussex. Set up by  OVESCo community  investors. (pictured). This panel, or module, is made up of photovoltaic (PV) cells. PV cells convert sunlight into electrical energy.
    UK-Solar-Panels-4925_1.jpg
  • Solar PV Photo Voltaic panels on the roof of the Priory school in Lewes, East Sussex. Set up by  OVESCo community  investors. This panel, or module, is made up of photovoltaic (PV) cells. PV cells convert sunlight into electrical energy.
    UK-Solar-Panels-4908_1.jpg
  • Solar PV Photo Voltaic panels on the roof of the Priory school in Lewes, East Sussex. Set up by  OVESCo community  investors. This panel, or module, is made up of photovoltaic (PV) cells. PV cells convert sunlight into electrical energy.
    UK-Solar-Panels-4905_1.jpg
  • Solar PV Photo Voltaic panels on the roof of the Priory school in Lewes, East Sussex. Set up by  OVESCo community  investors. This panel, or module, is made up of photovoltaic (PV) cells. PV cells convert sunlight into electrical energy.
    UK-Solar-Panels-4849_1.jpg
  • Solar PV Photo Voltaic panels on the roof of the Priory school in Lewes, East Sussex. Set up by  OVESCo community  investors. This panel, or module, is made up of photovoltaic (PV) cells. PV cells convert sunlight into electrical energy.
    UK-Solar-Panels-4848_1.jpg
  • Solar PV Photo Voltaic panels on the roof of the Priory school in Lewes, East Sussex. Set up by  OVESCo community  investors. This panel, or module, is made up of photovoltaic (PV) cells. PV cells convert sunlight into electrical energy.
    UK-Solar-Panels-4844_1.jpg
  • The flight-deck crew of a Sri Lankan Airlines A340-300 series Airbus - registration number 4R-ADE - perform a series of pre-flight checks before a scheduled departure, while on the apron at Malé international airport in the Republic of the Maldives. Featuring electronic instruments it is known as a 'glass cockpit' and using a printed checklist manual, they methodically work through dozens of complex systems that require accurate input before the aircraft is ready for take off. Flight navigation computers, fuel and engine settings and radio frequencies all need programming by the two pilots, the captain on the left and the First Officer on the right. These modern airliners have only two pilots in a modern flight-deck as technology superceeded the need for a third member, the flight-engineers of a previous era of aviation.
    maldives452-15-11-2007.jpg
  • Below the flooring of economy class, a cargo handler manhandles a container of air freight into position in the hold of a Sri Lankan Airlines Airbus A340 that is about to depart from Male, the capital of the Republic of the Maldives  to Colombo. Inside the aluminium box is fresh tuna fish, freshly caught in the Indian Ocean and bound for the supermarkets of the EU and in particular, the UK whose insatiable appetite for fresh, perishable and sustainable foodstuffs make this fast and efficient form of transport important to speedy delivery. Every square inch is accounted for but as well as passengers' baggage, the cramped spaces beneath this modern airliner store loaded revenue-rich cargo though specially-pressurised and heated compartments accommodate live animals.
    maldives436-15-11-2007.jpg
  • About to board their Sri Lankan airlines flight to the Maldives, crowds of economy class passengers stand and make an orderly queue when their flight has been called by ground staff at London Heathrow airport England. Lines of people from all nations can be seen reflected in a large window that also overlooks the airport apron where their front-facing Airbus A340-300 aircraft awaits them, its flight-deck crew is seen in the cockpit readying their plane for the long night journey ahead. Catering service trucks are parked alongside the aircraft, loading supplies and all is on schedule from this large intercontinental airport hub to the much smaller island airfield in the middle of the Indian Ocean, the idyllic destination for holidaying Europeans.
    maldives01-10-11-2007.jpg
  • A man's hand reaches the handle of a plug after the fast charging of a Nissan Leaf electric car at an electrical charging point offering an EV 30 minute charge at a south London Nissan dealership. The Nissan Leaf (an acronym for Leading, Environmentally friendly, Affordable, Family car is a five-door hatchback electric car manufactured by Nissan and introduced in Japan and the United States in December 2010. The US Environmental Protection Agency official range is 117 kilometres (73 mi), with an energy consumption of 765 kilojoules per kilometre (34 kW·h/100 mi) and rated the Leaf's combined fuel economy at 99 miles per gallon gasoline equivalent (2.4 L/100 km). The Leaf has a range of 175 km (109 mi) on the New European Driving Cycle.
    electric_nissan08-21-03-2012_1.jpg
  • Fast charging a Nissan Leaf electric car at an electrical charging point offering an EV 30 minute charge at a south London Nissan dealership. The Nissan Leaf (Leading, Environmentally Friendly, Affordable, Family) is a five-door hatchback electric Nissan car. Its official range is 117 kilometres with an energy consumption of 765 kilojoules per kilometre and rated the Leaf's combined fuel economy at 2.4 L/100 km.
    electric_nissan07-21-03-2012_1.jpg
  • Fast charging a Nissan Leaf electric car at an electrical charging point offering an EV 30 minute charge. The Nissan Leaf (Leading, Environmentally Friendly, Affordable, Family) is a five-door hatchback electric Nissan car. Its official range is 117 kilometres with an energy consumption of 765 kilojoules per kilometre and rated the Leaf's combined fuel economy at 2.4 L/100 km. The Leaf has a range of 175 km (109 mi) on the New European Driving Cycle. CHAdeMO is the trade name of a quick charging method for battery electric vehicles delivering up to 62.5 kW of high-voltage direct current via a special electrical connector. CHAdeMO is an abbreviation of "CHArge de MOve", equivalent to "charge for moving". The name is a pun for O cha demo ikaga desuka in Japanese, (or "How about some tea?"), referring to the time it would take to charge a car.
    electric_nissan06-21-03-2012_1.jpg
  • Fast charging a Nissan Leaf electric car at an electrical charging point offering an EV 30 minute charge. The Nissan Leaf (Leading, Environmentally Friendly, Affordable, Family) is a five-door hatchback electric Nissan car. Its official range is 117 kilometres with an energy consumption of 765 kilojoules per kilometre and rated the Leaf's combined fuel economy at 2.4 L/100 km. The Leaf has a range of 175 km (109 mi) on the New European Driving Cycle. CHAdeMO is the trade name of a quick charging method for battery electric vehicles delivering up to 62.5 kW of high-voltage direct current via a special electrical connector. CHAdeMO is an abbreviation of "CHArge de MOve", equivalent to "charge for moving". The name is a pun for O cha demo ikaga desuka in Japanese, (or "How about some tea?"), referring to the time it would take to charge a car.
    electric_nissan04-21-03-2012_1.jpg
  • Fast charging a Nissan Leaf electric car at an electrical charging point offering an EV 30 minute charge. The Nissan Leaf (Leading, Environmentally Friendly, Affordable, Family) is a five-door hatchback electric Nissan car. Its official range is 117 kilometres with an energy consumption of 765 kilojoules per kilometre and rated the Leaf's combined fuel economy at 2.4 L/100 km. The Leaf has a range of 175 km (109 mi) on the New European Driving Cycle. CHAdeMO is the trade name of a quick charging method for battery electric vehicles delivering up to 62.5 kW of high-voltage direct current via a special electrical connector. CHAdeMO is an abbreviation of "CHArge de MOve", equivalent to "charge for moving". The name is a pun for O cha demo ikaga desuka in Japanese, (or "How about some tea?"), referring to the time it would take to charge a car.
    electric_nissan03-21-03-2012_1.jpg
  • Fast charging a Nissan Leaf electric car at an electrical charging point offering an EV 30 minute charge at a south London Nissan dealership. The Nissan Leaf (Leading, Environmentally Friendly, Affordable, Family) is a five-door hatchback electric Nissan car. Its official range is 117 kilometres with an energy consumption of 765 kilojoules per kilometre and rated the Leaf's combined fuel economy at 2.4 L/100 km.
    electric_nissan02-21-03-2012_1.jpg
  • Fast charging a Nissan Leaf electric car at an electrical charging point offering an EV 30 minute charge at a south London Nissan dealership. The Nissan Leaf (Leading, Environmentally Friendly, Affordable, Family) is a five-door hatchback electric Nissan car. Its official range is 117 kilometres with an energy consumption of 765 kilojoules per kilometre and rated the Leaf's combined fuel economy at 2.4 L/100 km.
    electric_nissan01-21-03-2012_1.jpg
  • Solar PV Photo Voltaic panels being installed on roof of a home. PV cells convert sunlight into electrical energy.
    09-re4d-2706.jpg
  • Solar PV Photo Voltaic panels on the roof of Ringmer community college, Ringmer; East Sussex. This panel, or module, is made up of photovoltaic (PV) cells. PV cells convert sunlight into electrical energy.
    08-solar_0403.jpg
  • Close-up of a photovoltaic solar energy panel. This panel, or module, is made up of photovoltaic (PV) cells. PV cells convert sunlight into electrical energy. Photovoltaic panels are an economical, efficient way to produce electricity that does not pollute or contribute to global warming.
    08-pv_1471.jpg
  • Close-up of a man cleaning a photovoltaic solar energy panel. This panel, or module, is made up of photovoltaic (PV) cells. PV cells convert sunlight into electrical energy. Photovoltaic panels are an economical, efficient way to produce electricity.
    08-pv_1152.jpg
  • Close-up of a man cleaning a photovoltaic solar energy panel. This panel, or module, is made up of photovoltaic (PV) cells. PV cells convert sunlight into electrical energy. Photovoltaic panels are an economical, efficient way to produce electricity.
    08-pv_1147.jpg
  • Close-up of a photovoltaic solar energy panel with reflection of the sun. This panel, or module, is made up of photovoltaic (PV) cells. PV cells convert sunlight into electrical energy. Photovoltaic panels are an economical, efficient way to produce electricity that does not pollute or contribute to global warming.
    08-pv_1135.jpg
  • Roofs tiled with photovoltaic solar energy panels receive maximum sunlight exposure in Dyfi Eco Park, Machynlleth, Wales. These panels are made up of photovoltaic (PV) cells. PV cells convert sunlight into electrical energy. Photovoltaic panels are an economical, efficient way to produce electricity.
    08-panels_1244.jpg
  • Re-Powering intern and an estate resident with the Solar photo voltaic PV panels on the roof of Hackney council estate Bannister House, the first community solar installation on a estate in Hackney, London, United Kingdom.  Bannister House was Hackney’s first community solar installation, Banister House Solar, has been developed by Re-powering London in partnership with local estate residents and Hackney Council, and delivered using funds raised through a community share offer. The 102kWp solar array generates up to 82,000kWh of energy annually, saving 50,000kg of CO2 emissions. In addition, a portion of the revenue generated through the government’s Feed-in Tariff and sale of energy over the 20-year life of the project will generate over £28,000 for the Banister House Solar community fund. Hackney, London.
    UK-Solar-PV-Panels-Hackney-London_99...jpg
  • Solar photo voltaic PV panels on the roof of Hackney council estate Bannister House, the first community solar installation on a estate in Hackney, London, United Kingdom. Bannister House was Hackney’s first community solar installation, Banister House Solar, has been developed by Re-powering London in partnership with local estate residents and Hackney Council, and delivered using funds raised through a community share offer. The 102kWp solar array generates up to 82,000kWh of energy annually, saving 50,000kg of CO2 emissions. In addition, a portion of the revenue generated through the government’s Feed-in Tariff and sale of energy over the 20-year life of the project will generate over £28,000 for the Banister House Solar community fund. Hackney, London.
    UK-Solar-PV-Panels-Hackney-London_99...jpg
  • Re-Powering intern and an estate resident with the Solar photo voltaic PV panels on the roof of Hackney council estate Bannister House, the first community solar installation on a estate in Hackney, London, United Kingdom.  Bannister House was Hackney’s first community solar installation, Banister House Solar, has been developed by Re-powering London in partnership with local estate residents and Hackney Council, and delivered using funds raised through a community share offer. The 102kWp solar array generates up to 82,000kWh of energy annually, saving 50,000kg of CO2 emissions. In addition, a portion of the revenue generated through the government’s Feed-in Tariff and sale of energy over the 20-year life of the project will generate over £28,000 for the Banister House Solar community fund. Hackney, London.
    UK-Solar-PV-Panels-Hackney-London_00...jpg
  • Solar PV Photo Voltaic panels on the roof of the Priory school in Lewes, East Sussex. Set up by  OVESCo community  investors. This panel, or module, is made up of photovoltaic (PV) cells. PV cells convert sunlight into electrical energy.
    UK-Solar-Panels-4902_1.jpg
  • One a hot November night, a Sri Lankan Airlines A340-300 series Airbus - registration number 4R-ADE - is bathed in high-intensity floodlights on the apron at Malé international airport in the Republic of the Maldives. Surrounded by passenger steps, servicing vehicles for catering and the loading of baggage and air freight in the below-floor holds, the aircraft is readied for its next flight to Colombo, another journey for this aircraft as it travels across the world's air routes.
    maldives434-15-11-2007.jpg
  • Solar PV Photo Voltaic panels on the roof of Ringmer community college, Ringmer; East Sussex. This panel, or module, is made up of photovoltaic (PV) cells. PV cells convert sunlight into electrical energy.
    08-solar_0404.jpg
  • Close-up of a photovoltaic solar energy panel. This panel, or module, is made up of photovoltaic (PV) cells. PV cells convert sunlight into electrical energy. Photovoltaic panels are an economical, efficient way to produce electricity that does not pollute or contribute to global warming.
    08-pv_1134.jpg
  • Vintage steam crane on show at the annual Michaelmas Fair in the small market town of Bishops Castle, England, United Kingdom.
    20190921_michaelmas fair bishops cas...jpg
  • Available electric Uber Jump bikes are lined up on the pavement on Goswell Roak in Clerkenwell, on 29th July 2019, in London, England. JUMP bikes are pedal-assist electric bikes with integrated GPS and lock so users can find a bike nearby.
    clerkenwell_bikes-03-29-07-2019.jpg
  • A zero emission electric Kavalier vehicle on Slovenska Cesta street in the Slovenian capital, Ljubljana, on 25th June 2018, in Ljubljana, Slovenia. The Kavalier, is an environmentally friendly concept of free city transport in Ljubljana which drive in the pedestrian zone of the old town center are mainly intended for older citizens, people with reduced mobility and tourists. Because of the low speed you can stop and board a cavalier while driving, but you can also order it by phone.
    slovenia-380-26-06-2018.jpg
  • Available electric Uber Jump bikes are lined up on the pavement on Goswell Roak in Clerkenwell, on 29th July 2019, in London, England. JUMP bikes are pedal-assist electric bikes with integrated GPS and lock so users can find a bike nearby.
    clerkenwell_bikes-02-29-07-2019.jpg
  • A young woman site on her CleveYoung cBike while using her phone in the street, on 4th February 2017 in London, United Kingdom. The 40lb CleveYoung cBike is a remodelled foldable electric scooter with a Samsung battery rechargeable for 400 times. A bluetooth speaker connects to a smartphone, is waterproof and is eqiuipped with a USD port, large size LCD screen to display multiple parameters of scooter such as battery info., distance, speed, temperature, etc.
    anti_trump_protest-27-04-02-2017.jpg
  • A landscape view of Wadebridge, North Cornwall, United Kingdom.  The town is aiming to become the first in the UK to be powered by renewable energy sources, and many buildings have been fitted with solar power roof panels,
    UK-Cornwall-Wadebridge-0259.jpg
  • A Rolls-Royce turbofan has been fixed to the exterior of the company’s sales stand at the Farnborough Air Show in Hampshire, England. The British-owned company have been making aircraft engines since 1914 at the start of the First World War, in response to the nation's needs, Royce designed his first aero engine – the Eagle. Modern airliners have the Trent engine's technology embedded in its power plants and Farnborough is a major showcase for its many designs. Here, their chalet has a mocked-up garden feature complete railings and the turbine blades attached to the wall above. Picture from the 'Plane Pictures' project, a celebration of aviation aesthetics and flying culture, 100 years after the Wright brothers first 12 seconds/120 feet powered flight at Kitty Hawk,1903.
    aviation_corbis25-23-07-2002_1.jpg
  • The British Royal Navy historical warship, HMS Warrior (1860) restored and moored in Portsmouth Historic Dockyard, Hampshire, UK. The ship was powered by steam and sail, and was Britain’s first iron-hulled armored warship and the largest, fastest and most powerful ship of her day. She is now a ship museum, monument, visitor attraction and private venue.
    UK-tourism-Portsmouth-Navy-dockyard-...jpg
  • Lisa Egan, former stand-up comedian, now full-time wheel chair bound and poorly after severe illness, speaking in defence of the NHS. The amp and speaker is powered by bicycle.<br />
The Health and Care Bill has been passed by Parliament and is due to go to the House of Lords. In protest against the bill which aim to deconstruct and privatise large parts of the NHS UK Uncut activists together with health workers and trade unionists blocked the Westminster Bridge from 1pm til 5.30pm.
    IMG_2327_1.jpg
  • A night-time exposure during the flight over a city in rural Arizona whose lights are blurred underneath the twin-propeller powered aircraft, an air ambulance ferrying a patient to hospital. The British Aerospace BAe-3101 Jetstream 31 is an air ambulance en-route from San Carlos Apache reservation in Arizona, USA. Native American Air Services, provides critical care level air ambulance services in Arizona. The company was founded in 1995 and is based in Mesa, Arizona. The San Carlos Reservation is one of the poorest Native American communities in the United States, with an annual median household income of approximately $14,000 in 2000, according to the US Census. About 60% of the people live under the poverty line, and 68% of the active labor force is unemployed
    san_carlos03-07-01-2000.jpg
  • Smoke stacks from a power plant spew out exhaust as workers operate to construct a new power generating unit  in Changshu, Jiangsu Province, China on 18 March, 2011.  China is quickly pushing to expand its alternative energy options while currently a majority of its rapidly expanding appetite for electricity is satisfied by coal, which the country has an abundant supply of.
    ChinaPower_21.jpg
  • Campaigners projected the word STUPID on the side of Kingsnorth Power Station
    09-stupid-7333.jpg
  • Two fishermen tend to their nets near a large coal firing power plant in Shanghai, China on August 30th, 2009. China is quickly pushing to expand its alternative energy options while currently a majority of its rapidly expanding appetite for electricity is satisfied by coal, which the country has an abundant supply of.
    QS090830Shanghai001.jpg
  • Gauges and sensors seen in a control room at a small power plant in Changshu, Jiangsu Province, China on 18 March, 2011.  China is quickly pushing to expand its alternative energy options while currently a majority of its rapidly expanding appetite for electricity is satisfied by coal, which the country has an abundant supply of.
    ChinaPower_09.jpg
  • Workers monitor gauges and sensors in a control room at a small power plant in Changshu, Jiangsu Province, China on 18 March, 2011.  China is quickly pushing to expand its alternative energy options while currently a majority of its rapidly expanding appetite for electricity is satisfied by coal, which the country has an abundant supply of.
    ChinaPower_08.jpg
  • Workers monitor gauges and sensors in a control room at a small power plant in Changshu, Jiangsu Province, China on 18 March, 2011.  China is quickly pushing to expand its alternative energy options while currently a majority of its rapidly expanding appetite for electricity is satisfied by coal, which the country has an abundant supply of.
    ChinaPower_05.jpg
  • Campaigners projected the word STUPID on the side of Kingsnorth Power Station
    09-stupid-7347.jpg
  • Campaigners projected the word STUPID on the side of Kingsnorth Power Station
    09-stupid-7312.jpg
  • Young girl going home from school on her hoverboard, accompanied by a guardian and her dog. Hackney, London, England, UK. A self-balancing two-wheeled board, or self-balancing electric scooter, also commonly referred to as a hoverboard, is a type of portable, rechargeable battery-powered scooter. They typically consist of two wheels arranged side-by-side, with two small platforms between the wheels, on which the rider stands. The device is controlled by the rider's feet, standing on the built-in gyroscopic, sensored pads.
    20160120_hoverboard girl_C.jpg
  • Young girl going home from school on her hoverboard, accompanied by a guardian and her dog. Hackney, London, England, UK. A self-balancing two-wheeled board, or self-balancing electric scooter, also commonly referred to as a hoverboard, is a type of portable, rechargeable battery-powered scooter. They typically consist of two wheels arranged side-by-side, with two small platforms between the wheels, on which the rider stands. The device is controlled by the rider's feet, standing on the built-in gyroscopic, sensored pads.
    20160120_hoverboard girl_B.jpg
  • Man commuting on his hoverboard passes other traffic going in the opposite direction. London, England, UK. A self-balancing two-wheeled board, or self-balancing electric scooter, also commonly referred to as a hoverboard, is a type of portable, rechargeable battery-powered scooter. They typically consist of two wheels arranged side-by-side, with two small platforms between the wheels, on which the rider stands. The device is controlled by the rider's feet, standing on the built-in gyroscopic, sensored pads.
    20160120_hoverboard commuter_B.jpg
  • Man commuting on his hoverboard passes other traffic going in the opposite direction. London, England, UK. A self-balancing two-wheeled board, or self-balancing electric scooter, also commonly referred to as a hoverboard, is a type of portable, rechargeable battery-powered scooter. They typically consist of two wheels arranged side-by-side, with two small platforms between the wheels, on which the rider stands. The device is controlled by the rider's feet, standing on the built-in gyroscopic, sensored pads.
    20160120_hoverboard commuter_C.jpg
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