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  • The freshly laid corner brickwork on the foundations of new house, part of a residential home construction site in Norwich. Norfolk.  United Kingdom
    UK-House-Building-3407.jpg
  • A builder uses a trowel and a spirit level to lay the first bricks with cement onto the foundations of a new house on a home building construction site in Norwich. Norfolk. United Kingdom
    UK-House-Building-3503.jpg
  • A builder using a section of Foamglas Perinsul HL for thermal insulation in the foundations of a new house on a home building construction site in Norwich. Norfolk. United Kingdom.
    UK-House-Building-3472.jpg
  • Foamglas Perinsul HL used for thermal insulation in the foundations of a new house on a home building construction site in Norwich. Norfolk. United Kingdom.
    UK-House-Building-3453.jpg
  • Builders laying the foundations of a new house on a home building construction site in Norwich. Norfolk. United Kingdom.
    UK-House-Building-3457.jpg
  • Pipe work coming out of the foundations of a new house building on a construction site in Norwich. Norfolk. United Kingdom
    UK-House-Building-3395.jpg
  • Foundations ready for new house building on a construction site in Norwich. Norfolk. United Kingdom
    UK-House-Building-3391.jpg
  • Builders use orange JCBs to lay drainage pipes in the ground around the foundations of a new build housing construction site in Norwich, Norfolk.  United Kingdom
    UK-House-Building-3527.jpg
  • Foamglas Perinsul HL used for thermal insulation in the foundations of a new house on a home building construction site in Norwich. Norfolk. United Kingdom.
    UK-House-Building-3474.jpg
  • Insulation panels ready for ready for new house building on a residential home construction site in Norwich. Norfolk.
    UK-House-Building-3506.jpg
  • A group of builders use trowels to lay the first bricks with cement onto the foundations on new house construction site in Norwich. Norfolk. United Kingdom
    UK-House-Building-3498.jpg
  • A builder uses a trowel and a spirit level to lay the first bricks with cement onto the foundations of a new house on a home building construction site in Norwich. Norfolk. United Kingdom
    UK-House-Building-3486.jpg
  • Builders laying the foundations of a new house on a home building construction site in Norwich. Norfolk. United Kingdom. photo by Andrew Aitchison / In pictures via Getty Images
    UK-House-Building-3464.jpg
  • A box of Foamglas Perinsul HL used for thermal insulation in the foundations of a new house on a home building construction site in Norwich. Norfolk. United Kingdom.
    UK-House-Building-3469.jpg
  • A builder takes measurements during laying the foundations of a new house on a home building construction site in Norwich. Norfolk. United Kingdom.
    UK-House-Building-3460.jpg
  • A group of builders laying foundations on new house construction site in Norwich. Norfolk. United Kingdom
    UK-House-Building-3451.jpg
  • Builders use an orange JCB to lay drainage pipes in the ground around the foundations of a new build housing construction site in Norwich, Norfolk.  United Kingdom
    UK-House-Building-3440.jpg
  • Builders use an orange JCB to lay drainage pipes in the ground around the foundations of a new build housing construction site in Norwich, Norfolk.  United Kingdom
    UK-House-Building-3433.jpg
  • Builders use an orange JCB to lay drainage pipes in the ground around the foundations of a new build housing construction site in Norwich, Norfolk.  United Kingdom
    UK-House-Building-3417.jpg
  • Builders use an orange JCB to lay drainage pipes in the ground around the foundations of a new build housing construction site in Norwich, Norfolk.  United Kingdom
    UK-House-Building-3427_1.jpg
  • Builders use an orange JCB to lay drainage pipes in the ground around the foundations of a new build housing construction site in Norwich, Norfolk.  United Kingdom
    UK-House-Building-3409.jpg
  • Insulation panels ready for ready for new house building on a residential home construction site in Norwich. Norfolk. United Kingdom
    UK-House-Building-3393.jpg
  • Foundations ready for new house building on a construction site in Norwich. Norfolk. United Kingdom
    UK-House-Building-3391_1.jpg
  • Builders laying foundations on new house construction site in Norwich. Norfolk.  United Kingdom.
    UK-House-Building-3402.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_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_0528.jpg
  • Two different types of Energy-saving light bulbs or compact fluorescent lamps in a row on a shelf - 11 watts is equivalent to a 60 watt incandescent bulb and 14 watts and is equivalent to a 75 watt. These light bulbs are a form of fluorescent lighting, which produces less heat than incandescent (filament) bulbs; therefore more of the electrical energy is converted to light, making them more efficient.
    08-bulbs_0941.jpg
  • Two different types of Energy-saving light bulbs or compact fluorescent lamps in a row on a shelf - 11 watts is equivalent to a 60 watt incandescent bulb and 14 watts and is equivalent to a 75 watt. These light bulbs are a form of fluorescent lighting, which produces less heat than incandescent (filament) bulbs; therefore more of the electrical energy is converted to light, making them more efficient.
    08-dup-crop_0939.jpg
  • A visitor to the General Electric (GE) exhibition stand at Britain's Farnborough Air Show, points to a feature on a massive, GE90-115B turbofan jet engine. Powering Boeing 777 airliners with up to 115,000 Pounds of thrust, this is a state-of-the-art engine that entered service in April 2004 with Air France. Its giant blades are lit with blue stage lighting to make it look iconic and imposing, dominating this picture of technology and innovation. Such mechanical excellence attached to the world's aircraft are helping to make them quieter and more energy and fuel efficient at a time when oil prices are making air travel an expensive mode of transport.
    farnborough_air_show14-14-07-2008_1.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
  • 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
  • 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
  • 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
  • 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
  • A pile of wood chip for burning in fuel efficient stoves.
    06-woodchip_9610.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 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
  • 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
  • A lorry unloads its cargo of wood chippings in a disused aircraft hanger on an airfield in Suffolk, United Kingdom. There are about 50 tonnes of chippings stored here ready for use in wood chip burning boilers.  This area of the UK is rich in woodland and this wood can provide a sustainable source of heat when used in efficient boilers. This is exactly what local schools are doing thanks to the local council which is managing the resource while supplying wood-fuel for heating. The initiative saves the schools energy, reduces CO2 emissions by 1,200 tonnes a year and cuts their fuel bills by up to 25%.  Suffolk County Council won an Ashden Award for its approach to susatainability.
    10-suffolk-3207.jpg
  • A John Deere Timberjack felling trees in sustainable woodland in Suffolk, United Kingdom.  The machine chops down and processes a tree ready for chipping in about 90 seconds. This area of the UK is rich in woodland and this wood can provide a sustainable source of heat when used in efficient boilers. This is exactly what local schools are doing thanks to the local council which is managing the resource while supplying wood-fuel for heating. The initiative saves the schools energy, reduces CO2 emissions by 1,200 tonnes a year and cuts their fuel bills by up to 25%.  Suffolk County Council won an Ashden Award for its approach to susatainability.
    10-suffolk-3179.jpg
  • Measuring the moisture content of a log with a Protimeter Moisture Meter to see if it is ready to be chipped. Ideally this needs to be around 30% to be ready for chipping. This wood is stored on an airfield in Suffolk, United Kingdom, for about a year to dry.   This area of the UK is rich in woodland and this wood can provide a sustainable source of heat when used in efficient boilers. This is exactly what local schools are doing thanks to the local council which is managing the resource while supplying wood-fuel for heating. The initiative saves the schools energy, reduces CO2 emissions by 1,200 tonnes a year and cuts their fuel bills by up to 25%.  Suffolk County Council won an Ashden Award for its approach to susatainability.
    10-suffolk-3007.jpg
  • A John Deere Timberjack felling trees in sustainable woodland in Suffolk, United Kingdom.  The machine chops down and processes a tree ready for chipping in about 90 seconds. This area of the UK is rich in woodland and this wood can provide a sustainable source of heat when used in efficient boilers. This is exactly what local schools are doing thanks to the local council which is managing the resource while supplying wood-fuel for heating. The initiative saves the schools energy, reduces CO2 emissions by 1,200 tonnes a year and cuts their fuel bills by up to 25%.  Suffolk County Council won an Ashden Award for its approach to susatainability.
    10-suffolk-2851.jpg
  • A lorry loaded with freshly cut logs in sustainable woodland, Suffolk, United Kingdom. Suffolk county council sustainable wood chip production.This area of the UK is rich in woodland and this wood can provide a sustainable source of heat when used in efficient boilers. This is exactly what local schools are doing thanks to the local council which is managing the resource while supplying wood-fuel for heating. The initiative saves the schools energy, reduces CO2 emissions by 1,200 tonnes a year and cuts their fuel bills by up to 25%.  Suffolk County Council won an Ashden Award for its approach to susatainability.
    10-suffolk-2714.jpg
  • A stack of freshly cut logs in sustainable woodland, Suffolk, United Kingdom. This area of the UK is rich in woodland and this wood can provide a sustainable source of heat when used in efficient boilers. This is exactly what local schools are doing thanks to the local council which is managing the resource while supplying wood-fuel for heating. The initiative saves the schools energy, reduces CO2 emissions by 1,200 tonnes a year and cuts their fuel bills by up to 25%.  Suffolk County Council won an Ashden Award for its approach to susatainability.
    10-suffolk-2627.jpg
  • A John Deere Timberjack felling trees in sustainable woodland in Suffolk, United Kingdom.  The machine chops down and processes a tree ready for chipping in about 90 seconds. This area of the UK is rich in woodland and this wood can provide a sustainable source of heat when used in efficient boilers. This is exactly what local schools are doing thanks to the local council which is managing the resource while supplying wood-fuel for heating. The initiative saves the schools energy, reduces CO2 emissions by 1,200 tonnes a year and cuts their fuel bills by up to 25%.  Suffolk County Council won an Ashden Award for its approach to susatainability.
    10-suffolk-2841.jpg
  • Measuring the moisture content of a log with a Protimeter Moisture Meter to see if it is ready to be chipped. Ideally this needs to be around 30% to be ready for chipping. This wood is stored on an airfield in Suffolk, United Kingdom, for about a year to dry.   This area of the UK is rich in woodland and this wood can provide a sustainable source of heat when used in efficient boilers. This is exactly what local schools are doing thanks to the local council which is managing the resource while supplying wood-fuel for heating. The initiative saves the schools energy, reduces CO2 emissions by 1,200 tonnes a year and cuts their fuel bills by up to 25%.  Suffolk County Council won an Ashden Award for its approach to susatainability.
    10-suffolk-2744.jpg
  • Freshly cut trees from sustainable woodland are stacked on an airfield in Suffolk, United Kingdom,  to dry out on the disused concrete runway.  The drying process takes about a year.  This area of the UK is rich in woodland and this wood can provide a sustainable source of heat when used in efficient boilers. This is exactly what local schools are doing thanks to the local council which is managing the resource while supplying wood-fuel for heating. The initiative saves the schools energy, reduces CO2 emissions by 1,200 tonnes a year and cuts their fuel bills by up to 25%.  Suffolk County Council won an Ashden Award for its approach to susatainability.
    10-suffolk-3147.jpg
  • A Heizohack HM 14-800 K lorry mounted wood chipper in action at a wood storage site on an airfield in Suffolk, United Kingdom.  This machine can chip about 5 logs at a time ready for use in wood chip boilers.  This area of the UK is rich in woodland and this wood can provide a sustainable source of heat when used in efficient boilers. This is exactly what local schools are doing thanks to the local council which is managing the resource while supplying wood-fuel for heating. The initiative saves the schools energy, reduces CO2 emissions by 1,200 tonnes a year and cuts their fuel bills by up to 25%.  Suffolk County Council won an Ashden Award for its approach to susatainability.
    10-suffolk-2956.jpg
  • 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
  • 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
  • An amployee for UK Power Networks prepares high-voltage underground cables in central London with reflective corporate backdrop behind. Standing in a sub-pavement level hole on Victoria Street, Westminster the man bends and cuts to size these red coloured protective collars that will deliver efficient power to nearby government and company buildings. reflected in the highly-polished surfaces behind are the fencing and Londoners passing-by.
    electricity_cable08-02-04-2012_1.jpg
  • An amployee for UK Power Networks prepares high-voltage underground cables in central London with reflective corporate backdrop behind. Standing in a sub-pavement level hole on Victoria Street, Westminster the man bends and cuts to size these red coloured protective collars that will deliver efficient power to nearby government and company buildings. reflected in the highly-polished surfaces behind are the fencing and Londoners passing-by.
    electricity_cable07-02-04-2012_1.jpg
  • Engineer checking power levels at Hydro plant in Powys, Wales. Hydroelectricity is a form of hydropower, and is the most widely used form of renewable energy. It produces no waste, and does not produce carbon dioxide (CO2) which contributes to greenhouse gases.
    08-electric_1625.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
  • 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
  • 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 grazing in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Waves form across a puddle in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • 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
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-50...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-59...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-50...jpg
  • Sheep and young lambs grazing in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-50...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-50...jpg
  • Sheep and young lambs grazing in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Sheep and young lambs grazing in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Sheep and young lambs grazing in front of wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • Wind turbines on Llyn Alaw Wind Farm in full electricity production during the tail end of Storm Dennis on 17th February 2020 in Anglesey, Wales, United Kingdom. Llyn Alaw Wind Farm is located on Anglesey in North Wales, it consists of 34 turbines with a capacity of 20.4 MW mega watts and can produce an average 60,000 kilowatt hours KWh each year. This is enough to provide electricity for 14,000 homes in the local community.
    UK-Renewable-Energy-Wind-Turbines-49...jpg
  • West Durham Wind Farm near Tow Law, County Durham, United Kingdom. The wind farm holds 12 turbines and was planned to be the largest wind farm in North East England.
    UK-West-Durham-Wind-Farm-4496.jpg
  • West Durham Wind Farm near Tow Law, County Durham, United Kingdom. The wind farm holds 12 turbines and was planned to be the largest wind farm in North East England.
    UK-West-Durham-Wind-Farm-4489.jpg
  • Two of the 12 wind turbines operating at the West Durham Wind Farm near Tow Law, County Durham, United Kingdom.
    UK-West-Durham-Wind-Farm-4500.jpg
  • Hadyard hill wind farm in South Ayrshire has 52 wind turbines. It generates over 120MW of zero carbon electricity supplying enough electricity to power 80,000 homes.
    08-turbines_2992.jpg
  • Solar power roof panels on the roof on a commercial launderette in Wadebridge, Cornwall, UK.
    UK-Laundrette-0149.jpg
  • Hadyard hill wind farm in South Ayrshire has 52 wind turbines. It generates over 120MW of zero carbon electricity supplying enough electricity to power 80,000 homes.
    Wind-Turbines-3012.jpg
  • Water pump for heating system at Kensa Engineering, Cornwall.
    08-pump_2013.jpg
  • Photo Voltaic (PV) panels on the roof of Kentmere Court, a high-rise tower block in the Charlestown area of Manchester, run by Northwards Hoiusing.  Northwards Housing has gone far beyond government standards in converting their housing stock into energy-efficient homes, with no charge to tenants. Already over 70% of their 12,500 houses have been overhauled with external wall insulation, double glazed windows,  A-rated boilers, and even solar panels.  In 2010, Northwards Housing won an Ashden Award for its appraoch to sustainability.
    10-northwardshse-1542.jpg
  • Photo Voltaic (PV) panels on the roof of Kentmere Court, a high-rise tower block in the Charlestown area of Manchester, run by Northwards Hoiusing.  Northwards Housing has gone far beyond government standards in converting their housing stock into energy-efficient homes, with no charge to tenants. Already over 70% of their 12,500 houses have been overhauled with external wall insulation, double glazed windows,  A-rated boilers, and even solar panels.  In 2010, Northwards Housing won an Ashden Award for its appraoch to sustainability.
    10-northwardshse-1536.jpg
  • A woman pushing a child in a pram walks past the office door of Northwards housing. Northwards Housing has gone far beyond government standards in converting their housing stock into energy-efficient homes, with no charge to tenants. Already over 70% of their 12,500 houses have been overhauled with external wall insulation, double glazed windows,  A-rated boilers, and even solar panels.  In 2010, Northwards Housing won an Ashden Award for its appraoch to sustainability.
    10-northwardshse-1449.jpg
  • Photo Voltaic (PV) panels have been fitted on the the roofs of Kentmere Court, a high-rise tower block in the Charlestown area of Manchester, run by Northwards Hoiusing.  Northwards Housing has gone far beyond government standards in converting their housing stock into energy-efficient homes, with no charge to tenants. Already over 70% of their 12,500 houses have been overhauled with external wall insulation, double glazed windows,  A-rated boilers, and even solar panels.  In 2010, Northwards Housing won an Ashden Award for its appraoch to sustainability.
    10-northwardshse-1567.jpg
  • A wall of Market research responses has been put up on Everwarm's Wall of Excellence. These are the workmen from Cumbria Energy Efficiency Advice centre (Cumbrian EEAC).
    07-ceeac_2797.jpg
  • A Corgi registered plumber installing a new fuel efficient boiler onto a kitchen wall. Blackpool, Lancashire. United Kingdom
    UK-Energy-Boiler-Installation-6833.jpg
  • A Corgi registered plumber installing a new fuel efficient boiler onto a kitchen wall. Blackpool, Lancashire. United Kingdom
    UK-Energy-Boiler-Installation-6838.jpg
  • A Corgi registered plumber installing a new fuel efficient boiler onto a kitchen wall. Blackpool, Lancashire. United Kingdom
    UK-Energy-Boiler-Installation-6839.jpg
  • Cavity Wall insulation between the external brickwork and internal windowsill of a 1930’s house on the 23rd of January 2020 in Folkestone, Kent, United Kingdom. Cavity Wall insulation is a process used to retrospectively fill the cavity of an external wall with a cotton type foam providing insulation and improving the heat retention of a property, offering savings on the cost of heating that property and saving energy.
    UK-Cavity-Wall-Insulation-5730.jpg
  • Cavity Wall insulation between the external brickwork and internal windowsill of a 1930’s house on the 23rd of January 2020 in Folkestone, Kent, United Kingdom. Cavity Wall insulation is a process used to retrospectively fill the cavity of an external wall with a cotton type foam providing insulation and improving the heat retention of a property, offering savings on the cost of heating that property and saving energy.
    UK-Cavity-Wall-Insulation-5735.jpg
  • A copper pipe being welded during the instalment of a new boiler  by a Corgi registered plumber. Blackpool, Lancashire. United Kingdom
    UK-Energy-Boiler-Installation-6849.jpg
  • A copper pipe being welded during the instalment of a new boiler  by a Corgi registered plumber. Blackpool, Lancashire. United Kingdom
    UK-Energy-Boiler-Installation-6828.jpg
  • An example of an early 17th-century cottage, built of stone and clom (a mixture of clay, horse hair, and cow dung). Originally thatched, it is now fitted with a corrugated tin roof to save having to maintain straw thatching.  Llanerchaeron House has several holiday cottages in the grounds, their energy saving changes include extra insulation and biomass boilers. Here is an early 17th-century Clom (mud constructed walls), stone and thatch cottage, nowadays with a corrugated tin roof. The National Trust has cut energy use in its Wales region by a massive 41% over just two years, demonstrating that even the most sensitive buildings can be made much more energy efficient. Secrets of success include a combination of efficiency measures, sustainable heating technologies and culture change. As well as cutting down on energy use it has also installed renewable sources of energy, including solar PV and hydro power.
    12-cottage-7255_1.jpg
  • An example of an early 17th-century cottage, built of stone and clom (a mixture of clay, horse hair, and cow dung). Originally thatched, it is now fitted with a corrugated tin roof to save having to maintain straw thatching.  Llanerchaeron House has several holiday cottages in the grounds, their energy saving changes include extra insulation and biomass boilers. Here is an early 17th-century Clom (mud constructed walls), stone and thatch cottage, nowadays with a corrugated tin roof. The National Trust has cut energy use in its Wales region by a massive 41% over just two years, demonstrating that even the most sensitive buildings can be made much more energy efficient. Secrets of success include a combination of efficiency measures, sustainable heating technologies and culture change. As well as cutting down on energy use it has also installed renewable sources of energy, including solar PV and hydro power.
    12-cottage-7281_1.jpg
  • Cavity wall insulation is being installed in a home in Kirklees, UK. Holes are drilled into the wall and foam pumped in.
    09-kirklees-2000.jpg
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