Global Warming Images
 
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20130501_IMG_6320.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130502_B18A8390.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130502_B18A8393.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130502_B18A8400.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130502_B18A8407.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130502_B18A8415.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130503_IMG_6496.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130503_IMG_6723.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130503_IMG_6729.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130503_IMG_6740.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130506_B18A0739.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130417_B18A5353.jpg Dave Lowe the manager of Grizedale Forest next to the bio fuel boiler that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130417_B18A5356.jpg The bio fuel boiler at Grizedale forest that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130417_B18A5360.jpg The bio fuel boiler at Grizedale forest that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130417_B18A5361.jpg The bio fuel boiler at Grizedale forest that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130417_B18A5362.jpg The bio fuel boiler at Grizedale forest that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130417_B18A5364.jpg The bio fuel boiler at Grizedale forest that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130417_B18A5367.jpg The bio fuel boiler at Grizedale forest that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130417_B18A5371.jpg The bio fuel boiler at Grizedale forest that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130417_B18A5375.jpg The bio fuel boiler at Grizedale forest that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130417_B18A5377.jpg The bio fuel boiler at Grizedale forest that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130417_B18A5394.jpg The bio fuel boiler at Grizedale forest that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130417_B18A5404.jpg The bio fuel boiler at Grizedale forest that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130417_B18A5405.jpg The bio fuel boiler at Grizedale forest that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130417_B18A5407.jpg The bio fuel boiler at Grizedale forest that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130417_B18A5410.jpg The bio fuel boiler at Grizedale forest that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130417_B18A5413.jpg The bio fuel boiler at Grizedale forest that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130417_B18A5415.jpg The bio fuel boiler at Grizedale forest that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130417_B18A5424.jpg The bio fuel boiler at Grizedale forest that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130417_B18A5426.jpg The bio fuel boiler at Grizedale forest that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130417_B18A5429.jpg The bio fuel boiler at Grizedale forest that uses timber grown in the forest, and heats the whole of the Grizedale buildings. The boiler has a rating of 220 KW.
 
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20130507_B18A0979.jpg Wind turbines next to the offices of a coal importing business on the docks in Amsterdam, Netherlands.
 
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20130507_B18A1001.jpg Wind turbines next to the offices of a coal importing business on the docks in Amsterdam, Netherlands.
 
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20130429_IMG_5189.jpg Tulip fields near Keukenhof gardens, Lisse, Netherlands.
 
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20130430_IMG_5564.jpg The modern Palace of Justice building in Amsterdam, Netherlands, with walls planted with greenery.
 
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20130501_IMG_6316.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130501_IMG_6322.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130502_B18A8338.jpg New houses for sale in Almere, which is the Nehterlands youngest town, in Flevoland, which was reclaimed from the sea. This planned city is very green, with space heating provided from a nearby combined heat and power plant, and from Sun Island, a circle of solar thermal panels which also provides hot water for the residents. Many of the houses have solar PV panels on the roof to generate their own electricity.
 
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20130502_B18A8354.jpg Sun Island in Almere, which is the Netherlands youngest town, in Flevoland, which was reclaimed from the sea. This planned city is very green, with space heating provided from a nearby combined heat and power plant, and from Sun Island, pictured hear, a circle of solar thermal panels which provides hot water for the residents. Many of the houses have solar PV panels on the roof to generate their own electricity. Zoneiland contains 520 solar panels covering an area of approximately 7000 m2. Annually it provides 9,750 gigajoules of renewable, sustainable energy, equal to 10% of Almere city's total annual energy needs. The rest of the energy is provided by the local power plant in Almere.
 
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20130502_B18A8362.jpg Sun Island in Almere, which is the Netherlands youngest town, in Flevoland, which was reclaimed from the sea. This planned city is very green, with space heating provided from a nearby combined heat and power plant, and from Sun Island, pictured hear, a circle of solar thermal panels which provides hot water for the residents. Many of the houses have solar PV panels on the roof to generate their own electricity. Zoneiland contains 520 solar panels covering an area of approximately 7000 m2. Annually it provides 9,750 gigajoules of renewable, sustainable energy, equal to 10% of Almere city's total annual energy needs. The rest of the energy is provided by the local power plant in Almere.
 
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20130502_B18A8375.jpg Sun Island in Almere, which is the Netherlands youngest town, in Flevoland, which was reclaimed from the sea. This planned city is very green, with space heating provided from a nearby combined heat and power plant, and from Sun Island, pictured hear, a circle of solar thermal panels which provides hot water for the residents. Many of the houses have solar PV panels on the roof to generate their own electricity. Zoneiland contains 520 solar panels covering an area of approximately 7000 m2. Annually it provides 9,750 gigajoules of renewable, sustainable energy, equal to 10% of Almere city's total annual energy needs. The rest of the energy is provided by the local power plant in Almere.
 
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20130502_B18A8382.jpg Sun Island in Almere, which is the Netherlands youngest town, in Flevoland, which was reclaimed from the sea. This planned city is very green, with space heating provided from a nearby combined heat and power plant, and from Sun Island, pictured hear, a circle of solar thermal panels which provides hot water for the residents. Many of the houses have solar PV panels on the roof to generate their own electricity. Zoneiland contains 520 solar panels covering an area of approximately 7000 m2. Annually it provides 9,750 gigajoules of renewable, sustainable energy, equal to 10% of Almere city's total annual energy needs. The rest of the energy is provided by the local power plant in Almere.
 
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20130502_B18A8384.jpg Sun Island in Almere, which is the Netherlands youngest town, in Flevoland, which was reclaimed from the sea. This planned city is very green, with space heating provided from a nearby combined heat and power plant, and from Sun Island, pictured hear, a circle of solar thermal panels which provides hot water for the residents. Many of the houses have solar PV panels on the roof to generate their own electricity. Zoneiland contains 520 solar panels covering an area of approximately 7000 m2. Annually it provides 9,750 gigajoules of renewable, sustainable energy, equal to 10% of Almere city's total annual energy needs. The rest of the energy is provided by the local power plant in Almere.
 
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20130502_B18A8392.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130502_B18A8397.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130502_B18A8403.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130502_B18A8408.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130502_B18A8423.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130502_IMG_6454.jpg Sun Island in Almere, which is the Netherlands youngest town, in Flevoland, which was reclaimed from the sea. This planned city is very green, with space heating provided from a nearby combined heat and power plant, and from Sun Island, pictured hear, a circle of solar thermal panels which provides hot water for the residents. Many of the houses have solar PV panels on the roof to generate their own electricity. Zoneiland contains 520 solar panels covering an area of approximately 7000 m2. Annually it provides 9,750 gigajoules of renewable, sustainable energy, equal to 10% of Almere city's total annual energy needs. The rest of the energy is provided by the local power plant in Almere.
 
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20130502_IMG_6467.jpg Sun Island in Almere, which is the Netherlands youngest town, in Flevoland, which was reclaimed from the sea. This planned city is very green, with space heating provided from a nearby combined heat and power plant, and from Sun Island, pictured hear, a circle of solar thermal panels which provides hot water for the residents. Many of the houses have solar PV panels on the roof to generate their own electricity. Zoneiland contains 520 solar panels covering an area of approximately 7000 m2. Annually it provides 9,750 gigajoules of renewable, sustainable energy, equal to 10% of Almere city's total annual energy needs. The rest of the energy is provided by the local power plant in Almere.
 
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20130503_B18A8570.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130503_B18A8581.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130503_B18A8627.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130503_B18A9022.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130503_IMG_6479.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130503_IMG_6491.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130506_B18A0730.jpg This futuristic looking building recieves hot water in an 11km long pipe from the Diemen, combined heat and power station and supplies space heating for up to 25,000 houses in the town of Almere. Investing in this sort of technology means the residents of almere have a tiny carbon footprint compared to most western European households.
 
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20130506_IMG_7288.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. This shot shows the floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof.
 
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20130506_IMG_7299.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. This shot shows the floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panels on the roof. Here a man points out the level of the water outside.
 
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20130506_IMG_7306.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. This shot shows the floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof.
 
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20130506_IMG_7313.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. The floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof. Thi shot shows the water source heat pump.
 
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20130506_IMG_7317.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. The floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof. Thi shot shows the water source heat pump.
 
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20130506_IMG_7320.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. The floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof. Thi shot shows the water source heat pump.
 
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20130506_IMG_7325.jpg The Netherlands are notoriously flat and low lying, with 50% of the country lying below sea level. Climate change is leading to both sea level rise and increased flooding, both of which threaten poperties. One solution is to build floating houses, that rise and fall with altering water levels. The floating offices of Waternet, a water utility company. The building is heated and cooled by a water source heat pump, as well as generating its own electricity from solar panelas on the roof. Thi shot shows the water source heat pump.
 
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