"oxides"

#11805754

24 November 2024

Exhaust fumes from the car exhaust pipe are seen in Torun, Poland on November 23, 2024.

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#11206681

4 May 2024

Pollution is spewing from the Miami Fort Power Station as viewed from the Oxbow Nature Conservancy in Lawrenceburg, Indiana, on May 3, 2024.

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#10898215

8 January 2024

An aerial photo is showing the Yunxi tunnel, which is capable of photovoltaic power generation, in Hangzhou, Zhejiang Province, China, on January 8, 2024. The top of the full-shadow sound barrier of the Yunxi Tunnel covers an area of about 12,600 square meters, and the installed capacity for photovoltaic power generation is approximately 236.25 kilowatts. The photovoltaic system is expected to achieve a total power generation of 5,265,300 KWH over its operation cycle, with an annual average power generation of around 210,600 KWH. This will result in a reduction of annual emissions by 120.11 tons of carbon dioxide, 1.26 tons of sulfide, and 0.95 tons of nitrogen oxides.

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#10898216

8 January 2024

An aerial photo is showing the Yunxi tunnel, which is capable of photovoltaic power generation, in Hangzhou, Zhejiang Province, China, on January 8, 2024. The top of the full-shadow sound barrier of the Yunxi Tunnel covers an area of about 12,600 square meters, and the installed capacity for photovoltaic power generation is approximately 236.25 kilowatts. The photovoltaic system is expected to achieve a total power generation of 5,265,300 KWH over its operation cycle, with an annual average power generation of around 210,600 KWH. This will result in a reduction of annual emissions by 120.11 tons of carbon dioxide, 1.26 tons of sulfide, and 0.95 tons of nitrogen oxides.

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#10898217

8 January 2024

An aerial photo is showing the Yunxi tunnel, which is capable of photovoltaic power generation, in Hangzhou, Zhejiang Province, China, on January 8, 2024. The top of the full-shadow sound barrier of the Yunxi Tunnel covers an area of about 12,600 square meters, and the installed capacity for photovoltaic power generation is approximately 236.25 kilowatts. The photovoltaic system is expected to achieve a total power generation of 5,265,300 KWH over its operation cycle, with an annual average power generation of around 210,600 KWH. This will result in a reduction of annual emissions by 120.11 tons of carbon dioxide, 1.26 tons of sulfide, and 0.95 tons of nitrogen oxides.

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#10898218

8 January 2024

An aerial photo is showing the Yunxi tunnel, which is capable of photovoltaic power generation, in Hangzhou, Zhejiang Province, China, on January 8, 2024. The top of the full-shadow sound barrier of the Yunxi Tunnel covers an area of about 12,600 square meters, and the installed capacity for photovoltaic power generation is approximately 236.25 kilowatts. The photovoltaic system is expected to achieve a total power generation of 5,265,300 KWH over its operation cycle, with an annual average power generation of around 210,600 KWH. This will result in a reduction of annual emissions by 120.11 tons of carbon dioxide, 1.26 tons of sulfide, and 0.95 tons of nitrogen oxides.

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#10898219

8 January 2024

An aerial photo is showing the Yunxi tunnel, which is capable of photovoltaic power generation, in Hangzhou, Zhejiang Province, China, on January 8, 2024. The top of the full-shadow sound barrier of the Yunxi Tunnel covers an area of about 12,600 square meters, and the installed capacity for photovoltaic power generation is approximately 236.25 kilowatts. The photovoltaic system is expected to achieve a total power generation of 5,265,300 KWH over its operation cycle, with an annual average power generation of around 210,600 KWH. This will result in a reduction of annual emissions by 120.11 tons of carbon dioxide, 1.26 tons of sulfide, and 0.95 tons of nitrogen oxides.

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#10898220

8 January 2024

An aerial photo is showing the Yunxi tunnel, which is capable of photovoltaic power generation, in Hangzhou, Zhejiang Province, China, on January 8, 2024. The top of the full-shadow sound barrier of the Yunxi Tunnel covers an area of about 12,600 square meters, and the installed capacity for photovoltaic power generation is approximately 236.25 kilowatts. The photovoltaic system is expected to achieve a total power generation of 5,265,300 KWH over its operation cycle, with an annual average power generation of around 210,600 KWH. This will result in a reduction of annual emissions by 120.11 tons of carbon dioxide, 1.26 tons of sulfide, and 0.95 tons of nitrogen oxides.

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#10898221

8 January 2024

An aerial photo is showing the Yunxi tunnel, which is capable of photovoltaic power generation, in Hangzhou, Zhejiang Province, China, on January 8, 2024. The top of the full-shadow sound barrier of the Yunxi Tunnel covers an area of about 12,600 square meters, and the installed capacity for photovoltaic power generation is approximately 236.25 kilowatts. The photovoltaic system is expected to achieve a total power generation of 5,265,300 KWH over its operation cycle, with an annual average power generation of around 210,600 KWH. This will result in a reduction of annual emissions by 120.11 tons of carbon dioxide, 1.26 tons of sulfide, and 0.95 tons of nitrogen oxides.

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#10898222

8 January 2024

An aerial photo is showing the Yunxi tunnel, which is capable of photovoltaic power generation, in Hangzhou, Zhejiang Province, China, on January 8, 2024. The top of the full-shadow sound barrier of the Yunxi Tunnel covers an area of about 12,600 square meters, and the installed capacity for photovoltaic power generation is approximately 236.25 kilowatts. The photovoltaic system is expected to achieve a total power generation of 5,265,300 KWH over its operation cycle, with an annual average power generation of around 210,600 KWH. This will result in a reduction of annual emissions by 120.11 tons of carbon dioxide, 1.26 tons of sulfide, and 0.95 tons of nitrogen oxides.

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#10898223

8 January 2024

An aerial photo is showing the Yunxi tunnel, which is capable of photovoltaic power generation, in Hangzhou, Zhejiang Province, China, on January 8, 2024. The top of the full-shadow sound barrier of the Yunxi Tunnel covers an area of about 12,600 square meters, and the installed capacity for photovoltaic power generation is approximately 236.25 kilowatts. The photovoltaic system is expected to achieve a total power generation of 5,265,300 KWH over its operation cycle, with an annual average power generation of around 210,600 KWH. This will result in a reduction of annual emissions by 120.11 tons of carbon dioxide, 1.26 tons of sulfide, and 0.95 tons of nitrogen oxides.

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#10898224

8 January 2024

An aerial photo is showing the Yunxi tunnel, which is capable of photovoltaic power generation, in Hangzhou, Zhejiang Province, China, on January 8, 2024. The top of the full-shadow sound barrier of the Yunxi Tunnel covers an area of about 12,600 square meters, and the installed capacity for photovoltaic power generation is approximately 236.25 kilowatts. The photovoltaic system is expected to achieve a total power generation of 5,265,300 KWH over its operation cycle, with an annual average power generation of around 210,600 KWH. This will result in a reduction of annual emissions by 120.11 tons of carbon dioxide, 1.26 tons of sulfide, and 0.95 tons of nitrogen oxides.

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#4084082

1 April 2019

Samples of collected aerosols are analysed inside an electron microscope, and details observed on a computer screen, during a live study of particulate matter (PM) found in air polluting Krakow. The air pollution analytical study is being carried out in Jagiellonian University, Krakow. On Thursday, March 7, 2019, in Krakow, Poland.

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#4084084

1 April 2019

Samples of collected aerosols are instaled by Professor Marek Michalik from the Department of Mineralogy, Petrology and Geochemistry, to be analysed inside an electron microscope, during a live study of particulate matter (PM) found in air polluting Krakow. The air pollution analytical study is being carried out in Jagiellonian University, Krakow. On Thursday, March 7, 2019, in Krakow, Poland.

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#4084086

1 April 2019

Samples of collected aerosols are instaled to be analysed inside an electron microscope, duing a live study of particulate matter (PM) found in air polluting Krakow. The air pollution analytical study is being carried out in Jagiellonian University, Krakow. On Thursday, March 7, 2019, in Krakow, Poland.

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#4084088

1 April 2019

Samples of collected aerosols are analysed inside an electron microscope, and details observed on a computer screen, during a live study of particulate matter (PM) found in air polluting Krakow. The air pollution analytical study is being carried out in Jagiellonian University, Krakow. On Thursday, March 7, 2019, in Krakow, Poland.

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