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Environmental activists in a tribal canoe blockade Shell's Drilling Rig Polar Pioneer delaying its departure from Seattle's Elliott Bay bound for the Arctic on June 15, 2015. The Polar Pioneer is one of two drilling vessels heading towards the Arctic for Shell this year. The second, the Noble Discoverer, is one of the oldest drill ships in the world. Photo by Greenpeace
Still from CCS: a 2 degree solution, a film by Carbon Visuals for WBCSD available here: www.youtube.com/watch?v=RejAjfRkVuc
The swimming pool is at the location of New York City's only Olympic sized pool: Asphalt Green, 555 E. 90th St. at York Ave.
The film reveals how significant fossil fuel use is today, and will continue to be for decades to come and so makes a case for carbon capture and storage. All the quantities represented in the film are 'real'; the film shows the actual volume and rate of emissions, it is not merely indicative.
The world gets through a lot of fossil fuels:
• 7,896.4 million metric tons of coal in 2013 (21.6 million metric tons per day, 250 metric tons per second)
• 91,330,895 barrels of oil per day in 2013 (168 m3 per second)
• 3,347.63 billion m3 of natural gas in 2013 (9.2 km3 per day, 106,082 m3 per second)
This film tries to make those numbers physically meaningful – to make the quantities ‘real’; more than ‘just numbers’. All the graphics in the film are based on real quantities.
• The coal we use each day would form a pile 236 metres high and 673 metres across. We could fill a volume the size of the UN Secretariat Building with coal every 17 minutes.
• At the rate we use oil, we could fill an Olympic swimming pool every 15 seconds. We could fill a volume the size of the UN Secretariat Building with oil every 30 minutes.
• The rate at which we use natural gas is equivalent to gas travelling along a pipe with an internal diameter of 60 metres at hurricane speeds (135 km/h / 84 mph). We could fill a volume the size of the UN Secretariat Building with natural gas in under 3 seconds. We use a cubic kilometre of gas every 2 hours 37 minutes and a cubic mile of the stuff every 10 hours 54 minutes.
The world’s use of fossil fuels is increasing, not decreasing. Renewable energy will help, but it cannot keep up with the demand for energy. The International Renewable Energy Agency’s most optimistic road-map suggests that renewables will not displace fossil fuels for decades, which is a problem because we are adding carbon dioxide to the atmosphere at an increasing rate.
• In 2012 we added over 39 billion metric tons of carbon dioxide to the atmosphere. That’s 1,237 metric tons a second. It is like a ‘bubble’ of carbon dioxide gas 108 metres across entering the atmosphere every second of every day. We could fill a volume the size of the UN Secretariat Building with our carbon dioxide emissions in less than half a second. We could fill it 133 times a minute. The pile of one metric ton spheres in the film, which represents one day’s emissions, is 3.7 km high (2.3 miles) and 7.4 km across (4.6 miles).
To keep global warming below 2 °C we can afford to emit no more than 1 trillion metric tons of carbon into the atmosphere (3.66 trillion metric tons of carbon dioxide).
2 °C is a significant figure because if warming is more than this ‘positive feedback’ effects will make it increasingly hard to control the temperature. For instance, beyond 2 °C, there will be considerably less ice on Earth. Because it is white, ice reflects energy from the sun back out to space. If the ice goes, more energy from the sun will be absorbed by the Earth.
We have already added more than half the threshold quantity of 1 trillion metric tons of carbon (up to mid-2014, we have emitted about 582 billion metric tons). If carbon dioxide from fossil fuels continues to enter the atmosphere we will reach 2 °C threshold in a few years. The projected emissions illustrated in the film are based on RCP 4.5, which is one of the four ‘Representative Concentration Pathways’ used in the Intergovernmental Panel on Climate Change’s Fifth Assessment Report.
Carbon capture and storage means we can use the energy of fossil fuels without adding carbon to the atmosphere. Because fossil fuels will remain a significant part of the world’s energy economy for decades to come, carbon capture and storage is an essential part of any plan to keep global warming below 2 °C.
Details, calculations and sources for all the numbers in the film are available in a methodology document: www.carbonvisuals.com/media/item/735/559/Methodology-CCS_...
Animation by A-Productions
Still from CCS: a 2 degree solution, a film by Carbon Visuals for WBCSD available here: www.youtube.com/watch?v=RejAjfRkVuc
The film reveals how significant fossil fuel use is today, and will continue to be for decades to come and so makes a case for carbon capture and storage. All the quantities represented in the film are 'real'; the film shows the actual volume and rate of emissions, it is not merely indicative.
The world gets through a lot of fossil fuels:
• 7,896.4 million metric tons of coal in 2013 (21.6 million metric tons per day, 250 metric tons per second)
• 91,330,895 barrels of oil per day in 2013 (168 m3 per second)
• 3,347.63 billion m3 of natural gas in 2013 (9.2 km3 per day, 106,082 m3 per second)
This film tries to make those numbers physically meaningful – to make the quantities ‘real’; more than ‘just numbers’. All the graphics in the film are based on real quantities.
• The coal we use each day would form a pile 236 metres high and 673 metres across. We could fill a volume the size of the UN Secretariat Building with coal every 17 minutes.
• At the rate we use oil, we could fill an Olympic swimming pool every 15 seconds. We could fill a volume the size of the UN Secretariat Building with oil every 30 minutes.
• The rate at which we use natural gas is equivalent to gas travelling along a pipe with an internal diameter of 60 metres at hurricane speeds (135 km/h / 84 mph). We could fill a volume the size of the UN Secretariat Building with natural gas in under 3 seconds. We use a cubic kilometre of gas every 2 hours 37 minutes and a cubic mile of the stuff every 10 hours 54 minutes.
The world’s use of fossil fuels is increasing, not decreasing. Renewable energy will help, but it cannot keep up with the demand for energy. The International Renewable Energy Agency’s most optimistic road-map suggests that renewables will not displace fossil fuels for decades, which is a problem because we are adding carbon dioxide to the atmosphere at an increasing rate.
• In 2012 we added over 39 billion metric tons of carbon dioxide to the atmosphere. That’s 1,237 metric tons a second. It is like a ‘bubble’ of carbon dioxide gas 108 metres across entering the atmosphere every second of every day. We could fill a volume the size of the UN Secretariat Building with our carbon dioxide emissions in less than half a second. We could fill it 133 times a minute. The pile of one metric ton spheres in the film, which represents one day’s emissions, is 3.7 km high (2.3 miles) and 7.4 km across (4.6 miles).
To keep global warming below 2 °C we can afford to emit no more than 1 trillion metric tons of carbon into the atmosphere (3.66 trillion metric tons of carbon dioxide).
2 °C is a significant figure because if warming is more than this ‘positive feedback’ effects will make it increasingly hard to control the temperature. For instance, beyond 2 °C, there will be considerably less ice on Earth. Because it is white, ice reflects energy from the sun back out to space. If the ice goes, more energy from the sun will be absorbed by the Earth.
We have already added more than half the threshold quantity of 1 trillion metric tons of carbon (up to mid-2014, we have emitted about 582 billion metric tons). If carbon dioxide from fossil fuels continues to enter the atmosphere we will reach 2 °C threshold in a few years. The projected emissions illustrated in the film are based on RCP 4.5, which is one of the four ‘Representative Concentration Pathways’ used in the Intergovernmental Panel on Climate Change’s Fifth Assessment Report.
Carbon capture and storage means we can use the energy of fossil fuels without adding carbon to the atmosphere. Because fossil fuels will remain a significant part of the world’s energy economy for decades to come, carbon capture and storage is an essential part of any plan to keep global warming below 2 °C.
Details, calculations and sources for all the numbers in the film are available in a methodology document: www.carbonvisuals.com/media/item/735/559/Methodology-CCS_...
Animation by A-Productions
Still from CCS: a 2 degree solution, a film by Carbon Visuals for WBCSD available here: www.youtube.com/watch?v=RejAjfRkVuc
In this scene we see the possible increase in energy from renewables between 2010 and 2030 according to the International Renewable Energy Agency's 'Road Map' for renewables www.irena.org/remap/.
The film reveals how significant fossil fuel use is today, and will continue to be for decades to come and so makes a case for carbon capture and storage. All the quantities represented in the film are 'real'; the film shows the actual volume and rate of emissions, it is not merely indicative.
The world gets through a lot of fossil fuels:
• 7,896.4 million metric tons of coal in 2013 (21.6 million metric tons per day, 250 metric tons per second)
• 91,330,895 barrels of oil per day in 2013 (168 m3 per second)
• 3,347.63 billion m3 of natural gas in 2013 (9.2 km3 per day, 106,082 m3 per second)
This film tries to make those numbers physically meaningful – to make the quantities ‘real’; more than ‘just numbers’. All the graphics in the film are based on real quantities.
• The coal we use each day would form a pile 236 metres high and 673 metres across. We could fill a volume the size of the UN Secretariat Building with coal every 17 minutes.
• At the rate we use oil, we could fill an Olympic swimming pool every 15 seconds. We could fill a volume the size of the UN Secretariat Building with oil every 30 minutes.
• The rate at which we use natural gas is equivalent to gas travelling along a pipe with an internal diameter of 60 metres at hurricane speeds (135 km/h / 84 mph). We could fill a volume the size of the UN Secretariat Building with natural gas in under 3 seconds. We use a cubic kilometre of gas every 2 hours 37 minutes and a cubic mile of the stuff every 10 hours 54 minutes.
The world’s use of fossil fuels is increasing, not decreasing. Renewable energy will help, but it cannot keep up with the demand for energy. The International Renewable Energy Agency’s most optimistic road-map suggests that renewables will not displace fossil fuels for decades, which is a problem because we are adding carbon dioxide to the atmosphere at an increasing rate.
• In 2012 we added over 39 billion metric tons of carbon dioxide to the atmosphere. That’s 1,237 metric tons a second. It is like a ‘bubble’ of carbon dioxide gas 108 metres across entering the atmosphere every second of every day. We could fill a volume the size of the UN Secretariat Building with our carbon dioxide emissions in less than half a second. We could fill it 133 times a minute. The pile of one metric ton spheres in the film, which represents one day’s emissions, is 3.7 km high (2.3 miles) and 7.4 km across (4.6 miles).
To keep global warming below 2 °C we can afford to emit no more than 1 trillion metric tons of carbon into the atmosphere (3.66 trillion metric tons of carbon dioxide).
2 °C is a significant figure because if warming is more than this ‘positive feedback’ effects will make it increasingly hard to control the temperature. For instance, beyond 2 °C, there will be considerably less ice on Earth. Because it is white, ice reflects energy from the sun back out to space. If the ice goes, more energy from the sun will be absorbed by the Earth.
We have already added more than half the threshold quantity of 1 trillion metric tons of carbon (up to mid-2014, we have emitted about 582 billion metric tons). If carbon dioxide from fossil fuels continues to enter the atmosphere we will reach 2 °C threshold in a few years. The projected emissions illustrated in the film are based on RCP 4.5, which is one of the four ‘Representative Concentration Pathways’ used in the Intergovernmental Panel on Climate Change’s Fifth Assessment Report.
Carbon capture and storage means we can use the energy of fossil fuels without adding carbon to the atmosphere. Because fossil fuels will remain a significant part of the world’s energy economy for decades to come, carbon capture and storage is an essential part of any plan to keep global warming below 2 °C.
Details, calculations and sources for all the numbers in the film are available in a methodology document: www.carbonvisuals.com/media/item/735/559/Methodology-CCS_...
Animation by A-Productions
Still from CCS: a 2 degree solution, a film by Carbon Visuals for WBCSD available here: www.youtube.com/watch?v=RejAjfRkVuc
In this scene we see the projected increase in energy demand between 2010 dnd 2030 according to the International Renewable Energy Agency's 'Road Map' for renewables www.irena.org/remap/. The energy from renewables (blue) does not meet the demand.
The film reveals how significant fossil fuel use is today, and will continue to be for decades to come and so makes a case for carbon capture and storage. All the quantities represented in the film are 'real'; the film shows the actual volume and rate of emissions, it is not merely indicative.
The world gets through a lot of fossil fuels:
• 7,896.4 million metric tons of coal in 2013 (21.6 million metric tons per day, 250 metric tons per second)
• 91,330,895 barrels of oil per day in 2013 (168 m3 per second)
• 3,347.63 billion m3 of natural gas in 2013 (9.2 km3 per day, 106,082 m3 per second)
This film tries to make those numbers physically meaningful – to make the quantities ‘real’; more than ‘just numbers’. All the graphics in the film are based on real quantities.
• The coal we use each day would form a pile 236 metres high and 673 metres across. We could fill a volume the size of the UN Secretariat Building with coal every 17 minutes.
• At the rate we use oil, we could fill an Olympic swimming pool every 15 seconds. We could fill a volume the size of the UN Secretariat Building with oil every 30 minutes.
• The rate at which we use natural gas is equivalent to gas travelling along a pipe with an internal diameter of 60 metres at hurricane speeds (135 km/h / 84 mph). We could fill a volume the size of the UN Secretariat Building with natural gas in under 3 seconds. We use a cubic kilometre of gas every 2 hours 37 minutes and a cubic mile of the stuff every 10 hours 54 minutes.
The world’s use of fossil fuels is increasing, not decreasing. Renewable energy will help, but it cannot keep up with the demand for energy. The International Renewable Energy Agency’s most optimistic road-map suggests that renewables will not displace fossil fuels for decades, which is a problem because we are adding carbon dioxide to the atmosphere at an increasing rate.
• In 2012 we added over 39 billion metric tons of carbon dioxide to the atmosphere. That’s 1,237 metric tons a second. It is like a ‘bubble’ of carbon dioxide gas 108 metres across entering the atmosphere every second of every day. We could fill a volume the size of the UN Secretariat Building with our carbon dioxide emissions in less than half a second. We could fill it 133 times a minute. The pile of one metric ton spheres in the film, which represents one day’s emissions, is 3.7 km high (2.3 miles) and 7.4 km across (4.6 miles).
To keep global warming below 2 °C we can afford to emit no more than 1 trillion metric tons of carbon into the atmosphere (3.66 trillion metric tons of carbon dioxide).
2 °C is a significant figure because if warming is more than this ‘positive feedback’ effects will make it increasingly hard to control the temperature. For instance, beyond 2 °C, there will be considerably less ice on Earth. Because it is white, ice reflects energy from the sun back out to space. If the ice goes, more energy from the sun will be absorbed by the Earth.
We have already added more than half the threshold quantity of 1 trillion metric tons of carbon (up to mid-2014, we have emitted about 582 billion metric tons). If carbon dioxide from fossil fuels continues to enter the atmosphere we will reach 2 °C threshold in a few years. The projected emissions illustrated in the film are based on RCP 4.5, which is one of the four ‘Representative Concentration Pathways’ used in the Intergovernmental Panel on Climate Change’s Fifth Assessment Report.
Carbon capture and storage means we can use the energy of fossil fuels without adding carbon to the atmosphere. Because fossil fuels will remain a significant part of the world’s energy economy for decades to come, carbon capture and storage is an essential part of any plan to keep global warming below 2 °C.
Details, calculations and sources for all the numbers in the film are available in a methodology document: www.carbonvisuals.com/media/item/735/559/Methodology-CCS_...
Animation by A-Productions
Still from CCS: a 2 degree solution, a film by Carbon Visuals for WBCSD available here: www.youtube.com/watch?v=RejAjfRkVuc
The film reveals how significant fossil fuel use is today, and will continue to be for decades to come and so makes a case for carbon capture and storage. All the quantities represented in the film are 'real'; the film shows the actual volume and rate of emissions, it is not merely indicative.
The world gets through a lot of fossil fuels:
• 7,896.4 million metric tons of coal in 2013 (21.6 million metric tons per day, 250 metric tons per second)
• 91,330,895 barrels of oil per day in 2013 (168 m3 per second)
• 3,347.63 billion m3 of natural gas in 2013 (9.2 km3 per day, 106,082 m3 per second)
This film tries to make those numbers physically meaningful – to make the quantities ‘real’; more than ‘just numbers’. All the graphics in the film are based on real quantities.
• The coal we use each day would form a pile 236 metres high and 673 metres across. We could fill a volume the size of the UN Secretariat Building with coal every 17 minutes.
• At the rate we use oil, we could fill an Olympic swimming pool every 15 seconds. We could fill a volume the size of the UN Secretariat Building with oil every 30 minutes.
• The rate at which we use natural gas is equivalent to gas travelling along a pipe with an internal diameter of 60 metres at hurricane speeds (135 km/h / 84 mph). We could fill a volume the size of the UN Secretariat Building with natural gas in under 3 seconds. We use a cubic kilometre of gas every 2 hours 37 minutes and a cubic mile of the stuff every 10 hours 54 minutes.
The world’s use of fossil fuels is increasing, not decreasing. Renewable energy will help, but it cannot keep up with the demand for energy. The International Renewable Energy Agency’s most optimistic road-map suggests that renewables will not displace fossil fuels for decades, which is a problem because we are adding carbon dioxide to the atmosphere at an increasing rate.
• In 2012 we added over 39 billion metric tons of carbon dioxide to the atmosphere. That’s 1,237 metric tons a second. It is like a ‘bubble’ of carbon dioxide gas 108 metres across entering the atmosphere every second of every day. We could fill a volume the size of the UN Secretariat Building with our carbon dioxide emissions in less than half a second. We could fill it 133 times a minute. The pile of one metric ton spheres in the film, which represents one day’s emissions, is 3.7 km high (2.3 miles) and 7.4 km across (4.6 miles).
To keep global warming below 2 °C we can afford to emit no more than 1 trillion metric tons of carbon into the atmosphere (3.66 trillion metric tons of carbon dioxide).
2 °C is a significant figure because if warming is more than this ‘positive feedback’ effects will make it increasingly hard to control the temperature. For instance, beyond 2 °C, there will be considerably less ice on Earth. Because it is white, ice reflects energy from the sun back out to space. If the ice goes, more energy from the sun will be absorbed by the Earth.
We have already added more than half the threshold quantity of 1 trillion metric tons of carbon (up to mid-2014, we have emitted about 582 billion metric tons). If carbon dioxide from fossil fuels continues to enter the atmosphere we will reach 2 °C threshold in a few years. The projected emissions illustrated in the film are based on RCP 4.5, which is one of the four ‘Representative Concentration Pathways’ used in the Intergovernmental Panel on Climate Change’s Fifth Assessment Report.
Carbon capture and storage means we can use the energy of fossil fuels without adding carbon to the atmosphere. Because fossil fuels will remain a significant part of the world’s energy economy for decades to come, carbon capture and storage is an essential part of any plan to keep global warming below 2 °C.
Details, calculations and sources for all the numbers in the film are available in a methodology document: www.carbonvisuals.com/media/item/735/559/Methodology-CCS_...
Animation by A-Productions
Still from CCS: a 2 degree solution, a film by Carbon Visuals for WBCSD available here: www.youtube.com/watch?v=RejAjfRkVuc
In this scene we see projected emissions based on RCP 4.5, which is one of the four ‘Representative Concentration Pathways’ used in the Intergovernmental Panel on Climate Change’s Fifth Assessment Report. The 2 °C is reached before 2055.
The film reveals how significant fossil fuel use is today, and will continue to be for decades to come and so makes a case for carbon capture and storage. All the quantities represented in the film are 'real'; the film shows the actual volume and rate of emissions, it is not merely indicative.
The world gets through a lot of fossil fuels:
• 7,896.4 million metric tons of coal in 2013 (21.6 million metric tons per day, 250 metric tons per second)
• 91,330,895 barrels of oil per day in 2013 (168 m3 per second)
• 3,347.63 billion m3 of natural gas in 2013 (9.2 km3 per day, 106,082 m3 per second)
This film tries to make those numbers physically meaningful – to make the quantities ‘real’; more than ‘just numbers’. All the graphics in the film are based on real quantities.
• The coal we use each day would form a pile 236 metres high and 673 metres across. We could fill a volume the size of the UN Secretariat Building with coal every 17 minutes.
• At the rate we use oil, we could fill an Olympic swimming pool every 15 seconds. We could fill a volume the size of the UN Secretariat Building with oil every 30 minutes.
• The rate at which we use natural gas is equivalent to gas travelling along a pipe with an internal diameter of 60 metres at hurricane speeds (135 km/h / 84 mph). We could fill a volume the size of the UN Secretariat Building with natural gas in under 3 seconds. We use a cubic kilometre of gas every 2 hours 37 minutes and a cubic mile of the stuff every 10 hours 54 minutes.
The world’s use of fossil fuels is increasing, not decreasing. Renewable energy will help, but it cannot keep up with the demand for energy. The International Renewable Energy Agency’s most optimistic road-map suggests that renewables will not displace fossil fuels for decades, which is a problem because we are adding carbon dioxide to the atmosphere at an increasing rate.
• In 2012 we added over 39 billion metric tons of carbon dioxide to the atmosphere. That’s 1,237 metric tons a second. It is like a ‘bubble’ of carbon dioxide gas 108 metres across entering the atmosphere every second of every day. We could fill a volume the size of the UN Secretariat Building with our carbon dioxide emissions in less than half a second. We could fill it 133 times a minute. The pile of one metric ton spheres in the film, which represents one day’s emissions, is 3.7 km high (2.3 miles) and 7.4 km across (4.6 miles).
To keep global warming below 2 °C we can afford to emit no more than 1 trillion metric tons of carbon into the atmosphere (3.66 trillion metric tons of carbon dioxide).
2 °C is a significant figure because if warming is more than this ‘positive feedback’ effects will make it increasingly hard to control the temperature. For instance, beyond 2 °C, there will be considerably less ice on Earth. Because it is white, ice reflects energy from the sun back out to space. If the ice goes, more energy from the sun will be absorbed by the Earth.
We have already added more than half the threshold quantity of 1 trillion metric tons of carbon (up to mid-2014, we have emitted about 582 billion metric tons). If carbon dioxide from fossil fuels continues to enter the atmosphere we will reach 2 °C threshold in a few years. The projected emissions illustrated in the film are based on RCP 4.5, which is one of the four ‘Representative Concentration Pathways’ used in the Intergovernmental Panel on Climate Change’s Fifth Assessment Report.
Carbon capture and storage means we can use the energy of fossil fuels without adding carbon to the atmosphere. Because fossil fuels will remain a significant part of the world’s energy economy for decades to come, carbon capture and storage is an essential part of any plan to keep global warming below 2 °C.
Details, calculations and sources for all the numbers in the film are available in a methodology document: www.carbonvisuals.com/media/item/735/559/Methodology-CCS_...
Animation by A-Productions
Still from CCS: a 2 degree solution, a film by Carbon Visuals for WBCSD available here: www.youtube.com/watch?v=RejAjfRkVuc
In this scene we see the quantity oil we consumed in 2013 in real-time.
The film reveals how significant fossil fuel use is today, and will continue to be for decades to come and so makes a case for carbon capture and storage. All the quantities represented in the film are 'real'; the film shows the actual volume and rate of emissions, it is not merely indicative.
The world gets through a lot of fossil fuels:
• 7,896.4 million metric tons of coal in 2013 (21.6 million metric tons per day, 250 metric tons per second)
• 91,330,895 barrels of oil per day in 2013 (168 m3 per second)
• 3,347.63 billion m3 of natural gas in 2013 (9.2 km3 per day, 106,082 m3 per second)
This film tries to make those numbers physically meaningful – to make the quantities ‘real’; more than ‘just numbers’. All the graphics in the film are based on real quantities.
• The coal we use each day would form a pile 236 metres high and 673 metres across. We could fill a volume the size of the UN Secretariat Building with coal every 17 minutes.
• At the rate we use oil, we could fill an Olympic swimming pool every 15 seconds. We could fill a volume the size of the UN Secretariat Building with oil every 30 minutes.
• The rate at which we use natural gas is equivalent to gas travelling along a pipe with an internal diameter of 60 metres at hurricane speeds (135 km/h / 84 mph). We could fill a volume the size of the UN Secretariat Building with natural gas in under 3 seconds. We use a cubic kilometre of gas every 2 hours 37 minutes and a cubic mile of the stuff every 10 hours 54 minutes.
The world’s use of fossil fuels is increasing, not decreasing. Renewable energy will help, but it cannot keep up with the demand for energy. The International Renewable Energy Agency’s most optimistic road-map suggests that renewables will not displace fossil fuels for decades, which is a problem because we are adding carbon dioxide to the atmosphere at an increasing rate.
• In 2012 we added over 39 billion metric tons of carbon dioxide to the atmosphere. That’s 1,237 metric tons a second. It is like a ‘bubble’ of carbon dioxide gas 108 metres across entering the atmosphere every second of every day. We could fill a volume the size of the UN Secretariat Building with our carbon dioxide emissions in less than half a second. We could fill it 133 times a minute. The pile of one metric ton spheres in the film, which represents one day’s emissions, is 3.7 km high (2.3 miles) and 7.4 km across (4.6 miles).
To keep global warming below 2 °C we can afford to emit no more than 1 trillion metric tons of carbon into the atmosphere (3.66 trillion metric tons of carbon dioxide).
2 °C is a significant figure because if warming is more than this ‘positive feedback’ effects will make it increasingly hard to control the temperature. For instance, beyond 2 °C, there will be considerably less ice on Earth. Because it is white, ice reflects energy from the sun back out to space. If the ice goes, more energy from the sun will be absorbed by the Earth.
We have already added more than half the threshold quantity of 1 trillion metric tons of carbon (up to mid-2014, we have emitted about 582 billion metric tons). If carbon dioxide from fossil fuels continues to enter the atmosphere we will reach 2 °C threshold in a few years. The projected emissions illustrated in the film are based on RCP 4.5, which is one of the four ‘Representative Concentration Pathways’ used in the Intergovernmental Panel on Climate Change’s Fifth Assessment Report.
Carbon capture and storage means we can use the energy of fossil fuels without adding carbon to the atmosphere. Because fossil fuels will remain a significant part of the world’s energy economy for decades to come, carbon capture and storage is an essential part of any plan to keep global warming below 2 °C.
Details, calculations and sources for all the numbers in the film are available in a methodology document: www.carbonvisuals.com/media/item/735/559/Methodology-CCS_...
Animation by A-Productions
The Surfrider Foundation and Greenpeace team up to organize a volunteer beach clean up on South Beach in Miami. The clean up came as the Greenpeace Arctic Sunrise Atlantic Coast Ship tour wraps up it's final leg.
Still from CCS: a 2 degree solution, a film by Carbon Visuals for WBCSD available here: www.youtube.com/watch?v=RejAjfRkVuc
In this scene we see projected emissions based on RCP 4.5, which is one of the four ‘Representative Concentration Pathways’ used in the Intergovernmental Panel on Climate Change’s Fifth Assessment Report. The 2 °C is reached before 2055.
The film reveals how significant fossil fuel use is today, and will continue to be for decades to come and so makes a case for carbon capture and storage. All the quantities represented in the film are 'real'; the film shows the actual volume and rate of emissions, it is not merely indicative.
The world gets through a lot of fossil fuels:
• 7,896.4 million metric tons of coal in 2013 (21.6 million metric tons per day, 250 metric tons per second)
• 91,330,895 barrels of oil per day in 2013 (168 m3 per second)
• 3,347.63 billion m3 of natural gas in 2013 (9.2 km3 per day, 106,082 m3 per second)
This film tries to make those numbers physically meaningful – to make the quantities ‘real’; more than ‘just numbers’. All the graphics in the film are based on real quantities.
• The coal we use each day would form a pile 236 metres high and 673 metres across. We could fill a volume the size of the UN Secretariat Building with coal every 17 minutes.
• At the rate we use oil, we could fill an Olympic swimming pool every 15 seconds. We could fill a volume the size of the UN Secretariat Building with oil every 30 minutes.
• The rate at which we use natural gas is equivalent to gas travelling along a pipe with an internal diameter of 60 metres at hurricane speeds (135 km/h / 84 mph). We could fill a volume the size of the UN Secretariat Building with natural gas in under 3 seconds. We use a cubic kilometre of gas every 2 hours 37 minutes and a cubic mile of the stuff every 10 hours 54 minutes.
The world’s use of fossil fuels is increasing, not decreasing. Renewable energy will help, but it cannot keep up with the demand for energy. The International Renewable Energy Agency’s most optimistic road-map suggests that renewables will not displace fossil fuels for decades, which is a problem because we are adding carbon dioxide to the atmosphere at an increasing rate.
• In 2012 we added over 39 billion metric tons of carbon dioxide to the atmosphere. That’s 1,237 metric tons a second. It is like a ‘bubble’ of carbon dioxide gas 108 metres across entering the atmosphere every second of every day. We could fill a volume the size of the UN Secretariat Building with our carbon dioxide emissions in less than half a second. We could fill it 133 times a minute. The pile of one metric ton spheres in the film, which represents one day’s emissions, is 3.7 km high (2.3 miles) and 7.4 km across (4.6 miles).
To keep global warming below 2 °C we can afford to emit no more than 1 trillion metric tons of carbon into the atmosphere (3.66 trillion metric tons of carbon dioxide).
2 °C is a significant figure because if warming is more than this ‘positive feedback’ effects will make it increasingly hard to control the temperature. For instance, beyond 2 °C, there will be considerably less ice on Earth. Because it is white, ice reflects energy from the sun back out to space. If the ice goes, more energy from the sun will be absorbed by the Earth.
We have already added more than half the threshold quantity of 1 trillion metric tons of carbon (up to mid-2014, we have emitted about 582 billion metric tons). If carbon dioxide from fossil fuels continues to enter the atmosphere we will reach 2 °C threshold in a few years. The projected emissions illustrated in the film are based on RCP 4.5, which is one of the four ‘Representative Concentration Pathways’ used in the Intergovernmental Panel on Climate Change’s Fifth Assessment Report.
Carbon capture and storage means we can use the energy of fossil fuels without adding carbon to the atmosphere. Because fossil fuels will remain a significant part of the world’s energy economy for decades to come, carbon capture and storage is an essential part of any plan to keep global warming below 2 °C.
Details, calculations and sources for all the numbers in the film are available in a methodology document: www.carbonvisuals.com/media/item/735/559/Methodology-CCS_...
Animation by A-Productions
Still from CCS: a 2 degree solution, a film by Carbon Visuals for WBCSD available here: www.youtube.com/watch?v=RejAjfRkVuc
In this scene we see the quantity of coal the world consumes every day.
The film reveals how significant fossil fuel use is today, and will continue to be for decades to come and so makes a case for carbon capture and storage. All the quantities represented in the film are 'real'; the film shows the actual volume and rate of emissions, it is not merely indicative.
The world gets through a lot of fossil fuels:
• 7,896.4 million metric tons of coal in 2013 (21.6 million metric tons per day, 250 metric tons per second)
• 91,330,895 barrels of oil per day in 2013 (168 m3 per second)
• 3,347.63 billion m3 of natural gas in 2013 (9.2 km3 per day, 106,082 m3 per second)
This film tries to make those numbers physically meaningful – to make the quantities ‘real’; more than ‘just numbers’. All the graphics in the film are based on real quantities.
• The coal we use each day would form a pile 236 metres high and 673 metres across. We could fill a volume the size of the UN Secretariat Building with coal every 17 minutes.
• At the rate we use oil, we could fill an Olympic swimming pool every 15 seconds. We could fill a volume the size of the UN Secretariat Building with oil every 30 minutes.
• The rate at which we use natural gas is equivalent to gas travelling along a pipe with an internal diameter of 60 metres at hurricane speeds (135 km/h / 84 mph). We could fill a volume the size of the UN Secretariat Building with natural gas in under 3 seconds. We use a cubic kilometre of gas every 2 hours 37 minutes and a cubic mile of the stuff every 10 hours 54 minutes.
The world’s use of fossil fuels is increasing, not decreasing. Renewable energy will help, but it cannot keep up with the demand for energy. The International Renewable Energy Agency’s most optimistic road-map suggests that renewables will not displace fossil fuels for decades, which is a problem because we are adding carbon dioxide to the atmosphere at an increasing rate.
• In 2012 we added over 39 billion metric tons of carbon dioxide to the atmosphere. That’s 1,237 metric tons a second. It is like a ‘bubble’ of carbon dioxide gas 108 metres across entering the atmosphere every second of every day. We could fill a volume the size of the UN Secretariat Building with our carbon dioxide emissions in less than half a second. We could fill it 133 times a minute. The pile of one metric ton spheres in the film, which represents one day’s emissions, is 3.7 km high (2.3 miles) and 7.4 km across (4.6 miles).
To keep global warming below 2 °C we can afford to emit no more than 1 trillion metric tons of carbon into the atmosphere (3.66 trillion metric tons of carbon dioxide).
2 °C is a significant figure because if warming is more than this ‘positive feedback’ effects will make it increasingly hard to control the temperature. For instance, beyond 2 °C, there will be considerably less ice on Earth. Because it is white, ice reflects energy from the sun back out to space. If the ice goes, more energy from the sun will be absorbed by the Earth.
We have already added more than half the threshold quantity of 1 trillion metric tons of carbon (up to mid-2014, we have emitted about 582 billion metric tons). If carbon dioxide from fossil fuels continues to enter the atmosphere we will reach 2 °C threshold in a few years. The projected emissions illustrated in the film are based on RCP 4.5, which is one of the four ‘Representative Concentration Pathways’ used in the Intergovernmental Panel on Climate Change’s Fifth Assessment Report.
Carbon capture and storage means we can use the energy of fossil fuels without adding carbon to the atmosphere. Because fossil fuels will remain a significant part of the world’s energy economy for decades to come, carbon capture and storage is an essential part of any plan to keep global warming below 2 °C.
Details, calculations and sources for all the numbers in the film are available in a methodology document: www.carbonvisuals.com/media/item/735/559/Methodology-CCS_...
Animation by A-Productions
Still from CCS: a 2 degree solution, a film by Carbon Visuals for WBCSD available here: www.youtube.com/watch?v=RejAjfRkVuc
In this scene we see projected emissions based on RCP 4.5, which is one of the four ‘Representative Concentration Pathways’ used in the Intergovernmental Panel on Climate Change’s Fifth Assessment Report. This time we also see carbon being diverted from the atmosphere by carbon capture and storage schemes at a rate that corresponds to the International Energy Agency's roadmap for CCS. In this scenario, we do not exceed the 2 °C threshold by 2055.
The film reveals how significant fossil fuel use is today, and will continue to be for decades to come and so makes a case for carbon capture and storage. All the quantities represented in the film are 'real'; the film shows the actual volume and rate of emissions, it is not merely indicative.
The world gets through a lot of fossil fuels:
• 7,896.4 million metric tons of coal in 2013 (21.6 million metric tons per day, 250 metric tons per second)
• 91,330,895 barrels of oil per day in 2013 (168 m3 per second)
• 3,347.63 billion m3 of natural gas in 2013 (9.2 km3 per day, 106,082 m3 per second)
This film tries to make those numbers physically meaningful – to make the quantities ‘real’; more than ‘just numbers’. All the graphics in the film are based on real quantities.
• The coal we use each day would form a pile 236 metres high and 673 metres across. We could fill a volume the size of the UN Secretariat Building with coal every 17 minutes.
• At the rate we use oil, we could fill an Olympic swimming pool every 15 seconds. We could fill a volume the size of the UN Secretariat Building with oil every 30 minutes.
• The rate at which we use natural gas is equivalent to gas travelling along a pipe with an internal diameter of 60 metres at hurricane speeds (135 km/h / 84 mph). We could fill a volume the size of the UN Secretariat Building with natural gas in under 3 seconds. We use a cubic kilometre of gas every 2 hours 37 minutes and a cubic mile of the stuff every 10 hours 54 minutes.
The world’s use of fossil fuels is increasing, not decreasing. Renewable energy will help, but it cannot keep up with the demand for energy. The International Renewable Energy Agency’s most optimistic road-map suggests that renewables will not displace fossil fuels for decades, which is a problem because we are adding carbon dioxide to the atmosphere at an increasing rate.
• In 2012 we added over 39 billion metric tons of carbon dioxide to the atmosphere. That’s 1,237 metric tons a second. It is like a ‘bubble’ of carbon dioxide gas 108 metres across entering the atmosphere every second of every day. We could fill a volume the size of the UN Secretariat Building with our carbon dioxide emissions in less than half a second. We could fill it 133 times a minute. The pile of one metric ton spheres in the film, which represents one day’s emissions, is 3.7 km high (2.3 miles) and 7.4 km across (4.6 miles).
To keep global warming below 2 °C we can afford to emit no more than 1 trillion metric tons of carbon into the atmosphere (3.66 trillion metric tons of carbon dioxide).
2 °C is a significant figure because if warming is more than this ‘positive feedback’ effects will make it increasingly hard to control the temperature. For instance, beyond 2 °C, there will be considerably less ice on Earth. Because it is white, ice reflects energy from the sun back out to space. If the ice goes, more energy from the sun will be absorbed by the Earth.
We have already added more than half the threshold quantity of 1 trillion metric tons of carbon (up to mid-2014, we have emitted about 582 billion metric tons). If carbon dioxide from fossil fuels continues to enter the atmosphere we will reach 2 °C threshold in a few years. The projected emissions illustrated in the film are based on RCP 4.5, which is one of the four ‘Representative Concentration Pathways’ used in the Intergovernmental Panel on Climate Change’s Fifth Assessment Report.
Carbon capture and storage means we can use the energy of fossil fuels without adding carbon to the atmosphere. Because fossil fuels will remain a significant part of the world’s energy economy for decades to come, carbon capture and storage is an essential part of any plan to keep global warming below 2 °C.
Details, calculations and sources for all the numbers in the film are available in a methodology document: www.carbonvisuals.com/media/item/735/559/Methodology-CCS_...
Animation by A-Productions
The Greenpeace Thermal Airship A.E. Bates flies over the Dallas, Texas area as part of a campaign confronting Exxon before its upcoming shareholder meeting on May 31st. The annual shareholder meeting in Texas is the perfect opportunity to hold the company accountable for its harmful endeavor of an oil state and oil diplomacy.
Still from CCS: a 2 degree solution, a film by Carbon Visuals for WBCSD available here: www.youtube.com/watch?v=RejAjfRkVuc
This is the call for action at the end of the film: "Carbon Capture, Utilisation and Storage: make it happen. Start by putting a price on carbon"
The film reveals how significant fossil fuel use is today, and will continue to be for decades to come and so makes a case for carbon capture and storage. All the quantities represented in the film are 'real'; the film shows the actual volume and rate of emissions, it is not merely indicative.
The world gets through a lot of fossil fuels:
• 7,896.4 million metric tons of coal in 2013 (21.6 million metric tons per day, 250 metric tons per second)
• 91,330,895 barrels of oil per day in 2013 (168 m3 per second)
• 3,347.63 billion m3 of natural gas in 2013 (9.2 km3 per day, 106,082 m3 per second)
This film tries to make those numbers physically meaningful – to make the quantities ‘real’; more than ‘just numbers’. All the graphics in the film are based on real quantities.
• The coal we use each day would form a pile 236 metres high and 673 metres across. We could fill a volume the size of the UN Secretariat Building with coal every 17 minutes.
• At the rate we use oil, we could fill an Olympic swimming pool every 15 seconds. We could fill a volume the size of the UN Secretariat Building with oil every 30 minutes.
• The rate at which we use natural gas is equivalent to gas travelling along a pipe with an internal diameter of 60 metres at hurricane speeds (135 km/h / 84 mph). We could fill a volume the size of the UN Secretariat Building with natural gas in under 3 seconds. We use a cubic kilometre of gas every 2 hours 37 minutes and a cubic mile of the stuff every 10 hours 54 minutes.
The world’s use of fossil fuels is increasing, not decreasing. Renewable energy will help, but it cannot keep up with the demand for energy. The International Renewable Energy Agency’s most optimistic road-map suggests that renewables will not displace fossil fuels for decades, which is a problem because we are adding carbon dioxide to the atmosphere at an increasing rate.
• In 2012 we added over 39 billion metric tons of carbon dioxide to the atmosphere. That’s 1,237 metric tons a second. It is like a ‘bubble’ of carbon dioxide gas 108 metres across entering the atmosphere every second of every day. We could fill a volume the size of the UN Secretariat Building with our carbon dioxide emissions in less than half a second. We could fill it 133 times a minute. The pile of one metric ton spheres in the film, which represents one day’s emissions, is 3.7 km high (2.3 miles) and 7.4 km across (4.6 miles).
To keep global warming below 2 °C we can afford to emit no more than 1 trillion metric tons of carbon into the atmosphere (3.66 trillion metric tons of carbon dioxide).
2 °C is a significant figure because if warming is more than this ‘positive feedback’ effects will make it increasingly hard to control the temperature. For instance, beyond 2 °C, there will be considerably less ice on Earth. Because it is white, ice reflects energy from the sun back out to space. If the ice goes, more energy from the sun will be absorbed by the Earth.
We have already added more than half the threshold quantity of 1 trillion metric tons of carbon (up to mid-2014, we have emitted about 582 billion metric tons). If carbon dioxide from fossil fuels continues to enter the atmosphere we will reach 2 °C threshold in a few years. The projected emissions illustrated in the film are based on RCP 4.5, which is one of the four ‘Representative Concentration Pathways’ used in the Intergovernmental Panel on Climate Change’s Fifth Assessment Report.
Carbon capture and storage means we can use the energy of fossil fuels without adding carbon to the atmosphere. Because fossil fuels will remain a significant part of the world’s energy economy for decades to come, carbon capture and storage is an essential part of any plan to keep global warming below 2 °C.
Details, calculations and sources for all the numbers in the film are available in a methodology document: www.carbonvisuals.com/media/item/735/559/Methodology-CCS_...
Animation by A-Productions
Workers continue their efforts on exposed sections of the Keystone pipeline. An estimated 210,000 gallons of oil leaked from the Keystone Pipeline in Marshall County, South Dakota, according to the pipeline's operator, TransCanada. Crews shut down the pipeline and officials are investigating the cause of the leak. A federal agency says a leak was caused by damage during construction in 2008. The Pipeline and Hazardous Materials Safety Administration issued a corrective action report on the estimated 210,000-gallon oil spill. The report says a weight installed on the pipeline nearly a decade ago may have damaged the pipeline and coating.
Still from CCS: a 2 degree solution, a film by Carbon Visuals for WBCSD available here: www.youtube.com/watch?v=RejAjfRkVuc
In this scene we see projected emissions based on RCP 4.5, which is one of the four ‘Representative Concentration Pathways’ used in the Intergovernmental Panel on Climate Change’s Fifth Assessment Report. This time we also see carbon being diverted from the atmosphere by carbon capture and storage schemes at a rate that corresponds to the International Energy Agency's roadmap for CCS. In this scenario, we do not exceed the 2 °C threshold by 2055.
The film reveals how significant fossil fuel use is today, and will continue to be for decades to come and so makes a case for carbon capture and storage. All the quantities represented in the film are 'real'; the film shows the actual volume and rate of emissions, it is not merely indicative.
The world gets through a lot of fossil fuels:
• 7,896.4 million metric tons of coal in 2013 (21.6 million metric tons per day, 250 metric tons per second)
• 91,330,895 barrels of oil per day in 2013 (168 m3 per second)
• 3,347.63 billion m3 of natural gas in 2013 (9.2 km3 per day, 106,082 m3 per second)
This film tries to make those numbers physically meaningful – to make the quantities ‘real’; more than ‘just numbers’. All the graphics in the film are based on real quantities.
• The coal we use each day would form a pile 236 metres high and 673 metres across. We could fill a volume the size of the UN Secretariat Building with coal every 17 minutes.
• At the rate we use oil, we could fill an Olympic swimming pool every 15 seconds. We could fill a volume the size of the UN Secretariat Building with oil every 30 minutes.
• The rate at which we use natural gas is equivalent to gas travelling along a pipe with an internal diameter of 60 metres at hurricane speeds (135 km/h / 84 mph). We could fill a volume the size of the UN Secretariat Building with natural gas in under 3 seconds. We use a cubic kilometre of gas every 2 hours 37 minutes and a cubic mile of the stuff every 10 hours 54 minutes.
The world’s use of fossil fuels is increasing, not decreasing. Renewable energy will help, but it cannot keep up with the demand for energy. The International Renewable Energy Agency’s most optimistic road-map suggests that renewables will not displace fossil fuels for decades, which is a problem because we are adding carbon dioxide to the atmosphere at an increasing rate.
• In 2012 we added over 39 billion metric tons of carbon dioxide to the atmosphere. That’s 1,237 metric tons a second. It is like a ‘bubble’ of carbon dioxide gas 108 metres across entering the atmosphere every second of every day. We could fill a volume the size of the UN Secretariat Building with our carbon dioxide emissions in less than half a second. We could fill it 133 times a minute. The pile of one metric ton spheres in the film, which represents one day’s emissions, is 3.7 km high (2.3 miles) and 7.4 km across (4.6 miles).
To keep global warming below 2 °C we can afford to emit no more than 1 trillion metric tons of carbon into the atmosphere (3.66 trillion metric tons of carbon dioxide).
2 °C is a significant figure because if warming is more than this ‘positive feedback’ effects will make it increasingly hard to control the temperature. For instance, beyond 2 °C, there will be considerably less ice on Earth. Because it is white, ice reflects energy from the sun back out to space. If the ice goes, more energy from the sun will be absorbed by the Earth.
We have already added more than half the threshold quantity of 1 trillion metric tons of carbon (up to mid-2014, we have emitted about 582 billion metric tons). If carbon dioxide from fossil fuels continues to enter the atmosphere we will reach 2 °C threshold in a few years. The projected emissions illustrated in the film are based on RCP 4.5, which is one of the four ‘Representative Concentration Pathways’ used in the Intergovernmental Panel on Climate Change’s Fifth Assessment Report.
Carbon capture and storage means we can use the energy of fossil fuels without adding carbon to the atmosphere. Because fossil fuels will remain a significant part of the world’s energy economy for decades to come, carbon capture and storage is an essential part of any plan to keep global warming below 2 °C.
Details, calculations and sources for all the numbers in the film are available in a methodology document: www.carbonvisuals.com/media/item/735/559/Methodology-CCS_...
Animation by A-Productions
The San Ardo Oil Field, discovered by Texaco in 1947, is the 13th largest in California. It is located on an anticline in the Monterey Formation and produces heavy crude from the Aurignac and Lonbardi sands, units of the Monterey. Operations now involve use of steam injection and flooding to boost recovery. The field is currently operated by Chevron Corp. and Aera Energy. Ultimate production is projected to be more than a half billion barrels. San Ardo, Monterey Co., Calif.
June 15-16, 2015, Ovnhallen (The Kiln) - CBS, Porcelænshaven 20, Copenhagen, Denmark
In collaboration with Copenhagen Business School, we organised our second TBLI CONFERENCE NORDIC event, addressing specifically the financial sector in Scandinavia and the UK. The program addressed topics relevant for investors and finance professionals striving to better align profits with impact - with a view across all asset classes.
This event marked the 30th TBLI CONFERENCE held since 1998.
A lone cow maneuvers through water in Wilson County, southeast of San Antonio, Texas on June 1, 2015. Texas endured record rainfall in May. Flooding turned streets into rivers, ripped homes off foundations, swept over thousands of vehicles and trapped people in cars and houses. Rivers and lakes around cities such as Houston, Dallas and San Antonio continued to swell above dangerous levels, officials Photo by Greenpeace
The Greenpeace Airship A.E. Bates flies over the Decker Coal Mine in Decker, Montana on August 7, 2014. The owner of the Decker coal mine, Ambre Energy, is seeking to expand its access to publicly owned coal as part of its controversial proposals to export coal through Oregon and Washington. Greenpeace is calling on Interior Secretary Sally Jewell to stop selling publicly owned coal at subsidized prices. Photo by Greenpeace
Greenpeace activist Naomi Ages holds up a spine during a press conference with Senator Marko Rubio after the Senate Foreign Relations Committee voted to confirm the nomination of Rex Tillerson for Donald Trump's Secretary of State. Greenpeace Climate Liability Campaigner Ages said: “The Senators voting to confirm Rex Tillerson have clearly left their spines at home. Instead of standing up to a historically unpopular President, they're letting Trump hand the State department over to the oil and gas industry."
Refinery Corridor Healing Walk #3
Benicia to Rodeo, California June 11, 2017 - 3rd of 4 walks this year along the Refinery Corridor in the East Bay. Organized by Idle No More SF Bay, this 10.5 mile walk started in Benicia, home of Valero's Benicia Refinery, crossed the Carquinez Bridge and then passed thru the heart of Conoco-Phillips 66 “San Francisco” refinery.
Within minutes of the early morning start, walkers had the extremely rare opportunity to observe 2 Bald Eagles fishing and hanging out along the bay. And then, almost as if scripted, what started as a bright, sunny day turned increasingly windy and as the walkers approached the Conoco-Phillips 66 refinery, dark, menacing clouds formed, complete with lightning and eventually rain.
These walks have been bringing native people, local communities and those concerned about the health of the planet together to envision a healthier future, since 2014.
The next walk (July 16, 2017) will cover the section of the Refinery Corridor from Rodeo to the Chevron Richmond refinery. It will be the very last of a total of 16 walks that have happened over a period of 4 years.
These walks have done an outstanding job of connecting communities and issues and providing insights and ways to connect to the fierce battles being waged in our own back yards for "Clean Air, Water & Soil
Safe Jobs, Roads, Railroads & Waterways
A Vibrantly Healthy Future for All Children
A Just Transition to Safe & Sustainable Energy"
ALBANY, NEW YORK, USA -- Saturday, May 14th, 2016. Participants take part in a Break Free action.
Break Free 2016 is a week of coordinated direct actions that target the most dangerous fossil fuel projects, in an effort to keep coal, oil and gas in the ground and accelerate a just transition to 100% renewable energy. Thousands of people all over the planet are putting their bodies on the line to send a message to polluters and politicians that we need to break free from fossil fuels now.
Environmental activists in a tribal canoe blockade Shell's Drilling Rig Polar Pioneer delaying its departure from Seattle's Elliott Bay bound for the Arctic on June 15, 2015. The Polar Pioneer is one of two drilling vessels heading towards the Arctic for Shell this year. The second, the Noble Discoverer, is one of the oldest drill ships in the world. Photo by Greenpeace
Postdoctoral research associate Arnab Roy works in NETL’s High-Pressure Combustion Facility and uses data from the Energy Systems Innovation Lab to design next-generation water-cooled rotating detonation combustors for land-based power generation applications. Roy also works with fuel cells, coal gasification, and gas turbines, with an emphasis on investigating thermal management strategies to improve performance and efficiency. He came to NETL to help develop transformational technologies using state-of-the-art research facilities alongside renowned scientists and engineers.
12:365
Better in lightbox if you have the time (press L or click the photo)
Adding a little warmth to the cold snap in the UK. There is a possiblity that snow is on the way ...though nobody seems to be certain. Have you got any of the pretty white fluffy stuff where you are? x
Man impersonating Exxon CEO Rex Tillerson giving a press conference outside Exxon offices in NY at April Fuel's Day - Holding Exxon Accountable
© Erik McGregor - erikrivas@hotmail.com - 917-225-8963
The Greenpeace Airship A.E. Bates flies over the Decker Coal Mine in Decker, Montana on August 7, 2014. The owner of the Decker coal mine, Ambre Energy, is seeking to expand its access to publicly owned coal as part of its controversial proposals to export coal through Oregon and Washington. Greenpeace is calling on Interior Secretary Sally Jewell to stop selling publicly owned coal at subsidized prices. Photo by Greenpeace
The Surfrider Foundation and Greenpeace team up to organize a volunteer beach clean up on South Beach in Miami. The clean up came as the Greenpeace Arctic Sunrise Atlantic Coast Ship tour wraps up it's final leg.
Photo citation: Ted Auch, FracTracker Alliance, 2021.
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If you wish to use our photos and/or videos for commercial purposes — including distributing them in publications for profit — please follow the steps on our ‘About’ page.
As a nonprofit, we work hard to gather and share our insights in publicly accessible ways. If you appreciate what you see here, follow us on Twitter, Instagram, or Facebook @fractracker, and donate if you can, at www.fractracker.org/donate!
Natural Gas Production Platform E17a-PA.
E17a-A is a producing conventional gas field located in shallow water in Netherlands and is operated by Neptune Energy Netherlands.
From the toxic waste created by the extreme extraction of tar sands destroying indigenous communities in Canada, to toxins created by the BP Whiting refinery producing sacrifice communities in the Greater Chicago area, to the resultant catastrophic effect on our climate, the urgent need for a just transition away from fossil fuels to a 100% renewable energy economy is abundantly clear.
Shut down Donkin coal mine, owned by Kameron Collieries (also known as Kameron Coal), on 30 March 2022 in Donkin, Nova Scotia, Canada.
Automobiles release nitrogen oxides (NOx) into the atmosphere and can be a significant source on nitrogen pollution to coastal areas.
Photo Credit: Ruben de Rijcke
Fossil Fuel playing somewhere in Marin County, California.
Hear them play
Photo citation: Ted Auch, FracTracker Alliance, 2021. Aerial support provided by LightHawk.
Each photo label provides this information, explained below:
Photographer_topic-sitespecific-siteowner-county-state_partneraffiliation_date(version)
Photo labels provide information about what the image shows and where it was made. The label may describe the type of infrastructure pictured, the environment the photo captures, or the type of operations pictured. For many images, labels also provide site-specific information, including operators and facility names, if it is known by the photographer.
All photo labels include location information, at the state and county levels, and at township/village levels if it is helpful. Please make use of the geolocation data we provide - especially helpful if you want to see other imagery made nearby!
We encourage you to reach out to us about any imagery you wish to make use of, so that we can assist you in finding the best snapshots for your purposes, and so we can further explain these specific details to help you understand the imagery and fully describe it for your own purposes.
Please reach out to us at info@fractracker.org if you need more information about any of our images.
FracTracker encourages you to use and share our imagery. Our resources can be used free of charge for noncommercial purposes, provided that the photo is cited in our format (found on each photo’s page).
If you wish to use our photos and/or videos for commercial purposes — including distributing them in publications for profit — please follow the steps on our ‘About’ page.
As a nonprofit, we work hard to gather and share our insights in publicly accessible ways. If you appreciate what you see here, follow us on Twitter, Instagram, or Facebook @fractracker, and donate if you can, at www.fractracker.org/donate!
Supporters take to the street during the press conference. Democratic National Committee (DNC) Chair Tom Perez said the party will not host an official primary debate on the climate crisis, and will restrict candidates from participating in third-party climate debates. In response, people gathered at the Democratic National Committee headquarters in Washington, DC, to demand the party reverse its stance and provide a forum for presidential hopefuls to debate one of the greatest threats facing humanity today. Over half the Democratic field has already endorsed the call for a climate debate. Organizers delivered more than 200,000 petition signatures from people across the country asking the DNC to listen to voters and organize a debate. The signatures were collected by CREDO Action, Greenpeace USA, Climate Hawks Vote, Oil Change U.S., Daily Kos, Friends of the Earth Action, Public Citizen, Endangered Species Coalition, People Demanding Action, CPD Action, Women's March National, Bold Nebraska, Bold Alliance, Amazon Watch, 350 Action, Sunrise Movement, Food & Water Action, NextGen America, US Youth Climate Strike, and MoveOn.
STOCKHOLM, SWEDEN- On September 8, 2018, tens of thousands of people joined over 830 actions in 91 countries under the banner of Rise for Climate to demonstrate the urgency of the climate crisis. Communities around the world shined a spotlight on the increasing impacts they are experiencing and demanded local action to keep fossil fuels in the ground. There were hundreds of creative events and actions that challenged fossil fuels and called for a swift and just transition to 100% renewable energy for all. Event organizers emphasized community-led solutions, starting in places most impacted by pollution and climate change.
Photo by Shubhangi Singh | Survival Media Agency