🗊 The energy of future

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The energy of future
Описание слайда:
The energy of future

Слайд 2





World’s reserves of fuel are going to be exhausted in about 50 years. It’s also predicted that the gas and the coal resources will be used up in about 60 and 220 years. 
The demand for energy 
in the world still grows. 
It’s time now for mankind 
to take care of next 
generations and provide 
them with new energy 
sources which will not 
damage our environment and which will be efficient. It’s time to harness the energy of stars.
World’s reserves of fuel are going to be exhausted in about 50 years. It’s also predicted that the gas and the coal resources will be used up in about 60 and 220 years. 
The demand for energy 
in the world still grows. 
It’s time now for mankind 
to take care of next 
generations and provide 
them with new energy 
sources which will not 
damage our environment and which will be efficient. It’s time to harness the energy of stars.
Описание слайда:
World’s reserves of fuel are going to be exhausted in about 50 years. It’s also predicted that the gas and the coal resources will be used up in about 60 and 220 years. The demand for energy in the world still grows. It’s time now for mankind to take care of next generations and provide them with new energy sources which will not damage our environment and which will be efficient. It’s time to harness the energy of stars. World’s reserves of fuel are going to be exhausted in about 50 years. It’s also predicted that the gas and the coal resources will be used up in about 60 and 220 years. The demand for energy in the world still grows. It’s time now for mankind to take care of next generations and provide them with new energy sources which will not damage our environment and which will be efficient. It’s time to harness the energy of stars.

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Fusion energy...
Fusion is the process in which light nuclei fuse together to form heavier ones, is the energy source of stars. The sun fuses hydrogen to form helium. In that
reaction, about a half of a
percent of the hydrogen mass is
converted into energy, as described
by Einstein’s famous equation
E=mc2 , which relates mass and 
energy. This energy escapes as light,
almost all of which is lost in the 
depths of space. Less than one part 
in a billion falls on earth, where it has sustained the water cycle, wind and life for billions of years.
Описание слайда:
Fusion energy... Fusion is the process in which light nuclei fuse together to form heavier ones, is the energy source of stars. The sun fuses hydrogen to form helium. In that reaction, about a half of a percent of the hydrogen mass is converted into energy, as described by Einstein’s famous equation E=mc2 , which relates mass and energy. This energy escapes as light, almost all of which is lost in the depths of space. Less than one part in a billion falls on earth, where it has sustained the water cycle, wind and life for billions of years.

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Fusion on earth

Hydrogen atoms in the sun and stars fuse at very high temperatures and under the extreme pressure    cause of gravity force. In principle, fusion is possible to carry out with many light elements. Among all possible reactions, the fusion of deuterium and tritium (two isotopes of hydrogen) is the easies to achieve and has been chosen to the basis for future fusion power plants.
 In the process, the 
deuterium and tritium 
are converted into 
helium and a neutron, 
and a lot of energy 
(about 17,6 MeV).
Описание слайда:
Fusion on earth Hydrogen atoms in the sun and stars fuse at very high temperatures and under the extreme pressure cause of gravity force. In principle, fusion is possible to carry out with many light elements. Among all possible reactions, the fusion of deuterium and tritium (two isotopes of hydrogen) is the easies to achieve and has been chosen to the basis for future fusion power plants. In the process, the deuterium and tritium are converted into helium and a neutron, and a lot of energy (about 17,6 MeV).

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The world of plasma
Atomic nuclei repel each other, because they both have a positive charge. To bring the nuclei close enough together for fusion to occur, they need to collide with a very high velocity, which means that the temperature of the gas must be very high. For deuterium-tritium fusion the required temperature is in the range 100-150 million degrees centigrade. At such temperatures the atoms in the gaseous fuel lose their electrons, and together they form a “plasma” which is the fourth state of aggregation.
Описание слайда:
The world of plasma Atomic nuclei repel each other, because they both have a positive charge. To bring the nuclei close enough together for fusion to occur, they need to collide with a very high velocity, which means that the temperature of the gas must be very high. For deuterium-tritium fusion the required temperature is in the range 100-150 million degrees centigrade. At such temperatures the atoms in the gaseous fuel lose their electrons, and together they form a “plasma” which is the fourth state of aggregation.

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Pros of fusion energy power plants: 

No CO2 emission – greenhouse gases as we all know, changes the climate. It causes the rise in the global temperature, changes in precipitation patterns, and a rise of the sea level. A fusion power plant doesn’t emit such gases. If the fusion programme is successful, fusion could start to contribute in the second half of century.
A sustainable energy source – safe and environmentally responsible energy source, with a Widely available and secure fuel supply. Once developed, it will have the potential to play a major role in energy production, alongside other energy generation technologies.
Описание слайда:
Pros of fusion energy power plants: No CO2 emission – greenhouse gases as we all know, changes the climate. It causes the rise in the global temperature, changes in precipitation patterns, and a rise of the sea level. A fusion power plant doesn’t emit such gases. If the fusion programme is successful, fusion could start to contribute in the second half of century. A sustainable energy source – safe and environmentally responsible energy source, with a Widely available and secure fuel supply. Once developed, it will have the potential to play a major role in energy production, alongside other energy generation technologies.

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The fuel is practically inexhaustible (every cubic meter of water contains 33 grams of deuterium, the tritium can be produced form lithium which is one of the most abundant light metals in the earth’s crust ),
The fuel is practically inexhaustible (every cubic meter of water contains 33 grams of deuterium, the tritium can be produced form lithium which is one of the most abundant light metals in the earth’s crust ),
Very small amount of fuel needed - only 100 kg deuterium(from 2800 cubic meters of sea water) and 150 kg of tritium(from 10 tons of lithium ore) will be needed to operate a 1000 MW electrical power plant for one year, instead of 2700000 tons of coal during the same period.
Описание слайда:
The fuel is practically inexhaustible (every cubic meter of water contains 33 grams of deuterium, the tritium can be produced form lithium which is one of the most abundant light metals in the earth’s crust ), The fuel is practically inexhaustible (every cubic meter of water contains 33 grams of deuterium, the tritium can be produced form lithium which is one of the most abundant light metals in the earth’s crust ), Very small amount of fuel needed - only 100 kg deuterium(from 2800 cubic meters of sea water) and 150 kg of tritium(from 10 tons of lithium ore) will be needed to operate a 1000 MW electrical power plant for one year, instead of 2700000 tons of coal during the same period.

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No harmful radioactive emissions – primary materials for fusion (lithium and deuterium) are not radioactive and can be transported easily. The tritium which is the radioactive fuel component is produced inside the machine itself in a lithium-containing blanket surrounding the plasma. The neutrons released by the fusion reactions react with the lithium in the blanket, transforming it into tritium. In this way the only radioactive fuel component is both produced and burned in the machine in a closed loop. Tritium has to be transported during the start-up and decommissioning only.
No harmful radioactive emissions – primary materials for fusion (lithium and deuterium) are not radioactive and can be transported easily. The tritium which is the radioactive fuel component is produced inside the machine itself in a lithium-containing blanket surrounding the plasma. The neutrons released by the fusion reactions react with the lithium in the blanket, transforming it into tritium. In this way the only radioactive fuel component is both produced and burned in the machine in a closed loop. Tritium has to be transported during the start-up and decommissioning only.
Описание слайда:
No harmful radioactive emissions – primary materials for fusion (lithium and deuterium) are not radioactive and can be transported easily. The tritium which is the radioactive fuel component is produced inside the machine itself in a lithium-containing blanket surrounding the plasma. The neutrons released by the fusion reactions react with the lithium in the blanket, transforming it into tritium. In this way the only radioactive fuel component is both produced and burned in the machine in a closed loop. Tritium has to be transported during the start-up and decommissioning only. No harmful radioactive emissions – primary materials for fusion (lithium and deuterium) are not radioactive and can be transported easily. The tritium which is the radioactive fuel component is produced inside the machine itself in a lithium-containing blanket surrounding the plasma. The neutrons released by the fusion reactions react with the lithium in the blanket, transforming it into tritium. In this way the only radioactive fuel component is both produced and burned in the machine in a closed loop. Tritium has to be transported during the start-up and decommissioning only.

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Small amount of “ash” – inert gas helium. Exhaustive safety studies have shown that a fusion power station can be operated without risk of radioactive releases harmful to humans and the environment. No evacuation will be necessary beyond the area of the power station because of limited amount of tritium that could be released. 
Small amount of “ash” – inert gas helium. Exhaustive safety studies have shown that a fusion power station can be operated without risk of radioactive releases harmful to humans and the environment. No evacuation will be necessary beyond the area of the power station because of limited amount of tritium that could be released. 
Small quantity of fuel inside and quick shutdown - the total amount of deuterium and tritium in the plasma is tiny: the weight of plasma vessel would be about the same as ten postage stamps. It could be turned off quickly – like a gas burner.
Описание слайда:
Small amount of “ash” – inert gas helium. Exhaustive safety studies have shown that a fusion power station can be operated without risk of radioactive releases harmful to humans and the environment. No evacuation will be necessary beyond the area of the power station because of limited amount of tritium that could be released. Small amount of “ash” – inert gas helium. Exhaustive safety studies have shown that a fusion power station can be operated without risk of radioactive releases harmful to humans and the environment. No evacuation will be necessary beyond the area of the power station because of limited amount of tritium that could be released. Small quantity of fuel inside and quick shutdown - the total amount of deuterium and tritium in the plasma is tiny: the weight of plasma vessel would be about the same as ten postage stamps. It could be turned off quickly – like a gas burner.

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Fusion milestones:

Fusion research has seen enormous world-wide progress over the past decades. Experiments on tokamaks () progressed rapidly at the beginning of 70’s, which allowed the planning of first deuterium–tritium experiments. Achievements:
-1991, controlled deuterium-tritium in JET (The Joint European Torus, near Oxford, UK) fusion reactions were achieved for the first time on earth, releasing a fusion power of 1.7 MW. 
-1994 tokamak TFTR – up to 10 MW of fusion energy
1997- JET, fusion lasted for a few seconds, 16 MW of energy
Iter project, Demo project
Описание слайда:
Fusion milestones: Fusion research has seen enormous world-wide progress over the past decades. Experiments on tokamaks () progressed rapidly at the beginning of 70’s, which allowed the planning of first deuterium–tritium experiments. Achievements: -1991, controlled deuterium-tritium in JET (The Joint European Torus, near Oxford, UK) fusion reactions were achieved for the first time on earth, releasing a fusion power of 1.7 MW. -1994 tokamak TFTR – up to 10 MW of fusion energy 1997- JET, fusion lasted for a few seconds, 16 MW of energy Iter project, Demo project

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TOKAMAK TEXTOR
Описание слайда:
TOKAMAK TEXTOR

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ITER
PROJECT
Описание слайда:
ITER PROJECT

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  The energy of future   , слайд №13
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Thanks for watching
Thanks for watching
Описание слайда:
Thanks for watching Thanks for watching



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