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Controlled Nuclear Fusion The JET Project
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JET (Joint European Torus)
Click on the underlined parts of the JET to find out more information about them and use it to fill in the concept map in your handouts. Plasma Steam to turbines Torus Pump Clicking on each underlined label will take you or the children to a slide with some explanation about that feature of the JET. The idea here is to get the children to complete the Mind Map on slide 7. using the information about each of these features they should be able to make the right connections between the components of the JET and develop a very useful revision skill (mind mapping). Container Water from turbines Blanket
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Plasma It is a particular state of matter where the atoms are stripped of their electrons. In this state the matter is made only of nuclei, so plasma is positively charged. Therefore, it is capable of carrying an electric current. In D-T reactors a massive current (106 A) is passed through the plasma to give the initial energy to start the fusion reaction by heating the plasma to 108 K. Such high temperatures occur naturally in the Sun and other stars, where the energy provided to the electrons in the atoms is too high for the electrostatic forces from the protons in the nucleus to keep hold of them.
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Lithium blanket The Lithium in the blanket is continually bombarded by the neutrons produced in the fusion reaction. This gives rise to another nuclear reaction where the nuclei of Lithium rearrange into He nuclei and Tritium, which is then collected in the core to form part of the plasma. The He nuclei (alpha-particles) are soon after stopped by the concrete container and later gain electrons, becoming Helium atoms. So, the only waste product in a D-T reactor is Helium. The constant bombardment and the closeness to the hot plasma increases the temperature of the blanket to the order of 103 K.
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Container The container is a thick layer of concrete surrounding the blanket and the core of the reactor. This layer stops the neutrons produced in the fusion reaction from escaping from inside the reactor and harm the staff operating the machinery.
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Torus The torus is a doughnut shape designed to contain the plasma in a confined space, so that the deuterium and tritium nuclei would not escape the core and the intense heat would not affect other parts of the reactor. This is achieved through strong and complicated magnetic field lines around the torus that force the plasma to follow a closed loop. The plasma particles spiral around the field lines and collide with one another. The plasma must be kept from touching the steel container or it would fizzle out losing its energy.
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JET (Joint European Torus)
Achieved by massive current (106 A) Plasma particles stay in the core and reaction is sustained Temperature 108 K Can carry current Forces plasma to follow a complicated path High KE to electrons escape from nucleus Nuclei of D and T stripped of their electrons Confinement Plasma Surrounded by strong magnetic fields Steam to turbines Doughnut shape Torus Pump Clicking on the bubbles will reveal the content underneath!!! So you could use this slide as a plenary and bring everything together, or you could allow the pupils to go at the front and reveal the parts they are struggling more with. Collects in the core Container Stops neutrons from reaching staff Tritium Water from turbines Blanket Concrete Turns into Temperature 103 K Neutrons released in the fusion reaction Lithium
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Use the grid below to compare a fission and a fusion reactor
Type of reactor Energy output per nucleon Advantages Disadvantages Nuclear fission 0.8 MeV Relatively low start-up energies Technology already developed Waste remains radioactive for thousands of years Non-renewable fuel resources Lower energy output Nuclear fusion 3 MeV Renewable fuel resources Harmless waste products Higher energy output Very high power required for start-up Technology not yet developed The use of their notes so far should suffice here to complete the table, but again this information can be found in books or the internet. A good book to use is “Understanding Physics”.
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