Nuclear fusion: Difference between revisions

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Fusion undoubtedly offers some important advantages.

<ref>F.F. Chen, ''An Indispensable Truth: How Fusion Power Can Save the Planet'', ISBN 1441978194</ref>

<ref>F.F. Chen, ''An Indispensable Truth: How Fusion Power Can Save the Planet'', {{ISBN|1441978194}}</ref>

Once operative, energy supply would be virtually limitless; greenhouse gas exhaust would be zero; nuclear waste and the danger of nuclear accidents would be strongly reduced (with respect to fission power plants), and nuclear proliferation problems would be small or non-existent. On the other hand, there are complications due to the very complex technology required and the radioactive activation of the reactor vessel components.

A significant part of the latter complications are due to the projected use of D-T fuels (deuterium-tritium) in the first-generation fusion power plants, which is the fuel that is easiest to ignite, but which leads to intense neutron radiation. One may speculate that, if successful, a second generation of fusion power plants can be developed that runs on other fuel mixtures (such as D-D), leading to a reduction of the problems associated with radioactivity.

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* The [[ITER]] project

* [[Stellarator reactor]]

* [[Neutronics in Fusion]]

==References==

@@ Line 44: / Line 44: @@
 Fusion undoubtedly offers some important advantages.
-<ref>F.F. Chen, ''An Indispensable Truth: How Fusion Power Can Save the Planet'', ISBN 1441978194</ref>
+<ref>F.F. Chen, ''An Indispensable Truth: How Fusion Power Can Save the Planet'', {{ISBN|1441978194}}</ref>
 Once operative, energy supply would be virtually limitless; greenhouse gas exhaust would be zero; nuclear waste and the danger of nuclear accidents would be strongly reduced (with respect to fission power plants), and nuclear proliferation problems would be small or non-existent. On the other hand, there are complications due to the very complex technology required and the radioactive activation of the reactor vessel components.
 A significant part of the latter complications are due to the projected use of D-T fuels (deuterium-tritium) in the first-generation fusion power plants, which is the fuel that is easiest to ignite, but which leads to intense neutron radiation. One may speculate that, if successful, a second generation of fusion power plants can be developed that runs on other fuel mixtures (such as D-D), leading to a reduction of the problems associated with radioactivity.
@@ Line 58: / Line 58: @@
 * The [[ITER]] project
 * [[Stellarator reactor]]
+* [[Neutronics in Fusion]]
 ==References==
 <references />