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How does a breeder reactor produce more fuel than it consumes?

How does a breeder reactor produce more fuel than it consumes?

Breeder reactors achieve this because their neutron economy is high enough to create more fissile fuel than they use, by irradiation of a fertile material, such as uranium-238 or thorium-232, that is loaded into the reactor along with fissile fuel.

What is the difference between breeder reactor and nuclear reactor?

Whereas a conventional nuclear reactor can use only the readily fissionable but more scarce isotope uranium-235 for fuel, a breeder reactor employs either uranium-238 or thorium, of which sizable quantities are available. …

Are breeder reactors more efficient?

This is why many breeder reactors are also fast reactors. Fast neutrons are ideal for plutonium production because they are easily absorbed by U238 to create Pu239, and they cause less fission than thermal neutrons. Some fast breeder reactors can generate up to 30 percent more fuel than they use.

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In what sense does a breeder reactor produce more fuel than is put into it do Breeders violate the principle of energy conservation?

In what sense does a breeder reactor produce more fuel than is put into it? Do breeders violate the principle of energy conservation? It only generates more fissile material than it consumes not the total fuel.

What are the advantages of breeder reactors?

As stated earlier, the breeder reactor produces more fissionable material than it consumes. This means that for every neutron absorbed by an atom of fissionable material, more than one of the freed neutrons must be absorbed in an atom of fertile material to create more than one new atom of fissionable material.

Why do we use breeder reactors?

Breeder reactors are designed to generate nuclear fuel at the same time as producing energy for electricity production. This is possible because a small number of isotopes will capture neutrons produced in a reactor, starting a reaction that leads to a new, heavy fissile isotope.

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Which fuel is used in a fast breeder reactor?

uranium-238
Fast reactors more deliberately use the uranium-238 as well as the fissile U-235 isotope used in most reactors. If they are designed to produce more plutonium than the uranium and plutonium they consume, they are called fast breeder reactors (FBRs).

What is fast breeder nuclear reactor?

A Fast Breeder Reactor (FBR) is a nuclear reactor that uses fast neutron to generate more nuclear fuels than they consume while generating power, dramatically enhancing the efficiency of the use of resources. Nuclear fission by fast neutron causes the increase in neutrons generated.

What is fast breeder reactor technology?

Does France use breeder reactors?

France is the only country in the world ever to operate a commercial scale (1,200 MWe) sodium cooled, plutonium fuelled fast breeder reactor, the Superphénix at Creys-Malville.

How does a breeder reactor breed nuclear fuel?

It works by using highly enriched uranium, between 15-20\% uranium-235 content, surrounded or “blanketed” by natural uranium-238 in the reactor core. No moderator is used to slow down the neutrons, because fast neutrons transmute uranium-238 much more efficiently than slow neutrons. Liquid metal fast breeder reactor.

Do fast breeder reactors produce more fuel than they use?

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Some fast breeder reactors can generate up to 30 percent more fuel than they use. Creating extra fuel in nuclear reactors, however, is not without its concerns: One is that the plutonium produced can be removed and used in nuclear weapons.

Why did uranium breeder reactors decline in popularity?

Breeders were at first found attractive because they made more complete use of uranium fuel than light water reactors, but interest declined after the 1960s as more uranium reserves were found, and new methods of uranium enrichment reduced fuel costs.

What is a good breeding ratio for a nuclear reactor?

Theoretical models of breeders with liquid sodium coolant flowing through tubes inside fuel elements (“tube-in-shell” construction) suggest breeding ratios of at least 1.8 are possible on an industrial scale. The Soviet BR-1 test reactor achieved a breeding ratio of 2.5 under non-commercial conditions.

What is the difference between breeder reactor waste and light-water reactor waste?

Breeder reactor waste is mostly fission products, while light-water reactor waste has a large quantity of transuranics. After spent nuclear fuel has been removed from a light-water reactor for longer than 100,000 years, these transuranics would be the main source of radioactivity.