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| '''Low-enriched uranium (LEU)''' has a lower than 20% concentration of U-235. | '''Low-enriched uranium (LEU)''' has a lower than 20% concentration of U-235. | ||
| For use in commercial ]s |
For use in commercial ]s (LWR), the most prevalent power reactors in the world, uranium is enriched to 3 to 5 percent U-235. It is not a direct bomb risk. LEU used in research reactors is usually enriched 12% to 19.75% U-235, the later concentration being used to replace HEU fuels when converting to LEU. | ||
| '''Slightly enriched uranium (SEU)''' between 0.9% to 2% enrichment. | |||
| ⚫ | During the ] enriched uranium was given the codename oralloy, a shortened version of ] ], after the plant where the uranium was enriched. The term oralloy is still occasionally used to refer to enriched uranium. The remaining U-238 with extremely low U-235 content is known as ], and is considerably less ] than even natural uranium, though still extremely dense and is useful for ] and armor penetrating weapons. | ||
| This new grade is being used to replace Natural uranium (NU) fuel in some heavy water reactors like the ]. Costs are lowered because less uranium and fewer bundles are needed to fuel the reactor. This in turn reduces the quantity of used fuel and its subsequent waste management costs. Recovered uranium (RU) is a variation of SEU. It is based on a ] involving used fuel recovered from ]s (LWR) | |||
| ⚫ | During the ] enriched uranium was given the codename oralloy, a shortened version of ] ], after the plant where the uranium was enriched. The term oralloy is still occasionally used to refer to enriched uranium. The remaining U-238 with extremely low U-235 content is known as ] (DU), and is considerably less ] than even natural uranium, though still extremely dense and is useful for ] and armor penetrating weapons. | ||
| The ability to enrich uranium is one of the key factors in ]. | The ability to enrich uranium is one of the key factors in ]. | ||
Revision as of 02:21, 4 October 2005
Enriched uranium is uranium whose uranium-235 content has been increased through the process of isotope separation. Natural uranium consists mostly of the U-238 isotope, with about 0.7 percent by weight as U-235, the only isotope existing in nature in any appreciable amount that is fissionable by thermal neutrons.
Highly enriched uranium (HEU) has a greater than 20% concentration of U-235.
The fissile uranium in nuclear weapons usually contains 85% or more of U-235 (weapons-grade or weapon-grade), though for a crude inefficient weapon 20% is sufficient (this is called weapons-usable or weapon-usable; some argue that even less is sufficient, but that then the critical mass rapidly increases). The presence of too much of the U-238 isotope inhibits the runaway nuclear chain reaction that is responsible for the weapon's power.
HEU is also used in nuclear submarine reactors, where it contains at least 50% U-235, but typically exceeds 90%.
Low-enriched uranium (LEU) has a lower than 20% concentration of U-235.
For use in commercial light water reactors (LWR), the most prevalent power reactors in the world, uranium is enriched to 3 to 5 percent U-235. It is not a direct bomb risk. LEU used in research reactors is usually enriched 12% to 19.75% U-235, the later concentration being used to replace HEU fuels when converting to LEU.
Slightly enriched uranium (SEU) between 0.9% to 2% enrichment.
This new grade is being used to replace Natural uranium (NU) fuel in some heavy water reactors like the CANDU. Costs are lowered because less uranium and fewer bundles are needed to fuel the reactor. This in turn reduces the quantity of used fuel and its subsequent waste management costs. Recovered uranium (RU) is a variation of SEU. It is based on a fuel cycle involving used fuel recovered from light water reactors (LWR)
During the Manhattan Project enriched uranium was given the codename oralloy, a shortened version of Oak Ridge alloy, after the plant where the uranium was enriched. The term oralloy is still occasionally used to refer to enriched uranium. The remaining U-238 with extremely low U-235 content is known as depleted uranium (DU), and is considerably less radioactive than even natural uranium, though still extremely dense and is useful for armor and armor penetrating weapons.
The ability to enrich uranium is one of the key factors in nuclear weapons proliferation.
Separative work is expressed in SWU (separative work unit), kg SW, or kg UTA (from the German Urantrennarbeit ), possibly with a prefix:
- 1 SWU = 1 kg SW = 1 kg UTA
- 1 kSWU = 1 tSW = 1 t UTA
- 1 MSWU = 1 ktSW = 1 kt UTA
See the external link for the definition.
For information on how uranium is enriched see isotope separation.
The opposite of enriching is downblending; in particular it is blending HEU with natural uranium to produce LEU. The HEU may for example come from decommissioned nuclear weapons.
External links
- Uranium enrichment (PDF, 651 KB)