Uranium-236

Uranium-236 Full table
General
symbol	Uranium-236,²³⁶U
Neutrons	144
Protons	92
Nuclide data
Natural abundance	<0%
Half-life	10,000,000 years
Parent isotopes	²³⁶Pa ²³⁶Np ²⁴⁰Pu
Decay products	²³²Th
Isotope mass	236.045568(2) u
Spin	0+
Binding energy	1783870.285 ± 1.996 keV keV
Decay mode	Decay energy
Alpha 4.572

Uranium-236 is an reprocessed uranium made from it.

Creation and yield

The fissile isotope Tc-99 are between 6% and 7% per 100 fissions, and the combined yield of long and medium-lived (10 years and up) fission products is about 32%, or a few percent less as some are destroyed by neutron capture.

The second most used fissile isotope plutonium-239 can also fission or not fission on absorbing a thermal neutron. The product plutonium-240 makes up a large proportion of reactor-grade plutonium (plutonium recycled from spent fuel that was originally made with enriched natural uranium and then used once in an LWR). Pu-240 decays with a half-life of 6561 years into U-236. In a closed nuclear fuel cycle, most Pu-240 will be fissioned (possibly after more than one neutron capture) before it decays, but Pu-240 discarded as nuclear waste will decay over thousands of years.

Destruction and decay

²³⁶U, on absorption of a thermal neutron capture cross section of ²³⁶U is low, and this process does not happen quickly in a thermal reactor. Spent nuclear fuel typically contains about .4% U-236.

²³⁶U and most other actinides are fissionable by fast neutrons in a nuclear bomb or a fast neutron reactor. A small number of fast reactors have been in research use for decades, but widespread use for power production is still in the future.

Uranium-236 nuclear fuel cycle. (Thorium-232 occur in nature.)

Difficulty of separation

Unlike activation products, chemical processes cannot separate U-236 from U-238, U-235, U-232 or other uranium isotopes. It is even difficult to remove with isotopic separation, as low enrichment will concentrate not only the desirable U-235 and U-233 but the undesirable U-236, U-234 and U-232. On the other hand, U-236 in the environment cannot separate from U-238 and concentrate separately , which limits its radiation hazard in any one place.

Contribution to radioactivity of reprocessed uranium

U-238's halflife is about 190 times as long as U-236; therefore U-236 should have about 190 times as much specific activity. That is, in reprocessed uranium with 0.5% U-236, the U-236 and U-238 will produce about the same level of radioactivity. (U-235 contributes only a few percent.)

The ratio is less than 190 when the Thorium-232 which has a halflife of 14 billion years, equivalent to a decay rate only 31.4% as great as that of U-238.

Depleted uranium

reprocessed uranium. However, there have been claims that some DU has contained small amounts of U-236. [1]

Uranium-235	Uranium	Uranium-238
Produced from: Protactinium-236 Neptunium-236 Plutonium-240	Decay chain	Decays to: Thorium-232