Duke Energy has filed an application with the US Nuclear Regulatory Commission (NRC) to renew Oconee Nuclear Station’s operating...
TSX-listed uranium investor Uranium Participation Corp. (UPC) today reported that the management information circular and related ...
ASX-listed Boss Energy has unveiled its much anticipated enhanced feasibility study for the proposed Honeymoon Uranium Mine in Sou...
TSX-V-listed Baselode Energy Corp. has provided an update on its three uranium exploration projects in the Athabasca Basin area of...
Construction of the Beishan Underground Research Laboratory has begun near Jiuquan City in China's Gansu province, the China Atomi...
Uranium Primer - Uranium as Nuclear Fuel
Uranium in its naturally occurring form consists primarily of two “isotopes” with the same chemical characteristics, but different atomic weights due to the differing number of neutrons in their nuclei. Both isotopes have 92 protons in their nuclei (and, thus, the same chemical characteristics), but the lighter isotope (atomic weight of 235) has 143 neutrons and the heavier isotope has 146 neutrons. The lighter isotope, U-235, comprises only 0.7% of natural uranium, but it is the only isotope that can actually undergo fission and, thus, produce energy. The other isotope, U-238, comprises the remaining 99.3% of natural uranium. In order to be useful as fuel in the most prevalent nuclear power technologies, the percentage of U-235 must be increased to the level of 2-5% U-235, a process called “enrichment.” Enrichment is a technically difficult process, the essence of which is highly secret because it is the same process used to produce some nuclear weapons material. (Nuclear weapons can be made from uranium of approximately 90% U-235.)
