http://news.bbc.co.uk/nol/shared/spl/hi/sci_nat/05/nuclear_fuel/img/nuclear4_ind629.gif
Introduction :: Mining uranium
Uranium is the basic raw material of both civilian and military nuclear programmes.
It is extracted from either open-cast pits or by underground mining. Although uranium occurs naturally all over the world, only a small fraction is found in concentrated ores.
When certain atoms of uranium are split in a chain reaction, energy is released. This process is called nuclear fission.
In a nuclear power station this fission occurs slowly, while in a nuclear weapon, very rapidly. In both instances, fission must be very carefully controlled.
Nuclear fission works best if isotopes - atoms with the same atomic number, but different numbers of neutrons - of uranium 235 (or plutonium 239) are used. Uranium-235 is known as a "fissile isotope" because of its propensity to split in a chain reaction, releasing energy in the form of heat.
When a U-235 atom splits, it emits two or three neutrons.
When other U-235 atoms are present, these neutrons collide with them causing the other atoms to split, producing more neutrons.
A nuclear reaction will only take place if there are enough u-235 atoms present to allow this process to continue as a self-sustaining chain reaction. This requirement is known as "critical mass". However, every 1,000 atoms of naturally-occurring uranium contain only seven atoms of U-235, with the remaining 993 being denser U-238.
http://news.bbc.co.uk/2/shared/spl/hi/sci_nat/05/nuclear_fuel/html/mining.stm
Introduction :: Mining uranium
Uranium is the basic raw material of both civilian and military nuclear programmes.
It is extracted from either open-cast pits or by underground mining. Although uranium occurs naturally all over the world, only a small fraction is found in concentrated ores.
When certain atoms of uranium are split in a chain reaction, energy is released. This process is called nuclear fission.
In a nuclear power station this fission occurs slowly, while in a nuclear weapon, very rapidly. In both instances, fission must be very carefully controlled.
Nuclear fission works best if isotopes - atoms with the same atomic number, but different numbers of neutrons - of uranium 235 (or plutonium 239) are used. Uranium-235 is known as a "fissile isotope" because of its propensity to split in a chain reaction, releasing energy in the form of heat.
When a U-235 atom splits, it emits two or three neutrons.
When other U-235 atoms are present, these neutrons collide with them causing the other atoms to split, producing more neutrons.
A nuclear reaction will only take place if there are enough u-235 atoms present to allow this process to continue as a self-sustaining chain reaction. This requirement is known as "critical mass". However, every 1,000 atoms of naturally-occurring uranium contain only seven atoms of U-235, with the remaining 993 being denser U-238.
http://news.bbc.co.uk/2/shared/spl/hi/sci_nat/05/nuclear_fuel/html/mining.stm