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Fission chain reaction natural

Uranium-235 is of even greater importance because it is the key to utilizing uranium. 23su while occuring in natural uranium to the extent of only 0.71%, is so fissionable with slow neutrons that a self-sustaining fission chain reaction can be made in a reactor constructed from natural uranium and a suitable moderator, such as heavy water or graphite, alone. [Pg.201]

The shorter half life of compared with that of meant that at this time, ca. 1.8 x 10 y ago, natural uranium contained some 3% rather than its current level of 0.7%. Thus, in regions of the ore body where uranium concentrations greater than 10% were present in seams over 0.5 m thick, there was sufficient fissile material for the moderating effect of percolating groundwater to lead to a fission chain reaction. When the heat released was sufficient to boil the water and expel it, the moderating effect would be lost, so that the reactor zone would cycle between critical and subcritical conditions depending upon its water content. It has been estimated that the principal reactor zone at Oklo must have operated in this way for at least 1.5 x lO years at a power level between 10 and 100 kW. [Pg.895]

With atomic number 92 and atomic weight 238.03, uranium is the heaviest naturally occurring element. There are eleven known isotopes, of which three — with atomic weights 234, 235 and 238 — occur in nature. They are all radioactive, with half-lives (in years) of 2.35 X 10 , 7 X 10 and 4.5 X 10 , respectively. The relative abundance of the isotopes varies depending on the age and geological history of the uranium occurrence a typical distribution is U 99.28% U 0.71% U 0.005%. A quite exceptional deviation from this distribution has been found at Oklo in Gabon as a result of spontaneous fission chain reactions in the remote past (Anon., 1975). At Oklo U concentrations as low as 0.29% have been found. [Pg.486]

Of the three moderators that make possible a fission chain reaction in natural uranium, heavy water, graphite, or beryllium, heavy water has become the preferred material. It is used both as coolant and moderataor in heavy-water reactors, which are the exclusive source of nuclear power in Canada, Argentina, and Pakistan, are being used in India, and are being considered in other countries wishing to have a nuclear power system not dependent on a source of enriched uranium. [Pg.628]

At the time our work was undertaken, the opinions of our colleagues were quite divided concerning the possibility of establishing a self-sustaining fission chain reaction with natural uranium. Most of our responsible physicists were inclined to question this possibility. However, Fermi and Szilard had made their historic decision to explore first the possibility of using thermal neutrons as chain carriers. This decision implied that... [Pg.165]

For many years from the 1940s, virtually all of the uranium that was mined was used in the production of nuclear weapons, but this ceased to be the case in the 1970s. Today the only substantial use for uranium is as fuel in nuclear reactors, mostly for electricity generation. Uranium-235 is the only naturally occurring material that can sustain a fission chain reaction, releasing large amounts of energy. [Pg.318]

In a nuclear fuel, the fission chain reaction is maintained by fission of fissile elements, which are capable of sustaining the fission reaction with neutrons of all energy. As such, fissile nuclides are used in the fuel of both thermal neutron spectrum and fast neutron spectrum reactors. The fissile nuclides of importance for nuclear reactors are 233u 235 j 239p Amoug these fissile nuclides, only is a naturally... [Pg.584]

The only isotope available in significant amounts in nature that will support a fission chain reaction is Since and Th make... [Pg.298]

The Natural Reactor. Some two biUion years ago, uranium had a much higher (ca 3%) fraction of U than that of modem times (0.7%). There is a difference in half-hves of the two principal uranium isotopes, U having a half-life of 7.08 x 10 yr and U 4.43 x 10 yr. A natural reactor existed, long before the dinosaurs were extinct and before humans appeared on the earth, in the African state of Gabon, near Oklo. Conditions were favorable for a neutron chain reaction involving only uranium and water. Evidence that this process continued intermittently over thousands of years is provided by concentration measurements of fission products and plutonium isotopes. Usehil information about retention or migration of radioactive wastes can be gleaned from studies of this natural reactor and its products (12). [Pg.222]

A nuclear power plant generates electricity in a manner similar to a fossil fuel plant. The fundamental difference is the source of heat to create the steam that turns the turbine-generator. A fossil plant relies on the combustion of natural resources (coal, oil) to create steam. A nuclear reactor creates steam with the heat produced from a controlled chain reaction of nuclear fission (the splitting of atoms). [Pg.866]

Besides fission products, the various forms of known but newly formed elements in the spent nuclear fuel, there is a small but significant amount of fissionable, or fissile, material in the SNF. This is quite important. There is some unused, unfissioned U-235 that has become too dilute to use. Like natural uranium ores in which chain reactions do not... [Pg.880]

In the light water reactor, the circulating water serves another purpose in addition to heat transfer. It acts to slow down, or moderate, the neutrons given off by fission. This is necessary if the chain reaction is to continue fast neutrons are not readily absorbed by U-235. Reactors in Canada use heavy water, D20, which has an important advantage over H20. Its moderating properties are such that naturally occurring uranium can be used as a fuel enrichment in U-235 is not necessary. [Pg.525]

Radioactivity, radioactive elements and nuclear reactors are found in nature. There are at least 14 natural fission reactors in the Oklo-Okelobon-do natural uranium formation in Gabon on the west coast of Africa. These fossil reactors had sufficient amounts of U-235 to allow chain reactions to... [Pg.217]

Shortly after Japan s December 7,1941 attack on Pearl Harbor, the U.S. became more driven to expedite its timetable for developing the first fission weapon because of fear that the U.S. lagged behind Nazi Germany in efforts to create the first atomic bomb. On December 2, 1942 at 3 49 p.m., Enrico Fermi and Samuel K. Allison achieved the world s first controlled, self-sustained nuclear chain reaction in an experimental reactor using natural uranium and graphite. [Pg.35]

See other pages where Fission chain reaction natural is mentioned: [Pg.1256]    [Pg.865]    [Pg.291]    [Pg.883]    [Pg.894]    [Pg.895]    [Pg.950]    [Pg.883]    [Pg.894]    [Pg.1256]    [Pg.814]    [Pg.689]    [Pg.681]    [Pg.7028]    [Pg.7039]    [Pg.730]    [Pg.752]    [Pg.790]    [Pg.792]    [Pg.568]    [Pg.570]    [Pg.361]    [Pg.106]    [Pg.669]    [Pg.763]    [Pg.736]    [Pg.727]    [Pg.761]    [Pg.681]    [Pg.1238]    [Pg.315]    [Pg.861]    [Pg.881]    [Pg.56]    [Pg.121]    [Pg.314]   
See also in sourсe #XX -- [ Pg.834 ]



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