Nuclear Energy 431
PROCESS DIAGRAM
There are two different nu-
clear reactions that release en-
ergy: fission and fusion. In nuclear
fission, the process nuclear power
plants use, energy is released when
a single neutron crashes into the
nucleus of a large atom, usually
uranium or plutonium. The contact causes the large atom
to break into smaller particles, releasing energy in the pro-
cess (}ÕÀiʣǰ£Î). In fusion, the process that powers
the sun and other stars, two small atoms are combined,
forming one larger atom of a different element.
Conventional Nuclear Fission
Uranium ore, the mineral fuel used in conventional nu-
clear power plants, is a nonrenewable resource present
in limited amounts in sedimen-
tary rock in Earth’s crust. Approx-
imately 11 percent of the world’s
uranium deposits are located in
the United States.
Uranium ore contains three
isotopes: U-238 (which makes
up 99.28 percent of uranium), U-235 (0.71 percent),
and U-234 (less than 0.01 percent). Because U-235, the
isotope used in conventional fission reactions, is such a
minor part of uranium ore, uranium ore must be refined
after mining to increase the concentration of U-235
to about 3 percent. This refining process, called
enrichment, requires a great deal of energy.
After enrichment, uranium is processed into small
pellets of uranium dioxide; each pellet contains the
enrichment The
process by which
uranium ore is
refined after mining
to increase the
concentration of
fissionable U-235.
fission The splitting
of an atomic
nucleus into two
smaller fragments,
accompanied by the
release of a large
amount of energy.
(^1) Uranium-235
(U-235) nucleus
undergoes
nuclear
bombardment.
(^2) U-235 nucleus splits into
two smaller radioactive
fragments and several
free neutrons.
(^3) Free neutrons bombard
nearby U-235 nuclei,
causing them to split.
(^4) More free
neutrons are
released in a
chain reaction.
Neutron
Uranium-235
Uranium-235
Atomic
fragment
Atomic
fragment
Atomic
fragments
Atomic
fragment Atomic
fragment
Free
neutron
Free
neutrons
Free
neutrons
Free
neutron
Energy
Energy
Energy
ENERGY
Nuclear fissionÊUÊ}ÕÀiʣǰ£Î
✓✓THE PLANNER
Starting at the left side of the figure, neutron bombardment^1 of a uranium-235 (U-235) nucleus causes it to
split into two smaller radioactive fragments^2 and several free neutrons^3. The free neutrons bombard nearby
U-235 nuclei, causing them to split and release still more free neutrons^4 in a chain reaction. Many different
pairs of radioactive atomic fragments are produced during the fission of U-235.