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The aToms ThaT make up everything in the universe are the
source of a huge amount of energy called nuclear energy. Nuclear
energy produces the searing heat and light of the sun, the deadly
explosions of nuclear weapons, and vast amounts of electricity in
nuclear power stations. Nuclear energy is based on the
fact that matter and energy are different forms of the
same thing, and one can be converted into the other. In
a nuclear reaction, a tiny amount of matter changes into
an enormous amount of energy. The nuclear reaction
occurs in the nuclei (centers) of atoms. This can happen
in two ways: when the nucleus of a heavy atom splits,
in a process called fission, and when two lightweight
nuclei join together, in a process called fusion.
In nuclear weapons, fission or fusion
occurs in a split second. In contrast,
nuclear power stations produce
electricity from fission reactions
that work at a controlled rate.Experimental nuclear fusion
reactor near Oxford, EnglandHydrogen
nucleus with two
extra neutronsNuclear fIssIoN
Nuclear power stations produce energy
from the fission of atoms of uranium
within uranium oxide pellets. The impact
of a particle called a neutron makes an
atom of uranium split, releasing heat
energy and two or three neutrons. The
neutrons strike other uranium atoms and
make them divide. soon, many atoms
split, producing a huge amount of energy.Nuclear power sTaTIoN
a fission reaction becomes continuous
only if there is a certain amount of fuel
present, called the critical mass. In a
nuclear reactor, rods contain uranium
fuel. The fuel rods are placed close
together to provide the critical mass
that starts the reaction.If neutrons travel too rapidly, they bounce
off uranium atoms without producing
fission. The fuel is surrounded by water,
which slows the neutrons down so they
produce fission. A material that slows
neutrons in a reactor is called a moderator.Reactor core
contains pellets of
uranium dioxide fuel
held in fuel rods.
Two thimble-sized
pellets would
produce enough
electricity for one
person’s domestic
supply for one year.Pump for
high-pressure
water systemNuclear radIaTIoN
some waste from nuclear power stations is
radioactive—it produces deadly nuclear radiation
consisting of tiny particles or invisible waves that can
damage living cells. some radioactive waste may last
for thousands of years, so it is buried underground
in sealed containers. many people are concerned
about the dangers of nuclear waste and are
demanding an end to nuclear energy production.The high-
pressure water
flows through pipes
in a steam generator,
which transfers its heat to
a separate water system.
The water in this second
system boils to form steam.
Steam spins turbines that drive
generators, producing electricity.Pressurized water reactor (PWR)Nuclear energy
Control rods absorb neutrons and
slow down the nuclear reaction. In an
emergency, the control rods drop into
the reactor core and shut off
the nuclear reaction.Protective
clothing worn
when handling
nuclear wasteA third water circuit acts as a coolant,
changing the steam back into water, which
returns to the steam generator once again.Water is pumped around the
reactor core at high pressure
in a sealed circuit. The nuclear
reactions heat the water to
more than 570°F (300°C),
but the high pressure keeps
it from turning into steam.Find out more
atoms and molecules
chemistry
cold war
physics
radioactivity
science, history of
soviet union, history ofHydrogen
nucleus with
extra neutron
NeutronHelium
nucleus
Nuclear fusIoN
scientists are trying to build reactors that use nuclear fusion, a process
that produces less dangerous waste than nuclear fission (below).
Nuclear fusion occurs when hydrogen atoms smash together and join
to form heavier atoms of helium. however, nuclear fusion is extremely
difficult to achieve. hydrogen atoms must be held by a magnetic field
and heated to a temperature higher than that in the sun’s center for
fusion to occur.Neutron hits
nucleus of
uranium atom.Fission occurs,
releasing energy
and neutrons.US_385_Nuclear_Energy.indd 385 22/01/16 4:45 pm