How do nuclear power plants work? - M. V. Ramana and Sajan Saini
3,162,539 views ・ 2017-05-08
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00:07
On a December afternoon in Chicago
during the middle of World War II,
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scientists cracked open the nucleus
at the center of the uranium atom
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and turned nuclear mass into energy
over and over again.
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They did this by creating
for the first time
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a chain reaction inside a new
engineering marvel:
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the nuclear reactor.
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Since then, the ability to mine great
amounts of energy from uranium nuclei
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has led some to bill nuclear power
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as a plentiful utopian
source of electricity.
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A modern nuclear reactor generates enough
electricity from one kilogram of fuel
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to power an average American household
for nearly 34 years.
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But rather than dominate the global
electricity market,
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nuclear power has declined from
an all-time high of 18% in 1996
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to 11% today.
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And it's expected to drop further
in the coming decades.
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What happened to the great promise
of this technology?
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It turns out nuclear power
faces many hurdles,
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including high construction costs
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and public opposition.
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And behind these problems lie
a series of unique engineering challenges.
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Nuclear power relies on the fission
of uranium nuclei
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and a controlled chain reaction
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that reproduces this splitting
in many more nuclei.
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The atomic nucleus is densely packed
with protons and neutrons
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bound by a powerful nuclear force.
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Most uranium atoms have a total
of 238 protons and neutrons,
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but roughly one in every 140
lacks three neutrons,
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and this lighter isotope is less
tightly bound.
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Compared to its more abundant cousin,
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a strike by a neutron easily splits
the U-235 nuclei
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into lighter, radioactive elements
called fission products,
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in addition to two to three neutrons,
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gamma rays,
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and a few neutrinos.
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During fission, some nuclear mass
transforms into energy.
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A fraction of the newfound energy
powers the fast-moving neutrons,
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and if some of them strike uranium nuclei,
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fission results in a second
larger generation of neutrons.
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If this second generation of neutrons
strike more uranium nuclei,
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more fission results in an even
larger third generation, and so on.
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But inside a nuclear reactor,
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this spiraling chain reaction is tamed
using control rods
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made of elements that capture excess
neutrons and keep their number in check.
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With a controlled chain reaction,
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a reactor draws power steadily
and stably for years.
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The neutron-led chain reaction
is a potent process driving nuclear power,
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but there's a catch that can result
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in unique demands
on the production of its fuel.
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It turns out, most of the neutrons emitted
from fission have too much kinetic energy
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to be captured by uranium nuclei.
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The fission rate is too low
and the chain reaction fizzles out.
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The first nuclear reactor built in Chicago
used graphite as a moderator
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to scatter and slow down
neutrons just enough
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to increase their capture by uranium
and raise the rate of fission.
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Modern reactors commonly use
purified water as a moderator,
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but the scattered neutrons are still
a little too fast.
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To compensate
and keep up the chain reaction,
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the concentration of U-235 is enriched
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to four to seven times
its natural abundance.
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Today, enrichment is often done by
passing a gaseous uranium compound
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through centrifuges
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to separate lighter U-235
from heavier U-238.
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But the same process can be continued
to highly enrich U-235
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up to 130 times its natural abundance
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and create an explosive chain reaction
in a bomb.
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Methods like centrifuge processing
must be carefully regulated
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to limit the spread of bomb-grade fuel.
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Remember, only a fraction
of the released fission energy
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goes into speeding up neutrons.
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Most of the nuclear power goes into the
kinetic energy of the fission products.
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Those are captured inside the reactor
as heat by a coolant,
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usually purified water.
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This heat is eventually used to drive
an electric turbine generator by steam
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just outside the reactor.
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Water flow is critical
not only to create electricity,
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but also to guard against the most dreaded
type of reactor accident,
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the meltdown.
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If water flow stops because a pipe
carrying it breaks,
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or the pumps that push it fail,
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the uranium heats up very quickly
and melts.
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During a nuclear meltdown,
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radioactive vapors escape
into the reactor,
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and if the reactor fails to hold them,
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a steel and concrete containment building
is the last line of defense.
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But if the radioactive gas pressure
is too high,
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containment fails and the gasses
escape into the air,
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spreading as far
and wide as the wind blows.
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The radioactive fission products
in these vapors
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eventually decay into stable elements.
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While some decay in a few seconds,
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others take hundreds
of thousands of years.
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The greatest challenge
for a nuclear reactor
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is to safely contain these products
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and keep them from harming humans
or the environment.
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Containment doesn't stop mattering
once the fuel is used up.
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In fact, it becomes an even greater
storage problem.
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Every one to two years,
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some spent fuel is removed from reactors
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and stored in pools of water
that cool the waste
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and block its radioactive emissions.
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The irradiated fuel is a mix of uranium
that failed to fission,
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fission products,
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and plutonium, a radioactive material
not found in nature.
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This mix must be isolated from
the environment
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until it has all safely decayed.
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Many countries propose deep time storage
in tunnels drilled far underground,
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but none have been built,
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and there's great uncertainty about
their long-term security.
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How can a nation that has existed
for only a few hundred years
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plan to guard plutonium
through its radioactive half-life
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of 24,000 years?
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Today, many nuclear power plants
sit on their waste, instead,
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storing them indefinitely on site.
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Apart from radioactivity, there's an
even greater danger with spent fuel.
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Plutonium can sustain a chain reaction
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and can be mined from the waste
to make bombs.
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Storing spent fuel is thus not only
a safety risk for the environment,
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but also a security risk for nations.
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Who should be the watchmen to guard it?
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Visionary scientists from the early years
of the nuclear age
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pioneered how to reliably tap
the tremendous amount of energy
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inside an atom -
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as an explosive bomb
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and as a controlled power source
with incredible potential.
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But their successors have learned
humbling insights
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about the technology's not-so-utopian
industrial limits.
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Mining the subatomic realm makes for
complex, expensive, and risky engineering.
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