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Student
Zone: Fuel
Cell
Watch
GM's animated version of how
fuel cells work here!
Learn
more about Fuel Cells at GM's
GMAbility Web Site
 A
fuel cell is a device that uses
electrochemical energy conversion.
It uses hydrogen and oxygen,
and it makes useable electricity.
In this case, the energy is
used to power an electric motor
in a car. A fuel cell is made
up of three basic parts: the
anode, the cathode, and the
membrane in between them.
The anode is the negative side
of the fuel cell. This is the
side where the fuel is pumped
through. In this case, that
fuel is pure hydrogen. The grooves
in the anode wall distribute
the hydrogen evenly, so it can
produce the most energy.
The membrane separates the
two sides of the fuel cell and
keeps the gases apart. The membrane
is an electrolyte, which means
it blocks electrons from passing
through it. We'll cover more
about electrons in the next
section...
The cathode is the positive
side of the fuel cell. Oxygen
gets pumped through the grooves
in the cathode. This is the
side of the fuel cell that gets
rid of the waste water that's
produced.
You can think of the fuel cell
as a small room with a big screen
through the middle of it. Some
things can fit through the screen
and others can't. In the fuel
cell, those things are hydrogen
ions and electrons. That's what
creates the energy for our car's
motor.
Inside
the fuel cell
 Inside
the fuel cell, hydrogen molecules
are pumped through the anode.
The membrane is coated so only
positively charged ions can
pass through it. This means
the electron of the hydrogen
molecule is stripped off and
shot out the bottom of the fuel
cell. The energy of the electrons
coming and going is what creates
useable electricity
The cathode, along with the
oxygen molecules, attracts the
missing electrons back so they
can rejoin the hydrogen ions,
once again making a whole molecule.
In the right amounts, the hydrogen
and oxygen fuse to form a water
molecule (H2O).
Pure water and oxygen are the
only emissions that a fuel cell
produces. Unlike modern engines
that burn fossil fuels, vehicles
powered by fuel cells would
likely produce little or no
harmful emissions. There's a
problem though. Each fuel cell
produces only a fraction of
the energy needed to run a motor.
Stack
 Each
fuel cell only produces a bit
of the energy it takes to power
a motor. To produce a useable
amount of energy, a bunch of
fuel cells must be strung together.
This big stack of fuel cells
is, not surprisingly, called
a fuel cell stack.
The combined energy of the
fuel cells is more than enough
to power a car or truck. Also,
fuel cells don't get too hot,
even in a stack. All it would
take to power our vehicle is
a fuel cell stack about the
size of a suitcase.
Vehicles
 Fuel
cells can be used to power many
different kinds of vehicles.
Cars, vans, trucks, SUVs, and
even buses can be powered cleanly
and efficiently by fuel cells.
Whichever vehicle they're in,
fuel cells need to work together
with other components to put
that vehicle in motion.
The fuel cell stack is only
part of the whole system. The
fuel tank, electric motor, and
battery pack are the other crucial
parts of that system. Without
them, your cool fuel cell vehicle
isn't going anywhere! Point
to the different components
to see what role they play in
making our vehicle go.
 So
when are these vehicles going
to be available? General Motors
wants to make them as soon as
possible! GM has already spent
hundreds of millions of dollars
to develop fuel cell cars and
trucks and expects to produce
fuel cell vehicles by the end
of the decade.
So, that's about it! Fuel cells
are pretty complex, but now
you know what they are and how
they work. Maybe someday, you'll
be driving a clean, quiet, non-polluting
vehicle powered by fuel cells.
There's many things you can
do to help the environment.
Fuel cell vehicles are just
one way you can make a difference!
Watch
GM's animated version of how
fuel cells work here!
Learn
more about Fuel Cells at GM's
GMAbility Web Site
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