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Immense quantities of natural
gas can be found in icy gas-hydrate deposits,
but getting it out is a great challenge.
How big is one
trillion cubic feet (tcf)? Even
though this is an immense volume, it is
fairly easy to imagine its size. Here is
one way. Go to a local soccer field or football
field and stand at one end, near the goal.
Look down the field at the other end, and
imagine how long a line of about 30 such
fields would be, if laid end to end. (This
distance is about 3 km (about 1.9 mi), or
about 3500 walking steps.) Now turn 90 degreed
to your right, and imagine the same distance
in that direction. Finally, look straight
up, and imagine a vertical line into the
sky extending that same distance. You have
just looked along the three edges of a cube
that would enclose about one trillion cubic
feet of space! On average, the people of
the world consume about seven tcf of natural
gas each month! |
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The people of the world use natural
gas (methane,
CH4), one of the fossil
fuels, to provide 25% of the everyday energy
they use. At present, this amounts to burning
about 2.4 trillion cubic meters (85 trillion cubic
feet) of natural
gas each year. Unfortunately, we have found
enough natural
gas reserves in the world to last only another
60 years at this rate of consumption. This means
that the grandchildren of today's high school
students might see the end of natural
gas usage, as we know it.
There is some good news to this bleak outlook.
There happens to be another world resource of
natural
gas sufficient to provide 100% of our current
energy needs for as much as 2000 years into the
future. That takes care of the grandchildren!
Unfortunately, we have not yet found a way to
extract this natural
gas economically. But we are working on it.
These particular natural
gas reserves, called gas hydrates, consist
of small cage-like structures of ice that contain
within them methane
(natural
gas) molecules. The basic hydrate unit is
a hollow crystal of water molecules with a single
molecule of natural
gas trapped inside. The crystals fit together
in a tight latticework. The few times gas hydrates
have been seen intact, they looked like ice. But
they don't act like ice: when lit with a match,
they burn!
This is a particularly "hot" topic
for the world of the 21st century. The vast gas
hydrates estimates worldwide have led several
countries to start research and exploration programs
to understand hydrate behavior, identify accumulations,
and develop possible recovery methods. Japan,
India, USA, Canada, Norway, and Russia are among
the countries with ongoing gas hydrate investigations.
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A gas hydrate
crystal structure. Each unit cell of this
gas hydrate consists of 46 water molecules
that form two small dodecahedral voids and
six large tetradecahedral voids. Gas hydrates
can only hold small gas molecules such as
methane
and ethane. At conditions of standard temperature
and pressure (STP), one volume of saturated
methane
hydrate will contain as much as 189 volumes
of methane
gas. This large gas-storage capacity of
gas hydrates may represent an important
source of natural
gas. |
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