What about Cold Snaps & Droughts?

From: Spudboy100@aol.com
Date: Fri Jul 07 2000 - 14:12:32 MDT


(http://www.purdue.edu)
 
 
Date: Posted 7/7/2000

Plant Oils Will Replace Petroleum In Coming Years

WEST LAFAYETTE, Ind. – When Bernie Tao talks to farmers, he tells them that
although they may not realize it, they're oil barons.
The oil they control isn't below the ground, however. It's growing on top,
contained in the corn and soybean plants in their fields.

It may be green gold instead of black gold, but Tao predicts that over the
next several decades, plant oil will become just as essential to everyday
life as fossil fuels are today.

"In the 1970s we got our first taste of what it was like when the fuel begins
to go away," Tao says. "Three decades later we're beginning to see the start
of another large petroleum crunch. And part of that is consumer demand, which
has greatly increased. Consumers like this stuff!"

Anyone standing at a gasoline pump this summer watching the digits scroll by
may wonder whether prices are going to go down. Over the long-term, Tao
points out, they won't.

"One-time-use resources, which are also known as non-renewable resources,
such as petroleum, are a problem because you eventually run out," he says.
"Eventually we will have to switch from using non-renewable resources to
using renewable resources."

But Tao and others say that the potential is already there for common field
crops, such as corn and soybeans, to replace petroleum oil as the driver of
our economy within a few decades.

"With a biobased economy, you can produce new raw materials every year, so
you don't have this type of problem," he says.

Although most biofuel discussions center on ethanol, that's not the only
option, Tao says. "The obvious substitutes for petroleum are plant oils and
fats because they have the same base chemical structure as petroleum," he
says.

Ethanol is a type of alcohol made by fermenting plant material. Although it
makes a good fuel, it has drawbacks, Tao says. "The economics of ethanol
production are improving as the technology improves," he says. "But ethanol
has two problems: It doesn't explode like gasoline, and it can absorb water,
which can cause oxidation, rust and corrosion."

By manipulating plant oils, Tao says it may be possible to create a petroleum
substitute.

Fossil fuels were plants once, millions of years ago, and so it makes sense
that both the fossil fuels we use today and oils produced by plants are
chemically similar. Both are made up of chains of chemicals known as
hydrocarbons.

A hydrocarbon is a carbon atom surrounded by hydrogen atoms. Methane, the
simplest hydrocarbon, is a single carbon atom surrounded by four hydrogen
atoms. Gasoline varies from seven to 10 hydrocarbons long. "In fact, the word
'octane' means eight carbons in a chain," Tao says.

The shorter the chain of carbons, the more explosive the fuel is, and the
more power it offers an engine.

The problem is that plant oils are 14 to 18 carbons in length. "Diesel fuel
is 15 carbons long, which is close to the same size as plant oils. That is
why the first applications are as biodiesel fuel," Tao says. "You couldn't
burn vegetable oils in today's gasoline engines because their hydrocarbon
chains are too long."

Tao says the possibility exists to make a type of plant gasoline from plant
oils that have shorter carbon chains.

"Not surprisingly, shorter-chain vegetable oils do exist," he says. "Coconut
oil, tropical oils and similar plant oils might make a reasonable
gasoline-like fuel. It might also be possible to transgenetically modify
crops to produce plants with those lengths of fatty acids."

Tao says future scientists could genetically modify corn and soybeans – which
are already two of the highest oil-yielding plants – to produce plant oils
that could be converted into a type of gasoline. "Could you produce a fuel by
combining vegetable oil and ethanol? Actually, the combination of those would
seem to fit nicely into today's engine structures," he says.

Fuels aren't the only uses of petroleum, Tao says. "If you look at where
petroleum is used, the largest number of applications is in inks, paints and
coatings."

Chemists have known for decades how to alter the hydrocarbon chains in
petroleum through processes known as cracking and reforming. Shortened
hydrocarbon chains are used as solvent bases for paints and chemicals. Longer
chains – as many as 200 hydrocarbons – are known as plastics. But these
products also can be made from plants.

According to Tao, before World War II, most paints, coatings and adhesives
were made from vegetable oils or other plant products. "In the very near
future, some of these products will go back to using vegetable oils instead
of petroleum," Tao says. "There are latex paints that will be appearing on
the market very soon."

This isn't a new idea: Henry Ford famously made everything from clothing to
automobile bumpers from vegetable oils just to show that it could be done.
And this past January, Dow Chemical Co. and Cargill Inc. announced that they
will begin production of new plastics made from corn.

Despite this, most products are still made from petroleum instead of plants.
Tao says a look around will show thousands of products that were once made
from plants that are now made from petroleum products. "Candles, for one," he
says, holding up a blueberry-scented candle made from soybean oil. "It's only
been in the last 60 to 70 years that paraffin wax candles were common."

As part of an annual contest sponsored by the Indiana Soybean Board, students
at Purdue have created a variety of products that replace petroleum products
with soybean oil, such as candles, crayons, ski wax and fire starters.

"There isn't a huge demand for scientists to develop soybean oil birthday
candles or crayons," he admits. "But these products are safe for the students
to work with. And once they know how to work with the plant oils, they'll be
better positioned to help create other new products over the next 40 years.

"As we change from a black gold economy to a green gold economy, we'll need
engineers who know how to make products out of plant materials. That's why we
work with these students to make these types of products now."

The need for petroleum is never going to go away, but the question is, how
are we going to use it, Tao says. "Plastics are made from petroleum chains
200 carbons long," he says, tapping the case of his computer monitor. "We'll
be saving petroleum to make things that we can't make in any other way."

Editor's Note: The original news release can be found at
http://news.uns.purdue.edu/UNS/html4ever/0007.Tao.biofuels.html



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