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Distilled Spirits and Fermented Beverages
Where Do Alcoholic Beverages Come
From?
Beer, wine, and distilled spirits are made from plant
materials
by Anne Marie
Helmenstine, Ph.D.
The alcohol that you can drink, called ethyl alcohol or
ethanol, is produced by fermenting
carbohydrates, such as sugars and starches.
Fermentation is an anaerobic process used by yeast to
convert sugars into energy.
Ethanol and carbon dioxide are waste products of the
reaction.
The reaction for the fermentation of glucose to produce
ethanol and carbon dioxide is:
C6H12O6 → 2C2H5OH +
2CO2
The fermented product (e.g., wine) can be used, or it can
be distilled to concentrate and purify the alcohol (e.g., vodka, tequila).
Where Does Alcohol Come From?
Just about any plant matter can be used to produce
alcohol.
Here are the source materials for several popular
alcoholic beverages:
· Ale: Fermented
from malt with hops
· Beer: Brewed
and fermented from malted cereal grain (e.g., barley), flavored with hops
· Bourbon: Whiskey
distilled from a mash of not less than 51 percent corn and aged in new charred
oak barrels for at least two years
· Brandy: Distilled
from wine or fermented fruit juice
· Cognac: Brandy
distilled from white wine from a specific region of France
· Gin: Distilled
or redistilled neutral grain spirits from
a variety of sources, flavored with juniper berries and other aromatics
· Rum: Distilled
from a sugarcane product such as molasses or sugarcane juice
· Sake: Produced
by a brewing process using rice
· Scotch: Whiskey
distilled in Scotland typically from malted barley
· Tequila: A
Mexican liquor distilled from blue agave
· Vodka: Distilled
from a mash of potatoes, rye, or wheat
· Whiskey: Distilled
from a mash of grain such as rye, corn, or barley
· Wine: Fermented
juice of fresh grapes and/or other fruit (e.g., blackberry wine)
Any material that contains sugars or starches could be
used as a starting point for fermentation to produce alcohol.
Difference Between Distilled Spirits
and Fermented Beverages
Although all alcohol is produced from fermentation, some
beverages are further purified via
distillation.
Fermented beverages are consumed as is, possibly after
filtration to remove sediments.
The fermentation of grain (beer) and grapes (wine) can
produce other byproducts, including toxic
methanol, but they are present in low enough amounts that they don't
typically cause health problems.
Distilled beverages, called "spirits," start out
as fermented beverages, but then distillation occurs. The liquid is heated at a
carefully controlled temperature to separate components of the mixture based on
their boiling points.
The portion that boils at a lower temperature than ethanol
is called the "heads."
Methanol is one of the components removed with the
"heads."
The ethanol boils next, to be recovered and bottled.
At a higher temperature, the "tails" boil. Some
of the "tails" may be included in the final product because these
chemicals add unique flavor.
Sometimes additional ingredients (coloring and flavoring)
are added to distilled spirits to make the final product.
Fermented beverages usually have a lower alcohol content
than spirits.
A typical spirit
is 80 proof, which is 40 percent alcohol by volume.
Distillation may be considered a method of improving the
purity of alcohol and of concentrating it.
However, because water and ethanol form an
azeotrope, 100 percent pure alcohol can't be obtained by simple distillation.
The highest purity of ethanol that can be obtained by
distillation is called absolute alcohol.
Anne Marie Helmenstine, Ph.D.
Ph.D. in biomedical sciences from the University of
Tennessee at Knoxville - Oak Ridge National Laboratory.
Science educator with experience teaching chemistry,
biology, astronomy, and physics at the high school, college, and graduate
levels.
ThoughtCo and About Education chemistry expert since 2001.
Widely-published graphic artist, responsible for printable
periodic tables and other illustrations used in science.
Experience
Anne Helmenstine, Ph.D. has covered chemistry for
ThoughtCo and About Education since 2001, and other sciences since 2013. She
taught chemistry, biology, astronomy, and physics at the high school, college,
and graduate levels. She has worked as a research scientist and also
abstracting and indexing diverse scientific literature for the Department of
Energy.
In addition to her work as a science writer, Dr.
Helmenstine currently serves as a scientific consultant, specializing in
problems requiring an interdisciplinary approach. Previously, she worked
as a research scientist and college professor.
Education
Dr. Helmenstine holds a Ph.D. in biomedical sciences from
the University of Tennessee at Knoxville and a B.A. in physics and
mathematics with a minor in chemistry from Hastings College. In her
doctoral work, Dr. Helmenstine developed ultra-sensitive chemical detection and
medical diagnostic tests.
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