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Fractional Distillation
Definition and Examples
Fractional
distillation is used to purify chemicals and separate mixtures
Fractional distillation is a process by which components in
a chemical mixture are
separated into different parts (called fractions) according to their
different boiling points.
Fractional distillation is used to purify chemicals and to
separate mixtures to obtain their components.
The technique is used in labs and in industry, where the
process has vast commercial significance.
The chemical and petroleum industry rely on fractional
distillation.
How It Works
Vapors from
a boiling solution
are passed along a tall column, called a fractionating column.
The column is packed with plastic or glass beads to improve the
separation by providing more surface area for condensation and evaporation.
The temperature of the column gradually decreases along its
length.
Components with a higher boiling point condense on the column
and return to the solution;
components with a lower boiling point (more volatile)
pass through the column and are collected near the top.
Theoretically, having more beads or plates improves the
separation, but adding plates also increases the time and energy required to
complete a distillation.
Crude Oil
Gasoline and many other chemicals are produced from crude oil
using fractional distillation.
Crude oil is heated until it evaporates. Different fractions
condense at certain temperature ranges.
The chemicals in a certain fraction are hydrocarbons with
comparable numbers of carbon atoms.
From hot to cold (largest hydrocarbons to smallest), the
fractions might be residue (used to make bitumen), fuel oil, diesel, kerosene,
naphtha, gasoline, and refinery gas.
Ethanol
Fractional distillation cannot completely separate the
components of a mixture of ethanol and water despite the different boiling
points of the two chemicals.
Water boils at 100 degrees Celcius while ethanol boils
at 78.4 degrees Celcius.
If an alcohol-water mixture is boiled, the ethanol will
concentrate in the vapor, but only up to a point, because alcohol and water
form an azeotrope.
Once the mixture reaches the point where it consists of 96%
ethanol and 4% water, the mixture is more volatile (boils at 78.2 degrees
Celcius) than the ethanol.
Simple vs. Fractional
Distillation
Fractional distillation differs from simple distillation because
the fractionating column naturally separates compounds based on their boiling
points.
It's possible to isolate chemicals using simple distillation,
but it requires careful control of the temperature because only one
"fraction" can be isolated at a time.
How do you know whether to use simple distillation or fractional
distillation to separate a mixture?
Simple distillation is faster, simpler, and uses less energy,
but it's really only useful when there is a large difference between the
boiling points of the desired fractions (more than 70 degrees Celcius).
If there is only a small temperature difference between the
fractions, fractional distillation is your best bet.
Here's a breakdown of the differences between simple and
fractional distillation:
|
Simple Distillation
|
Fractional Distillation
|
|
|
Uses
|
Separating relatively pure liquids that have
large boiling point differences. Also separating liquids from solid
impurities.
|
Isolating components of complex mixtures with
small boiling point differences.
|
|
Advantages
|
· Faster
· Requires less energy input
· Simpler, less expensive equipment
|
· Better separation of liquids
· Better at purifying liquids
containing many different components
|
|
Disadvantages
|
· Only useful for relatively pure
liquids
· Requires a large boiling point
difference between components
· Doesn't separate fractions as
cleanly
|
· Slower
· Requires more energy
· More complicated and expensive
setup
|
Anne Marie Helmenstine, Ph.D.
Chemistry
Expert
Education
Ph.D.,
Biomedical Sciences, University of Tennessee at Knoxville
B.A.,
Physics and Mathematics, Hastings College
Introduction
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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