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0-381 -99624-7 RB
Why
The Reason
Series
PETROLEUM gas, oil and asphalt Adler
Irving Illustrated
by Peggy Adler
The petroleum that
take out of the
the sea took nature
produce.
millions of years to
used
we
and from under
earth
hundred years. And
it
hundred more years
to use
We burn
It
will
take only one it
all
use petroleum for energy
it
has been
large amounts for only about a
in
as
change
it
oil,
to
gas or gasoline.
make many
up.
when we
We
also
different things,
from paint to explosives, from synthetic fibers to antifreeze. This
how we we split And we
came
book
tells
how
and and get it out. It tells how petroleum, change it and use it. learn about the two most impor-
petroleum
find
to
be
in
the ground,
it
tant problems arising from our increasing
use of petroleum: pollution and a rapidly diminishing supply of In
Irving sity
this vital
product.
and understandable language, Adler shows us the present neces-
clear
of conserving the petroleum
still
avail-
able and the potential sources of
much-needed product for the future.
this
CENTENNIAL SCHOOL LIBRARY SCIO.
OREGON
THE REASON WHY SERIES
PETROLEUM gas, oil and asphalt
IRVING illustrated
ADLER
by Pegsy Adler
The John Day Company
•
New York
THE REASON WHY SERIES AIR-Reviscd
LEARNING ABOUT STEEL: THROUGH THE STORY OF A NAIL MACHINES
Edition, 1972
ATOMIC ENERGY ATOMS AND MOLECULES THE CALENDAR COAL-Revised
MAGNETS NUMBERS OLD AND NEW
Edition, 1974
NUMERALS: NEW DRESSES FOR OLD NUMBERS OCEANS
COMMUNICATION DIRECTIONS AND ANGLES THE EARTH'S CRUST ENERGY EVOLUTION
RIVERS SETS SHADOWS-Revised Edition, 1968
FIBERS-Updated Edition, 1972
HEAT AND
ITS
USES HEAT,
Revised Edition of
STORMS TASTE,
1973
TOUCH AND SMELL
THINGS THAT SPIN: FROM TOPS TO ATOMS TREE PRODUCTS WHY? A BOOK OF REASONS
HOUSES INSECTS AND PLANTS INTEGERS: POSITIVE
AND NEGATIVE
WHY AND HOW?
IRRIGATION: CHANGING
A SECOND BOOK OF REASONS YOUR EARS YOUR EYES
DESERT INTO GARDEN
LANGUAGE AND MAN
Copyright
©
1975 by Irving Adler
All rights reserved. Except for use in a review, the reproduction or utilization of
work
this
known
in
any form or by any
electronic,
mechanical, or other means,
or hereafter invented, including xerography, photocopying,
now
and recording,
in any information storage and retrieval system is forbidden without the written permission of the publisher. Published simultaneously in Canada by Fitzhenry 6Whiteside Limited, Toronto.
and
Manufactured
in the
United States of America
Library of Congress Cataloging in Publication Data Adler, Irving. Petroleum. (His The Reason why books) Includes index.
SUMMARY:
Discusses the different kinds of
oil,
how
recovered, their uses, and the problems of pollution, shortage.
Petroleum— Juvenile
1. I.
Alder, Peggy,
ill.
literature. [1.
TN870.A247 1975 ISBN 0-381-99624-7RB 10
Petroleum!
II. Title.
987654321
553'.28
75-2431
oil
they are found and conservation,
and
oil
Contents
4 Petroleum Oil in the Ground, and How It Got There Early Discovery and Uses 8 The Kerosine Lamp and the Automobile Other Uses of Petroleum Underground Pools of Oil Oil in the United States
The
Oil of the
World
Locating Oil Drilling for Oil
14 16
18
20 on Land
22 2A
Bringing Oil to the Surface
What Is in Petroleum
26
28
32
Transporting Gas, Oil and Oil Products
Petrochemicals
36
Pollution Problems
40
How Long Will Oil Last? The World's Energy Oil Conservation
Oil for the Future
Index
47
10
12
Drilling for Oil at Sea
Refining Oil
6
43 44 45
42
34
Petroleum Petroleum comes from the ground.
found
in
many
It is
parts of the world.
We drill wells for it on land and under the sea.
We
burn
change
it
it
to
produce energy.
chemically to
make such
We
differ-
ent things as paint, phonograph records, explosives, fibers, antifreeze
and food con-
tainers. It
took millions of years to
leum.
It
make
petro-
has been used in large amounts
for only about
one hundred years.
It will
J.S.S.R
take only a hundred years all
to use
it
up.
This book
and
its
uses,
related to
came find it
more
it
to
tells
and describes some problems
its
be
the story of petroleum
use. It tells
how
and how we
in the ground,
and get
and change
it it
petroleum
how we split And it tells of
out. It tells
and use
it.
two important problems
that arise from
the use of petroleum: Using petroleum dirties the air
we
breathe, so
we have
a
cleanup problem; and petroleum will soon
be used up, so
we have
finding something to take
the problem of its
place.
Oil in the Ground,
and
How It Got There
The word petroleum means rock
oil. It
comes from
two Latin words, petra (rock) and oleum refers to oil
and
oily substances that are
ground. Petroleum
may be
or a liquid, called crude
oil,
asphalt.
6
(oil),
found
and
in the
a gas, called natural gas, or a solid substance, called
Asphalt
found on the surface of the earth in some
is
Lake
places, in asphalt lakes like Pitch
West have
Hancock Park near
Indies, or the asphalt pit in
Los Angeles, California. Crude also
oil
and natural gas
been found occasionally
where they seep or flow out most crude
oil
in Trinidad,
at
the surface,
of the ground.
However,
and natural gas are deep under the
ground, and wells have to be drilled to bring them to the surface.
Petroleum was formed millions of years ago from the bodies of small animals and plants that lived and died
The bodies fell to the sea floor, where they were covered by mud and sand carried to the sea by ancient rivers. The mud and sand, pressed by their in ancient seas.
own weight and by chemicals
the weight of the sea, and cemented
in the seawater,
rocks (rocks with shale, sandstone
in the rock,
leum.
many
hardened to form porous
small spaces in them), like
and limestone. The bodies, trapped
decayed only partly and became petro-
Many layers
of these porous rocks
one on top of the other. Sandwiched
were
also
earth's surface folded these layers
of
among them
nonporous rocks, formed by the cooling of
lava that flowed out of volcanoes.
many
in
were formed,
them out
of the sea.
Movements of the of rock and lifted
Early Discovery and Uses
People have known about petroleum and some of
its
uses since ancient times. As far back as six thousand
years ago, asphalt and
were used
now known
located in the region great wall of Babylon join the bricks to
oil
was
in
Mesopotamia,
as Iraq.
built, asphalt
When
the
was used
to
each other. Asphalt was also used to
seal the joints of ships.
The
Bible story of the great
Noah sealed the joints of the ark with pitch, another name for asphalt. In Egypt, one use for asphalt was for embalming mummies. The fact that oil can burn was discovered early. The ancient Hebrews used oil to start the fire on the altar in their temple. The Romans used oil lamps to provide light. The Greeks even used oil in warfare, to set enemy ships on fire. The ancient Chinese went far beyond merely using flood says that
petroleum that they found on the surface of the ground.
Over 2,200 years ago they as 3,000 feet to find
bronze, the
The
bits
first
it.
drilled for
Their
drill bits
hard metal of which
were mounted on rods
8
oil,
of
going as deep
were made
tools
of
were made.
bamboo.
The Kerosine Lamp and the Automobile Large-scale production and use of crude
oil
began
in
the middle of the nineteenth century, following the
invention of the kerosine lamp. In the United States
before that time, light was produced by burning ani-
mal
fat,
such as tallow from which candles were made,
The kerosine lamp, invented in 1854, created a demand for crude oil, from which kerosine is made. The first oil well drilled to meet this demand was a 69-foot well, drilled in 1859, or whale oil
burned
in lamps.
in Titusville, Pennsylvania.
10
Crude
oil
production was given an even greater
boost by the invention of the automobile, powered by
an engine that burns gasoline, another crude uct.
The
first
oil
prod-
"horseless carriage" with a gasoline en-
gine was built in 1892 by Frank and Charles Duryea.
In 1908 Henry Ford began to produce the Model T, the
first
automobile that was cheap enough for
people to buy
it.
The need
for gasoline
and
many
for other
petroleum products described on the next page has
grown
since then,
and world production
of crude oil
has also grown very rapidly to meet this need. In 1911,
world production of crude (A barrel
is
42 United States
production of crude rels,
oil
or sixty times as
oil
was 300 million
gallons.) In 1972,
was 18 thousand
much.
11
barrels.
world
million bar-
the gas for cooking; (2) the fuel oil that heats the home and (3) powers the electric generator; (4) the gasoline and oil for the car, truck and tractor; (5) the asphalt of the pavement; and (6) the rubber of the tires, all come from crude oil. (1)
Other Uses of Petroleum
The
gasoline engine, originally developed for the auto-
mobile,
now
also supplies
power
for other
machines
such as trucks, airplanes, buses and farm machinery.
The
diesel engine, using diesel
oil,
powers trucks and
locomotives. This has further increased the for crude
oil,
demand
from which gasoline and diesel
made. 12
oil
are
After 1918, trucks used
when
number
the
began increasing
sary to build
paved roads
became important
for
rapidly,
them
as a material
pavement could be made. At taken from asphalt is
made from crude
pits.
of automobiles
became
it
and
neces-
to ride on. Asphalt
from which a smooth the asphalt was
first,
Now most
of the asphalt used
oil.
In automobiles, and in other machines that have
moving
parts,
it is
necessary to
against each other.
purpose are also
The
oil. It is
and
to supply
power
the generators in
icals,
the
known
oil
for the
many
oil.
produced from crude
used to heat homes,
fuel
oil is also
lubricating oils used for this
made from crude
Another important
the parts that rub
oil
and
offices
oil is
factories,
steam turbines that turn
electric
power
plants.
Crude
raw material from which many chem-
as petrochemicals, are
made. (See pages
36-39.)
Natural gas, found in some heating and cooking, and
is
oil wells, is
also
used in home
used in industry.
In 1972 the energy consumed in the United States
was about 70,000 million million Units.
(One
British
Thermal Unit
British is
the
Thermal
amount
of
heat needed to raise the temperature of one pound of
water one degree on the Fahrenheit
scale.) Oil
and
natural gas supplied over three-fourths of this energy.
13
anticline
L;
stratigraphic trap
fault
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^^^ife Three Underground Conditions Which Form
1
"^
a Trap for Oil
nonporous
Underground Pooh of Oil Oil
is
lighter than water.
For
this reason,
ground water are together in porous
When
on top of the water. water
rises,
the
rock above the
oil rises oil,
with
the
oil
when
oil
and
rocks, the oil floats
the level of the ground it.
If
there
is
only porous
can keep rising until
it
reaches the surface of the ground. This has happened in
some
places.
In most places where there rising oil reaches a layer of
reaches the surface.
rock that
is
sides
oil
not porous, so
Under some all
The
it
is oil
nonporous rock before
remains under
rock, so
14
it
cannot seep through the
conditions, the oil
by nonporous
in the ground, the
it
is
also
this layer.
surrounded on
cannot flow sideways.
rock
Then, unable to is
anymore
rise
or flow sideways, the oil
trapped in an underground pool.
Three underground conditions which can form a
shown
are
in the
drawings on page
14. In
trap for
oil
the
called an anticline, the layers of rock are folded
to
first,
form a bump. The nonporous layer above the
surrounds there
is
it
on
all sides.
In the second, called a fault,
a crack in the ground, and the rock on one side
of the crack has slid
upward along
the crack.
of nonporous rock nearest to the oil
One
part
is
seeping higher.
The
other part
two
parts.
stops
it
above the
one above the
gether to trap
in a
it
Natural gas ural gas in the
is
oil
layer
separated into
and
stops
alongside the
it
from
and
oil,
two
layers of
and one below
lighter than
it,
Where
oil.
come
there
ground together with the oil,
to-
is
water pushes up against the
and builds up a back
oil is
nat-
the gas
trapped under non-
trapped above the
sure from the rising water
oil,
is
just as the oil tends to rise
above the water. Where the porous rock, the gas
nonporous
dead end.
tends to rise above the
is
is
oil,
is
The
from flowing sideways. In the third condition,
called a stratigraphic trap, rock,
oil also
oil
and
oil
while the
from below. The presoil
compresses the gas
pressure. For this reason there
a high pressure in the gas that
oil.
15
is
trapped above the
where
oil is
produced now
where more
may
oi
be found
Oil in the United States
After the
first oil
well was drilled in Pennsylvania, in
1859, the hunt for States. Oil
oil
was found
spread throughout the United
in
Colorado in 1862, in Texas in
West Virginia and California in 1875 and in Ohio and Illinois in 1880. During the first part of the twentieth century, oil was discovered in Oklahoma (1905), Louisiana (1906) and Kansas (1916). California was the leading oil producer from 1903 to 1906. From 1907 to 1928 it was sometimes displaced as leader by Oklahoma. In 1928 Texas moved 1866, in
ahead, and has remained the leading oil-producing state ever since.
16
An
important
that there
is oil
new
discovery was made, in 1938,
under the continental
coast of the United States. drilled
was
in the
coast of Louisiana. coast
The
first
shelf just off the
offshore oil well
Gulf of Mexico, one mile
By
1971, offshore
oil
and natural gas used
the
from the Gulf
and the California coast supplied over
of the crude oil
off
one-sixth
in the
United
States.
Since 1968, Alaska has joined the ing states.
The
oil field
It
million barrels of crude
is
the largest in the
contains about 10 thousand oil
and about 26 million
lion cubic feet of natural gas. it is
of oil-produc-
discovered then near Prudhoe
Bay, 390 miles north of Fairbanks,
Western Hemisphere.
list
Great as
this
mil-
supply
is,
equal to only about what the United States con-
sumes
in
two
years. In 1972, the
sumed 5 thousand
United States con-
million barrels of oil
million million cubic feet of natural gas.
and about 23
The Oil
of the
Oil fields have been found in
Most
One
of the
of
underground
them
dering on
is
World
many parts
oil is in
of the world.
three oil-rich regions.
the Caribbean Sea and countries bor-
such as the United States, Mexico and
it,
Venezuela. Another
is
the Middle East, including the
Arabian countries and southern Russia. The third
is
North Africa. In 1972, the total
amount
known
of oil
ground was about 560 thousand million
to
be under-
barrels.
Middle East had about 330 thousand million
more than
or
half of
it.
The United
The
barrels,
had 36 thou-
States
sand million barrels, or about one-sixteenth of the
world supply.
Although the United States doesn't have the largest oil
supply in the ground,
it
produces and uses more
than any other country. In 1972
it
oil
produced 3 A thouY
sand million barrels. The next largest producers were the U.S.S.R., producing almost 3 thousand million barrels,
and Saudi Arabia, producing
barrels.
However,
produced twice
as
amount produced is
all
the Arabian countries together
much
as the
in a year
shown by the black
2!4 thousand million
United
States.
by each country
semicircles in the
19.
18
The
or region
map on page
production
World
Oil
Supply and Demand
^) consumption
J^P SOUTHEAST
EAST SOUTH AFRICA
AUSTRALIA
Oil
is
not always used where
amount used
it is
in a year in each country or region
shown by the white
semicircles in the
dle East uses only a small part of the
and
sells
very
the
little
rest.
is
map. The Midoil it
produces,
Japan and Western Europe produce
of the oil they use.
the Middle East.
The United
They buy most
3 /4 thousand million barrels. 2
of
it
from
States used about 5 thou-
sand million barrels in 1972, although
IV2
produced. The
It
had
it
produced only
to
buy the other
thousand million barrels from other countries.
19
Q
ASIA
V
Locating Oil
As the up, is
oil in
new
known
oil fields
pumped
oil fields is
have
to
out and used
be found. The search
for oil
guided by past experience. Past experience shows that
of rock
oil is
formed of mud, sand or
ancient seas. This type of rock rock. So the
geological
first
maps
found only in layers
shells piled is
up under
called sedimentary
step in a search for oil to locate a region
is
to
examine
where the under-
ground rocks are sedimentary. Past experience shows that
found
most
likely to
be
in sandstone or limestone. So, after a region of
sedimentary rock for oil
oil is
is
is
chosen, the second step in a search
to study the
ground
there, to look for clues
Using an Explosion to Locate Oil
20
that
show
that there
sandstone or limestone under-
is
ground. Past experience shows that traps of the kind described third step
is
may be an
usually found in
on pages 14 and
to look for signs
oil
oil is
15.
So the
on the surface that there
trap underground.
The fourth step is to try to "see" what is underground before trying to
a well. This
drill
from place
weaker
done with the help
With the magnetometer, the
of certain instruments.
geologist measures
is
how the earth's magnetism
to place
changes
on the ground. The magnetism
is
in sedimentary rocks than in other rocks.
An-
how
the
other instrument, the gravimeter, measures pull of gravity changes
from place to place on the
ground. The pull from sedimentary rocks
is
weaker
than from other rocks. The geologist can also "see"
how the rocks underground are arranged in layers, and can "see"
folds, faults
and
crossings in the layers
by
and then
re-
setting off small explosions in the ground,
cording the vibrations of the ground with a seismograph.
These four steps
The
fifth step,
there,
is
tell
which
the geologist where
tells for
to drill a well. Oil
is
sure whether
oil
may
oil is really
actually found in only one
well out of ten. Commercially usable amounts of are found in only one well out of
21
be.
fifty.
oil
Drilling for Oil
Most
drilling for oil
on Land
done by rotary
is
the bit that cuts into the rock
is
drilling in
which
rotated or turned.
dril1 bit
avf?av^i
,
teeth
The
bit
is
a short section of pipe with two or three
cones mounted at the end.
The cones have
them. As the bit turns, the cones
roll
teeth on
on the ground,
and the teeth bite into the rock and grind it into powder.
The bit is screwed into the end of a long drill pipe made up of sections of pipe that are joined by being screwed into a coupling. As the hole made by the drill grows deeper, new sections are joined to the
The top
of the drill pipe
shaped pipe called a
kelly.
is
drill pipe.
screwed into a square-
The
kelly passes through a
square hole in a turntable. As the turntable
by an engine, pipe, since
it
it is
makes the
Then
kelly turn.
is
turned
the
drill
attached to the kelly, also turns, and
the bit bites into the ground. As the into the hole, the kelly slides
down
drill
pipe descends
in the square hole
of the turntable.
While the
pumped
drilling goes on, a special
mud
is
The mud goes down the the bottom of the well. Then
into the drill pipe.
inside of the pipe to
kind of
22
between the outside
rises
it
of the
pipe and the rock wall of the well.
The mud
several purposes:
serves
the
It lubricates
and
drill bit
raises to the top the
it;
it
up
rock;
ground-
keeps ground water from
it
seeping into the well; and
weak
over
cools
it
plasters
spots in the wall of the
well.
At some
well, the wall
may need
port than the
mud
Then
deepening
levels of the
stronger sup-
alone can give
a wide pipe, called a casing,
it.
is
lowered into the well and cemented into place.
The
drill
pipe
then low-
is
ered into the casing to continue the drilling.
A face.
casing
Above
is
put in at the
also
this casing is a series of
They
valves that can be closed. called blowout preventers,
closed
if
are
and are
necessary to stop an uncon-
trolled flow of oil
from the
After the drilling ings are
sur-
cemented
for the well.
is
well.
done, more cas-
in place as a lining
A
Rotary Type Drilling Rig
Centennial school library SCIO. OREGON
Drilling for Oil at Sea
Offshore drilling
is
done from a platform, held in place
above the spot on the sea
floor
The platform may be
drilled.
ing on the sea
floor, or it
where the well
is
to
be
the top of a tower stand-
may be
the surface of a ship
held in place by anchors and cables, and steadied by propellers.
Some towers
are built with a platform at one
end
The tower, lying on its side, is towed to the drilling site. Then the barge end is made to sink to the sea floor. The platform end is supported at the surface by the rest of the tower strucand a barge
ture below
Some raised
at the other end.
it.
and lowered.
raised position, legs are
At that
made with legs that can be The platform, with legs in the
platforms are
is
towed
to the drilling site.
There the
lowered until they
rest
on the sea
offshore drilling
was
possible only in water
first,
was
less
equipment,
floor.
than 300 feet deep. Now, with improved
it is
possible to drill in water that
than a thousand feet deep.
24
is
more
A
Drilling Platform
A
Drilling Rig in
Being
Use
in
Towed
the North Sea
25
Giant
Pump
Out
Pumping Ground
for
of the
Oil
Bringing Oil to the Surface
The bottom oil
of an oil well
that surrounds
it
the casing and even
is
by the some
separated from the pool of casing, the
casing.
One way
of doing this
a special instrument that casing,
is
necessary to open
oil
can flow into the
to
lower into the well
fires steel bullets
cement and surrounding
once they
is
rock. It
up passages through which the
cement around
rock.
The
start flowing into the well, are
the top in tubing that
is
through the oil
and
gas,
brought to
lowered into the casing.
In a well that has natural gas as well as
some gas dissolved outside the
when
is
under high
the valves in the tubing are
open, the gas pressure forces the
oil
up and
out, the
gas pressure forces soda out of a soda bottle.
There too,
is
and there may be some
oil,
In either case, the gas
it.
pressure. Then,
way
there
but trapped and compressed in the
oil
space above
in the
oil,
is
up the
is
usually also water under the
under high pressure, and
is
oil.
The
water,
able to push the
oil
tubing.
After a well has been flowing for a long time, the pressure of the gas or water
down the
or stops.
oil to
falls,
Then pumps have
and the flow slows to
be used
to bring
the surface.
^^well
compressed gas
water
dissolved gas
Soda
Underground
Bottle
27
Oil Pool
What Is in Petroleum Petroleum
is
a mixture of
many
different chemical
compounds. Some of the compounds, called hydrocarbons, contain only hydrogen
and carbon. Others
contain, in addition, other elements such as oxygen,
nitrogen or sulfur.
made up of units called moleEach molecule is made up of atoms. In a hydro-
Each compound cules.
is
carbon molecule there are only hydrogen atoms and carbon atoms joined together by bonds.
atom has one or more hands with which
hand
of another
atom
can form four bonds.
to
A
It is as if it
A
form a bond.
each
can grasp a
carbon atom
hydrogen atom can form only
one bond. In the diagrams of molecules shown on pages 29 and 31, for a
C
stands for a carbon atom,
hydrogen atom and a
H stands
straight line stands for a
bond. In some hydrocarbon molecules found in petroleum, the carbon atoms are joined to each other in a straight chain, like people in a line holding hands.
Each carbon
atom, except those at the end of the chain,
two other carbon atoms, one on each carbon atom at the end of the chain
is
side of is
joined to it.
Each
joined to only
one other carbon atom. In addition, each carbon atom is
joined to enough hydrogen atoms to use 28
up the four
The
First
Four Paraffins
H methane
H-C-H
H H H 1
ethane
H-C C -H
HH 1
1
HHH propane
H
C-C C-H 1
1
butane
1
H H H HHH H HCC-C-C-H H HH H 29
bonds
atom
it
can make. Where there
in the molecule,
it
is
only one carbon
is
joined to four hydrogen
atoms. These straight-chain molecules are called par-
The four paraffins with the fewest carbon atoms per molecule—methane, ethane, propane and butaneare shown in the diagram on page 29. They are found in natural gas. The paraffin that has eight carbon atoms affins.
per molecule
is
called octane.
Some hydrocarbon molecules have two straight chains joined to each other to
chain.
An example
shown on page
or
more
form a branched
of a branched-chain molecule
31. Notice that, like butane,
it
has four
carbon atoms and ten hydrogen atoms, but in molecule they are arranged differently. For it is
is
this
this
reason
called isobutane.
In some hydrocarbon molecules, called naphthenes, the carbon atoms are joined together to form a closed ring.
The example shown on page 31
is
called cyclo-
hexane.
The hydrocarbon molecules described above
are
only the simplest of them. Petroleum also contains
more complicated molecules,
in
some
of
which there
are rings joined to rings.
Most its
of the weight of a molecule
is
contributed by
carbon atoms. The more carbon atoms a molecule
has, the heavier
it is.
At ordinary temperatures, the 30
heaviest hydrocarbon est are gases
and the
compounds are
solids,
the light-
rest are liquids. If the solids are
made hot enough, they melt into liquids. If the liquids are made hot enough, they evaporate into gases.
HH
H
H-C-C-C-H
H H H-CH H H H i
Isobutane, a Branched-chain Molecule
^C\ Oh /H H h-c v
H-C
H ^C /N H H
H H
Cyclohexane, a Ring-shaped Molecule
31
Refining Oil
Gasoline five to
is
a mixture of hydrocarbons that have from
eleven carbon atoms in each molecule.
duced from crude
three different
oil at refineries in
ways. In one process the gasoline that
in
is
separated from the other parts of the crude tional distillation. Gasoline
is
also
crude
oil is
by fracproduced by crackoil
which makes gasoline molecules from
ing,
pro-
It is
larger,
heavier hydrocarbon molecules by breaking them into
A
pieces.
third process, called polymerization,
gasoline molecules from smaller, lighter ones,
ing
them
boils to
lowed
oil is
join-
heated so that
produce a hot vapor. Then the vapor
to rise in a closed tower,
it rises.
by
together.
In fractional distillation, crude it
makes
As the vapor
cools,
it
and the vapor
is al-
cools as
begins to condense into
a liquid, but the heavier molecules condense
near
first,
the bottom of the tower, where the temperature higher.
The
lighter molecules
condense
later,
top of the tower, where the temperature
is
is
near the
lower.
The
drops of liquid that form are caught in trays, which are stacked inside the tower,
and flow from the
trays
through pipes. The heaviest liquid, which flows out at the bottom of the tower,
The
is
asphalt or heavy fuel
oil.
lighter liquids, flowing out at successively higher
32
gas
gas that cools the rising
vapors
asphalt or
heavy
tower
heater
levels, are lubricating oil,
kerosine and gasoline.
dense at
all
fuel oil
gas
oil,
diesel
The vapor
fuel
oil,
that doesn't con-
flows out of the top as a gas.
33
and
A
Tank Truck and Railroad Tank Car
Transporting Gas, Oil and Oil Products
Natural gas has to be sent from the
where
it is
oil
and gas
fields
taken out of the ground to the factories and
Most
cities
where
lines.
In 1971, there were 915,000 miles of natural gas
it is
used.
of
sent through pipe-
it is
pipelines in the United States. This
is
almost four times
the distance from here to the moon.
Crude fineries.
oil
has to be taken from the
Then
oil fields to
the re-
the products of the refineries have to be
taken to the places where they are used. Oil and
oil
products are carried overland by pipelines, railroad tank cars and tank trucks. They are carried across the sea in ocean tankers,
and on 34
lakes
and
rivers in barges.
In the United States there are 218,000 miles of pipeline for carrying
crude
oil
and liquid
of these pipelines carries gasoline
oil
from Texas to
York. Another one will be built to bring to the other states.
The
oil is
of
The
oil
oil
One
New
from Alaska
pushed through a pipeline
by pumps spaced out along the miles apart.
products.
line
about 50 to 150
moves through the
line at a
speed
two or three miles per hour.
The long,
largest
ocean tankers are more than 1,100 feet
and can carry up
to 2 SA million barrels of oil at a
time.
An
Oil
Tanker
35
Petrochemicals
Petroleum
is
not only a source of fuels like gasoline,
kerosine and fuel
oil.
making thousands
of useful products, including such
It is also
the
raw material
for
different things as rubber, paints, rayon, explosives,
food containers, antifreeze and phonograph records.
H
H
1
1
^1
c 1 1
H
-
c
Ethylene
1 1
H
^^
\
a food container
made from ethylene
CH
H-C =
Acetylene
acetic acid
The
first
step toward
making these products
is
to pro-
duce certain petrochemicals, each of which has many uses.
The
ene, a gas cule.
most important petrochemical
single
which has two carbon atoms
Some ethylene
cracked, and
more
pane. Ethylene
is
is
is
ethyl-
in each mole-
produced when petroleum
is
made from ethane and proused to make polyethylene, from of
it is
which food containers are made, and vinyl
chloride,
from which phonograph records and garden hoses are
made.
It is also
used to make rubber and antifreeze.
Ethyl alcohol, which used to be or molasses,
is
now made from 37
made
only from grain
ethylene, too.
Some
Products
Made from
Petrochemicals
38
Another important two-carbon petrochemical acetylene. It used to be
made
Now it is
only from coal.
made from methane. Products made from
acetylene
include acetic acid (the acid in vinegar) acetate ,
and vinyl
vinyl chloride
acetate,
is
from which
fiber,
plastics
and adhesives are made. Propylene it is
is
a three-carbon petrochemical.
is
a product of the cracking process,
made from propane. Propylene
tergents,
Some
and more
of
of it
products include de-
used for washing, and isopropyl alcohol, used
an antifreeze and for making acetone. Acetone,
as
which used
make
explosives, airplane "dopes,"
Butylene
rubber
and rayon.
made.
is
a six-carbon petrochemical in whose
is
molecules the
Benzene used
made from and
six
to
carbon atoms form a closed
be made only from
petroleum, too.
as a
Toluene
is
raw material
It is
for
coal,
Xylene
is
now
it is
making other products.
a seven-carbon ring petrochemical.
TNT
is
It is
made.
an eight-carbon ring petrochemical used
making paints and
called
but
ring.
used as a solvent, as a
the chemical from which the explosive
for
used to
is
a four-carbon petrochemical from which
is
Benzene
fuel
be made only from wood,
to
Dacron
in the
plastics,
and the
fiber that
is
United States and Terylene in
England.
39
Pollution Problems
Our use
of oil produces
many good
results. It gives
us
energy for heating our homes and running our ma-
And
chines.
products. But not
One
all
bad
results
ground and
sea,
and
when
is
oil
are good.
pollution, a spoiling of the
especially of the
air.
carried across the sea in tankers,
oil is
offshore wells are drilled at sea, there
times an accident, and floating
up on
useful petrochemical
the results of using
of the
When
many
gives us
it
on the water
shore,
it
oil is spilled.
kills fish
dirties
and
The
birds. If
is
and
some-
spilled oil
it is
washed
beaches and makes them unfit
The danger of oil spills creates the problem of finding ways of preventing them from happening and of cleaning up the oil quickly and thoroughly when they do happen. for use.
When is
oil is
burned
in
burned
and when gasoline
in a furnace
an automobile engine, some gases are
One
produced that dirty the
air.
bon monoxide, which
poisonous.
is
are hydrocarbons that can
amounts of hydrocarbon a
smog
off as oils
Some
make people and
lungs,
When these 40
oils
car-
ill.
Large
make
and may cut
as one-fourth of the sunlight.
contain sulfur.
is
of the gases
in the air of big cities
that irritates the eyes
much
of these gases
Some
fuel
are burned, the air
Dead Oil-soaked
Bird
Santa Barbara Beach, February 1969
•
is
•
dirtied
damages
>;*
by
sulfur dioxide,
clothing, paint
which hurts people and
and metal. Some gasoline
the past contained lead, which was put into
vent knocking in the engine. But, lead
is
burned, the lead
breathe, fuel oil
do
it
and lead
is
is
when
put into the
way
air that
that dirties the air as
oil
people
a dangerous poison. So, burning
In the United States, there are the burning of
to pre-
gasoline with
and gasoline creates the problem
in a
it
in
now
little
as possible.
laws forbidding
that has a lot of sulfur
line that contains lead.
of trying to
and
of gaso-
Other laws require that auto-
mobile makers reduce the amount of harmful gases a
new automobile
puts into the
41
air.
How Long Will Oil Last? The
oil
we take out
of the
millions of years ago. It
and we use the future
it
it
is
ground was made by nature not replaced as
at a faster rate every year.
will all
be gone, burned up
we use it up, Some time
in
in our furnaces
When will that be?
and automobiles.
To answer this question it is necessary to know how much oil there is in the ground, and how fast it is being used.
In the United States in 1972, the amount of
known
to
be
in the
ground
oil
in oil fields already dis-
covered was about 36 thousand million barrels. The oil
was being taken out
of the
ground and used
rate of 3 !/2 thousand million barrels a year. rate, the
known
be used up
oil
At
this
supply in the United States would
in eleven years.
However, new
are being discovered every year. last, at
at the
The
oil in
oil fields
them
will
most, another 120 years.
In 1972, the world supply of
oil in oil fields
already
discovered was 560 thousand million barrels, and
was being used barrels a year. oil will last
at the rate of 18V£
At
this rate the
only thirty years.
fields is likely to
it
thousand million
known world supply of The discovery of more
extend the time another thirty or forty
years at most.
42
The World's Energy Energy
is
used when people work to produce food,
clothing, houses tries,
and other useful
things. Rich coun-
which produce and use much, use up a
energy. Poor countries, which produce and use
use a smaller amount of energy.
A
richest countries of the
little,
large part of the
energy used comes from burning fuels
The
lot of
made from
oil.
world are the United
Japan and the countries of West-
States, the U.S.S.R.,
ern Europe. In 1972, together they had only onefourth of the world's population, but they used twothirds of the world's
oil.
The United
States alone
had
only one-eighteenth of the world's population, but
used one-fourth of the world's
oil.
But the poorer countries are now building more tories
and
railroads,
it
and are beginning
to use
fac-
more
automobiles and trucks. This means that they will be using more and more
oil
each year. As the poorer
countries begin to use a larger share of the world's
oil,
the richer countries will have to use a smaller share.
Meanwhile,
as
world industry and population grow,
the world's limited
and
faster.
There
oil
will
supply will be used up faster
be a shortage of
oil
during the
next thirty years throughout the world, and especially in the
United
States.
43
Oil Conservation
In 1972, the United States bought one-fourth of the oil it
used from other countries. In future years
have
to rely less
on
oil
produced
at
home. To make the home supply of
on
oil
or save oil as
much
necessary to conserve
it is
as possible.
An oil well flows as long as the pressure in it is enough
to
there
usually
is
can save
One way well.
far
push the
oil
some
of doing this
fast.
new ways
up.
When
The
is
to
same
oil
field
do not reduce the pres-
companies are also trying to find
of bringing
up more
can save gasoline and the
by driving no
We
water into the
oil.
We can also save oil by using less of we
is lost,
of this leftover oil up.
pump
so that they
strong
the ground.
to space wells at the
is
oil
the pressure
oil left in
by bringing some
enough apart
sure too
oil
still
Another way
will
imported from abroad and more
long as possible,
oil last as
it
faster than
oil
it.
On the road,
from which
it is
made
We
55 miles per hour.
can
save more by using small cars instead of large cars.
And we can
save
still
more by using buses and
more and using private save
oil
we can
oil
we can At home
cars less. In factories
by switching back save
trains
to coal as a fuel.
by not overheating our homes and by
not wasting electricity.
44
Oil for the Future
As we use up the supply
new
oil fields
A
ways
in the oil fields
new supply
part of this supply will
come from
it is
that will
be discovered during the next
ten or twenty years. But the
be used up
is
necessary to find a
already discovered, for the future.
of oil that
oil in
these
fields, too, will
in a short time. Fortunately, there are other
of getting oil besides
pumping it out
of an under-
ground pool.
£ coal
)
^
gas (methane)
/""""
~~~^
heated with
oil
hydrogen under
(light \
pressure
liquid
hydrocarbons)
^ ^ fi?
coke
Oil frorn Coal
45
In a few places there are deposits of sand and clay that are
gummy
tar sands.
washing
The
it
with
oil
oil.
These deposits are called
can be removed from tar sands by
out with hot water. There
is
enough
tar
sand in Canada to supply 400 thousand million barrels of
oil.
In
many
countries there are large amounts of a rock
called oil shale. Oil shale contains kerogen, which, like
petroleum, consists of the remains of small plants and animals that lived in ancient seas or lakes.
If oil shale
mined, crushed and heated, the process produces
is
shale oil from the kerogen. Shale oil can
be refined to
produce gasoline, kerosine, diesel fuel and
One
ton of the best
hundred gallons shale of the
shale can yield as
oil
of shale
oil. It is
oil
in the
supply
United
There are are
much
as
still
oil.
one
estimated that the
Rocky Mountains can supply about 2
lion million barrels of shale
the
jet fuel.
This
in the oil fields that
is
oil
mil-
over 50 times
have been found
States.
also
ways
of
now being made
methods of doing
it.
making
oil
from
to find the best
There are about
lion tons of coal in the
ground
in the
coal. Studies
and cheapest
IV2 million mil-
United
States.
amount can be mined and will probably be the raw material out of which most of the About one-third
oil
of this
of the future will
be made 46
in the
United
States.
Index Acetylene, 39 Asphalt,
6, 8,
Oil,
6
from
13
coal,
46
consumed in Benzene, 39 Branched-chain molecules, 30 Butane, 29-30
U.S., 16
early use, 8
found
in U.S., 16
future supply, 42, 44
Butylene, 39
offshore, 16,
24
Cracking, 32
32 searching for, 20 shortage, 43
Cyclohexane, 30-31
traps, 15, 21
refining,
Conservation, 44
Continental shelf, 16
Diesel
oil,
world production, 10 world supply, 18 world use, 19
12
Drilling, 8, 10
on land, 22 at sea,
30
Paraffins,
24
Petrochemicals, 13, 36-39
Energy, 43
Petroleum chemical nature, 28
consumed, 13 Ethane, 29-30
formation, 7
Ethylene, 37
Pitch, 8
Fractional distillation, 32
Pollution, 40-41
Fuel
Polymerization, 32
oil,
13
Propane, 29-30 Gasoline, 11
Propylene, 39
Gravimeter, 21
Ring molecules, 30 Hydrocarbons, 28
Sedimentary rock, 20 Kerosine, 10
Lubricating
Seismograph, 21 oil,
Shale
13
oil,
46
Straight-chain molecules, 30
Magnetometer, 21 Methane, 29-30
Tar sands, 46
Naphthenes, 30 Natural gas, 6,
Transportation, 34
Toluene, 39 13,
15 Wells, 26
Octane, 30 Xylene, 39
47
PICTURE CREDITS P.
9
By
the illustrator, Courtesy the
Humane
Society of
the United States P. P. P. P.
20 25 25 34
Courtesy Texaco, Inc.
Courtesy Bethlehem Steel Corp. Courtesy Exxon Courtesy Phillips Petroleum Co.
and API Photo
Library P.
P.
35 41
Courtesy American Petroleum Institute
EPA-Documerica— Dick Smith
48
CENTENNIAL SCHO SCIO,
OREGON
DATE DUE
ir.HSMiTH 4s-??n
About the Author Irving
many who made
Adler for
of teacher
years was the kind everything so clear
that students found themselves looking for-
ward to classes. He is able to create the same degree of enthusiasm in the readers of his over fifty books for young people. Mr. Adler explains
his writing
philosophy:
"How do you choose the topics for your books?" ask
one
is
of the questions people
me most often. The answer
this:
I
is
think of those things I've
wanted
to
know about,
out everything jects
I
I
then
I
simply
always
try to find
can about those sub-
believe children are interested
and can understand very profound scientific truths when those truths are in
presented
clearly
in
their
own
lan-
guage.
One
direct result of this philosophy
the initiation of The Reason Irving
and Ruth Adler, who worked
gether to write the series.
was
Why Series by
Irving
first thirty
Adler
has
books
in
continued
to-
the
the
series.
Mr. Adler
lives
in
North Bennington,
Vermont, where, when he takes care of /
proud.
his
isn't
writing,
garden— of which he
he is
The John Day Company
666
New
York,
Fifth
Avenue
New York 10019
HfifiaR&Go^^ ^:::-cfc:->:-x-:-x^>::::::::::-: •••••••••••'•a fiinnnnnnnnnnnri oBd » • ai *v «•••••• ~ ^ ^ « X-X-XvI-X-w^ ;.^^^^^^v.^v.WA^^v.v.^&AW^V.^ IwJAW//.^^^^•/ .^^ .•l. •
•
•
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•
•
• •
•
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,
,
.•.
,
,