1. Atmospheric pressure (millibars) Altitude (kilometers)
200
400
600
800
1,000
120 75
Temperature
110
Pressure 65
100
Thermosphere 90 55
Mesopause 80
Heating via ozone
Mesosphere 45 70
Altitude (kilometers) 60
Altitude (miles)
Stratopause 35 50
Stratosphere 40 25 30
Tropopause 15
Ozone “layer” 20
Heating from the earth
Troposphere 10 5
Figure 17-2 Page 419
Pressure = 1,000
millibars at
ground level
(Sea
Level)
–80
–40 40 80
120
Temperature (˚C)

2. Altitude (kilometers) Ozone concentration (ppm)40 25 35 20
Stratosphere 30 25
Stratospheric ozone 15
Altitude (kilometers) 20
Altitude (miles) 10 15 10 5
Troposphere 5
Photochemical ozone
Figure 17-3 Page 420 5 10 15 20
Ozone concentration (ppm)

3. Primary Pollutants Secondary Pollutants 2 SourcesNO
NO2
SO3
Most hydrocarbons
HNO3
H2SO4
Most suspended
particles
H2O2 O3
PANs
SO4 2 –
Most
NO3 –
and
salts
Natural
Sources
Stationary
Mobile
Figure 17-4 Page 421

4. March 10, 2000
March 12, 2000
March 13, 2000
March 15, 2000
Figure 17-5 Page 421

5. Ultraviolet radiation
Solar
radiation
Ultraviolet radiation NO
Nitric oxide O2
Molecular
oxygen
NO2
Nitrogen
dioxide
H2O
Water O
Atomic
oxygen
Hydrocarbons
PANs
Peroxyacyl
nitrates
HNO3
Nitric acid
Aldehydes
(e.g., formaldehyde) O3
Ozone
Figure 17-6 Page 424
Photochemical smog

6. Formation of photochemical smog.
Click to view animation.
Animation

7. 40 Nitric oxide Nitrogen dioxide Ozone 30 Parts per million 20 10 6 76 7 8 9 10 11 12 1 2 3 4 5 6 7 8
A.M.
Noon
P.M.
Time
Figure 17-7 (1) Page 425

8. Smoggy day
Figure 17-7 (2) Page 425

9. Clear day
Figure 17-7 (3) Page 425

10. Metallurgical dust and fumes
Ultra Fine
Particles
Fine
Particles
Large
Particles
Sea salt nuclei
Fly ash
Carbon black
Paint pigments
Pollens
Tobacco smoke
Cement dust
Milled flour
Combustion nuclei
Coal dust
Oil smoke
Metallurgical dust and fumes
Photochemical smog
Insecticide dusts
Figure 17-8 Page 426
0.001
0.01
2.5
10.0
100.0
Average particle diameter (micrometers or microns)

11. Decreasing temperature
Warmer air
Inversion layer
Increasing altitude
Cool layer
Mountain
Mountain
Valley
Decreasing temperature
Figure 17-9 (1) Page 427

12. Descending warm air mass Decreasing temperature
Inversion layer
Increasing altitude
Sea breeze
Mountain
range
Decreasing temperature
Figure 17-9 (2) Page 427

13. Figure 17-10 Page 428 Wind Transformation to sulfuric acid (H2SO4)
and nitric acid (HNO3)
Windborne ammonia gas
and particles of cultivated soil
partially neutralize acids and
form dry sulfate and nitrate salts
Wet acid deposition
(droplets of H2SO4 and
HNO3 dissolved in rain
and snow)
Dry acid
deposition
(sulfur dioxide
gas and particles
of sulfate and
nitrate salts)
Sulfur dioxide (SO2)
and NO
Nitric oxide (NO)
Acid fog
Farm
Ocean
Lakes in shallow
soil low in
limestone
become
acidic
Lakes in
deep soil
high in limestone
are buffered
Figure Page 428

14. Acid deposition animation.
Click to view animation.
Animation

15. Figure Page 429

16. Potential problem areas because of sensitive soils
of air pollution: emissions leading
to acid deposition
Current problem areas
(including lakes and rivers)
Figure Page 429

17. Percentage of direct sunlight intercepted
Iran
China
Pakistan
Saudi
Arabia
India
Myanmar
Arabian Sea
Thailand
Bay of Bengal
Ethiopia
Indian Ocean
Equator
Percentage of direct sunlight intercepted
Very heavy 35%–45%
Heavy 20%–35%
Miles
1,000
Kilometers
1,600
Medium 10%–20%
Figure (1) Page 430

18. Winter Himalayas India Monsoons Cool, dry winds Summer Himalayas India
Warm, moist winds
Figure (2) Page 430

19. Water boatman Whirligig Yellow perch Lake trout Brown trout Salamander
(embryonic)
Mayfly
Smallmouth
bass
Mussel
Figure Page 431
6.5
6.0
5.5
5.0
4.5
4.0
3.5 pH

20. Emission Figure 17-15 Page 432 Acid deposition SO2 H2O2 PANs NOX O3
Others
Increased
Susceptibility
to drought,
extreme cold,
insects, mosses,
and disease
organisms
Direct damage
to leaves
and bark
Reduced
photosynthesis
and growth
Soil acidification
Tree death
Reduced
nutrient
and
water
uptake
Leaching of
soil
nutrients
Release of
toxic
metal icons
Root
damage
Acid
Figure Page 432

21. Effect of air pollution in forests animation.
Click to view animation.
Animation

22. Prevention Cleanup Reduce air pollution by improving energy efficiency
Add lime to neutralize
acidified lakes
Add phosphate
fertilizer to neutralize
acidified lakes
Reduce coal use
Increase natural gas
use
Increase use of
renewable resources
Burn low-sulfur coal
Remove SO2
particulates, and NOx
from smokestack gases
Remove Nox from
motor vehicular exhaust
Figure Page 433
Tax emissions of SO2

23. Para-dichlorobenzene
Tetrachloroethylene
Chloroform
1, 1, 1-
Trichloroethane
Formaldehyde
Benzo-a-pyrene
Nitrogen Oxides
Styrene
Tobacco Smoke
Asbestos
Radon-222
Carbon Monoxide
Methylene Chloride
Figure Page 434

24. Outlet vents for furnaces and dryers
Open window
Openings
around
pipes
Cracks in wall
Slab joints
Wood stove
Cracks in floor
Clothes dryer
Furnace
Radon-222 gas
Sump
pump
Uranium-238
Slab
Radium-222
Soil
Figure Page 436

25. Nasal cavity Oral cavity Pharynx (throat) Trachea (windpipe) Bronchus
(see figure 17.18b)
Trachea (windpipe)
Bronchus
Right lung
Bronchioles
(see figure 17.18c)
Figure (1) Page 437

26. Epithelial cell
Cilia
Mucus
Figure (2) Page 437

27. Bronchiole Alveolar sac (sectioned) Alveolar duct Alveoli
Figure (3) Page 437

28. Outdoor Exposure Developing countries (urban) 93% Developed countries
Indoor Exposure
Total deaths 0.2 million
Developing countries
(urban) 23%
Developing
countries
(rural) 67%
Developed countries
(rural) 1%
Developed countries
(urban) 9%
Figure Page 438
Total deaths 2.8 million

29. Prevention Dispersion or Cleanup Burn low-sulfur coal Disperse
emissions above
thermal inversion
layer with tall
smokestacks
Remove sulfur
from coal
Convert coal
to a liquid or
gaseous fuel
Remove
pollutants after
combustion
Shift to less
polluting fuels
Tax each unit
of pollution
produced
Figure Page 441

30. Cleaned gas Electrodes Dust discharge Dirty gas
Figure (1) Page 442
Electrostatic Precipitator

31. Bags Cleaned gas Dirty gas Dust discharge
Figure (2) Page 442
Baghouse Filter
Dust discharge

32. Cleaned gas Dirty gas Dust discharge
Figure (3) Page 442
Cyclone Separator
Dust discharge

33. Dirty gas Cleaned gas Clean water Wet gas Dirty water
Figure (4) Page 442
Wet Scrubber

34. Less polluting engines Improve fuel efficiency
Prevention
Cleanup
Mass transit
Emission control
devices
Bicycles and walking
Less polluting engines
Less polluting fuels
Improve fuel efficiency
Car exhaust
Inspections
twice a year
Get older, polluting
cars off the road
Give buyers tax write-
offs for buying low-
polluting, energy-
efficient vehicles
Restrict driving in
polluted areas
Stricter emission
standards
Figure Page 443

35. Figure 17-25 Page 443 Prevention Cleanup or Dilution Cover ceiling
tiles and lining
of AC ducts to
prevent release
of mineral fibers
Use adjustable
fresh air vents
for work spaces
Ban smoking or
limit it to well-
ventilated areas
Increase intake
of outside air
Set stricter
formaldehyde
emissions
standards for
carpet,
furniture,
and building
materials
Change air
more frequently
Circulate
building’s air
through rooftop
greenhouses
Prevent radon
infiltration
Use exhaust
hoods for
stoves and
appliances
burning natural
gas
Use office
machines in
well-ventilated
areas
Use less
polluting
substitutes for
harmful
cleaning
agents,
paints, and
other products
Install efficient
chimneys for
wood-burning
stoves
Figure Page 443