1. AOSC 200
LESSON 25

2. Air Pollution
William Shakespeare , from his play ‘Hamlet’

3. Air Pollution

4. Air Pollution

5. History of Air Pollution
Air pollution is not a new problem
In England, wood for burning became scarce, and the populace resorted to burning coal which had a high sulfur content. The by-products were soot (carbon particles) and sulfur dioxide.
John Evelyn in 1661 wrote about the notorious London pea-soup fog. These occur in the fall when the Thames is warm but the ground is cold. The natural fog this produces is enhanced by the extra soot particles, and the sulfur dioxide reacts in the water droplets to produce sulfuric acid.

6. London Killer Smog

7. SMOG Word coined by Dr. Harold Des Veaux, a London physician in 1903.
SMOKE + FOG = SMOG
He meant London smog – sulfurous fumes from coal burning + large water droplets formed around smoke particles (soot)
1952 – Killer smog – 4000 deaths. Another episode in 1956 led to 1000 deaths.
Similar events have also occurred in the US.
Large industrial cities such as St.Louis and Pittsburg also suffered from ‘London’ smog, as the use of coal increased.

8. PHOTOCHEMICAL SMOG
In 1940 vegetable crop damage began to be seen in the Los Angeles basin. Pine trees began to lose their needles.
Haagen-Smit and colleagues at the University of California, Riverside studied this effect using smog chambers - large plastic tents into which pollutants could be injected and their reactions investigated.
They showed that the effect was due to ozone in the atmosphere.
The ozone was produced by a series of reactions involving the oxides of nitrogen and organic compounds (e.g. gasoline), both of which are emitted by automobiles.
It is this form of smog that gives the pollution seen in the Baltimore/Washington corridor.

9. Sources and Types of Air Pollutants
can be grouped into two categories: primary and secondary.
Primary pollutants are emitted directly from identifiable sources. They pollute the air immediately upon being emitted.
Secondary pollutants are produced in the atmosphere when certain chemical reactions take place among primary pollutants.
Sources. Two types of sources are identified fixed sources and mobile sources.

12. Composition of the Earth’s TropospherePM O2
CH4 N2 CO
N2O O3
←SO2, NO2,
CFC’s, etc Ar
CO2
Inert gases

13. Denver, Colorado on a clear day

14. Denver, Colorado when particulate matter reduced visibility

15. Fine Particles or Particulate Matter (PM)
PM is made up of suspended particles of either solid or liquid pollutants.
PM is grouped by size: under 10 microns is called PM10, under 2.5 microns is called PM2.5.
PM causes increased mortality and morbidity.
Examples of PM include diesel soot, acids, dust, sulfates, nitrates, and organics.
In accompanying bibliography should cite recent volume of Joournal of Air and Waste ;which reviews health effects of PM>

16. Photochemical SMOG

17. SMOG Chemistry

18. Schematic of ozone production from a Volatile Organic Compound (VOC)

19. SMOG
NEEDS
Hydrocarbons and nitrogen oxides
Strong sunlight to start reactions
Warm temperatures to maintain reactions – the higher the temperature the faster the rate.
Peak ozone will be when temperature is highest – in the afternoon.

20. Daily Ozone Cycle Ozone production follows a daily cycle with maximum
concentrations
typically observed
in the late afternoon.
This cycle is a signature of the dynamic processes of atmospheric air pollution
Ozone Concentration
Sunrise
Sunset
Time of day

21. Highly Polluted Areas

22. Ozone vs NOx for Non Methane HydroCarbon level of =0.6 ppmc

23. High Pollution days
The figure illustrates one of the problems in the abatement of pollution. The ozone concentration is used as the standard, and yet one can reduce the nitrogen oxides by a significant fraction and see no change, or even an increase in the ozone level.
Most of the pollution is emitted in the cities, which typically puts the atmosphere at the right of the figure. As the pollutants move away from the city center their concentration gets smaller, and the atmosphere is moved toward the left, and the ozone increases.
Hence the suburbs can see more ozone than the cities.

24. Overall scheme for air pollution

25. Haze of sulfur and nitrogen compounds.
 Haze is a subset of PM and is primarily composed
of sulfur and nitrogen compounds.
Particles of a certain size can reflect or refract light,
causing a reduction in visibility. This reduction
in visibility is known as haze.
Hazy conditions occur frequently in conjunction with
severe O3 events.

26. An Example of the Effects of Haze in the Mid-Atlantic
The Great Smoky Mountains National Park
A Clear Day
A Hazy Day
Photos from

27. VOC Emissions

28. NOx emission inventory

29. Sulfur Dioxide emissions

30. Acid Precipitation
Robert Angus Smith ( ) was a 19th-century Scottish
chemist who investigated numerous environmental issues.
Smith did innovative studies of air and water pollution and
was one of the few at the time to realize the importance of finding
solutions to the environmental problems caused by urban growth.
He is most famous for his 1852 research on air pollution, in the
course of which he discovered acid rain.

31. Acid Precipitation
Rain is naturally weakly acidic because CO2 from the atmosphere dissolves in water.
Unperturbed rainwater has a pH of 5.6
Precipitation near urban areas has a much lower pH. This rain or snow is called acid precipitation.