Chapter 13: Air Pollution
Download
Report
Transcript Chapter 13: Air Pollution
Chapter 13: Air Pollution
Dr. R. B. Schultz
Geography 101: Weather and Climate
Air Pollution and Weather
Air pollution and weather are linked in two ways. One
way concerns the influence that weather conditions
have on the dilution and dispersal of air pollutants.
The second way is the reverse and deals with the
effect that air pollution has on weather and climate.
Air is never perfectly clean.
Examples of “natural” air pollution include:
Ash,
salt particles,
pollen and spores,
smoke and
windblown dust
Air Pollutant Types
Although some types of air pollution are recent
creations, others, such as London's infamous smoke
pollution, have been around for centuries. One of the
most tragic air pollution episodes ever occurred in
London in December 1952 when more than fourthousand people died.
Air pollutants are airborne particles and gasses that
occur in concentrations that endanger the heath and
well-being of organisms or disrupt the orderly
functioning of the environment.
Pollutants can be grouped into two categories:
(1) primary pollutants, which are emitted directly from
identifiable sources, and
(2) secondary pollutants, which are produced in the
atmosphere when certain chemical reactions take place
among primary pollutants.
Primary Pollutants
The major primary pollutants include:
particulate matter (PM),
sulfur dioxide,
nitrogen oxides,
volatile organic compounds (VOCs),
carbon monoxide, and
lead.
Secondary Pollutants
Atmospheric sulfuric acid is one example of a
secondary pollutant.
Air pollution in urban and industrial areas is often
called smog.
Photochemical smog, a noxious mixture of gases
and particles, is produced when strong sunlight
triggers photochemical reactions in the
atmosphere.
The major component of photochemical smog is
ozone.
Although considerable progress has been made in
controlling air pollution, the quality of the air we
breathe remains a serious public health problem.
Controlling Air Pollution
through Regulations
Economic activity, population growth, meteorological
conditions, and regulatory efforts to control
emissions, all influence the trends in air pollution.
The Clean Air Act of 1970 mandated the setting of
standards for four of the primary pollutants—
particulates,
sulfur dioxide,
carbon monoxide, and
Nitrogen
as well as the secondary pollutant ozone.
Have Regulations Helped?
In 1997, the emissions of the five major
primary pollutants in the United States were
about 31 percent lower than 1970.
In 1990, Congress passed the Clean Air Act
Amendments, which further tightened
controls on air quality.
Regulations and standards regarding the
provisions of the Clean Air Act Amendments
of 1990 are periodically established and
revised.
Air Pollution Occurrences
The most obvious factor influencing air pollution is
the quantity of contaminants emitted into the
atmosphere.
However, when air pollution episodes take place,
they are not generally the result of a drastic increase
in the output of pollutants; instead, they occur
because of changes in certain atmospheric
conditions.
Two of the most important atmospheric conditions
affecting the dispersion of pollutants are:
(1) the strength of the wind and
(2) the stability of the air.
Air Mixing
The direct effect of wind speed is to influence the
concentration of pollutants.
Atmospheric stability determines the extent to which
vertical motions will mix the pollution with cleaner air
above the surface layers.
The vertical distance between Earth's surface and the
height to which convectional movements extend is
called the mixing depth.
Generally, the greater the mixing depth, the better the
air quality.
Inversions
Temperature inversions represent a situation in
which the atmosphere is very stable and the mixing
depth is significantly restricted.
When an inversion exists and winds are light,
diffusion is inhibited and high pollution concentrations
are to be expected in areas where pollution sources
exist.
Surface temperature inversions form because the
ground is a more effective radiator than the air above.
Inversions aloft are associated with sinking air that
characterizes centers of high air pressure
(anticyclones).
Inversion
This is an example
of a generalized
temperature profile
for a surface
inversion.
Temperature-profile
changes in bottom
diagram after the
sun has heated the
surface.
An Inversion Aloft
Acid Precipitation
In most areas within several hundred
kilometers of large centers of human activity,
the pH value is much lower than the usual
value found in unpopulated areas.
This acidic rain or snow, formed when sulfur
and nitrogen oxides produced as by-products
of combustion and industrial activity are
converted into acids during complex
atmospheric reactions, is called acid
precipitation.
Acid Precipitation (cont.)
The atmosphere is both the avenue by which
offending compounds travel from sources to the sites
where they are deposited and the medium in which
the combustion products are transformed into acidic
substances.
Beyond possible impacts on health, the damaging
effects of acid precipitation on the environment
include the lowering of pH in thousands of lakes in
Scandinavia and eastern North America.
Besides producing water that is toxic to fish, acid
precipitation has also detrimentally altered complex
ecosystems by many interactions at many levels of
organization.
Key Terminology
“Natural” air pollution
Secondary pollutants
Photochemical smog
Ozone
Mixing depth
Surface inversion
Acid Precipitation
Primary pollutants
Smog
Photochemical
reactions
Clean Air Act (1970)
Inversion
Inversion aloft
Pertinent Web Sites
Acid Rain FAQs (Environment Canada))
Answers to frequently asked questions about acid rain.
Air Pollution - U.S. EPA Office of Air and Radiation
EPA's Office of Air and Radiation (OAR) deals with issues that affect the quality of our air
and protection from exposure to harmful radiation. OAR develops national programs,
technical policies, and regulations for controlling air pollution and radiation exposure.
Areas of concern to OAR include: indoor and outdoor air quality, stationary and mobile
sources of air pollution, radon, acid rain, stratospheric ozone depletion, radiation
protection, and pollution prevention.
Atmospheric Ozone Concentrations
Ozone concentration maps from the World Meteorological Organization (WMO).
Atmospheric Pollution (EPA)
Here is the Environmental Protection Agency (EPA) atmospheric pollution home page.
Atmospheric Research & Information Centre (ARIC)
The ARIC is a multidisciplinary centre of excellence for the study and resolution of
atmospheric pollution issues located at Manchester University in England.
Carbon Dioxide Information Analysis Center (CDIAC)
The Carbon Dioxide Information Analysis Center (CDIAC) is the primary global-change
data and information analysis center of the U.S. Department of Energy (DOE).
Environmental Protection Agency (EPA)
Here is the Environmental Protection Agency's (EPA) home Page.
EPA Internet Site Search Engine
The Environmental Protection Agency's (EPA) search page can be used to search the
extensive EPA data base.
EPA Topics, Browse
Here is a site with access to a wide variety of topics related to the environment hosted by
the Environmental Protection Agency (EPA).
Montreal Protocol (AFEAS)
An international agreement, known as the Montreal Protocol on Substances that Deplete
the Ozone Layer, controls the production and consumption of substances that can
cause ozone depletion.
National Air Quality Trends Brochure (1996) - Six Principal Pollutants
This site has an in-depth report on the six principal atmospheric pollutants.
Ozone Depletion
This site contains information about ozone depletion from the Environmental Protection
Agency (EPA).