Air Pollution - Chapter 16 PDF

Summary

This document provides an overview of air pollution, including major pollutants, atmospheric processes, effects, and control measures. It discusses conventional and unconventional pollutants, and the impacts of air pollution on ecosystems and human health. The document also mentions the importance of pollution control and regulation.

Full Transcript

Air Pollution
Major Pollutants In Our Air
 Major Pollutants In Our Air
Most of us don’t realize how bad air
pollution used to be here in N. America.
Developing countries still face terrible
air quality
Aesthetic Degradation
Changes in environmental quality that offend our
aesthetic senses.
Pollution can be natural also but humans
have caused the most pollution
3 million lives are lost a year in China and
India alone
 Major Pollutants In Our Air
The Clean Air Act of 1970 established new standards
country wide and addressed six Conventional
Pollutants
The seven major pollutants (sulfur dioxide, carbon
monoxide, particulates, hydrocarbons, nitrogen oxides,
photochemical oxidants, and lead) identified and regulated
by the U.S. Clean Air Act.
Unconventional Pollutants
Compounds and that are produced in less volume than conventional
pollutants but that are especially toxic.
Primary Pollutants
Chemicals released directly into the air in a harmful form.
Secondary Pollutants
Chemicals that acquire a hazardous form after entering the air or
that are formed by chemical reactions as components of the air
interact.
Fugitive Pollutants
Substances that enter the air without going through a smokestack.
Dust from soil erosion, strip mining, rock crushing, construction, and
building demolition, etc
 Major Pollutants In Our Air
Conventional Pollutants
Sulfur Dioxide
A colorless, corrosive gas directly damaging to both plants and animals.
SO2 does come from natural sources (hot springs, volcanoes, etc) but
2/3rds come from human sources mostly from coal and smelting
Forms sulfuric acid in the atmosphere and can become acid rain
 Major Pollutants In Our Air
Conventional Pollutants
Nitrogen Oxides
Highly reactive gases formed when nitrogen in fuel or combustion air is heated to
over 650°C (1,200°F) in the presence of oxygen, or when bacteria in soil or water
oxidize nitrogen-containing compounds.
Responsible for yellowish color of smog, acid rain, and is a greenhouse
gas
Excess nitrogen can also cause eutrophication
 Major Pollutants In Our Air
Carbon Monoxide
A colorless, odorless, non-irritating, but highly toxic gas produced by
incomplete combustion of fuel, incineration of biomass or solid waste, or
partially anaerobic decomposition of organic material.
CO blocks oxygen uptake in the blood
90% of CO turns to CO2
 Major Pollutants In Our Air
Conventional Pollutants
Ozone (O3) and Photochemical Oxidants
Products of secondary atmospheric reactions
Also includes Volatile Organic Compounds (VOCs)
Plants emit most of these but conc. are low.
 Major Pollutants In Our Air
Conventional Pollutants
Lead
The most abundantly produced metal air pollutant
Toxic to our nervous systems and has made IQ levels lower
Sources are mining, burning coal, smelting, and leaded gas.
 Major Pollutants In Our Air
Conventional Pollutants
Particulate Matter
Atmospheric aerosols, such as dust, ash, soot, lint, smoke, pollen,
spores, algal cells, and other suspended materials.
Aerosols
Minute particles or liquid droplets suspended in the air.
Not only from humans but can be from dust storms
 Major Pollutants In Our Air
Mercury, from coal, is particularly dangerous
Mercury is released by coal and oil burning, smelting, and
mining.
It is a powerful neurotoxin, and most humans get it from
eating fish
Mercury can travel via global air circulation
 Major Pollutants In Our Air
Hazardous Air Pollutants (HAPs) can
cause cancer and nerve damage
Especially dangerous air pollutants, including
carcinogens, neurotoxins, mutagens,
teratogens, endocrine system disrupters, and
other highly toxic compounds.
They are dangerous because they can
bioaccumulate and persist in ecosystems
The EPA has cut back 70% of these emissions
and must be registered
Toxic Release Inventory (TRI)
A program created by the Superfund Amendments
and Reauthorization Act of 1984 that requires
manufacturing facilities and waste-handling and
disposal sites to report annually on releases of more
than 300 toxic materials.
 Major Pollutants In Our Air
Indoor air can also be hazardous
Chemicals can be 70 times higher in
our homes than what is outside
Many people in developing countries
cook over an open fire
 Atmospheric Processes
Temperature Inversions can trap
pollutants
A stable layer of warm air overlying cooler air,
trapping pollutants near ground level.
Los Angeles is a classic example
 Atmospheric Processes
Wind currents carry pollutants worldwide
 Atmospheric Processes
Chlorine destroys ozone in the stratosphere
Stratospheric Ozone
The ozone (O3) occurring in the stratosphere 10 to 50 km above the earth’s
surface.
Chlorofluorocarbons damage the ozone layer
Chemical compounds with a carbon skeleton and one or more attached chlorine
and fluorine atoms.
Commonly used as refrigerants, solvents, fire retardants, and blowing agents.
 Atmospheric Processes
The Montreal Protocol was a
resounding success
The first international response to
phasing out CFCs.
The ozone hole should be gone by
2050
It also slowed climate change
because CFCs are a powerful
greenhouse gas.
 Effects of Air Pollution
How does pollution make people sick?
WHO estimates that 5-6 million people die every year for air pollution
CO and lead bind to hemoglobin
Bronchitis, emphysema, and chronic obstructive lung disease
(COPD)
 Effects of Air Pollution
Sulfur and nitrogen emissions produce acid rain
Acid Deposition
Acidic rain, snow, fog, or dry particulates deposited from the air due to
an increased release of acids by anthropogenic or natural resources.
This can cause soils to become acidic and reduce fertility.
Regulations have been made to stop the burning of high sulfur coal
 Effects of Air Pollution
Acid deposition damages ecosystems and infrastructure
Lakes can become too acidic for fish to survive
Forests can become weaken and die or attacked by insects.
Buildings and structures can dissolve and rust
 Pollution Control
“Dilution is the solution to pollution” didn’t work out for us.
Pollutants can be captured after combustion
Filters, precipitator, sulfur removal, catalytic converters, complete
combustion of hydrocarbons are a few
 Pollution Control

Clean air legislation is
controversial but
effective
Pollution is seen by some
as the cost of progress
This is not supported by
evidence!
Enforcing the law could
save 6,000 lives a year in
the US.
 Pollution Control
Clean air protections help the public’s health and save
money
 Pollution Control
Rapid growth is outpacing pollution controls in the developing
countries.
Even if there are laws, enforcement is often weak
Examples: Mexico City and Norilsk, Russia
 Pollution Control
Air quality does improve when controls are
put in place!
Sweden and West Germany cut sulfur dioxide
emissions to end acid rain
Cubatao, Brazil has cleaned up. Particulate
pollution down 75% and sulfur dioxide down
84%. Fish are returning to the river!