This document discusses air pollution, including its definition, composition, sources, and effects. It defines air pollution as the presence of harmful substances in the atmosphere due to human activity. It describes the composition of air and structure of the atmosphere. It discusses how air pollutants are classified based on their origin and state of matter. It details the various sources of air pollutants, both natural and man-made. Finally, it outlines the effects of common air pollutants like particulate matter, SO2, and NOx on human health, plants, materials, and the environment.
(PARI) Viman Nagar Call Girls Just Call 7001035870 [ Cash on Delivery ] Pune ...
air pollution.pptx
1.
2. Content….
• What is air pollution?
• Composition of air
• Structure of atmosphere
• Ambient Air Quality Standards
• Classification of air pollutants
• Sources of common air pollutants like PM, SO2,
NOX, Natural & Anthropogenic Sources
• Effects of common air pollutants
3. Definition: Air pollution is the presence of substances
in ambient atmosphere, generally resulting from the
activity of man in sufficient concentration, present for
sufficient time and cause harmful effect on humans,
plants and animals.
7. Classification of air pollutants
a) Based on origin of air pollutants:
Primary Pollutant
- chemical,
concentration,
that
added
occurs
directly
in a harmful
to the air by
natural events or human activities
eg. Sulphur oxides, nitrogen oxides
Secondary Pollutant
- harmful chemical formed in atmosphere when a
primary air pollutant reacts with the normal air
components or with other air pollutants
eg. ozone, sulphur trioxide
8. Classification of air pollutants
Primary Pollutants
CO CO2
SO2 NO NO2
Most hydrocarbons
Most suspended particles
Most NO3
– and SO4
2– salts
Secondary Pollutants
SO3
H2SO4
HNO3
H O O PANs
2 2 3
Stationary
Mobile
Natural
Sources
9. Based on state of matter, air pollutants:
• Gaseous pollutants:
Pollutants are gaseous in state at normal
temperature and pressure.
eg. Common gas pollutants like CO, CO2, NOX,
SOX .
• Particulate air pollutants:
Suspended droplets, solid particles or their
mixtures in the atmosphere, commonly
referred as particulates.
eg. Dust, smoke, aerosols.
10. Sources of Air pollution
• Natural:
• Pollen grains
• Volcanoes
• Forest fire
• Salt spray from oceans
• Dust storms
• Marshy land
• Bacteria and other microorganisms
• Spores
• Photochemical reactions
11. Sources of Air pollution
• Man made:
• Industrial unit
• Thermal power plants
• Automobile exhaust
• Fossil fuel burning
• Agricultural activities
• Mining
• Air crafts
• Nuclear explosion
• Domestic burning of woods
12. Sources of Air pollution
• Man made:
• Point or Stationary sources - those that are fixed
in location.
• point sources e.g. smoke stacks, 14% air pollution
from plants generating electricity
• Line or Mobile sources - those that move while
polluting, e.g. trucks, cars, busses etc. 60% of air
pollution from motor vehicles.
• area sources: town or cities add smoke and gases
over wide areas called area sources of air pollution.
14. Sources of common air pollutants
• Particulate matter:
• Small, solid particles and liquid droplets present
in atmosphere.
• Size: 0.02µm to 500µm.
• Particulate pollutants categorized according to
size, source and physical state.
15.
16. Particulate Matter
•particles of different sizes and
structures that are released into the
atmosphere
•present in many sources including
fossil fuels, dust, smoke, fog, etc.
•can build up in respiratory system
•cause heart and lung disease;
increases risk of respiratory infection
17. Aerosol
• Aerosol – a dispersion of solid and liquid
particles suspended in gas (air).
• Aerosol particles larger than about 1 micrometer
in size are produced by windblown dust and sea
salt from sea spray.
• After formation, the aerosols are mixed and
transported by atmospheric motions.
• Examples: dust, smoke, mist, fumes.
19. Dust:
• Small solid particles.
• Size: 1 to 200 µm.
• Formed by breaking up of larger masses of
rock and soil either by disintegration or by
mechanical process.
• Remain suspended in air temporarily but
ultimately settle under the influence of
gravity.
20. Smoke:
• Fine solid particles resulting
from the incomplete
combustion of organic
particles like coal, wood,
tobacco.
• Size:0.1 to 1 µm.
Fumes:
• Fine solid particles formed
by the condensation of
vapour of solid materials.
• Size: 0.1 to 1 µm.
• Odourless vapour usually
released from chemical as
metallurgical process.
21. Mist:
• Liquid droplets formed by
condensation of vapour
in the atmosphere or
released from industrial
operations.
• Size: smaller than 10 µm.
Fog:
• If the mist is made of
water droplets whose
concentration is high and
dense enough to obscure
vision, then mist is called
fog.
22. Flyash:
• Finely divided
combustible
non
particles
present in the gases arising
from fuel combustion.
• Contain inorganic metallic or
mineral substances released
when organic part of coal is
burnt.
Soot:
• Incomplete combustion of
carbon containing materials
release carbon particles.
23. Gas pollutants - SO2
• Properties
– SO2 is a colorless gas having pungent and
suffocating odour.
– Reacts with H2O and forms sulfurous acid
(H2SO3), which oxidizes to sulfuric acid (H2SO4)
– Chemical transformation of other pollutants
– Responsible for acid rain effect
24. Gas pollutants - SO2
• Sources
– 67% SOx pollution is due to volcanic
activities.
– Remaining 33% SOx emission are
due to:
– Biomass and fossil fuel combustion
– Industrial emissions( paper
manufacturing plants, sulfuric acid
plants)
– Transportation
– Open burning of refuse and municipal
incinerator
• Controls
– Low-S fossil fuels (clean coal)
– Emission control devices
25. Gas pollutants - SO2
• Effects:
₋ Irritation of mucous membranes of the respiratory
tract.
₋ High concentration may cause bronchitis.
₋ Marbles and mortar statues are affected.
₋ Plants are sensitive to high concentration of SO2 ,
result in chlorosis, metabolic inhibition, plasmolysis
and even death.
26.
27. Gas pollutants -NOx
• Properties:
₋ NO, NO2, N2O are primarily involved in air pollution
₋ NO is colorless, odourless gas
₋ NO2 is reddish brown gas and having suffocating odour
₋ NO and NO2 are formed as:
28. Gas pollutants -NOx
• Sources
– Fuel combustion in automobiles and industries
– Lightening
– Forest fire
– Bacterial decomposition of organic matters
29. Gas pollutants -NOx
• Effects :
– Deep lung irritant
– Nitric oxide can combine with hemoglobin and
reduce oxygen carrying capacity of blood.
– NO is moderately toxic.
– NO2 is more toxic, it irritate alveoli of lungs and
high concentration may cause acute bronchitis.
33. EFFECTS OFAIR POLLUTION ON
HUMAN HEALTH
• Human Health
– ACUTE: short duration
exposure and/or immediate
effects
Examples:
irritation of eyes, nose and
throat
upper respiratory infections
(bronchitis, pneumonia)
headaches
nausea
allergic reactions, etc.
34. EFFECTS OFAIR POLLUTION ON
HUMAN HEALTH
• Human Health
– CHRONIC: long duration
exposure and/or long term
effects
Examples:
lung cancer
heart disease
damage to brain,
nerves, liver,
kidneys, etc.
35. EFFECTS OFAIR POLLUTION ON
HUMAN HEALTH
• Reduced lung functioning
• Irritation of eyes, nose, mouth and throat
• Asthma attacks
• Respiratory symptoms such as coughing and wheezing
• Increased respiratory disease such as bronchitis
• Reduced energy levels
• Headaches and dizziness
• Neuro -behavioural disorders
• Cardiovascular problems
• Cancer
37. Effects of CO:
Reacts with hemoglobin in blood
• –Forms carboxyhemoglobin (HbCO) rather
than oxyhemoglobin (HbO2)
• –Prevents oxygen transfer
• Effect of O3:
• Cause: atmospheric photochemical reaction
• Acute Health effects
– Severe ear/nose/throat irritation
– Interferes with lung functions
• Coughing at 2 ppm ozone
38. • Effects of SO2:
– Main Effects:
– Acid Deposition
– Corrosive
– Damages lungs
– Damages structures
– Damages environment
• Effects of NOx :
• Prolonged exposure:
• pulmonary fibrosis, and higher LRI (lower respiratory tract
illness) in children
• Toxic effects at 10-30 ppm
–Nose and eye irritation
–Lung tissue damage
• Pulmonary edema (swelling)
• Bronchitis
39. Effects of air pollution on plants
• Have an adverse effect on plants
• Cause a widespread damage to natural
vegetation and economic crops
• Many species are susceptible to damage even
at low concentrations
• Gaseous pollutants are actively metabolized
by some plants and these plants are employed
as indicators of air pollutants
40. Effects of air pollution on plants
Pollutant Effects on plants
SO2 Bleaching of leaves, necrosis(killing of tissues)
NO2 Suppressed growth, bleaching
O3 Suppressed growth, bleaching, necrosis, collapse of leaf
Fluorides Necrosis at leaf tip
PAN Suppressed growth, silvering of lower leaf surface
Necrotic lesions on
lower surface of potato
leaves
Chlorosis and necrosis of
white pine needles
Necrosis of
watermelon leaf
41. Effects of air pollution on plants
• Forms of damages to leaves:
Necrosis: killing or collapse of tissue
Chlorosis: loss or reduction of chlorophyll resulting in fading of
the leaf’s green color to yellowish or pale green.
Abscission: dropping of leaves
Epinasty: downward curvature of leaf due to the higher rate of
growth on the upper surface
Acute injury: short-time to high concentration occur under
fumigation conditions. Effects are noted within few hours to few
days- make visible markings on the leaves
Chronic injury: long-term to low concentrations
43. Effects of air pollution on material/property
• Damage to property
Effects of dry deposition of sulfur dioxide, which causes
the formation of gypsum. Gypsum traps particulate
matter to form heavy, black incrustation.
44. Effects of air pollution on material/property
• Effects on Property
• Many statues,
monuments, made from
limestone (CaCO3),
marble or metal.
• Acid rain can dissolve
rock or tarnish metal
45. Effects of air pollution on material/property
• Smoke and aerosols
adhere to stone,
brick and building
surface to produce
unsightly coatings.
• SOx in presence of
moisture react with
limestone and
color
.
change the
(Tajmahal)
46. Effects of air pollution on material/property
On paints:
• Areas high pollution require frequent painting.
• H2S cause darkening of surfaces covered with
paint containing white lead.
On textiles:
• SO2 causes deterioration of natural and
synthetic textile fibers.
• Fading of textile dyes by oxides of nitrogen,
ozone.
47. Effects of air pollution on climate/environment
When gas pollutants e.g. sulfur dioxide,
nitrogen dioxidedissolve in rain water,
various acids are formed
– CO2 + H2O H2CO3 (carbonic acid)
– SO2 + H2O H2SO4 (sulfuric acid)
– NO2 + H2O HNO2 (nitrous acid) +
HNO3 (nitric acid)
48. Acidic Precipitation
Fossil fuels
Power plants
Industrial emissions
Auto emissions
Primary Pollutants
SO2
NO2
Secondary Pollutants
H2SO4
sulfuric acid
HNO3
nitric acid
soils
leaching of minerals
vegetation
direct toxicity
indirect health effects
sediments
leaching aluminum
acidic precipitation
49.
50.
51. Global Warming
- warming of atmosphere due to increases in the concentrations of
one or more greenhouse gases primarily as a result of human
activities, mainly:
burning of fossil fuels
In recent decades certain greenhouse gases have increased in
concentration:
carbon dioxide
methane
nitrous oxide
CFCs
CO2 contributes to ~ 55% of global warming.
54. Ozone Depletion
- The ozone layer is a layer of gaseous ozone
located in the stratosphere
- The stratosphere contains O3 “good ozone”
- The ozone layer prevents 99% of harmful
ultraviolet radiation from reaching Earth’s
surface
- It is being depleted by CFCs, halons and other
chemicals