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2.5: air pollution

air and the atmosphere

  • atmosphere: a sea of air that surrounds the earth

  • divided into several layers, separated from each other by abrupt changes in temperature due to differences in absorption of solar energy

layers of the atmosphere

  • troposphere

    • lowest layer, contains 75% of the mass of earth’s air

    • extends 10km/6mi up from sea level at the equator

    • temperature declines with altitude and then abruptly rises when entering the tropopause

      • tropopause: the boundary between the troposphere and upper layers

    • air composition

      • 78% nitrogen, 21% oxygen, 1% other eg. permanent gases and variable gases

  • stratosphere

    • second layer, extends from 10-50km/6-30mi above earth’s surface

    • air is very calm

    • temperature increases with altitude until another reversal in the stratopause

      • stratopause: the boundary between the stratosphere and upper layers

    • air composition

      • similar to troposphere with two exceptions:

        • less water vapor

        • 1000x more ozone (O3)

        • ozone in troposphere = bad, in stratosphere = good

air pollution

  • air pollution: the presence of chemicals in the air in quantities and durations that are harmful to the environment and human health

  • some pollutants are natural

    • natural fires

    • terpenes (from forests)

    • pollen (allergen)

    • dust (from volcanos)

types of pollutants

  • primary pollutants: harmful substances emitted directly in that form

    • may react with one another or with a basic air component to become secondary pollutants

  • conventional pollutants + pollutant criteria

    • the EPA sets the National Ambient Air Quality Standards (NAAQS) which limits six major pollutants

      • particulate matter (PM)

        • classified based on diameter

          • PM10: 10 micrometers or smaller

          • PM2.5: 2.5 micrometers or smaller

        • comes from wildfires, industrial activities, motor vehicles, cooking, and fuel burning

        • particles can enter the lungs, and the smallest can enter the bloodstream

          • this can cause heart attacks, strokes, and negatively impact children’s nervous systems

        • associated with ~80,000 deaths in the US

      • ozone (ground level)

      • nitrogen oxides (NOx)

      • sulfur oxides (SOx)

      • carbon monoxide (CO)

      • lead

smog

  • “smog” = fusion of words “smoke” and “fog”

  • two types

    • industrial smog

    • photochemical smog

industrial smog

  • important until the mid-1900’s in industrial cities (eg. London, Donora, Pittsburg, Chicago)

  • now, rarely a problem in MDCs but still a problem in China, India, Eastern Europe

  • caused by large amounts of heavy oil and coal burnt in homes for heat and in industrial work

    • generally worse in winter

  • releases sulfur oxides (SOx) and particulate matter

  • appears grey in color

the great smog

  • took place in London in December 1952

  • unusually cold → more coal burnt

  • visibility fell to ~12 inches

  • 100,000+ people treated for respiratory problems

  • caused 3,000-4,000 extra deaths

    • extra death: a death caused by smog above the normal rates which are attributed to the abnormal smog conditions

    • mainly of cardiac and respiratory ailments

  • asthma

    • disease which negatively effects lungs

    • more common among people alive/born during the great smog

  • US equivalent: Donora, PA, October 1948

photochemical smog

  • more pressing current problem in more developed countries

  • composed of a mixture of primary and secondary pollutants

  • formed when primary pollutants interact under the effect of sunlight and give origin to a mixture of 100 chemicals dominated by ozone

    • worse in summer

  • primary pollutants involved and their sources

    • nitrogen oxides (NOx) mainly from vehicles

    • volatile organic compounds (VOCs) from vehicles, gas stations, dry cleaners, print shops, vegetation

  • appears orange in color

ozone

  • stratospheric → good

  • ground level → bad

    • very irritating for the respiratory system

thermal inversions

  • thermal inversion: a process which occurs when a layer of cold air temporarily trapped near the ground by a warmer, upper layer

    • pollutants do not get dispersed during thermal inversions

    • warm air is less dense than cold air

  • normal conditions

    • during the day, sun warms up the air near the surface, which expands and rises, carrying low-lying pollutants higher

    • under normal conditions, there is a constant movement of air

  • sometimes a layer of cold air is trapped beneath a warmer, less dense error

    • warm air prevents ascending air currents and the dispersion of pollutants

    • common in valleys and urban areas

urban heat islands

  • structures eg. buildings, roads, and other infrastructure absorb and re-emit the sun’s heat more than natural landscapes such as forests and water bodies

  • urban areas become islands of higher temperature relative to outlying areas

  • result in thermal inversions and more thunderstorms

  • dust domes: pollutants including soot trapped in urban air through thermal inversions

case study: mexico city

  • megacity with over 22 million people in the metro area

    • more people, more industry, more cars

  • located at a high altitude → solar radiation is intense

  • surrounded by mountains, air can be stagnant with winter thermal invasions

  • deforestation and construction have exposed soil to wind erosion

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Environmental SciencePollution

2.5: air pollution

air and the atmosphere

  • atmosphere: a sea of air that surrounds the earth

  • divided into several layers, separated from each other by abrupt changes in temperature due to differences in absorption of solar energy

layers of the atmosphere

  • troposphere

    • lowest layer, contains 75% of the mass of earth’s air

    • extends 10km/6mi up from sea level at the equator

    • temperature declines with altitude and then abruptly rises when entering the tropopause

      • tropopause: the boundary between the troposphere and upper layers

    • air composition

      • 78% nitrogen, 21% oxygen, 1% other eg. permanent gases and variable gases

  • stratosphere

    • second layer, extends from 10-50km/6-30mi above earth’s surface

    • air is very calm

    • temperature increases with altitude until another reversal in the stratopause

      • stratopause: the boundary between the stratosphere and upper layers

    • air composition

      • similar to troposphere with two exceptions:

        • less water vapor

        • 1000x more ozone (O3)

        • ozone in troposphere = bad, in stratosphere = good

air pollution

  • air pollution: the presence of chemicals in the air in quantities and durations that are harmful to the environment and human health

  • some pollutants are natural

    • natural fires

    • terpenes (from forests)

    • pollen (allergen)

    • dust (from volcanos)

types of pollutants

  • primary pollutants: harmful substances emitted directly in that form

    • may react with one another or with a basic air component to become secondary pollutants

  • conventional pollutants + pollutant criteria

    • the EPA sets the National Ambient Air Quality Standards (NAAQS) which limits six major pollutants

      • particulate matter (PM)

        • classified based on diameter

          • PM10: 10 micrometers or smaller

          • PM2.5: 2.5 micrometers or smaller

        • comes from wildfires, industrial activities, motor vehicles, cooking, and fuel burning

        • particles can enter the lungs, and the smallest can enter the bloodstream

          • this can cause heart attacks, strokes, and negatively impact children’s nervous systems

        • associated with ~80,000 deaths in the US

      • ozone (ground level)

      • nitrogen oxides (NOx)

      • sulfur oxides (SOx)

      • carbon monoxide (CO)

      • lead

smog

  • “smog” = fusion of words “smoke” and “fog”

  • two types

    • industrial smog

    • photochemical smog

industrial smog

  • important until the mid-1900’s in industrial cities (eg. London, Donora, Pittsburg, Chicago)

  • now, rarely a problem in MDCs but still a problem in China, India, Eastern Europe

  • caused by large amounts of heavy oil and coal burnt in homes for heat and in industrial work

    • generally worse in winter

  • releases sulfur oxides (SOx) and particulate matter

  • appears grey in color

the great smog

  • took place in London in December 1952

  • unusually cold → more coal burnt

  • visibility fell to ~12 inches

  • 100,000+ people treated for respiratory problems

  • caused 3,000-4,000 extra deaths

    • extra death: a death caused by smog above the normal rates which are attributed to the abnormal smog conditions

    • mainly of cardiac and respiratory ailments

  • asthma

    • disease which negatively effects lungs

    • more common among people alive/born during the great smog

  • US equivalent: Donora, PA, October 1948

photochemical smog

  • more pressing current problem in more developed countries

  • composed of a mixture of primary and secondary pollutants

  • formed when primary pollutants interact under the effect of sunlight and give origin to a mixture of 100 chemicals dominated by ozone

    • worse in summer

  • primary pollutants involved and their sources

    • nitrogen oxides (NOx) mainly from vehicles

    • volatile organic compounds (VOCs) from vehicles, gas stations, dry cleaners, print shops, vegetation

  • appears orange in color

ozone

  • stratospheric → good

  • ground level → bad

    • very irritating for the respiratory system

thermal inversions

  • thermal inversion: a process which occurs when a layer of cold air temporarily trapped near the ground by a warmer, upper layer

    • pollutants do not get dispersed during thermal inversions

    • warm air is less dense than cold air

  • normal conditions

    • during the day, sun warms up the air near the surface, which expands and rises, carrying low-lying pollutants higher

    • under normal conditions, there is a constant movement of air

  • sometimes a layer of cold air is trapped beneath a warmer, less dense error

    • warm air prevents ascending air currents and the dispersion of pollutants

    • common in valleys and urban areas

urban heat islands

  • structures eg. buildings, roads, and other infrastructure absorb and re-emit the sun’s heat more than natural landscapes such as forests and water bodies

  • urban areas become islands of higher temperature relative to outlying areas

  • result in thermal inversions and more thunderstorms

  • dust domes: pollutants including soot trapped in urban air through thermal inversions

case study: mexico city

  • megacity with over 22 million people in the metro area

    • more people, more industry, more cars

  • located at a high altitude → solar radiation is intense

  • surrounded by mountains, air can be stagnant with winter thermal invasions

  • deforestation and construction have exposed soil to wind erosion