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ATMOSPHERIC POLLUTION. Chapter 21. Donora – Pennsylvania, Oct 26,1948. Air-pollution essentials. Constituents of the atmosphere. N2 78.08% O2 20.95% Ar 0.93% CO2 0.03% Water vapor 0 – 4%
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ATMOSPHERIC POLLUTION Chapter 21
Constituents of the atmosphere N2 78.08% O2 20.95% Ar 0.93% CO2 0.03% Water vapor 0 – 4% 40 trace gases (O3, He, H, NOx, SO2, Ne) Aerosol, dust, C particles, pollen, sea salts, microorganisms
Air pollutants • Substances in the atmosphere that have harmful effects. Depends on: • Amount of pollutant • Amount of space • Mechanism that removes the pollutant from air
Atmospheric cleansing • Three natural occurring cleansers: • Hydroxyl radical (OH) • Sea salts • Microorganisms
Appearance of smog • Industrial smog: • Acombination of smoke and fog • An irritating grayish mixture of soot, sulfurous compounds and water vapor
Appearance of smog • Photochemical smog • Brownish irritating haze • Produced when several pollutants from automobile exhausts react with sunlight
Impact of Smog • Long term temperature inversions can produce a build up of pollutants to dangerous levels • Smog causes headaches, nausea, eye and throat irritationand aggravate preexisting respiratory conditions • Air pollution affects trees and plants • Accelerates metal corrosion and the deterioration of rubber, fabrics and other materials.
Types of air pollutants • Primary pollutants • Combustion of coal, gasoline, other liquid fuels and refuse • CH4 + 2O2 CO2 + 2 H2O • Evaporation and strong winds • Secondary pollutants
How ozone and other photochemical oxidants form? In the absence of VOCs • NO2 NO +O • O + O2 O3 • NO + O3 NO2 + O2
How ozone and other photochemical oxidants form? With VOCs • NO2 NO +O • O + O2 O3 • NO + VOCs PANs • VOCs + O Aldehydes, ketones Accumulation of ozone, VOCs, aldehydes and ketones
Acid deposition • Acid precipitation • Any precipitation that is more acidic than usual • Acid deposition • Combination of precipitation and dry particle fallout
Acids and bases • pH: concentration of hydrogen ions • Acid: any chemical that releases hydrogen ions when dissolved in water • HCl, H2SO4, HNO3, H2CO3 • Base: any chemical that releases hydroxide ions • NaOH, Ca(OH)2, KOH, NH4OH
Extent and potency of acid precipitation • Rainfall pH 5,6 • CO2 + H2O H2CO3 • Acid precipitation pH 5,5 or less • SO2 + OH- H2SO4 • NOx + OH- HNO3
Natural vs anthropogenic sources Anthropogenic sources • Industry • Transportation • Fossil fuel and Coal burning electric utility plants Natural sources • Sulfur dioxides • Volcanoes • Sea spray • Microbial processes • Nitrogen oxides • Lighting • Burning biomass • Microbial processes
Impacts of air pollutants Health and Environment
Effects on human health • Chronic effects: • Long term exposure to SO2 bronchitis • Inhalation of ozone inflammation / fibrosis of lungs • CO2 reduced capacity of the blood to carry oxygen • CO heart disease • NOx impairs lung function/ affects the immune system • Particulate matter respiratory and cardiovascular pathologies. • Allergens and other compounds in polluted air Asthma • Lead mental retardation, high blood pressure (banned on 1996)
Effects on human health • Acute effects • In severe cases air pollution may cause death • Air pollution may increase pre-existing symptoms.
Effects on human health • Carcinogenic effects • One major source of carcinogens is diesel exhausts. • Soot • Benzene • Found in motor fuels, manufacture of detergents, explosives and pharmaceuticals, tobacco smoke • Causes leukemia and other blood disorders and damage to the immune system.
Effects on the environment • Crop damage • Forest damage
Effects on the environment • Materials and aesthetics • Visibility
Effects on the environment • Acid deposition in aquatic ecosystems • Higher organisms die off • Leach aluminum and various heavy metals from the soil
Buffering capacity of aquatic ecosystems • Buffer: a substance that, when present in a solution, has a large capacity to absorb hydrogen ions and thus maintain the pH at a relatively constant value.
Clean air act (1970) • Law administered by the EPA • Foundation of U.S. air pollution control efforts • Calls for • identifying the most widely spread pollutants • Setting ambient standards • Establishing control methods and timetables to meet standards.
National Ambient Air Quality Standards (NAAQS) • Standards for primary pollutants known as criteria pollutants • Primary standard is based on the presumed highest level that can be tolerated by humans without noticeable ill effects minus a 10% to 50% margin of safety • Short term standards are set to protect against acute effects • Long term standards are set to protect against chronic effects.
National ambient air quality standards for criteria pollutants
National Emission Standards for Hazardous Air Pollutants (NESHAPs) • Issued for eight toxic substances • Arsenic • Asbestos • Benzene • Beryllium • Coke-oven emissions • Mercury • Radionuclides • Vinyl chloride • The clean air act of 1990 extended this section naming 188 toxic air pollutants for the agency to track and regulate.
Control strategies • Command and control • Industry was given regulations to achieve a set of limits on each pollutant • A local government agency would be in control • Difficult to implement • Total air pollutants were reduced by 48%
Control strategies • Reducing particulates • The CAA mandated a phase-out of open burning of refuse and required that particulates from industrial stacks be reduced to “no visible emissions” • To reduce PM industries were required to install filters, electrostatic precipitators and other devices. • In 1997 the EPA added a new ambient air quality standard for particulates (PM2.5) • 1990 Clean Air Act Amendments (CAAA) target specific pollutants under the control of a State Implementation Plan (SIP). Polluters obtain a permit that identifies the type of pollutant released, quantities and steps taken to reduce pollution. Permit fees provide funds for States to use in their air-pollution control activities. • Under the CAAA, states that fail to attain the required levels must submit attainment plants based on reasonably available control technology (RACT) measures
Limiting pollutants from motor vehicles • CAA mandated a 90% reduction of emissions by 1975 • A new car emits today 75% less pollution that pre-1970 cars
How are pollutants limited in motor vehicles? • Reduction in the size of passenger vehicles • Pollution control devices • Catalytic converter
CAAA changes for motor vehicles • New cars sold in 1994 and thereafter were required to emit 30% less VOCs and 60% less NOx that cars sold in 1990 • Starting in 1992 in regions with continuing carbon monoxide problems, oxygen was to be added to gasoline • Initiate inspection and maintenance programs in metropolitan areas
Managing ozone • The best way to reduce ozone levels is to reduce the emissions of VOCs • Motor Vehicles (50%) • Point sources: industries (30%) • Area sources: dry cleaners, print shops, household products (20%) • VOC emissions have declined 35% • A reduction of NOx levels should remove the ozone further.
Controlling toxic chemicals in the air • Under the CAAA, 188 toxic pollutants were identified • EPA was in charge to identify sources and develop maximum achievable control technology (MACT) standards. • Options for substituting nontoxic chemicals • Giving industry some flexibility to achieve goals • Giving the state and local authorities the responsibility of control • Requiring cleaner burning fuels in urban areas
Coping with acid deposition • Political developments • States where coal-burning power plants produced most of their electrical power blocked attempts to pass a legislation to take action on acid deposition • Other states, the scientific community and Canada’s diplomacy put pressure toward a resolution.
Coping with acid deposition • Political developments • As a result the Title IV of the CAAA was passed • Mandates a reduction in both sulfur dioxide and nitrogen oxide levels • Provides emission allowances regulated by the EPA
Coping with acid deposition • Accomplishments of Title IV • Many utilities are switching to low sulfur coal • Many utilities are adding scrubbers (liquid filters) • Many utilities are trading their emission allowances
Cost vs benefit • Measures taken to reduce air pollution carry an economic cost • The Office of Management and Budget (OMB) found that the yearly benefits of environmental regulations ranged from $121 to $193 billion, while the costs ranged from $37 to $43 billion • New source review • CAA requires all power plants and other polluting industrial facilities built after 1970 to incorporate “best available” pollution control technology. • Political and economical disagreements arose.
Clear skies act • Addresses three major pollutants simultaneously: SO2, NOx and mercury • Applies a cap and trade strategy: • Cut SO2 emissions to a cap of 3 million tons • NO x emissions to a cap of 1.7 million tons • Mercury to a cap of 15 tons • Proposes to achieve goals by 2018
Getting around • Half of the major air pollutants come from vehicles • Raising CAFE standards would help to address: • Dependence on imported oil • Health issues from smog and particulates • Carbon dioxide emissions and global climate change • Auto industry, fossil fuel industry and politicians continue to resist raising CAFÉ mileage requirements • Options considered to reduce automobile emissions include • Emission free vehicles: powered by electricity • Hybrid cars • Partial zero-emission vehicle: uses super clean gasoline • Mass transit ridership