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Chemistry and the Environment

Chemistry and the Environment. Learning Objectives. The environment consists of the lithosphere, the atmosphere, and the hydrosphere. The lithosphere serves as the source for raw materials and energy resources such as fossil fuels.

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Chemistry and the Environment

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  1. Chemistry andthe Environment

  2. Learning Objectives • The environment consists of the lithosphere, the atmosphere, and the hydrosphere. • The lithosphere serves as the source for raw materials and energy resources such as fossil fuels. • Depletion of traditional fuel sources is leading to the need for alternative/renewable fuels. • Solid waste disposal is a growing burden on the lithosphere.

  3. Learning Objectives (cont) • The atmosphere is suffering from increased levels of pollutants. • Increasing atmospheric CO2 levels have been linked to global warming through an enhancement of the greenhouse effect. • The Earth’s sunscreen, the ozone layer, has been damaged by chlorofluorocarbons. • During the hydrologic cycle, rainwater can pick up many pollutants. • Acid rain can also result from the reaction of H2O with atmospheric SO3 and NO2.

  4. Outline • Overview of the Environment • Lithosphere • The solid surface of the Earth • Atmosphere • The gaseous layer of air surrounding the Earth • Hydrosphere • The aqueous part of the Earth

  5. Outline • The Lithosphere • Traditional Energy Resources • Traditional sources of energy have included biomass and fossil fuels. • More recently, nuclear power has become an option. • Supplies of fossil fuels and uranium are limited.

  6. Evolution of fuel use

  7. Composition andEnergy Content of Various Fuels

  8. Global Reserves of Fuels

  9. Carbon andHeat Content by Type of Coal

  10. Coal mining oftenleaves environmental disaster in its wake

  11. Therefining and separation process

  12. Outline • The Lithosphere (cont) • Alternative Sources of Energy • Depletion of traditional sources of energy such as petroleum has led to the development of alternative sources of energy. • Renewable energy sources can be replenished on a short time scale; e.g., solar power and biomass. • Example: photovoltaic cells (PVCs), which convert solar energy into electricity.

  13. Schematic ofa “pressurized water” type of nuclear reactor

  14. Differenttypes of semiconductors

  15. Photovoltaic Cells

  16. 2 H2 + O2 2 H2O + energy Outline • Lithosphere (cont) • Alternative Energy Sources (cont) • Fuel cells generate electricity through an oxidation-reduction reaction for which the reactants are constantly supplied. • An example is the Proton Exchange Membrane (PEM) fuel cell based on the following reaction:

  17. In a PEM fuelcell, H2 is split into H+ and electrons

  18. Outline • The Lithosphere (cont) • Land Pollution • Solid waste disposal is a growing problem. • The Environmental Protection Agency (EPA) recommends that we “reduce, reuse, and recycle.”

  19. Solid WasteGenerated by Americans in 2003

  20. Composting

  21. Municipal solidwaste recycling rates, 1960-2003 RECYCLE!!! Source: EPA

  22. The Atmosphere

  23. The atmosphere is divided into five layers. It is thickest near the surface and thins out with height until it eventually merges with space. 1) The troposphere is the first layer above the surface and contains half of the Earth's atmosphere, which we breathe. Weather occurs in this layer. 2) Many jet aircraft fly in the stratosphere because it is very stable. Also, the ozone layer absorbs harmful rays from the Sun.

  24. Atmosphere, continued 3) Meteors or rock fragments burn up in the mesosphere.4) The thermosphere is a layer with auroras. It is also where the space shuttle orbits. 5) The atmosphere merges into space in the extremely thin exosphere. This is the upper limit of our atmosphere.

  25. Composition of Dry Air at Sea Level

  26. Outline • The Atmosphere • The Nitrogen Cycle • The atmosphere at sea level is comprised of 78% N2 and 21% O2. • The nitrogen cycle is the exchange of nitrogen atoms between the living and non-living parts of the environment. • During nitrogen fixation, atoms from atmospheric N2 are incorporated into biologically useful nitrogen-containing molecules.

  27. The Nitrogen Cycle

  28. Nitrogen-Fixation Reactions

  29. Outline • The Atmosphere (cont) • Air Pollutants • Pollutants (chemicals in the wrong place at the wrong concentration) can occur naturally or from human activity. • EPA’s six major air pollutants are SO2, particulate matter (PM), CO, NOx, O3, and Pb. • Depending on atmospheric conditions, pollution can result in industrial smog or photochemical smog.

  30. EPA’s Principal (Primary) Air Pollutants

  31. Secondary pollutants areformed in the atmosphere through chemical and photochemical reactions from the primary pollutants examples include: • sulfuric acid H2SO4 - can cause respiratory problems • nitrogen dioxide NO2 - gives air a brownish coloration ozone O3 - colorless gas, has a sweet smell, is an oxidizing agent, irritates the eyes

  32. Photochemical Smog

  33. Sunlight + emissions fromcars and power plants = photochemical smog Created by forest fires and the combustion engine N2 + O2 2NO NO + O2 NO2 (a corrosive brown gas) 4 NO2 + 2H2O + O2  4 HNO3 (nitric acid)

  34. LA. smog: • requires clear, sunny skies • NOx + ROG + sunlight --> O3 + NO2 • ROG are reactive organic gases from unburned • gasoline • NOx are oxides of nitrogen

  35. Review the Components of Photochemical Smog

  36. Industrial Smog The Source: Burning Coal Thermal Inversion, in which a blanket of warm air above a low lying layer of cooler air traps pollutants (SO2, CO, NO2) near the ground. Production of Sulfur compounds that arise from coal combustion originates with the release of sulfur within the coal as sulfur dioxide: S + O2 SO2 Which is a choking gas in its own right, reacts further with atmospheric O2, which forms sulfur trioxide and combines with water vapor to form sulfuric acid (H2SO4) 2SO2 + O2 SO3 + H2O  H2SO4 Contributes to acid rain

  37. A thermal inversioncaused air pollution in London in the 1950s Thermal inversion occurs when a layer of warm air settles over a layer of cooler air that lies near the ground. The warm air holds down the cool air and prevents pollutants from rising and scattering. Credit: Getty Images

  38. Air pollution at theGreat Smoky Mountains National Park Credit: Corbis

  39. Strategies to Reduce Photochemical Smog Reduce the number of automobiles on the road More efficient gasoline-dispensing systems to reduce the release of hydrocarbons into the atmosphere and catalytic converters to improve the efficiency of combustion, gas-electric hybrid vehicles, reduced tailpipe emissions, and fuel efficiency. Strategies to Reduce Industrial Smog Cut down on PM and sulfur compounds Scrubbers that pass emission gases through water and filters that act like vacuum cleaners and remove sulfur compounds through a chemical treatment with limestone (CaCO3): CaCO3(s)+ SO2(g)  CaSO3(s) + CO2(g)

  40. Declining mean blood lead levels for U.S. children age 5 and younger Source: EPA

  41. Thomas MidgleyJr. invented Chlorofluorocarbons (CFCs) and tetraethyl lead Credit: Kettering University

  42. Outline • The Atmosphere (cont) • Global Climate Change (Global Warming) • The greenhouse effect is a warming of the Earth by a layer of gases that trap the sun’s energy. • Human activity appears to be causing an increase in the amount of atmospheric CO2. • Increased atmospheric CO2 appears to be enhancing the greenhouse effect, leading to an increase in average global temperatures.

  43. CO2 levels arestill increasing in the atmosphere Source: National Oceanic and Atmospheric Administration (NOAA).

  44. The Earth'satmosphere acts like the glass in a greenhouse

  45. Rising global temperatures Source: NASA

  46. Aerosolscan block out solar radiation

  47. CF2Cl2 + UV light CF2Cl + Cl• • Cl• + O3 ClO • + O2 • ClO • + O Cl•+ O2 Outline • The Atmosphere (cont) • Ozone Depletion • Ozone forms the Earth’s sunscreen. • Chlorofluorocarbons, formerly used as propellants and refrigerants, break down in the upper atmosphere to form free radicals that degrade the ozone layer.

  48. Ozone holeover Antarctica, October 1979

  49. Ozone holeover Antarctica, October 1986

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