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Earth’s Energy and Mineral Resources

Earth’s Energy and Mineral Resources. Chapter 5. Energy. The ability to create change. Nonrenewable Resources. Resources that are being used faster than natural processes can replace them. Fossil fuels Fuels that form from the remains of buried organisms. Coal, oil, natural gas. Coal.

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Earth’s Energy and Mineral Resources

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  1. Earth’s Energy and Mineral Resources Chapter 5

  2. Energy • The ability to create change.

  3. Nonrenewable Resources • Resources that are being used faster than natural processes can replace them. • Fossil fuels • Fuels that form from the remains of buried organisms. • Coal, oil, natural gas

  4. Coal • Most abundant fossil fuel in the world. • Is a rock that contains at least 50% plant remains. • At current rate of use, coal will last for another 250 years.

  5. Synthetic Fuels • Fuels extracted from solid organic material, such as coal. • Hydrocarbons are extracted from the coal to form liquid and gaseous synthetic fuel.

  6. Stages of Coal Formation • As plant material decays it loses gas and moisture and increases in carbon content. • Stage 1 – Peat • Organic sediment with a high concentration of water and impurities • Stage 2 – Lignite • Soft, brown coal formed from the burial and pressurization of peat • Stage 3 - Bituminous Coal • Soft coal that is compact, black, and brittle • Stage 4 – Anthracite • Cleanest burning coal because it has the highest carbon content

  7. Oil • Thick, black liquid formed from the buried remains of microscopic marine organisms. • Composed of hydrocarbons.

  8. Natural Gas • Often forms with oil. • Composed of hydrocarbons. • Enough natural gas is located in the US to last about 60 more years.

  9. Formation of Oil and Natural Gas • Tiny marine organisms called plankton die and are buried by sediment. • Pressure and heat change the organisms to natural gas and oil. • Because both oil and gas are lighter than water, they move toward the surface of the earth. • While moving up, they may be trapped under an folder layer of impermeable rock such as shale. • Shale is known as a caprock. • The rock layer underneath the caprock is known as a reservoir rock.

  10. Coal Mining • Strip mining • Used when coal deposits are close to the surface. • Layers of soil and rock are removed and piled to the side • Coal is removed • Soil is replaced and trees are planted through land reclamation.

  11. Coal Mining • Underground coal mining • Tunnels are dug in order to remove the coal. • Drift mining • Coal close to the surface is removed through horizontal openings in the sides of hills or mountains. • Slope mining • An angled opening and air shaft are made in the side of the mountain to remove the coal.

  12. Drilling for Oil and Gas • Wells are drilled down to rock layers that may have oil and gas deposits. • Wells are lined with pipe to prevent collapse. • Once the targeted layer is reached, equipment to control the flow of oil. • Surrounding rock is fractured to allow oil and gas to flow into the well. • Oil and gas are pumped to the surface.

  13. Fossil Fuel Reserves • Fossil Fuel Reserve • Amount of a fossil fuel that can be extracted at a profit using current technology. • Fossil Fuel Resource • Fossil fuels that are concentrated enough that they can be extracted in useful amounts.

  14. Methane Hydrates • Stable molecules found trapped in ice structures in ocean floor sediments • Form under relatively low temps and high pressures. • Estimated to contain more carbon than in all current fossil fuel deposits combined.

  15. Nuclear Energy • Nuclear fission • The splitting of heavy elements to produce energy. • Carried out in nuclear power plants using uranium. • Uranium fuel rods sit in water inside a nuclear reactor. • Neutrons are fired into the fuel rod, splitting the uranium atoms which produces heat and releases more neutrons to hit other atoms. • Heat causes the water to produce steam which drives a turbine, which turns a generator that produces energy. • Process produced radioactive wastes that must be stored at least 10,000 years.

  16. Nuclear Energy • Fusion • Materials with low mass are fused to produce a substance with higher mass. • Occurs naturally in the sun (hydrogen is fused into helium).

  17. Inexhaustible Energy Resources • Energy sources that are constant and will not run out. • Sun • Wind • Water • Geothermal

  18. Solar Energy • Solar cells • Actively collect energy from the sun and transform it into electricity. • Disadvantages • Only works when sunlight is available

  19. Wind Energy • Windmills • Use wing to produce energy. • Wind Farm • Large number of windmills in one area. • Disadvantages • Not consistent • Wind must blow at certain speeds

  20. Energy from Water • Hydroelectric Energy • Electricity produced with water power. • Water released through dams turn turbines which then turn generators that produce electricity. • Disadvantages • Environmental concerns with loss of habitat, increased erosion, and increased sediment deposition.

  21. Energy from the Earth • Geothermal energy • Energy obtained using hot magma or hot, dry rocks inside the Earth. • Heated groundwater produced steam which is used to turn turbines which turn generators which produce electricity.

  22. Renewable Energy Resources • Energy sources that can be replaced in nature or by humans in a relatively short period of time (within the lifetime of a human).

  23. Biomass Energy • Energy derived from burning organic materials such as wood, alcohol, and garbage.

  24. Wood • Disadvantages: • Small particles are released into the air when burned. • Habitat is destroyed.

  25. Alcohol • Gasohol • Ethanol, produced during the distillation of corn, mixed with gasoline • Disadvantages • Currently takes abundant energy to produce

  26. Garbage • Approximately 2/3 of garbage is burnable. • Garbage can be burned to heat water, producing steam used to drive generators. • Disadvantages • Air pollution and heavy metals

  27. Mineral Resources • A deposit of useful minerals

  28. Metallic Mineral Resources • Ores • Deposits in which minerals exist in large enough amounts to be mined for profit. • Mineral must be in demand • Enough mineral must exist to make mining profitable • Must be fairly easy to separate from rest of the material

  29. Metallic Mineral Resources • Refining Ore • After the ore is mined, it is crushed and waster rock (called gangue) is removed • Once the mineral is removed it is refined in processes such as smelting in order to be as pure as possible.

  30. Nonmetallic Mineral Resources • Any mineral resources not used as fuels or as sources of metal. • Divided into two groups: • Industrial minerals • Building materials

  31. Nonmetallic Mineral Resources • Examples of Industrial Minerals • Sylvite is used in fertilizers • Halite is used for various salts • Corundum and garnet are used as abrasives • Examples of Building Materials • Aggregate and limestone in concrete • Gypsum in plaster and wallboard • Various rocks as building blocks/sheets

  32. Recycling Mineral Resources • Using old materials to make new ones • Advantages: • Reduces the demand for new mineral resources • Uses less energy to make product • Profit

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