1. Alternative Energy Sources 90% of the energy used today is in the form of fossil fuels. Forms of energy OTHER than fossil fuels are termed “alternative” energy sources.

2. Alternative energy sources can be divided into two main categories. 1)Non-renewable energy sources -nuclear power -geothermal power

3. Geothermal Energy: heat energy from the Earth -the conversion of natural heat from the Earth’s interior to heat buildings and generate electricity. -considered a non-renewable source when extraction rates are greater than supply.

4. High vs. Low temp Geothermal Low Temp: Use of groundwater, Which is 55 F year round. Deep wells (over 100 feet) are dug, and groundwater is used as a heat source in winter, and as a coolant in summer. Initial costs are higher, but cost to run is much lower, and uses little fuel.

7. Outlook: excellent, low temp geothermal is becoming much cheaper to install, and the technology is already in place for it to become successful. High Temp. Geothermal: using hot water from the Earth as an energy source. -uses water heated from features such as geysers and volcanoes

10. -direct heating of buildings, as well as electricity generation. -steam generated within volcanic areas is used to turn turbines, which generate electricity. Outlook: Limited, because areas with enough volcanic activity are not widespread. Great success in areas where geothermal activity is high (Iceland, California)

11. Bath, England, with its natural hot springs, is the site of an elaborate Roman public bath built in the first century

12. People bathing in Blue Lagoon near Grindavik, Iceland

14. 2) Renewable Energy Sources -Solar power -Wind power -Hydropower -Ocean currents/tidal -Biomass energy

15. Solar Energy The amount of incoming solar energy is immense. -in 10 weeks, the amount of incoming solar energy would equal the energy of all known fossil fuel reserves. -Distribution is variable, due to climate,location on Earth, etc…

16. Passive vs. Active Solar Energy -Passive solar energy collection most often involves the design of buildings, etc., to maximize the collection of Suns energy. No energy is spent. -Orientation of building to face south -Glass walls to collect sunlight -“Thermal Mass” to hold warmth (brick/stone walls, beds of stone)

20. -Active solar collection requires energy to run pumps for circulation of water or air, or to move collectors orientation to follow the sun. -water/air filled solar panels, with pumps to move heat to where it is needed. -The Luz Solar Electric generation system uses heated oil to generate steam, which then generates electricity in a turbine. Located in the Mojave Desert, U.S.

21. The Luz Solar Electric Generation System

25. Photovoltaic Solar: Electricity is created directly from special solar panels.

31. Hydrogen Power: Hydrogen has the potential to be the largest energy source of all. Clean Burning (only water as exhaust!) Inexhaustible supply, which is recycled No fancy new drilling technology needed!

32. Ways to create Hydrogen Gas 1)Electrolysis: breaking water into Hydrogen and Oxygen using electricity. -uses lots of power to accomplish -if harnessed to solar geothermal or wind power, the Hydrogen could be free.(Iceland is banking on it!) 2) Stripping Methane of Hydrogen: using steam to remove the 4 hydrogen atoms from CH 4. -still uses a fossil fuel, and releases Carbon Dioxide gas in the process.

33. Water Power: Hydro-power is a good alternative energy source, because it is essentially unlimited. -Direct hydro-power: using moving water to turn machinery, such as a mill. -Hydro-electric power: using the power of water to turn an electric generator, such as in a dam.

35. Hydroelectric Power Generation Power is generated by harnessing the energy of falling water. The greater the difference in water level, the more energy

37. Outlook for Hydropower: The outlook is generally good for hydro-power, although there are a few drawbacks. Dams prevent the migration of fish, and also prevent the natural flows of rivers, causing sedimentation behind the dam.

38. Water level Original Level of Sediment New level of Sediment Dam Water Flow

39. Tidal/Current Power: generation of electricity from movement of ocean tides or currents. Rising tides are trapped behind a dam, then released to turn a generator. Also some work on ocean buoys that harness the movement of water to generate electricity.

45. Outlook: Generally good, but tidal energy can only be used in areas where tides are of sufficient height to warrant an electrical station. High costs may be associated. Offshore buoys would need electrical transmission lines along the ocean floor.

46. Wind Power: generation of electricity using wind to turn turbines. Free energy, but needs to be in an area that has constant winds with enough velocity to warrant placing windmills. Best used in particular sites with a good steady supply of wind.

50. Outlook: Wind power will continue to grow, but in limited areas. Some disadvantages and concerns exist. Windmills kill birds, and interfere with migratory patterns. Large windmill farms take up large areas of land. Windmills also produce noise, which may be objectionable.

52. Biomass Energy: energy from organic matter. Probably the first source of energy for man, this energy is renewable and abundant. Already in use in many places, such as sugar plantations and saw mills. Also includes the burning of urban waste, in “trash to steam” plants.

53. Outlook: Biomass fuel will continue to be a large part of the alternative energy picture. However: Environmental degradation can and will occur if the biomass is not harvested in a renewable manner. Burning biomass causes pollution, especially air pollution, and leaves ash behind. The ash can be very toxic.

54. Will the energy future include fossil fuels? -There are a few “new” sources of fossil fuels which may play a role in the future. -They are still NON-RENEWABLE. -They still cause pollution (in varying amounts) But there is a potential for LOTS of energy!

55. Oil Shale and Tar Sands Deposits of sedimentary rock containing significant amounts of petroleum. Oil Shale: yields as high as 14 gal per ton of rock, 3 trillion barrels total (2/3 of which are in the U.S.) Tar Sands: Known reserves in Canada of 2 trillion barrels.

56. Problems with Oil Shale and Tar Sands Both require extensive mining operations to be carried out. Some in protected areas. Disposal of mine tailings/overburden (20-30%larger in volume than original rock.) Possibility of acid mine drainage and runoff Outlook: uncertain, at least until other possibilities are explored,and prices enable mining and proper reclamation of mined areas.

57. Methane Hydrates White, ice-like compound consisting of Methane (CH 4 ) and water. A potential source of energy, as large as twice the known reserves of gas, oil, and coal COMBINED. Found in very deep ocean sediments (over 1000 feet in depth)

58. Outlook: Drilling technology has not caught up, and until it does, it is not possible to drill. Methods to capture and transport the gas will be necessary. Higher gas prices will be needed to support the large expense of exploration and drilling

59. The Future of Alternative Energy Alternative energy sources will play larger roles in the future, but each needs to be utilized in a manner which damages the environment as little as possible. Energy sources will need to be mixed, to use them to their maximum potential.