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Chapter 15 Nonrenewable Energy. How Long Will the Oil Party Last?  Saudi Arabia could supply the world with oil for about _________.  The Alaska’s North.

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Presentation on theme: "Chapter 15 Nonrenewable Energy. How Long Will the Oil Party Last?  Saudi Arabia could supply the world with oil for about _________.  The Alaska’s North."— Presentation transcript:

1 Chapter 15 Nonrenewable Energy

2 How Long Will the Oil Party Last?  Saudi Arabia could supply the world with oil for about _________.  The Alaska’s North Slope could meet the world oil demand for ______ (U.S.: 3 years).  Alaska’s Arctic National Wildlife Refuge would meet the world demand for 1-5 months (U.S.: 7-25 months).  We have three options: Look for more oil. Look for more oil. Use or waste less oil. Use or waste less oil. Use something else. Use something else.

3 TYPES OF ENERGY RESOURCES  About _____% of the energy we use for heat comes from the ______ and the other 1% comes mostly from burning _____________. Solar energy indirectly supports wind power, hydropower, and biomass. Solar energy indirectly supports wind power, hydropower, and biomass.  About 76% of the commercial energy we use comes from _______________________ (oil, natural gas, and coal) with the remainder coming from renewable sources.

4 TYPES OF ENERGY RESOURCES  Nonrenewable energy resources and geothermal energy in the earth’s crust. Figure 16-2

5 TYPES OF ENERGY RESOURCES  Commercial energy use by source for the world (left) and the U.S. (right). Figure 16-3

6 TYPES OF ENERGY RESOURCES  Net energy is the amount of high- quality usable energy available from a resource after ________________ _______________.  The higher the ____ energy ratio, the greater the ____ energy available. Ratios < 1 indicate a net energy loss.

7 OIL  Crude oil (____________________) is a thick liquid containing hydrocarbons that we extract from underground deposits and separate into products such as gasoline, heating oil and asphalt. Only _______________% can be economically recovered from a deposit. Only _______________% can be economically recovered from a deposit. As ________________, about 10-25% more can be recovered from expensive secondary extraction techniques. As ________________, about 10-25% more can be recovered from expensive secondary extraction techniques. This lowers the net energy yield.This lowers the net energy yield.

8 OIL  Refining crude oil: Based on boiling points, components are removed at various layers in a giant distillation column. Based on boiling points, components are removed at various layers in a giant distillation column. The most volatile components with the lowest boiling points are removed at the top. The most volatile components with the lowest boiling points are removed at the top. Figure 16-5

9 OIL  Eleven OPEC (Organization of Petroleum Exporting Countries) have 78% of the world’s proven oil reserves and most of the world’s unproven reserves.  After global production peaks and begins a slow decline, oil prices will rise and could threaten the economies of countries that have not shifted to new energy alternatives.

10 OIL  Inflation-adjusted price of oil, 1950-2006. Figure 16-6

11 Heavy Oils from Oil Sand and Oil Shale: Will Sticky Black Gold Save Us?  Heavy and tarlike oils from oil sand and oil shale could supplement conventional oil, but there are environmental problems. High sulfur content. High sulfur content. Extracting and processing produces: Extracting and processing produces: __________________________ Uses and contaminates larges volumes of _______Uses and contaminates larges volumes of _______ Requires large inputs of ________which reduces net energy yield.Requires large inputs of ________which reduces net energy yield.

12 Oil Shales  Oil shales contain a solid combustible mixture of hydrocarbons called kerogen. Figure 16-9

13 NATURAL GAS  Natural gas, consisting mostly of methane, is often found above reservoirs of crude oil. When a natural gas-field is tapped, gasses are liquefied and removed as liquefied petroleum gas (LPG). When a natural gas-field is tapped, gasses are liquefied and removed as liquefied petroleum gas (LPG).  Coal beds and bubbles of methane trapped in ice crystals deep under the arctic permafrost and beneath deep-ocean sediments are unconventional sources of natural gas.

14 NATURAL GAS  Russia and Iran have ____________  _____________ of conventional gas, and global reserves should last 62-125 years.  Natural gas is versatile and ______________ fuel, but it releases the greenhouse gases carbon dioxide (when burned) and __________ (from leaks) into the troposphere.

15 NATURAL GAS  Some analysts see natural gas as the best fuel to help us make the transition to improved energy efficiency and greater use of renewable energy. Figure 16-11

16 COAL  Coal is a solid fossil fuel that is formed in several stages as the buried remains of land plants that lived 300-400 million years ago. Figure 16-12

17 Fig. 16-13, p. 369 Waste heat Coal bunker Turbine Cooling tower transfers waste heat to atmosphere Generator Cooling loop Stack Pulverizing mill Condenser Filter Boiler Toxic ash disposal

18 COAL  Coal reserves in the United States, Russia, and China could last ___________________ _________________________ The U.S. has ____% of the world’s proven coal reserves, followed by Russia (17%), and China (13%). The U.S. has ____% of the world’s proven coal reserves, followed by Russia (17%), and China (13%). In 2005, China and the U.S. accounted for ___% of the global coal consumption. In 2005, China and the U.S. accounted for ___% of the global coal consumption.

19 COAL  Coal is the most abundant fossil fuel, but compared to oil and natural gas it is not as versatile, has a high environmental impact, and releases much more CO 2 into the troposphere. Figure 16-14

20 COAL  Coal can be converted into synthetic natural gas (SNG or syngas) and liquid fuels (such as methanol or synthetic gasoline) that burn cleaner than coal. Costs are _________. Costs are _________. Burning them adds more ________ to the troposphere than burning coal. Burning them adds more ________ to the troposphere than burning coal.

21 COAL  Since CO 2 is not regulated as an air pollutant and costs are high, U.S. coal- burning plants are unlikely to invest in coal gasification. Figure 16-15

22 NUCLEAR ENERGY  When isotopes of ___________________ undergo controlled nuclear fission, the resulting heat produces steam that spins turbines to generate electricity. The uranium oxide consists of about 97% nonfissionable uranium-238 and 3% fissionable uranium-235. The uranium oxide consists of about 97% nonfissionable uranium-238 and 3% fissionable uranium-235. The concentration of uranium-235 is increased through an ______________. The concentration of uranium-235 is increased through an ______________.

23 Fig. 16-16, p. 372 Small amounts of radioactive gases Uranium fuel input (reactor core) Control rods Containment shell Heat exchanger Steam Turbine Generator Waste heat Electric power Hot coolant Useful energy 25%–30% Hot water output Pump Coolant Pump Moderator Cool water input Waste heat Shielding Pressure vessel Coolant passage Water Condenser Periodic removal and storage of radioactive wastes and spent fuel assemblies Periodic removal and storage of radioactive liquid wastes Water source (river, lake, ocean)

24 NUCLEAR ENERGY  After three or four years in a reactor, spent fuel rods are removed and stored in a deep pool of water contained in a steel-lined concrete container. Figure 16-17

25 NUCLEAR ENERGY  After spent fuel rods are cooled considerably, they are sometimes moved to dry-storage containers made of steel or concrete. Figure 16-17

26 Fig. 16-18, p. 373 Decommissioning of reactor Fuel assemblies Reactor Enrichment of UF 6 Fuel fabrication (conversion of enriched UF 6 to UO 2 and fabrication of fuel assemblies) Temporary storage of spent fuel assemblies underwater or in dry casks Conversion of U 3 O 8 to UF 6 Uranium-235 as UF 6 Plutonium-239 as PuO 2 Spent fuel reprocessing Low-level radiation with long half-life Geologic disposal of moderate & high-level radioactive wastes Open fuel cycle today “Closed” end fuel cycle

27 Case Study: The Chernobyl Nuclear Power Plant Accident  The world’s worst nuclear power plant accident occurred in _________________.  The disaster was caused by _______ reactor design ______________________.  By 2005, 56 people had died from radiation released. 4,000 more are expected from thyroid cancer and leukemia. 4,000 more are expected from thyroid cancer and leukemia.

28 NUCLEAR ENERGY  _____________________nuclear power plants, especially poorly protected pools and casks that store spent nuclear fuel rods.  Terrorists could wrap _________________ _______________ materials that are fairly easy to get, detonate such bombs, and contaminate large areas for decades.

29 NUCLEAR ENERGY  When a nuclear reactor reaches the end of its useful life, its highly radioactive materials must be kept from reaching the environment for __________________________.  At least ___________________________ reactors worldwide (20 in the U.S.) are scheduled for retirement by 2012. Many reactors are applying to extent their 40- year license to 60 years. Many reactors are applying to extent their 40- year license to 60 years. Aging reactors are subject to embrittlement and corrosion. Aging reactors are subject to embrittlement and corrosion.


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