1 / 23

Energy Resources and Consumption

Energy Resources and Consumption. Areas Tested. Energy Concepts Energy, forms, power units, conversions, and laws of thermodynamics Energy Consumption History – Industrial Revolution, exponential growth, and energy crisis Present global energy use Future energy needs

mercia
Download Presentation

Energy Resources and Consumption

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Energy Resources and Consumption

  2. Areas Tested • Energy Concepts • Energy, forms, power units, conversions, and laws of thermodynamics • Energy Consumption • History – Industrial Revolution, exponential growth, and energy crisis • Present global energy use • Future energy needs • Fossil Fuel Resources and Use – formation of coal, oil, and natural gas, extraction/purification methods, world reserves and global demand, synfuels, and environmental advantages/disadvantages of sources

  3. Nuclear Energy – nuclear fission process, nuclear fuel, electricity production, nuclear reactor types, environmental advantages/disadvantages, safety issues, radiation and human health, radioactive wastes, and nuclear fusion • Hydroelectric Power - dams, flood control, salmon, silting, and other impacts • Energy Conservation - energy efficiency, CAFE standards, hybrid electric vehicles, and mass transit • Renewable Energy - solar energy, solar electricity, hydrogen fuel cells, biomass, wind energy, small-scale hydroelectric, ocean waves and tidal energy, geothermal, amd environmental advantages/disadvantages

  4. Energy Concepts • See packet for energy forms and units • See free-response for and example of a conversion problem • MW to kW to kWh/yr • First Law of Thermodynamics • Energy can not be created or destroyed • Second Law of Thermodynamics • When energy is converted from one form to another a less useful form results • Most of the energy lost is lost as heat and is considered low-quality energy

  5. Energy Consumption • History • wood was the predominant form of energy until the Industrial Revolution • During the Industrial Revolution coal became the primary source • 20th century has seen petroleum overtake coal but natural gas and coal has seen an increase in the later half of the 20th century

  6. Present Global Use • US was self-sufficient until the late 1950s • Industrial, Transportation, residential and commercial (greatest to least amount used) • US accounts for 25% of the world consumption of petroleum (tar, oil, and natural gas) • See comparison chart of production vs consumption • Future Energy Needs • The forecast is a continued reliance of oil, natural gas and coal • Viable resources are clean coal, methane hydrates, oil shale, and tar sands

  7. Clean coal • This technology refers to the process that reduces the negative environmental impact of burning coal • The coal is washed and the sulfur dioxide and carbon dioxide gas is captured (see picture) • Other forms of clean-coal technology has to do with natural gas or microbial fuel cells which are charged from biomass or sewage • Methane Hydrates • Methane locked in ice – found in permafrost and deep beneath the ocean floor • Type of natural gas can create a greater amount of carbon dioxide a greenhouse gas

  8. Oil Shale • Contains an organic material called kerogen that converts to oil in the absence of air • Net energy considered moderate due to the energy needed to put into extracting it • Huge negative environmental impact due to surface mining • Can be mined underground through heating it in the ground and extracting the oil and gases though this can affect aquifers • Tar Sands • Contain a semisolid form of oil called BITUMEN • Similar issues with oil shale – oil in tar sands represents two-thirds of the world’s total oil reserves

  9. Fossil Fuel Resources and Use • Coal • Produces by ancient organic matter (286 million year old) under high temperature and pressure • Lignite – softest and lowest heat content • Subbituminous – lower sulfur content leading to cleaner burning fuel • Bituminous - high sulfur content and most plentiful in the US – use to make electricity • Anthracite – hard and high heat component and relatively low sulfur content – home heating least amount

  10. Oil • Fossil fuel produced by the decomposition of deeply buried organic material under high temperature and pressures for millions of years • Natural Gas • Known as methane produced by decomposition of organic matter under high temp and pressure usually found along with oil reserves • Can be liquefied mainly for easy worldwide distribution

  11. Extraction-Purification Methods • Coal – largest in China • Surface mining and underground mining • Removal of foreign material, screening for size, crushing, and washing to remove contaminants • Oil – Middle East • Expensive machinery used to drill a well…initially high pressure and later pumped • Sent to a refinery to be ‘cracked’ which is where it is separated by its boiling points (see picture) • Natural Gas – Russia and Kazakhstan • Flows from wells under its own pressure and is collected by small pipelines that feed into the large gas transmission pipelines • Removal of water and condensates

  12. Synfuels • Liquid fuel synthesized from a non petroleum source such as coal (shale oil and synthetic natural gas) • Pros • Easily transported through pipelines • Produces less air pollution • Large supply of raw materials to meet current demands for hundreds of years • Can produce gasoline, kerosene, or diesel directly without cracking or refining • Cons • Low net energy yield and use of energy to produce most • Plants are expensive and increase depletion of coal • More expensive product than petroleum products

  13. Nuclear Energy • Nuclear fission – an atom splits into two or more smaller nuclei along with by-product particles (neutrons, photons, gamma rays, and beta and alpha particles) • If controlled – heat produced makes steam that turns generators that produce electricity • If NOT controlled – nuclear explosion

  14. Nuclear Fuel • U-235 – called enriched uranium, nuclear weapons contain 85% or more, nuclear power plants contain about 3% • U-238 – most common isotope, hit with neutrons to decay into Pu-239, most depleted uranium • Pu-239 – 1/3 of energy produced in a typical commercial plant, amount of Pu-239 produced is regulated and control rods have to be changed frequently due to the build up of Pu-239 and Pu-240 – can be used for nuclear weapons

  15. The US produces the most nuclear energy but it only makes up 19% of the energy we consume • France produces the highest percentage of what it consumes at 78%

  16. Types of reactors • Light-water, heavy-water, and graphite-moderated • Common features • The core contains up to 50,000 fuel rods each stacked with many fuel pellets • Uranium oxide is the fuel: 97% U-238 and 3% U-235 • Control rods move in and out to absorb neutrons and slow down the reaction • Neutron moderator is a medium that reduces the velocity of fast neutrons making them capable of sustaining a nuclear chain reaction (water, graphite – produces plutonium for weapons, or deuterium oxide – heavy water) • Coolant removes heat and produces steam to generate electricity • See the Price-Anderson Nuclear Indemnity Act - 1957

  17. Health Risks • Premature death per year • Nuclear – 6,000 • Coal – 65,000 • Genetic defects/damage • Nuclear – 4,000 • Coal – 200,000

  18. Nuclear Fusion • Two or more atomic nuclei joining together to form a single heavier nucleus • Not yet controlled enough for use as nuclear power

  19. Hydroelectric Power • Supplies 10% of the electricity in the US and 3% worldwide • Flood control • Channelization • Dams • Identify and manage flood-prone areas • Levees or floodwalls • Preserve wetlands • Salmon • Migratory runs blocked and many spawning and rearing habitats are destroyed • Fish passage facilities and fish ladders to help juvenile and adult fish migrate over or around dams

  20. Other impacts • Disease – breeding grounds for mosquitoes, snails and flies • Displacement – behind dams destroy rich croplands and displace people • Effects on watershed – downstream deprived of nutrient-rich silt • Impact on wildlife – migration and spawning cycles • Silting – forms behind the dam • Water loss – evaporation and seepage

  21. CAFE standards • Corporate Average Fuel Economy • The average fuel economies of a manufacturer’s fleet of passenger cars or light trucks • Standards have not improved since 1996 • Could be expanded to include • Transition to a hybrid technology • Performance-based tax credits • Optimizing transmission improvements

  22. Hybrids • Parallel hybrid – gas engine and electric engine work at the same time – Honda Insight • Parallel-split hybrid – can change back and forth with the engine charging the batteries – Toyota Prius • Plug-in hybrid – plug in each time and used first, when used up changes to fuel tank

  23. Renewable Energy • Solar Energy • Hydrogen Fuel Cells • Biomass • Wind Energy • Small scale Hydroelectric • Ocean Waves and Tidal Energy • Geothermal

More Related