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Alternative sources of energy

Alternative sources of energy. Renewable energy sources ( 可再生能源 )are derived from natural process and can be generated in a relatively short time. Photovoltaic cells. A wind turbine. 光伏電池. A hydroelectric power plant. A geothermal( 地熱 ) power plant. A tidal( 潮汐 ) power plant.

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Alternative sources of energy

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  1. Alternative sources of energy • Renewable energysources (可再生能源)are derived from natural process and can be generated in a relatively short time. Photovoltaic cells A wind turbine 光伏電池

  2. A hydroelectric power plant A geothermal(地熱) power plant A tidal(潮汐) power plant A biomass(生物質能)factory

  3. Non-renewable energy sources(不可再生能源) cannot be regenerated in a relatively short time. Petrol, a derivative from petroleum Coal Uranium fuel

  4. Example 4.1 Solar energy • Solar energy is the energy we obtained directly from the Sun as it is shining over the Earth all the time. • Solar radiation power per unit area received at the top of the Earth’s atmosphere is the solar constant太陽常數(≈1360 W m–2).

  5. Solar collector Solar heating(太陽能加熱) • Solar energy can be used to cook or heat up water. Solar water heater

  6. Solar electricity • Solar electricity usually refers to the use of a solarcell, or a photovoltaic cell, to generate electricity. A solar cell and its structure

  7. At the p-n junction, an electric field points from the n-side to the p-side. When light shines on the junction, an electron leaves an atom and moves to the n-side. On losing an electron, the atom becomes a positively charged ‘hole’. The electric field causes the electrons from theneighbouring atoms to fill up the vacant sites, so thepositive hole appears to move to the p-side. Formation of an electron-hole pair at the p-n junction

  8. Working principle of a solar cell Example 4.2 Checkpoint (p.109) O Current is produced when sunlight is incident on the solar cell.

  9. Wind turbine Wind power • Wind is produced by the movement of air from regions of high pressure to regions of low pressure. • A modern wind turbinecaptures wind to rotate its bladesand drive the gearboxbehind. • The kinetic energy of the wind is thus converted into electrical energy. Structure of a wind turbine

  10. Example 4.3 Checkpoint (p.113) O • The maximum power obtained from a wind turbine is where ρ and v are the density and velocity of air respectively, and A is the swept area of the wind turbine. In time t, the volume of air passing through the wind turbine is Avt.

  11. Hydroelectric power Hydroelectricity (Hydroelectric power) • Hydroelectricity is currently the largest renewable energy source in the world. • It makes use of the conversion of potential energy of the water to the electrical energy. Water gains kinetic energy when running down.

  12. Example 4.4 Checkpoint (p.115) O A hydroelectric power plant Schematic structure of a hydroelectric power plant

  13. Nuclear power • There is a very strong attractive force which holds the nucleons together in a nucleus. • This force is associated with a large amount of energy, which is known as the binding energyEb of a nucleus. • The average binding energy per nucleon is found from dividing the binding energy Eb of a nucleus by the mass number A. An atom consists of a massive nucleus surrounded by a cloud of electrons.

  14. Binding energy curve

  15. In nuclear fission, an atomic nucleus splits into two or more smaller nuclei involves the splitting of atomic nuclei.

  16. In nuclear fusion, two or more atomic nuclei merge to form a larger nucleus.

  17. Example 4.5 Example 4.6 • The amount of energy released can be calculated from the mass defectof the reaction.

  18. Chain reaction of uranium-235

  19. Fuel rods contain 3% of uranium-235 for fission chain reaction to take place. • Control rods are used to absorb excessive neutrons and slow down the reaction. • Moderatoris used to slow down the fast neutrons and as an absorber of heat from the fuel rods. • Coolant is used to cool down the steam or water passed through the turbine. Structure of the nuclear reactor in a nuclear power plant

  20. Nuclear power plant Checkpoint (p.122) O Schematic diagram of a nuclear power plant

  21. Energy, society and environment • The use of energy is crucial to the development of a modern society. Factories consume a lot of electricity. Modern transportation allows people and resources to move around at high speeds across the globe.

  22. Because of the depletion (消耗)of fossil fuels, we make use of alternative energy sources to replace the fossil fuel. We depend heavily on fossil fuels such as oil.

  23. Nuclear power is an abundant energy source which produces virtually no emissions, and its energy cost is comparable to that of fossil fuel power plants. A nuclear power plant

  24. However, the disposal of nuclear waste and risk of nuclear disaster are still major problems in the industry. Radioactive waste must be treated with due care. The Chernobyl disaster

  25. Most renewable energy sources are clean and sustainable, but they are more expensive to use. Costs of generating electricity using different energy sources in 2007

  26. We also have to consider the potential risks and problems the use of energy sources pose on our environment and the extra costs for handling these issues. Hydroelectricity Wind power Solar electricity Generating electricity with solar cells is not cost effective and has low efficiency. Building a wind farm requires a large space with high enough wind speed. Building hydroelectricity power plant affects the aquatic ecology.

  27. Pollution problems caused by the use of energy • Burning fossil fuels brings pollution problems. • Some power plants and vehicles release pollutants such as carbon dioxide, sulphur dioxide, nitrogen oxides and particulates. Photochemical smog is a result of air pollution. Many pollutants are emitted from a coal-burning power plant.

  28. Scientists have discovered that the average temperature on the Earth has been rising since the 19th century. This is known as global warming. Rise in average temperature of the Earth in the last 120 years

  29. Checkpoint (p.130) O • Global warming has been associated with the rapid growth in the amount of CO2 in the atmosphere caused by burning fuels. Rise in carbon dioxide concentration during the last 200 years

  30. Energy end-use data in Hong Kong • Statistics of energy use in Hong Kong can be found in Hong Kong Energy End-use Data.

  31. For commercial energy end-use, air conditioning and lighting account for the largest energy consumption. Commercial energy end-use data in 2007

  32. For residential energy end-use, air conditioning, cooking and lighting account for the largest energy consumption. Residential energy end-use data in 2007

  33. Checkpoint (p.132) O Energy use in different sectors from 1997 to 2007

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