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Comenius-Project: Alternative Energy

Comenius-Project: Alternative Energy. General facts. In general there are 3 primary sources of alternative energy: thermonuclear compilation of solar energy (photovoltaics, solar spring, chemical usage of solar energy, thermal),

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Comenius-Project: Alternative Energy

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  1. Comenius-Project: Alternative Energy

  2. General facts • In general there are 3 primary sources of alternative energy: • thermonuclear compilation of solar energy (photovoltaics, solar spring, chemical usage of solar energy, thermal), • radioactiv dissolution in the interior of the earth (geothermic energy), • the action of the planets and involved effects (tidal power stations, energy of the ocean current, sea heat, wave energy, the power of osmosis, barrages). • ! The common kind of alternative energy production in Germany is wind energy.

  3. Solar Energy

  4. The worldwide growth of renewable energy is enormous. Within 17 years we are able to be independend on atomic energy. The most important alternative energy is water power.

  5. The energy output of renewable energy was 62 TWh/year in 2005,that means 10,2 percent (in Germany). Our alternative energy is made of photovoltaics, wind power, water power and biomass (in 2005). With our current production of water power we could close 2 atomic power plants.

  6. Solar Technology Solar technology describes the usage of sun energy. It‘s possible to gain heat and or electric energy. Local Usage • Photovoltaics - transformation of radiation energy to electric energy by solar cells solar collectors warming of water and other heat carriers • Solaroven – boiling with sunlight • Solar Stirling – transformation of solar thermic energy to mechanic energy by using the Stirling engine

  7. Industrial solar energy usage • Solar thermic power plant • Thermic power plant • Free-standing or on factory roof‘s assembled photovoltaic constructions of [Betreibergesellschaften]

  8. Photovoltaics • Photovoltaics means the transformation of radiation energy (Sun energy) to electric energy • first usage by energy supply of satellits (via solarcells) in 1958 • Meanwhile diffused all over the world (roofage, parking ticket machine) • Photovoltaics  Photos (greek „light“) and Volta (by physicist Allessandro Volta) • Part of the bulked Solar technology  technical usage of sun energy

  9. Wind Energy

  10. Structure and functional principle • tower between 10m up to 100m high • rotor up to 115m diameter • wind drives on the rotor blades • the gear box crosses the comparable small rate of revolutions over to the installed rate of the generator • the generator transforms the rotation energy into electric current • minimum wind speed 4m/s

  11. Energy of wind in other countries in comparison to Germany 1. Germany: 14000 MW 2. USA: 6374 MW 3. Spain: 5780 MW 4. Denmark: 3094 MW 5. India: 1900 MW World-wide 2003: 37220 MW

  12. wind is unexhaustable all day operation is possible stations can be nearly everywhere established minimum wind speed 4 m/s needs no fuel no production of pollutants or greenhouse gases land can be used for other things: farming provides energy for remote places only 40% for using Wind power can’t be stored it doesn’t produce energy permanent and continuous it can be influenced stations could not be built high as you like it doesn’t work without any sound they disturb electromagnetic waves no optical enrichment coastal land is expensive advantages anddisadvantages

  13. Terrestrial heat

  14. Arrangement of sources • areas with caloric abnormality • geysers (hot gushers) • volcanic regions

  15. Terrestrial heat in Germany The natural conditions for the use of terrestrial heat are very constricted, the investement costs are very high. Nevertheless it‘s an alternative which can meet about 60 percent of the need. At this time, 24 major systems with an installed accomplishment between 100 kW and 20 MW are used in germany. The terrestrial heatindustry expects a yearly growth of 14 percent.

  16. Biogas

  17. Biogas typically refers to a (biofuel) gas produced by the anaerobicdigestion or fermentation of organic matter including manure, sewage sludge, municipal solid waste, biodegradable waste or any other biodegradable feedstock, under anaerobic conditions. Biogas is comprised primarily of methane and carbon dioxide.

  18. Applications of renewable natural gasIn this form the gas can be now used in any application that natural gas is used for. Such applications include distribution via the natural gas grid, electricity production, space heating, water heating and process heating. If compressed, it can replace compressed natural gas for use in vehicles, where it can fuel an internal combustion engine or fuel cells. • Depending on where it is produced, biogas is also called: • swamp gas • marsh gas • landfill gas • digester gas • Biogas can be used as a vehicle fuel or for generating electricity.

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