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The course is focused on the efficiency and ecological aspects of the production of heat and fuels for transportation by reflecting remarkable progress in the field of classical, sustainable and renewable energy methods and technologies.
Last update: Jiříček Ivo (10.07.2013)
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Students will be able to: analyze processes during ecological heat and fuel generation balance and optimize basic technologies for fuel combustion and heat accumulation design a simple active solar system for hot water and heating application assess energy potential and utilization of waste by combustion or composting methods Last update: Jiříček Ivo (11.07.2013)
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B:Godfrey Boyle:Renewable Energy,Oxford University Press,2004,0-19-926178-4 R:21th Century Complete Guide to Biofuels and Bioenergy, on CD ROM, Department of Energy Alternative Fuel Research,1-59248-279-1. R:Sjaak van Loo, Jaap Koppejan:The Handbook of Biomass Combustion & Cofiring, Earthscan,2008,978-84407-249-1 R:Thomsa B. Johansson, Henry Kelly, Amulya K. N. Reddy: Renewable Energy: Sources for Fuels and Electricity,Island Press,1992,1559631384 R:Buecker Brad: Fundamentals of Steam Generation Chemistry, PennWell Corporation, Oklahoma, ISBN:087814750-0 Last update: Jiříček Ivo (10.02.2015)
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lectures Last update: Jiříček Ivo (13.11.2012)
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1. uspěšné splnění písemky v 8. týdnu semestru 2. úspěšné splnění zkouškové písemky ve 13. týdnu semestru Last update: Jiříček Ivo (13.11.2012)
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1. World energy resources & use, fossil fuels & climate change, greenhouse effect 2. Heat sources, assessment of energy technologies, carbon footprint, 3. Political support, feed-in tariffs, cost & economy, environmental impact assessment 4. Wood and energy crops, biomass origin, potential, forms &energy content, chemical analysis 5. Solid and compressed fuels, pellets production &specifications, direct combustion, boilers 6. Thermochemical transformation, generator gas, pyrolysis oil, synthetic biomethane&biohydrogen 7. Fuel for transportation, vegetable oil to biodiesel, fermentation to bioethanol, 8. Anaerobic digestion, biogas, energy from algae, exergy efficiency 9. Secondary heat sources, waste to energy, ternary diagram of waste, waste incinerators 10. Solar energy & potential, solar time& azimuth, direct&diffusion light, solar buildings 11. Heat from solar collectors, efficiency, heat recuperation, solar heating &cooling 12. Solar systems for hot water and heating, heat balance, economy&return 13. Geothermal heat sources, hydrotermal systems , heat pumps efficiency &use 14. Heat energy store, phase change materials, chemical accumulation, underground stores Last update: Jiříček Ivo (10.02.2015)
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B:Introduction to Renewable Energy Technology, A YEAR-LONG SCIENCE & TECHNOLOGY COURSEby Matthew A. Brown, Lakewood, CO, http://www.nrel.gov/education/pdfs/educational_resources/high_school/re_intro.pdf R:Renewable Energy Technologies, Long Term Research in the 6th Framework Programme,2002 I 2006, http://ec.europa.eu/research/energy/pdf/synopses_res_en.pdf Last update: Jiříček Ivo (10.02.2015)
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1. basic knowledge of energy and power, 2. communication skills, keen to learn, 3. skills in elementar mathematics Last update: Jiříček Ivo (11.07.2013)
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Basic mathematics, Basic physics, Basic chemistry Last update: Jiříček Ivo (11.07.2013)
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Teaching methods | ||||
Activity | Credits | Hours | ||
Příprava na zkoušku a její absolvování | 3 | 84 | ||
3 / 3 | 84 / 84 |
Coursework assessment | |
Form | Significance |
Examination test | 50 |
Continuous assessment of study performance and course -credit tests | 50 |