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The goal of the subject is to inform students about advanced computation methods of mass and enthalpy balance during gas fuels combustion. The overview of oxidation mechanisms of fuels and pollutants formation is given too. The basic types of gas combustion devices are given. The attention is also paid to combustion of liquid and gaseous fuels in combustion engines, influence of fuel properties on engine operation and exhaust emissions. Exhaust gas after treatment devices for combustion engines are described as well as utilization of alternative motor fuels.
Last update: Hlinčík Tomáš (24.10.2017)
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Students will be able to: compute fundamental energy characteristics of gas fuels in accordance with international technical and legislative standards perform exact mass ballance of combustion of gas fuels compute burning velocity,boundaries of ingnition and detonation of flamable gases and vapours describe construction of devices combusting gas fuels apply methods of decreasing pollutant formation understand combustion of fuel in combustion engines and formation of tailpipe pollutants describe exhaust gas after treatment systems designated for reduction of tailpipe emissions from combustion engines Last update: Hlinčík Tomáš (24.10.2017)
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R: Kolektiv autorů:Plynárenská příručka, GAS s.r.o., Praha 1997, ISBN 80-902339-6-1 A: Chung K. Law: Combustion Physics, Cambridge University Press, Cambridge and New York 2006, ISBN 0-521-87052-6 A: Ashwani K. Gupta and David G. Lilley (Editors): High Temperature Air Combustion, CRC Press, Boca Raton 2003, ISBN 0-8493-1036-9 A: D: Guibet J.C.: Fuels and engines, Éditions Technip, Paris 1999, ISBN 2-7108-0751-3 Last update: Hlinčík Tomáš (24.10.2017)
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1. Fundamental terms an definitions, classification of gaseous fuels, PVT relations in gaseous fuels, standard equations of state 2. Mass and energy balance of combustion of daseous fuels, Standard methods of determination caloric values and Wobbe index 3. Difussional and kinetic combustion of gaseous fuels 4. Ignition and ignitiability, burning velocity, flame stability 5. Flame temperature, thermal dissotiation of combustion products, 6. Interchargeability of fuel gases, mechanism of comustion fuel gases 7. Inorganic pollutants - formation and reduction 8. Organic pollutants - formation and reduction 9. Gas burners and specific combustion equipments 10. Conditions for combustion, homogenous and heterogeneous combustion, combustion engines (sorting of combustion engines by function, construction and utilization) 11. Fuel combustion in spark-ignition engines, properties of automobile gasolines and their influence on engine operation, alternative fuels for spark-ignition engines 12. Fuel combustion in diesel engines, properties of diesel fuels and their influence on engine operation, alternative fuels for diesel engines 13. Fuel combustion in aviation piston and turbine engines, fuels for turbine and piston aviation engines (properties, quality parameters) 14. Emissions from combustion engines, factors that influence tailpipe emissions from combustion engines, exhaust gas after treatment devices Last update: Hlinčík Tomáš (24.10.2017)
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http://www.tzb-info.cz Last update: Tekáč Viktor (31.07.2013)
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Physical chemistry A Last update: Hlinčík Tomáš (31.01.2018)
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| Teaching methods | ||||
| Activity | Credits | Hours | ||
| Konzultace s vyučujícími | 0.7 | 20 | ||
| Účast na přednáškách | 1.5 | 42 | ||
| Příprava na přednášky, semináře, laboratoře, exkurzi nebo praxi | 1 | 28 | ||
| Příprava na zkoušku a její absolvování | 1.8 | 50 | ||
| Účast na seminářích | 1 | 28 | ||
| 6 / 5 | 168 / 140 | |||
| Coursework assessment | |
| Form | Significance |
| Regular attendance | 20 |
| Examination test | 30 |
| Continuous assessment of study performance and course -credit tests | 20 |
| Oral examination | 30 |