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The aim of the fuel technology laboratories is to familiarize students with selected technological processes used in the production, processing and utilization of fuels and their comprehensive evaluation. The laboratories include hydrotreating, pyrolysis and combustion experiments with subsequent analysis of the products and calculating relevant balances.
Last update: Beňo Zdeněk (19.02.2024)
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Students will be able to: • carry out a comprehensive fuel assessment • carry out a balance and evaluation of hydroprocessing • evaluate and balance combustion processes • design, evaluate and balance the pyrolysis process Last update: Beňo Zdeněk (19.02.2024)
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Student participation in all laboratories (30 %). Delivery of reports to all works in a given timeframe (30 %). Evaluation of all laboratory works (40 %). Completion of all tasks and correct completion and submission of all reports. Successful completion of all prescribed laboratory works is a prerequisite for the course. The overall grade is obtained as the arithmetic average of the grades for the individual laboratory assignments. The grade for a laboratory assignment is obtained as the arithmetic average of the partial grades for (I) the initial examination of the theory and the actual work procedure, (II) the actual experimental work, and (III) the quality of the laboratory report. Last update: Beňo Zdeněk (19.02.2024)
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Obligatory:
Recommended:
Last update: Beňo Zdeněk (29.08.2024)
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1. Production and evaluation of gasolines 2. Production and evaluation of diesel fuels 3. Production and evaluation of aviation turbine fuels 4. Hydrotreatment of various raw materials to produce fuels 5. Evaluation of raw materials and products of hydrotreatment 6. Rectification of a binary mixture and calculation of separation efficiency 7. Vacuum and simulated distillation of heavier petroleum fractions 8. Combustion tests of solid fuels 9. Determination of the basic composition of flue gas and gaseous pollutants during combustion tests 10. Calculation of actual flue gas volume, calculation of pollutant mass concentrations and calculation of pollutant emission factors of polluting agents 11. Calculation of mass and energy balance of combustion process 12. Low temperature pyrolysis, calculation of mass balance of this process 13. Analysis of gaseous and liquid products of pyrolysis and determination of their composition and properties 14. Analysis of solid residues from pyrolysis and determination of their textural parameters
Last update: Beňo Zdeněk (19.02.2024)
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www.tzb-info.cz www.czba.cz Kolektiv autorů: Návody k laboratorním cvičením z tuhých paliv, ÚPKOO, VŠCHT Praha. Kolektiv autorů: Technický rozbor tuhého paliva - statistické zpracování obsahu vlhkosti, prchavé hořlaviny a popela v tuhém palivu, VŠCHT, Praha Kolektiv autorů: Návody k laboratorním cvičením z tuhých paliv, VÚHU, Most.
Last update: Beňo Zdeněk (19.02.2024)
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Inorganic Chemistry: Laboratory I, Analytical Chemistry: Laboratory I Laboratory of Fuels Last update: Beňo Zdeněk (19.02.2024)
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| Teaching methods | ||||
| Activity | Credits | Hours | ||
| Účast v laboratořích (na exkurzi nebo praxi) | 4 | 112 | ||
| Příprava na přednášky, semináře, laboratoře, exkurzi nebo praxi | 1 | 28 | ||
| 5 / 5 | 140 / 140 | |||