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Last update: Staš Martin Ing. Ph.D. (30.01.2018)
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Last update: Staš Martin Ing. Ph.D. (30.01.2018)
Students will be able to: perform analyses of solid, liquid and gaseous fuels by selected methods, prepare a laboratory protocol on the analysis. |
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Last update: Kroufek Jiří Ing. Ph.D. (05.03.2018)
Instructions for laboratory practices, see page of the department https://utrap.vscht.cz/ke-stazeni |
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Last update: Staš Martin Ing. Ph.D. (30.01.2018)
Team of authors of the Department of Petroleum Technology and Alternative Fuels: Instructions for Laboratory Works of the Department of Petroleum Technology and Alternative Fuels. Available as electronic files at: https://utrap.vscht.cz/files/uzel/0014520/0004~~8zu8sCw_pVKhoChfIScxKb8osSS_KO_wWqDA4YXJqQqHdxWXJJaVKhgZmgIA.pdf?redirected Team of authors of the Department of Gaseous and Solid Fuels and Air Protection: Instructions for individual tasks of Laboratory of Fuels. Available as electronic files at: http://tresen.vscht.cz/kap/pedagogicka-cinnost/ke-stazeni-10 Bouška D. et al.: Laboratory of Fuel Analytics. Available as electronic files at: http://www.vscht.cz/ktt/index.html |
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Last update: Staš Martin Ing. Ph.D. (31.01.2018)
The course consists of laboratory works, which are focused on fundamental analysis of solid, liquid and gaseous fuels. Students will complete a seminar on the principles of preparation of laboratory protocols and an introductory seminar on crude oil products. Student will also pass 10 selected laboratory works. Examples of laboratory works are listed below.
1. Distillation test and flash point of fuels. 2. Low-temperature properties of fuels. 3. Density of crude oil fractions. 4. Analysis of ethanol-gasoline blends. 5. Group-type analysis of middle distillates. 6. Determination of paramethers of heavy fuel oils. 7. Oxidation stability of diesel fuels. 8. Determination of water, ash a volatile combustibles in coal. 9. Determination of sulfur content in coal by Eschke method. 10. Low-temperature carbonization test of coal. 11. Basic analysis of gaseous fuels, calculation of HHV and LHV. 12. Elementary analysis of solid fuels, calcualtion of HHV and LHV from composition. 13. Determination of corrosion rate of bioethanol. 14. Determination of crystallisation point. |
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Last update: Staš Martin Ing. Ph.D. (30.01.2018)
Students should have completed or enroll for the subject Fuel Analysis (B215003) in parallel. |
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Last update: Staš Martin Ing. Ph.D. (30.01.2018)
The condition for completion of the course is the successful completion of all prescribed laboratory works. The overall mark is obtained as the arithmetic mean of the marks for each laboratory work. In the assessment of each laboratory work, following criteria are taken into account: the student's initial knowledge of the theoretical background of the work and work procedure verified by an initial examination, own work and the quality of the laboratory protocol. |
Teaching methods | ||||
Activity | Credits | Hours | ||
Účast v laboratořích (na exkurzi nebo praxi) | 3 | 84 | ||
Příprava na přednášky, semináře, laboratoře, exkurzi nebo praxi | 1 | 28 | ||
4 / 4 | 112 / 112 |
Coursework assessment | |
Form | Significance |
Regular attendance | 50 |
Report from individual projects | 30 |
Oral examination | 20 |