|
|
|
||
Last update: TENKRATD (29.01.2018)
|
|
||
Last update: Koza Václav doc. Ing. CSc. (24.07.2013)
Students will be able to: orient themselves in Czech pipeline industry and related legislation, express the amount of gas in different ways and convert one way of amount expression into another, including units conversion, size the piping for given operational pressure, calculate pipe flow of compressible fluid (gas) and non-Newtonian liquid (crude oil), calculate escape of gas or oil from the leak. |
|
||
Last update: Koza Václav doc. Ing. CSc. (24.07.2013)
R: Anon., Plynárenská příručka, Gas s.r.o., Praha, 1997, 80-902339-6-1, or R: Anon., Plynárenská příručka, Gas s.r.o., Praha, 2007, CD reedice, 978-80-7328-112-0 A: Fík J., Zemní plyn, Agentura ČSTZ, s.r.o., Praha, 2006, 80-86028-22-4 |
|
||
Last update: Koza Václav doc. Ing. CSc. (24.07.2013)
http://www.gasinfo.cz/ http://www.tzb-info.cz/ |
|
||
Last update: Koza Václav doc. Ing. CSc. (24.07.2013)
1. Pipeline systems in the Czech Republic 2. Gas industry: legislation, terminology, expression of amount and quality of gas 3. Flow and accumulation of gas (linepack) in the pipeline branch 4. Flow and accumulation of gas (linepack) in the pipeline network 5. Gas escapes 6. Piping stress, calculation for the internal pressure stress 7. Gas pressure regulation 8. Odorization 9. Gas metering and billing 10. Gas compression, compression station 11. Pipeline transportation of crude, crude quality requirements, crude rheology 12. Crude pipelines, parameters of piping, pumps, control systems 13. Storage of crude and refined products, underground and surface tanks, safety and environmental aspects 14. Surface transportation of motor fuels, pumping station, legislation |
|
||
Last update: Koza Václav doc. Ing. CSc. (24.07.2013)
Mathematics A Physical Chemistry I Unit Operations of Chemical Engineering I |
|
||
Last update: Hlinčík Tomáš doc. Ing. Ph.D. (31.01.2018)
Physical Chemistry A Unit Operations of Chemical Engineering A |
|
||
Last update: TENKRATD (29.01.2018)
Examination is only possible after the delivery of the solved set of computational examples obtained during lectures. Examination itself consists of two separate parts (teaching blocks) and the final assessment is calculated as a weighted average of both parts. The form of examination is combination of multiple choice test (min 50% to pass) and oral examination (min 50% to pass). |
Teaching methods | ||||
Activity | Credits | Hours | ||
Účast na přednáškách | 1.5 | 42 | ||
Příprava na přednášky, semináře, laboratoře, exkurzi nebo praxi | 0.5 | 14 | ||
Práce na individuálním projektu | 1 | 28 | ||
Příprava na zkoušku a její absolvování | 1 | 28 | ||
4 / 4 | 112 / 112 |
Coursework assessment | |
Form | Significance |
Regular attendance | 10 |
Report from individual projects | 25 |
Examination test | 45 |
Oral examination | 20 |