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Last update: SEK409 (17.12.2013)
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Last update: Nevoral Vladislav Ing. Ph.D. (01.10.2013)
Students will be able to: Calculate if and what is risk during accident in a chemical factory. Proper procedures and how (before the crash) estimate (approximately calculate) the consequences (which residents will be evacuated). Evaluate the risks of storing and processing of flammable substances. Calculate what must be ventilation rate when working with toxic substances and will know what to do with the outgoing gas. |
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Last update: SEK409 (08.10.2013)
R:Crowl D.A.,Louvar J.F.,Chemical Process Safety Fundamentals wih ApplicationsPrentice Hall Second Edition,New York,2002,0-13-018176-5 |
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Last update: Nevoral Vladislav Ing. Ph.D. (01.10.2013)
Book: Crowl D.A.,Louvar J.F.,Chemical Process Safety Fundamentals wih ApplicationsPrentice Hall Second Edition,New York,2002,0-13-018176-5 |
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Last update: Nevoral Vladislav Ing. Ph.D. (01.10.2013)
Lectures and seminars. |
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Last update: Nevoral Vladislav Ing. Ph.D. (01.10.2013)
1. Basic ideas and concepts of risk analysis. Legislation. Examples of accidents. 2. Overview of risk factors in the chemical industry. Individual and societal risk. 3. Toxicology. Effective, toxic and lethal dose. Evaluation of the effect by probit. 4. Materials and security datas. Threshold and concentration limits. Industrial hygiene. Risk factors of dust and noise. 5. Evaporation from the liquid surface and the loading the trays. Ventilation. 6. Source models for releases of gases, vapors and liquids in pipes and tanks. 7. Accident scenarios in the release of flammable and toxic substances. Pasquill-Giffordův dispersion model. 8. The explosions of flammable gas and dust - initiation, formation, effects. 9. The explosion cloud of steam and steam from the boiling liquid expanding. The consequences of fires and explosions. 10. The prevention of fire and explosion. The inert environment. Static electricity. Valves and membranes. Showering. 11. Reliability of components and systems. Failure rate. Serviceability. Weibull distribution. 12. Fault trees. Events trees. 13. Creating scenarios, the analysis of the human factor. 14. Identification of risk sources, HAZOP, DOW index explosion and toxicity. |
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Last update: Nevoral Vladislav Ing. Ph.D. (06.11.2012)
Chemical Engineerign I |
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Last update: Nevoral Vladislav Ing. Ph.D. (01.10.2013)
Students must have both parts of two written tests at least 50%, and successfully complete the oral examination. Both parts of the two tests can be write many times. Students obtain some values of constants and all formulas with explanations of individual members, for the numerical parts of test. |
Teaching methods | ||||
Activity | Credits | Hours | ||
Účast na přednáškách | 1 | 28 | ||
Příprava na přednášky, semináře, laboratoře, exkurzi nebo praxi | 1 | 28 | ||
Příprava na zkoušku a její absolvování | 1.5 | 42 | ||
Účast na seminářích | 0.5 | 14 | ||
4 / 3 | 112 / 84 |
Coursework assessment | |
Form | Significance |
Regular attendance | 0 |
Continuous assessment of study performance and course -credit tests | 0 |
Oral examination | 100 |