Tomas Bata University in Zlín
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Course: Technology of Chemical Industry and Nuclear Energy Facilities

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Course title Technology of Chemical Industry and Nuclear Energy Facilities
Course code LUOO/L5ETP
Organizational form of instruction Lecture + Seminary
Level of course Bachelor
Year of study not specified
Semester Winter
Number of ECTS credits 2
Language of instruction Czech
Status of course Compulsory-optional
Form of instruction Face-to-face
Work placements This is not an internship
Recommended optional programme components None
Lecturer(s)
  • Princ Ivan, Ing.
Course content
1. Introduction, basic concepts, legislation. 2. Selected dangerous substances of chemical industry. 3. Chemical technologies in terms of risk sources. Risks in the transport of dangerous substances. 4. Safety of chemical industry, prevention of fires and explosions, inert environment, static energy. EU - ATEX Directive. 5. Effect of the chemical industry on the environment, environmental contamination. 6. Decontamination, environmental remediation. 7. Fundamentals of nuclear physics, nuclear reactors. 8. The construction of the eighth nuclear power plant. An active zone of the reactor. 9. The shielding, control, dosimetry and dosimetric control. 10. Nuclear safety a source of radioactive contamination. Potential risks of nuclear facilities. 11. Classification accidents, failures and deviations. Measures against accidents. 12. Nuclear energy in relation to the environment. 13. The issue of radioactive waste. 14. Excursion in a nuclear plant or a chemical, plastics and rubber industry.

Learning activities and teaching methods
  • Term paper - 10 hours per semester
  • Home preparation for classes - 26 hours per semester
  • Preparation for course credit - 28 hours per semester
  • Term paper - 26 hours per semester
  • Participation in classes - 10 hours per semester
  • Home preparation for classes - 26 hours per semester
  • Educational trip - 10 hours per semester
  • Participation in classes - 10 hours per semester
  • Term paper - 26 hours per semester
  • Home preparation for classes - 16 hours per semester
  • Participation in classes - 42 hours per semester
  • Preparation for examination - 12 hours per semester
  • Preparation for course credit - 28 hours per semester
prerequisite
Knowledge
Characterize basic terms from inorganic and organic chemistry.
Characterize basic terms from inorganic and organic chemistry.
Characterize basic concepts from toxicology.
Characterize basic concepts from toxicology.
Characterize the basic areas of the chemical industry.
Characterize the basic areas of the chemical industry.
Characterize the most famous chemical accidents with the release of toxic substances in the world and in the Czech Republic.
Characterize the most famous chemical accidents with the release of toxic substances in the world and in the Czech Republic.
Characterize the most famous radiation accidents with the release of radioactive substances in the world and in the Czech Republic.
Characterize the most famous radiation accidents with the release of radioactive substances in the world and in the Czech Republic.
Skills
Apply basic scientific methods. Cooperate and apply knowledge in the team. Categorize, analyze and interpret basic knowledge from the chemical industry. Categorize, analyze and interpret basic knowledge from the nuclear industry. Categorize, analyze and interpret the basic findings from chemical accidents with the release of toxic substances. Categorize, analyze and interpret the basic findings from radiation accidents with the release of radioactive substances.
Apply basic scientific methods. Cooperate and apply knowledge in the team. Categorize, analyze and interpret basic knowledge from the chemical industry. Categorize, analyze and interpret basic knowledge from the nuclear industry. Categorize, analyze and interpret the basic findings from chemical accidents with the release of toxic substances. Categorize, analyze and interpret the basic findings from radiation accidents with the release of radioactive substances.
learning outcomes
Knowledge
Determine the sources of risks of contamination with chemical, radioactive substances and biological agents in the living and working environment - one of the exit criteria from teaching subjects in previous years in the areas of environmental safety for passing the final exam.
Determine the sources of risks of contamination with chemical, radioactive substances and biological agents in the living and working environment - one of the exit criteria from teaching subjects in previous years in the areas of environmental safety for passing the final exam.
Orientation in the basic concepts of decontamination and remediation in the event of serious accidents - one of the exit criteria from teaching subjects in previous years in the areas of environmental safety for passing the final exam.
Orientation in the basic concepts of decontamination and remediation in the event of serious accidents - one of the exit criteria from teaching subjects in previous years in the areas of environmental safety for passing the final exam.
Orientate in the basic principles of solving issues of prevention and liquidation of accidents and extraordinary events connected with the release of dangerous toxic substances in the chemical industry - one of the exit criteria from the teaching of subjects in previous years in the areas of environmental safety for passing the final exam.
Orientate in the basic principles of solving issues of prevention and liquidation of accidents and extraordinary events connected with the release of dangerous toxic substances in the chemical industry - one of the exit criteria from the teaching of subjects in previous years in the areas of environmental safety for passing the final exam.
Skills
Define sources of contamination with chemical substances and dangerous industrial pollutants in the chemical industry - entry criteria for teaching subjects in subsequent years.
Define sources of contamination with chemical substances and dangerous industrial pollutants in the chemical industry - entry criteria for teaching subjects in subsequent years.
Define sources of contamination with radioactive substances in the nuclear industry - entry criteria for teaching subjects in subsequent years.
Define sources of contamination with radioactive substances in the nuclear industry - entry criteria for teaching subjects in subsequent years.
teaching methods
Knowledge
Dialogic (Discussion, conversation, brainstorming)
Dialogic (Discussion, conversation, brainstorming)
E-learning
E-learning
Educational trip
Educational trip
Individual work of students
Individual work of students
Monologic (Exposition, lecture, briefing)
Monologic (Exposition, lecture, briefing)
Lecturing
Lecturing
Dealing with situational issues - learning in situations
Dealing with situational issues - learning in situations
assessment methods
Analysis of a presentation given by the student
Analysis of a presentation given by the student
Analysis of seminar paper
Analysis of seminar paper
Didactic test
Didactic test
Preparation of a presentation, giving a presentation
Preparation of a presentation, giving a presentation
Systematic observation of the student
Systematic observation of the student
Preparation of a presentation
Preparation of a presentation
Recommended literature
  • BARTLOVÁ, Ivana. Prevence a připravenost na závažné havárie. V Ostravě: Sdružení požárního a bezpečnostního inženýrství, 2017. ISBN 9788073851842.
  • BENCKO Vladimír, CIKRT Miroslav, LENER Jaroslav. Toxické kovy v životním a pracovním prostředí člověka. Praha: Grada, 1995. ISBN 807169150X.
  • DANIHELKA, P. Neobvyklé chování nebezpečných látek. VŠB-TU Ostrava, Fakulta bezpečnostního inženýrství, 2006. ISBN 80-86634-91-.
  • DLOUHÝ, Zdeněk. Nakládání s radioaktivním odpadem a vyhořelým jaderným palivem. Brno: VUTIUM, 2009. ISBN 9788021436299.
  • FARAZMAND, A. Handbook ofcrisis and emergency management.. New York: Marcel Dekker, Public administration and public policy, 2001. ISBN 0-8247-0422-.
  • HEJZLAR, Radko. Stroje a zařízení jaderných elektráren. Praha: Vydavatelství ČVUT, 2005. ISBN 80-01-03189-6.
  • KALOUSEK, Jaroslav. Základy fyzikální chemie hoření, výbuchu a hašení. V Ostravě: Sdružení požárního a bezpečnostního inženýrství, 1999. ISBN 8086111342.
  • KIZLINK Juraj. Nakládání s odpady. FCH VUT v Brně, 2007. ISBN 9788021433489.
  • KIZLINK Juraj. Odpady: sběr, zpracování, zužitkování, zneškodnění, legislativa. Brno: Akademické nakladatelství CERM, 2014. ISBN 9788072048847.
  • KIZLINK Juraj. Technologie chemických látek a jejich použití. V Brně: Vutium, 2011. ISBN 9788021440463.
  • KLOBOUČEK, Jan. Jaderná energetika. Liberec: Ediční středisko TUL, 2005. ISBN 8070839481.
  • KRIŠTOFOVÁ, Dana. Kovy a životní prostředí: environmentálně nebezpečné složky elektroodpadu. Ostrava: Vysoká škola báňská - Technická univerzita, 2005. ISBN 8024807408.
  • KROUPA, Miroslav, ŘÍHA, Milan. Průmyslové havárie. Praha: Armex, 2010. ISBN 9788086795874.
  • KUPEC, Jan. Toxikologie. Zlín: Univerzita Tomáše Bati, 2004. ISBN 8073182165.
  • LAGREGA D. MICHAEL, BUCKHINGHAM PHILIP L., EVANS C. JEFFREY. Hazardous waste management. Long Grove: Waveland Press, Inc., 2010. ISBN 9781577666936.
  • MACKINTOSH R. et al. Jádro, cesta do srdce hmoty.. Praha : Academia., 2003. ISBN 80-200-1025-4.
  • MANNAN, Sam. Lees' loss prevention in the process industries hazard identification, assessment and control. [S.l.] : Butterworth-Heinemann, 2012. ISBN 9780123971890.
  • MASAŘÍK, Ivo. Plasty a jejich požární nebezpečí. V Ostravě: Sdružení požárního a bezpečnostního inženýrství, 2003. ISBN 8086634167.
  • MAŠEK Ivan, MIKA Otakar, ZEMAN Miloš. Prevence závažných chemických havárií. Brno: Vysoké učení technické v Brně, Fakulta chemická, 2006. ISBN 8021433361.
  • MATAL, Oldřich ŠEN, Hugo. Jaderná zařízení a jejich bezpečnost. Brno: Akademické nakladatelství CERM, 2011. ISBN 9788021443495.
  • MIKA, Otakar J., POLÍVKA, Lubomír. Radiační a chemické havárie. Praha: Policejní akademie České republiky v Praze, 2010. ISBN 9788072513215.
  • NORDBERG, Gunnar F. Handbook on the toxicology of metals. Boston: Academic Press, 2007. ISBN 9780123694133.
  • ORLÍKOVÁ, Kateřina, ŠTROCH, Petr. Chemie procesů hoření. Ostrava: Sdružení požárního a bezpečnostního inženýrství, 1999. ISBN 8086111393.
  • PALEČEK, Jaroslav, HORÁK, Josef, LINHART, Igor. Toxikologie a bezpečnost práce v chemii. Praha: Vydavatelství VŠCHT, 1996. ISBN 8070802669.
  • Parlament ČR. Zákon č. 224/2015 Sb. Zákon o prevenci závažných havárií způsobených vybranými nebezpečnými chemickými látkami nebo chemickými směsmi. Praha: Sbírka zákonů, 2015.
  • Parlament ČR. Zákon č. 350/2011 Sb. Zákon o chemických látkách a chemických směsích (chemický zákon). Praha: Sbírka zákonů, 2011.
  • Parlament ČR. Zákon č. 541/2020 Sb. Zákon o odpadech. Praha: Sbírka zákonů, 2020.
  • POLÍVKA, Lubomír, MIKA, Otakar J., SABOL, Jozef. Nebezpečné chemické látky a průmyslové havárie. Praha: Policejní akademie České republiky v Praze, 2017. ISBN 9788072514670.
  • SLEZÁK, Miloslav. Ekologické aspekty chemických technologií a technologie zpracování odpadů. Pardubice: Univerzita Pardubice, 2004. ISBN 8071946923.
  • TŮMA, Jan. Katastrofy techniky děsící 20. století. Praha: Academia, 2000. ISBN 80-200-0387-8.
  • VOHLÍDAL, Jiří, ŠTULÍK, Karel, JULÁK, Alois. Chemické a analytické tabulky. Praha: Grada, 1999. ISBN 8071698555.


Study plans that include the course
Faculty Study plan (Version) Category of Branch/Specialization Recommended year of study Recommended semester
Tomas Bata University in Zlín, date of update: 05.05.2024 23:51.