Course detail

Advanced Methods of Safety Analysis

FSI-XBAAcad. year: 2024/2025

The main content of the course is a review of advanced approaches and methods for the identification and selection of hazards (sources of risk) and estimation of possible consequences of risks.

Language of instruction

Czech

Number of ECTS credits

4

Mode of study

Not applicable.

Entry knowledge

Knowledge of mathematics and physics and safety engineering (advanced methods of risk management) in the extent of previous studies at the Faculty of Mechanical Engineering is expected.

Rules for evaluation and completion of the course

Requirements for course-unit credit award: presence and active participation in seminars, semestral work elaboration, test; in justified cases, the lecturer may set alternative requirements.

Attendance in the course is compulsory. In justified cases alternative form of tuition, solution of the individual semestral project.

Aims

The aim of the course is to introduce the students to advanced methods in the field of risk analysis, used in technical practice. The logical structure of the course contains methods for identification, selection as well as a detailed evaluation of individual and social risks.


The course allows the students to take upon the knowledge obtained in previous studies, deepen it, and broaden it with the given fields. Students get familiar with the application of advanced methods and procedures of safety engineering, requiring consideration of a wide spectrum of technical, economical as well as ecological aspects.

Study aids

Not applicable.

Prerequisites and corequisites

Not applicable.

Basic literature

BABINEC, František. Management rizika : Loss Prevention & Safety Promotion [online]. Brno : Slezská Universita v Opavě, Ústav matematiky, 2005 [cit. 2011-10-14]. Dostupné z WWW: .
Česko. Zákon č. 224/2015 Sb., zákon o prevenci závažných havárií způsobených vybranými nebezpečnými chemickými látkami nebo chemickými směsmi a o změně zákona č. 634/2004 Sb., o správních poplatcích, ve znění pozdějších předpisů, (zákon o prevenci závažných havárií). In Sbírka zákonů, Česká republika. 2015.
ČSN IEC 61882. Studie nebezpečí a provozuschopnosti (studie HAZOP) - Pokyn k použití. 2016.
Guidelines for hazard evaluation procedures. 3rd ed. Hoboken, N.J.: CCPS/AIChE/Wiley Interscience, c2008, 542 p. ISBN 978-047-1978-152.
HESTER,, R.E. Risk assessment and risk management. Cambridge: Royal Society of Chemistry, 1998. ISBN 978-085-4042-401.
KLETZ, Trevor A. What went wrong?: case histories of process plant disasters and how they could have been avoided. 5th ed. Burlington, MA: Gulf Professional Pub., c2009, 608 p. ISBN 18-561-7531-6.
RAIS, Karel; DOSKOČIL, Radek. Risk management. Brno : Akademické nakladatelství CERM, 2007. 152 s. ISBN 978-80-214-3510-0.

Recommended reading

Mannan, Sam, Lees’ Loss Prevention in the Process Industries. 4th Edition. Texas, USA : Elsevier 2012. ISBN 978-0-12-397189-0

Elearning

Classification of course in study plans

  • Programme N-KSB-P Master's 2 year of study, winter semester, compulsory

  • Programme C-AKR-P Lifelong learning

    specialization CZS , 1 year of study, winter semester, elective

Type of course unit

 

Lecture

13 hod., optionally

Teacher / Lecturer

Syllabus

1. Basic terminology from the field of safety engineering, review of European and national legislation currently in force, procedure of risk analysis.
2. Identification of sources of risk – Fire and Explosion Index method. Determination of economical consequences.
3. Identification of sources of risk – Chemical Hazard Index method. Determination of consequences.
4. Selection and pririsation of sources of risk.
5. Selection of sources of environmental risk.
6. Consequences of serious accidents.
7. Modelling of leakages of dangerous substances from equipment.
8. Modelling of diffusion of dangerous toxic substances.
9. Modelling of thermal and pressure effects during accidents.
10. Emergency planning, emergency zones.
11. Safety and protection against explosion ATEX 100 and 137.
12. Requirements on safety of planned technologies.
13. Summarization of the presented topics, presentation of semestral works.

Exercise

13 hod., optionally

Teacher / Lecturer

Syllabus

1. Practical application of the Fire and Explosion Index method.
2. Practical application of the Chemical Exposure Index method.
3. Practical application of the Selection of sources of risk according to CPR 18E.
4. Modelling of leakages and diffusion of substances from equipment.
5. Modelling of thermal and pressure effects during accidents.
6. Calculation of emergency zones.
7. Presentation of semestral works. Test.

Elearning