040-3001/02 – Safety in Chemical Industry (BvCHP)

Gurantor department	Department of Occupational and Process Safety	Credits	4
Subject guarantor	Ing. Barbora Martiníková, Ph.D.	Subject version guarantor	Ing. Barbora Martiníková, Ph.D.
Study level	undergraduate or graduate	Requirement	Compulsory
Year	1	Semester	winter
		Study language	Czech
Year of introduction	2019/2020	Year of cancellation
Intended for the faculties	FMT	Intended for study types	Follow-up Master

Instruction secured by
Login	Name	Tuitor	Teacher giving lectures
BAU020	Ing. Barbora Martiníková, Ph.D.
RAS03	Ing. Pavel Raška, Ph.D.

Extent of instruction for forms of study
Form of study	Way of compl.	Extent
Full-time	Credit and Examination	2+1

Subject aims expressed by acquired skills and competences

Define the types of industrial accidents, their severity and effects. Discuss the implementation of hazard analysis and risk assessment related technologies. Formulate procedures for risk analysis and assessment of technological processes, including the methods used. Summarize legislative system of prevention and preparedness for major accidents.

Teaching methods

Lectures
Tutorials

Summary

Kinds if industrial accidents, their seriousness and phenomena. Procedure for the analysis and assessment of risks of technological processes, including methods used. Legislation concerning the system of prevention of and preparedness to major accidents. Overall assessment of hazards and related risks of chosen technologies.

Compulsory literature:

TAYLOR, J. R. Risk analysis for process plant, pipelines and transport. New York: E & FN Spon, 1994. ISBN 0419190902.

Recommended literature:

Method´s for the Calculation of physical effects due to releases of hazardous liquids and gases. CPR 14 E Yellow Book. 1997 CPR 18E: guidelines for quantitative risk assessment. Den Haag: Sdu, 1999. ISBN 90-12-08796-1.

Way of continuous check of knowledge in the course of semester

E-learning

Other requirements

Preparation of worksheets. Preparation of risk analysis for the selected technologies. Credit test.

Prerequisities

Subject has no prerequisities.

Co-requisities

Subject has no co-requisities.

Subject syllabus:

1st Industrial accidents. Types of accidents (fires, explosions, spills and release toxic substances), their severity. The phenomena of accidents (eg BLEVE, VCE, Runaway reaction). Analysis of known serious accidents 2nd Importance and justification of the implementation of hazard analysis and evaluation Technology-related risks. Explanation of basic concepts (risk of serious accidents, safety). Analysis of the causes of leakage, fire and the explosion in the chemical industry. 3rd To analysis and risk assessment of technological processes.Explanation perform each step of analysis and risk assessment technological processes, its use in practice. 4th Overview of methods for identification and evaluation of hazards and in the CR. The current situation in the Republic and the world. Unsystematic methods, such as method of inspection records, what happens when ... relative evaluation (index method). Systematic methods, such as FTA, HAZOP, FMEA. 5th Estimate the likelihood of accidents and the severity of their consequences (Human, environmental and economic losses). Computational methods of combustible file under various process conditions and for various disorders and deviations, the calculation of the contamination zone. Computer programs for estimation of the consequences accidents, the principles of the ROZEX. 6th Legislative support of prevention and preparedness for major accidents in Europe. EU Council Directive 96/82 / EC, the so-called Seveso III Directive. The resulting obligations. 7th Legislative support of prevention and preparedness for major accidents in the country. Act No. 59/2006 Coll. On the prevention of major accidents, asamended and its implementing regulations. Duty Operators (Reporting requirements, safety program, safety report, emergency plans) and government. 8th Physical and chemical properties of technical safety featureschemicals (TBP). Focus on liquids and gases. Explanation of terms: flash point, ignition temperature, explosion limits, explosion characteristics Mebs, MGA, LOI. Their use in hazard identification and risk assessment and for security technologies. 9th Characteristics of technological processes and working conditions. Highlighting the implementation of the knowledge of technological processes and working conditions for hazard identification and risk assessment. Analysis of possible deviations and disorders. Human error. 10th Principles of protection against leakage of dangerous substances, fire and explosion.Active and passive fire and explosion prevention. Application of basic security measures. 11th Comprehensive assessment of hazards and associated risks of selected technology. Physical processes - heating, drying. rectification. Basic knowledge about the process. Technological options. The character of risk and prevention. 12th Comprehensive assessment of hazards and associated risks of selected technology. Physical processes - rectification. Basic knowledge about the process.Technological options. The character of risk and prevention. 13th Comprehensive assessment of hazards and associated risks of selectedtechnology. Chemical processes - hydrogenation, hydrochlorination. Basic knowledge about the process. Technological options. The character of risk and prevention. 1st Industrial accidents. Types of accidents (fires, explosions, spills and release toxic substances), their severity. The phenomena of accidents (eg BLEVE, VCE, Runaway reaction). Analysis of known serious accidents 2nd Importance and justification of the implementation of hazard analysis and evaluation Technology-related risks. Explanation of basic concepts (risk of serious accidents, safety). Analysis of the causes of leakage, fire and the explosion in the chemical industry. 3rd To analysis and risk assessment of technological processes.Explanation perform each step of analysis and risk assessment technological processes, its use in practice. 4th Overview of methods for identification and evaluation of hazards and in the CR. The current situation in the Republic and the world. Unsystematic methods, such as method of inspection records, what happens when ... relative evaluation (index method). Systematic methods, such as FTA, HAZOP, FMEA. 5th Estimate the likelihood of accidents and the severity of their consequences (Human, environmental and economic losses). Computational methods of combustible file under various process conditions and for various disorders and deviations, the calculation of the contamination zone. Computer programs for estimation of the consequences accidents, the principles of the ROZEX. 6th Legislative support of prevention and preparedness for major accidents in Europe. EU Council Directive 96/82 / EC, the so-called Seveso III Directive. The resulting obligations. 7th Legislative support of prevention and preparedness for major accidents in the country. Act No. 59/2006 Coll. On the prevention of major accidents, asamended and its implementing regulations. Duty Operators (Reporting requirements, safety program, safety report, emergency plans) and government. 8th Physical and chemical properties of technical safety featureschemicals (TBP). Focus on liquids and gases. Explanation of terms: flash point, ignition temperature, explosion limits, explosion characteristics Mebs, MGA, LOI. Their use in hazard identification and risk assessment and for security technologies. 9th Characteristics of technological processes and working conditions. Highlighting the implementation of the knowledge of technological processes and working conditions for hazard identification and risk assessment. Analysis of possible deviations and disorders. Human error. 10th Principles of protection against leakage of dangerous substances, fire and explosion.Active and passive fire and explosion prevention. Application of basic security measures. 11th Comprehensive assessment of hazards and associated risks of selected technology. Physical processes - heating, drying. rectification. Basic knowledge about the process. Technological options. The character of risk and prevention. 12th Comprehensive assessment of hazards and associated risks of selected technology. Physical processes - rectification. Basic knowledge about the process.Technological options. The character of risk and prevention. 13th Comprehensive assessment of hazards and associated risks of selectedtechnology. Chemical processes - hydrogenation, hydrochlorination. Basic knowledge about the process. Technological options. The character of risk and prevention. 14th Comprehensive assessment of hazards and associated risks of selected technology. Chemical processes - polymerisation nitration. Basic knowledge of process. Technological options. The character of risk and prevention. 1st Industrial accidents. Types of accidents (fires, explosions, spills and release toxic substances), their severity. The phenomena of accidents (eg BLEVE, VCE, Runaway reaction). Analysis of known serious accidents 2nd Importance and justification of the implementation of hazard analysis and evaluation Technology-related risks. Explanation of basic concepts (risk of serious accidents, safety). Analysis of the causes of leakage, fire and the explosion in the chemical industry. 3rd To analysis and risk assessment of technological processes.Explanation perform each step of analysis and risk assessment technological processes, its use in practice. 4th Overview of methods for identification and evaluation of hazards and in the CR. The current situation in the Republic and the world. Unsystematic methods, such as method of inspection records, what happens when ... relative evaluation (index method). Systematic methods, such as FTA, HAZOP, FMEA. 5th Estimate the likelihood of accidents and the severity of their consequences (Human, environmental and economic losses). Computational methods of combustible file under various process conditions and for various disorders and deviations, the calculation of the contamination zone. Computer programs for estimation of the consequences accidents, the principles of the ROZEX. 6th Legislative support of prevention and preparedness for major accidents in Europe. EU Council Directive 96/82 / EC, the so-called Seveso III Directive. The resulting obligations. 7th Legislative support of prevention and preparedness for major accidents in the country. Act No. 59/2006 Coll. On the prevention of major accidents, asamended and its implementing regulations. Duty Operators (Reporting requirements, safety program, safety report, emergency plans) and government. 8th Physical and chemical properties of technical safety featureschemicals (TBP). Focus on liquids and gases. Explanation of terms: flash point, ignition temperature, explosion limits, explosion characteristics Mebs, MGA, LOI. Their use in hazard identification and risk assessment and for security technologies. 9th Characteristics of technological processes and working conditions. Highlighting the implementation of the knowledge of technological processes and working conditions for hazard identification and risk assessment. Analysis of possible deviations and disorders. Human error. 10th Principles of protection against leakage of dangerous substances, fire and explosion.Active and passive fire and explosion prevention. Application of basic security measures. 11th Comprehensive assessment of hazards and associated risks of selected technology. Physical processes - heating, drying. rectification. Basic knowledge about the process. Technological options. The character of risk and prevention. 12th Comprehensive assessment of hazards and associated risks of selected technology. Physical processes - rectification. Basic knowledge about the process.Technological options. The character of risk and prevention. 13th Comprehensive assessment of hazards and associated risks of selectedtechnology. Chemical processes - hydrogenation, hydrochlorination. Basic knowledge about the process. Technological options. The character of risk and prevention. 14th Comprehensive assessment of hazards and associated risks of selected technology. Chemical processes - polymerisation nitration. Basic knowledge of process. Technological options. The character of risk and prevention. 1st Industrial accidents. Types of accidents (fires, explosions, spills and release toxic substances), their severity. The phenomena of accidents (eg BLEVE, VCE, Runaway reaction). Analysis of known serious accidents 2nd Importance and justification of the implementation of hazard analysis and evaluation Technology-related risks. Explanation of basic concepts (risk of serious accidents, safety). Analysis of the causes of leakage, fire and the explosion in the chemical industry. 3rd To analysis and risk assessment of technological processes.Explanation perform each step of analysis and risk assessment technological processes, its use in practice. 4th Overview of methods for identification and evaluation of hazards and in the CR. The current situation in the Republic and the world. Unsystematic methods, such as method of inspection records, what happens when ... relative evaluation (index method). Systematic methods, such as FTA, HAZOP, FMEA. 5th Estimate the likelihood of accidents and the severity of their consequences (Human, environmental and economic losses). Computational methods of combustible file under various process conditions and for various disorders and deviations, the calculation of the contamination zone. Computer programs for estimation of the consequences accidents, the principles of the ROZEX. 6th Legislative support of prevention and preparedness for major accidents in Europe. EU Council Directive 96/82 / EC, the so-called Seveso III Directive. The resulting obligations. 7th Legislative support of prevention and preparedness for major accidents in the country. Act No. 59/2006 Coll. On the prevention of major accidents, asamended and its implementing regulations. Duty Operators (Reporting requirements, safety program, safety report, emergency plans) and government. 8th Physical and chemical properties of technical safety featureschemicals (TBP). Focus on liquids and gases. Explanation of terms: flash point, ignition temperature, explosion limits, explosion characteristics Mebs, MGA, LOI. Their use in hazard identification and risk assessment and for security technologies. 9th Characteristics of technological processes and working conditions. Highlighting the implementation of the knowledge of technological processes and working conditions for hazard identification and risk assessment. Analysis of possible deviations and disorders. Human error. 10th Principles of protection against leakage of dangerous substances, fire and explosion.Active and passive fire and explosion prevention. Application of basic security measures. 11th Comprehensive assessment of hazards and associated risks of selected technology. Physical processes - heating, drying. rectification. Basic knowledge about the process. Technological options. The character of risk and prevention. 12th Comprehensive assessment of hazards and associated risks of selected technology. Physical processes - rectification. Basic knowledge about the process.Technological options. The character of risk and prevention. 13th Comprehensive assessment of hazards and associated risks of selectedtechnology. Chemical processes - hydrogenation, hydrochlorination. Basic knowledge about the process. Technological options. The character of risk and prevention. 14th Comprehensive assessment of hazards and associated risks of selected technology. Chemical processes - polymerisation nitration. Basic knowledge of process. Technological options. The character of risk and prevention. 1st Industrial accidents. Types of accidents (fires, explosions, spills and release toxic substances), their severity. The phenomena of accidents (eg BLEVE, VCE, Runaway reaction). Analysis of known serious accidents 2nd Importance and justification of the implementation of hazard analysis and evaluation Technology-related risks. Explanation of basic concepts (risk of serious accidents, safety). Analysis of the causes of leakage, fire and the explosion in the chemical industry. 3rd To analysis and risk assessment of technological processes.Explanation perform each step of analysis and risk assessment technological processes, its use in practice. 4th Overview of methods for identification and evaluation of hazards and in the CR. The current situation in the Republic and the world. Unsystematic methods, such as method of inspection records, what happens when ... relative evaluation (index method). Systematic methods, such as FTA, HAZOP, FMEA. 5th Estimate the likelihood of accidents and the severity of their consequences (Human, environmental and economic losses). Computational methods of combustible file under various process conditions and for various disorders and deviations, the calculation of the contamination zone. Computer programs for estimation of the consequences accidents, the principles of the ROZEX. 6th Legislative support of prevention and preparedness for major accidents in Europe. EU Council Directive 96/82 / EC, the so-called Seveso III Directive. The resulting obligations. 7th Legislative support of prevention and preparedness for major accidents in the country. Act No. 59/2006 Coll. On the prevention of major accidents, asamended and its implementing regulations. Duty Operators (Reporting requirements, safety program, safety report, emergency plans) and government. 8th Physical and chemical properties of technical safety featureschemicals (TBP). Focus on liquids and gases. Explanation of terms: flash point, ignition temperature, explosion limits, explosion characteristics Mebs, MGA, LOI. Their use in hazard identification and risk assessment and for security technologies. 9th Characteristics of technological processes and working conditions. Highlighting the implementation of the knowledge of technological processes and working conditions for hazard identification and risk assessment. Analysis of possible deviations and disorders. Human error. 10th Principles of protection against leakage of dangerous substances, fire and explosion.Active and passive fire and explosion prevention. Application of basic security measures. 11th Comprehensive assessment of hazards and associated risks of selected technology. Physical processes - heating, drying. rectification. Basic knowledge about the process. Technological options. The character of risk and prevention. 12th Comprehensive assessment of hazards and associated risks of selected technology. Physical processes - rectification. Basic knowledge about the process.Technological options. The character of risk and prevention. 13th Comprehensive assessment of hazards and associated risks of selectedtechnology. Chemical processes - hydrogenation, hydrochlorination. Basic knowledge about the process. Technological options. The character of risk and prevention. 14th Comprehensive assessment of hazards and associated risks of selected technology. Chemical processes - polymerisation nitration. Basic knowledge of process. Technological options. The character of risk and prevention.

Conditions for subject completion

Full-time form (validity from: 2019/2020 Winter semester)

Task name	Type of task	Max. number of points (act. for subtasks)	Min. number of points	Max. počet pokusů
Credit and Examination	Credit and Examination	100 (100)	51
Credit	Credit	40	15
Examination	Examination	60	11	3

Mandatory attendence participation: At least 70% attendance at the exercises. Absence, up to a maximum of 30%, must be excused and the apology must be accepted by the teacher (the teacher decides to recognize the reason for the excuse). Tasks assigned on the exercises must be hand in within the dates set by the teacher.

Show history

Conditions for subject completion and attendance at the exercises within ISP: Preparation of worksheets. Preparation of risk analysis for the selected technologies. Credit test.

Show history

Valid from	Valid until	Conditions for subject completion and attendance at the exercises within ISP
Feb 28, 2023 9:00:19 PM	Feb 28, 2023 9:03:01 PM	Prepare worksheets. Prepare a risk analysis for the selected technologies. Credit test.

Occurrence in study plans

Academic year	Programme	Branch/spec.	Form	Study language	Tut. centre	Year	Type of duty
2024/2025	(N0712A130004) Chemical and environmental engineering	(S01) Chemical Engineering	P	Czech	Ostrava	1	Compulsory	study plan
2023/2024	(N0712A130004) Chemical and environmental engineering	(S01) Chemical Engineering	P	Czech	Ostrava	1	Compulsory	study plan
2022/2023	(N0712A130004) Chemical and environmental engineering	(S01) Chemical Engineering	P	Czech	Ostrava	1	Compulsory	study plan
2021/2022	(N0712A130004) Chemical and environmental engineering	(S01) Chemical Engineering	P	Czech	Ostrava	1	Compulsory	study plan
2020/2021	(N0712A130004) Chemical and environmental engineering	(S01) Chemical Engineering	P	Czech	Ostrava	1	Compulsory	study plan
2019/2020	(N0712A130004) Chemical and environmental engineering	(S01) Chemical Engineering	P	Czech	Ostrava	1	Compulsory	study plan

Occurrence in special blocks

Block name	Academic year	Form of study	Study language	Year	W	S	Type of block	Block owner

Assessment of instruction