Safety Engineering And Hazard Control
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COURSE DATES AND LOCATIONS
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INTRODUCTION
There is an awful sameness in the causes of incidents and poor safety performance. It is not that there are no standards to follow or that these standards are not totally applicable to the company. The problem lies, on the one hand, to a lack of a robust Safety Management Systems and, on the other, an incomplete Hazard register that defines the methods available to reduce the risks from Hazards and or how to control them. This AZTech Safety Measures and Hazard Control training course aims at setting the guidelines and knowledge base required in both the Safety Management Systems and also the control of Hazards that are present in the Process Industry.
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COURSE OBJECTIVES
By the end of the course, you‘ll be able to:
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Describe the concept and rationale of ALARP and how to achieve it.
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Explain risk identification techniques and how to apply selected techniques for industrial processes and operations.
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Use selected qualitative, quantitative and semi-quantitative techniques for risk identification and management.
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Develop quantitative methods of risk management for new processes and existing operations.
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Develop quantitative frameworks for reliability, availability and maintenance for selected industrial processes.
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Communicate the legal framework for risk and reliability assessment.
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COURSE AUDIENCE
This course is made for :
- Process Managers
- Process Engineers
- Team Leaders
- Maintenance Engineers
- Health and Safety personnel
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COURSE OUTLINE
Day One
- You’ll explore risk-assessment tools and the fundamentals of safety and risk management.
- Risk assessment and classical reliability theory
- ALARP (as low as reasonably practicable) as a principle
- Safety regulatory frameworks
Day Two
- Hazard identification, including brainstorming, checklists, safety performance indicators, incident and inspection reports, structured what-if technique (SWIFT), and safety audits.
Day Three
- Risk assessment techniques, including reliability block diagrams, event trees, fault trees, failure mode and effects analysis (FMEA)
- Major accident prevention policies (MAPP)
- Safety procedures and inherently safe design
Day Four
- Reliability, availability, and maintainability (RAM)
- Failure analysis and maintenance
- Bowtie diagrams, to analyse and demonstrate causal relationships in high-risk scenarios
Day Five
- Layers of protection analysis (LOPA
- Overview of safety standards and functional safet
- Case histories
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