Safety Technology & Risk Management

Safety Technology & Risk Management

 

Date & Location: (15-19/Jan) Kuala Lumpur – ( 24-28/Dec) Istanbul

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Course Overview

Introduction:

The highlights of this course are as follows:

  • Introduce to the delegate the practical ways of safety engineering and risk assessment systems
  • Methods and techniques in eliminating, mitigating and controlling major hazard situations and conditions
  • Using well established principles defined by International and professional bodies such as IChemE ( Institute of Chemical Engineers), developed and formulated over many years and further established from learning from major accidents
  • Provide the delegate with a working knowledge of the proactive and reactive processes by which quantifiable assessments can be used to assess and control risks

 

Program Objectives:

  • Apply the principles of hazard identification and assessment of risk to processes and machinery
  • Understand reliability concept and use of failure tracing methods
  • Demonstrate a practical understanding of a quantitative risk assessment technique and the date required for records
  • Advise management on the most effective control methods based on the evaluation of risk
  • Identify the general requirement for development of safe system of work
  • Recognise relevant International Standards for Reliability and Machinery Safety

 

Who Should Attend?

  • Plant Professionals
  • Engineers
  • Designers
  • All Professionals who has a contribution to make in ensuring the safe operation of a potential high hazard workplace

 

Program Outline:

DAY 1

Hazard Identification

  • Introduction and course overview
  • Why do we need safety engineering
  • Examples of major disasters
  • The safety system process
  • Hazard identification
  • Hazard control
  • Criteria for risk tolerability
  • Hazard Identification Techniques
  • Design out hazards
  • Safety standards codes, national and international
  • Safety analysis in engineering
  • Safety analysis in Chemical process
  • Safety analysis in manufacturing

DAY 2

Risk Assessment Techniques

  • Safety Management
  • Safety in system life cycle
  • Hazard identification check-list
  • Process, workplace, work equipment risk assessment
  • Task-based risk assessment
  • Introduction to HAZOP

DAY 3

Machinery and Work Equipment Safety

  • Machinery hazard identification
  • Causes and methods for machinery accident prevention
  • HAZOP examples
  • Failure modes, human factors and software safety
  • Conducting a failure mode and effective analysis
  • Human factors safety analysis
  • Performance and human error
  • Human factors and safety analysis

DAY 4

Reliability Technology

  • Types and causes of failures
  • Methods of preventing failure
  • Types of maintenance and inspection regimes
  • Reliability of components and systems
  • Design and reliability of control systems
  • Design and reliability of protective systems
  • The concept of ‘HIPS’
  • Safety Integrity Levels ‘SIL’ selection

DAY 5

Consequences Analysis

  • Mechanics of fire, explosion and toxic releases
  • Dispersion modelling software
  • Types of fire: flash, jet, cascading fires and BLEVE
  • Types of explosion
  • Quantification of risk
  • Event Tree Analysis ‘ETA’
  • Course Summary
  • Course Review