Cambridge
Academy
In London
Course Description
Course Duration: Five Training Days
Course Language: Arabic or English
Include:
Scientific material with TAB
Workshops
Reception and farewell at the airport
Daily lunch
Coffee Break
Introduction
Using technology effectively can enable companies to develop solutions and make sound decisions that can improve business performance. But, simply deploying new technology for technology’s sake is not sufficient to make sense of available data to improve operations, manage organizational risks and achieve strategic goals.
Companies that take the time to evaluate whether processes are effective before adding new technologies, make clear the benefits of technology to workers, and ensure technology integrates fully with safety and operations will increase their ability to make the right business decisions that will improve their performance.
Risk Management and Safety Technology Best Practice training course will Introduce to the delegate the practical ways of safety engineering and risk assessment systems and Methods and techniques in eliminating, mitigating and controlling major hazard situations and conditions
The course Provides the delegate with a working knowledge of the proactive and reactive processes by which quantifiable assessments can be used to assess and control risks
Objectives
At the end of the Risk Management and Safety Technology Best Practice, you will be able to:
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
Recognize relevant International Standards for Reliability and Machinery Safety
Who Should Attend?
Risk Management and Safety Technology Best Practice Training course, is ideal for :
All Professionals who has a contribution to make in ensuring the safe operation of a potential high hazard workplace
Plant Professionals
Engineers
Designers
Course Outline
unite1:
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
unite2:
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
unite3:
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
Performance and Human Error
Human Factors and Safety Analysis
unite4:
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
unite5:
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