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E-624 - Safety Engineering - Module 2

E-624 - Safety Engineering - Module 2

5 days
HSE/SAFENG2GB
Sessions
Dates Location Tuition Register
Nov 26 - 30, 2018 Rueil 3,570 €
Online By email
Who should attend?

Audience

    • Safety engineers, HSE superintendents, other engineers and managers (environment, project, process, instrument and operations) involved in operating or designing and implementing major projects.

Level

  • Proficiency
  • This course provides the knowledge and tools for coordinating HSE studies, for the different stages of an onshore or offshore, Oil & Gas, grass-roots or major revamping project.
Learning Objectives
  • Upon completion of the course, participants will be able to:
  • describe the probabilistic methods of safety engineering and typical safety systems design,
  • design safety systems including firewater, fire and gas detection, and over-pressure relief,
  • take part in risk assessment and project evaluation,
  • contribute to a corporate, experience-based, safety culture.
Course Content

DIGEST OF MODULE 1

0.5 day

  • Fundamentals of safety engineering-milestones reminder.
  • Review of historical events leading to significant incidents through consequences analysis.

INHERENTLY SAFER PLANT DESIGN

0.25 day

  • Possible options for the elimination of a hazard.
  • Provision or addition of control means.
  • Limitation of inventories of hazardous products.

CONSEQUENCE ANALYSIS METHODOLOGY

1 day

  • Examples of types of scenarios to be considered.
  • Consequence modeling e.g. blast overpressure, dispersion modeling…
  • Criteria for impact assessment.
  • Exercise.

QUANTITATIVE RISK ASSESSMENT (QRA)

0.75 day

  • Methodology to be used.
  • Systematic QRA approach (step by step).
  • Assessment and improvement.
  • Case studies and application.

SAFETY INSTRUMENTED SYSTEMS (SIS)

0.5 day

  • Examples of safety instrumented systems & performance targets.
  • Typical architecture.
  • Safety Instrumented Function (SIF) and Safety Integrity Level (SIL).
  • Design of ESD systems, hierarchy of ESD and actions, causes and effects.

INTEGRITY OF HSE CRITICAL EQUIPMENT

0.5 day

  • HSE critical equipment identification.
  • Installation, commissioning and start up process.
  • Testing, inspection and maintenance.
  • Worked example.

DESIGN OF FIRE & GAS (F&G) DETECTION SYSTEMS

0.5 day

  • Selection of F&G detector types.
  • Positioning of F&G detectors.
  • Logic associated with the activation of the F&G detectors.

ACTIVE & PASSIVE FIRE PROTECTION

0.5 day

  • Design of firewater network, calculations for firewater demand.
  • Fire protection using water, foam, dry chemicals and inert gas.
  • Firewater systems, pump types and selection guidance.
  • Practical exercise.

HUMAN FACTORS & HUMAN ERRORS

0.25 day

  • Human factors in process control. Alarm systems.
  • Human error in process plants. Downgraded situations.
  • Emergency situations.

DOCUMENTED EVIDENCE REQUIREMENTS

0.25 day

  • Safety case regulations.
  • Safety dossier.
Ways & Means
  • Highly interactive training by industry specialist lecturer.
  • Numerous applications and illustrations.
  • Several case studies and teamwork sessions.