|
XIII-A-R44:
Practical Example: Workshop Petro
|
Course code: 175563
Language of instruction: English
Lecturers: MSc Stefan Husta (Steinbeis Advanced Risk Technologies), Dr. Robert Kauer (TÜV SÜD Industrie Service GmbH), Dr. Gopika Vinod (Bhabha Atomic Research Centre), MA Svetozar Eremić (NIS Gasprom Neft Refinery Pancevo)
Assessment: Defined in the module
|
|
Short description
Practical examples with the state-of-art tools are applied by the student. Relevant tools are iRiS-Petro, Orbit etc.
|
|
Objectives
Participants are expected to:
-be familiar with the practical implementation of the learned techniques
-be able to perform basic calculation of probabilities
-gain insights into the HAZOP analysis
-know the RCFA principles
Target Attendees / Participants
University students of Steinbeis European Master Program in Risk Engineering and Management, and similar programs.
Course Content by Units
Calculation of probability
Hazard identification in petrochemical industry
Fault Tree Analysis technique
HAZOP analysis
RCFA Principles. RCA examples
Likelihood assessment –statistical and API581 approach
Teaching Methods
Guided application of learned concepts through state-of-art tools.
Case study.
Literature
AICHE/CCPS (2000), "Guidelines for Chemical Process Quantitative Risk Analysis-GCPQRA", 2nd Edition
CWA 15740, April 2008: Risk-Based Inspection and Maintenance Procedure for European Industry (RIMAP)
Ir. C.J.H. van den Bosch (2005): Methods for the Calculation of Physical Effects: Resulting from Releases of Hazardous Materials (Yellow Book), Director-General of Labour, Committee for the Prevention of Disasters
|