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Effective ERS Design was developed with the objective of offering operating
companies, engineering firms, and regulatory authorities with a structured
training program for a wide range of ERS design, risk management, and
compliance issues. The program offers three core modules plus a wide choice of
electives directed towards more complex ERS design challenges and
methodologies.
Core modules include the following:
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Core Module 1: Practical ERS Design
The Practical ERS Design module serves as an ERS primer and
focuses on industry codes/standards, regulatory requirements, ERS
contingencies, calculation methodologies, and ERS data management.
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Core Module 2: Advanced ERS Design
The Advanced ERS Design module covers complex design issues such as
chemical reactivity, multiphase flow, dynamic modeling, effluent systems
design, etc. Special emphasis is placed on balancing design and safety
considerations with cost.
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Core Module 3: Applied ERS Design
The Applied ERS Design module demonstrates how state-of-art ERS design
and information management systems can be applied to execute turnkey ERS
projects of any scale with accuracy and consistency in a cost effective manner.
Elective modules include the following:
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Elective Module 1: Auditing Emergency Relief Systems
The Auditing Emergency Relief Systems module provides guidance on how
to conduct efficient and effective internal / external ERS audits to ensure
compliance, safety, and reliability. Special emphasis is placed on how
operating companies can leverage past efforts to bring their ERS documentation
into compliance.
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Elective Module 2: Best Practice for Managing Chemical Reactivity
The Best Practice for Managing Chemical Reactivity module provides an
overview of the hazards of chemical reactivity, assessment of reactive
scenarios, and screening / experimental techniques utilized for modeling
kinetic data. Special emphasis is placed on the ongoing industry debate on
managing chemical reactivity.
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Elective Module 3: Risk-Based Techniques for Overpressure Analysis
The Risk-Based Techniques for Overpressure Analysis module
demonstrates the application of quantitative or simi-quantitative risk-based
methodologies for addressing overpressure situations. Topics include the
application of fault tree analysis (FTA), safety instrumented systems (SIS),
and layer of protection analysis (LOPA).
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