Preventing Runaway Reactions

Implement a robust, strategic assessment process to minimize runaway reaction risks

Safety management systems and regulations relating to fire and explosion hazards (eg. NFPA 652, ATEX) are typically prescriptive and can be relatively easily transcribed into corporate procedures. Few such authoritative and prescriptive protocols exist for the assessment and avoidance of runaway reaction hazards.

Preventing Runaway Reactions

This webinar helps fill the gap by outlining how to identify, evaluate and characterize reaction hazards so that manufacturing operations proceed safely. It includes an overview of testing techniques and parameters for developing an appropriate Basis of Safety and provides a framework for successful implementation. Case studies are incorporated to illustrate how incidents can arise from deficient assessment protocols.

Join two of DEKRA’s global experts as they explain the most relevant elements of runaway reaction prevention and respond to your questions on the topic in this 3-hour webinar. Additional material such as presentations, transcripts etc. will not be supplied. For your convenience, the webinar will be delivered at two different times to accommodate participants from multiple time zones. We offer the webinars for 95 € per webinar per participant.

Topics covered

  • Hazard identification for thermally unstable substances / mixtures and runaway reactions
  • Runaway reaction hazard assessment strategy
  • Thermal safety testing – thermal screening, reaction calorimetry and adiabatic calorimetry
  • Basis of safety for prevention / protection against runaway exothermic reactions
  • Identifying hazardous reactions and substances
  • Case studies to demonstrate a major runaway reaction event
  • A retrospective safety case development for a highly hazardous process which demonstrates the end-to-end protocol

Intended audience

This training is designed for anyone involved in developing, scaling up or operating chemical reactions. This includes, but is not limited to:

  • R&D chemists
  • Plant and project managers
  • Process engineers
  • Plant (and pilot plant) operators
  • HSE staff
  • Process safety engineers)
  • Risk assessors
  • Line managers and shift supervisors

Dates and times

23rd September 2021

  • 10:00 am to 1:00 pm CET
  • 5:00 pm to 8:00 pm CET

Registrations will be opened soon!

Meet the trainers

Dr Stephen Rowe

Dr Stephen Rowe manages the activities of the DEKRA Organisational and Process Safety business in the UK. He graduated in Applied Chemistry with First Class honours from the University of Portsmouth – a course of study that included a year in the ICI Process and Hazards Studies Group in Blackley, Manchester where his enthusiasm for process safety was founded. He then undertook research on the use of reaction inhibition techniques for the control of runaway polymerisation reactions; gaining a PhD through the Chemical Engineering department at University of London (South Bank). He has a career background in the assessment of chemical reaction hazards and the laboratory assessment of a full range of process safety hazards including dust, gas and vapor flammability and explosives characterization.

He is an experienced trainer and regular contributor to national and international process safety conferences and symposia. As a manager, Stephen Rowe focuses on building successful teams and growing the organization in a customer-centric manner. He oversees, and is actively engaged in, the company’s quality and safety management systems (ISO9001 and ISO45001). He successfully completed a postgraduate certificate in Engineering Management (with distinction) through the University of Bath, He is a Fellow of the Royal Society of Chemistry, a Chartered Chemist, a Member of the Institute of Directors and an Associate Member of the Institution of Chemical Engineers.

Amy Theis

Amy Theis is a recognized safety professional with more than 20 years of experience in the chemical, pharmaceutical and manufacturing industries. She has comprehensive background in the identification of chemical reaction hazards including facilitating Process Hazard Analysis (PHA) studies. She specializes in calorimetry test design for safe storage, transportation and processing of reactive chemicals including emergency relief system design for reactive chemicals.

Her current role as Business Development Director of Energetics and Explosives allows her to ensure that clients obtain the correct testing data to characterize their process hazards. Her education includes a Bachelor’s degree in Chemical Engineering as well as being a professional engineer in the state of Illinois (USA).

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