We offer a wide spectrum of safety, technology and risk management training, delivered in-person, virtually, or online. Want a customized course? Contact us for training tailored to your specific needs and requirements.
Master techniques for addressing relief sizing for various scenarios, relief piping system design, flare header modeling and consequence modeling.
Learn about the fundamentals of pressure relief and flare system (PRFS) design, as well as contemporary assessment practices, including RAGAGEP.
Learn the fundamentals of the PSM OSHA regulation to prevent or minimize the consequences of catastrophic releases of toxic, reactive, flammable, or explosive chemicals.
Building on fundamental knowledge, gain a better understanding of contemporary, proven best practices and methodologies for pressure relief and flare system (PRFS) design.
Gain a thorough understanding of the essentials of leading PHAs using industry methodologies such as HAZOP, FMEA, What If, Checklist, and more online.
Examine how inhibitors in reactive monomers work and the consequences of not understanding inhibitor levels.
Gain a better understanding of pressure relief valve (PRV) stability and key concepts affecting relief systems operations and design.
Learn the essential elements of a successful Asset Integrity Management (AIM) system and how those elements fit together.
Explores the implementation of an AIM system to meet regulatory requirements, addressing CCPS risk-based safety, and more.
Gain a thorough understanding of the main issues, concepts, and methodologies with pressure relief systems design.
Demonstrates how to use SuperChems™, a component of Process Safety Office®, to ensure safe relief in the event of a runaway reaction.
Gain the knowledge and insight to successfully simulate pressure-relief problems in the SuperChems™ for DIERS Lite software.
Comprender la estructura esencial que constituye un análisis de riesgos de proceso (PHA) como HAZOP, What-If, Checklist, FMEA, etc.
Learn the basics of interpreting and applying test data to gain insight into the likelihood of ignition.
Learn about everyday dust hazards, how dust becomes combustible, and the basic industry terminology and standards.
Learn how to set up a mechanical integrity (MI) program, essential to prevent failures and accidental releases.
Learn the essential structure of PHAs and get an introduction to the industry’s most popular methodologies.
Learn the fundamentals to recognize and assess various hazards and the risks they pose inside chemical or refinery facilities.
Understand the purpose of a chemical interaction matrix, limitations, references, and steps to create a matrix and evaluate it for risk.
Learn about emergency response planning and practical tips for developing an effective emergency response system.
This learning module teaches the importance of identifying and properly managing time sensitive chemicals.
Learn why you must identify, understand, and manage the dusts in your process, and what testing may be needed.
Inadvertent mixing of incompatible chemicals can have catastrophic consequences. Learn about the risks and ways to prevent them.
Kinetic testing can help you understand and manage the reactive hazards of chemicals at your facility.
Learn about safety risks associated with the location of occupied buildings within a plant and how to reduce those risks.
About establishing a safe laboratory working environment and maintaining a safety culture when handling hazardous materials.
This learning module examines main risks, current regulations, lessons learned, and insight into reducing these risks.
Learn about the importance of Safety Data Sheets (SDSs) and the required information that must be stated on the SDS.