Conduct an effective incident investigation based on best practice guidelines and develop preventative actions.

Ideal for new users, this module introduces the main components of project files and basic functionality of the toolbar, and more.

Implement databanks, apply Binary interaction Parameters (BIPS), use the Define Toolbox tab for mixtures, and create a chemical mixture.

Action and Universal buttons are crucial SuperChems™ components. This module explores their functionality and how they are used for computations.

Create a petroleum fraction and identify the SuperChems™ graphing functions needed for chemical mixtures and petroleum fractions.

Sites describe the surrounding conditions in an area and should be defined for all models. Spill surfaces describe the ground surrounding the equipment where a spill could occur.

Identify the inputs in the basic Specification and External fire sub-menus, how vessel types impact the required inputs, and how to use various options for equipment profiles.

Generate a report using the PSMPro™ interface and transfer study findings to PSE for QA/QC, tracking, and completion.

Basic functionality related to modifying risk matrices and PHA worksheet templates is covered in this module, including how to utilize the four types of columns.

Ideal for new users, this module provides an overview of the software, including the contents of a PSMPro™ project file, how to create, open, and save PHA studies & more.

Learn how to develop a safer work environment and a framework for implementing effective safeguards against combustible dust.

Master the 14 essential elements required by the OSHA PSM Standard 29 CFR 1910.119 for identifying hazards and managing risk.

Gain the knowledge and insight to successfully simulate pressure-relief problems in the SuperChems™ for DIERS Lite software.

Examine how inhibitors in reactive monomers work and the consequences of not understanding inhibitor levels.

Gain a thorough understanding of the essentials of leading Process Hazard Analysis (PHAs) using industry methodologies such as HAZOP, FMEA, What If, Checklist, and more.

This module serves as the introduction to Refinery Hazards Fundamentals course and provides a summary of topics covered and what to expect from completed course.

This module delivers the course outline, an overview, and the learning objectives of the completed course.

Learn about the critical elements of a MI or AI program and the consequences of not implementing or sustaining the program.

This module provides a preview summarizing the course material and reviewing the course goals and objectives.

This module provides a preview of the course contents and the intended objectives for the learner.