Calorimeters
* Advanced Reactive System Screening Tool (ARSST)
* Advanced Reactive System Screening Tool
* The Reactive System Screening Tool (RSST): An Easy, Inexpensive Approach to the DIERS Procedure
* Thermal Runaway Reactions in a Low Thermal Inertia Apparatus
* The Versatile VSP2: A Tool for Adiabatic Thermal Analysis and Vent Sizing Applications
* Thermal Hazards Evaluation Using the ARSST
* A Fast Thermal Activity Interpreter for Controlling Chemical Reaction Hazards

Dispersion
* A Model of the Dilution of a Forced Two-Phase Chemical Plume in a Horizontal Wind
* Source Term Considerations in Connection with Chemical Accidents and Vapour Cloud Modeling

General
* Emergency Relief Systems-Sizing and Scale-Up
* Flashing Flows or: Some Practical Guidelines for Emergency Releases
* Large-Scale Experiments of Emergency Relief Systems
* Preventing Explosions During Chemicals and Materials Storage
* The Next Step to Accommodate Major Chemical Accidents

Vent Sizing
*A Practical Approach to Capacity Certification
*A Quick Approach to Reactor Vent Sizing
* Calculate Characteristic Time to Runaway
* Emergency Relief Vent Sizing for Fire Emergencies Involving Liquid-Filled Atmospheric Storage Vessels
* Generalized Vent Sizing Nomogram for Runaway Chemical Reactions
*Multi-Phase Flow Considerations in Sizing Emergency Relief Systems for Runaway Chemical Reactions
* The Omega Method for Discharge Rate Evaluation
* Overpressure During Emergency Relief Venting in Bubbly and Churn-Turbulent Flow
*Pressure Relief and Venting: Some Practical Considerations Related to Hazard Control
* Properly Size Vents for Non-Reactive and Reactive Chemicals
* Runaway System Characterization and Vent Sizing Based on DIERS Methodology
*Scale-Up For Safety Relief of Runaway Reactions
* Simplified Vent Sizing Equations for Emergency Relief Requirements in Reactors and Storage Vessels
* Sizing Rupture Disks (RDs) for Two-Phase Flow
* Emergency Relief System Design for Reactive and Non-Reactive Systems: Extension of the DIERS Methodology
* Vent Sizing Applications for Reactive Systems
* Venting of Runaway Reactions with Gas Generation
* Revisiting DIERS Two-Phase Methodology for Reactive Systems Twenty Years Later
* Managing Chemical Reactivity - Minimum Best Practice