Reactive Hazards Analyzer Skill
Purpose
The Reactive Hazards Analyzer Skill evaluates reactive chemical hazards including thermal stability, chemical incompatibilities, and runaway reaction potential using calorimetric data analysis.
Capabilities
- •Thermal stability assessment
- •Chemical compatibility screening
- •DSC/ARC data interpretation
- •Adiabatic runaway analysis
- •TMRad calculations
- •Criticality assessment
- •SADT determination
- •Relief sizing for reactive systems
Usage Guidelines
When to Use
- •Assessing reactive hazards
- •Interpreting calorimetric data
- •Designing reactive system safeguards
- •Screening chemical incompatibilities
Prerequisites
- •Material safety data available
- •Calorimetric test data (if available)
- •Process conditions defined
- •Reaction stoichiometry known
Best Practices
- •Screen all chemical combinations
- •Use appropriate test methods
- •Consider worst-case scenarios
- •Involve subject matter experts
Process Integration
This skill integrates with:
- •HAZOP Study Facilitation
- •Pressure Relief System Design
- •Reactor Design and Selection
Configuration
yaml
reactive-hazards-analyzer:
test-methods:
- DSC
- ARC
- RC1
- VSP2
hazard-types:
- thermal-decomposition
- polymerization
- incompatibility
- oxidation
Output Artifacts
- •Hazard assessments
- •Compatibility matrices
- •Calorimetric data analysis
- •Relief sizing for reactive
- •Safety recommendations