Training

• Aircraft Fire and Explosion due to accidents, combat and terrorist attacks
• Safety and Security of Power Plants
• Safety and Security of Chemical and Petrochemical Companies
• Off Site Consequence Analysis for Dispersion, Fire and Explosion of Hazardous Chemicals
• Off Site Consequence Analysis for Open Burn, Open Detonation, Rocket Launch Operations and Industrial Conflagrations
• Fate and Transpott of Contaminants in Water Distribution Systems
• Chemical and Biological Agents - Detection , Characterization and Defeat/Decontamination

Aircraft Fire & Explosion Course Investigation/Vulnerability/Protection in Accidents, Combat & Terrorist Attacks

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Safety and Security of Power Plants

In the post WTC era, there is a need to improve the safety and security of power plants against terrorist attacks. The objective of the course is to expose the industry to what the hazards might be and what can be done about them. Specific areas of interests include:

• Background on hazards of interest
  • Historical accidents (from relevant industries and activities)
  • Terrorist attacks (explosives, incendiaries, chemical/bio agents, impact with vehicles)
  • Deliberate misuse of plant equipment
• Vulnerable systems
  • Nuclear reactors
  • Storage tanks of fuels and chemicals (ammonia, hydrogen, acids)
  • Pipelines, tank cars and tankers at the plants
  • High-pressure equipment: compressors, turbines, pressurized boilers
• Identifying potential hazards
  • Fires
  • Explosions
  • Toxic releases
  • Radioactive releases
  • Impacts by debris
  • Explosions
  • Structural damage
• Scenario definition
  • Realistic case
  • Worst case
  • Domino effects
• Quantifying potential adverse impacts
  • Hazard distances
  • People impacted
  • Environmental damage
  • Radioactive releases
  • Dollar loss
  • Forced outage
  • Loss of business
• Risk mitigation
  • Improved security
  • Design and operational changes
  • Preparedness
  • Risk transfer via insurance
• Emergency Response Systems
  • Evacuation planning
  • Coordination with local authorities
• Regulations
  • EPA
  • OSHA
  • Homeland Security Office
• Software and analysis tools
• Related organizations and resources

Safety and Security of Chemical and Petrochemical Companies

In the post WTC era, there is a need to improve the safety and security of all companies against terrorist attacks, particularly the companies that handle hazardous chemicals. The objective of the course is to expose the industry to what the hazards might be and what can be done about them. Specific areas of interests include:

• Background on hazards of interest
  • Historical accidents (from relevant industries and activities)
  • Terrorist attacks (explosives, incendiaries, chemical/bio agents, impact with vehicles)
  • Deliberate misuse of plant equipment
• Vulnerable systems
  • Storage tanks of fuels and chemicals (ammonia, hydrogen, acids)
  • Pipelines, tank cars and tankers at the plants
  • High-pressure equipment: compressors, turbines, pressurized boilers
• Identifying potential hazards
  • Fires
  • Explosions
  • Toxic releases
  • Radioactive releases
  • Impacts by debris
  • Structural damage
  • Scenario definition
  • Realistic case
  • Worst caseDomino effects
• Quantifying potential adverse impacts
  • Hazard distances
  • People impacted
  • Environmental damage
  • Radioactive releases
  • Dollar loss
  • Forced outage
  • Loss of business
• Risk mitigation
  • Improved security
  • Design and operational changes
  • Preparedness
  • Risk transfer via insurance
• Emergency Response Systems
  • Evacuation planning
  • Coordination with local authorities
• Regulations
  • EPA
  • OSHA
  • Homeland Security Office
• Software and analysis tools
• Related organizations and resources

Off-site Consequence Analysis for Fire, Explosion and Dispersion of Hazardous Chemicals

A four-day coordinated course is offered by BlazeTech Corporation:

Day One will cover the basics of Off-site Consequence Analysis (OCA) and their regulatory context. Example OCAs will be carried out for worst-case and alternate scenarios using BlazeTech's computerized version of the EPA OCA Tables .  Attendees will receive a free copy of this software with registration.

Day Two will cover Advanced Off-site Consequence Analysis.  We will examine alternate scenarios using more realistic modeling methods compared to those that form the basis of the EPA Tables.  These will yield more accurate and often shorter hazard distances than the ones predicted by EPA Tables. For example, accounting for reaction of halogenated compounds with atmospheric moisture may produce cloud lift-off and result in a significant decrease in the hazard distance at ground-level.

Day Three will cover the dispersion hazards from the simultaneous release of a mixture of reacting chemicals in the open atmosphere.  This includes the normal discharge from demilitarization operations (OBOD) and rocket launches as well as accidental releases resulting in conflagrations involving several chemicals or multiple reactions.  We will feature BlazeTech's ADORA software (Atmospheric Dispersion of Reacting Agents). This software is unique in its ability to calculate the products of reactions, i.e., the emission factors from major conflagrations.

Day Four will provide hands-on training for ADORA.

Course Outline

Day One: Basic Off-site Consequence Analysis

Regulatory Issues

• CAA 112r Requirements and RMP
• Applicability and Regulated Substances
• Programs 1, 2 and 3
• Requirements for OCA Calculations
• Worst-case Scenario
• Alternate Release Scenario
• Regulatory Status of Models

Characterization of Accidental Releases

Major Historical Accidents

• Fire, Explosion and Dispersion
• OCA using BlazeTech's Computerized EPA Tables
• Toxic Gas/Liquid
• Flammable Gas/Liquid
• Thermal Radiation
• Overpressure

Related Issues

• Toxicity
• Mitigation Effects
• Hazard/Risk Analysis

Class Discussion

Day Two: Advanced Off-Site Consequence Analysis
Introduction
Dispersion

• Source Term Characterization
• Dense Cloud and Plume Rise
• Complex Terrain, Deposition
• Instantaneous Buoyant Puff Rise
• Building Effects/Plume Lift Off
• Plume Modeling with One-step Reaction
• Averaging time/toxicity
• Comparison of Available Models

Explosions

• Deflagration, Detonation and Transitions
• Confined Explosion of Gases
• Unconfined Vapor Cloud Explosions
• Blast and Overpressure Calculations
• TNT Equivalent Yields
• Multi-energy Method
• Structural Response

Fires

• Pools and jets
• Vapor Clouds and Flash Fires
• Fire balls and BLEVEs
• Thermal Radiation

Class Discussion
Day Three: Dispersion Hazards from Release of Mixtures of Reacting Chemicals
Introduction

• Regulatory Context: RCRA and state requirements
• Open Burn Open Detonation  (OBOD)
• Rocket Launch and Accidents
• Industrial Conflagrations
• Cloud Physics
• Burn vs. Detonation
• Fireballs and Stems
• Above vs. Below Ground Detonation

Cloud chemistry

• Thermochemical Equilibrium
• Kinetic Approximations
• Prediction of Emission Factors

Case Studies Using ADORA

• Dugway's Bangbox MunitionTests
• Discharge from Titan IV and Delta Rockets
• Propane Conflagration involving Chlorine
• Parametrics to Minimize Off-site Hazards
• Water Deluge Effects

Class Discussion
Day Four: Hands-on Training for ADORA

Case Studies

Input/Outputs, Databases