FIRES EXPLOSIONS AND COMBUSTIBLE DUST HAZARDS Morgan Worsfold
FIRES, EXPLOSIONS, AND COMBUSTIBLE DUST HAZARDS Morgan Worsfold & Paul Amyotte Dalhousie University, Halifax, NS, Canada Manny Marta NOVA Chemicals, Sarnia, ON, Canada
Module Basics n Scope n Fires, explosions, and combustible dust hazards n Motivation n While these incidents and hazards are prevalent in the process industries, practitioner knowledge gaps exist n Objective n Achievement of specific learning objectives by the target audience of undergraduate engineering students 2
Learning Objectives n Remembering n Define combustible dust n Identify the three elements of the fire triangle and the five elements of the explosion pentagon n Understanding n Explain how gaseous, liquid and solid fuels burn n Describe the fundamentals of a dust explosion according to the explosion pentagon n Applying n Calculate the airborne concentration resulting from the dispersion of a dust, given its bulk density, layer thickness and enclosure height 3
Learning Objectives (Continued) n Analyzing n Identify combustible dust hazards in a given example n Evaluating n Determine appropriate prevention and mitigation strategies for a specific case study and explain reasoning n Creating n Formulate a dust explosion prevention plan for a given scenario, taking into account each element of the explosion pentagon 4
Module Outline n Basic Fire Principles n Mixing n Basic Explosion n Confinement Principles n Dust Explosion Fundamentals n Fuel n Ignition Source n Oxidant n Dust Layer Fires n Prevention and Mitigation n Case Studies n Resources n Evaluation 5
Basic Fire Principles Mixing Confinement Basic Explosion Principles Dust Layer Fires Dust Explosion Fundamentals Prevention and Mitigation Fuel Case Studies Ignition Source Resources Oxidant Evaluation Basic Fire Principles 6
Basic Fire Principles Fire triangle elements n Fire definitions n Chemical reaction (combustion) in which a substance combines with an oxidant and releases energy, part of which is used to sustain the reaction n Process of combustion characterized by heat, smoke, flame or any combination thereof n Fuel – gas, liquid, solid n Oxidant – gas, liquid, solid n Ignition source – many types widely found in industry 7
Basic Fire Principles Flammability parameters n Flash point: FP n Vapour pressure: psat n Lower flammability limit: LFL n Upper flammability limit: UFL n Flammability range: LFL → UFL n Minimum ignition energy: MIE n Autoignition temperature: AIT 8
Basic Fire Principles Fire consequences n Flame n Heat n Smoke One Side of the Chevron Richmond Refinery Fire The Other Side 9
Basic Fire Principles Fire types n Pool fire n Jet fire n Fireball n Flash fire n Dust layer fire Pool Fire Jet Fire 10
Basic Fire Principles Fire examples Deepwater Horizon Piper Alpha Buncefield 11
Basic Fire Principles Mixing Confinement Basic Explosion Principles Dust Layer Fires Dust Explosion Fundamentals Prevention and Mitigation Fuel Case Studies Ignition Source Resources Oxidant Evaluation Basic Explosion Principles 12
Basic Explosion Principles Explosion pentagon elements n Explosion definition n Rapid expansion of gases resulting in rapidly moving pressure or shock wave Expansion can be mechanical (e. g. , rupture of pressurized cylinder) or result of rapid chemical reaction Explosion damage caused by pressure or shock wave that does work on its surroundings n Fuel – as per fire triangle n Oxidant – as per fire triangle n Ignition source – as per fire triangle n Mixing – of fuel and oxidant n Confinement – for overpressure development 13
Basic Explosion Principles Explosibility parameters n Maximum explosion pressure: Pmax n Maximum rate of pressure rise: (d. P/dt)max n Volume normalized maximum rate of pressure rise: KG for gases and KSt for dusts 14
Basic Explosion Principles Explosion consequences n Overpressure n Missile fragments Heat Exchanger Rupture Support Column Sheared Off Baseplate 15
Basic Explosion Principles Explosion types n General categories n Physical n Chemical BLEVE n Speed of reaction front n Deflagration n Detonation 16
Basic Explosion Principles Explosion types 17
Basic Explosion Principles Explosion examples Flixborough Toulouse AZF BP Texas City 18
Basic Explosion Principles Fires ↔ explosions The major distinction between fires and explosions is the rate of energy release. Fires release energy slowly, whereas explosions release energy rapidly. Fires can also result from explosions, and explosions can result from fires. A good example of how the energy release rate affects the consequences of an accident is a standard automobile tire. The compressed air within the tire contains energy. If the energy is released slowly through the nozzle, the tire is harmlessly deflated. If the tire ruptures suddenly and all the energy within the compressed tire releases rapidly, the 19 result is a dangerous explosion.
Basic Explosion Principles Domino effects 20
Basic Fire Principles Mixing Confinement Basic Explosion Principles Dust Layer Fires Dust Explosion Fundamentals Prevention and Mitigation Fuel Case Studies Ignition Source Resources Oxidant Evaluation Dust Explosion Fundamentals Play Video 21
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