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{{Operational Issue
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{{Infobox Fire
|category          =Fire Smoke and Fumes
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|source_caption=About SKYbrary
|source_caption   =About SKYbrary
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'''POST IMPACT FIRE'''
 
'''POST IMPACT FIRE'''
  
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==Description==
 
==Description==
In the event of an impact with the ground or an obstacle, which results in structural damage to an aircraft, a fuel and/or oil fed fire can start if [[Ignition of Fuels|fuel]] comes into contact with hot surfaces. Equally, if flammable material, being carried as [[Dangerous Goods|dangerous goods]] on a  Civil aircraft or as cargo by a [[State Aircraft|military aircraft]], is damaged or the containment compromised, it may ignite as a consequence of impact, contact with hot surfaces or, in the case of spillage of unstable chemicals, the atmosphere.
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In the event of an impact with the ground or an obstacle, which results in structural damage to an aircraft, a fuel and/or oil fed fire can start if [[Ignition of Fuels|fuel]] comes into contact with ignition sources. Equally, if flammable material, being carried as [[Dangerous Goods|dangerous goods]] on a  Civil aircraft or as cargo by a [[State Aircraft|military aircraft]], is damaged or the containment compromised, it may ignite as a consequence of impact, contact with hot surfaces or, in the case of spillage of unstable chemicals, the atmosphere.
  
 
Fire can spread quickly to the fuselage and through the cabin generating heat, [[Smoke|smoke]], and toxic decomposition products. If the temperature of trapped [[Smoke|smoke]] and gasses reaches the [[Auto-ignition Temperature|auto-ignition temperature]], [[Flashover|flashover]] will occur and an aircraft fuselage can be rapidly engulfed by flames.
 
Fire can spread quickly to the fuselage and through the cabin generating heat, [[Smoke|smoke]], and toxic decomposition products. If the temperature of trapped [[Smoke|smoke]] and gasses reaches the [[Auto-ignition Temperature|auto-ignition temperature]], [[Flashover|flashover]] will occur and an aircraft fuselage can be rapidly engulfed by flames.
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==Solutions==
 
==Solutions==
 
* '''Preparation of the aircraft''' - where the crash landing is anticipated, for example if an off-field landing is necessary or the aircraft has a landing gear  malfunction, then there are several things that can be done to reduce the probability and severity of a fire:
 
* '''Preparation of the aircraft''' - where the crash landing is anticipated, for example if an off-field landing is necessary or the aircraft has a landing gear  malfunction, then there are several things that can be done to reduce the probability and severity of a fire:
** Dump Fuel - if time and aircraft design allow, to reduce the amount of fuel and improve the handling of the aircraft. note that, in the case of an onboard fire, smoke, or fumes, dumping fuel is not a good idea if it results in any delay to landing the aircraft.  
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** Dump Fuel - if time and aircraft design allow, dump to reduce the amount of fuel and improve the handling of the aircraft. For aircraft not fitted with Fuel Dump capability, the aircraft can loiter in the vicinity of the landing airfield to burn gas. Note that, in the case of an onboard fire, smoke, or fumes, any delay to landing the aircraft, inclusive of dumping fuel, should not be considered.  
 
** Isolate fuel systems - close crossfeed valves.
 
** Isolate fuel systems - close crossfeed valves.
 
** Cabin - Prepare the cabin for emergency landing.
 
** Cabin - Prepare the cabin for emergency landing.
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==Contributing Factors==
 
==Contributing Factors==
 
Large amounts of fuel can be carried by modern aircraft and an aircraft crash has the potential to rupture the fuel tanks. Should the spilling fuel be exposed to a spark or open flame a fire may occur. This is particularly true of fuels with low [[Flashpoint|flashpoints]] such as [[AVGAS]]. While jet fuels have a higher flashpoint and are less susceptible to sparks, exposing them to operating engines or to hot engine components may raise the temperature of the fuel to its auto-ignition point and a fire will result.
 
Large amounts of fuel can be carried by modern aircraft and an aircraft crash has the potential to rupture the fuel tanks. Should the spilling fuel be exposed to a spark or open flame a fire may occur. This is particularly true of fuels with low [[Flashpoint|flashpoints]] such as [[AVGAS]]. While jet fuels have a higher flashpoint and are less susceptible to sparks, exposing them to operating engines or to hot engine components may raise the temperature of the fuel to its auto-ignition point and a fire will result.
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==Accidents and Incidents==
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A selection of incidents from the SKYbrary database related to Post Crash Fire:
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{{#ask: [[FIRE::Post Crash Fire]]
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==Related Articles==
 
==Related Articles==
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* [[Dangerous Goods]]
 
* [[Dangerous Goods]]
 
* [[Hydraulic Fluid as a Fire Source]]
 
* [[Hydraulic Fluid as a Fire Source]]
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* [[Light Aircraft Post-crash Fires]]
  
 
==Further Reading==
 
==Further Reading==
 
* [http://www.skybrary.aero/bookshelf/books/2696.pdf Safety issues investigation report SII A05-01 Post-impact fires resulting from small-aircraft accidents], TSB Canada, 2006
 
* [http://www.skybrary.aero/bookshelf/books/2696.pdf Safety issues investigation report SII A05-01 Post-impact fires resulting from small-aircraft accidents], TSB Canada, 2006
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* [http://www.skybrary.aero/bookshelf/books/3786.pdf CAP 699 - Framework for the competence of rescue and fire fighting service (RFFS) personnel], January 2017
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*[http://www.skybrary.aero/bookshelf/books/4233.pdf Aviation Accident Checklist], by ATSB, 7th edition, June 2017
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*[http://www.skybrary.aero/bookshelf/books/4232.pdf Hazards at Aviation Accident Sites - Guidance for Police and Emergency Personnel], by ATSB, 7th edition, June 2017
  
 
[[Category:Post Crash Fires]]
 
[[Category:Post Crash Fires]]
 
[[Category:Cabin Safety]]
 
[[Category:Cabin Safety]]

Latest revision as of 14:48, 25 May 2019

Article Information
Category: Fire Smoke and Fumes Fire Smoke and Fumes
Content source: SKYbrary About SKYbrary
Content control: SKYbrary About SKYbrary

POST IMPACT FIRE

Definition

Post Crash Fires are fires which occur after an aircraft has crash landed or has impacted obstacles or other aircraft during ground movement, runway incursion, or runway excursion.

Description

In the event of an impact with the ground or an obstacle, which results in structural damage to an aircraft, a fuel and/or oil fed fire can start if fuel comes into contact with ignition sources. Equally, if flammable material, being carried as dangerous goods on a Civil aircraft or as cargo by a military aircraft, is damaged or the containment compromised, it may ignite as a consequence of impact, contact with hot surfaces or, in the case of spillage of unstable chemicals, the atmosphere.

Fire can spread quickly to the fuselage and through the cabin generating heat, smoke, and toxic decomposition products. If the temperature of trapped smoke and gasses reaches the auto-ignition temperature, flashover will occur and an aircraft fuselage can be rapidly engulfed by flames.

Effects

Depending upon the severity of the crash, and any resulting fire, the effect on the aircraft can vary from minor damage to total hull loss. Similarly, the potential casualty consequence of a crash/fire event ranges from no injuries to the loss of life of all on board. Collateral damage and casualties are possible dependent upon the location of the crash.

For aircraft with a maximum certified take-off weight of 5700 kilograms or less, post-impact fire contributes significantly to injuries and fatalities in accidents that are otherwise potentially survivable.

Defences

  • Aircraft Design. Aircraft structures and fuel systems can be designed to minimise the quantity of fuel spillage
  • Fuel - Virtually all large passenger aircraft burn jet fuel and not AVGAS. The much higher flashpoint of jet fuel reduces the potential for a post crash fire.

Solutions

  • Preparation of the aircraft - where the crash landing is anticipated, for example if an off-field landing is necessary or the aircraft has a landing gear malfunction, then there are several things that can be done to reduce the probability and severity of a fire:
    • Dump Fuel - if time and aircraft design allow, dump to reduce the amount of fuel and improve the handling of the aircraft. For aircraft not fitted with Fuel Dump capability, the aircraft can loiter in the vicinity of the landing airfield to burn gas. Note that, in the case of an onboard fire, smoke, or fumes, any delay to landing the aircraft, inclusive of dumping fuel, should not be considered.
    • Isolate fuel systems - close crossfeed valves.
    • Cabin - Prepare the cabin for emergency landing.
    • Cargo - Jettison flammable cargo if possible and practical.
  • Aircraft Evacuation - Expeditious emergency evacuation of the aircraft will minimise the loss of life in the event of a post crash fire. Consequently, robust training of the cabin crew in evacuation procedures is essential.
  • Engine Shutdown & Aircraft Systems - To minimize the potential for injury during the evacuation, the flight deck crew will take all necessary actions to shut down and, using fire handles, condition levers, or fire push button (depending on aircraft type) isolate the aircraft engines. Depending upon the degree of damage to the aircraft, this may not always be possible.
  • Rescue and Fire Fighting Services - Rescue and Fire Fighting Services (RFFS) are instrumental in saving lives and minimizing the damage from a post crash fire. If the crash occurs within the airfield boundaries, the initial RFFS response units will be on site within a very short period of time; often less than a minute. Response to an off airfield crash may take considerably longer due to the time it may take to locate the crash and to the accessibility of crash site.

Contributing Factors

Large amounts of fuel can be carried by modern aircraft and an aircraft crash has the potential to rupture the fuel tanks. Should the spilling fuel be exposed to a spark or open flame a fire may occur. This is particularly true of fuels with low flashpoints such as AVGAS. While jet fuels have a higher flashpoint and are less susceptible to sparks, exposing them to operating engines or to hot engine components may raise the temperature of the fuel to its auto-ignition point and a fire will result.

Accidents and Incidents

A selection of incidents from the SKYbrary database related to Post Crash Fire:

  • A343, Toronto Canada, 2005 (On 2 August 2005, an Air France Airbus A340 attempted a daylight landing at destination on a rain-soaked runway during an active thunderstorm and overran for 300 metres ending up in a ravine from where, despite its destruction by fire, all occupants escaped. The Investigation recommendations focussed mainly on crew decision making in adverse weather conditions and issues related to the consequences of such an overrun on survivability.)
  • G115 / G115, near Porthcawl South Wales UK, 2009 (On 11 February 2009, the plots of two civil-registered Grob 115E Tutors being operated for the UK Royal Air Force (RAF) and both operating from RAF St Athan near Cardiff were conducting Air Experience Flights (AEF) for air cadet passengers whilst in the same uncontrolled airspace in day VMC and aware of the general presence of each other when they collided. The aircraft were destroyed and all occupants killed)
  • C550, Southampton UK, 1993 (On 26 May 1993, a Cessna Citation II being operated by a UK Air Taxi Company on a positioning flight from Oxford to Southampton to collect passengers with just the flight crew on board overran the ‘very wet’ landing runway at the destination in normal daylight visibility and ended up on an adjacent motorway where it collided with traffic, caught fire and was destroyed. The aircraft occupants and three people in cars received minor injuries.)
  • AT43, vicinity Pristina Kosovo, 1999 (On 12 November 1999, a French-registered ATR 42-300 being operated by Italian airline Si Fly on a passenger charter flight from Rome to Pristina was positioning for approach at destination in day IMC when it hit terrain and was destroyed, killing all 24 occupants. A post crash fire broke out near the fuel tanks after the impact.)
  • SW4, Cork Ireland, 2011 (On 10 February 2011, control of a Spanish-operated Fairchild SA227 operating a scheduled passenger flight from Belfast UK to Cork, Ireland was lost during an attempt to commence a third go around due to fog from 100 feet below the approach minimum height. The Investigation identified contributory causes including serial non-compliance with many operational procedures and inadequate regulatory oversight of the Operator. Complex relationships were found to prevail between the Operator and other parties, including “Manx2”, an Isle of Man-based Ticket Seller under whose visible identity the aircraft operated. Most resultant Safety Recommendations concerned systemic improvement in regulatory oversight effectiveness.)

... further results


Related Articles

Further Reading