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Fire and Explosions

Fire and Explosions. Arson. Arson investigations often present complex and difficult circumstances to investigate due to the fact that the perpetrator has thoroughly planned the act, is typically not present during the act, and the destruction is so extensive.

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Fire and Explosions

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  1. Fire and Explosions

  2. Arson • Arson investigations often present complex and difficult circumstances to investigate due to the fact that the perpetrator has thoroughly planned the act, is typically not present during the act, and the destruction is so extensive. • The arson investigator is limited to detecting and identifying relevant chemical materials collected at the scene and reconstructing and identifying igniter mechanisms.

  3. The Chemistry of Fire • Chemically, fire is a type of combustion reaction, which is the combination of oxygen with other substances to produce new substances including energy. • To start fire, the minimum temperature needed to spontaneously ignite fuel, known as ignition temperature, must be reached. • The heat evolved when a substance burns is known as heat of combustion.

  4. The Chemistry of Fire • A fuel will achieve a reaction rate with oxygen sufficient to produce a flame only when it is in the gaseous state. • A liquid burns when the temperature is high enough to vaporize it (flash point), while a solid must be hot enough to decompose into gaseous products (pyrolysis). • Glowing combustion or smoldering is burning at the fuel-air interface, such as a cigarette. • Spontaneous combustion, which is rare, is the result of a natural heat-producing process in poorly ventilated containers or areas.

  5. Combustion Reactions • A combustion reaction is an exothermic oxidation-reduction chemical reaction. • Both fires and explosions are this type of reaction. • The burning of methane is a good example: • CH4 + 2O2→ 2H2O + CO2 • Oxygen is the oxidizing agent, fires and explosions need either oxygen or another oxidizing agent.

  6. A good way to look at the requirements For either a fire or an explosion is by using the fire triangle.

  7. Fires “slow reactions” starts with a heat source does not involve shock waves release heat and energy Redox reaction Fire can cause explosion and explosion can cause fire Explosions quick reactions starts with a detonation involve shock waves release heat and energy Redox reaction Fire can cause explosion and explosion can cause fire Fires and Explosions

  8. Accelerants • Accelerants are catalysts which alter a chemical bond and speed up a chemical process. • Accelerants are often used to commit arson. • When a fire is accelerated, it can produce more heat, consume the reactants more quickly, burn at a higher temperature, and increase the spread of the fire.

  9. Boosters • An explosive booster acts as a bridge between a low energy explosive and a low sensitivity (but typically high energy) explosive. • Typical fuse does not deliver sufficient shock to detonate charges like TNT and other high energy explosives. Therefore, some form of "booster" is required to upgrade the energy released by the detonator so that the main charge will detonate.

  10. Arson • A fire set intentionally to cause damage or to cover up another crime. • Arson is the leading cause of fire in the United States. • According to arson statistics of the Federal Bureau of Investigation, an estimated 16,163 individuals were arrested for arson in 2006 - 84.4% were male and 50.8% were under the age of 18, an alarming 31.2% of which were under the age of 15

  11. The Fire Scene • The arson investigator needs to begin examining a fire scene for signs of arson as soon as the fire has been extinguished. • Experience shows that most arsons are started with petroleum-based accelerants. • The search of the fire scene must focus on finding the fire’s origin, which may be most productive in any search for an accelerant or ignition device.

  12. The Fire Scene • Some telltale signs of arson include evidence of separate and unconnected fires, the use of “streamers” to spread the fire from one area to another, and evidence of severe burning found on the floor as opposed to the ceiling of a structure, due to a flammable liquid. • Normally, a fire has a tendency to move in an upward direction, and thus the probable origin will most likely be the lowest point showing the most intense characteristics of burning. • Fortunately, combustible liquids are rarely entirely consumed during a fire.

  13. Collection • At the suspect point of origin of a fire, ash and soot, along with porous materials which may contain excess accelerant, should be collected and stored in airtight containers, leaving an airspace to remove samples. • Traces of flammable liquid residues may be located with a vapor detector (sniffer). • It is important that a sampling of similar but uncontaminated control specimens be collected. • A search for igniters such as matches, an electrical sparking device, or parts of a “Molotov cocktail” must also be conducted.

  14. Back in the Lab • In the laboratory, the gas chromatograph is the most sensitive and reliable instrument for detecting and characterizing flammable residues. • The vast majority of arsons are initiated by petroleum distillates such as gasoline and kerosene. • The gas chromatograph separates the hydrocarbon components and produces a chromatographic pattern characteristic of a particular petroleum product. • By comparing select gas chromatographic peaks recovered from fire-scene debris to known flammable liquids, a forensic analyst may be able to identify the accelerant used to initiate the fire.

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