The important features of alternative, manually applied fire extinguishing agents are described below. In general portable extinguishers are only used on actual fires and can be readily directed at the burning material.
This parameter considers the ability of the agent to extinguish fires in ordinary solid combustibles, including cellulosic materials. These are called Class A fires and the extinguisher should carry a rating categorising its Class A performance.
This parameter considers the ability of the agent to extinguish liquid fuel fires (Class B). The extinguisher should carry a Class B rating.
2.5.3Electrical Conductivity
Minimal conductivity is important in fighting fires where electricity is involved.
2.5.4Ability to Permeate
This parameter reflects the ability of the agent to extinguish fires in locations where direct application to the fuel surface or flame reaction zone is not possible, for example, in the hidden void space in a commercial airliner.
2.5.5Range
This parameter reflects the ability of the agent to maintain a coherent effective stream over a modest distance.
The performance of each alternative is summarised in Table 2-11. The relative importance of each parameter has not been rigorously derived and final selection depends on detailed knowledge of the risk to be protected.
Table 2-11: Portable Fire Extinguisher Capability Comparison
Alternative extinguishing agents and technologies are available for nearly all new fire protection applications that previously employed halons. An exception is the fire protection in cargo bays of civil aviation.
2.8References
Halon Alternatives Research Corp., PBPK Model, ISO 14520-1, Annex G, 2nd Edition, 2006, http://www.harc.org/pbpkharc.pdf
