The purpose of pressurisation ductwork is to maintain positive pressure in critical areas, to prevent smoke penetrating from neighboring areas. It is typically used in protected stairways, corridors, fire fighting shafts and lobbies.
Typically, pressurisation ductwork is subjected to demonstrable product certification on the basis of fire testing (for example, ISO 6944). In the United States, additional hose-stream testing (only for a separate firestop test with only a 30cm or 1' length of duct exposed, is required to achieve product certification.
Pressurisation systems are evaluated for exterior fire exposure. Grease ducts, on the other hand, are evaluated for both interior and exterior fire exposures.
There are two means of providing fire-resistance rated ductwork:
- Inherently fire-resistant, or proprietary factory assembled chimney pipes, which tend to be made of sheet metal shells filled with mixtures of rockwool, fiber and silicon dioxide
- Ordinary duct-work equipped with exterior fireproofing materials, such as blanket rockwool, ceramic fiber or in-tumescent paint.
Drywall shaft-wall systems
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The use of drywall shaft-wall systems has been common for many years. 3-D full scale fire testing (e.g., ISO 6944) resulted in the first certification listing for an inherently fire-resistant duct. Drywall systems were tested as flat walls, but not as a three-dimensional solution surrounding a real duct with four corners. Shaft-wall systems are tested to the same standards as all other fire barriers, such as ASTM E119 and ULC S101.
In Europe, where ISO 6944 originated, rock-wool systems, calcium silicate and sodium silicate bound and pressed vermiculite, as well as the proprietary Durasteel systems, have been in use for decades.
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