Firewall (construction)

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This article is about separating structures in buildings and vehicles. For other things called firewalls, see Firewall.
Firewall residential construction, separating the building into two separate residential units, and fire areas.
Firewall, as seen on the inside of a newly constructed townhouse unit, showing how the firewall goes past the roofline.
Example of a firewall (tested, not listed or certified by Southwest Research Institute) used to inhibit the spread of a fire at an electrical substation.

A firewall is a fire resistant barrier used to prevent the spread of fire for a prescribed period of time. Firewalls are built between or through buildings, structures, electrical substation transformers, or within an aircraft or vehicle.

Applications

  • Firewalls can be used to subdivide a building into separate fire areas and are constructed in accordance with the locally applicable building codes. Firewalls are a portion of a building's passive fire protection systems.
  • Firewalls can be used to separate high value transformers at an electrical substation in the event of a mineral oil tank rupture and ignition. The firewall serves as a fire containment wall between one oil-filled transformer and other neighboring transformers, building structures, and site equipment.

Types

A building under construction, showing the structurally independent cinderblock firewalls subdividing the building
Building 4 of the Waynesboro Outlet Village, showing a concrete firewall running through the building
Concrete firewalls still standing on Building 7 of the former Waynesboro Outlet Village, following a firefighter training exercise which intentionally burned the building

There are three main classifications of fire rated walls: fire walls, fire barriers, and fire partitions. To the layperson, the common use of language typically includes all three when referring to a firewall unless distinguishing between them becomes necessary. In addition specialty fire rated walls such as a High Challenge Fire Wall would require further distinctions.

  • A firewall is an assembly of materials used to separate transformers, structures, or large buildings to prevent the spread of fire by constructing a wall which extends from the foundation through the roof with a prescribed fire resistance duration and independent structural stability.[1]
  • A fire barrier wall, or a fire partition, is a fire rated wall assembly with lower levels of protection than typically granted to a fire wall. The main differences are that these fire barrier walls are not structurally self-sufficient, and do not typically extend through the roof, or necessarily terminate at the underside of the floor or roof sheathing above.[2]

Fire barrier walls are typically continuous from an exterior wall to an exterior wall, or from a floor below to a floor or roof above, or from one fire barrier wall to another fire barrier wall, having a fire resistance rating equal to or greater than the required rating for the application. Fire barriers are continuous through all concealed spaces (e.g., above a ceiling), but are not required to extend through concealed spaces if the construction assembly forming the bottom of the space has a fire resistance rating at least equal to or greater than the fire barrier wall.[3]

  • A high challenge fire wall is a wall used to separate transformers, structures, or buildings or a wall subdividing a building with high fire challenge occupancies, having enhanced fire resistance ratings and enhanced appurtenance protection to prevent the spread of fire, and having structural stability.[4]

Portions of structures that are subdivided by fire walls are permitted to be considered separate buildings, in that fire walls have sufficient structural stability to maintain the integrity of the wall in the event of the collapse of the building construction on either side of the wall.[5]

Characteristics

  • Fire rating - Fire walls are constructed in such a way as to achieve a code-determined fire-resistance rating, thus forming part of a fire compartment's passive fire protection.

Germany includes repeated impact force testing upon new fire wall systems. Other codes require impact resistance on a performance basis[6]

  • Design loads – Fire wall must withstand a minimum 5 lb./sq.ft., and additional seismic loads.[7]
  • Substation Transformer Firewalls are typically free standing modular walls custom designed and engineered to meet application needs.
  • Building Firewalls typically extend through the roof and terminate at a code-determined height above it. They are usually finished off on the top with flashing (sheet metal cap) for protection against the elements.

Materials

  • Building and structural firewalls in North America are usually made of concrete, concrete blocks or reinforced concrete. Older fire walls, built prior to World War II, utilized brick materials.
  • Fire barrier walls are typically constructed of drywall/gypsum board partitions with wood or metal framed studs.
  • Penetrations – Penetrations through fire walls, such as for pipes and cables, must be protected with a listed firestop assembly designed to prevent the spread of fire through wall penetrations. Penetrations (holes) must not defeat the structural integrity of the wall, such that the wall cannot withstand the prescribed fire duration without threat of collapse.[8]
  • Openings – Other openings in Fire walls, such as doors and windows, must also be fire rated fire door assemblies and fire window assemblies.[9]

Performance based design

Firewalls are used in varied applications that require specific design and performance specifications. Knowing the potential conditions that may exist during a fire are critical to selecting and installing an effective firewall. For example, a firewall designed to meet National Fire Protection Agency, (NFPA), 221-09 section A.5.7 which indicates an average temperature of 800 °F, is not designed to withstand higher temperatures such as would be present in higher challenge fires, and as a result would fail to function for the expected duration of the listed wall rating.

Performance based design takes into account the potential conditions during a fire. Understanding thermal limitations of materials is essential to using the correct material for the application. Laboratory testing is used to simulate fire scenarios and wall loading conditions. The testing results in an assigned listing number for the fire rated assembly that defines the expected fire resistance duration and wall structural integrity under the tested conditions. Designers may elect to specify a listed fire wall assembly or design a wall system that would require performance testing to certify the expected protections before use of the designed fire rated wall system.

Firewalls in vehicles

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Main article: Firewall (engine)
The firewall in an automobile (indicated by the red line)
Jeep Liberty firewall insulation

Firewalls are also regularly found in aircraft and in specially prepared cars for compartmentalisation and competition use. For example, a typical conversion of a production car for rallying will include a metal firewall which seals the fuel tank off from the interior of the vehicle. In the event of an accident, resulting in fuel spillage, the firewall can prevent burning fuel from entering the passenger compartment, where it could cause serious injury or death. In regular stock cars, the firewall separates the engine compartment from the cabin and can, at times, contain fibreglass insulation. Automotive firewalls have to be fitted so that they form a complete seal. Usually this is done by bonding the sheet metal to the bodywork using fibreglass resin.

The term firewall is also commonly used in American English to refer to the barrier between the passenger and engine compartments of a vehicle. The inner and outer surfaces of the firewall are often coated with NVH-absorber to prevent most engine noise from reaching the passenger compartment. In British English, the term for this barrier is Bulkhead.

See also

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Notes

  1. NFPA 221, Standard for High Challenge Fire Walls, Fire Walls, and Fire Barrier Walls, 2009 Edition, section 3.3.14.6, NFPA 850-10 Fire Protection fotric Generating Plants and High Voltage DC Converter Stations 2010 Edition section 5.1.4.3-4
  2. NFPA 221, Standard for High Challenge Fire Walls, Fire Walls, and Fire Barrier Walls, 2009 Edition, section 3.3.14.5
  3. NFPA 221, Standard for High Challenge Fire Walls, Fire Walls, and Fire Barrier Walls, 2006 Edition, section 3.3.12.7
  4. NFPA 221, Standard for High Challenge Fire Walls, Fire Walls, and Fire Barrier Walls, 2009 Edition, section 3.3.14.7, NFPA 850-10 Fire Protection for Electric Generating Plants and High Voltage DC Converter Stations 2010 Edition section 5.1.4.3-4
  5. NFPA 221, Standard for High Challenge Fire Walls, Fire Walls, and Fire Barrier Walls, 2006 Edition, section A3.3.12.6
  6. NFPA 221, Standard for High Challenge Fire Walls, Fire Walls, and Fire Barrier Walls, 2006 Edition, section 4.6
  7. NFPA 221, Standard for High Challenge Fire Walls, Fire Walls, and Fire Barrier Walls, 2006 Edition, section 4.2
  8. NFPA 221, Standard for High Challenge Fire Walls, Fire Walls, and Fire Barrier Walls, 2006 Edition, section 4.9
  9. NFPA 221, Standard for High Challenge Fire Walls, Fire Walls, and Fire Barrier Walls, 2006 Edition, section 4.8.3

External links

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