NCC 2016 Volume One
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Part C2 Compartmentation and Separation
Where a Deemed-to-Satisfy Solution is proposed, Performance Requirements to are satisfied by complying with—
C1.1 to C1.14, C2.1 to C2.14andC3.1toC3.17; and
for additional requirements for Class 9b buildings, Part H1; and
for farm sheds, Part H3.
Where a Performance Solution is proposed, the relevant Performance Requirements must be determined in accordance with A0.7.
To clarify that the requirements of to will be satisfied if a building complies with , and , and , and , if applicable.
Where a solution is proposed to comply with the Deemed-to-Satisfy Provisions, clarifies that for most buildings compliance with , and will achieve compliance with to . The exceptions to this general rule are set out below:
Where a Performance Solution is proposed, the relevant Performance Requirements must be determined in accordance with . (See comment on A0.7).
C2.2, C2.3 and C2.4 do not apply to a carpark provided with a sprinkler system complying with Specification E1.5, an open-deck carpark or an open spectator stand.
C2.12(a)(v) does not apply to a Class 8 electricity network substation.
To clarify that the floor area limitations of do not apply to certain buildings.
The floor area limitations of do not apply to a carpark containing a sprinkler system complying with , an open-deck carpark or an open spectator stand.
The separation requirements of potentially explosive batteries from the rest of the building contained in do not apply to Class 8 electricity network substations. These batteries have inherent and specific protection, segregation and risk mitigation measures. They are housed within the substation, with other electrical equipment which the batteries are dedicated to support. The other ancillary building services in the substation are always kept separate from the batteries and further internal separation is not considered necessary.
The size of any fire compartment or atrium in a Class 5, 6, 7, 8 or 9 building must not exceed the relevant maximum floor area nor the relevant maximum volume set out in Table C2.2 and C2.5 except as permitted in C2.3.
A part of a building which contains only heating, ventilating, or lift equipment, water tanks, or similar service units is not counted in the floor area or volume of a fire compartment or atrium if it is situated at the top of the building.
In a building containing an atrium, the part of the atrium well bounded by the perimeter of the openings in the floors and extending from the level of the first floor above the atrium floor to the roof covering is not counted in the volume of the atrium for the purposes of this clause.
Table C2.2 MAXIMUM SIZE OF FIRE COMPARTMENTS OR ATRIA
Classification | Type of construction of building | |||
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Type A | Type B | Type C | ||
5, 9b or 9c aged care building |
max floor area— |
8 000 m2 | 5 500 m2 | 3 000 m2 |
max volume— | 48 000 m3 | 33 000 m3 | 18 000 m3 | |
6, 7, 8 or 9a (except for patient care areas) |
max floor area— |
5 000 m2 | 3 500 m2 | 2 000 m2 |
max volume— | 30 000 m3 | 21 000 m3 | 12 000 m3 | |
Note: See C2.5 for maximum size of compartments in patient care areas in Class 9a health care buildings. |
To limit the size of any fire in a building by limiting the size of the floor area and volume of a fire compartment.
Under and , the allowable size of the fire compartment depends on two things. The first is the type of construction, which is a measure of a building’s ability to resist a fire. The second is the classification of the building, which is an indicator of a building’s potential fire load.
In the case of a Class 7 building which has an area of 3 000 m2, enables three potential solutions. The building can be:
Under , machinery and plant rooms at the top of a building are not included in the calculation of a building’s floor area or volume of a fire compartment. The BCA assumes that such rooms represent a low risk to people in case of fire because of the generally:
Under , in an atrium, the area of the atrium well above the floor of the atrium is excluded from the volume calculation because there is no space in which to store materials, thus it is assumed that it does not contribute to the fire load. See .
Class 9c buildingsallows sprinkler protected Class 9c buildings to have a maximum fire compartment size of—
makes no reference to the use of for a building containing mixed classifications. The table specifies both the maximum allowable floor area and volume of certain fire compartments and atria.
To calculate the maximum permissible floor area component of the size limitations in , firstly take the percentage of each classification as a proportion of the actual floor area of the building.
Then, use this percentage to calculate the proportion of the maximum floor area permitted for that classification in and then add each of those calculations together to come to a maximum permitted floor area for the combined classifications. This is illustrated in simpler terms in the example below.
shows a building of Type C construction containing a factory (Class 8) with an office (Class 5) at the front. The total area of the building is 2 100 m2.
The area of the Class 8 portion of the building is 80% (1 680 m2) of the floor area of the whole building (that is, the combined Class 8 and Class 5 portions).
The area of the Class 5 portion of the building is 20% (420 m2) of the floor area of the whole building (that is, the combined Class 8 and Class 5 portions).
To determine if such a building complies with , the following calculations are necessary:
The maximum allowable floor area of the building is 2 200 m2. Therefore, the building in this example complies with the floor area component of . The fact that the Class 8 portion exceeds 1 600 m2 is irrelevant for the purposes of this process. However, that portion is not permitted to exceed 2 000 m2.
It should be noted that the maximum allowable volume must also be considered when determining whether the building complies with .
Figure C2.2 PLAN OF BUILDING FOR ABOVE EXAMPLE |
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The size of a fire compartment in a building may exceed that specified in Table C2.2 where—
the building does not exceed 18 000 m2 in floor area nor exceed 108 000 m3 in volume, if—
the building is Class 7 or 8 and—
contains not more than 2 storeys; and
is provided with open space complying with C2.4(a) not less than 18 m wide around the building; or
the building is Class 5, 6, 7, 8 or 9 and is—
protected throughout with a sprinkler system complying with Specification E1.5; and
provided with a perimeter vehicular access complying with C2.4(b); or
the building is Class 5, 6, 7, 8 or 9 and exceeds 18 000 m2 in floor area or 108 000 m3 in volume, if it is—
protected throughout with a sprinkler system complying with Specification E1.5; and
provided with a perimeter vehicular access complying with C2.4(b); or
there is more than one building on the allotment and—
To grant concessions for large isolated buildings from the floor area and volume limitations.
Under , a building with a floor area of 18 000 m2 or less and a volume of 108 000 m3 or less is permitted to have fire compartments which exceed the requirements of , if it complies with the requirements outlined below as applicable:
Under , a building with a floor area of more than 18 000 m2 or a volume of more than 108 000 m3 is permitted to have fire compartments which exceed the requirements of if—
should be read in conjunction with the smoke hazard management systems required by Table E2.2a. The reason for this is that the smoke hazard management system will play an important part in occupant safety during a fire in large fire compartments.
More than one building on allotmentWhere there is more than one building on the allotment, each building may have fire compartments which exceed the requirements of , if each building complies with or , or if the buildings are closer than 6 metres, they both must comply with or , as applicable, as if they were one building.
If the buildings are separated by a fire wall complying with , the entire building, regardless of the level of fire compartmentation, must comply with or , as applicable.
If more than two buildings are located on the same allotment and greater than 6 m apart, each individual building must comply with or , as applicable.
An open space required by C2.3 must—
be wholly within the allotment except that any road, river, or public place adjoining the allotment, but not the farthest 6 m of it may be included; and
include vehicular access in accordance with (b); and
not be used for the storage or processing of materials; and
not be built upon, except for guard houses and service structures (such as electricity substations and pump houses) which may encroach upon the width of the space if they do not unduly impede fire-fighting at any part of the perimeter of the allotment or unduly add to the risk of spread of fire to any building on an adjoining allotment.
Vehicular access required by this Part—
must be capable of providing continuous access for emergency vehicles to enable travel in a forward direction from a public road around the entire building; and
must have a minimum unobstructed width of 6 m with no part of its furthest boundary more than 18 m from the building and in no part of the 6 m width be built upon or used for any purpose other than vehicular or pedestrian movement; and
must provide reasonable pedestrian access from the vehicular access to the building; and
must have a load bearing capacity and unobstructed height to permit the operation and passage of fire brigade vehicles; and
To set the minimum requirements for open space around a building and the provision of vehicular access for the fire brigade.
The reason for the open space requirement is to minimise the risk of a fire spreading to another building.
specifies the compliance criteria for the open space required under . The open space must be wholly within the allotment. However, the open space may also include everything except what is beyond a line drawn six metres from the farthest edge of a road, river or public place adjoining the allotment.
The open space must also include the vehicular access required by , not be used for storage or processing and not be built on, except as specified.
This provision requires the making of a “performance-style” judgement. It is the responsibility of the building proponent to satisfy the appropriate authority that any buildings on the open space will not unduly impede the activities of the fire brigade, nor add to the risk of fire spreading to a building on an adjoining allotment.
illustrates compliance with .
The reason for the fire brigade vehicular access is to enable the brigade to intervene to fight the fire, assist with evacuation, and stop the spread of a fire to another building. The vehicular access also provides other emergency services personnel, such as ambulance officers, with the ability to access the building as necessary.
specifies the compliance criteria for the vehicular access required by .
The required vehicular access must have access from the public road system (see ) and must have the width, height and loadbearing capacity to allow the passage in a forward direction around the entire building and parking of fire brigade vehicles (see and ).
It must also have the necessary pedestrian access to the building (see ). This access may be from a public road which otherwise complies with the various requirements of (see ).
To achieve compliance with these provisions it is advisable to check with the local fire brigade, due to the varying sizes and type of equipment and vehicles that may be required to fight a fire.
A Class 9a health care building must comply with the following:
Patient care areas must be divided into fire compartments not exceeding 2000 m2.
A fire compartment must be separated from the remainder of the building by fire walls and—
in Type A construction—floors and roof or ceiling as required in Specification C1.1; and
in Type B construction—floors with an FRL of not less than 120/120/120 and with the openings in external walls bounding patient care areas being vertically separated in accordance with the requirements of C2.6 as if the building were of Type A construction.
where the floor area exceeds 1000 m2, must be divided into floor areas not more than 1000 m2 by walls with an FRL of not less than 60/60/60; and
where the floor area exceeds 500 m2, must be divided into floor areas not more than 500 m2 by smoke-proof walls complying with Specification C2.5; and
where the floor area is not more than 500 m2, must be separated from the remainder of the patient care area by smoke-proof walls complying with Specification C2.5; and
where division of ward areas by fire-resisting walls under (i) or (iii)(A) is not required, any smoke-proof wall required under (iii)(B) or (C) must have an FRL of not less than 60/60/60.
where the floor area exceeds 1000 m2, must be divided into floor areas not more than 1000 m2 by smoke-proof walls complying with Specification C2.5; and
where the floor area is not more than 1000 m2, must be separated from the remainder of the patient care area by smoke-proof walls complying with Specification C2.5.
Ancillary use areas located within a patient care area and containing equipment or materials that are a high potential fire hazard, must be separated from the remainder of the patient care area by walls with an FRL of not less than 60/60/60.
The ancillary use areas referred to in (v) include, but are not limited to, the following:
A kitchen and related food preparation areas having a combined floor area of more than 30 m2.
A room containing a hyperbaric facility (pressure chamber).
A room used predominantly for the storage of medical records having a floor area of more than 10 m2.
A laundry, where items of equipment are of the type that are potential fire sources (e.g. gas fire dryers).
A wall required by (v) to separate ancillary use areas from the remainder of the building must extend to the underside of—
the floor above; or
a non-combustible roof covering; or
a ceiling having a resistance to the incipient spread of fire to the space above itself of not less than 60 minutes.
Openings in walls required by (iii) and (v) to have an FRL must be protected as follows:
Doorways—self-closing or automatic closing –/60/30 fire doors.
Windows—automatic or permanently fixed closed –/60/– fire windows or –/60/– automatic fire shutters.
Other openings—construction having an FRL not less than –/60/–.
A Class 9c building must comply with the following:
A building must be divided into areas not more than 500 m2 by smoke-proof walls complying with Specification C2.5.
A fire compartment must be separated from the remainder of the building by fire walls and, notwithstanding C2.7 and Specification C1.1, floors with an FRL of not less than 60/60/60.
Internal walls (other than those bounding lift and stair shafts) supported by floors provided in accordance with C2.5(b)(ii) need not comply with Specification C1.1 if they have an FRL not less than 60/–/–.
Ancillary use areas containing equipment or materials that are a high potential fire hazard, must be separated from the sole-occupancy units by smoke-proof walls complying with Specification C2.5.
The ancillary use areas referred to in (iv) include, but are not limited to, the following:
A kitchen and related food preparation areas having a combined floor area of more than 30 m2.
A laundry, where items of equipment are of the type that are potential fire sources (e.g. gas fired dryers).
Storage rooms greater than 10 m2 used predominantly for the storage of administrative records.
Openings in fire walls must be protected as follows:
Doorways — self-closing or automatic closing –/60/30 fire doors.
Windows — automatic or permanently fixed closed –/60/– fire windows or –/60/– automatic fire shutters.
Other openings — construction having an FRL not less than –/60/–.
To protect patients in a health-care building and residents in an aged care building from the spread of fire and smoke.
It should be noted that applies to Class 9a health-care buildings. only applies to Class 9c buildings.
Class 9a buildings—evacuation difficultiesResidents or patients of Class 9a buildings are often unable to evacuate a building without assistance. They may be incapable of walking or bedridden. It is important to make sure that fire and smoke only affects small areas of the building.
requires compartmentation for the control of smoke and fire.
Figure C2.4 EXAMPLES OF COMPLIANCE WITH C2.4 |
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and make it necessary to separate potential sources of fire from any patient care area. requires fire compartments in Class 9a buildings. An ancillary use area in is deemed to be an area where there are items of equipment or materials, that have a high potential fire hazard (high fire load or fire source).
and require sub-compartmentation in certain areas to allow for the staged evacuation of patients from the building. Sub-compartmentation is considered to enhance evacuation procedures, which typically require assistance to be provided to evacuees by an adequate number of staff.
The requirements for smoke proof walls and doors are contained in .
provides examples of areas covered by (v).
illustrates one means of complying with .
The first part of the figure shows how the administrative area of a hospital has been separated from the patient care area by a fire wall because the patient care area has a floor area of 2000 m2, the maximum permitted under .
The second part of the figure shows how the ward area must be subdivided into areas with a maximum floor area of 1 000 m2 by a wall with an FRL of 60/60/60.
Some floors of Class 9a buildings may require an FRLCompliance with may require a floor in a Class 9a building of Type B construction to have a fire-resistance level (FRL). The reason for this is that it is important to inhibit the spread of fire between floors. Separation of storeys in a Class 9a building also requires any openings in external walls to be vertically separated in accordance with .
Class 9c buildings—evacuation difficultiesResidents of Class 9c buildings are often unable to evacuate without assistance. They may be incapable of walking or bedridden. It is therefore important to make sure that fire and smoke only affects small areas of the building, hence allowing residents sufficient time should evacuation be necessary.
Some walls and floors of Class 9c buildings may require an FRLrequires certain walls and floors in Class 9c buildings to have a fire-resistance level (FRL). The reason for this is that it is important to inhibit the spread of fire for resident and occupant safety.
allows internal walls (other than one bounding a lift or stair shaft) to have an FRL of 60/–/– because the floor is required to have an FRL of 60/60/60. Note that the FRL is only required for structural adequacy because Table 4 only requires loadbearing walls in these situations to have an FRL with respect to structural adequacy. The lower FRL allowed by recognises the effectiveness of the required sprinkler systems in Class 9c buildings.
Compartmentation of Class 9c buildingsThe compartmentation required by fire rated and smoke proof walls for Class 9c buildings is similar to that required for Class 9a buildings.
The required compartmentation and sub-compartmentation of Class 9c buildings are to allow for the staged evacuation of residents from the building. However, successful evacuation usually depends on assistance being provided to evacuees by an adequate number of staff. The BCA provisions for Class 9c buildings are based on minimal on duty on-site staff being available at any time.
requires a Class 9c building to be subdivided into areas with a maximum area of 500 m2 by smoke walls complying with . No further subdivision of the fire compartments by smoke or fire rated walls is required. This recognises the benefits of sprinkler systems that must be installed in all Class 9c buildings.
An ancillary use area in is deemed to be an area where there are items of equipment or materials that have a high potential fire hazard (high fire load or fire source). The reason these walls need only be smoke proof, whereas those in a Class 9a building must have an FRL, is that Class 9c buildings must be sprinkler protected.
C2.5(b)(v) provides examples of areas covered by (iv).
Figure C2.5 PLAN SHOWING ONE METHOD OF COMPLYING WITH C2.5(a) FOR CLASS 9a BUILDINGS |
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If in a building of Type A construction, any part of a window or other opening in an external wall is above another opening in the storey next below and its vertical projection falls no further than 450 mm outside the lower opening (measured horizontally), the openings must be separated by—
a spandrel which—
is not less than 900 mm in height; and
extends not less than 600 mm above the upper surface of the intervening floor; and
is of non-combustible material having an FRL of not less than 60/60/60; or
part of a curtain wall or panel wall that complies with (i); or
construction that complies with (i) behind a curtain wall or panel wall and has any gaps packed with a non-combustible material that will withstand thermal expansion and structural movement of the walling without the loss of seal against fire and smoke; or
a slab or other horizontal construction that—
projects outwards from the external face of the wall not less than 1100 mm; and
extends along the wall not less than 450 mm beyond the openings concerned; and
is non-combustible and has an FRL of not less than 60/60/60.
The requirements of (a) do not apply to—
an open-deck carpark; or
an open spectator stand; or
a building which has a sprinkler system complying with Specification E1.5 installed throughout; or
openings within the same stairway; or
openings in external walls where the floor separating the storeys does not require an FRL with respect to integrity and insulation.
For the purposes of C2.6, window or other opening means that part of the external wall of a building that does not have an FRL of 60/60/60 or greater.
To minimise the risk of fire spreading from one floor to another via openings in external walls in buildings of Type A construction.
generally applies to buildings of Type A construction and Class 9a buildings of Type B construction, because they are the only buildings required to provide fire separation between floors. This separation is achieved by the floor being required to have a fire-resistance level (FRL). It applies to openings above one another in different storeys if they are within a horizontal distance of 450 mm of each other.
It does not apply to:
In addition, Class 9a buildings of Type B construction require openings in external walls to be vertically separated in accordance with as if the building was Type A construction (see ). This can be achieved either by the construction methods outlined below or the installation of sprinklers in the building. The reason for this is that it is important to inhibit the spread of fire between floors in Class 9a buildings.
Protection of vertically separated openingsrequires the vertical separation of openings in external walls (see and ) of buildings of Type A construction which do not have a sprinkler system complying with . The vertical separation of openings can be achieved by either of the following methods:
If the external wall of the building is a glass curtain wall, contains specific provisions to stop or limit the spread of fire and smoke between the glass and the edge of the concrete floor. The details are shown in Figure C2.6(3).
Although it could be argued that the spandrel or vertical projection should have the same FRL as the floor separating the storeys, this has not been found to be necessary.
Meaning of "window or other opening"explains the meaning of the term "window or other opening" as used in . Basically, the term is used to describe a part of the external wall which does not have an FRL of at least 60/60/60 to limit the spread of fire from one storey to another by passing out through the window or opening and then re-entering the building through a similar opening (i.e. one without an FRL of at least 60/60/60) on the storey above. Examples of such openings include:
Figure C2.6(1) SECTION SHOWING USE OF SPANDREL TO SEPARATE EXTERNAL WINDOW OPENINGS |
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Figure C2.6(2) EXAMPLE SHOWING USE OF SLAB OR HORIZONTAL CONSTRUCTION TO SEPARATE EXTERNAL WINDOW OPENINGS |
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Figure C2.6(3) SECTION SHOWING SEPARATION OF EXTERNAL WINDOW OPENINGS IN A CURTAIN WALL |
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Construction — A fire wall must be constructed in accordance with the following:
The fire wall has the relevant FRL prescribed by Specification C1.1 for each of the adjoining parts, and if these are different, the greater FRL, except where Tables 3.9, 4.2 and 5.2 of Specification C1.1 permit a lower FRL on the carpark side.
Any openings in a fire wall must not reduce the FRL required by Specification C1.1 for the fire wall, except where permitted by the Deemed-to-Satisfy Provisions of Part C3.
Building elements, other than roof battens with dimensions of 75 mm x 50 mm or less or sarking-type material, must not pass through or cross the fire wall unless the required fire resisting performance of the fire wall is maintained.
Separation of buildings — A part of a building separated from the remainder of the building by a fire wall may be treated as a separate building for the purposes of the Deemed-to-Satisfy Provisions of Sections C, D and E if it is constructed in accordance with (a) and the following:
The fire wall extends through all storeys and spaces in the nature of storeys that are common to that part and any adjoining part of the building.
The fire wall is carried through to the underside of the roof covering.
Where the roof of one of the adjoining parts is lower than the roof of the other part, the fire wall extends to the underside of—
the covering of the higher roof, or not less than 6 m above the covering of the lower roof; or
the lower roof if it has an FRL not less than that of the fire wall and no openings closer than 3 m to any wall above the lower roof; or
the lower roof if its covering is non-combustible and the lower part has a sprinkler system complying with Specification E1.5.
Separation of fire compartments — A part of a building separated from the remainder of the building by a fire wall may be treated as a separate fire compartment if it is constructed in accordance with (a) and the fire wall extends to the underside of—
the roof covering.
To explain that buildings separated by a fire wall may be considered as fire compartments or be regarded as separate buildings.
outlines how a fire wall is to be constructed.
sets out the required FRL of a fire wall. If any part adjoining the fire wall is required to have a higher FRL, the fire wall must achieve the higher FRL. The exception occurs if an adjoining part is an open-deck or sprinklered carpark that complies with the concessions set out in , or .
requires all openings in fire walls to not reduce the required FRL of for the fire wall, except where permitted by Part . In effect, this provision is referring to:
Figure C2.7(1) EXAMPLE OF METHOD OF SEPARATING A BUILDING BY A FIRE WALL IN ACCORDANCE WITH C2.7(B)(ii) |
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indicates which building elements are permitted to pass through or cross a fire wall and prohibits the use of any building element if it reduces the fire wall's FRL below that required. Hence, elements that pass through or cross a fire wall have to be part of the fire wall's tested prototype.
grants an exemption to its requirements for small roof battens and roof sarking.
Separation of buildingsindicates the extent a fire wall divides a building into separate buildings for the Deemed-to-Satisfy Provisions of , and (see Figure C2.7(1)).
The fire wall must extend through all storeys and similar spaces which are common to the subject parts of the building, and any adjoining part of the building, through to the underside of any roof covering (see ).
outlines the requirements for the extent of a fire wall that separates adjoining parts of a building where the roofs are at different levels.
If buildings, with different roof levels divided by a fire wall, are to be treated as two separate buildings, the fire wall must extend up to the underside of the highest roof or not less than 6 m above the covering of the lowest roof.
Alternatively, allows the fire wall not to extend 6 m above the lower roof if the roof to the lower level building:
clarifies that a fire wall built in accordance with can be considered to divide a building into different fire compartments for the purpose of , and (see Figure 2.7(2)).
Figure C2.7(2) EXAMPLE OF A METHOD OF SEPARATING A BUILDING INTO FIRE COMPARTMENTS BY A FIRE WALL IN ACCORDANCE WITH C2.7(c) |
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For a fire wall to compartment a building it must extend to the underside of any roof covering or between floors that have an equivalent FRL to the fire wall.
If the building is being separated into fire compartments by a fire wall have different roof levels there is no requirement to extend the fire wall to the underside of the higher roof level or above the lower roof level. This is because the fire wall serves as a means to limit the floor area of the building. When a fire wall is applied in this case, the building cannot be treated as two separate buildings for the purpose of , and of the BCA.
illustrates the case where two fire walls divide storeys but do not align, therefore not meeting the requirements of . In this case, the building cannot be regarded as two buildings divided by a fire wall.
illustrates a circumstance where a fire wall can be an external wall. This is important to note because of a possible reading of the definition of “fire wall” which indicates that a fire wall would always be an internal wall. For the purposes of Sections C, D and E, the separated building is regarded as two buildings.
If a building has parts of different classifications located alongside one another in the same storey—
each building element in that storey must have the higher FRL prescribed in Specification C1.1 for that element for the classifications concerned; or
the parts must be separated in that storey by a fire wall having—
the FRL prescribed in Table 5,
of Specification C1.1 as applicable, for that element for the Type of construction and the classifications concerned; or
where one part is a carpark complying with Table 3.9, 4.2 or 5.2 of Specification C1.1, the parts may be separated by a fire wall complying with the appropriate Table.
To minimise the risk of a fire in one classification on a storey causing the failure of building elements in another classification on the same storey.
The fire-resistance level (FRL) required for building elements varies, depending on the expected fire load. This load is measured in the BCA by the building classification. With these differing FRLs, it is important that a fire in one classification does not cause the failure of building elements in any other classification.
There are two options to stop a fire spreading from one classification to another classification on the same storey:
illustrates some examples of fire walls separating different classifications within the same storey of a building. In the first diagram, the public corridor must be fire-separated from the Class 6 part (as shown) or the Class 5 part to achieve total fire-separation between the different classifications. If a doorway is located in the fire wall, it must comply with .
Figure C2.7(3) EXAMPLE OF FIRE WALL USED AS AN EXTERNAL WALL TO SEPARATE TWO BUILDINGS IN ACCORDANCE WITH C2.7(B)(iii) |
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Figure C2.8(1) EXAMPLES OF FIRE WALLS SEPARATING DIFFERENT CLASSIFICATIONS IN A BUILDING OF TYPE A CONSTRUCTION |
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The diagrams in Figure C2.8(2) illustrate examples of fire walls separating different classifications within the same storey of a multi-storey building and floors separating different classifications.
Figure C2.8(2) EXAMPLES OF FIRE WALLS AND FLOORS SEPARATING DIFFERENT CLASSIFICATIONS IN A BUILDING OF TYPE A CONSTRUCTION |
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If parts of different classification are situated one above the other in adjoining storeys they must be separated as follows:
Type A construction — The floor between the adjoining parts must have an FRL of not less than that prescribed in Specification C1.1 for the classification of the lower storey.
Type B or C construction — If one of the adjoining parts is of Class 2, 3 or 4, the floor separating the part from the storey below must—
be a floor/ceiling system incorporating a ceiling which has a resistance to the incipient spread of fire to the space above itself of not less than 60 minutes; or
have an FRL of at least 30/30/30; or
have a fire-protective covering on the underside of the floor, including beams incorporated in it, if the floor is combustible or of metal.
To minimise the risk of a fire in one classification causing the failure of building elements in another classification in a different storey.
specifies the required separation between parts of a building which are of a different classification, situated one above the other.
The aim of is for the fire load of a storey to determine the fire protection of the floor above it. A fire on one storey will affect the storey above to a greater degree than any storey below.
sets out the requirements for buildings of Type A construction. Figure C2.9 illustrates an example of the required fire-resistance level (FRL) of floors in a 3 storey building required to be of Type A construction.
sets out the requirements for buildings of Type B and Type C construction. However, note that is only applicable where one of the parts being separated is Class 2, Class 3 or Class 4 and and require floors to be protected if the building is Class 2, 3 or 9.
Figure C2.9 EXAMPLE OF FLOORS SEPARATING DIFFERENT CLASSIFICATIONS IN A BUILDING OF TYPE A CONSTRUCTION |
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Any lift connecting more than 2 storeys, or more than 3 storeys if the building is sprinklered, (other than lifts which are wholly within an atrium) must be separated from the remainder of the building by enclosure in a shaft in which—
in a building required to be of Type A construction—the walls have the relevant FRL prescribed by Specification C1.1; and
in a building required to be of Type B construction — the walls—
if loadbearing, have the relevant FRL prescribed by Table 4 of Specification C1.1; or
if non-loadbearing, be of non-combustible construction.
Any lift in a patient care area in a Class 9a health-care building or a resident use area in Class 9c building must be separated from the remainder of the building by a shaft having an FRL of not less than—
in a building of Type A or B construction — 120/120/120; or
in a building of Type C construction — 60/60/60.
An emergency lift must be contained within a fire-resisting shaft having an FRL of not less than 120/120/120.
Openings for lift landing doors and services must be protected in accordance with the Deemed-to-Satisfy Provisions of Part C3.
To minimise the risk of a fire spreading from one floor to another floor of a building by way of a lift opening.
The approach adopted in for lift shafts is similar to that adopted by the BCA for stairway shafts.
applies to all classes of buildings and specifies the protection requirements for openings both for lift landing doors and services.
Lifts in Type A and B ConstructionIn any building required to be of Type A or B construction, having a lift connecting more than 2 storeys or more than 3 storeys if the building is sprinklered (other than lifts that are wholly within an atrium), the lift must be in an enclosed shaft separated from the rest of the building.
The lift shaft walls in a building of Type A construction must have the relevant fire-resistance level (FRL) prescribed by . It does not matter what Class the building is, nor whether the shaft walls are loadbearing.
In a building required to be of Type B construction, the lift shaft walls must have the relevant FRL prescribed by if they are loadbearing. If the lift shaft walls are non-loadbearing they must be of non-combustible construction.
As all emergency lifts are required to be fire separated from the remainder of the building, clarifies that the lift shaft is to have an FRL of not less than 120/120/120.
only applies to fire-isolated lift shafts. Lift landing doors and indicator panels are covered by . Openings for other services must comply with any other appropriate provisions in .
If a lift is wholly in an atrium, it is not required to be in a fire-isolated shaft. This is because the atrium comprises a single fire compartment.
Patient care and resident areasAny lift in a patient care area in a Class 9a building, or a resident use area in a Class 9c building is to be in a fire-isolated shaft. In a Class 9a or 9c building that is required to be of Type A or B construction it is to have an FRL of 120/120/120. In a Class 9a or 9c building of Type C construction the shaft is to have an FRL of 60/60/60.
Lifts in Type C constructionApart from emergency lifts and lifts in patient care and resident use areas, lifts need not be in a fire-isolated shaft if the building is of Type C construction. This is because such buildings are not required to have fire-rated floors or any fire compartmentation between storeys.
A stairway and lift must not be in the same shaft if either the stairway or the lift is required to be in a fire-resisting shaft.
To maintain a safe evacuation route for people using a fire-isolated stairway, by separating the stairway shaft from the lift shaft.
Lift shafts do not offer the same fire protection to occupants as fire-isolated stairway shafts. This is because lift landing doors to shafts have no insulation properties and do not seal against smoke to the same extent as fire doors to stairway shafts. Also, many lift over-runs are places where rubbish or other combustible materials may accumulate and are therefore potential fire-sources.
Equipment other than that described in (b) and (c) must be separated from the remainder of the building with construction complying with (d), if that equipment comprises—
lift motors and lift control panels; or
emergency generators used to sustain emergency equipment operating in the emergency mode; or
central smoke control plant; or
boilers; or
a battery or batteries installed in the building that have a voltage exceeding 24 volts and a capacity exceeding 10 ampere hours.
Equipment need not be separated in accordance with (a) if the equipment comprises—
smoke control exhaust fans located in the air stream which are constructed for high temperature operation in accordance with Specification E2.2b; or
stair pressurising equipment installed in compliance with the relevant provisions of AS/NZS 1668.1; or
a lift installation without a machine-room; or
equipment otherwise adequately separated from the remainder of the building.
Separation of on-site fire pumps must comply with the requirements of AS 2419.1.
Separating construction must have—
except as provided by (ii)—
an FRL as required by Specification C1.1, but not less than 120/120/120; and
any doorway protected with a self-closing fire door having an FRL of not less than –/120/30; or
when separating a lift shaft and lift motor room, an FRL not less than 120/–/–.
To limit the spread of fire from service equipment having a high fire hazard or potential for explosion and to ensure emergency equipment continues to operate during a fire.
is part of the Deemed-to-Satisfy Provisions for and .
The types of equipment referred to in and and need to continue to operate during an emergency, such as a fire. It is therefore important to stop the spread of fire to this equipment.
The requirement under that on-site fire pumps comply with , rather than , recognises the importance of this equipment to fire-fighting.
The types of equipment referred to in and have a high explosive potential. For example the high temperatures and pressures associated with a boiler requires consideration for protection as opposed to a normal water heater. It is important that any fire in this type of equipment does not spread to other parts of the building.
Not all equipment is required to be protected. Examples are listed in . This equipment is either designed to withstand high temperatures during a fire, or is required to be protected by other parts of the BCA.
Under , the minimum fire-resistance level (FRL) for construction used to separate the equipment listed in from the remainder of the building is 120/120/120, with –/120/30 fire doors. However, if (particularly , or ) requires a higher FRL, then that higher FRL applies.
An electricity substation located within a building must—
be separated from any other part of the building by construction having an FRL of not less than 120/120/120; and
have any doorway in that construction protected with a self-closing fire door having an FRL of not less than –/120/30.
A main switchboard located within the building which sustains emergency equipment operating in the emergency mode must—
be separated from any other part of the building by construction having an FRL of not less than 120/120/120; and
have any doorway in that construction protected with a self-closing fire door having an FRL of not less than –/120/30.
Electrical conductors located within a building that supply—
a substation located within the building which supplies a main switchboard covered by (b); or
a main switchboard covered by (b),
must—
have a classification in accordance with AS/NZS 3013 of not less than—
if located in a position that could be subject to damage by motor vehicles — WS53W; or
otherwise — WS52W; or
be enclosed or otherwise protected by construction having an FRL of not less than 120/120/120.
Where emergency equipment is required in a building, all switchboards in the electrical installation, which sustain the electricity supply to the emergency equipment, must be constructed so that emergency equipment switchgear is separated from non-emergency equipment switchgear by metal partitions designed to minimise the spread of a fault from the non-emergency equipment switchgear.
For the purposes of (d), emergency equipment includes but is not limited to the following:
Fire hydrant booster pumps.
Pumps for automatic sprinkler systems, water spray, chemical fluid suppression systems or the like.
Pumps for fire hose reels where such pumps and fire hose reels form the sole means of fire protection in the building.
Air handling systems designed to exhaust and control the spread of fire and smoke.
Emergency lifts.
Control and indicating equipment.
Sound systems and intercom systems for emergency purposes.
To limit the spread of fire from electrical equipment and to enable the uninterrupted operation of emergency equipment during a fire.
is part of the Deemed-to-Satisfy Provisions for and .
Certain types of electrical equipment have a high potential for explosion as well as fire. requires that the doorways to sub-stations be protected with –/120/30 fire doors to avoid the spread of any fire from the electrical equipment.
Some State and Territory authorities may have additional requirements for the construction of electricity sub-stations. See relevant State or Territory Appendix to the BCA.
To enable the required emergency equipment to continue to operate during any emergency, the following must be achieved:
Emergency equipment is considered sustained by a main switchboard when the emergency equipment does not rely on:
when operating in the emergency mode.
Protection of electricity supply systemsABCB funded research determined that providing physical segregation between non-emergency equipment switchgear and emergency equipment switchgear reduces the impact of potential damage from fire by 40%. It is essential that this equipment continue to operate during a fire. therefore requires the emergency equipment to be segregated from the other equipment in all switchboards by metal partitions designed to prevent the spread of any fault from the non-emergency equipment to the emergency equipment.
lists the emergency equipment required by to be separated from non-emergency equipment in a switchboard.
In a Class 2 or 3 building, a public corridor, if more than 40 m in length, must be divided at intervals of not more than 40 m with smoke-proof walls complying with Clause 2 of Specification C2.5.
To minimise the risk of long public corridors in Class 2 and Class 3 buildings becoming smoke logged.
In a building fire, certain people are subject to greater risks than others, for example, the very young, elderly, people with disabilities, and those who are asleep.
In a Class 2 or Class 3 building there is a very high risk that building occupants will be asleep when a fire occurs. It is important that they be able to safely evacuate the building. To assist in the safe evacuation, long public corridors should not become smoke logged.
therefore requires the division of the public corridors into 40 metre lengths, by smoke walls and smoke doors. The details of the smoke walls are set out in , and details for the smoke doors are set out in .
The measurement of the length of the public corridor includes the sum of all connected corridor lengths that are continuous within a separate storey, smoke compartment or fire compartment.