NCC 2019 Volume Two
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Part 3.1.3 Drainage
Appropriate Performance Requirements
Where an alternative drainage system is proposed as a Performance Solution to that described in Part 3.1.3, that proposal must comply with—
Performance Requirement P2.2.1 is satisfied for drainage if it is designed and constructed in accordance with AS/NZS3500.3.
Compliance with this acceptable construction practice satisfies Performance Requirement P2.2.1 for drainage of—
roofs in areas subject to 5 minute duration rainfall intensities of not more than 255 mm per hour over an average recurrence interval of 20 years (as per Table 3.5.2.1) where a drainage system is required; and
sub-soil areas where excessive soil moisture problems may occur; and
land adjoining and under buildings,
provided the stormwater drainage system otherwise complies with the acceptable construction manual.
Drainage systems must be installed as follows—
areas adjoining and under buildings — surface water drainage in accordance with 3.1.3.3; and
excavation for drains adjacent to existing footings must be within the area described in Figure 3.1.3.1 as being safe for excavation.
Note to Figure 3.1.3.1: Any excavation below the area defined as being safe for excavation will need additional protection measures to be determined by appropriately qualified persons.
Surface water must be diverted away from Class 1 buildings as follows:
Slab-on-ground — finished ground level adjacent to buildings:
the external finished surface surrounding the slab must be drained to move surface water away from the building and graded to give a slope of not less than (see Figure 3.1.2.2)—
25 mm over the first 1 m from the building in low rainfall intensity areas for surfaces that are reasonably impermeable (such as concrete or clay paving); or
50 mm over the first 1 m from the building in any other case.
Slab-on-ground — finished slab heights:
the height of the slab-on-ground above external finished surfaces must be not less than (see Figure 3.1.3.2)—
100 mm above the finished ground level in low rainfall intensity areas or sandy, well-drained areas; or
50 mm above impermeable (paved or concreted areas) that slope away from the building in accordance with (a); or
150 mm in any other case.
The appropriate slab height above finished ground level and the slope of the external finished surface surrounding the slab may vary depending on:
Clearances between wall cladding and the finished ground level are provided in 3.5.4.7.
The ground beneath suspended floors must be graded so that the area beneath the building is above the adjacent external finished ground level and surface water is prevented from ponding under the building (see Figure 3.1.3.3).
Where a subsoil drainage system is installed to divert subsurface water away from the area beneath a building, the subsoil drain must—
be graded with a uniform fall of not less than 1:300; and
discharge into an external silt pit or sump with—
the level of discharge from the silt pit or sump into an impervious drainage line not less than 50 mm below the invert level of the inlet (see Figure 3.1.3.4); and
provision for cleaning and maintenance.
Subsoil drainage systems may need to be installed where subsurface water movement could damage buildings or cause loss of amenity through the build up of excessive moisture or lateral water pressure. Typical locations of subsoil drainage systems are on the uphill side of cut and fill sites, adjacent to deep footings, behind retaining walls and adjacent to basement walls.
The design and installation of subsoil drainage systems should take into account the nature of the soil and the anticipated water level, quantity and movement. In some cases, detailed investigations involving excavations, field observations and soil tests may be necessary to determine the appropriate solution. Typical subsoil drain configurations are shown in the following diagrams.
In clay soil, subsoil drains can alter the long-term moisture content in the soil, adversely affecting the building foundation by removing or, in some cases, introducing water. In such conditions, subsoil drains should only be used where there are no other options for dealing with subsoil water.
Additional guidance on subsoil drainage systems can be found in AS/NZS 3500.3 and AS 2870.
Where a stormwater drainage system is installed, it must comply with the following:
The position and manner of discharge of the stormwater drainage system must be to the satisfaction of the appropriate authority.
The stormwater drainage system must be designed so that any overflow during heavy rain periods is prevented from flowing back into the building.
The manner of discharge of stormwater drainage systems includes consideration of discharge points. Some examples of discharge points which may be acceptable to the appropriate authority are:
Cover to stormwater drains:
the cover to 90 mm Class 6 UPVC stormwater drains installed underground must be not less than—
under soil — 100 mm; or
under paved or concrete areas — 50 mm; or
under areas subject to light vehicle traffic—
reinforced concrete — 75 mm; or
paved — 100 mm.
Different depths of soil cover (or no cover at all) can be achieved using other types of pipes. The cover specified is measured from the top of the pipe to either the finished ground level or, in the case of paved or concreted areas, to the underside of the paving or concrete.