Part 6.2 Subfloor ventilation
- be provided with openings in external walls and internal subfloor walls in accordance with Table 6.2.1a for the climatic zones given in Figure 6.2.1a; and
- have clearance between the ground surface and the underside of the lowest horizontal member in the subfloor in accordance with Table 6.2.1b (see Figure 6.2.1b and Figure 6.2.1c).
- be cleared of all building debris and vegetation; and
- have the ground beneath the suspended floor graded in accordance with 3.3.3; and
- contain no dead air spaces; and
- have openings evenly spaced as far as practicable (see Figure 6.2.1d); and
- have openings placed not more than 600 mm in from corners.
- the subfloor ventilation required in (1) must be increased by 50%; or
- the ground within the subfloor space must be sealed with an impervious membrane; or
- subfloor framing must be—
- where above ground — above ground durability Class 1 or 2 timbers or H3 preservative treated timbers in accordance with AS 1684.2, AS 1684.3 or AS 1684.4; or
- where in-ground — in-ground durability Class 1 or 2 timbers or H5 preservative treated timbers in accordance with AS 1684.2, AS 1684.3 or AS 1684.4; or
- steel in accordance with NASH Standard ‘Residential and Low-Rise Steel Framing’ Part 2.
|Climatic zone (see Figure 6.2.1a)
|Minimum aggregate subfloor ventilation openings with no membrane (mm2/m of wall)
|Minimum aggregate subfloor ventilation openings with ground sealed with impervious membrane (mm2/m of wall)
In situations where openings in external walls and internal subfloor walls, including separating walls, are not able to be provided, additional measures must be provided to ensure that the overall level of ventilation of the subfloor space is maintained. This may include measures similar to those in 6.2.1(5) i.e. providing durability class timbers, or having the ground sealed in the subfloor space with an impervious membrane.
|Climatic zone (see Figure 6.2.1a)
|Minimum ground clearance height where termite inspection or management system is not required (mm)
|Minimum ground clearance height where termite inspection is required (mm)
|A, B and C
Subfloor ventilation is cross ventilation of the subfloor space between the underside of the subfloor and the ground surface under a building.
Ground moisture rising into or entering the subfloor space can create a damp environment which encourages timber rot, fungus growth and the potential for termite activity. Subfloor ventilation increases air flow, reducing any damaging water vapour in the subfloor space.
Factors that can affect achieving satisfactory levels of subfloor ventilation include height above ground, prevailing breezes (air transfer), differential temperature and humidity between the subfloor and the external environment and good building practice.
The amount of subfloor ventilation required for a building is related to the relative humidity likely to be encountered in that location. Figure 6.2.1a shows three broad climatic zones based on the prevailing relative humidity and includes a description of the relative humidity conditions which define each zone. If reliable weather data is available, these descriptions may be useful in determining which zone a particular location is in.
The zones shown in Figure 6.2.1a were determined by analysis of the average relative humidity at 9 am and 3 pm in January and July. The season with the highest relative humidity is used. Generally this will be July for southern Australia and January for northern Australia.
Table 6.2.1a and Table 6.2.1b specify the minimum amount of subfloor ventilation openings and height of subfloor framing members above ground level for the three climatic zones illustrated in Figure 6.2.1a. The table allows subfloor ventilation rates to be halved if the ground within the subfloor space is sealed by an impervious membrane because humidity levels in the space will not be affected by moisture from the soil.
Clause 6.2.1(5) specifies additional requirements for preventing deterioration of subfloor members where the ground or subfloor space is excessively damp, as would occur in areas with high water tables, poor drainage or in areas frequently affected by flooding or water inundation.