The Thermal comfort section of BASIX aims to:
- ensure thermal comfort for a dwelling's occupants, appropriate to the climate and season;
- reduce greenhouse gas emissions from artificial cooling and heating through good building design and use of appropriate construction materials; and
- reduce the demand for new, or upgraded, energy infrastructure by managing peak demand for energy required for cooling and heating.
The loads from Thermal comfort are combined with the selected heating and cooling appliances in the Energy section to calculate the cooling and heating component of your Energy score. Lower loads will improve your Energy score. In cold or hot climates, you may find this is an effective way of obtaining a Pass in Energy.
Thermal comfort methods
To complete the Thermal comfort section of BASIX, you will need to select one of the following methods:
- Do-It-Yourself (DIY) method - simplified assessment for single dwelling houses that use common construction materials and methods
- Simulation method - detailed assessment that uses National House Energy Rating Scheme (NatHERS) accredited software, and can simulate a larger range of construction methods and materials, more complex designs and multi-dwelling developments such as townhouses and apartments.
- Large boarding house – This method can only be used for boarding houses that meet all the criteria below:
- it must be designed to accommodate more than 12 people, or the total floor area must exceed 300 m2
- at least 80% of the dwellings must be less than 35 m2, and
- it may only comprise residential flat buildings.
If the boarding house doesn’t meet all these criteria, but does contain dwellings of less than 35 m2, you may apply for an alternative assessment as a large boarding house.
The DIY and Simulation method are broadly equivalent across a large sample of dwellings. However, design and compliance outcomes are likely to be different. This is because the DIY method estimates the heating and cooling loads, whereas the Simulation method calculates the loads using thermal simulation software.