Development of new-generation autoclaved cellulose fibre-cement composites using alumina-silica rich industrial waste. Autoclaved cellulose fibre-cement (FC) composites are used for construction purposes globally. Alumina-silica rich industrial waste, such as fired clay bricks and tiles, are proven to be highly reactive under autoclaving conditions and are generated in abundance either during the production process or demolition of buildings worldwide. The project aims to utilise this renewable ....Development of new-generation autoclaved cellulose fibre-cement composites using alumina-silica rich industrial waste. Autoclaved cellulose fibre-cement (FC) composites are used for construction purposes globally. Alumina-silica rich industrial waste, such as fired clay bricks and tiles, are proven to be highly reactive under autoclaving conditions and are generated in abundance either during the production process or demolition of buildings worldwide. The project aims to utilise this renewable waste for the manufacture of improved FC products. The successful outcomes of the project could allow a new range of cost-effective building products which need less energy for their manufacture, to be realised for both developed and developing countries.Read moreRead less
A Fundamental Study Of The Behaviour Of Clay Brick Fines In Autoclaved Calcium Silicate Based Building Products. Clay brick fines constitute a significant proportion of Construction and Demolition waste, the disposal of which is a recognised global problem. This project aims to provide a fundamental understanding of the behaviour of clay brick fines in autoclaved calcium silicate based building products. Current practice of manufacture of these widely produced building materials does not use cla ....A Fundamental Study Of The Behaviour Of Clay Brick Fines In Autoclaved Calcium Silicate Based Building Products. Clay brick fines constitute a significant proportion of Construction and Demolition waste, the disposal of which is a recognised global problem. This project aims to provide a fundamental understanding of the behaviour of clay brick fines in autoclaved calcium silicate based building products. Current practice of manufacture of these widely produced building materials does not use clay brick fines due to a lack of technical information on this renewable resource material. Findings of this study will provide a benchmark for the development of new generation building products worldwide utlilising clay brick fines.Read moreRead less
Photoelectrochemical control transport across a photoactive inorganic membrane fabricated by an in situ vapour phase hydrothermal method. Serious global fresh water shortage problems force us to recycle/reuse water. In Australia, this is an urgent issue due to our limited fresh water resources. Complete removal of biohazards (e.g., waterborne pathogens) from treated water is one of the most important aspects of safeguarding water recycling and has been the biggest obstacle for public acceptance. ....Photoelectrochemical control transport across a photoactive inorganic membrane fabricated by an in situ vapour phase hydrothermal method. Serious global fresh water shortage problems force us to recycle/reuse water. In Australia, this is an urgent issue due to our limited fresh water resources. Complete removal of biohazards (e.g., waterborne pathogens) from treated water is one of the most important aspects of safeguarding water recycling and has been the biggest obstacle for public acceptance. This project aims to tackle the issue by developing a highly efficient and effective new membrane technology that is capable of not just separating the biohazards from the source water but also in situ destroying them at the same time with low energy consumption and self cleaning features.Read moreRead less