Photoelectrocatalysis-based Techniques for Bactericidal Applications. Effective control of the quality of water supply is paramount for public health. This project aims to develop a novel photoelectrocatalysis (PEC) based bactericidal technology capable of instant inactivation and rapid decomposition of waterborne pathogens in recycled water. The PEC processes at the illuminated semiconductor photoanodes with ultraviolet (UV) and visible light activities will be innovatively utilised with the ai ....Photoelectrocatalysis-based Techniques for Bactericidal Applications. Effective control of the quality of water supply is paramount for public health. This project aims to develop a novel photoelectrocatalysis (PEC) based bactericidal technology capable of instant inactivation and rapid decomposition of waterborne pathogens in recycled water. The PEC processes at the illuminated semiconductor photoanodes with ultraviolet (UV) and visible light activities will be innovatively utilised with the aim of in-situ generation of stable di-halide radical anions, reactive oxygen species and photoholes as effectual bactericides to achieve instant inactivation and rapid decomposition of waterborne pathogens. The success of the project is expected to provide Australian water industry with enabling technology to safeguard recycled water usage.Read moreRead less
Advanced water treatment technologies to minimise nitrogenous disinfection by-products in drinking water: understanding the role of organic nitrogen. This project will identify improved methods for treatment of drinking water to prevent the formation of potentially hazardous disinfection by-products. It will assist water resource managers and regulators to select the most economical and safe treatment for each type of water source and to plan for future demands on our limited water supplies.
Scalable and Applicable Nanostructured Adsorbents for Arsenic Removal with High Performance. Arsenic contamination in groundwater and drinking water affects over 100 million people worldwide and causes severe health problems. This project aims to use a recently patented technology to develop a new generation of adsorbents with controlled nanostructure and morphology for arsenic removal. The novel low-cost adsorbents are expected to have superior performance for the treatment of water containing ....Scalable and Applicable Nanostructured Adsorbents for Arsenic Removal with High Performance. Arsenic contamination in groundwater and drinking water affects over 100 million people worldwide and causes severe health problems. This project aims to use a recently patented technology to develop a new generation of adsorbents with controlled nanostructure and morphology for arsenic removal. The novel low-cost adsorbents are expected to have superior performance for the treatment of water containing arsenic at both high and low concentrations. The engineered products will be tested in high-throughput wastewater treatment in pharmaceutical factories and as a household drinking water treatment device. This project aims to bring economic and social benefits to Australian industry and improve the quality of life for people all over the world.Read moreRead less