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AOP technologies produce strong oxidants including hydroxyl radicals, sulfate radicals and high valent metal species to either realize complete mineralisation of organic pollutants (to carbon dioxide) or render them more biodegradable... More...
CTET is engaged in the development and optimisation of a range of electrochemical processes for brackish water desalination, organic contaminant degradation and resource recovery including fixed and flow electrode membrane capacitive deionisation and fixed and flow electrode anodic oxidation... More...
Researchers at CTET use the state-of-the-art technology, Computational Fluid Dynamics (CFD) together with Mechanical Structural Analysis and advanced characterisation techniques to create membrane modules with low energy consumption and low fouling potential.. More...
CTET is working with UNSW EPICentre to build the digital twins of innovative water and wastewater treatment technologies that are developed at CTET. .. More...
Our specialists have experience in detailed geochemical and microbial characterisation of degraded and contaminated sites and, based on knowledge gained, are able to provide advice on the most appropriate remediation strategy... More...
A range of coal mine dust lung diseases stem from a range of components present, including reduced iron minerals (e.g. pyrite), crystalline silica (quartzs), silicates (clays) and aliphatic and arommatic carbon compounds... More...
UNSW Centre for Transformational Environmental Technologies (CTET)
UNSW Sydney Address: High Street, Kensington, NSW, Australia |
Water Research Centre Address: Vallentine Annexe (H22) Building, UNSW Sydney, Kensington, NSW, Australia |
CTET (Yixing Office) Address: Building #4,128 Hengtong Road, ES&TP, Yixing, China |
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Authorised by Director, UNSW CTET