Smart Polymer Hydrogels for Simultaneous Waste Heat Utilisation and Wastewater Treatment for Sustainable Manufacturing. This project aims to develop dual-functionality, temperature-responsive polymer hydrogels as draw agents for continuous, forward osmosis wastewater treatment processes. It intends to use low–and-medium temperature waste heat as a green input into the process and thus significantly reduce the costs of wastewater treatment, and fresh water consumption, whilst effectively utilisin ....Smart Polymer Hydrogels for Simultaneous Waste Heat Utilisation and Wastewater Treatment for Sustainable Manufacturing. This project aims to develop dual-functionality, temperature-responsive polymer hydrogels as draw agents for continuous, forward osmosis wastewater treatment processes. It intends to use low–and-medium temperature waste heat as a green input into the process and thus significantly reduce the costs of wastewater treatment, and fresh water consumption, whilst effectively utilising waste heat generated in the manufacturing industry. The outcomes of this research aim to provide a unique opportunity for Australian researchers to become world leaders in the rapidly-emerging, energy-efficient forward osmosis technology which is very relevant not only to wastewater treatment, but also to desalination.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100128
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
High performance analytical tools to strengthen clean energy research. High performance analytical tools are vital to the success of emerging research fields of national priority. By filling a gap in materials routine characterisation capabilities, the equipment requested will lead to major advances in fundamental and applied research aimed at carbon abatement and clean energy technologies. This includes technologies for clean energy generation by solar means and from decarbonised fossil fuels, ....High performance analytical tools to strengthen clean energy research. High performance analytical tools are vital to the success of emerging research fields of national priority. By filling a gap in materials routine characterisation capabilities, the equipment requested will lead to major advances in fundamental and applied research aimed at carbon abatement and clean energy technologies. This includes technologies for clean energy generation by solar means and from decarbonised fossil fuels, efficient energy storage systems, advanced fuel cells for electricity generation, and hydrogen as the universal energy vector. Advancement of these technologies will bring solutions to the grand challenges facing Australia and in turn benefit industry and society.
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