Thermodynamic basis for ironmaking and slag recycling in circular economy (2021–2026)
- Abstract:
- This project aims to develop new, powerful state-of-the-art computer-based tools to predict the outcomes of complex chemical reactions, high-temperature ironmaking and slag recycling processes. Globally, over 1 billion tonnes of iron are produced each year consuming 30 billion billion (Quintillion) Joules energy! and creating over 300 million tonnes of molten oxides (slags). Our industry partners need new advanced thermodynamic databases and computer models with which to optimise their major industrial processes and develop new technologies. By delivering these tools, this project expects to benefit both industry and the community through improved process efficiencies, and reductions in energy usage, pollutants, and environmental impacts.
- Grant type:
- ARC Linkage Projects
- Researchers:
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Professor
School of Chemical EngineeringFaculty of Engineering, Architecture and Information Technology -
Emeritus Professor
School of Chemical EngineeringFaculty of Engineering, Architecture and Information Technology -
Theme Leader Analytical Methods
School of Chemical EngineeringFaculty of Engineering, Architecture and Information Technology
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- Funded by:
- Australian Research Council
