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Water and the making of urban Australia since 1900. This project aims to produce new understandings of both the historical drivers of today’s urban water systems, and how these systems have impacted on human and ecological welfare. This will be achieved through the first integrated and comparative historical study of the provision, use and cultures of water in Australia’s five largest cities from 1900 to the present. Such historical knowledge is critical at a time when the water systems of Austr ....Water and the making of urban Australia since 1900. This project aims to produce new understandings of both the historical drivers of today’s urban water systems, and how these systems have impacted on human and ecological welfare. This will be achieved through the first integrated and comparative historical study of the provision, use and cultures of water in Australia’s five largest cities from 1900 to the present. Such historical knowledge is critical at a time when the water systems of Australia’s largest cities are under growing pressure from environmental change and population growth. Project findings will inform the development of policies and practices that produce sustainable, equitable urban water systems.Read moreRead less
Nature's mechanisms for leaching and remobilising metals. This project aims to understand the chemical and physical processes that govern reactive transport and metal scavenging in rocky environments. Much of Australia's mineral wealth is the result of the interaction of warm fluids with rocks deep in the Earth over geological timescales. The formation of ore deposits is governed by the physical chemistry of mineral dissolution and crystallisation, and by fluid flow through porous rocks and frac ....Nature's mechanisms for leaching and remobilising metals. This project aims to understand the chemical and physical processes that govern reactive transport and metal scavenging in rocky environments. Much of Australia's mineral wealth is the result of the interaction of warm fluids with rocks deep in the Earth over geological timescales. The formation of ore deposits is governed by the physical chemistry of mineral dissolution and crystallisation, and by fluid flow through porous rocks and fractures. This project integrates innovation in geology, chemistry, and mineral engineering, and will deliver mineral-scale reaction models that will increase efficiency of in-situ mining and leaching technologies. Knowledge generated can be applied to improve mineral exploration, mining, and processing, contributing to unlocking billions of dollars’ worth of resources tied up in low grade, mineralogically complex ores.Read moreRead less