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Title: Post-doc position Discipline: Process Mineralogy, Mineral Processing, Artificial Intelligence Duration:12 months, with the possibility of renewal for an additional 12 months Institutions
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ultramafic rock systems. The position is associated with ongoing research aimed at advancing understanding of mineral fluid interaction processes and their impact on subsurface architecture and petrophysical
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deposits; Sediment-hosted copper deposits; Permeability structures in these deposits; Typical mineral assemblages. Familiarity with: Oxidation / reduction processes of minerals related to copper ores. Acid
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; Permeability structures in these deposits; Typical mineral assemblages. Familiarity with: Oxidation / reduction processes of minerals related to copper ores. Acid leaching processes. Buffering effects of acid
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Dr Vinai and the project team, involving molecular dynamics simulation of shockwave application to mineral powders. The post will be primarily based at the University of Exeter with trips
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Sustainable Minerals Institute Full-time (100%), fixed-term position for up to 5 years Base salary will be in the range $143,099.52 - $164,748.70 + 17% Superannuation (Academic Level C) Based at our
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AUSTRALIAN NATIONAL UNIVERSITY (ANU) | Canberra, Australian Capital Territory | Australia | about 6 hours ago
for the energy transition are produced, used and recycled. You will undertake innovative research on the social dimensions of the energy transition, including its links to critical minerals. The successful
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, processing, use, and disposal is subject to supply chain risks and results in a significant loss of critical minerals from the economy. As a result, there is increasing interest in transitioning to a more
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dictate H2-production, CO2-uptake, and metal-sulphide mineralization. You will join our multidisciplinary team of LITHO-FLUCHS investigators consisting of; Dr Andy Parsons (Project Lead & Line Manager
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interaction processes and their impact on subsurface architecture and petrophysical and rock physical evolution in mafic and ultramafic rocks during CO₂ injection and mineralization. Emphasis will be placed