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will involve a novel comprehensive approach, including analyses of cellular fate such as reduction/oxidation in diverse biological fluids, tumour cells and tissues, the transport into and within cells
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of the complex non-Newtonian fluids present in this system. This Project addresses a significant scientific knowledge gap in the understanding of the rheology and thermal behaviour bulk plastic melt-flows
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technological solutions for the recycling of waste heat in specific food industry settings, using computational fluid dynamics modelling, lab experiments and field work To disseminate finding in high impact
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? RMIT Engineering PhD candidates get a laptop, world-class labs, research funding, travel support, and seminars. Join RMIT’s PhD project in non-Newtonian fluid dynamics with a $35,888/year stipend for 3.5