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Sarah Hormozi has a broad research interest in fluid mechanics, rheology, and microstructure of complex slurries; i.e., suspensions of non-Brownian particles in complex fluids. The flows of complex slurries are ubiquitous in many natural phenomena (e.g., landslides, mudslides, and submarine avalanches) and industrial processes (e.g., converting biomass into fuel, chemical mechanical polishing in semiconductors, body armor fabrics, concrete industries, additive manufacturing, flow batteries, drug delivery, blood cells segregations, and biolocomotions). For these applications, even small increases in efficiency when processing complex slurries could make significant positive economic and environmental impacts. Obviously, a thorough understanding of the rheology and fluid mechanics of complex slurries in natural and industrial settings is essential to improving the efficiency of production. However, this research task is extremely challenging due to the nonlinear rheology of the suspending fluids, the interaction of fluid and particle phases, and multiple-body and short-range interactions of particles. Sarah's research contribution spans from large core computations to advanced lab-scale experiments to applied mathematical techniques to understand natural phenomena, resolve industrial problems, and explain the behavior of complex systems from a fundamental physical perspective.
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arxiv(2024)
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JOURNAL OF FLUID MECHANICS (2023)
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Science Talks (2022): 100037
arxiv(2021)
Volume 11: Petroleum Technology (2021)
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