H
Hassan Peerhossaini
Researcher at University of Western Ontario
Publications - 206
Citations - 4137
Hassan Peerhossaini is an academic researcher from University of Western Ontario. The author has contributed to research in topics: Heat transfer & Reynolds number. The author has an hindex of 35, co-authored 196 publications receiving 3646 citations. Previous affiliations of Hassan Peerhossaini include Paris Diderot University & University of Nantes.
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Static mixers: Mechanisms, applications, and characterization methods – A review
TL;DR: In this paper, the authors present a review of recent conceptual and technological innovations in passive static mixers and continuous in-line reactors and discuss current industrial applications from a process intensification perspective, focusing on mixing and mass transfer performance.
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Rheology, flow behaviour and heat transfer of ice slurries: a review of the state of the art
TL;DR: In this paper, a review of recent studies on rheology, flow behavior and heat transfer of two-phase aqueous secondary refrigerants (ice slurries) is presented.
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The effects of chaotic advection on heat transfer
TL;DR: In this article, the authors examined the effects of chaotic advection on heat transfer at low Reynolds numbers, and they showed that chaotic trajectories substantially homogenize and enhances heating and that the homogeneity of heating is almost independent of the Reynolds number.
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Intensification of heat-transfer and mixing in multifunctional heat exchangers by artificially generated streamwise vorticity
TL;DR: Ferrouillat et al. as mentioned in this paper studied the potential of using a compact heat exchanger as a mixer as well as a chemical reactor, generally referred to as multifunctional heat exchangers (MHE).
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Droplets formation in turbulent mixing of two immiscible fluids in a new type of static mixer
TL;DR: In this article, the emulsification process in a static mixer high-efficiency vortex in turbulent flow is investigated, and a new type of mixer generates coherent large-scale structures, enhancing momentum transfer in the bulk flow and hence providing favorable conditions for phase dispersion.