Hassan M. Soliman
University of Manitoba
78 Papers
679 Citations
Hassan M. Soliman is an academic researcher from University of Manitoba. The author has contributed to research in topics: Heat transfer & Laminar flow. The author has an hindex of 22, co-authored 76 publications.
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Papers
Performance analysis and optimization of rectangular fin arrays used in plate-fin heat exchangers
Weicheng Wu,Hassan M. Soliman +1 more
TL;DR: In this article, a longitudinal rectangular fin arrays used in plate-fin heat exchangers were analyzed for the rate of heat transfer, fin effectiveness, and augmentation factor, as well as the aspect ratio at which the heat transfer reached a maximum.
Experimental investigation of gas-liquid separation with a new combined impacting junction
TL;DR: In this paper, a novel system of combined impacting tee junctions was designed and built for gas-liquid separation over a wide range of inlet conditions, and two sets of experiments were conducted.
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Laminar forced convection in two-dimensional impacting tee junctions
A. M. F. El-Shaboury,Hassan M. Soliman,Scott J. Ormiston +2 more
- 01 Jan 2002
TL;DR: In this article, the authors presented numerical predictions of the laminar fluid-flow and heat-transfer characteristics in planar (two-dimensional) impacting tee junctions and showed that two re-circulation zones always form on the inside-bend wall of the tee at all values of β and Re1.
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Two-phase discharge from a stratified region through two horizontal branches with centerlines falling on an inclined plane
TL;DR: In this article, the critical heights for the onsets of liquid and gas entrainment (OLE and OGE, respectively) were obtained, analyzed and correlated for two different branch spacings and two different angles between the branches.
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Detailed modeling of laminar film condensation from zeotropic binary mixtures in a vertical tube
TL;DR: In this article , a detailed numerical model of film condensation from a binary mixture is developed as a potential tool to assist evaluating the performance of such replacements, and the results of the heat and mass transfer and the local velocity, temperature and mass fraction in the entire domain are produced as well as the axial variation of the pressure and the film thickness.
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