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On the Generation of an Intense Temperature Gradient Through a Modified Shock Tube Hydrodynamics for a Possible Continuous Sterilization Process

Houcine Hachoum

Houcine Hachoum

University of Sfax, IPEIS, Department of TechnologyTunisia
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Hachoum, Houcine
 and 
Hatem Ksibi

Hatem Ksibi

  • University of Sfax, IPEIS, Department of TechnologyTunisia
  • University of Gafsa,LAM3E, Gafsa,Campus Universitaire Sidi Ahmed ZarrougGafsa,
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Ksibi, Hatem
  
Nov 07, 2022
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Published Online: Nov 07, 2022
Page range: 81 - 92
DOI: https://doi.org/10.2478/scjme-2022-0018
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© 2022 Hachoum Houcine et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Data on hydrodynamics of carbon dioxide in shock tube can be presented as a main opportunity to apprehend and establish sterilization treatment process. Here, a modified and axi-symmetric shock-tube model has been developed to simulate shockwave propagation and reflection after rapid bursting of two diaphragms separated initially with a relaxed fluid. It has been demonstrated that the given model is capable of accurately simulating, locating, and measuring shock and expansion wave propagation and reflections as well as estimating the thermodynamic preconditions that can lead to prompt sterilization.

Language:
English
Publication timeframe:
2 times per year
Journal Subjects:
Engineering, Mechanical Engineering, Fundamentals of Mechanical Engineering, Mechanics
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