Experimental Investigation of Vortex Tube Performance: Influence of Inlet Pressure and Cold Mass Fraction on Thermal Outputs
Koraim, E., Selim, S., Abdel-Hamied, A., Hussien, A. (2025). Experimental Investigation of Vortex Tube Performance: Influence of Inlet Pressure and Cold Mass Fraction on Thermal Outputs. EKB Journal Management System, 1(4), 36-45. doi: 10.21608/sisj.2025.424702
Esmail .A. Koraim; Sobieh Selim; A.A Abdel-Hamied; A.A. Hussien. "Experimental Investigation of Vortex Tube Performance: Influence of Inlet Pressure and Cold Mass Fraction on Thermal Outputs". EKB Journal Management System, 1, 4, 2025, 36-45. doi: 10.21608/sisj.2025.424702
Koraim, E., Selim, S., Abdel-Hamied, A., Hussien, A. (2025). 'Experimental Investigation of Vortex Tube Performance: Influence of Inlet Pressure and Cold Mass Fraction on Thermal Outputs', EKB Journal Management System, 1(4), pp. 36-45. doi: 10.21608/sisj.2025.424702
Koraim, E., Selim, S., Abdel-Hamied, A., Hussien, A. Experimental Investigation of Vortex Tube Performance: Influence of Inlet Pressure and Cold Mass Fraction on Thermal Outputs. EKB Journal Management System, 2025; 1(4): 36-45. doi: 10.21608/sisj.2025.424702

Experimental Investigation of Vortex Tube Performance: Influence of Inlet Pressure and Cold Mass Fraction on Thermal Outputs

Sinai International Scientific Journal
Article 3, Volume 1, Issue 4, April 2025, Pages 36-45    PDF (658.72 K)
Document Type: Original Article
DOI: 10.21608/sisj.2025.424702
Authors
Esmail .A. Koraim* 1; Sobieh Selim2; A.A Abdel-Hamied2; A.A. Hussien2
1Mechanical Department, Faculty of Engineering, Sinai University, North Sinai, Egypt.
2Mechanical, Power Department, Faculty of Engineering, Menoufia University, Menoufia, Egypt.
Abstract
This research examines the performance of a vortex tube with two intake nozzles at 
a diameter ratio of 2:1, a cold tube diameter (dc) of 0.6 cm, a cold tube length (Lc)of 
1 cm, and a cone valve angle (θ) of 45°. The vortex tube has a 25 cm hot tube length 
(Lh) and a 1.3 cm hot tube diameter (Dh) with the length to diameter ratio (L/D) equal 
to 20. The study examined the impact of different entrance pressures (ranging from 
Pi= 1 to 3 bar) and cold mass fractions (
 .
 ) on the temperatures of the hot (Th) and 
cold (Tc) streams. Results show that although decreasing the overall cooling and 
heating performance (COP), raising the input pressure increases the temperature 
differential between the cold and hot streams. These results offer information for 
enhancing vortex tube performance and open a window over possible industrial 
applications. 

Keywords
Vortex tube; Operating inlet pressure; Energy separation;   Coefficient of performance
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