ACTIVE COOLING HEAT TRANSFER COEFFICIENT ENHANCEMENTS IN POROUS COMPACT HEAT EXCHANGER
Farid Marzouk Elsayed, R., Mohamed Ali, S., Aboelsoud, W. (2024). ACTIVE COOLING HEAT TRANSFER COEFFICIENT ENHANCEMENTS IN POROUS COMPACT HEAT EXCHANGER. EKB Journal Management System, 19(72), 75-91. doi: 10.21608/auej.2024.249276.1476
Ramy Farid Marzouk Elsayed; Said Mohamed Ali; Walid Aboelsoud. "ACTIVE COOLING HEAT TRANSFER COEFFICIENT ENHANCEMENTS IN POROUS COMPACT HEAT EXCHANGER". EKB Journal Management System, 19, 72, 2024, 75-91. doi: 10.21608/auej.2024.249276.1476
Farid Marzouk Elsayed, R., Mohamed Ali, S., Aboelsoud, W. (2024). 'ACTIVE COOLING HEAT TRANSFER COEFFICIENT ENHANCEMENTS IN POROUS COMPACT HEAT EXCHANGER', EKB Journal Management System, 19(72), pp. 75-91. doi: 10.21608/auej.2024.249276.1476
Farid Marzouk Elsayed, R., Mohamed Ali, S., Aboelsoud, W. ACTIVE COOLING HEAT TRANSFER COEFFICIENT ENHANCEMENTS IN POROUS COMPACT HEAT EXCHANGER. EKB Journal Management System, 2024; 19(72): 75-91. doi: 10.21608/auej.2024.249276.1476

ACTIVE COOLING HEAT TRANSFER COEFFICIENT ENHANCEMENTS IN POROUS COMPACT HEAT EXCHANGER

Journal of Al-Azhar University Engineering Sector
Volume 19, Issue 72, July 2024, Page 75-91  XML PDF (559.03 K)
Document Type: Original Article
DOI: 10.21608/auej.2024.249276.1476
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Authors
Ramy Farid Marzouk Elsayed email 1; Said Mohamed Ali1; Walid Aboelsoud2
1Mechanical Department, Faculty of Engineering, Al-Azhar University, Cairo, Egypt
2Mechanical Power Engineering Department, Faculty of Engineering, Ain Shams University, Cairo, Egypt
Abstract
Due to the poor thermal properties of the air and the resistance of the boundary layer, enhancing the heat transfer coefficient HTC is a challenging problem. In this study, the hydro-thermal characteristics of V-shape copper porous media attached to a vertical heat source were studied by using the active cooling forced convection technique. The performance of hydraulic is expressed by pressure drop through the porous insert material while the thermal performance is expressed by the overall HTC and Nusselt number. To conduct this research the finite element method (FEM) is used by employing the COMSOL software. The V-shape geometry was chosen as the porous thickness is 2 mm and the porous height is 4 mm. The V-shape angle was changed from 14 to 180, and the airflow velocity was varied from 0.7 m/s to 3 m/s. The results show that angle 14 gives the minimum pressure drop so minimum pumping power. For laminar airflow changing air velocity from 0.7 to 3 m/s led to a change in the pressure drop from 44 to 530 Pa and the Nusselt number ranges from 186-1592. V-shape with an angle of 14 degrees gives the best hydraulic performance for the selected geometry and The best performance criteria is at porosity 25% and Reynolds number 4617. The best enhancement of the heat transfer coefficient from this geometry is 8 times more than that from the bare model. Correlations for Nusselt number and performance criteria were concluded.
 
Special Issue of AEIC 2024 (Mechanical & Chemical and Material Engineering  Session)
Keywords
Active cooling; Porous materials; Heat exchanger; Effectiveness; Heat transfer coefficient. Forced convection
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