Simultaneous Condensation-Evaporation Heat Transfer on a Vertical Tube, I- Experimental Study.
Wasel, M., Mostafa, H., Mousa, M. (2021). Simultaneous Condensation-Evaporation Heat Transfer on a Vertical Tube, I- Experimental Study.. EKB Journal Management System, 26(2), 92-101. doi: 10.21608/bfemu.2021.145031
Mohamed Gamal Hassan Wasel; Hesham M. Mostafa; M. G. Mousa. "Simultaneous Condensation-Evaporation Heat Transfer on a Vertical Tube, I- Experimental Study.". EKB Journal Management System, 26, 2, 2021, 92-101. doi: 10.21608/bfemu.2021.145031
Wasel, M., Mostafa, H., Mousa, M. (2021). 'Simultaneous Condensation-Evaporation Heat Transfer on a Vertical Tube, I- Experimental Study.', EKB Journal Management System, 26(2), pp. 92-101. doi: 10.21608/bfemu.2021.145031
Wasel, M., Mostafa, H., Mousa, M. Simultaneous Condensation-Evaporation Heat Transfer on a Vertical Tube, I- Experimental Study.. EKB Journal Management System, 2021; 26(2): 92-101. doi: 10.21608/bfemu.2021.145031

Simultaneous Condensation-Evaporation Heat Transfer on a Vertical Tube, I- Experimental Study.

MEJ- Mansoura Engineering Journal
Article 18, Volume 26, Issue 2, June 2001, Page 92-101  XML PDF (118.47 K)
Document Type: Research Studies
DOI: 10.21608/bfemu.2021.145031
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Authors
Mohamed Gamal Hassan Wasel* 1; Hesham M. Mostafa2; M. G. Mousa3
1Mechanical Power Engineering Department., Faculty of Engineering., El-Mansoura University., Mansoura., Egypt.
2Higher Technological Institute., Tenth of Ramadan City., Egypt.
3Faculty of Education Industrial Branch., Damietta., Mansoura Univ., Mansours., Egypt.
Abstract
In the present work, simultaneous condensation-evaporation heat transfer in thin films on a vertical tube is, experimentally, investigated. Condensation takes place on the outer surface of the vertical tube and the evaporation occurs inside it. The condensed steam outside the tested tube imparts its later heat to evaporate the thin liquid film, which flows inside the tube. Throughout this work, the range of Reynolds number for water film flow is from 50 to 800, while that of condensate outside the tube, takes values less than 100. 
The studied operating parameters, which affect the condensation-evaporation processes are water flow rate, its degree of subcool, the flow rate of the dry saturated heating steam and its pressure. The flow rate of the falling heated water is 3-50 kg/hr at constant pressure of 1.1 bar, while the heating steam flow rate is up to 5 kg/hr at a pressure which varies from 1.2 to 2 bar. 
The results show that, decreasing the Reynolds number of the falling water film, up to dry out a the end of the vertical tube, causes an increase of heat transfer coefficient for different operating parameters. In addition, the Nusselt number for different values of Reynolds number are calculated and in accordance, an empirical correlation for the condensation - evaporation Nusselt number as a function of the studied operating parameters is proposed.
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