Heat and Mass Transfer in Circulating Dessicant Air Dehumidifier.
Eldebsi, A., Ahmed, A., Gad, H. (2020). Heat and Mass Transfer in Circulating Dessicant Air Dehumidifier.. EKB Journal Management System, 41(3), 16-25. doi: 10.21608/bfemu.2020.99019
Ahmed Mahmoud Hasan Eldebsi; Ahmed Ramzi Abbas Ahmed; Helmy El Sayed Gad. "Heat and Mass Transfer in Circulating Dessicant Air Dehumidifier.". EKB Journal Management System, 41, 3, 2020, 16-25. doi: 10.21608/bfemu.2020.99019
Eldebsi, A., Ahmed, A., Gad, H. (2020). 'Heat and Mass Transfer in Circulating Dessicant Air Dehumidifier.', EKB Journal Management System, 41(3), pp. 16-25. doi: 10.21608/bfemu.2020.99019
Eldebsi, A., Ahmed, A., Gad, H. Heat and Mass Transfer in Circulating Dessicant Air Dehumidifier.. EKB Journal Management System, 2020; 41(3): 16-25. doi: 10.21608/bfemu.2020.99019

Heat and Mass Transfer in Circulating Dessicant Air Dehumidifier.

MEJ- Mansoura Engineering Journal
Article 5, Volume 41, Issue 3, September 2016, Page 16-25  XML PDF (1.71 MB)
Document Type: Research Studies
DOI: 10.21608/bfemu.2020.99019
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Authors
Ahmed Mahmoud Hasan Eldebsi email 1; Ahmed Ramzi Abbas Ahmed2; Helmy El Sayed Gad3
1Damietta power plant, East Delta Electricity Production Co., Egypt
2Mechanical Power Engineering Department, University of Mansoura, Egypt
3Prof. at Mechanical Power Engineering - Faculty of Engineering - Mansoura University
Abstract
In the present work, a novel circulating desiccant air dehumidifier is numerically and experimentally investigated. Experimental tests and numerical analysis are conducted to investigate the adsorption and desorption processes in fluidized and packed bed columns which are connected via two inclined tubes. The dehumidification process occurs in the packed bed and regeneration process is carried out in the fluidized bed. Silica gel is used as a working desiccant, and its flow rate is controlled using manual valves. The experimental setup is designed, constructed and described. Silica gel is transferred continuously by gravity to the fluidized bed and particles fluidization to the packed bed. A simulation computer code was developed to predict the performance of the system and analyze its sensitivity to the main operating parameters. Results show that when applying intercooling between the two columns a significant improvement in adsorption process is observed. A satisfactory regeneration rate is confirmed at a regeneration temperature of 90 oC. The adsorption and desorption rates are dependent on the initial humidity of air. It was found that circulation rate is optimal when the bottom valve opening is 30 %. In the proposed system, continuous processes of adsorption and desorption and steady state moisture transfer rate during these processes are achieved. 
Keywords
packed bed; Adsorption; desorption; Fluidized bed; Desiccant; Silica gel
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