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This work presents results of experimental and simulation study of a solar assisted pre-cooled hybrid desiccant cooling system for building air conditioning applications in hot regions. Tests were conducted on a pre-cooled hybrid desiccant cooling test rig. Using measured data sets from the desiccant cooling system, validation of TRYNSIS model of the same cooling system was carried out. Six configurations of the cooling system were simulated for different climatic regions. Analysis demonstrated that better energy saving can be achieved by using indirect evaporative cooler for pre-cooling. For…mehr

Produktbeschreibung
This work presents results of experimental and simulation study of a solar assisted pre-cooled hybrid desiccant cooling system for building air conditioning applications in hot regions. Tests were conducted on a pre-cooled hybrid desiccant cooling test rig. Using measured data sets from the desiccant cooling system, validation of TRYNSIS model of the same cooling system was carried out. Six configurations of the cooling system were simulated for different climatic regions. Analysis demonstrated that better energy saving can be achieved by using indirect evaporative cooler for pre-cooling. For post cooling direct evaporative cooler for hot and dry regions and indirect evaporative cooler for humid regions are suitable. This work also describes the life cycle assessment of solar air heater and its energy and environmental payback periods. The CFD analysis of air collector using Fluent software has been discussed in some detail.
Autorenporträt
Professor Anjum Khalid works as faculty member at Mechanical Engineering Department of NED University of Engineering and Technology, Karachi-Pakistan. Presently he is involved in undergraduate and post graduate teaching and research. He has authored eleven research papers in the area of desalination and renewable energy.