الفهرس 
Activated carbons and bio desiccantsOnly 14 pages are availabe for public view
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Abstract
To overcome the problems of the heat generated from adsorption effect of the traditional rotary desiccant wheel, this work aims to design, implement, and study the performance of a novelty innovative configuration of desiccant dehumidifier system. To evaluate the performance of the proposed novelty innovative design of the desiccant dehumidifier, a comparative experimental study was conducted for both novelty innovative configuration of desiccant dehumidifier (NICDD) system and traditional rotary desiccant dehumidifier (TRDD) system under the same weather conditions of Tanta city, Egypt. After this, the effect of integrating the NICDD system with the desiccant air conditioner was studied to get a novel innovative configuration of the desiccant air conditioner for hot humid aeras that achieves the sustainable development by protecting the environment from any harmful emissions, achieving thermal comfort conditions, and rationalizing energy consumption. This experimental work includes study the effect of reactivation temperature, process air flow rate, and reactivation air flow rate on the performance of NICDD system, TRDD system, and novel innovative configuration of desiccant air conditioner. The results proved that process air within the innovative desiccant dehumidifiers was cooled at cooling rates higher than the heat generated by the adsorption heat effect. The utilization of the NICDD could decrease the temperatures of the process air that was leaving the desiccant dehumidifier by rates varying between 17.8-23.8 oC as compared to TRDD system. Also, the dehumidification coefficient of performance was improved by 277.6% as a result of using the NICDD system.