Liquid desiccant air conditioning systems have recently been attracting attention due to their capability of handling the latent load without super-cooling and then reheating the air, as happens in a conventional compression-type air conditioning system. This paper presents the results from a study of the performance of an internally cooled liquid desiccant dehumidifier. A plate heat exchanger is proposed as the internally cooled element of the dehumidifier and water as the cooling fluid. The desiccant solution is sprayed into the internally cooled dehumidifier from the top and flows down by gravity. At the same time, fresh humid air is blown from the bottom or top, counter-flowing or co-flowing with the desiccant solution. The desiccant is in direct contact with the air, allowing for heat and mass transfer. The cooling water, flowing inside the plates of the dehumidifier, carries out the heat of the crossed air and solution. A heat and mass transfer theoretical model has been developed, based on the Runge-Kutta fixed step method, to predict the performance of the device under various operating conditions. Experimental data from previous literature have been used to validate the model. Excellent agreement has been found between experimental tests and the theoretical model, with the deviation not exceeding ±4.1% for outlet air temperature and ±4.0% for outlet humidity ratio. Following the validation of the mathematical model, the dominating effects on the absorption process have been discussed in detail. Namely, effects of flow configuration, air inlet temperature, humidity and flow rate, as well as desiccant inlet temperature, concentration and flow rate have been investigated against the dehumidification rate and the cooling efficiency. The two most commonly used liquid desiccant solutions, namely LiCl and LiBr have been also evaluated against each other. The results suggested that high dehumidification mass rate can be achieved under counter flow between air and solution, low air mass flow rates, low cooling water temperature, low desiccant temperature and LiCl as the desiccant solution.
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ASME 2012 11th Biennial Conference on Engineering Systems Design and Analysis
July 2–4, 2012
Nantes, France
Conference Sponsors:
- International
ISBN:
978-0-7918-4485-4
PROCEEDINGS PAPER
Performance Analysis on the Internally Cooled Dehumidifier Using Two Liquid Desiccant Solutions
I. P. Koronaki,
I. P. Koronaki
National Technical University of Athens, Athens, Greece
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R. I. Christodoulaki,
R. I. Christodoulaki
National Technical University of Athens, Athens, Greece
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V. D. Papaefthimiou,
V. D. Papaefthimiou
National Technical University of Athens, Athens, Greece
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E. D. Rogdakis
E. D. Rogdakis
National Technical University of Athens, Athens, Greece
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I. P. Koronaki
National Technical University of Athens, Athens, Greece
R. I. Christodoulaki
National Technical University of Athens, Athens, Greece
V. D. Papaefthimiou
National Technical University of Athens, Athens, Greece
E. D. Rogdakis
National Technical University of Athens, Athens, Greece
Paper No:
ESDA2012-82336, pp. 627-638; 12 pages
Published Online:
August 12, 2013
Citation
Koronaki, IP, Christodoulaki, RI, Papaefthimiou, VD, & Rogdakis, ED. "Performance Analysis on the Internally Cooled Dehumidifier Using Two Liquid Desiccant Solutions." Proceedings of the ASME 2012 11th Biennial Conference on Engineering Systems Design and Analysis. Volume 2: Applied Fluid Mechanics; Electromechanical Systems and Mechatronics; Advanced Energy Systems; Thermal Engineering; Human Factors and Cognitive Engineering. Nantes, France. July 2–4, 2012. pp. 627-638. ASME. https://doi.org/10.1115/ESDA2012-82336
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