“Air-side Performance of a wavy-finned-tube direct expansion cooling and dehumidifying air coil” International journal of refrigeration, Vol. (30), pp. 230-244.
International journal of refrigeration • 2007
Publication Information
Authors
A. S. Huzayyin, S.A Nada, H.F. Elattar
Keywords
Air conditioning; Evaporator; Finned tube; Experiment; Heat transfer; Mass transfer; Humid air; Pressure drop
Journal
International journal of refrigeration
Publisher
Elsevier
Volume
30
Issue
Not Available
Pages
230-244
publication.type
Local
Paper Link
Not Available
Supplementary Materials
Not Available
Abstract
Airside heat and mass transfer and fluid flow characteristics of a wavy-finned-tube direct expansion air coil under cooling and
dehumidifying condition have been experimentally investigated. Experiments were carried out to study the effects of operating
conditions such as: air temperature, air relative humidity, air face velocity, and evaporator pressure on the airside performance
(cooling capacity, dehumidification capacity, pressure drop, and heat transfer coefficient) of the coil. Charts for coil wet conditions,
partially wet or totally wet, were conducted to identify the coil wet conditions in terms of the operating conditions. Two
techniques, enthalpy potential method and equivalent dry-bulb temperature method, were used to analyze the data and to deduce
correlations for Colburn factors for the different coil wet conditions. Comparison between the correlations predictions of the two
techniques was presented.
dehumidifying condition have been experimentally investigated. Experiments were carried out to study the effects of operating
conditions such as: air temperature, air relative humidity, air face velocity, and evaporator pressure on the airside performance
(cooling capacity, dehumidification capacity, pressure drop, and heat transfer coefficient) of the coil. Charts for coil wet conditions,
partially wet or totally wet, were conducted to identify the coil wet conditions in terms of the operating conditions. Two
techniques, enthalpy potential method and equivalent dry-bulb temperature method, were used to analyze the data and to deduce
correlations for Colburn factors for the different coil wet conditions. Comparison between the correlations predictions of the two
techniques was presented.
Staff Members - Benha University