Numerical modelling of combined heat and mass transfer in a tubular adsorber of a solid adsorption solar refrigerator
In this paper a theoretical model of the heat and mass processes in a tubular adsorber of
a solid adsorption solar refrigerator is established. The modelling and the analysis of the adsorber is
the key of such studies because of the complex coupled heat and mass transfer phenomena that occur
during the working refrigeration cycle. This model consists of the energy equation in the adsorbent
layers, the energy balance equation of the adsorber wall, and state equation of the bivariant solidvapour
equilibrium using the Dubinin-Astakhov model to describe the phenomena of adsorption with
the pair activated carbon AC-35/ methanol as an adsorbent/adsorbate. The influence of the main
parameters on the system is also discussed.
Mots-clés
- Activated carbon AC-35 / methanol
-
Adsorption
-
- Effect of convective drying of Myrtus Communis on the yield and quality of essential oils
- Adsorption du cuivre Cu(II) en solution par l’argile brute et activée de la région de Tiout-Naama sud-ouest algérien
- Etude De La Cinétique D’adsorption Du Phosphore En Solution Sur Les Sédiments Du Lac Fouarat Au Maroc
- Etude De L’élimination Des Fluorures Des Eaux De Boisson Par Adsorption Sur Bentonite
- Effet De La Combinaison Floculation - Adsorption Sur La Qualité D’eaux Naturelles Effect Of Flocculation - Adsorption Steps On The Natural Waters Quality
- Heat and mass transfer
- Solar performance coefficient
- Solar refrigerator
fr
Science et Technologie
Revue des Energies Renouvelables
Volume 10
Numéro 03
?