PartagerPerformance optimisée d'un système de refroidissement à adsorption à lit unique.
Optimized performance of one bed adsorption cooling system.
Numéro : pap. 2429
Auteurs : MIYAZAKI T., SHARKAWY I. I. el-, SAHA B. B., et al.
Résumé
The study aimed at the reduction of system size of adsorption cooling systems for refrigeration and air- conditioning applications. To simplify the system, we investigated one-bed configuration of adsorption cooling system. In general, one-bed adsorption cooling system would result in a large temperature fluctuation at chilled water outlet. To overcome that drawback and to maximize the cooling capacity, the cycle time, namely, pre-heating, desorption, pre-cooling, and adsorption times, of one-bed adsorption cooling system was optimized. In case of two-bed adsorption cooling system, two adsorbers operates in reverse phase each other, which means that the degree of freedom for cycle time optimization is two. In case of one-bed adsorption cooling system, four processes can be independently optimized. In our study, activated carbon-ethanol pair was chosen as the adsorbent-refrigerant pair because of a high adsorption capacity of activated carbons against ethanol. Using adsorption isotherms and kinetic data of activated carbon-ethanol pair measured by our research group, a lumped parameter model of one-bed adsorption cooling system was developed. The four parameters of cycle time were optimized using global optimization method, and the optimal time settings were effectively found. The results showed the effect of cycle time optimization on the cooling performance of one-bed adsorption cooling system.
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Détails
- Titre original : Optimized performance of one bed adsorption cooling system.
- Identifiant de la fiche : 30013312
- Langues : Anglais
- Source : 2014 Purdue Conferences. 15th International Refrigeration and Air-Conditioning Conference at Purdue.
- Date d'édition : 14/07/2014
Liens
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Indexation
- Thèmes : Systèmes à absorption et adsorption
- Mots-clés : Durée; Système frigorifique; Carbone; Refroidissement; Adsorption; Simulation; Performance; Éthanol
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