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Détail de l'auteur
Auteur Berhane H. Gebreslassie
Documents disponibles écrits par cet auteur
Affiner la rechercheOptimum heat exchanger area estimation using coefficients of structural bonds / Berhane H. Gebreslassie in International journal of refrigeration, Vol. 33 N° 3 (Mai 2010)
[article]
in International journal of refrigeration > Vol. 33 N° 3 (Mai 2010) . - pp. 529-537
Titre : Optimum heat exchanger area estimation using coefficients of structural bonds : Application to an absorption chiller Titre original : Détermination de la surface d'échange de chaleur optimale à l'aide des coefficients des liens structurels: application à un refroidisseur à absorption Type de document : texte imprimé Auteurs : Berhane H. Gebreslassie, Auteur ; Marc Medrano, Auteur ; Filipe Mendes, Auteur Année de publication : 2010 Article en page(s) : pp. 529-537 Note générale : Génie Mécanique Langues : Anglais (eng) Mots-clés : Absorption system Chiller Design Optimisation Area Heat exchanger Index. décimale : 621.5 Energie pneumatique. Machinerie et outils. Réfrigération Résumé : The optimum allocation of the heat exchange area considers both running and investment cost. The structural method of thermoeconomic optimization is used to derive a simple equation for the estimation of the economic optimum of the area of a heat exchanger integrated in a more complex system. The obtained equation is generally valid for thermal systems. The optimum heat exchange area can be estimated in a straightforward calculation once operation and cost parameters, the overall heat transfer coefficient and the Coefficient of Structural Bonds (CSB) are known. The CSB quantifies the interactions between the units of the thermal system and is obtained from an exergy analysis. Therefore, compared to former work, the proposed equation has the advantage of considering interactions between the units of the system. A case study is presented for an ammonia-water absorption chiller. The optimum area from the proposed formulation is compared with the results obtained from the integrated optimization algorithm of EES (from F-Chart) and the base cases for different annual operation time. DEWEY : 621.5 ISSN : 0140-7007 En ligne : http://www.sciencedirect.com/science/article/pii/S0140700709002813 [article] Optimum heat exchanger area estimation using coefficients of structural bonds = Détermination de la surface d'échange de chaleur optimale à l'aide des coefficients des liens structurels: application à un refroidisseur à absorption : Application to an absorption chiller [texte imprimé] / Berhane H. Gebreslassie, Auteur ; Marc Medrano, Auteur ; Filipe Mendes, Auteur . - 2010 . - pp. 529-537.
Génie Mécanique
Langues : Anglais (eng)
in International journal of refrigeration > Vol. 33 N° 3 (Mai 2010) . - pp. 529-537
Mots-clés : Absorption system Chiller Design Optimisation Area Heat exchanger Index. décimale : 621.5 Energie pneumatique. Machinerie et outils. Réfrigération Résumé : The optimum allocation of the heat exchange area considers both running and investment cost. The structural method of thermoeconomic optimization is used to derive a simple equation for the estimation of the economic optimum of the area of a heat exchanger integrated in a more complex system. The obtained equation is generally valid for thermal systems. The optimum heat exchange area can be estimated in a straightforward calculation once operation and cost parameters, the overall heat transfer coefficient and the Coefficient of Structural Bonds (CSB) are known. The CSB quantifies the interactions between the units of the thermal system and is obtained from an exergy analysis. Therefore, compared to former work, the proposed equation has the advantage of considering interactions between the units of the system. A case study is presented for an ammonia-water absorption chiller. The optimum area from the proposed formulation is compared with the results obtained from the integrated optimization algorithm of EES (from F-Chart) and the base cases for different annual operation time. DEWEY : 621.5 ISSN : 0140-7007 En ligne : http://www.sciencedirect.com/science/article/pii/S0140700709002813