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Título
Influence of constructive parameters on the performance of two indirect evaporative cooler prototypes
Autor
Año del Documento
2013
Editorial
Elsevier
Descripción
Producción Científica
Documento Fuente
Applied Thermal Engineering, Marzo 2013, vol. 51, Issues 1-2, p. 1017-1025
Zusammenfassung
Two equally-sized cross-flow heat exchanger prototypes have been designed with a total heat exchange area of 6 m2 and 3 m2 respectively, constructed with polycarbonate hollow panels of different cross-section. They are connected into a heat recovery cycle within the whole experimental setup constructed for the tests, which mainly consists of: an Air Handling Unit to simulate the outdoor airstream conditions, a conditioned climate chamber, and a water circuit to provide the water supply required. They have been experimentally characterised in two operating modes in order to determine how evaporative cooling improves heat recovery in each case, focusing on the influence of modifying the constructive characteristics. To perform the evaporative cooling process, water is supplied to the exhaust airstream. Results are studied considering how constructive issues, outdoor air volume flow rate and temperature, as well as operating mode influence on the performance obtained. An Analysis of Variance shows how outdoor airflow has a key role in the performance of the systems; whereas entering outdoor air temperature determines cooling capacities. Improvements introduced by larger heat exchange areas compensate with their corresponding smaller cross sections, which hinder water-air distribution on the exhaust air side of the heat exchanger. Finally, these small devices achieve cooling capacities of up to 800 W, being able to partly support ventilation load and achieving around 50% of energy saving in ventilation cooling.
Materias (normalizadas)
Eficiencia energética
Climatización
Edificios
Enfriamiento evaporativo
Materias Unesco
3322
Palabras Clave
Indirect evaporative cooling
Heat recovery
Plastic heat exchanger
Heat exchange area
Cooling capacity
Thermal conductance
ISSN
1359-4311
Revisión por pares
SI
Patrocinador
This work forms part of the research being carried out within the framework of the “Reduction of energy consumption and carbon dioxide emission in buildings combining evaporative cooling, free cooling and energy recovery in all-air systems”, project supported by the Ministry of Science and Technology through the call for scientific research and technological development research projects. Reference number ENE2008-02274/CON.
Manuel Andrés-Chicote wants to thank to the Spanish Government for the support given through the FPU (Formación de Profesorado Universitario). Reference: AP2010-2449.
Manuel Andrés-Chicote wants to thank to the Spanish Government for the support given through the FPU (Formación de Profesorado Universitario). Reference: AP2010-2449.
Propietario de los Derechos
Elsevier
Idioma
spa
Tipo de versión
info:eu-repo/semantics/acceptedVersion
Derechos
openAccess
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