A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Integrated thermal simulation of buildings and regenerative evaporative coolers
AbstractThe thermal environment inside a building, fitted with a regenerative evaporative cooler, is influenced by the performance of the cooler. However, this performance is again influenced by the indoor air conditions. It means that the thermal performance of the building and the performance of the cooler cannot be separated. This paper proposes an innovative model for simulating the integrated thermal performance of buildings and regenerative evaporative coolers.The cooler model employs a standard single equation to characterize the performance of a cooler. Only the coefficients of this equation differs for different coolers. These coefficients are found from empirical performance data available from suppliers.The cooler model was integrated with a comprehensive building thermal analysis program and verified successfully. The applicability of the new integrated model is illustrated through a number of practical examples.This model now enables the designer to simulate any regenerative evaporative cooler connected to any building in any climatic region. The control strategy best suited for different off-design conditions can now also be investigated.
Integrated thermal simulation of buildings and regenerative evaporative coolers
AbstractThe thermal environment inside a building, fitted with a regenerative evaporative cooler, is influenced by the performance of the cooler. However, this performance is again influenced by the indoor air conditions. It means that the thermal performance of the building and the performance of the cooler cannot be separated. This paper proposes an innovative model for simulating the integrated thermal performance of buildings and regenerative evaporative coolers.The cooler model employs a standard single equation to characterize the performance of a cooler. Only the coefficients of this equation differs for different coolers. These coefficients are found from empirical performance data available from suppliers.The cooler model was integrated with a comprehensive building thermal analysis program and verified successfully. The applicability of the new integrated model is illustrated through a number of practical examples.This model now enables the designer to simulate any regenerative evaporative cooler connected to any building in any climatic region. The control strategy best suited for different off-design conditions can now also be investigated.
Integrated thermal simulation of buildings and regenerative evaporative coolers
Rousseau, P.G. (author) / Mathews, E.H. (author) / Grobler, L.J. (author)
Building and Environment ; 29 ; 33-42
1993-01-01
10 pages
Article (Journal)
Electronic Resource
English
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