Numerical Study on Effects of Wind Speed and Space Heights on Water Evaporating Performance of Water-Retained Bricks

Numerical Study on Effects of Wind Speed and Space Heights on Water Evaporating Performance of Water-Retained Bricks

Energy-saving roof renovation methods are effective ways to alleviate the urban heat island effect. In this paper, the authors propose three models of two-layer water-retained bricks, established the physical and mathematic models of the water-retained bricks, and then conducted a computational flui...

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Bibliographic Details
Published in:Entropy (Basel, Switzerland) Vol. 24; no. 11; p. 1550
Main Authors: Han, Rubing, Xu, Zhimao, Long, Enshen
Format: Journal Article
Language:English
Published: Basel MDPI AG 28-10-2022
MDPI
Subjects:
Air flow
Altitudes
Boundary layer thickness
Bricks
Chemical properties
Computational fluid dynamics
Concentration gradient
Cooling
Coverings
Diffusion layers
Diffusion rate
Energy
Evaporation
evaporation performance
evaporation space height
Heat exchangers
Influence
Insulation
Investigations
Mathematical models
Methods
Numerical analysis
numerical study
Reynolds number
Speed
Strip
Urban heat islands
Velocity
Water conservation
Water vapor
water-retained brick
Wind effects
Wind speed
Winds
China
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Summary:Energy-saving roof renovation methods are effective ways to alleviate the urban heat island effect. In this paper, the authors propose three models of two-layer water-retained bricks, established the physical and mathematic models of the water-retained bricks, and then conducted a computational fluid dynamics (CFD) simulation on the effect of wind speed and evaporation space height on the water-evaporating performance of water-retained bricks. The results show that: (1) for the water-retained bricks with no-hole lids, macroscopic evaporation does not happen under the static wind conditions; with the increase of wind speed, the evaporating boundary layer thickness decreases, the water vapor concentration gradient in the boundary layer and the mass diffusion flux increase; (2) for the water-retained bricks with strip-hole lids, under the static wind condition, the evaporating performance of the water-retained bricks with strip-hole lids is better than that of bricks with no-hole lids; with the increase of wind speed, the evaporation of bricks with strip-hole lids is less affected by inlet airflow velocity than that of bricks with no-hole lids; (3) as for both the water-retained bricks with no-hole lids and with strip-hole lids, for a given wind speed, both the water vapor concentration gradient and the mass diffusion flux decrease as the evaporation space increases.
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ISSN:1099-4300
1099-4300
DOI:10.3390/e24111550