Experimental Study on Reducing Effect for Surface Temperature of Recycled Synthetic-Resin Permeable Block

IF 0.4 Q4 ENGINEERING, GEOLOGICAL Journal of the Korean Geosynthetic Society Pub Date : 2019-01-01 DOI:10.12814/JKGSS.2019.18.1.079
Chul-Hee Lee, Arum Lee, E. Shin, B. Ryu
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引用次数: 1

Abstract

The field measurement and laboratory experiment were conducted to investigate the effect of reducing the surface temperature of the functional aspect of the heat island phenomenon of the permeable block which is made the recycled synthetic resin rather than the existing concrete permeable block. Field measurement was taken for 3 days in consideration of dry condition and wet condition and laboratory experiment was divided into dry condition, rainfall simulating condition, and wetting condition. The variations of temperature and the evaporation rate of water moisture content after experiment were confirmed. As a result of field measurement, it is confirmed that the surface temperature decreases due to the difference in albedo of the pore block surface rather than the cooling effect due to the latent heat of vaporization. The evaporation of moisture in a dry state where drought persisted or a certain level of moisture was not maintained in the surface layer. As a result of laboratory experiment, resin permeable block gives higher surface temperature when it is dry condition than concrete permeable block, but the evaporation of water in the pore is kept constant by capillary force in rainfall simulation condition, and higher temperature reduction rate. As a result of measuring the evaporation rate after laboratory experiment, it is confirmed that the effect of reducing temperature is increased as the evaporation rate of water is higher. Based on these results, correlation formula for evaporation rate and temperature reduction rate is derived.
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再生合成树脂透水砌块表面温度降低效果的实验研究
通过现场测量和室内试验,探讨了降低表面温度对替代现有混凝土透水砌块热岛现象功能方面的影响。现场测量3 d,考虑干、湿两种工况,室内试验分为干工况、降雨模拟工况和湿润工况。验证了实验后温度和水分蒸发速率的变化规律。现场测量结果证实,表面温度的降低是由于孔块表面反照率的差异,而不是由于汽化潜热的冷却作用。在干旱持续或在表层没有保持一定水平的水分的干燥状态下水分的蒸发。室内实验结果表明,树脂透水砌块在干燥状态下的表面温度高于混凝土透水砌块,但在降雨模拟条件下,孔隙中水分的蒸发通过毛细力保持不变,温度降低率更高。通过室内实验后对蒸发速率的测量,证实了随着水的蒸发速率越高,降低温度的效果越好。在此基础上,推导了蒸发速率与温度还原速率的相关公式。
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