Efficiency of urban greening systems with maximized latent heat effect in urban heat island and climate change mitigation

Q2 Environmental Science
Seunghwan Park , Eun-Sub Kim , Seok-Hwan Yun , Dong-Kun Lee
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Abstract

Street, wall, and rooftop greening systems are essential for urban heat reduction and carbon neutrality. In this study, we compared the temperature-reducing effect of current and developed technologies that maximize the latent heat of evaporation through such greening systems. A research site with the maximum urban heat island effect was selected by analyzing the vulnerability of Suwon City, Korea. The latent heat of evaporation for each method was determined by conducting actual measurements and verified by performing computational fluid dynamics simulations. Based on the results of statistical techniques, the validated model was highly reliable. When developed technologies were applied, the temperature of the entire city was reduced by approximately 2 °C. Compared with the existing street greening system, the developed technology achieved a temperature reduction effect even at a distance of 5 m. Current wall greening systems only have a temperature reduction effect at 1 m, but that of the developed technology was approximately 1 °C even at a distance of 2 m. The existing rooftop greening system had a temperature reduction effect only at the height of 1.2 m, whereas that of the developed technology was effective even at 6 m, contributing to a reduction in the temperature of the entire city.

潜热效应最大化的城市绿化系统在缓解城市热岛和气候变化方面的效率
街道、墙壁和屋顶绿化系统对于减少城市热量和实现碳中和至关重要。在本研究中,我们比较了通过此类绿化系统最大限度利用蒸发潜热的现有技术和已开发技术的降温效果。通过分析韩国水原市的脆弱性,我们选择了一个城市热岛效应最大的研究地点。通过实际测量确定了每种方法的蒸发潜热,并通过计算流体动力学模拟进行了验证。根据统计技术的结果,验证后的模型非常可靠。应用所开发的技术后,整个城市的温度降低了约 2 °C。与现有的街道绿化系统相比,开发的技术即使在 5 米的距离上也能达到降温效果;现有的墙面绿化系统仅在 1 米处有降温效果,而开发的技术即使在 2 米的距离上也能达到约 1 ℃ 的降温效果;现有的屋顶绿化系统仅在 1.2 米的高度上有降温效果,而开发的技术即使在 6 米的高度上也能达到降温效果,为降低整个城市的温度做出了贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Environmental Challenges
Environmental Challenges Environmental Science-Environmental Engineering
CiteScore
8.00
自引率
0.00%
发文量
249
审稿时长
8 weeks
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