用于缓解南部非洲城市热岛的浅色混凝土路面

IF 0.4 4区 工程技术 Q4 ENGINEERING, CIVIL
T. P. Mlilwana, E. Kearsley
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引用次数: 1

摘要

全球人口增长和快速城市化导致了自然地形的快速变化,而这些地形现在主要由工程材料和结构主导。人们普遍认为,经济发展在很大程度上归功于基础设施的发展。然而,这一事态发展带来了不利后果。本文研究了地表特征、气候参数和材料特性对城市热环境和近地表热岛的影响。进行了一项实验,建造了具有不同表面特性的简单混凝土结构并安装了仪器。太阳能吸收率的影响是显而易见的,表面采用低吸收率材料的结构表现出较低的表面和有效温度。根据实验程序,使用有限元建模对简单混凝土结构进行了数值模拟。分析表明,混凝土结构的热环境对太阳吸收率、气候参数、截面尺寸和材料特性的变化很敏感。研究发现,使用低吸收率或高反射性路面以及选择适当的尺寸可以显著降低混凝土基础设施的温度,包括建筑物和路面,从而为使用低吸收性路面材料缓解南部非洲的气候变化提供了证据基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Light-coloured concrete surfacing for urban heat-island mitigation in Southern Africa
Global population growth and rapid urbanisation have resulted in the rapid transformation of natural topographies that are now dominated by engineering materials and structures. It is widely recognised that economic development is largely attributable to infrastructure development. However, this development has come about with adverse consequences. In this paper, the effects of surface characteristics, climatic parameters and material properties on the thermal environment and near-surface heat islands in urban areas were investigated. An experiment was conducted in which simple concrete structures with varying surface characteristics were constructed and instrumented. The effect of solar absorptivity was clearly visible, with structures surfaced with low absorptivity materials exhibiting lower surface and effective temperatures. Following the experimental programme, numerical simulations of the simple concrete structures were performed using finite element modelling. The analyses showed that the thermal environment of concrete structures is sensitive to changes in solar absorptivity, climatic parameters, cross-sectional dimensions, and material properties. It was found that the use of low absorptivity or highly reflective surfacing and the selection of appropriate dimensions can be used to significantly reduce the temperatures of concrete infrastructure, including buildings and pavements, thereby providing an evidential basis for the use of low absorptivity surfacing materials to mitigate climate change in Southern Africa.
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来源期刊
CiteScore
0.70
自引率
25.00%
发文量
19
审稿时长
>12 weeks
期刊介绍: The Journal of the South African Institution of Civil Engineering publishes peer reviewed papers on all aspects of Civil Engineering relevant to Africa. It is an open access, ISI accredited journal, providing authoritative information not only on current developments, but also – through its back issues – giving access to data on established practices and the construction of existing infrastructure. It is published quarterly and is controlled by a Journal Editorial Panel. The forerunner of the South African Institution of Civil Engineering was established in 1903 as a learned society aiming to develop technology and to share knowledge for the development of the day. The minutes of the proceedings of the then Cape Society of Civil Engineers mainly contained technical papers presented at the Society''s meetings. Since then, and throughout its long history, during which time it has undergone several name changes, the organisation has continued to publish technical papers in its monthly publication (magazine), until 1993 when it created a separate journal for the publication of technical papers.
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