根据表面特征建立环境温度模型,并将城市形态与热不适联系起来

IF 2.2 3区 社会学 Q2 GEOGRAPHY
Kanaya Dutta, Debolina Basu, Sonam Agrawal
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引用次数: 0

摘要

在监测微气候变化、热应力增加、死亡率和能源消耗时,城市热岛评估至关重要。仅仅分析地表温度模式来进行人类舒适度和健康评估往往是不够的。在本研究中,我们试图通过对一个热带大城市的多种地表特征进行环境温度建模来解决这一不足。我们建立了一个基于 336 个数据点的多元线性回归模型来预测夏季最高气温,其平均绝对误差为 0.694°C。利用 Getis-Ord 统计量划分了临界热环境的具体位置。根据我们的结果,在 99% 的置信度下,极端热点每天覆盖全市 10.53%的区域。室外热舒适度指数的应用突出表明,14.67%的研究区域存在非常强烈的热压力区。气温热点与城市内部碳固存的变化相吻合。这一环境参数被用来加强观测结果,因为碳固存将城市化与热环境退化直接联系起来。此外,还对五个城市形态参数进行了分析,得出的结论是,建筑密度和高度是导致气温升高的最重要的城市设计因素。同时绘制的当地气候区图显示,热岛主要集中在中高层建筑区,其中 68.44 平方公里适合垂直和屋顶花园种植。另外 33.29 千米的道路被划定在低层建筑区内,可进行绿化美化,以提高城市的可持续性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ambient temperature modelling from surface characteristics and associating urban morphology with thermal discomfort
Urban heat island assessment is of paramount importance when monitoring microclimate changes, increased heat stress, mortality and energy consumption. Simply analysing land surface temperature patterns for human comfort and health assessment is often inadequate. In this study, we attempt to resolve this inadequacy with ambient temperature modelling from multiple surface characteristics for a tropical megacity. A 336 datapoint-based multilinear regression model was formulated to predict the maximum summer air temperature with a mean absolute error of 0.694°C. Specific locations of critical thermal environments were demarcated with Getis-Ord statistic. Based on our results, extreme hotspots covered 10.53 per cent of the city on a daily basis at 99 per cent confidence level. The application of an outdoor thermal comfort index highlighted the existence of very strong heat stress zones over 14.67 per cent of the study area. The air temperature hotspots were verified with intra-urban variation in carbon sequestration. This environmental parameter was used to strengthen the observed results since, carbon sequestration directly links urbanization with degradation of thermal environments. Further, five urban morphological parameters were analysed to conclude that building density and height were the most significant urban design factors leading to increased air temperature. Simultaneous local climate zone mapping depicted that heat islands were dominated by mid and high-rise built-up areas, of which 68.44 km2 of that area is suitable for vertical and roof gardening. Another 33.29 km of road stretch was delineated within low-rise built-up areas with scope for green landscaping to improve urban sustainability.
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来源期刊
CiteScore
4.30
自引率
9.10%
发文量
54
期刊介绍: The Singapore Journal of Tropical Geography is an international, multidisciplinary journal jointly published three times a year by the Department of Geography, National University of Singapore, and Wiley-Blackwell. The SJTG provides a forum for discussion of problems and issues in the tropical world; it includes theoretical and empirical articles that deal with the physical and human environments and developmental issues from geographical and interrelated disciplinary viewpoints. We welcome contributions from geographers as well as other scholars from the humanities, social sciences and environmental sciences with an interest in tropical research.
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