城市住区几何形态对室外热条件和舒适度的影响——以印尼泗水甘榜为例

Ronalmanto Ronalmanto, I. N. Antaryama, S. Ekasiwi
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引用次数: 0

摘要

在城市地区,特别是城市住区,行人高度的低热舒适和建筑能源的高使用是两个相互关联的条件。建筑环境的几何形状是一个与位置和舒适度的热条件相关的因素。了解建筑环境的几何形状如何影响条件和热舒适可以是改善热条件和增加热舒适的基础。本研究探讨城市聚落几何形态对城市空间热条件和热舒适的影响。实验共选取10个区块,分为两种区块模型和两种方向,分别为南北和东西方向不同高宽比的区块(H / W = 0.8 ~ 1.5 ~ 2.3)和相同高宽比但左右高度不同的区块(H / W = 1.5 ~ 1.5’~ 1.5”)。采用ENVI-met 3.1程序模拟最高温条件下各街区的工况及热舒适性。研究结果表明,城市住区几何形态对热环境的影响主要有两个因素,即太阳直接辐射接收或遮挡辐射持续时间和风速。影响热条件的几何特征是天空开口的角度和块体朝向来风的方向。这两个特征被认为是影响沉降块体整体热状况和舒适性的主要因素。该研究还证实了高宽比(H/W)是控制砌块热条件和舒适性的主要参数。关键词:紧凑型低层,实验,最热日条件,低洼热带气候区,PET。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of Urban Settlements’ Geometry on Outdoor Thermal Conditions and Comfort: A Case Study of Kampung in Surabaya-Indonesia
In urban areas, especially urban settlements, low thermal comfort at pedestrian height and the high use of building energy are two interrelated conditions. Geometry of built environment is a factor that correlates with thermal conditions of the location and comfort. Understanding how geometry of built environment affects conditions and thermal comfort can be the basis for improving thermal condition as well as increasing thermal comfort. This study examines the influence of urban settlement geometry to thermal conditions and thermal comfort of urban space. An experiment was carried out on ten blocks, consisting of two block models and two orientations: Blocks with Different Height-to-Width Ratio (H / W = 0.8-1.5-2.3) and Blocks with the Same Height-to-Width Ratio but With Different Left-Right Height (H / W = 1.5-1.5'-1.5 "), respectively in the North-South and East-West orientation. The ENVI-met 3.1 program was used to simulate the conditions and thermal comfort of the blocks in the hottest day conditions. The results of this study indicate the geometry of the urban settlement influences two factors or thermal environment, i.e., direct solar radiation reception or block irradiation duration and wind speed. Features of the geometry affecting the thermal conditions are angle of the sky opening and block's orientation towards incoming winds. These two features are regarded as the dominant factor influencing the overall thermal conditions and comfort of the settlement blocks. This study also confirms that hight-width (H/W) ratio as the main parameter governing thermal conditions and comfort of the block. Keywords―Compact Low-Rise, Experimental, Hottest Day Conditions, LowLying Tropical Climate Area, PET.
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