Using urban form to increase the capacity of cities to manage noise and air quality

Pub Date : 2023-03-20 DOI:10.51347/um27.0003
M. Berghauser Pont, Jens Forssén, M. Haeger-Eugensson, Andreas Gustafson, Niklas Rosholm
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Abstract

The top two environmental factors adversely affecting human health in Europe are air and noise pollution, with road traffic being the largest source. Urban density plays an important role in reducing car traffic. However, the benefits of reduced emissions per capita can still mean higher emissions locally, because of the number of people in the area. Therefore, this paper investigates how morphological parameters influence the local distribution of noise and air pollution. A parametric approach, based on the Spacematrix method, is used to study the impact of morphological parameters on the distribution of air and noise pollution, controlling for traffic mode, flows and speed. To compare the impact of exposure to noise and air pollution, their respective health burden is calculated using disability- adjusted life years (DALYs). The results, based on 31 models of different forms, show that the degree of openness greatly affects performance with opposite effects for noise and air pollution. Building types with slightly open yards, like open corner blocks, may provide an attractive compromise solution due to their relatively good noise exposure situation at the same time as the dispersion of air pollutants improves. Adding sound absorbing vegetation is an effective measure to mitigate noise, especially for blocks with openings, limiting the propagation of sound into the yard. Further, densification is beneficial for health if the increase in density does not increase traffic volume in the same proportion. Densification by adding towers on a perimeter building block gives the best results for health as it combines a less noisy yard, thanks to the enclosure of the yard with towers, which enhances turbulent mixing of air within the street canyon.
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利用城市形态,提高城市噪声和空气质量管理能力
在欧洲,对人类健康造成不利影响的前两大环境因素是空气和噪音污染,其中道路交通污染是最大的来源。城市密度在减少汽车交通方面起着重要作用。然而,由于该地区人口众多,人均排放量减少的好处仍可能意味着当地排放量的增加。因此,本文研究形态参数如何影响噪声和空气污染的局部分布。基于空间矩阵方法的参数化方法研究了形态参数对空气和噪声污染分布的影响,并对交通方式、流量和速度进行了控制。为了比较暴露于噪音和空气污染的影响,使用残疾调整生命年(DALYs)计算各自的健康负担。基于31种不同形式的模型的结果表明,开放程度对性能有很大影响,对噪音和空气污染有相反的影响。稍微开放的院子的建筑类型,如开放的角落街区,可能提供一个有吸引力的折衷解决方案,因为它们的噪音暴露情况相对较好,同时空气污染物的分散也有所改善。增加吸声植被是减少噪音的有效措施,特别是对于有开口的街区,限制了声音传播到院子里。此外,如果密度的增加不以相同的比例增加交通量,密度化对健康是有益的。通过在周边建筑块上增加塔楼的致密化,为健康提供了最好的结果,因为它结合了一个较少噪音的庭院,这要归功于庭院与塔楼的封闭,这增强了街道峡谷内空气的湍流混合。
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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