使用带有风洞的密闭室从模拟城市绿地中重新扬起的颗粒物。

Particulate matter resuspension from simulated urban green floors using a wind tunnel-mounted closed chamber.

机构信息

Department of Applied Environmental Science, Kyung Hee University, Yongin, Republic of Korea.

Urban Forests Division, National Institute of Forest Science, Seoul, Republic of Korea.

出版信息

PeerJ. 2023 Feb 8;11:e14674. doi: 10.7717/peerj.14674. eCollection 2023.

DOI:10.7717/peerj.14674

PMID:36785709

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9921991/

Abstract

BACKGROUND

Green areas are thought to reduce particulate matter (PM) concentrations in urban environments. Plants are the key to PM reduction via various mechanisms, although most mechanisms do not lead to the complete removal of PM. Ultimately, PM falls into the soil via wind and rainfall. However, the fallen PM can re-entrain the atmosphere, which can affect plants capacity to reduce PM. In this study, we simulated an urban green floor and measured the resuspension of PM from the surface using a new experimental system, a wind tunnel-mounted closed chamber.

METHODS

The developed system is capable of quantifying the resuspension rate at the millimeter scale, which is measured by using the 1 mm node chain. This is adequate for simulating in situ green floors, including fallen branches and leaves. This addressed limitations from previous studies which focused on micrometer-scale surfaces. In this study, the surfaces consisted of three types: bare sand soil, broadleaves, and coniferous leaves. The resuspended PM was measured using a light-scattering dust detector.

RESULTS

The resuspension rate was highest of 14.45×10 s on broad-leaved surfaces and lowest on coniferous surfaces of 5.35×10 s ( < 0.05) and was not proportional to the millimeter-scale surface roughness measured by the roller chain method. This might be due to the lower roughness density of the broad-leaved surface, which can cause more turbulence for PM resuspension. Moreover, the size distribution of the resuspended PM indicated that the particles tended to agglomerate at 2.5 µm after resuspension.

CONCLUSION

Our findings suggest that the management of fallen leaves on the urban green floor is important in controlling PM concentrations and that the coniferous floor is more effective than the broadleaved floor in reducing PM resuspension. Future studies using the new system can be expanded to derive PM management strategies by diversifying the PM types, surfaces, and atmospheric conditions.

摘要

背景

人们认为绿色区域可以降低城市环境中的颗粒物（PM）浓度。植物是通过各种机制减少 PM 的关键，尽管大多数机制并不能完全去除 PM。最终，PM 会通过风和降雨落入土壤中。然而，落下的 PM 可以重新进入大气，这会影响植物减少 PM 的能力。在这项研究中，我们模拟了一个城市绿地，并使用新的实验系统——风洞安装的封闭室来测量表面 PM 的再悬浮。

方法

所开发的系统能够在毫米尺度上量化再悬浮率，这是通过使用 1 毫米节点链来测量的。这足以模拟现场的绿色地板，包括落下的树枝和树叶。这解决了之前研究的局限性，之前的研究集中在微米尺度的表面。在这项研究中，表面包括三种类型：裸沙土、阔叶和针叶。使用光散射尘埃探测器测量再悬浮的 PM。

结果

阔叶表面的再悬浮率最高，为 14.45×10 s，而针叶表面的再悬浮率最低，为 5.35×10 s（<0.05），且与滚子链法测量的毫米尺度表面粗糙度不成比例。这可能是由于阔叶表面的粗糙度密度较低，这会导致更多的湍流来促进 PM 的再悬浮。此外，再悬浮 PM 的粒径分布表明，颗粒在再悬浮后趋于在 2.5 µm 处聚集。

结论

我们的研究结果表明，城市绿地中落叶的管理对于控制 PM 浓度很重要，而且与阔叶表面相比，针叶表面在减少 PM 再悬浮方面更有效。未来使用新系统的研究可以通过多样化 PM 类型、表面和大气条件来扩展到制定 PM 管理策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6f96/9921991/f90292a8b2c8/peerj-11-14674-g001.jpg

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使用带有风洞的密闭室从模拟城市绿地中重新扬起的颗粒物。

Particulate matter resuspension from simulated urban green floors using a wind tunnel-mounted closed chamber.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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