懸浮微粒在自然通風建築物內外的傳輸模擬;Numerical Simulation of Transport Process of Particulate Matters in Naturally Ventilated Buildings

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Title:	懸浮微粒在自然通風建築物內外的傳輸模擬;Numerical Simulation of Transport Process of Particulate Matters in Naturally Ventilated Buildings
Authors:	楊凱傑;Yang, Kai-Jie
Contributors:	土木工程學系
Keywords:	自然通風;室內空氣品質;懸浮微粒;街谷;移除機制;Natural ventilation;Indoor Air Quality;Particulate matter;Street Canyon;Removal rate
Date:	2021-07-14
Issue Date:	2021-12-07 14:52:31 (UTC+8)
Publisher:	國立中央大學
Abstract:	建築物內外的空氣交換可帶入室外的空氣，稀釋掉室內的空氣污染物，改善室內的空氣品質。然而室外空氣也有可能帶著汙染物進入室內，其中懸浮微粒就是其中一項評估空氣品質的因子，為了瞭解粒狀汙染物是如何由室外進入室內，以及在室內的停留、離開等情況如何進行，必須對建築物通風與汙染物傳輸機制有更深入的瞭解。本研究採用流體動力學模式研究建築物自然通風與外部汙染物傳輸之間的關係。模擬流況以貫流通風為主研究成果顯示當室外顆粒汙染源愈靠近建築物汙染物進入室內的比例由增加至。當建築物長度增加，通風量隨之減少，室外汙染物進入室內的比例下降；當汙染源位置距離建築物的長度減少，顆粒汙染物進入室內的比例隨之增加。當汙染源位於街谷中隨著間距的增加，下風處的建築物的通風量也隨之增加。當建築物間距 S/H = 2時，建築物間的風速十分微弱，顆粒汙染物在街谷中停留時間變長，顆粒有較高的機率進入建築物。但當建築物間距 S/H ? 4時隨著間距的增加顆粒汙染物進入下風處的建築物內部的比例增加。;The natural ventilation of buildings can bring in the fresh air, dilute indoor air pollutants, and improve indoor thermal comfort. However, outdoor air may also bring pollutants into the buildings. The particular matter is one of the pollutants that could significantly affect indoor air quality. Therefore, it is necessary to have a deeper understanding of the relationship between natural ventilation and pollutant transport mechanisms. This study uses a computational fluid dynamics (CFD) model to investigate how the outdoor particulate pollutants enter naturally ventilated buildings. The research results show that and the ventilation rate and the entrance rate of outdoor PM pollutants decrease when the length of the building increases. In addition, the deposition rate of indoor PM2.5 rises with the increasing building length due to the stagnant air inside the long buildings. Furthermore, when the pollution source is located in the street canyon, the ventilation rate of downwind buildings and the entrance rate of PM pollutants decrease as the building spacing S decreases. But when the building spacing S/H = 2, the wind speed between buildings is very weak, the PM pollutants stay in the street canyons longer, and the pollutants have a higher chance of entering the building.
Appears in Collections:	[Graduate Institute of Civil Engineering] Electronic Thesis & Dissertation

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