Numerical Simulation of Dispersion Patterns and Air Emissions for Optimal Location of New Industries Accounting for Environmental Risks

Pollutants Pub Date : 2022-11-02 DOI:10.3390/pollutants2040030

A. Bseibsu, C. Madhuranthakam, K. Yetilmezsoy, A. Almansoori, A. Elkamel

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引用次数: 3

Abstract

One of the main reasons for air pollution is industrial plants releasing huge amounts of air pollutants in the form of gas emissions. The different chemical pollutants and their corresponding levels present in these emissions, and their proximity to the industrial source, have serious effects on the nearby ecosystems. Some of the industrial nuisances include noise, smoke, dirt, dust, odor and noxious gases, which have to be minimized (if possible, eliminated), especially if the location is desired to be used as a community site. When choosing locations at which to build either new industrial plants or new community sites, software can be used to assess both the short-term and long-term concentration profiles of the various detrimental air pollutants. In this study, the AERMOD model was used to find an optimal location to build a new plant in Toledo, Ohio, USA. Simulations were performed to study the pollutant emissions and their dispersion patterns for four different geographic locations situated away from an existing plant in this region. The AERMOD model, along with the IRAP-h View model, which is approved by the US Environmental Protection Agency (EPA), has been successfully used to assess the fate and transport of pollutants from the proposed new industrial plants. The hazard quotients from the analysis of the results for these four different geographic locations were assessed. The highest total non-cancer hazard indices of 18.7 and 13.2 were obtained for fisher adult and fisher child, respectively, in one of the four locations. The acute inhalation quotient risk was less than the target hazard index of 0.25 for all the four locations. With respect to the concentrations of several chemicals of potential concern (COPC), such as soil, produce, beef, chicken, milk and pork, the fourth location (farthest east) recorded the minimum range values compared to the other three locations.

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考虑环境风险的新产业最优选址扩散模式与排放数值模拟

空气污染的主要原因之一是工业工厂以气体排放的形式释放大量的空气污染物。这些排放物中存在的不同化学污染物及其相应水平，以及它们与工业源的接近性，对附近的生态系统产生了严重影响。一些工业滋扰包括噪音、烟雾、污垢、灰尘、气味和有毒气体，必须尽量减少(如果可能的话，消除)，特别是如果该地点希望用作社区场地。在选择建设新工厂或新社区的地点时，可以使用软件来评估各种有害空气污染物的短期和长期浓度分布。本研究采用AERMOD模型在美国俄亥俄州托莱多市寻找新建工厂的最佳选址。模拟研究了该地区远离现有工厂的四个不同地理位置的污染物排放及其扩散模式。AERMOD模型和美国环境保护署(EPA)批准的IRAP-h View模型已经成功地用于评估拟议中的新工业工厂污染物的命运和运输。对这四个不同地理位置的分析结果进行了危害商评估。渔民成人和渔民儿童的总非癌危害指数最高，分别为18.7和13.2。4个地点的急性吸入商风险均小于0.25的目标危害指数。关于几种潜在关注化学品(COPC)的浓度，如土壤、农产品、牛肉、鸡肉、牛奶和猪肉，与其他三个地点相比，第四个地点(最东端)记录的范围值最小。

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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Pollutants

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