工业排放对大气空气质量的影响:数学建模。

IF 3 4区 医学 Q2 ENVIRONMENTAL SCIENCES Reviews on Environmental Health Pub Date : 2023-06-27 DOI:10.1515/reveh-2022-0005
Artem Lukyanets, Dmitry Gura, Olga Savinova, Larisa Kondratenko, Richard Lushkov
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引用次数: 1

摘要

本文介绍了沿正态线在离排放源一定距离处工业排放成分分布过程的建模结果。该模型使用微分扩散方程系统来计算大气中气溶胶、工业气体和细颗粒的浓度分布。为了研究发射体在大气中的传播规律,提出了杂质色散理论。该模型受粒子相互作用的约束。用偏导数方程计算了大气中湍流气流作用下气溶胶和细颗粒物的浓度、惰性杂质的分散和化学活性化合物的分布。通过对比阿拉木图、乌斯特-卡梅诺戈尔斯克、巴甫洛达尔、阿特劳、克拉斯诺达尔、车里雅宾斯克、北京和上海等城市的大气监测数据,验证了数学模型对一系列理论计算的充分性。空气监测数据包括PM10、SO2和NO2水平。得到了地表沿污染源法线方向上辐射源浓度相对值的数学模型解。给出了在0 ~ 200米距离上3 ~ 600分钟时间间隔内计算结果的图解解释。多因素聚类分析表明,阿特劳SO2浓度临界值超过MPC的病例占26.2%。上海市NO2浓度为15.6%,阿拉木图和阿特劳的PM10浓度为16.4%。理论值与官方来源的结果比较表明,算术平均值为49.4 mg/m3,最大值为823.0 mg/m3。标准偏差为48.9 mg/m3。p≤0.005认为结果具有统计学意义。本研究建立的数学模型可用于预测大气状态。
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Industrial emissions effect into atmospheric air quality: mathematical modeling.

This paper presents the results of modeling the distribution process of industrial emission components at specified distances from the emission source along the normal. The model uses a system of differential diffusion equations to compute the concentration profiles of aerosols, industrial gases, and fine particles in the atmosphere. In order to investigate the regularity of the emitter propagation into the atmosphere, a theory of impurity dispersion was developed. The model is constrained by the effect of particle interactions. The partial derivative equations are presented to calculate the concentrations of aerosols and fine particles under the turbulent airflow in the atmosphere, dispersion of inert impurities, and distribution of chemically active compounds. The adequacy of the mathematical model for a series of theoretical calculations was checked by contrasting the data of the atmospheric air monitoring for the cities of Almaty, Ust-Kamenogorsk, Pavlodar, Atyrau, Krasnodar, Chelyabinsk, Beijing, and Shanghai. Air monitoring data included PM10, SO2, and NO2 levels. The mathematical model solutions for the relative values of the emitter concentration in the direction along the normal of the pollution source at the surface were obtained. Graphical interpretation of the calculation results over the 0…200 m distance for time intervals ranging from 3 to 600 min was provided. According to the multiple factor cluster analysis, the critical values of SO2 concentrations in Atyrau exceeded MPC in 26.2% of cases. The level of NO2 for Shanghai was 15.6%, and those for PM10 concentrations in Almaty and Atyrau amounted to 16.4%. A comparison of theoretical values and results obtained from official sources showed arithmetic mean of 49.4 mg/m3 and maximum value of 823.0 mg/m3. Standard deviation comprised 48.9 mg/m3. Results were considered statistically significant at p≤0.005. The mathematical model developed in this study can be used to predict the status of atmospheric air.

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来源期刊
Reviews on Environmental Health
Reviews on Environmental Health Social Sciences-Health (social science)
CiteScore
7.20
自引率
2.60%
发文量
75
期刊介绍: Reviews on Environmental Health (REVEH) is an international peer-reviewed journal that aims to fill the need for publication of review articles on hot topics in the field of environmental health. Reviews on Environmental Health aims to be an inspiring forum for scientists, environmentalists, physicians, engineers, and students who are concerned with aspects of human health, including quality of life, that are determined by physiological and psychosociological interactions between man and physical, chemical, biological, and social factors in the environment. Reviews on Environmental Health is an important niche served by no other journal, that’s being a site where thoughtful reviews can be published on a variety of subjects related to both health and environment. One challenge is to bridge the research on environmental causes of disease with the clinical practice of medicine. Reviews on Environmental Health is a source of integrated information on environment and health subjects that will be of value to the broad scientific community, whether students, junior and senior professionals, or clinicians.
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