Influencing Factors on Airflow and Pollutant Dispersion around Buildings under the Combined Effect of Wind and Buoyancy—A Review

Wu, Mei Yi; Zhang, Guangwei; Wang, Liping; Liu, Xiaoping; Wu, Zhengwei

doi:10.3390/ijerph191912895

Cited by 16 publications

(5 citation statements)

References 173 publications

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“…Understanding the interplay between wind speed, wind direction, and pollutant dispersion is essential for effective urban planning and air quality management [59,[61][62][63][64][65][66]. The geometry of urban canyons and building surfaces can impact pollutant dispersion, while the "urban heat island" effect and wind patterns within canyons also influence VOC distribution; additionally, the degradation of VOCs can lead to ozone formation, with temperature playing a pivotal role in ozone concentration, as demonstrated by spatial and temporal analyses across the three locations [67][68][69][70]. Additionally, our findings highlight the importance of considering local meteorological factors in assessing air pollution levels.…”

Section: Discussionmentioning

confidence: 99%

Temporal Variations in Urban Air Pollution during a 2021 Field Campaign: A Case Study of Ethylene, Benzene, Toluene, and Ozone Levels in Southern Romania

Petrus,

Popa,

Bratu

2024

Sustainability

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This study focused on quantifying the gas concentrations of ethylene, benzene, toluene, and ozone within an urban area in the southern region of Romania. The gas sampling campaign, conducted between March and August 2021, took place in three different locations from the point of view of the architectural structure, and the sampling height was 1.5 m. Sampling occurred on weekdays (Monday through Friday) during daylight hours, with subsequent concentration analysis employing descriptive statistics, diurnal cycles, and seasonal assessments. A highly sensitive and selective detector, employing laser photoacoustic spectroscopy, was utilized to monitor pollutants. The average concentrations (±Standard Deviation) were determined as follows: ethylene at 116.82 ± 82.37 parts per billion (ppb), benzene at 1.13 ± 0.32 ppb, toluene at 5.48 ± 3.27 ppb, and ozone at 154.75 ± 68.02 ppb, with peak levels observed during the summer months. Diurnal patterns were observable for ethylene, benzene, and toluene, exhibiting higher concentrations during the early hours of the day followed by a decrease towards the evening. In contrast, ozone concentrations peaked in the evening compared to the early part of the day. Thus, perceptible effects were demonstrated on gas concentrations as a result of the influence of meteorological variables. Moreover, the high toluene/benzene ratio indicated traffic and industrial emissions as primary sources of these pollutants. Of the four gases monitored, benzene and ozone exceeded regulatory limits, particularly during the summer season, highlighting concerns regarding air quality in the studied urban environment.

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Section: Discussionmentioning

confidence: 99%

Temporal Variations in Urban Air Pollution during a 2021 Field Campaign: A Case Study of Ethylene, Benzene, Toluene, and Ozone Levels in Southern Romania

Petrus,

Popa,

Bratu

2024

Sustainability

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“…Wind speed also affects this distribution, where the greater it is, the lower the concentration [37]. The wind speed near the chimneys tends to be faster than in the cliff area because it is blocked by the walls [38]. Based on the emission distribution map above, the wind tends to blow from east to west, as seen from the red color on the map, most of which are in the western part.…”

Section: Parametermentioning

confidence: 99%

Modelling of Air Pollution Dispersion in the Utilization of Used Oil as a Fuel

Purwanto,

Susanto,

Hasari

et al. 2024

E3S Web Conf.

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The need for quicklime has led to increased utilization of used oil as a substitute for fuel in its combustion process. Mahaka Lime Factory produces SO2 and NOX, which are emitted through the chimney and proportional to lime burning. Therefore, it is necessary to monitor the distribution of the emission concentration in the ambient air. One of the methods used to facilitate the monitoring process to ensure it is kept below the quality standard is dispersion modeling. This is an analytical model processed with the help of AERMOD software and the Gaussian equation. The SO2 concentrations of 0.001 mg/m3 and 0.001 mg/m3, as well as NOX of 0.027 mg/m3 and 0.044 mg/m3 obtained from the calculation, were below the applicable quality standard. Furthermore, emission concentrations directly observed were more significant than the Gaussian modeling results due to the presence of other pollutants around the factory. In conclusion, the dispersion modeling using AERMOD software showed that the largest and lowest distribution of emission concentrations are in the cliff area around the emission source and on the ground surface close to the chimney.

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“…In stable atmospheres, pollutants are more likely to be trapped near the surface, resulting in higher concentrations. In unstable atmospheres, pollutants are more likely to be dispersed throughout the atmosphere, resulting in lower concentrations at the surface [31]. The boundary layer height is the height of the lowest layer of the atmosphere, where most of the human activity and pollution takes place.…”

Section: Additional Datamentioning

confidence: 99%

NO2 Concentration Estimation at Urban Ground Level by Integrating Sentinel 5P Data and ERA5 Using Machine Learning: The Milan (Italy) Case Study

Cedeno Jimenez,

Brovelli

2023

Remote Sensing

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The measurement of atmospheric NO2 pollution concentrations has become a critical topic due to its impact on human health. Ground sensors are the most popular method for measuring atmospheric pollution, but they can be expensive to purchase, install, and maintain. In contrast, satellite technology offers global coverage but typically provides concentration estimates at the tropospheric level, not at the ground level where most human activities take place. This work presents a model that can be used to estimate NO2 ground-level concentrations in metropolitan areas using Sentinel-5P satellite images and ERA5 meteorological data. The primary goal is to offer a cost-effective solution for Low- and Medium-Income Countries (LMICs) to assess air quality, thereby addressing the air quality measurement constraints. To validate the model’s accuracy, study points were selected in alignment with the Regional Agency for the Environment Protection (ARPA) NO2 sensor network in the Metropolitan City of Milan. The results showed that the RMSE of the model estimations was significantly lower than the standard deviation of the real measurements. This work fills the gaps in the literature by providing an accurate estimation model of NO2 in the Metropolitan City of Milan using both satellite data and ERA5 meteorological data. This work presents as an alternative to ground sensors by enabling more regions to assess their air quality effectively.

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Influencing Factors on Airflow and Pollutant Dispersion around Buildings under the Combined Effect of Wind and Buoyancy—A Review

Cited by 16 publications

References 173 publications

Temporal Variations in Urban Air Pollution during a 2021 Field Campaign: A Case Study of Ethylene, Benzene, Toluene, and Ozone Levels in Southern Romania

Temporal Variations in Urban Air Pollution during a 2021 Field Campaign: A Case Study of Ethylene, Benzene, Toluene, and Ozone Levels in Southern Romania

Modelling of Air Pollution Dispersion in the Utilization of Used Oil as a Fuel

NO2 Concentration Estimation at Urban Ground Level by Integrating Sentinel 5P Data and ERA5 Using Machine Learning: The Milan (Italy) Case Study

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