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7. Characteristics and assessment of exposure to microplastics through inhalation in indoor air of hospitals.

Author

Niari, Maryam Hazrati, Ghobadi, Hassan, Amani, Mojtaba, Aslani, Mohammad Reza, Fazlzadeh, Mehdi, Matin, Somaieh, Takaldani, Ali Hossein Samadi, and Hosseininia, Saeed

Abstract

The concern about microplastics is increasing due to their adverse effects on human health and environmental pollution. This study identified microplastics in the indoor air of hospitals in different departments, including laboratory, physiotherapy, endoscopy, and emergency departments, as well as in outdoor air around hospitals. Additionally, we assessed exposure to microplastics through inhalation. A total of 56 samples of indoor air and 14 samples of outdoor air were collected and analyzed. Microplastics were identified in indoor and outdoor air of hospitals with mean values of 29.75 ± 8.28 and 2.2 ± 0.95 MPs/m3, respectively. The highest abundance of microplastics was found in the indoor air of the laboratory department (33.13 ± 4.98 MPs/m3), followed by physiotherapy (31.49 ± 3.81 MPs/m3), emergency (28.08 ± 3.28 MPs/m3), and endoscopy (26.74 ± 3.09 MPs/m3) departments, respectively. PET and PP were the predominant polymer compounds of microplastics in indoor and outdoor air, respectively. The mean values of daily exposure to microplastics through inhalation in indoor and outdoor air in hospitals were157.18 ± 54.64 and 12.23 ± 5.51 MPs/day, respectively. We conclude that exposure to microplastics through inhalation may increase health risks to individuals, necessitating further investigation. [ABSTRACT FROM AUTHOR]

Published
2025
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8. Indoor Polycyclic Aromatic Hydrocarbons—Relationship to Ambient Air, Risk Estimation, and Source Apportionment Based on Household Measurements.

Author

Lovrić, Mario, Račić, Nikolina, Pehnec, Gordana, Horvat, Tajana, Lovrić Štefiček, Marija Jelena, and Jakovljević, Ivana

Subjects
*HEALTH risk assessment, *AIR quality management, *AIR quality, *PARTICULATE matter, *LIQUID fuels, *INDOOR air quality, *POLLUTION source apportionment, *POLYCYCLIC aromatic hydrocarbons
Abstract

Polycyclic aromatic hydrocarbons (PAH) are key components of particulate matter (PM) in terms of the toxicological risk of polluted air. Although commonly monitored in ambient air, PAHs are also present in indoor air, making the measurement of indoor PAH content essential for understanding the health risks associated with indoor environments. This study presents findings from measurements conducted across 37 households where children resided, using 7-day sampling campaigns to collect PM1. The health risk assessment methods are detailed herein, along with a source apportionment analysis to explore the associations with potential sources and differences from ambient air concentrations. Additionally, the incremental lifetime cancer risk (ILCR) was calculated to assess long-term health risks associated with exposure to indoor PAHs. The results showed consistently higher PAH concentrations in outdoor environments (from 0.079 ng m−3 for dibenzo(a,h)anthracene to 1.638 ng m−3 for benzo(b)fluoranthene) compared to indoor environments (from 0.029 ng m−3 for dibenzo(a,h)anthracene to 0.772 ng m−3 for indeno(1,2,3-cd)pyrene), suggesting significant transfer of PAHs from outdoor to indoor air. The source apportionment analysis indicated that traffic emissions, fossil fuel combustion, and residential heating were the predominant sources of PAHs in both environments, with the concentration of indoor PAHs largely influenced by gasoline and liquid fossil fuel combustion. The diagnostic ratios supported these findings, with coal and biomass as additional sources impacting outdoor PAH levels. The ILCR analysis revealed that the exposure levels for both children (indoors at 1.78 × 10−5, outdoors at 1.92 × 10−6) and adults (indoors at 1.15 × 10−5, outdoors at 1.24 × 10−6) remained below the U.S. EPA's risk threshold, suggesting limited carcinogenic risk under typical household conditions in this study. These findings emphasize the complexity of PAH distribution between indoor and outdoor environments, illustrating how urban outdoor pollution sources contribute to indoor air quality and highlighting the relevance of effective air quality management strategies. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Pollution of the environment and building interiors during asbestos removal as a result of lack of negative pressure in the working areas

Author

Andrzej Obmiński

Subjects
Asbestos, Building materials, Indoor air, Outdoor air, Contamination, Airborne asbestos fibre, Medicine, Science
Abstract

Abstract The paper presents examples of the consequences of the lack of negative pressure in the work zone during asbestos removal. The asbestos fibre concentrations generated in those work zones were relatively low. This was due to the leakage in barriers restricting the work zone. Therefore the asbestos content in the outside air, near the renovated rooms was increasing. In the cases discussed, these works resulted in short-term pollution of the building's outdoor air to a depth of up to 15 m. Such contamination can cover the entire interior of the building. This may lead to long-term retention of asbestos fibre in the facility, despite the completion of asbestos removal. For example, non-friable asbestos-cement sheets removal in those work conditions increased indoor air by contamination up to 3000 f/m3 (outside the work zone). In the case of removing friable asbestos inside the building type “LIPSK”, indoor air contamination locally was up 21,000–51,000 f/m3, and outside the work zone to 18,000–28,900 f/m3. These values are above the average concentration of asbestos fibres in the same type of buildings (

Published
2024
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10. Bacterial Aerosol in Ambient Air—A Review Study.

Author

Brągoszewska, Ewa and Mainka, Anna

Subjects
HEALTH risk assessment, AIR pollutants, PARTICULATE matter, ENVIRONMENTAL management, INDOOR air quality, MICROBIOLOGICAL aerosols
Abstract

Bioaerosols, including airborne bacteria, are significant pollutants affecting both indoor and outdoor air quality, with implications for human health. Despite extensive research on indoor air quality, there is a notable lack of comprehensive data on ambient bacterial concentrations and their interactions with pollutants and meteorological factors. This review focuses on bacterial aerosols in the atmosphere, measured using the culture-based method, considered the "gold standard" for microorganism detection and identification. Studies reveal significant variability in bacterial concentrations across different environments and seasons, influenced by factors such as temperature, humidity, wind speed, solar radiation, and precipitation, underscoring the need for further research and monitoring to enhance health risk assessments and mitigation strategies. The presence of air pollutants such as particulate matter (PM) and ozone (O3) further complicates these dynamics. The authors emphasize the need for more extensive research on outdoor bacterial aerosols and recommend that future studies prioritize detailed bioaerosol characterization to establish comprehensive exposure standards in ambient air, thereby improving public health protection and environmental management practices. [ABSTRACT FROM AUTHOR]

Published
2024
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11. A systematic review of airborne microplastics emissions as emerging contaminants in outdoor and indoor air environments

Author

Zahra Noorimotlagh, Philip K. Hopke, and Seyyed Abbas Mirzaee

Subjects
Microplastics, Systematic review, Airborne transmission, Indoor air, Outdoor air, Environmental pollution, TD172-193.5
Abstract

Microplastics (MPs), the emerging contaminants of the present century, are potentially a major threat to human health and ecology. There is currently no comparison of the properties of MPs in indoor and outdoor air. Thus, there is a need a systematic review (SR). The goals of this study were to answer the following questions: (1) what are the geographical distribution, sources, abundances, and characteristics (polymer, type, shape, color, size) of MPs in outdoor and indoor air? (2) What are the limitations of the published studies and recommendations for future research? To achieve these objectives, four electronic databases were searched to find works published before December 31, 2022. In total, 37 publications were selected based on the PRISMA guidelines. The study found that polyester and polyethylene terephthalate were the most dominant polymer types in outdoor and indoor environments, respectively. The most important indoor sources for MPs included synthetic textiles, kitchen plastic utensils, synthetic fiber carpets, detergents, and furniture, while the most important sources for outdoor MPs include industrial emissions, particulate emissions from vehicles, burning of plastic waste, the expulsion of air bubbles and wave action in ocean and decomposition and destruction of plastic materials. Fibers were the dominant shape of airborne MPs in both environments. The predominant colors of the MPs in samples of the indoor air were white and transparent, whereas black was most abundant in the microplastic samples collected from the air outside the building. Finally, given the ubiquitous nature of MPs and their potential for adverse effects, governments should take effective measures to reduce the production of plastic materials and finally increase plastics reuse, and recycling rate.

Published
2024
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12. Occurrence of Microplastics in the Atmosphere: An Overview on Sources, Analytical Challenges, and Human Health Effects.

Author

Carriera, Fabiana, Di Fiore, Cristina, and Avino, Pasquale

Subjects
*PARTICULATE matter, *NAIL salons, *ALVEOLAR macrophages, *MICROPLASTICS, *CITIES & towns
Abstract

The rapid spread and accumulation of microplastics (MPs) in environmental ecosystems result from extensive plastic usage. MPs have been found in both indoor and outdoor air. Outdoor MP levels vary widely across global cities, with reported ranges from 36 to 118 MPs m−2 day−1. However, differing measurement units complicate comparisons. Indoor MPs are particularly concerning due to the significant amount of time people spend indoors. For instance, MP concentrations in workplaces like reception areas and nail salons were found to be 309 ± 214 and 46 ± 55 MPs m−3, respectively. Technological limitations hinder the identification of MPs, with methods like µ-ATR-FTIR, µ-FTIR, and µ-Raman identifying MPs of different sizes. MPs smaller than 0.3 µm pose a health risk as they can be internalized in lung cells, while MPs larger than 10 µm are too large to enter alveolar macrophages. This review highlights the current understanding of airborne MPs, focusing on their sources, transport, and deposition mechanisms. It aims to provide a foundation for further studies to deeply assess the presence, abundance, and occurrence of MPs in aerosols, a subject that remains underexplored. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Determination of Culturable Airborne Mold on Dusty Days in an Urban Atmosphere in the Eastern Mediterranean

Author

Palaz, Elif, Elbir, Tolga, Menteşe, Sibel, Bayram, Abdurrahman, Kara, Melik, Pisello, Anna Laura, Editorial Board Member, Hawkes, Dean, Editorial Board Member, Bougdah, Hocine, Editorial Board Member, Rosso, Federica, Editorial Board Member, Abdalla, Hassan, Editorial Board Member, Boemi, Sofia-Natalia, Editorial Board Member, Mohareb, Nabil, Editorial Board Member, Mesbah Elkaffas, Saleh, Editorial Board Member, Bozonnet, Emmanuel, Editorial Board Member, Pignatta, Gloria, Editorial Board Member, Mahgoub, Yasser, Editorial Board Member, De Bonis, Luciano, Editorial Board Member, Kostopoulou, Stella, Editorial Board Member, Pradhan, Biswajeet, Editorial Board Member, Abdul Mannan, Md., Editorial Board Member, Alalouch, Chaham, Editorial Board Member, Gawad, Iman O., Editorial Board Member, Nayyar, Anand, Editorial Board Member, Amer, Mourad, Series Editor, Ksibi, Mohamed, editor, Sousa, Arturo, editor, Hentati, Olfa, editor, Chenchouni, Haroun, editor, Lopes Velho, José, editor, Negm, Abdelazim, editor, Rodrigo-Comino, Jesús, editor, Hadji, Riheb, editor, Chakraborty, Sudip, editor, and Ghorbal, Achraf, editor

Published
2024
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15. Outdoor Assessment of Airborne Microorganisms During the COVID-19 Outbreak in Madinah City, KSA

Author

Hibah M. Albasri and Sultan M. Alsharif

Subjects
covid-19, lockdown measures, outdoor air, air quality, airborne bacteria, airborne fungi, anthropogenic activities, Microbiology, QR1-502
Abstract

The COVID-19 outbreak was a serious challenge for countries around the globe. With the objective of mitigating the spread of the virus, both national and international health organizations swiftly enacted quarantine measures across numerous cities around the globe. This presented a unique chance to evaluate the consequences of human actions on the quality of the air. This study aimed to investigate airborne microbial levels in different outdoor locations in Al-Madinah City, Kingdom of Saudi Arabia (KSA), during the COVID-19 pandemic by comparing lockdown against non-lockdown conditions. Twelve outdoor locations were investigated in terms of microbial total counts using the open plate method during and after the COVID-19 lockdown. Environmental factors that could affect the airborne microbial load, including humidity, temperature and wind speed, were recorded during the assessment. The means of the total colony-forming units (CFU) for each cubic meter (m3) of air were calculated. Lockdown restrictions caused significant decreases in the biological contaminants in all locations compared with the numbers after the pandemic. Gram-positive bacteria represented most of the samples, with fewer fungal strains detected. The outdoor average total bacterial counts ranged between 0.00±0.00-8337.50±248.98 CFU/m3, compared with 2903.75±407.60-19722.50±475.03 CFU/m3 after the pandemic. The mean concentrations of total fungi were lower than those of bacteria and ranged between 0.00±0.00-143.75±131.75 CFU/m3 during the COVID-19 lockdown and were elevated after the lockdown to reach 28.75±49.80-776.25±298.78 CFU/m3. Based on the available data, there are no studies comparing outdoor microbial counts during and after the COVID-19 pandemic. Therefore, this research offers additional perspectives on the air quality experienced amidst the COVID-19 pandemic and the subsequent implementation of lockdown measures and could serve as a valuable resource for monitoring and implementing measures to control air pollution.

Published
2024
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16. Outdoor Assessment of Airborne Microorganisms During the COVID-19 Outbreak in Madinah City, KSA.

Author

Albasri, Hibah M. and Alsharif, Sultan M.

Subjects
COVID-19 pandemic, AIR pollution control, CITIES & towns, VIRAL transmission, STAY-at-home orders
Abstract

The COVID-19 outbreak was a serious challenge for countries around the globe. With the objective of mitigating the spread of the virus, both national and international health organizations swiftly enacted quarantine measures across numerous cities around the globe. This presented a unique chance to evaluate the consequences of human actions on the quality of the air. This study aimed to investigate airborne microbial levels in different outdoor locations in Al-Madinah City, Kingdom of Saudi Arabia (KSA), during the COVID-19 pandemic by comparing lockdown against non-lockdown conditions. Twelve outdoor locations were investigated in terms of microbial total counts using the open plate method during and after the COVID-19 lockdown. Environmental factors that could affect the airborne microbial load, including humidity, temperature and wind speed, were recorded during the assessment. The means of the total colony-forming units (CFU) for each cubic meter (m³) of air were calculated. Lockdown restrictions caused significant decreases in the biological contaminants in all locations compared with the numbers after the pandemic. Gram-positive bacteria represented most of the samples, with fewer fungal strains detected. The outdoor average total bacterial counts ranged between 0.00±0.00-8337.50±248.98 CFU/m³, compared with 2903.75±407.60-19722.50±475.03 CFU/m³ after the pandemic. The mean concentrations of total fungi were lower than those of bacteria and ranged between 0.00±0.00-143.75±131.75 CFU/m³ during the COVID-19 lockdown and were elevated after the lockdown to reach 28.75±49.80-776.25±298.78 CFU/m³. Based on the available data, there are no studies comparing outdoor microbial counts during and after the COVID-19 pandemic. Therefore, this research offers additional perspectives on the air quality experienced amidst the COVID-19 pandemic and the subsequent implementation of lockdown measures and could serve as a valuable resource for monitoring and implementing measures to control air pollution. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Bacterial Aerosol in Ambient Air—A Review Study

Author

Ewa Brągoszewska and Anna Mainka

Subjects
bioaerosol, outdoor air, bacteria, human health, meteorological factors, air pollutants, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Bioaerosols, including airborne bacteria, are significant pollutants affecting both indoor and outdoor air quality, with implications for human health. Despite extensive research on indoor air quality, there is a notable lack of comprehensive data on ambient bacterial concentrations and their interactions with pollutants and meteorological factors. This review focuses on bacterial aerosols in the atmosphere, measured using the culture-based method, considered the “gold standard” for microorganism detection and identification. Studies reveal significant variability in bacterial concentrations across different environments and seasons, influenced by factors such as temperature, humidity, wind speed, solar radiation, and precipitation, underscoring the need for further research and monitoring to enhance health risk assessments and mitigation strategies. The presence of air pollutants such as particulate matter (PM) and ozone (O3) further complicates these dynamics. The authors emphasize the need for more extensive research on outdoor bacterial aerosols and recommend that future studies prioritize detailed bioaerosol characterization to establish comprehensive exposure standards in ambient air, thereby improving public health protection and environmental management practices.

Published
2024
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18. Industrial Emission Monitoring and Assessment of Air Quality in Karachi Coastal City, Pakistan.

Author

Idrees, Mohammad, Nergis, Yasmin, and Irfan, Muhammad

Subjects
*AIR pollutants, *EMISSIONS (Air pollution), *AIR quality monitoring, *PARTICULATE matter, *ENVIRONMENTAL quality, *CITIES & towns, *AIR quality
Abstract

Industrialization, anthropogenic activities, the exhaust of vehicles and exponential population growth have a significant impact on the outdoor air quality of megacities across the world. Karachi is one of the largest cities in Pakistan, South Asia. The dense population, rapid economic growth and unplanned industrial activities have improved the socioeconomic status but also deteriorated the air quality of Karachi. The severe increase in air pollution has become a threat to the local population in terms of their health issues, quality of life and environment. Therefore, it is essential to quantify and monitor the spatiotemporal variation in outdoor air quality parameters. The current study aims to monitor the air quality in four major industrial zones of Karachi for three years (2020–2022). The field data was collected during the periods of post-monsoon and pre-monsoon using the HAZ-SCANNER (HIM-6000) apparatus, which measured outdoor air pollutants such as carbon monoxide (CO), nitrogen oxides (NO2), sulfur dioxide (SO2) and particulate matter (PM10, PM2.5 and TSPM). The data from 24 stations was analyzed using statistical analysis tools to estimate the parameters and Arc GIS to map the spatial variation of each parameter. The result shows that the concentration of particulate matter (TSPM, PM2.5 and PM10), SO2, NO2 and CO values at sampling sites are moderate in the post-monsoon season as compared to the pre-monsoon season due to cyclical monsoon effects and exceed the environmental quality standards. It was also noted that the North Karachi industrial area is at lower risk due to the small-scale industry. The higher levels of air pollutants have numerous health implications and may cause chronic infections. The air pollutant has a severe impact on plant growth and soil. Therefore, it is important to implement local environmental standards regarding outdoor air pollutants to mitigate the adverse impact on human health and economic activities. [ABSTRACT FROM AUTHOR]

Published
2023
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19. Dendrograms, heat maps and principal component analysis – the practical use of statistical methods for source apportionment of trace elements in PM10.

Author

Zajusz-Zubek, Elwira, Mainka, Anna, and Kaczmarek, Konrad

Subjects
*PRINCIPAL components analysis, *COAL combustion, *TRACE elements, *INCINERATION
Abstract

Dendrogram (DE), heat map (HM) and principal component analysis (PCA) methods were used in order to identify possible emission sources of As, Cd, Co, Cr, Hg, Mn, Ni, Pb, Sb and Se in ambient PM10 collected in the surroundings of working power plants. Each statistical tool resulted in slightly different clusters. The best approximation of possible emission sources was received by the use of statistical analysis of trace-element concentrations combined with characterization of the sampling sites. In the study, PCA was indicated as the most useful statistical tool for source apportionment of trace elements in PM10. Major sources identified by PCA included: (1) coal combustion, (2) soil and road-dust resuspension, (3) the use of pesticides and (4) waste incineration. [ABSTRACT FROM AUTHOR]

Published
2023
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20. Entropy Analysis of Energy Losses in Heat-Exchanger and Mixing Sections of a Central Air Conditioner.

Author

Zdobnov, M. I., Lavrov, N. A., and Shishov, V. V.

Subjects
*ENERGY dissipation, *ENTROPY, *AIR conditioning, *HEAT pipes, *AIR flow, *EVAPORATORS
Abstract

This study presents an entropy analysis of the losses in different sections of a central air conditioner. The methodology for determining the losses using entropy analysis is presented in this work. The temperature and humidity of the outside and recirculating air were measured, and losses due to mixing of air flows, cooling in the evaporator section, and heating in the condenser section were calculated. A comparative analysis of the results was performed, and the distribution diagrams of the component losses were presented. Conclusions regarding a loss-reduction method were proposed. [ABSTRACT FROM AUTHOR]

Published
2023
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21. Emerging environmental challenge: a critical review of airborne microplastics

Author

Khadija Sharaf Din, Muhammad Fahim Khokhar, Shahid Parvez, and Muhammad Bilal Khan Niazi

Subjects
airborne microplastics, indoor air, outdoor air, particulate matter, analytical methodology, Environmental sciences, GE1-350, Meteorology. Climatology, QC851-999
Abstract

Trillions of micro- and nanoplastics are ubiquitously dispersed in the environment owing to relentless human reliance on plastics implying constant human exposure to these tiny synthetic particles. Unlike terrestrial and aquatic microplastics, research on airborne microplastics (MPs) is very limited and needs to be expanded to explore their prevalence, fate, and health risks fully. This study effectively assesses available studies conducted on microplastics’ presence in atmospheric deposition, and indoor and outdoor air samples, and highlights disparities in employed methodological approaches. Six different databases have been consulted to procure data (2015–24) for this review study. The number of studies directly investigating MPs in the air is very low which limits knowledge concerning the sources, fate, and attributable human health risks. MPs abundance indoors ranges from 0.13 to 14088.05 items/m ^3 , while in outdoors it ranges from none to 393 items/m ^3 . Indoors are significantly more contaminated than outdoors, raising considerable health concerns given that people spend most of their time indoors. Airborne microplastics are predominately fibrous (88%) indicating textiles as a major source. Polyethylene, polypropylene, polyethylene terephthalate, and polystyrene are the most prevalent polymers implying their excessive use in the environment. Inhalable microplastics (particularly

Published
2024
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22. Aspects of the effect of confinement measures imposed at the beginning of the COVID-19 pandemic on outdoor air quality

Author

Vasilica VASILE, Cristian PETCU, Alina DIMA, and Mihaela ION

Subjects
outdoor air, covid-19 pandemic, nitrogen dioxide, health, Engineering (General). Civil engineering (General), TA1-2040, Building construction, TH1-9745
Abstract

Record levels of air pollution, leading to environmental degradation, deteriorating health and climate change, are affecting cities around the world. However, due to the confinement measures imposed at the beginning of the COVID-19 pandemic, reductions in nitrogen dioxide (NO2) concentrations - one of the main traffic pollutants - have been reported in many cities in Europe and around the world: by over 50% in Barcelona as of March 21, 2020, 64% in other cities in Spain, about 40% in London or about 50% of carbon monoxide (CO) levels in New York. In this context, the paper presents the results of monitoring NO2 concentrations within the INCERC Bucharest Branch, located in the eastern part of Bucharest, the capital of Romania.

Published
2021

23. Occurrence of organic contaminants bonded to the particulate matter from outdoor air influenced by industrial activities.

Author

Maceira, Alba, Borrull, Francesc, and Marcé, Rosa Maria

Subjects
POLYCHLORINATED dibenzodioxins, POLLUTANTS, POLYCHLORINATED biphenyls, AIR pollutants, FACTORY location, POLYCYCLIC aromatic hydrocarbons, POLYCHLORINATED dibenzofurans
Abstract

This paper discusses the occurrence of organic contaminants bonded to particulate matter (PM) in ambient air. We describe the presence and concentration levels of contaminants mainly reported in atmospheres close to factories or at locations influenced by them, and the relationship between factory emissions and the type of organic contaminants found in PM samples from the surrounding air. Many organic contaminants have been found in these types of samples, including polycyclic aromatic hydrocarbons (PAHs), polychlorinated dibenzo-p-dioxins (PCDDs), polychlorinated dibenzofurans (PCDFs) and polychlorinated biphenyls (PCBs). Their sources, fates and distributions in the ambient atmosphere are therefore well known. However, in addition to these most studied compounds, others are also of concern nowadays due to their detection and toxic effects on the environment. The continuous updating of regulations on these contaminants and the appearance of new air pollutants make it important to be aware of their occurrence. This will help to either establish new guidelines for the newer contaminants or reassess existing limitations for known ones. Moreover, if we know their occurrence, we can analyse their sources, destinations and distributions in the outdoor air. [ABSTRACT FROM AUTHOR]

Published
2022
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24. Simultaneous Monitoring of Outdoor PAHs and Particles in a French Peri-Urban Site during COVID Restrictions and the Winter Saharan Dust Event.

Author

Nursanto, Farhan Ramadzan, Vaz-Ramos, Joana, Delhomme, Olivier, Bégin-Colin, Sylvie, and Le Calvé, Stéphane

Subjects
*DUST, *COVID-19, *PARTICULATE matter, *FRENCH language, *MINERAL dusts, *POLYCYCLIC aromatic hydrocarbons, *DUST storms, *POLLUTANTS
Abstract

The presence of polycyclic aromatic hydrocarbons (PAHs) and particulate matter (PM) in air is known to provoke deleterious effects on human health. This work focused on the monitoring of PM and PAHs in the air over four weeks in a peri-urban site in Strasbourg (France), using a three-stage cascade impactor and a particle analyser allowing PM1, PM2.5 and PM10 discrimination. Meteorological conditions were monitored to study their influence on the pollutant levels. The average PM10 concentration of the cascade impactor and particle analyser varied from 11.8 to 80.2 µg/m3 and 10.6 to 220.2 µg/m3, respectively. The PAH total concentration ranged in 1.1–7.6 ng/m3 and a predominance of 5- and 6-ring PAHs was observed. PAHs were also more abundant in finer particles (PM1). Specifically, identified PAHs are traffic tracers suggesting that vehicular emission was one of its main sources. Two pollution episodes, associated with either a Saharan dust wind episode or traffic pollution, were observed, and led to PM10 and PM2.5 surpassing the daily limit values established by the European Union despite the traffic limitations according to the COVID restrictions. The total PAH concentrations were the highest during these periods suggesting PAHs might be bound to and transported via dust particles. [ABSTRACT FROM AUTHOR]

Published
2022
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25. A numerical study of the impacts of outdoor air intake and air changes per hour on the trichloramine concentrations in a swimming pool enclosure

Author

H. Proulx and S. Hallé

Subjects
trichloramine, indoor swimming pool, ventilation, CFD, tracer gas, outdoor air, Engineering (General). Civil engineering (General), TA1-2040, City planning, HT165.5-169.9
Abstract

Trichloramine (NCl3) is a disinfection by-product commonly found in the water and air in indoor swimming pools. The gas is associated with chronic diseases such as asthma and often causes eye and skin irritation. Due to its higher density than air, NCl3 tends to accumulate close to the water surface and above the deck. Mixing ventilation is the main ventilation strategy used in aquatic centers to maintain the NCl3 concentrations at an acceptable level. However, swimming pool halls are known to be significantly energy-intensive, mostly because of water evaporation from the basin. Consequently, building codes recommend maintaining a low airspeed above the pool and deck to minimize evaporation and to ensure swimmers’ thermal comfort. If trichloramine levels are suspected to be too high, pool managers will favor increasing the number of air changes per hour (ACH) while limiting the outdoor air (OA) intake. However, mechanical filtration systems are not designed to remove NCl3 from the airflow. Since its concentration cannot be measured directly, ventilation system parameters are often based on minimum recommendations set out in building codes and may vary in operation according to the CO2 levels in the extracted air, irrespective of the NCl3 level and its accumulation behavior. It remains unknown how the OA intake ratio affects NCl3 levels in breathing zones. This study carries out a numerical investigation of the impacts of the OA and the ACH on NCl3 concentrations in a swimming pool hall in Montreal (Canada). Results show that the minimum recommendations (OA intake and ACH) by ASHRAE are not sufficient to eliminate NCl3 accumulation and stratification in the lower breathing zones. Moreover, air recirculation mostly affects the breathing zones of standing occupants on decks and of lifeguards but has a smaller impact on the breathing zones of swimmers or people sitting on the deck. Eliminating air recirculation does not guarantee better air quality in terms of NCl3 in these breathing zones. The findings for the complex under study may be used to guide similar research in other aquatic centers and for the continuous development of building codes and air quality standards.

Published
2022
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26. Levels of Volatile Methyl Siloxanes in Outdoor Air

Author

Gallego, Eva, Teixidor, Pilar, Roca, Francisco Javier, Perales, José Francisco, Barceló, Damià, Series Editor, de Boer, Jacob, Editorial Board Member, Kostianoy, Andrey G., Series Editor, Garrigues, Philippe, Editorial Board Member, Hutzinger, Otto, Founding Editor, Gu, Ji-Dong, Editorial Board Member, Jones, Kevin C., Editorial Board Member, Knepper, Thomas P., Editorial Board Member, Negm, Abdelazim M., Editorial Board Member, Newton, Alice, Editorial Board Member, Homem, Vera, editor, and Ratola, Nuno, editor

Published
2020
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27. Screening-level assessment of cancer risk associated with ambient air exposure in Aamjiwnaang First Nation.

Author

Larsen, Kristian, Black, Paleah, Palmer, Alison L, Sheppard, Amanda J., Jamal, Sehar, Plain, Sara, and Peters, Cheryl

Subjects
*TUMOR risk factors, *AIR analysis, *AIR pollution, *FIRST Nations of Canada, *ENVIRONMENTAL monitoring, *CARCINOGENS, *EARLY detection of cancer, *HYDROCARBONS, *ALKANES, *ENVIRONMENTAL exposure, *PROBABILITY theory
Abstract

The manuscript reports findings from a screening-level assessment of cancer risk from outdoor air in Aamjiwnaang First Nation. Ambient air pollution can contribute to cardiovascular/respiratory diseases, and certain types of cancer. Certain communities may be at higher risk to the negative health impacts due to their geographical proximity to pollution sources. Outdoor air concentrations were mapped and the Lifetime Excess Cancer Risks (LECR) associated with long-term exposure to known carcinogens were estimated. LECR results for both benzene and 1,3-butadiene were above one per million. The LECR for benzene was 6.4 per million when the Health Canada slope factor was applied and 12.0 when using the US EPA. For 1,3-butadiene the LECR estimate was 8.8 per million. This work provides a better understanding of environmental exposures and potential associated cancer risks for residents in the Aamjiwnaang community and highlights the need for further air monitoring and a more detailed risk assessment. [ABSTRACT FROM AUTHOR]

Published
2022
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28. Poly‐ and Perfluorinated Alkyl Substances in Air and Water from Dhaka, Bangladesh.

Author

Morales‐McDevitt, Maya E., Dunn, Matthew, Habib, Ahsan, Vojta, Simon, Becanova, Jitka, and Lohmann, Rainer

Subjects
*FLUOROALKYL compounds, *PASSIVE sampling devices (Environmental sampling), *SULFONIC acids, *BODIES of water, *TEXTILE waste, *PERFLUOROOCTANOIC acid
Abstract

Bangladesh hosts extensive textile manufacturing, for some of which per‐ and polyfluorinated alkyl substances (PFAS) have been used to impart water and dirt repellency, among other things. Textile waste emissions to the atmosphere and discharge into rivers and other bodies of water could present a significant concern for human and ecosystem health, but there is little information on PFAS in Bangladesh. To assess the presence of ionic PFAS and their precursors in air and water from Dhaka, Bangladesh, polyethylene sheets were deployed for 28 days as passive samplers for neutral PFAS in outdoor air and water, while ionic PFAS were measured from discrete water grabs. Fluorotelomer alcohols (FTOHs) were detected at almost all sites in air and water; the most frequently detected compound was 6:2 FTOH, ranging from below instrumental detection limits (

Published
2022
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29. An evaluation of fungal contamination and its relationship with PM levels in public transportation systems.

Author

Baboli, Zeynab, Hayati, Roghayeh, Mosavion, Kiana, Goudarzi, Mahdis, Sadeghi-Nejad, Batool, Ghanbari, Farshid, Maleki, Heydar, Yazdani, Mohsen, Hayat Davoudi, Golnaz, and Goudarzi, Ghoalmreza

Subjects
*SICK building syndrome, *POISONS, *TRAVEL hygiene, *PUBLIC health, *PARTICULATE matter
Abstract

Transmission of fungi in the air and its impact on health are regarded as important public health issues. Bioaerosols play an important role in causing or exacerbating infectious diseases, acute toxic effects, allergies, and cardiopulmonary symptoms. As many people use the public transportation system daily, it is necessary to determine the type and manner of dispersal and abundance of airborne fungi in public transport places. Three public transportation systems including a bus station, a train station, and an airport in Ahvaz city (Iran) were examined. At each of these stations, the air samples were taken from inside and outside the hall stations, and in-vehicle. A bio-stage Anderson sampler was used by suctioning air and passing it over a Petri dish containing culture medium Sabouraud Dextrose Agar (SDA). Relative humidity (RH, %), temperature (T, ◦C), and mass concentration of particulate matter (PM 1 , PM 2.5 , and PM 10, μg/m3) at the sampling points were measured. The highest concentration of airborne fungi was observed in the airport. The concentration of fungi in the ambient air was higher than that in the indoor air of halls and in-vehicle. In all sampling points, the ambient predominant airborne fungi were Cladosporium and Alternaria , while the indoor predominant airborne fungi were Cladosporium , Aspergillus , and Penicillium. The indoor to outdoor ratio showed that the fungi were of an external origin. Due to the influence of the ambient air on indoor air, it is recommended to use proper ventilation and enhance the hygiene level of vehicles in public transportation systems to reduce exposure to environmentally pathogenic bioaerosols. • An inverse relationship between total fungi concentration with RH% and PM levels was observed. • Total fungi levels indicated the potential of sick building syndrome in transportation systems. • Higher ratios of PM 2.5 /PM 10 were obtained in the vehicular systems with modernized ventilation. • A high level of Aspergillus indoors and in-vehicles alarms a possible health threat for travelers. [ABSTRACT FROM AUTHOR]

Published
2024
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30. A review of sample collection and analytical methods for detecting per- and polyfluoroalkyl substances in indoor and outdoor air.

Author

Wallace, M. Ariel Geer, Smeltz, Marci G., Mattila, James M., Liberatore, Hannah K., Jackson, Stephen R., Shields, Erin P., Xhani, Xhensila, Li, Emily Y., and Johansson, Jana H.

Subjects
*FLUOROALKYL compounds, *PERFLUOROOCTANOIC acid, *ENVIRONMENTAL sampling, *AIR sampling, *ATMOSPHERIC transport, *ENDOTOXINS
Abstract

Per- and polyfluoroalkyl substances (PFAS) are a unique class of chemicals synthesized to aid in industrial processes, fire-fighting products, and to benefit consumer products such as clothing, cosmetics, textiles, carpets, and coatings. The widespread use of PFAS and their strong carbon-fluorine bonds has led to their ubiquitous presence throughout the world. Airborne transport of PFAS throughout the atmosphere has also contributed to environmental pollution. Due to the potential environmental and human exposure concerns of some PFAS, research has extensively focused on water, soil, and organismal detection, but the presence of PFAS in the air has become an area of growing concern. Methods to measure polar PFAS in various matrices have been established, while the investigation of polar and nonpolar PFAS in air is still in its early development. This literature review aims to present the last two decades of research characterizing PFAS in outdoor and indoor air, focusing on active and passive air sampling and analytical methods. The PFAS classes targeted and detected in air samples include fluorotelomer alcohols (FTOHs), perfluoroalkane sulfonamides (FASAs), perfluoroalkane sulfonamido ethanols (FASEs), perfluorinated carboxylic acids (PFCAs), and perfluorinated sulfonic acids (PFSAs). Although the manufacturing of perfluorooctanoic acid (PFOA) and perfluorooctane sulfonic acid (PFOS) has been largely phased out, these two PFAS are still often detected in air samples. Additionally, recent estimates indicate that there are thousands of PFAS that are likely present in the air that are not currently monitored in air methods. Advances in air sampling methods are needed to fully characterize the atmospheric transport of PFAS. [Display omitted] • 85 papers detected PFAS in indoor and outdoor air from 2002 to 2022. • FTOHs, FASAs, and FASEs are the PFAS classes most frequently detected in air. • Most studies have used high volume-active air sampling to measure PFAS in air. • Novel air sampling methods are needed to characterize emerging PFAS. [ABSTRACT FROM AUTHOR]

Published
2024
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31. Geoinformation portal 'Sanitary and epidemiological well-being of the population in the Arctic Zone of the Russian Federation' as a promising tool for comprehensive assessment of the environmental factors and the health of the Russian Arctic population

Author

S.A. Gorbanev, V.N. Fedorov, and A.A. Kovshov

Subjects
sanitary and epidemiological well-being, health risks, drinking water, outdoor air, russian arctic, Geography (General), G1-922
Abstract

The Arctic Zone of the Russian Federation (AZRF), being a territory of prospective development and reclamation, requires increased attention to the problems of maintaining the sanitary and epidemiological well-being of the population considering specific climatic and socioeconomic factors. These circumstances force the development and implementation of non-standard managerial decisions in the selection of technological development of territories, the characteristics of the work and life of people in these conditions. To solve problems in the area of environmental protection and sanitary and epidemiological well-being of the population, various electronic informational and analytical public resources based on geographic information system (GIS) technologies have been developed and are actively used. The advantage of GIS technologies is the convenience of collecting, analyzing and visualizing information directly related to the territory, which is especially important when working with large arrays of information linked to large territories. That said, when it comes to the AZRF, such resources are either absent or do not address the sanitary and epidemiological well-being of the population. The authors have developed the concept of a geoportal of the sanitary and epidemiological status of the AZRF based on GIS which could be an extensive electronic database of environmental factors and the population health status and also serve as an effective tool for assessing the sanitary and epidemiological well-being of the population with a spatial analysis function. A test version to be posted on the Internet has been developed and work on populating it with the up-to-date information on environmental and public health factors is in progress.

Published
2019
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32. ASSESSMENT OF INDOOR AND OUTDOOR PARTICULATE MATTERS IN RESIDENTIAL AREAS: THE EFFECTS OF CLIMATIC CONDITIONS AND BUILDING CHARACTERISTICS.

Author

Godini, Hatam, Noorisepehr, Mohammad, Tarrahi, Mohammad Javad, Khosravi, Yahya, and Mohammadyan, Mahmoud

Abstract

The aim of this study was to assess the indoor and outdoor particulate matters in residential areas, and to evaluate the effects of building characteristics and climatic conditions on indoor particle concentrations. The concentration of particles was measured simultaneously indoor and outdoor air during four seasons. Information on climatic conditions and building characteristics was collected through questionnaires during the sampling period. Linear regression models were adopted for determining the relationship between the dependent variable of I/O ratio and environmental factors. The I/O ratios of PM1, PM2.5, PM4, PM7, and PM10 were 0.67, 0.64, 0.61, 0.55, and 0.52, respectively. Moreover, the concentration of PM in the indoor air of the buildings were considerably lower than those of the outdoors (p<0.05). The results also suggest the ventilation mode and outside temperature had the most important role in the entrance of particles into the indoor environment. [ABSTRACT FROM AUTHOR]

Published
2021
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33. Global Air Quality and Health Co-benefits of Mitigating Near-Term Climate Change through Methane and Black Carbon Emission Controls

Author

Anenberg, Susan C, Schwartz, Joel, Shindell, Drew, Amann, Markus, Faluvegi, Greg, Klimont, Zbigniew, Janssens-Maenhout, Greet, Pozzoli, Luca, Van Dingenen, Rita, Vignati, Elisabetta, Emberson, Lisa, Muller, Nicholas Z, West, J Jason, Williams, Martin, Demkine, Volodymyr, Hicks, W Kevin, Kuylenstierna, Johan, Raes, Frank, and Ramanathan, Veerabhadran

Subjects
Environmental Sciences, Climate-Related Exposures and Conditions, Climate Action, Good Health and Well Being, Air Pollution, Climate Change, Computer Simulation, Environmental Exposure, Humans, Methane, Models, Theoretical, Ozone, Particulate Matter, Public Health, Soot, air quality, climate change, health impact analysis, outdoor air, particulate matter, Medical and Health Sciences, Toxicology, Biomedical and clinical sciences, Environmental sciences, Health sciences
Abstract

BackgroundTropospheric ozone and black carbon (BC), a component of fine particulate matter (PM ≤ 2.5 µm in aerodynamic diameter; PM(2.5)), are associated with premature mortality and they disrupt global and regional climate.ObjectivesWe examined the air quality and health benefits of 14 specific emission control measures targeting BC and methane, an ozone precursor, that were selected because of their potential to reduce the rate of climate change over the next 20-40 years.MethodsWe simulated the impacts of mitigation measures on outdoor concentrations of PM(2.5) and ozone using two composition-climate models, and calculated associated changes in premature PM(2.5)- and ozone-related deaths using epidemiologically derived concentration-response functions.ResultsWe estimated that, for PM(2.5) and ozone, respectively, fully implementing these measures could reduce global population-weighted average surface concentrations by 23-34% and 7-17% and avoid 0.6-4.4 and 0.04-0.52 million annual premature deaths globally in 2030. More than 80% of the health benefits are estimated to occur in Asia. We estimated that BC mitigation measures would achieve approximately 98% of the deaths that would be avoided if all BC and methane mitigation measures were implemented, due to reduced BC and associated reductions of nonmethane ozone precursor and organic carbon emissions as well as stronger mortality relationships for PM(2.5) relative to ozone. Although subject to large uncertainty, these estimates and conclusions are not strongly dependent on assumptions for the concentration-response function.ConclusionsIn addition to climate benefits, our findings indicate that the methane and BC emission control measures would have substantial co-benefits for air quality and public health worldwide, potentially reversing trends of increasing air pollution concentrations and mortality in Africa and South, West, and Central Asia. These projected benefits are independent of carbon dioxide mitigation measures. Benefits of BC measures are underestimated because we did not account for benefits from reduced indoor exposures and because outdoor exposure estimates were limited by model spatial resolution.

Published
2012

34. Electrocardiographic ST-Segment Depression and Exposure to Traffic‐Related Aerosols in Elderly Subjects with Coronary Artery Disease

Author

Delfino, Ralph J, Gillen, Daniel L, Tjoa, Thomas, Staimer, Norbert, Polidori, Andrea, Arhami, Mohammad, Sioutas, Constantinos, and Longhurst, John

Subjects
Epidemiology, Health Sciences, Cardiovascular, Depression, Heart Disease, Mental Health, Mental Illness, Climate-Related Exposures and Conditions, Heart Disease - Coronary Heart Disease, Brain Disorders, Aerosols, Aged, Air Pollutants, Coronary Artery Disease, Electrocardiography, Female, Humans, Male, aerosols, air, coronary artery disease, epidemiology, longitudinal data analysis, myocardial ischemia, outdoor air, size distribution, Environmental Sciences, Medical and Health Sciences, Toxicology, Biomedical and clinical sciences, Environmental sciences, Health sciences
Abstract

BackgroundAir pollutants have not been associated with ambulatory electrocardiographic evidence of ST-segment depression ≥ 1 mm (probable cardiac ischemia). We previously found that markers of primary (combustion-related) organic aerosols and gases were positively associated with circulating biomarkers of inflammation and ambulatory blood pressure in the present cohort panel study of elderly subjects with coronary artery disease.ObjectivesWe specifically aimed to evaluate whether exposure markers of primary organic aerosols and ultrafine particles were more strongly associated with ST-segment depression of ≥ 1 mm than were secondary organic aerosols or PM2.5 (particulate matter with aerodynamic diameter ≤ 2.5 µm) mass.MethodsWe evaluated relations of air pollutants to ambulatory electrocardiographic evidence of cardiac ischemia over 10 days in 38 subjects without ST depression on baseline electrocardiographs. Exposures were measured outdoors in retirement communities in the Los Angeles basin, including daily size-fractionated particle mass and hourly markers of primary and secondary organic aerosols and gases. Generalized estimating equations were used to estimate odds of hourly ST-segment depression (≥ 1 mm) from hourly air pollution exposures and to estimate relative rates of daily counts of ST-segment depression from daily average exposures, controlling for potential confounders.ResultsWe found significant positive associations of hourly ST-segment depression with markers of combustion-related aerosols and gases averaged 1-hr through 3-4 days, but not secondary (photochemically aged) organic aerosols or ozone. The odds ratio per interquartile increase in 2-day average primary organic carbon (5.2 µg/m3) was 15.4 (95% confidence interval, 3.5-68.2). Daily counts of ST-segment depression were consistently associated with primary combustion markers and 2-day average quasi-ultrafine particles < 0.25 µm.ConclusionsResults suggest that exposure to quasi-ultrafine particles and combustion-related pollutants (predominantly from traffic) increase the risk of myocardial ischemia, coherent with our previous findings for systemic inflammation and blood pressure.

Published
2011

35. Microplastics as emerging atmospheric pollutants: a review and bibliometric analysis.

Author

Can-Güven, Emine

Abstract

Microplastics are ubiquitously present in various environments; thus, they have become a noteworthy issue by researchers. The present study aimed to provide state-of-the-art on microplastic studies and in detail to review the researches on atmospheric microplastic pollution in terms of occurrence, distribution, sampling, analysis, sources, and transport. The results of the bibliometric analysis showed that the annual output in microplastic research has increased, especially during the last 5 years. The research hot spots in the microplastic topic are marine environment, surface water, freshwater, wastewater, toxic effects, and fate and transport of microplastics. The number of studies investigating atmospheric microplastic pollution is still so limited, although microplastics in the atmosphere became one of the notable subjects. Natural and synthetic fibers were mainly detected in the studies investigating microplastic pollution in the air. Textile clothes, anthropogenic activities, and fragmentation of large plastics were indicated as the main sources, while the wind was pointed out as the predominant transport mechanism of atmospheric microplastics. Detailed and comprehensive studies on the determination of the fate and transport of microplastics in the air as well as their health effects are needed. [ABSTRACT FROM AUTHOR]

Published
2021
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36. ASPECTS OF THE EFFECT OF CONFINEMENT MEASURES IMPOSED AT THE BEGINNING OF THE COVID-19 PANDEMIC ON OUTDOOR AIR QUALITY.

Author

VASILE, Vasilica, PETCU, Cristian, DIMA, Alina, and ION, Mihaela

Subjects
*ENVIRONMENTAL degradation, *COVID-19 pandemic
Abstract

Record levels of air pollution, leading to environmental degradation, deteriorating health and climate change, are affecting cities around the world. However, due to the confinement measures imposed at the beginning of the COVID-19 pandemic, reductions in nitrogen dioxide (NO2) concentrations - one of the main traffic pollutants - have been reported in many cities in Europe and around the world: by over 50% in Barcelona as of March 21, 2020, 64% in other cities in Spain, about 40% in London or about 50% of carbon monoxide (CO) levels in New York. In this context, the paper presents the results of monitoring NO2 concentrations within the INCERC Bucharest Branch, located in the eastern part of Bucharest, the capital of Romania. [ABSTRACT FROM AUTHOR]

Published
2021

37. Passive sampling to control air quality in schools: Uptake rate determination and application.

Author

Vallecillos, Laura, Borrull, Anna, Marcé, Rosa Maria, and Borrull, Francesc

Subjects
*SCHOOL rankings, *AIR quality, *VOLATILE organic compounds, *AIR sampling, *QUALITY control, *SCHOOL environment
Abstract

In this paper, we provide a detailed description of the application of passive sampling with Carbopack X tubes followed by thermal desorption‐gas chromatography‐mass spectrometry (TD‐GC‐MS) to determine the concentrations of volatile organic compounds (VOCs) in different school environments. The main objective of the study was to monitor VOCs in seven indoor and three outdoor environments at a school in Tarragona, Spain. However, in order to obtain more accurate information, it was necessary to determine the experimental diffusive uptake rates of the target VOCs in indoor settings through parallel passive and active sampling in one classroom. The results showed experimental diffusive uptake rates in the range of 0.38 mL min‐1 and 0.95 mL min‐1 with RSD % below 5% for up to 44 VOCs. The monitoring results showed that ethanol (23.84‐83.16 µg m‐3) and isopropyl alcohol (5.42‐25.92 µg m‐3) were the most common compounds found in indoor environments, with cleaning products as the main emission source. The VOCs i‐pentane and n‐pentane were found at the highest concentrations in the three sampling sites set in the school's playground, and their concentrations were strictly related to combustion processes from automobile traffic. [ABSTRACT FROM AUTHOR]

Published
2020
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38. Elemental composition of ambient air particles in Taiyuan, China: evaluation of lifetime cancer and non-cancer risks.

Author

Zhang, Xin, Bai, Xu, Li, Chenghuan, Li, Tian, Wang, Rihua, Zhao, Zhuohui, and Norback, Dan

Subjects
*ARSENIC, *SUMMER, *HEALTH risk assessment, *TRACE elements, *AIR pollution, *AIR sampling, *CANCER
Abstract

Shanxi is a heavily polluted area in China. Our aim was to analyze the elemental concentration (71 elements) in ambient air in Taiyuan and evaluate cancer and non-cancer risks. Air was sampled in four urban sites and one rural site in the heating season (winter/spring) and summer season (totally 118 days sampling time). Mean total suspended particles (TSP) across all sampling sites were 248 µg/m3 in summer and 478 µg/m3 in winter. The heating season had higher levels of S, Pb, Br, Mn, Se, As, Ni, Cd, and Hg (23.3 µg/m3, 821 ng/m3, 725 ng/m3, 460 ng/m3, 79 ng/m3, 65 ng/m3, 34 ng/m3, 17 ng/m3, and 3.5 ng/m3, respectively) than the summer season (9.6 µg/m3, 276 ng/m3, 138 ng/m3, 283 ng/m3, 0 ng/m3, 21 ng/m3, 21 ng/m3, 6.8 ng/m3, and 0 ng/m3, respectively), except for Cr and Co, of which the levels were higher in summer. Many elements had a high correlation with the TSP level (r = 0.70–0.96) and S (r = 0.61–0.95). A health risk assessment demonstrated that Mn and Cr could have a risk of non-cancer effects. Estimated lifetime cancer risks (Ri>10−6) were observed for As, Cd, Co, Cr, and Ni, indicating that cancer risks from air pollution were relatively high in Taiyuan. [ABSTRACT FROM AUTHOR]

Published
2020
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39. Measuring Outdoor Air Intake Rates Using Electronic Velocity Sensors at Louvers and Downstream of Airflow Straighteners

Author

Fisk, William

Subjects
Energy conservation, consumption, and utilization, commercial building, control, HVAC, measurement, outdoor air, ventilation
Abstract

Practical and accurate technologies are needed for continuously measuring and controlling outdoor air (OA) intake rates in commercial building heating, ventilating, and air conditioning (HVAC) systems. This project evaluated two new measurement approaches. Laboratory experiments determined that OA flow rates were measurable with errors generally less than 10percent using electronic air velocity probes installed between OA intake louver blades or at the outlet face of louvers. High accuracy was maintained with OA flow rates as low as 15percent of the maximum for the louvers. Thus, with this measurement approach HVAC systems do not need separate OA intakes for minimum OA supply. System calibration parameters are required for each unique combination of louver type and velocity sensor location but calibrations are not necessary for each system installation. The research also determined that the accuracy of measuring OA flow rates with velocity probes located in the duct downstream of the intake louver was not improved by installing honeycomb airflow straighteners upstream of the probes. Errors varied with type of upstream louver, were as high as 100percent, and were often greater than 25percent. In conclusion, use of electronic air velocity probes between the blades of OA intake louvers or at the outlet face of louvers is a highly promising means of accurately measuring rates of OA flow into HVAC systems. The use of electronic velocity probes downstream of airflow straighteners is less promising, at least with the relatively small OA HVAC inlet systems employed in this research.

Published
2008

40. Culturable Filamentous Fungi in the Air of Recreational Areas and Their Relationship with Bacteria and Air Pollutants during Winter

Author

Katarzyna Góralska, Szymon Lis, Weronika Gawor, Filip Karuga, Krystian Romaszko, and Ewa Brzeziańska-Lasota

Subjects
filamentous fungi, air mycobiota, air quality indicator, environmental monitoring, outdoor air, bacteriological assessment, Meteorology. Climatology, QC851-999
Abstract

One of the greatest environmental health problems to arise in recent years is air pollution. Inorganic and organic particles are important components of air aerosol. The potential of air microbiota as an indicator of air quality is gaining increasing research interest. The aim of the present study was to determine the relationship between the level of fungal contamination and the levels of bacteria and smog particles in outdoor air in recreational areas during the heating season. A quantitative and qualitative mycological evaluation and quantitative bacteriological evaluation of air quality in 10 selected parks were performed. The numbers of microorganisms in the air were correlated with smog levels. The mean prevalence of fungi was 18.96 ± 15.43–23.30 ± 26.70 CFU/m3 of air and the mean bacterial count was 74.06 ± 130.89–268.04 ± 126.10 CFU/m3. Among the isolated fungi, clinically significant species were identified: four species belonged to Risk Group 2, and 17 to Risk Group 1. The predominant genera were Aspergillus, Penicillium and Alternaria. The total number of bacteria demonstrated a positive correlation with the size of the park, air temperature and ozone level during sampling, and a negative correlation with humidity, pressure and smog parameters (CO, NO, NO2 and NOx). The qualitative and quantitative composition of bioaerosols can be used as a bioindicator for environmental monitoring. There is a need for more efficient monitoring of airborne pollutants and microorganisms to learn about the structure of the air biota, the mechanisms regulating their occurrence, and to identify potential threats to human health.

Published
2022
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44. Concentrations of Volatile Methyl Siloxanes in New York City Reflect Emissions from Personal Care and Industrial Use.

Author

Brunet CE, Marek RF, Stanier CO, and Hornbuckle KC

Subjects
New York City, Industry, Humans, Volatilization, Seasons, Cosmetics analysis, Volatile Organic Compounds analysis, Siloxanes analysis, Air Pollutants analysis, Environmental Monitoring
Abstract

Volatile methyl siloxanes (VMS) are a group of organosilicon compounds of interest because of their potential health effects, their ability to form secondary organic aerosols, and their use as tracer compounds. VMS are emitted in the gas-phase from using consumer and personal care products, including deodorants, lotions, and hair conditioners. Because of this emission route, airborne concentrations are expected to increase with population density, although there are few studies in large urban centers. Here, we report summertime concentrations and daily variations of VMS congeners measured in New York City. Median concentrations of the 6 studied congeners, D3 (20 ng m -3 ), D4 (57 ng m -3 ), D5 (230 ng m -3 ), D6 (11 ng m -3 ), L5 (2.5 ng m -3 ), and L7 (1.3 ng m -3 ) are among the highest reported outdoor concentrations in the literature to date. Average congener ratios of D5:D4 and D5:D6 were consistent with previously reported emissions ratios, suggesting that concentrations were dominated by local emissions. Measured concentrations agree with previously published results from a Community Multiscale Air Quality model and support commonly accepted emissions rates for D4, D5, and D6 of 32.8, 135, and 6.1 mg per capita per day. Concentrations of D4, D5, D6, L5, and L7 and total VMS were significantly lower during the day than during the night, consistent with daytime oxidation reactivity. Concentrations of D3 did not show the same diurnal trend but exhibited a strong directional dependence, suggesting that it may be emitted by industrial point sources in the area rather than personal care product use. Concentrations of all congeners had large temporal variations but showed relatively weak relationships with wind speed, temperature, and mixing height.

Published
2024
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45. Levels and ecological and health risk assessment of PM2.5-bound heavy metals in the northern part of the Persian Gulf.

Author

Faraji Ghasemi, Fatemeh, Dobaradaran, Sina, Saeedi, Reza, Nabipour, Iraj, Nazmara, Shahrokh, Ranjbar Vakil Abadi, Dariush, Arfaeinia, Hossein, Ramavandi, Bahman, Spitz, Jörg, Mohammadi, Mohammad Javad, and Keshtkar, Mozhgan

Subjects
ANALYSIS of heavy metals, HEALTH risk assessment, ECOLOGICAL risk assessment, INDUCTIVELY coupled plasma atomic emission spectrometry, HEAVY metals, CRYSTAL filters, PRINCIPAL components analysis
Abstract

Bushehr, a port along the northern part of the Persian Gulf, has repeatedly encountered dust storms in recent years but there is not been a comprehensive study on the PM2.5 contents in this region. The present study reports the characteristics and health risks of atmospheric PM2.5-bound heavy metals (HMs) in Bushehr from December 2016 to September 2017. A total of 46 samples were analyzed, and a high volume air sampler equipped with quartz fiber filters was used for sampling. Inductively coupled plasma optical emission spectroscopy (ICP-OES) was also used for HMs analyses. Risk assessment and hazard index (HI) of these metals were computed by using USEPA's exposure parameters. The results showed that the average 24-h mass concentration of PM2.5 ranged from 22.09 to 292.45 μg/m3. The results also indicated that 95.65 and 82.61% of the samples were higher than WHO and EPA guidelines for 24-h PM2.5. Also there was no statistically significant relationship between wind direction and PM2.5.The average concentration levels of seven measured metals (Cd, Co, Cr, Fe, Ni, Pb, and V) in the PM2.5 samples were in the range of 6.03 ng/m3 to 1335.94 ng/m3, and the order of their concentration was Fe > Ni > Pb > Cr > Cd > V > Co. Principal component analysis (PCA) showed that PM2.5-bound heavy metals were categorized in three groups. The ecological risk level of calculated metals was very significant, and the major contribution of the ecological risk was related to Cd. The highest HQ in children and adults was related to Cr, and overall HI in children was higher than adults. Also the RI values of Cr in both groups of children and adults were indicated high risk of developing cancer in human. [ABSTRACT FROM AUTHOR]

Published
2020
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46. Frequency and distribution of insect pollinated pollen in air samples of Hirst-type volumetric pollen and spore traps in Austria from 2008 to 2017.

Author

Bastl, Katharina, Bastl, Maximilian, Dirr, Lukas, Berger, Markus, and Berger, Uwe

Subjects
*INSECT pollinators, *AIR sampling, *POLLEN, *DISTRIBUTION (Probability theory), *SPORES
Abstract

Standard Hirst-type automated pollen and spore traps are used in aerobiology to assess ambient pollen concentrations with a focus on allergenic taxa, which are wind-pollinated. The relationship of insect to wind pollinated pollen concentrations has not been examined. We analysed the pollen data from the pollen seasons (1 April–31 August) 2008–2017 of seven pollen traps distributed across Austria located at different elevations. The included pollen monitoring stations cover the diversity of the countries' landscape: from large cities to alpine areas. The data was grouped into taxa known as insect (39 taxa) and taxa known as wind pollinated (43 taxa). We found a low occurrence of insect pollinated pollen in comparison to wind pollinated pollen in all stations. The mean pollen concentration of insect pollinated pollen was low and ranged from 0 to 22 pollen/m3 air. Correlation coefficients showed the dependence of the results on the parameters year, station and year × station, thus explaining the variability of the data. However, differences in abundances of insect and wind pollinated pollen concern also the time of the year with later peaks (May–June) of insect pollinated pollen in comparison to wind pollinated pollen (April). Insect pollinated pollen shows a different timing and quantitative aspect in comparison to wind pollinated pollen in air samples of Hirst-type pollen traps and thus a presumed dependence on local factors. These results should be taken into account when interpreting ancient pollen spectra to reconstruct palaeoenvironments and when monitoring recent climate change using aerobiological archives. [ABSTRACT FROM AUTHOR]

Published
2020
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47. Investigation of indoor air quality in offices and residential homes in an urban area of Poland.

Author

Kozielska, Barbara, Brągoszewska, Ewa, and Kaleta, Dorota

Abstract

The quality of air in various types of rooms is an extremely important issue, because contaminants occurring there, even at low concentrations, can cause health problems, especially for those living or working in these locations. The aim of this study was to compare indoor air quality (IAQ) in offices, flats and a residential building in Upper Silesia. Volatile organic compounds (VOCs) were self-concentrated, thermally desorbed (TD) and then analysed using gas chromatography (GC). The mean concentrations of the 16 determined VOCs ranged from 18 to 56 μg/m3. The average concentration of carcinogenic benzene was about 1 μg/m3 in offices and flats, while in the residential building it was up to 3.6 μg/m3. In residential building, increased concentrations of m, p-xylene, and ethylbenzene and styrene have also been observed. Toluene predominated in all studied rooms. High and very high indoor-to-outdoor (I/O) ratios were found. Indoor VOC sources produce more contaminants than are obtained from the infiltration of outdoor air. [ABSTRACT FROM AUTHOR]

Published
2020
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48. Air and surface soil samples – two different pairs of shoes? Comparing the pollen spectrum on different days of the pollen season.

Author

Bastl, Katharina, Bastl, Maximilian, Berger, Uwe, and Weber, Martina

Subjects
*SOIL sampling, *ALNUS glutinosa, *POLLEN, *FLOWERING of plants, *SOIL air
Abstract

The pollen spectra of air and surface soil samples from a rooftop (at 14 m) and from ground level (at 1.6 m) in the suburbs of Vienna (Austria) were compared. Two soil samples and two air samples were taken on four different days to account for possible differences: in winter when no pollination occurred (reference day), in spring during the main flowering of Betula (birch day), in spring/summer during the main flowering of Poaceae (grass day), and in autumn during the main flowering of Ambrosia (ragweed day). Thirty-five different pollen types were used to describe the pollen spectra. Frequencies of certain pollen types reflect a seasonal impact on both the surface soil and air samples and show a similarity between air and soil samples on most of the days. However, the seasonal impact is higher in the air samples and shows a high consistency for ground and rooftop level. Kendall's tau correlation coefficients further substantiate the similarities of the samples especially for the pollen season days. Exceptions include the winter day when pollination was low and the air samples recorded nearly no pollen at all, and the ragweed day when Ambrosia pollen was abundant in three of four samples but not in the ground surface soil sample. Thus, (1) air and surface pollen samples record similar signals during the pollen season but not during the ragweed and winter season and (2) air and surface pollen samples show the impact of local vegetation also in pollen traps located at different heights. [ABSTRACT FROM AUTHOR]

Published
2019
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49. Thermal plume simulation of VRF air conditioners for cooling system in high-rise buildings: A case study in China.

Author

Yin Zhang, Xiao Zhang, Shurui Guo, and Enshen Long

Subjects
*SKYSCRAPERS, *DWELLINGS, *OFFICE buildings, *COMPUTATIONAL fluid dynamics, *AIR flow, *AIR conditioning
Abstract

Variable refrigerant flow (VRF) air conditioning system is widely used in commercial and residential buildings for space cooling and heating. However, some practical VRF systems used in high-rise buildings cannot work efficiently or even stop working because of the relatively high ambient temperature, caused by thermal plume effect of exhaust heat from outdoor units. In this paper, the thermal plume air flow of layer-based VRF systems is investigated through computational fluids dynamics (CFD) simulation. Moreover, an illustrative example in a 30-storey office building in China is conducted to optimize the layout of VRF outdoor units. Preliminary results show that the exhaust heat of outdoor units can cause ascending thermal plume flow, leading to higher inlet temperatures for VRF air conditioners on upper floors. It also indicates that enlarging the distance between outdoor units on different floors is an effective way to impair such thermal plume effect and improve the system thermal performance. For the studied case, a modified layout of VRF outdoor units is presented with floor interval, and the average inlet temperatures can be decreased by 22%. This work can provide guidance to the optimization layout design of practical VRF air conditioning systems used in high-rise buildings. [ABSTRACT FROM AUTHOR]

Published
2019

50. Viable Airborne Fungi of Outdoor Environments of Yunusemre District, Manisa, Turkey.

Author

Kalyoncu, Fatih

Subjects
MICROBIOLOGICAL aerosols, PENICILLIUM, CLADOSPORIUM, FUNGI, ALLERGIES
Abstract

This research is on the viable air fungi was sampling during 12 months in the different points of Yunusemre. Fungal propagules were collected each month from eight isolation points. The concentrations of fungi were reported as cfu/m³ of air. Fungal identification was made according to their micro and macro morphological characters through the literature. As a result, the average concentration of culturable fungi is 412 cfu/m³ in Yunusemre air. 36 species in 9 genus were identified in this research. Penicillium is the most plenty genus that more than 33% of the all isolated fungi. Cladosporium was the preponderant fungal genus. [ABSTRACT FROM AUTHOR]

Published
2019
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