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One-year-long, comprehensive analysis of pm number and mass size distributions in Warszawa (Poland)

Bihałowicz Jan Stefan, Rogula-Kozłowska Wioletta, Rogula-Kopiec Patrycja, Świsłowski Paweł, Rajfur Małgorzata, Tomasz Olszowski

Ecological Chemistry and Engineering. S

2023

Vol. 30, nr 4

541--556

The properties of particulate matter PM, including its impact on the environment and human health, depend mainly on the size (more precisely: size distribution) of the particles since the size is usually dependent on the processes/sources of the PM. This work presents the results of a one-year-long measurement campaign of PM. PALAS Fidas 200 from Airpointer air quality station was used. The PM was measured in Warsaw, Poland continuously from 1st May 2022 to 30th April 2023; size distribution was recorded with 120 s intervals and averaged in 3600 s periods. It was found, that the number and the mass size distribution varied depending on the averaging period (different hours of the day, different days of the week, and different months of the year). Additionally, the authors determined the periods of impact on selected sources (traffic emission, municipal emission, and industrial emission) on the number and mass size distributions of PM at the sampling site. Monitoring of number and mass size distributions of PM is a relatively easy and more cost-effective method than analysing the chemical composition of PM. Therefore, is crucial to develop a method of identifying sources of PM based on size distributions. It was found that such a method can be in the future as successful in source apportionment as in the analysis of chemical compositions.

Effect of electronic cigarette (EC) aerosols on particle size distribution in indoor air and in a radon chamber

Khalaf Hyam Nazmy, Mostafa Mostafa Y. A., Zhukovsky Michael

Nukleonika

2019

Vol. 64, No. 1

31--38

Particle size distribution is an important factor governing whether aerosols can be deposited in various respiratory tract regions in humans. Recently, electronic cigarette (EC), as the alternative of tobacco cigarette, has become increasingly popular all over the world. However, emissions from ECs may contribute to both indoor and outdoor air pollution; moreover, comments about their safety remain controversial, and the number of users is increasing rapidly. In this investigation, aerosols were generated from ECs and studied in the indoor air and in a chamber under controlled conditions of radon concentration. The generated aerosols were characterized in terms of particle number concentrations, size, and activity distributions by using aerosol diffusion spectrometer (ADS), diffusion battery, and cascade impactor. The range of ADS assessment was from 10–3 µm to 10 µm. The number concentration of the injected aerosol particles was between 40 000 and 100 000 particles/cm3. The distribution of these particles was the most within the ultrafi ne particle size range (0–0.2 µm), and the other particle were in the size range from 0.3 µm to 1 µm. The surface area distribution and the mass size distribution are presented and compared with bimodal distribution. In the radon chamber, all distributions were clearly bimodal, as the free radon decay product was approximately 1 nm in diameter, with a fraction of 0.7 for a clean chamber (without any additional source of aerosols). The attached fraction with the aerosol particles from the ECs had a size not exceeding 1.0 µm.

Monitoring of Indoor Ultrafine Particulate Matter at the Sites of the Czech Armed Forces

Kellnerova Eva, Vecera Zbynek, Kellner Josef, Zeman Tomas

Inżynieria Mineralna

2019

R. 21, nr 1

163--167

Ultrafine particles and nanoparticles in the air are evaluated as a risk factor for the development of respiratory and other health symptoms due to their inhalation from the ambient air. The Czech Army professionals are expected to have frequent presence in a polluted environment and regular exposure to air with increased concentration of airborne pollutants. The report evaluates the presence of ultra-fine particles (in the range of about 7.6–299.6 nm) in rooms often used by soldiers during their working hours when they are not deployed. The purpose is to assess whether the presence of troops in these workplaces is safe and does not pose a risk of adverse health effects in itself. Testing took place in three military rooms (classroom 1, classroom 2 and exercise flight simulator room). Seven samples of air were analysed in time by the scanning mobility particle sizer in succession. Mean particle concentrations were found at 1.79×104, 7.53×103 and 8.39×103 N·cm-3 for the classroom 1, classroom 2 and exercise flight simulator room. Conclusions of the research have shown that particle concentrations in the places of the Czech Army can reach values that border the immission limits stated by the World Health Organisation.

Najdrobniejsze cząstki i nanocząsteczki w powietrzu są oceniane jako czynnik ryzyka dla dróg oddechowych i innych objawów zdrowotnych spowodowanych ich wdychaniem z otaczającego powietrza. Oczekuje się, że specjaliści z czeskiej armii będą często obecni w zanieczyszczonym środowisku i będą regularnie narażeni na kontakt z powietrzem o zwiększonej koncentracji zanieczyszczeń. Raport ocenia obecność ultradrobnych cząstek (w zakresie około 7,6–299,6 nm) w pomieszczeniach często używanych przez żołnierzy w godzinach pracy. Celem jest ocena, czy obecność wojsk w tych miejscach pracy jest bezpieczna i sama w sobie nie stwarza ryzyka negatywnych skutków zdrowotnych. Testowanie odbyło się w trzech pomieszczeniach wojskowych (sala 1, sala 2 i sala do ćwiczeń). Siedem próbek powietrza analizowano w czasie przez separator cząstek. Stwierdzone średnie stężenia cząstek 1,79 × 104, 7,53 × 103 i 8,39 × 103 [N · cm-3] w sali lekcyjnej 1, klasie 2 i sali do ćwiczeń. Wnioski z badań wykazały, że stężenia cząstek w wybranych pomieszczeniach czeskiej armii mogą osiągnąć wartości graniczące z limitami imisji podanymi przez Światową Organizację Zdrowia.