Your search keyword '"uzorkovanje zraka"' showing total 3 results

1. Air sampling by pumping through a filter: effects of air flow rate, concentration, and decay of airborne substances.

Author

Šoštarić, Marko, Petrinec, Branko, and Babić, Dinko

Abstract

This paper tackles the issue of interpreting the number of airborne particles adsorbed on a filter through which a certain volume of sampled air has been pumped. This number is equal to the product of the pumped volume and particle concentration in air, but only if the concentration is constant over time and if there is no substance decomposition on the filter during sampling. If this is not the case, one must take into account the inconstancy of the concentration and the decay law for a given substance, which is complicated even further if the flow rate through the filter is not constant. In this paper, we develop a formalism which considers all of these factors, resulting in a single, compact expression of general applicability. The use of this expression is exemplified by addressing a case of sampling airborne radioactive matter, where the decay law is already well known. This law is combined with three experimentally observed time dependences of the flow rate and two models for the time dependence of the particle concentration. We also discuss the implications of these calculations for certain other situations of interest to environmental studies. [ABSTRACT FROM AUTHOR]

Published

2016

2. Air sampling by pumping through a filter: effects of air flow rate, concentration, and decay of airborne substances

Author

Marko Šoštarić, Branko Petrinec, and Dinko Babić

Subjects

uzorkovanje zraka, koncentracija čestica, protok, radioaktivnost, raspad tvari, air sampling filters, particle concentration, radioactivity, substance decomposition

Abstract

This paper tackles the issue of interpreting the number of airborne particles adsorbed on a filter through which a certain volume of sampled air has been pumped. This number is equal to the product of the pumped volume and particle concentration in air, but only if the concentration is constant over time and if there is no substance decomposition on the filter during sampling. If this is not the case, one must take into account the inconstancy of the concentration and the decay law for a given substance, which is complicated even further if the flow rate through the filter is not constant. In this paper, we develop a formalism which considers all of these factors, resulting in a single, compact expression of general applicability. The use of this expression is exemplified by addressing a case of sampling airborne radioactive matter, where the decay law is already well known. This law is combined with three experimentally observed time dependences of the flow rate and two models for the time dependence of the particle concentration. We also discuss the implications of these calculations for certain other situations of interest to environmental studies., Tema je ovoga rada problem s brojem lebdećih čestica apsorbiranih na filtar kroz koji je pumpan i time uzorkovan određeni volumen zraka. Taj broj jednak je umnošku uzorkovanog volumena i koncentracije čestica samo ako je protok stalan u vremenu i nema raspada tvari na filtru tijekom uzorkovanja. U protivnom se mora uzeti u obzir zakon raspada za određenu tvar, što se još više komplicira ako protok kroz filtar nije konstantan. Razvili smo formalizam koji uključuje sve ove čimbenike, što je rezultiralo jednim kompaktnim izrazom opće primjenjivosti. Uporaba ovoga izraza demonstrirana je na slučaju uzorkovanja radioaktivnih tvari u zraku, za koje je zakon radioaktivnoga raspada dobro poznat. Taj je zakon kombiniran s trima eksperimentalno opaženim vremenskim ovisnostima protoka i dvama modelima za vremensku ovisnost koncentracije čestica. Također je diskutirana primjena tih izračuna u nekim drugim interesnim situacijama u istraživanjima okoliša.

Published

2016

3. Povišenje koncentracije tumorskoga nekrotizirajućeg faktora-alfa i promjena aktivnosti enzima laktat dehidrogenaze u radnika eksponiranih prašini stočne hrane onečišćene mikotoksinima

Author

Nopparat Nuntharatanapong, Teerayut Suramana, Sasithorn Chaemthavorn, Kalaya Zapuang, Ekapon Ritta, Saowanee Semathong, Sirilak Chuamorn, Veera Niyomwan, Nikorn Dusitsin, Ornrat Lohinavy, and Palarp Sinhaseni

Subjects

air sampling, animal feed, chemosorbent, ELISA, mycotoxins, occupational exposure, kemijski adsorbensi, profesionalna izloženost, uzorkovanje zraka, technology, industry, and agriculture, food and beverages

Abstract

Six types of animal-feed ingredients and swine mixed feeds from factories in northern Thailand were sampled for analysis of mycotoxins. Mycotoxins found in foodstuffs included aflatoxins, fumonisins, ochratoxins, T-2 toxin, vomitoxin and zearalenone. Samples of airborne dust generated while handling animal feed were collected and analysed to assess exposure of workers to aflatoxins. The average aflatoxin level in the control air samples was 0.99 ng/m.3. Higher levels of aflatoxins were found in the air samples taken by samplers attached to five workers adding hydrated sodium calcium aluminosilicate to animal feed (group 1; 1.55 ng/m.3) and five workers adding glucomannan to animal feed (group 2; 6.25 ng/m.3). The exposed workers showed a change in lactate dehydrogenase isoenzyme activity and tumor necrosis factor- levels in plasma. These changes may be associated with inhalation of mycotoxins and other contaminants in foodstuff. Occupational exposure to mycotoxins and mycotoxin adsorbents needs further evaluation in order to set up a proper system for long term surveillance of exposed population., U ovome radu autori su analizirali mikotoksine u uzorcima 6 vrsta mješavina hrane za svinje iz Sjeverne provincije u Tajlandu, a sa svrhom procjene ekspozicije radnika prašini kontaminiranoj mikotoksinima. Pratili su i neke biološke učinke u 10 eksponiranih radnika i u 4 neeksponirana, koji su služili za usporedbu. U uzorcima hrane za svinje utvrdili su prisutnost aflatoksina, fumonizina, okratoksina, T-2-toksina, vomitoksina i zeralenona. Uzorci udisanog zraka skupljani su individualnim sisaljkama za uzorkovanje, i to tijekom 8-satnog rada i uz protok od 2.000 ml/min. Aflatoksine u skupljenim uzorcima zraka analizirali su s pomoću ELISA kita. Prva skupina od 5 radnika bila je eksponirana prašini iz mješavine stočne hrane kojoj je prethodno dodan adsorbens aluminijev silikat. Uzorak je sadržavao 1,55 ng aflatoksina u m3 usisanog zraka. Drugih 5 radnika koji su radili sa stočnom hranom kojoj je prethodno primiješan adsorbens glukomanan bila je eksponirana prašini što je sadržavala 6,25 ng aflatoksina u m3 udisanog zraka. U uzorcima udisanog zraka neeksponiranih osoba bilo je 0,99 ng aflatoksina u m3. Aktivnost izoenzima LDH u plazmi određivana je elektroforezom. U eksponiranih radnika aktivnost LDH1 bila je značajno (P

Published

2001