Fotokopi merkezlerinde partikül madde konsantrasyonlarının ve element kompozisyonlarının belirlenmesi
Bu çalışmada, Kocaeli’nde seçilen 9 farklı fotokopi merkezinde, fotokopi kullanımından kaynaklı iç ortam partikül madde kirliliğinin belirlenmesi amacıyla partikül madde örneklemeleri gerçekleştirilmiştir. Örnekler, 5 aşamalı Sioutas sıralı örnekleyici kullanılarak toplanmış ve element içerikleri ICP-MS analiz tekniği kullanılarak belirlenmiştir. Toplanan partikül maddelerin kütle konsantrasyonları ve element kompozisyonları, 5 farklı boyut aralığı (PM>2.5, PM2.5-1.0, PM1.0-0.5, PM0.5-0.25 ve PM
Determination of the concentrations and elemental compositions of particulate matter in photocopy centers
In this study, particulate matter sampling was carried out in order to determine the indoor air particle pollution arising from photocopying. For that purpose, 9 different photocopy centers were selected in Kocaeli. The samples were collected with using a 5-stage Sioutas Cascade Impactor and the elemental compositions were analysed with ICP-MS analysis technique. Mass concentrations and elemental compositions of particulate matter collected was determined for 5 different size fractions (PM>2.5, PM2.5-1.0, PM1.0-0.5, PM0.5-0.25 ve PM
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- R. Hetes, M. Moore, C. Northeim, “Office
Equipment: Design, Indoor Air Emissions, and
Pollution Prevention Opportunities”. U.S.EPA,
EPA/600/SR-95/045, 1995.
- S.K. Brown, “Assessment of Pollutant Emissions
from Dry-Process Photocopiers”. Indoor Air, vol.
9, pp. 259-267, 1999.
- J.H. Byeon, J.-W. Kim, “Particle Emission From
Laser Printers With Different Printing Speeds”.
Atmos. Environ., vol. 54, pp. 272-276, 2012.
- H. Jiang, L. Lu, “Measurement of the surface
charge of ultrafine particles from laser printers and
analysis of their electrostatic force”. Atmos.
Environ., vol. 44, pp. 3347-3351, 2010.
- K.W. Leovic, L.S Sheldon, D.A. Whitaker, R.G.
Hetes, J.A. Calcagni, J.N. Baskir, “Measurement of
Indoor Air Emissions from Dry-Process Photocopy
Machines,” J Air Waste Manage, vol. 46:9, pp.
821-829, 1996.
- D. Saraga, S. Pateraki, A. Papadopoulos, C.
Vasilakos, T. Maggos, “Studying The Indoor Air
Quality in Three Non-Residential Environments of
Different Use: A Museum, a Printery İndustry and
an Office,” Build Environ, vol. 46, pp. 2333-2341,
2011.
- C.-W. Lee, D.-J. Hsu, “Measurements of fine and
ultrafine particles formation in photocopy centers
in Taiwan,” Atmos Environ, vol. 41, pp. 6598–
6609, 2007.
- L. Morawska, C. He, G. Johnson, R. Jayaratne, T.
Salthammer, H. Wang, E. Uhde, T. Bostrom, R.
Modini, G. Ayoko, P. Mcgarry, M. Wensing, “An
Investigation into the Characteristics and
Formation Mechanisms of Particles Originating
from the Operation of Laser Printers,” Environ Sci
Technol, vol. 43, pp.1015–1022, 2009.
- G. Sangiorgi, L. Ferrero, B.S. Ferrini, C.L. Porto,
M.G. Perrone, R. Zangrando, A. Gambaro, Z.
Lazzati, E Bolzacc, “Indoor airborne particle
sources and semi-volatile partitioning effect of
outdoorfine PM in offices,” Atmos Environ, vol.
65, pp 205-214, 2013.
- M. Khatri, D. Bello, A.K. Pal, S. Woskie, T.H.
Gasset, P. Demokritou, P. Gaines, “Toxicological
effects of PM0.25–2.0 particles collected from a
photocopycenter in three human cell lines,” Inhal
Toxicol, vol. 25(11), pp. 621–632, 2013.
- O. Hanninen, I. Brüske-Hohlfeld, M. Loh, T.
Stoeger, W. Kreyling, O. Schmid, A. Peters,
“Occupational and Consumer Risk Estimates for Nanoparticles Emitted by Laser Printers,” J
Nanopart Res, vol. 12, pp. 91–99, 2010.
- R. Gminski, K. Decker, C. Heinz, A. Seidel, M.
Könczöl, E. Goldenberg, B. Grobety, W. Ebner, R.
Giere, V. Mersch-Sundermann, “Genotoxic Effects
of Three Selected Black TonerPowders and Their
Dimethyl Sulfoxide Extracts in Cultured Human
Epithelial A549 Lung Cells In Vitro,” Environ Mol
Mutagen, vol. 52, pp. 296-309, 2011.
- The University of Edinburgh, Health and Safety
Department (2010, April). Photocopiers and Laser
Printers Health Hazard. [Online]. Available:
http://www.docs.csg.ed.ac.uk/Safety/general/phot
ocopiers.pdf.
- U. Ewers, D. Nowak, “Health hazards caused by
emissions of laser printers and copiers?,”
Gefahrstoffe– Reinhaltung der Luft, vol. 66, pp.
203–210, 2006.
- P. Wolkoff, “Photocopiers and indoor air
pollution,” Atmos Environ, vol. 33, pp. 2129-2130,
1999.
- D. Bello, J. Martin, C. Santeufemio, Q. Sun, K.L.
Bunker, M. Shafer, P. Demokritou,
“Physicochemical and Morphological
Characterisation of Nanoparticles from
Photocopiers: İmplications for Environmental
Health,” Nanotoxicology, vol. 7(5), pp. 989–1003,
2013.
- Z.-M. Wang, J. Wagner, S. Wall, “Characterization
of Laser Printer Nanoparticle and VOC Emissions,
Formation Mechanisms, and Strategies to Reduce
Airborne Exposures,” Aerosol Sci Tech, vol. 45,
pp. 1060–1068, 2011.
- H. Destaillat, R.L. Maddalena, B.C. Singera, A.T.
Hodgsona, T.E. Mckona, “Indoor Pollutants
Emitted by Office Equipment: A Review of
Reported Data and Information Needs,” Atmos
Environ, vol. 42, pp. 1371–1388, 2008.
- M. Könczöl, A. Weißa, R. Gminski, I. Merfort, V.
Mersch-Sundermann, “Oxidative Stress and
Inflammatory Response to Printer Toner Particles
in Human Epithelial A549 Lung Cells,” Toxicol
Lett, vol. 216, pp. 171– 180, 2013.
- E. Uhde, C. He, M. Wensing, “Characterization of
Ultra-fine Particle Emissions from a Laser Printer”.
Proceedings of Healthy Buildings, pp. 479-482,
2006.
- H. Jiang, L. Lu. “Measurement of the Surface
Charge of Ultrafine Particles from Laser Printers and Analysis of Their Electrostatic Force,” Atmos
Environ, vol. 44, pp. 3347-33517, 2010.
- Occupational Safety and Health Council (OSHC),
“A Simple Guide to Health Risk Assessment;
Photocopying”. Office Environment Series, OE
3/2005; 5/2005-3-OHB52: 2005.
- M. Barthel, V. Pedan, O. Hahn, M. Rothhardt, H.
Bresch, O. Jann, S. Seeger, “XRF-Analysis of Fine
and Ultrafine Particles Emitted from Laser Printing
Devices,” Environ Sci Technol, vol. 45, pp. 7819–
7825, 2011.
- S. Yenisoy-Karakaş, E.O. Gaga, O. Cankur, D.
Karakaş, “Uncertainty of high resolution
inductively coupled plasma mass spectrometry
based aerosol measurements”. Talanta, vol. 79, pp.
1298-1305, 2009.
- S. Taner, B. Pekey, H. Pekey. “Fine particulate
matter in the indoor air of barbeque restaurants:
Elemental compositions, sources and health risks,”
Sci Total Environ, vol. 454–455, pp. 79–87, 2013.
- N. Elango, V. Kasi, B. Vembhu, J.G. Poornima,
“Chronic exposure to emissions from photocopiers
in copy shops causes oxidative stress and
systematic inflammation among photocopier
operators in India,” Environ Health, vol. 12, pp. 1-
12, 2013.
- M. Wensing, T. Schripp, E. Uhde, T. Salthammer,
“Ultra-fine particles release from hardcopy
devices: Sources, real-room measurements and
efficiency of filter accessories,” Sci Total Environ,
vol. 407(1), pp. 418-427, 2008.
- D.E. Saraga, L. Volanis, T. Maggos, C. Vasilakos,
K. Bairachtari, C.G. Helmis, “Workplace personal
exposure to respirable PM fraction: a study in
sixteen indoor environments,”Atmos Pol Res, vol.
5, pp. 431-437, 2014.
- Y.-Z. Tian, J.-H. Wu, G.-L. Shi, J.-Y. Wu, Y.-F.
Zhang, L.-D. Zhou, Y.-C. Feng. “Long-term
Variation Of The Levels, Compositions And
Sources Of Size-Resolved Particulate Matter in a
Megacity in China,” Sci Total Environ, vol. 463–
464, pp. 462–468, 2013.
- R. Zhang, J. Cao, Y. Tang, R. Arimoto, Z. Shen, F.
Wu, Y. Han, G. Wang, J. Zhang, G. Li, “Elemental
Profiles And Signatures Of Fugitive Dusts From
Chinese Deserts,” Sci Total Environ, vol. 472, pp.
1121–1129, 2014.
- L. Xu, Y. Yu, J. Yu, J. Chen, Z. Niu, L. Yin, F.
Zhang, X. Liao, Y. Chen Y, “Spatial distribution
and sources identification of elements in PM2.5 among the coastal city group in the Western
Taiwan Strait region, China,” Sci Total Environ,
vol. 442, pp. 77–85, 2013.
- X. Wang, X. Bi, G. Sheng, J. Fu, “Hospital indoor
PM10/PM2.5 and associated trace elements in
Guangzhou, China,” Sci Total Environ, vol. 366,
pp. 124– 135, 2006.
- N. Daher, N.A. Saliba, A.L. Shihadeh, M. Jaafar,
R. Baalbaki, M.M. Shafer, J.J. Schauer, C. Sioutas,
“Oxidative potential and chemical speciation of
size-resolved particulate matter (PM) at nearfreeway
and urban background sites in the greater
Beirut area,” Sci Total Environ, vol. 470–471, pp.
417–426, 2014.
- S. Castillo, J.D. de la Rosa, A.M. Sanchez de la
Campa, Y. Gonzalez-Castanedo, J.C. FernandezCaliani,
I. Gonzalez, A. Romero, “Contribution of
mine wastes to atmospheric metal deposition in the
surrounding area of an abandoned heavily polluted
mining district (Rio Tinto mines, Spain),” Sci Total
Environ, vol. 449, pp. 363–372, 2013.
- M. Rozic, M. Rozmaric Macefat, V. Orescanin,
“Elemental Analysis of Ashes of Office Papers by
EDXRF Spectrometry”, Nucl Instrum Meth B, vol.
229, pp. 117–122, 2005.
- R. Betha, V. Selvam, D.R. Blake, R.
Balasubramanian, “Emission Characteristics of
Ultrafine Particles and Volatile Organic
Compounds in a Commercial Printing Center,” J
Air Waste Manage, vol. 61, pp. 1093–1101, 2011.