Exposure to pottery kiln emissions : a pilot study to measure potters’ exposures to the vaporous and ærosols during the firing process

Exposure to pottery kiln emissions : a pilot study to measure potters’ exposures to the vaporous and ærosols during the firing process

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Area samples for gases and metals were taken at 10 sites from each of five categories: professional studios, recreation centres, elementary schools, secondary schools, and colleges. Reported concentrations are in ug/m3 unless otherwise specified. Means and maxima are reported for substances detectab...

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Main Author: Hirtle, Robert Douglas
Format: Others
Language:English
Published: 2009
Online Access:http://hdl.handle.net/2429/5767
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spelling ndltd-UBC-oai-circle.library.ubc.ca-2429-57672018-01-05T17:32:42Z Exposure to pottery kiln emissions : a pilot study to measure potters’ exposures to the vaporous and ærosols during the firing process Hirtle, Robert Douglas Area samples for gases and metals were taken at 10 sites from each of five categories: professional studios, recreation centres, elementary schools, secondary schools, and colleges. Reported concentrations are in ug/m3 unless otherwise specified. Means and maxima are reported for substances detectable at 50% or more of all sites: nitrogen dioxide (0.021 ppm, 0.060 ppm), aluminum (1.13, 15.6), barium (0.015, 0.091), boron (0.534, 5.25), iron (0.549, 4.04), manganese (0.013, 0.094). Only maximum values are reported for substances with fewer than 25 of the 50 measurements above detection limits: sulfur dioxide (0.508 ppm), fluorides (0.152 ppm), formaldehyde (0.102 ppm), carbon monoxide (7 ppm), antimony (0.010), beryllium (0.002), cadmium (0.114), chromium (0.431), cobalt (0.169), copper (0.002), lead (0.208), lithium (0.015), magnesium (4.25), mercury (0.017), nickel (0.291), selenium (0.249), silver (0.003), vanadium (5.22), and zinc (1.50). There were no detectable levels of arsenic or gold. Personal metal exposures were sampled at 24 sites. Means and maxima are reported for metals present at more than 50% of all sites. Where more than 50% of all values are below detection limits, only maxima are reported. Aluminum (7.82, 62.8), barium (0.085, 0.368), beryllium (0.005) boron (0.655, 3.89), cadmium (0.999), chromium (0.306), cobalt (0.069, 0.863), copper (0.075, 0.312), iron (2.51, 27.0), lead (0.788), lithium (0.125), magnesium (1.87, 9.57), manganese (0.056,0.174), nickel (0.175), silver (1.76), zinc (0.359,3.58). There were no detectable levels of antimony, arsenic, gold, mercury, selenium, or vanadium. In general, measured concentrations were well below North American occupational limits. Personal metal exposures tended to exceed kiln area concentrations, suggesting other important sources of metal exposure. Small, ventilated kiln rooms, with contaminant concentrations ranking among the highest measured, indicate a potential for higher contamination. Industrial exhaust hoods accompanied by HVAC systems proved the most effective ventilation strategy. Medicine, Faculty of Population and Public Health (SPPH), School of Graduate 2009-03-09T19:31:52Z 2009-03-09T19:31:52Z 1996 1997-05 Text Thesis/Dissertation http://hdl.handle.net/2429/5767 eng For non-commercial purposes only, such as research, private study and education. Additional conditions apply, see Terms of Use https://open.library.ubc.ca/terms_of_use. 4196429 bytes application/pdf
collection NDLTD
language English
format Others
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description Area samples for gases and metals were taken at 10 sites from each of five categories: professional studios, recreation centres, elementary schools, secondary schools, and colleges. Reported concentrations are in ug/m3 unless otherwise specified. Means and maxima are reported for substances detectable at 50% or more of all sites: nitrogen dioxide (0.021 ppm, 0.060 ppm), aluminum (1.13, 15.6), barium (0.015, 0.091), boron (0.534, 5.25), iron (0.549, 4.04), manganese (0.013, 0.094). Only maximum values are reported for substances with fewer than 25 of the 50 measurements above detection limits: sulfur dioxide (0.508 ppm), fluorides (0.152 ppm), formaldehyde (0.102 ppm), carbon monoxide (7 ppm), antimony (0.010), beryllium (0.002), cadmium (0.114), chromium (0.431), cobalt (0.169), copper (0.002), lead (0.208), lithium (0.015), magnesium (4.25), mercury (0.017), nickel (0.291), selenium (0.249), silver (0.003), vanadium (5.22), and zinc (1.50). There were no detectable levels of arsenic or gold. Personal metal exposures were sampled at 24 sites. Means and maxima are reported for metals present at more than 50% of all sites. Where more than 50% of all values are below detection limits, only maxima are reported. Aluminum (7.82, 62.8), barium (0.085, 0.368), beryllium (0.005) boron (0.655, 3.89), cadmium (0.999), chromium (0.306), cobalt (0.069, 0.863), copper (0.075, 0.312), iron (2.51, 27.0), lead (0.788), lithium (0.125), magnesium (1.87, 9.57), manganese (0.056,0.174), nickel (0.175), silver (1.76), zinc (0.359,3.58). There were no detectable levels of antimony, arsenic, gold, mercury, selenium, or vanadium. In general, measured concentrations were well below North American occupational limits. Personal metal exposures tended to exceed kiln area concentrations, suggesting other important sources of metal exposure. Small, ventilated kiln rooms, with contaminant concentrations ranking among the highest measured, indicate a potential for higher contamination. Industrial exhaust hoods accompanied by HVAC systems proved the most effective ventilation strategy. === Medicine, Faculty of === Population and Public Health (SPPH), School of === Graduate
author Hirtle, Robert Douglas
spellingShingle Hirtle, Robert Douglas
Exposure to pottery kiln emissions : a pilot study to measure potters’ exposures to the vaporous and ærosols during the firing process
author_facet Hirtle, Robert Douglas
author_sort Hirtle, Robert Douglas
title Exposure to pottery kiln emissions : a pilot study to measure potters’ exposures to the vaporous and ærosols during the firing process
title_short Exposure to pottery kiln emissions : a pilot study to measure potters’ exposures to the vaporous and ærosols during the firing process
title_full Exposure to pottery kiln emissions : a pilot study to measure potters’ exposures to the vaporous and ærosols during the firing process
title_fullStr Exposure to pottery kiln emissions : a pilot study to measure potters’ exposures to the vaporous and ærosols during the firing process
title_full_unstemmed Exposure to pottery kiln emissions : a pilot study to measure potters’ exposures to the vaporous and ærosols during the firing process
title_sort exposure to pottery kiln emissions : a pilot study to measure potters’ exposures to the vaporous and ærosols during the firing process
publishDate 2009
url http://hdl.handle.net/2429/5767
work_keys_str_mv AT hirtlerobertdouglas exposuretopotterykilnemissionsapilotstudytomeasurepottersexposurestothevaporousandærosolsduringthefiringprocess
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