Comparison of real-time instruments and gravimetric method when measuring particulate matter in a residential building. (1st November 2016)
- Record Type:
- Journal Article
- Title:
- Comparison of real-time instruments and gravimetric method when measuring particulate matter in a residential building. (1st November 2016)
- Main Title:
- Comparison of real-time instruments and gravimetric method when measuring particulate matter in a residential building
- Authors:
- Wang, Zuocheng
Calderón, Leonardo
Patton, Allison P.
Sorensen Allacci, MaryAnn
Senick, Jennifer
Wener, Richard
Andrews, Clinton J.
Mainelis, Gediminas - Abstract:
- ABSTRACT: This study used several real-time and filter-based aerosol instruments to measure PM2.5 levels in a high-rise residential green building in the Northeastern US and compared performance of those instruments. PM2.5 24-hr average concentrations were determined using a Personal Modular Impactor (PMI) with 2.5 µm cut (SKC Inc., Eighty Four, PA) and a direct reading pDR-1500 (Thermo Scientific, Franklin, MA) as well as its filter. 1-hr average PM2.5 concentrations were measured in the same apartments with an Aerotrak Optical Particle Counter (OPC) (model 8220, TSI, Inc., Shoreview, MN) and a DustTrak DRX mass monitor (model 8534, TSI, Inc., Shoreview, MN). OPC and DRX measurements were compared with concurrent 1-hr mass concentration from the pDR-1500. The pDR-1500 direct reading showed approximately 40% higher particle mass concentration compared to its own filter (n = 41), and 25% higher PM2.5 mass concentration compared to the PMI2.5 filter. The pDR-1500 direct reading and PMI2.5 in non-smoking homes (self-reported) were not significantly different (n = 10, R 2 = 0.937), while the difference between measurements for smoking homes was 44% (n = 31, R 2 = 0.773). Both OPC and DRX data had substantial and significant systematic and proportional biases compared with pDR-1500 readings. However, these methods were highly correlated: R 2 = 0.936 for OPC versus pDR-1500 reading and R 2 = 0.863 for DRX versus pDR-1500 reading. The data suggest that accuracy of aerosol massABSTRACT: This study used several real-time and filter-based aerosol instruments to measure PM2.5 levels in a high-rise residential green building in the Northeastern US and compared performance of those instruments. PM2.5 24-hr average concentrations were determined using a Personal Modular Impactor (PMI) with 2.5 µm cut (SKC Inc., Eighty Four, PA) and a direct reading pDR-1500 (Thermo Scientific, Franklin, MA) as well as its filter. 1-hr average PM2.5 concentrations were measured in the same apartments with an Aerotrak Optical Particle Counter (OPC) (model 8220, TSI, Inc., Shoreview, MN) and a DustTrak DRX mass monitor (model 8534, TSI, Inc., Shoreview, MN). OPC and DRX measurements were compared with concurrent 1-hr mass concentration from the pDR-1500. The pDR-1500 direct reading showed approximately 40% higher particle mass concentration compared to its own filter (n = 41), and 25% higher PM2.5 mass concentration compared to the PMI2.5 filter. The pDR-1500 direct reading and PMI2.5 in non-smoking homes (self-reported) were not significantly different (n = 10, R 2 = 0.937), while the difference between measurements for smoking homes was 44% (n = 31, R 2 = 0.773). Both OPC and DRX data had substantial and significant systematic and proportional biases compared with pDR-1500 readings. However, these methods were highly correlated: R 2 = 0.936 for OPC versus pDR-1500 reading and R 2 = 0.863 for DRX versus pDR-1500 reading. The data suggest that accuracy of aerosol mass concentrations from direct-reading instruments in indoor environments depends on the instrument, and that correction factors can be used to reduce biases of these real-time monitors in residential green buildings with similar aerosol properties. Implications : This study used several real-time and filter-based aerosol instruments to measure PM2.5 levels in a high-rise residential green building in the northeastern United States and compared performance of those instruments. The data show that while the use of real-time monitors is convenient for measurement of airborne PM at short time scales, the accuracy of those monitors depends on a particular instrument. Bias correction factors identified in this paper could provide guidance for other studies using direct-reading instruments to measure PM concentrations. … (more)
- Is Part Of:
- Journal of the Air & Waste Management Association. Volume 66:Number 11(2016)
- Journal:
- Journal of the Air & Waste Management Association
- Issue:
- Volume 66:Number 11(2016)
- Issue Display:
- Volume 66, Issue 11 (2016)
- Year:
- 2016
- Volume:
- 66
- Issue:
- 11
- Issue Sort Value:
- 2016-0066-0011-0000
- Page Start:
- 1109
- Page End:
- 1120
- Publication Date:
- 2016-11-01
- Subjects:
- Air -- Pollution -- Periodicals
Air quality management -- Periodicals
Hazardous wastes -- Management -- Periodicals
Air Pollution -- prevention & control -- Periodicals
Hazardous Waste -- prevention & control -- Periodicals
Waste Management -- Periodicals
628.5305 - Journal URLs:
- http://secure.awma.org/journal/Archives.aspx ↗
http://vnweb.hwwilsonweb.com/hww/Journals/searchAction.jhtml?sid=HWW:ASTFT&issn=1096-2247 ↗
http://www.tandfonline.com/loi/uawm20 ↗
http://www.tandfonline.com/ ↗ - DOI:
- 10.1080/10962247.2016.1201022 ↗
- Languages:
- English
- ISSNs:
- 1047-3289
- Deposit Type:
- Legaldeposit
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