TY - JOUR
T1 - Sampling and conditioning artifacts of PM2.5 in filter-based samplers
AU - Liu, Chun Nan
AU - Lin, Sih Fan
AU - Awasthi, Amit
AU - Tsai, Chuen-Tinn
AU - Wu, Yueh Chuen
AU - Chen, Chung Fang
PY - 2014/3
Y1 - 2014/3
N2 - Field studies were conducted at Taiwan National Chiao-Tung University (NCTU) campus to evaluate the evaporation loss of fine particles (PM2.5) collected by the multi-filter PM10-PM2.5 sampler (MFPPS), which was collocated with a dichotomous sampler (Dichot, Andersen, Model SA-241), a WINS PM2.5 sampler (Thermo, Model 2000-FRM), and a tapered element oscillating microbalance with the filter dynamic measurement system (TEOM-FDMS, Thermo, Model 1405-DF). Porous-metal denuder samplers (PDSs) were installed in sampling channels of the MFPPS to measure the concentration of evaporated ion species. Results showed that the evaporation loss in PM2.5 was severe during sampling, accounting for 5.8-36.0% of the corrected PM2.5 concentration and the percentage increased with decreasing loaded particle mass and increasing filtration velocity. During 24-h sampling, the evaporated NH4+, NO3- and Cl- concentrations accounted for 9.5±6.2, 5.4±3.7, and 2.0±1.3% in corrected PM2.5 concentration, respectively, or 46.4±19.2, 66.9±18.5, and 74.4±14.0% in the concentration of each species, respectively. Due to the evaporation loss, PM2.5 concentrations measured by the WINS, Dichot, and MFPPS were lower than those the TEOM-FDMS by 16.6±9.0, 15.2±10.6 and 12.5±8.8%, respectively. When the MFPPS PM2.5 concentrations were corrected for the evaporated loss determined by the PDS, good agreement with those by the TEOM-FDMS was achieved.
AB - Field studies were conducted at Taiwan National Chiao-Tung University (NCTU) campus to evaluate the evaporation loss of fine particles (PM2.5) collected by the multi-filter PM10-PM2.5 sampler (MFPPS), which was collocated with a dichotomous sampler (Dichot, Andersen, Model SA-241), a WINS PM2.5 sampler (Thermo, Model 2000-FRM), and a tapered element oscillating microbalance with the filter dynamic measurement system (TEOM-FDMS, Thermo, Model 1405-DF). Porous-metal denuder samplers (PDSs) were installed in sampling channels of the MFPPS to measure the concentration of evaporated ion species. Results showed that the evaporation loss in PM2.5 was severe during sampling, accounting for 5.8-36.0% of the corrected PM2.5 concentration and the percentage increased with decreasing loaded particle mass and increasing filtration velocity. During 24-h sampling, the evaporated NH4+, NO3- and Cl- concentrations accounted for 9.5±6.2, 5.4±3.7, and 2.0±1.3% in corrected PM2.5 concentration, respectively, or 46.4±19.2, 66.9±18.5, and 74.4±14.0% in the concentration of each species, respectively. Due to the evaporation loss, PM2.5 concentrations measured by the WINS, Dichot, and MFPPS were lower than those the TEOM-FDMS by 16.6±9.0, 15.2±10.6 and 12.5±8.8%, respectively. When the MFPPS PM2.5 concentrations were corrected for the evaporated loss determined by the PDS, good agreement with those by the TEOM-FDMS was achieved.
KW - Evaporation loss
KW - PM artifacts
KW - TEOM-FDMS
KW - Teflon filter
UR - http://www.scopus.com/inward/record.url?scp=84890891555&partnerID=8YFLogxK
U2 - 10.1016/j.atmosenv.2013.11.075
DO - 10.1016/j.atmosenv.2013.11.075
M3 - Article
AN - SCOPUS:84890891555
SN - 1352-2310
VL - 85
SP - 48
EP - 53
JO - Atmospheric Environment
JF - Atmospheric Environment
ER -