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日落半连续碳气溶胶分析仪的特性描述。

Characterization of the sunset semi-continuous carbon aerosol analyzer.

作者信息

Bauer Jace J, Yu Xiao-Ying, Cary Robert, Laulainen Nels, Berkowitz Carl

机构信息

Department of Earth and Atmospheric Sciences, Purdue University, West Lafayette, IN, USA.

出版信息

J Air Waste Manag Assoc. 2009 Jul;59(7):826-33. doi: 10.3155/1047-3289.59.7.826.

DOI:10.3155/1047-3289.59.7.826
PMID:19645267
Abstract

The field-deployable Sunset Semi-Continuous Organic Carbon/Elemental Carbon (Sunset OCEC) aerosol analyzer utilizes the modified National Institute for Occupational Safety and Health thermal-optical method to determine total carbon (TC), organic carbon (OC), and elemental carbon (EC) at near real-time. Two sets of OC and EC are available: thermal OC and EC, and optical OC and EC. The former is obtained by the thermal-optical approach, and the latter is obtained by directly determining EC optically and deriving optical OC from TC. However, the performance of the Sunset OCEC is not yet fully characterized. Two collocated Sunset OCEC analyzers, Unit A and Unit B, were used to determine the pooled relative standard deviation (RSD) and limit of detection (LOD) between September 18 and November 6, 2007 in Richland, WA. The LOD of Unit A was approximately 0.2 microgC/m3 (0.1 microgC/cm2) for TC, optical OC, and thermal OC, and 0.01 microgC/m3 (0.01 microgC/cm2) for optical EC. Similarly, Unit B had an LOD of approximately 0.3 microgC/m3 (0.2 microgC/cm2) for TC, optical OC, and thermal OC, and 0.02 microgC/m3 (0.01 microgC/cm2) for optical EC. The LOD for thermal EC is estimated to be 0.2 microgC/m3 (0.1 microgC/cm2) for both units. The pooled RSDs were 4.9% for TC (carbon mass loadings 0.6-6.0 microgC/cm2), 5.6% for optical OC (carbon mass loadings 0.6-5.4 microgC/cm2), 5.3% for thermal OC (carbon mass loadings 0.6-5.3 microgC/ cm2), and 9.6% for optical EC (carbon mass loadings 0-1.4 microgC/cm2), which indicates good precision between the instruments. The RSD for thermal EC is higher at 24.3% (carbon mass loadings 0-1.2 microgC/cm2). Low EC mass loadings in Richland contributed to the poor RSD of EC. The authors found that excessive noise from the nondispersive infrared (NDIR) laser in the Sunset OCEC analyzer could result in a worsened determination of OC and EC. It is recommended that a "quieter" NDIR laser and detector be used in the Sunset OCEC analyzer to improve quantification. Future work should re-evaluate the precision of the EC parameters in an environment favorable for EC collection. Investigation among quantification differences using various thermal-optical protocols to determine OC and EC is also in need.

摘要

现场可部署的日落半连续有机碳/元素碳(日落OCEC)气溶胶分析仪采用经改进的美国国家职业安全与健康研究所热光法,近乎实时地测定总碳(TC)、有机碳(OC)和元素碳(EC)。有两组OC和EC数据:热OC和EC,以及光学OC和EC。前者通过热光法获得,后者通过直接光学测定EC并从TC推导光学OC获得。然而,日落OCEC的性能尚未得到充分表征。2007年9月18日至11月6日期间,在华盛顿州里奇兰,使用两台并置的日落OCEC分析仪A单元和B单元,测定合并相对标准偏差(RSD)和检测限(LOD)。A单元对TC、光学OC和热OC的LOD约为0.2μgC/m³(0.1μgC/cm²),对光学EC的LOD为0.01μgC/m³(0.01μgC/cm²)。同样,B单元对TC、光学OC和热OC的LOD约为0.3μgC/m³(0.

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