Source apportionment of PM10 at a small industrial area using Positive Matrix Factorization

被引：101

作者：

Lim, Jong-Myoung ^{[2
]}

Lee, Jin-Hong ^{[1
]}

Moon, Jong-Hwa ^{[2
]}

Chung, Yong-Sam ^{[2
]}

Kim, Ki-Hyun ^{[3
]}

机构：

[1] Chungnam Natl Univ, Dept Environm Engn, Taejon 305764, South Korea

[2] Korea Atom Energy Res Inst, Dept Nucl Basic Sci, Taejon 305353, South Korea

[3] Sejong Univ, Dept Earth & Environm Sci, Seoul 143747, South Korea

来源：

ATMOSPHERIC RESEARCH | 2010年 / 95卷 / 01期

基金：

新加坡国家研究基金会;

关键词：

PM10; Small industrial area; Positive matrix factorization; Conditional probability function; NEUTRON-ACTIVATION ANALYSIS; ATMOSPHERIC AEROSOL; TRACE-ELEMENTS; PARTICULATE MATTER; AIR-POLLUTION; SOURCE IDENTIFICATION; COARSE PARTICLES; MOTOR-VEHICLES; AMBIENT PM2.5; NATIONAL-PARK;

D O I：

10.1016/j.atmosres.2009.08.009

中图分类号：

P4 [大气科学（气象学）];

学科分类号：

0706 ; 070601 ;

摘要：

In this study, PM10-bound concentrations of 28 trace metals and 3 ionic components were measured from samples collected at Daejeon Industrial Complexes I and II, Korea from April 2000 to December 2002. Positive matrix factorization (PMF) and conditional probability function (CPF) were applied to these PM data sets to identify the diverse sources in the industrial area. A total of nine source types were identified to be important which include: secondary aerosol, cement/construction, soil dust, road dust, vehicle exhaust, incineration/Pb-related industry, metal smelting, fossil fuel combustion, and field burning. Results of our study suggest that there are competing relationships between anthropogenic and natural source processes in this industrial area. (C) 2009 Elsevier B.V. All rights reserved.

引用

页码：88 / 100

页数：13

共 49 条

[1] Impact of fugitive dust emissions from cement plants on nearby communities
Abdul-Wahab, Sabah A.
[J]. ECOLOGICAL MODELLING, 2006, 195 (3-4) : 338 - 348
[2] Speciation of Pb, Cu and Zn determined by sequential extraction for identification of air pollution sources in Syria
Al-Masri, MS
Al-Kharfan, K
Al-Shamali, K
[J]. ATMOSPHERIC ENVIRONMENT, 2006, 40 (04) : 753 - 761
[3] A RESIDENCE TIME PROBABILITY ANALYSIS OF SULFUR CONCENTRATIONS AT GRAND-CANYON-NATIONAL-PARK
ASHBAUGH, LL
MALM, WC
SADEH, WZ
[J]. ATMOSPHERIC ENVIRONMENT, 1985, 19 (08) : 1263 - 1270
[4] Investigation of sources of atmospheric aerosol at urban and semi-urban areas in Bangladesh
Begum, BA
Kim, E
Biswas, SK
Hopke, PK
[J]. ATMOSPHERIC ENVIRONMENT, 2004, 38 (19) : 3025 - 3038
[5] Source apportionment of PM10 in six cities of northern China
Bi, Xiaohui
Feng, Yinchang
Wu, Jianhui
Wang, Yuqiu
Zhu, Tan
[J]. ATMOSPHERIC ENVIRONMENT, 2007, 41 (05) : 903 - 912
[6] Total potential source contribution function analysis of trace elements determined in aerosol samples collected near Lake Huron
Biegalski, SR
Hopke, PK
[J]. ENVIRONMENTAL SCIENCE & TECHNOLOGY, 2004, 38 (16) : 4276 - 4284
[7] MEASUREMENT METHODS TO DETERMINE COMPLIANCE WITH AMBIENT AIR-QUALITY STANDARDS FOR SUSPENDED PARTICLES
CHOW, JC
[J]. JOURNAL OF THE AIR & WASTE MANAGEMENT ASSOCIATION, 1995, 45 (05) : 320 - 382
[8] Investigation of sources of atmospheric aerosol at urban and suburban residential areas in Thailand by positive matrix factorization
Chueinta, W
Hopke, PK
Paatero, P
[J]. ATMOSPHERIC ENVIRONMENT, 2000, 34 (20) : 3319 - 3329
[9] COHEN DD, 2004, J GEOPHYS RES, V109, DOI DOI 10.1029/2003JD004227
[10] Seasonal variations in aerosol composition and acidity at Shenandoah and Great Smoky Mountains National Parks
Day, DE
Malm, WC
Kreidenweis, SM
[J]. JOURNAL OF THE AIR & WASTE MANAGEMENT ASSOCIATION, 1997, 47 (03): : 411 - 418

← 1 2 3 4 5 →