Chemical composition of fogwater in an urban area: Strasbourg (France)

被引:48
作者
Millet, M [1 ]
Sanusi, A [1 ]
Wortham, H [1 ]
机构
[1] UNIV STRASBOURG 1,CNRS UPR 6251,CTR GEOCHIM SURFACE,F-67083 STRASBOURG,FRANCE
来源
ENVIRONMENTAL POLLUTION | 1996年 / 94卷 / 03期
关键词
fogwater; ionic composition; organic acids; metals; atmospheric acidity;
D O I
10.1016/S0269-7491(96)00064-4
中图分类号
X [环境科学、安全科学];
学科分类号
08 ; 0830 ;
摘要
To investigate the acidity and to identify the predominant compounds, this work presents the chemical analysis of 18 fogwater samples collected during the year 1991 in Strasbourg, in the east of France. For each fog event, two droplet size categories (2-6 mu m and 5-8 mu m) have been separately collected and Id ionic components have been analysed. These two fraction sizes were chosen because they correspond approximately to the size range that can penetrate the human lung and they may have possible health effects. The dominant species were NH4+, NO3-SO42- and Cl-, with a maximum level of 12640, 17270, 21620 and 13540 mu eq litre(-1), respectively. For most of the fog events the highest concentrations of all analysed species were observed in the 2-6 mu m droplets. pH values ranged between 2.79 and 5.70 and the fogwater acidity was governed by three strong acids, H2SO4, HNO3 and HCl and was partially neutralised by NH3 and probably by the presence of CaCO3 in the 'loess', which is the major constituent of soils in the upper Rhine valley. In other respects the acetate/formate ratio (methanoate/ethanoate), generally lower than 1, indicates an important pollution due to automobile exhaust, although the Pb concentrations are moderate due to the general use of unleaded gasoline in France since 1989. (C) 1997 Elsevier Science Ltd.
引用
收藏
页码:345 / 354
页数:10
相关论文
共 52 条
[1]   THE COLLECTION OF FOG DROPLETS BY A JET IMPACTION STAGE [J].
BERNER, A .
SCIENCE OF THE TOTAL ENVIRONMENT, 1988, 73 (03) :217-228
[2]   ON THE INFLUENCE OF THE PHYSICOCHEMICAL PROPERTIES OF AEROSOLS ON THE LIFE-CYCLE OF RADIATION FOGS [J].
BOTT, A .
BOUNDARY-LAYER METEOROLOGY, 1991, 56 (1-2) :1-31
[3]  
BROOK JR, 1992, J AEROSOL SCI, V23, pS977
[4]   HYDROPHOBIC ORGANIC-CHEMICALS IN URBAN FOG [J].
CAPEL, PD ;
LEUENBERGER, C ;
GIGER, W .
ATMOSPHERIC ENVIRONMENT PART A-GENERAL TOPICS, 1991, 25 (07) :1335-1346
[5]   POTENTIAL DEGASSING OF HYDROGEN-CHLORIDE FROM ACIDIFIED SODIUM-CHLORIDE DROPLETS [J].
CLEGG, SL ;
BRIMBLECOMBE, P .
ATMOSPHERIC ENVIRONMENT, 1985, 19 (03) :465-470
[6]   THE DISSOCIATION-CONSTANT AND HENRY LAW CONSTANT OF HCL IN AQUEOUS-SOLUTION [J].
CLEGG, SL ;
BRIMBLECOMBE, P .
ATMOSPHERIC ENVIRONMENT, 1986, 20 (12) :2483-2485
[7]   RELATIONSHIP BETWEEN RAIN AND SNOW ACIDITY AND AIR-MASS TRAJECTORY IN EASTERN FRANCE [J].
COLIN, JL ;
RENARD, D ;
LESCOAT, V ;
JAFFREZO, JL ;
GROS, JM ;
STRAUSS, B .
ATMOSPHERIC ENVIRONMENT, 1989, 23 (07) :1487-1498
[8]  
COLIN JL, 1990, ATMOS ENVIRON A-GEN, V24, P1939
[9]   CLOUD CHEMISTRY AT MT RIGI, SWITZERLAND - DEPENDENCE ON DROP SIZE AND RELATIONSHIP TO PRECIPITATION CHEMISTRY [J].
COLLETT, J ;
OBERHOLZER, B ;
STAEHELIN, J .
ATMOSPHERIC ENVIRONMENT PART A-GENERAL TOPICS, 1993, 27 (01) :33-42
[10]   SEASONAL AND TEMPORAL CHANGES OF ORGANIC-COMPOUNDS IN RAIN AND SNOW [J].
CZUCZWA, J ;
LEUENBERGER, C ;
GIGER, W .
ATMOSPHERIC ENVIRONMENT, 1988, 22 (05) :907-916
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