HENRYS LAW AND THE BEHAVIOR OF WEAK ACIDS AND BASES IN FOG AND CLOUD

被引：40

作者：

WINIWARTER, W

FIERLINGER, H

PUXBAUM, H

FACCHINI, MC

ARENDS, BG

FUZZI, S

SCHELL, D

KAMINSKI, U

PAHL, S

SCHNEIDER, T

BERNER, A

SOLLY, I

KRUISZ, C

机构：

[1] VIENNA TECH UNIV,INST ANALYT CHEM,A-1060 VIENNA,AUSTRIA

[2] CNR,IST FISBAT,I-40129 BOLOGNA,ITALY

[3] NETHERLANDS ENERGY RES FDN,1755 ZG PETTEN,NETHERLANDS

[4] UNIV FRANKFURT,ZENTRUM UMWELTFORSCH,D-60054 FRANKFURT,GERMANY

[5] UNIV FRANKFURT,INST METEOROL & GEOPHYS,D-60054 FRANKFURT,GERMANY

[6] DEUTSCH WETTERDIENST,METEOROL OBSERV HAMBURG,D-22361 HAMBURG,GERMANY

[7] UNIV VIENNA,INST EXPTL PHYS,A-1090 VIENNA,AUSTRIA

来源：

JOURNAL OF ATMOSPHERIC CHEMISTRY | 1994年 / 19卷 / 1-2期

关键词：

GAS-LIQUID PARTITIONING; HENRYS LAW; FORMIC ACID; ACETIC ACID; AMMONIA; S(IV);

D O I：

10.1007/BF00696588

中图分类号：

X [环境科学、安全科学];

学科分类号：

08 ; 0830 ;

摘要：

Experimental data from two field experiments on ground based clouds were used to study the distribution of formic acid, acetic acid, ammonia and S(IV) species between liquid and gas phase. The ratio of the concentrations of these compounds between the phases during concurrent measurements was compared to ratios expected according to Henry's law (considering the pH influence). Large discrepancies of several orders of magnitude were seen. Three hypotheses have been investigated to explain the observed discrepancies: The existence of a microscale equilibrium which does not persist in a bulk sample, a thermodynamic shift of the equilibrium due to competing reactions, and nonequilibrium conditions due to mass transfer limitations. Approximate quantitative calculations show that none of these hypotheses is sufficient to explain all of the discrepancies, so a combination of different effects seems to be responsible for this observation. The same theoretical considerations also suggest that mass transfer limitation may be an important factor for highly soluble compounds. The data presented here indicates that it is not possible to simply extrapolate interstitial gas phase composition from measured bulk liquid phase concentrations of a fog or cloud.

引用

页码：173 / 188

页数：16

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