重新解读文献吸附数据，同时考虑到对有机碳的吸收和对黑碳的吸附。

Reinterpreting literature sorption data considering both absorption into organic carbon and adsorption onto black carbon.

作者信息

Accardi-Dey Amymarie, Gschwend Philip M

机构信息

Ralph M. Parsons Laboratory, MIT 48-415, Department of Civil and Environmental Engineering, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA.

出版信息

Environ Sci Technol. 2003 Jan 1;37(1):99-106. doi: 10.1021/es020569v.

DOI:10.1021/es020569v

PMID:12542297

Abstract

We hypothesized that the sorption of polycyclic aromatic hydrocarbons (PAHs) to natural sediments and soils should consider both absorption into a biogenic/diagenetic organic carbon (OC) fraction and adsorption onto a combustion-derived, black carbon (BC) fraction. Here, two sets of literature data were reevaluated to illustrate that an OC absorbent and a BC adsorbenttogether can (1) account for sediment--pore-waterdistribution coefficients observed in the field that are greater than predicted by a simple f(OC)K(OC) partitioning model and (2) explain a group of nonlinear phenanthrene isotherms observed in the laboratory with a single value for the BC-normalized distribution coefficient (log K(BC) = 6.1 i 0.04) and a Freundlich exponent (n approximately 0.6 if log K(OC) = 4.0) that is strongly dependent on the K(OC) value selected.

摘要

我们推测，多环芳烃（PAHs）在天然沉积物和土壤中的吸附作用应同时考虑其在生物成因/成岩有机碳（OC）组分中的吸收以及在燃烧衍生的黑碳（BC）组分上的吸附。在此，我们重新评估了两组文献数据，以说明OC吸收剂和BC吸附剂共同作用时能够：（1）解释在野外观察到的沉积物 - 孔隙水分配系数大于简单的f(OC)K(OC)分配模型预测值的现象；（2）用BC归一化分配系数的单一值（log K(BC) = 6.1 ± 0.04）和弗伦德利希指数（如果log K(OC) = 4.0，n约为0.6）解释在实验室中观察到的一组非线性菲等温线，该指数强烈依赖于所选择的K(OC)值。

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重新解读文献吸附数据，同时考虑到对有机碳的吸收和对黑碳的吸附。

Reinterpreting literature sorption data considering both absorption into organic carbon and adsorption onto black carbon.

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