A New Two-Parameter Isotherm for Modeling Adsorptive Removal of Water Contaminants

IF 1.6 4区环境科学与生态学 Q3 ENGINEERING, CIVIL

Journal of Environmental Engineering Pub Date : 2023-11-01 DOI:10.1061/joeedu.eeeng-7419

Khim Hoong Chu, Mohd Ali Hashim, Jean Debord, Michel Harel, Jean-Claude Bollinger

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Abstract

The two-parameter Elovich isotherm is increasingly being used to describe the adsorption of water contaminants on solid materials. This isotherm is derived from a modified version of Langmuir’s kinetic theory for saturable adsorption. However, despite incorporating a saturation capacity parameter, the Elovich isotherm fails to predict an adsorption maximum at high concentrations. As a result, there are disparities between the estimated and observed saturation capacities. In this study, we have identified a conceptual flaw within the Elovich isotherm responsible for this anomaly. By introducing modifications to the theoretical derivation of the Elovich isotherm, we have rectified the conceptual defect. The modified isotherm retains the two parameters of the Elovich isotherm but possesses a different mathematical structure. In contrast to the Elovich isotherm, the new isotherm provides estimated saturation capacities that align closely with the observed values. A comparative analysis demonstrates the superiority of the new isotherm over the Elovich isotherm in fitting data featuring a plateau. However, the new isotherm is loading-implicit, posing challenges in data fitting. To overcome this limitation, we have developed a novel method to convert the loading-implicit isotherm into an explicit form. This conversion enables convenient data fitting and facilitates the evaluation of the site energy distribution of heterogeneous adsorbents.

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一种新的双参数等温线模拟吸附去除水中污染物

双参数Elovich等温线越来越多地被用于描述固体材料对水污染物的吸附。这条等温线是由Langmuir的饱和吸附动力学理论的一个改进版本推导出来的。然而，尽管加入了饱和容量参数，Elovich等温线不能预测高浓度下的吸附最大值。因此，估计的饱和容量和观测到的饱和容量之间存在差异。在这项研究中，我们已经确定了Elovich等温线中造成这种异常的概念缺陷。通过对埃洛维奇等温线的理论推导进行修正，我们纠正了概念上的缺陷。修正等温线保留了Elovich等温线的两个参数，但具有不同的数学结构。与Elovich等温线相比，新的等温线提供了与观测值密切一致的估计饱和容量。对比分析表明，在拟合具有高原特征的资料时，新等温线优于Elovich等温线。然而，新的等温线是加载隐式的，这给数据拟合带来了挑战。为了克服这一限制，我们开发了一种将加载隐式等温线转换为显式形式的新方法。这种转换可以方便地进行数据拟合，并便于对异质吸附剂的现场能量分布进行评估。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Environmental Engineering 环境科学-工程：环境

CiteScore

4.40

自引率

0.00%

发文量

127

审稿时长

6.0 months

期刊介绍： The Journal of Environmental Engineering presents broad interdisciplinary information on the practice and status of research in environmental engineering science, systems engineering, and sanitation. Papers focus on design, development of engineering methods, management, governmental policies, and societal impacts of wastewater collection and treatment; the fate and transport of contaminants on watersheds, in surface waters, in groundwater, in soil, and in the atmosphere; environmental biology, microbiology, chemistry, fluid mechanics, and physical processes that control natural concentrations and dispersion of wastes in air, water, and soil; nonpoint-source pollution on watersheds, in streams, in groundwater, in lakes, and in estuaries and coastal areas; treatment, management, and control of hazardous wastes; control and monitoring of air pollution and acid deposition; airshed management; and design and management of solid waste facilities. A balanced contribution from consultants, practicing engineers, and researchers is sought on engineering solutions, and professional obligations and responsibilities.