Using Surrogate Equilibrium Constants for Assessing the Energy of Adsorption of Synthetic Organic Substances from Aqueous Phase onto Carbonized Adsorbents

IF 0.5 4区 化学 Q4 CHEMISTRY, ANALYTICAL Journal of Water Chemistry and Technology Pub Date : 2023-09-21 DOI:10.3103/S1063455X23050107
S. K. Smolin, O. V. Zabneva
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引用次数: 0

Abstract

We proposed to evaluate the performance of new adsorption materials in relation to existing commercial products by comparing the values of the standard molar adsorption energy of \(\Delta G_{{\text{a}}}^{^\circ }\) of adsorbates. A typical error in the determination of \(\Delta G_{{\text{a}}}^{^\circ }\) is due to the incorrect calculation of the adsorption equilibrium constant Ke. It is often calculated in isothermal regions that do not correspond to standard adsorption conditions, or the dimensional constant of the Langmuir model equation KL is falsely used as a thermodynamic constant. The direct use of the Langmuir constant KL as an equilibrium constant is a thermodynamically invalid approach; however, due to the simplicity of determining KL, an estimate of the adsorption energy based on it can become an accessible and useful tool for adsorption studies. In this work, we examined two methods to transform the Langmuir constant into surrogate constants, which, according to formal features, are dimensionless quantities and reflect the conditional energy of adsorption. We selected 16 adsorption systems of activated carbon (F300, KAU, KAU/Fe, Akant) with aqueous solutions of sparingly soluble aromatic compounds of the phenol and aniline series. We compared the adsorption energy values obtained from the Langmuir constant and the thermodynamically verified constant of the partial adsorption isotherm, calculated by the procedure developed by A.M. Koganovskii (the Koganovskii method, KM). The deviations of the adsorption energy values calculated from the Langmuir constant are on average 10–15% compared to the results obtained by the Koganovskii method. To plot the adsorption isotherms of aromatic compounds, a simplified algorithm for calculating Ke according to the KM was proposed and tested (without considering the volume of the adsorption phase and the molar volume of adsorbents). Deviations in energy values were within 5% of the KM results. Thus, the considered simplified methods are easy to implement and accurate enough to estimate the standard adsorption energy; therefore, they can be recommended for the initial assessment of the effectiveness of new adsorption materials.

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用置换平衡常数评估合成有机物在碳酸化吸附剂上的吸附能
我们建议通过比较吸附质的标准摩尔吸附能值来评估新吸附材料相对于现有商业产品的性能。测定\(ΔG_{\text{A}})的一个典型错误是由于吸附平衡常数Ke的计算不正确。它通常在不符合标准吸附条件的等温区域计算,或者Langmuir模型方程KL的尺寸常数被错误地用作热力学常数。直接使用朗缪尔常数KL作为平衡常数是热力学上无效的方法;然而,由于确定KL的简单性,基于它的吸附能估计可以成为吸附研究的一种可获得和有用的工具。在这项工作中,我们研究了将朗缪尔常数转换为替代常数的两种方法,根据形式特征,替代常数是无量纲量,反映了吸附的条件能量。我们选择了16种活性炭(F300、KAU、KAU/Fe、Akant)与苯酚和苯胺系列微溶芳香族化合物的水溶液的吸附体系。我们比较了由Langmuir常数获得的吸附能值和部分吸附等温线的热力学验证常数,该常数通过A.M.Koganovskii开发的程序(Koganovski方法,KM)计算。与Koganovskii方法获得的结果相比,根据Langmuir常数计算的吸附能值的偏差平均为10-15%。为了绘制芳香族化合物的吸附等温线,提出并测试了一种根据KM计算Ke的简化算法(不考虑吸附相的体积和吸附剂的摩尔体积)。能量值的偏差在KM结果的5%以内。因此,所考虑的简化方法易于实施,并且足够准确以估计标准吸附能;因此,它们可以被推荐用于新吸附材料有效性的初步评估。
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来源期刊
Journal of Water Chemistry and Technology
Journal of Water Chemistry and Technology CHEMISTRY, APPLIED-CHEMISTRY, ANALYTICAL
自引率
0.00%
发文量
51
审稿时长
>12 weeks
期刊介绍: Journal of Water Chemistry and Technology focuses on water and wastewater treatment, water pollution monitoring, water purification, and similar topics. The journal publishes original scientific theoretical and experimental articles in the following sections: new developments in the science of water; theoretical principles of water treatment and technology; physical chemistry of water treatment processes; analytical water chemistry; analysis of natural and waste waters; water treatment technology and demineralization of water; biological methods of water treatment; and also solicited critical reviews summarizing the latest findings. The journal welcomes manuscripts from all countries in the English or Ukrainian language. All manuscripts are peer-reviewed.
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