A combined experimental and theoretical investigation via statistical physics for adsorption evaluation of 3 aminophenol (AMP) onto the activated carbon derived from avocado seeds (ASAC) adsorbent

IF 3 4区工程技术 Q3 CHEMISTRY, PHYSICAL

Adsorption Pub Date : 2025-01-31 DOI:10.1007/s10450-025-00593-9

Kods Oueslati, Eder C Lima, Amin Naifar, Fatma Aouaini, Beriham Basha, Tahani Alrebdi, Abdelmottaleb Ben Lamine

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引用次数: 0

Abstract

With advances in industrialization, water pollution has become an increasing concern, and research must be directed towards developing solutions to address this growing threat to both human health and ecosystems. This current paper is devoted to investigating the adsorption of a phenolic material, 3-aminophenol (AMP)—a raw material used in dye production—on activated carbon derived from avocado seed adsorbent (ASAC) for the purpose of remediating polluted water. Rooted in a statistical physics approach, five distinct models were applied to fit the empirical data: the single-energy monolayer model (Model 1), dual-energy monolayer model (Model 2), tri-energetic monolayer model (Model 3), single-energy bilayer model (Model 4) and dual-energy bilayer model (Model 5). Additionally, a topographic examination was conducted to assess the pore size distribution (PSD) and the adsorbed energy distribution (AED), contributing significantly to the comprehensiveness of linking reaction. It appears that the model 1 provides the most accurate fit, based on the convergence criteria (R², R²_Adj and RMS). By exploiting the involved variables of Model 1, we have quantified three thermodynamic properties (entropy, Gibbs free energy, and internal energy) as a function of distinct temperature and concentration intervals. Stereographic elucidation has revealed that the number of adsorbed molecules per site (n) is typically below 0.5, indicating that adsorbate entities are trapped through the action of one or more adhesion cavities. Meanwhile, the orientation of linked entities is parallel, interacting with two or more sites. The abundance of receptor sites, N_m, significantly increased from 643.8853 to 812.3822 mg/g when the temperature was raised from 303 to 323 K. The computed adhesion energies confirmed were below 40 kJ/mol, indicating an exothermic physisorption associated with van der Waals forces and hydrogen bonding. The adsorbent/adsorbate system is likely spontaneous, as the analysis of Gibbs free energy yielded negative results. Finally, PSD analysis suggested that the adsorbent surface is predominantly composed of macropores. Additionally, AED inspection confirmed the physisorption mechanism.

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利用统计物理方法研究了牛油果种子活性炭（ASAC）吸附剂对3 -氨基酚（AMP）的吸附性能

随着工业化的进步，水污染问题日益受到关注，研究必须着眼于制定解决办法，以解决这一对人类健康和生态系统日益严重的威胁。本文研究了一种用于染料生产的酚类物质- 3-氨基酚（AMP）在牛油果种子吸附剂（ASAC）活性炭上的吸附，以修复污染水。基于统计物理方法，五个不同的模型被应用于拟合经验数据：单能单层模型（模型1）、双能单层模型（模型2）、三能单层模型（模型3）、单能双层模型（模型4）和双能双层模型（模型5）。此外，通过形貌检测评估了孔径分布（PSD）和吸附能分布（AED），显著提高了连接反应的全面性。根据收敛准则（R²，R2Adj和RMS），模型1似乎提供了最准确的拟合。通过利用模型1的相关变量，我们量化了三个热力学性质（熵、吉布斯自由能和内能）作为不同温度和浓度间隔的函数。立体解析显示，每个位点的吸附分子数(n)通常低于0.5，表明吸附物实体通过一个或多个粘附腔的作用被捕获。同时，链接实体的方向是平行的，与两个或多个站点交互。当温度从303 K升高到323 K时，受体位点的丰度Nm从643.8853显著增加到812.3822 mg/g。计算得到的黏附能均低于40 kJ/mol，表明存在与范德华力和氢键有关的放热物理吸附。吸附剂/吸附物体系很可能是自发的，因为吉布斯自由能的分析结果为负。最后，PSD分析表明，吸附剂表面主要由大孔组成。此外，AED检查证实了物理吸附机制。

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

Adsorption 工程技术-工程：化工

CiteScore

8.10

自引率

3.00%

发文量

审稿时长

2.4 months

期刊介绍： The journal Adsorption provides authoritative information on adsorption and allied fields to scientists, engineers, and technologists throughout the world. The information takes the form of peer-reviewed articles, R&D notes, topical review papers, tutorial papers, book reviews, meeting announcements, and news. Coverage includes fundamental and practical aspects of adsorption: mathematics, thermodynamics, chemistry, and physics, as well as processes, applications, models engineering, and equipment design. Among the topics are Adsorbents: new materials, new synthesis techniques, characterization of structure and properties, and applications; Equilibria: novel theories or semi-empirical models, experimental data, and new measurement methods; Kinetics: new models, experimental data, and measurement methods. Processes: chemical, biochemical, environmental, and other applications, purification or bulk separation, fixed bed or moving bed systems, simulations, experiments, and design procedures.