Removal of thiophene compounds from model fuel with supported copper on active carbon, adsorption kinetics, and isotherms

IF 1.4 4区 工程技术 Q3 ENGINEERING, CHEMICAL
Bahador Kazemi, Haleh Golipour, Morteza Mafi, Babak Mokhtarani
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Abstract

In this study, the adsorption of thiophene compounds (TCs), including thiophene (T), benzothiophene (BT), and dibenzothiophene (DBT), from model fuels was investigated using modified activated carbon (AC). The model fuel, prepared as a single-solute model at a concentration of 2000 ppm based on a mixture concentration of 3000 ppm, served as the basis for the adsorption experiments. Additionally, an examination of thiophene adsorption from commercial fuels, specifically kerosene, was conducted. Experimental data were used to calculate correlated parameters of adsorption isotherms, kinetic models, and the Fisher factor. The pseudo-second-order model demonstrated the best fit to the experimental data. Notably, the adsorbent consisting of 10% Cu+ supported on acid-washed activated carbon (A1CN10) exhibited the highest adsorption capacity for TCs, achieving removal percentages of 78%, 96%, and 100% for T, BT, and DBT, respectively. Various methods were employed to investigate the physicochemical properties of the adsorbents, including N2 adsorption–desorption surface analysis (BET), scanning electron microscopy (SEM), X-ray diffraction (XRD), and energy dispersive spectroscopy (EDS). Furthermore, the regeneration of the adsorbent was studied using two techniques: agitation and ultrasound.

用活性炭上的支撑铜去除模型燃料中的噻吩化合物、吸附动力学和等温线
本研究使用改性活性炭(AC)研究了模型燃料中噻吩化合物(TC)的吸附情况,包括噻吩(T)、苯并噻吩(BT)和二苯并噻吩(DBT)。模型燃料的浓度为 2000 ppm(基于 3000 ppm 的混合物浓度),作为吸附实验的基础。此外,还对商用燃料(特别是煤油)中的噻吩吸附进行了研究。实验数据用于计算吸附等温线的相关参数、动力学模型和费雪因子。伪二阶模型与实验数据的拟合度最高。值得注意的是,酸洗活性炭(A1CN10)上吸附 10% Cu+ 的吸附剂对 TC 的吸附能力最强,对 T、BT 和 DBT 的去除率分别达到 78%、96% 和 100%。研究人员采用了多种方法研究吸附剂的理化性质,包括 N2 吸附-解吸表面分析(BET)、扫描电子显微镜(SEM)、X 射线衍射(XRD)和能量色散光谱(EDS)。此外,还利用搅拌和超声波两种技术研究了吸附剂的再生问题。
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来源期刊
自引率
11.10%
发文量
111
期刊介绍: Asia-Pacific Journal of Chemical Engineering is aimed at capturing current developments and initiatives in chemical engineering related and specialised areas. Publishing six issues each year, the journal showcases innovative technological developments, providing an opportunity for technology transfer and collaboration. Asia-Pacific Journal of Chemical Engineering will focus particular attention on the key areas of: Process Application (separation, polymer, catalysis, nanotechnology, electrochemistry, nuclear technology); Energy and Environmental Technology (materials for energy storage and conversion, coal gasification, gas liquefaction, air pollution control, water treatment, waste utilization and management, nuclear waste remediation); and Biochemical Engineering (including targeted drug delivery applications).
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