Batch Studies for the Removal of a Hazardous Azo Dye Methyl Orange from Water through Adsorption on Regenerated Activated Carbons

Mariame Conde Asseng, Hermann Tamaguelon Dzoujo, Daniela Dina, Marie-Annie Etoh, Armand N. Tchakounte, J. N. Nsami
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引用次数: 2

Abstract

The study of the performances of regenerated activated carbons for the adsorption of MO (methyl orange) in an aqueous medium was carried out with the aim to evaluate the adsorption capacities of these activated carbons. Three regenerated activated carbons issued from the unit of oil treatment of the thermal power station of Dibamba (Cameroon)-DPDC (Dibamba Power Development Company) were obtained thermally and chemically. These three samples (namely CAR 400 °C (chemical regenerated activated carbon at 400 °C), CAR 700 °C (physical regenerated activated carbon at 700 °C) and CAR 900 °C (physical regenerated activated carbon at 900 °C)) and the non-used one CA were characterized by iodine number, XRD (X-ray Diffraction) and FTIR (Fourier-transform infrared spectroscopy). MO adsorption tests were performed in batch mode; this technique allowed the study of the influence of the parameters such as: the contact time, the initial’s MO concentration and the pH. Moreover, different kinetic models (first-order, pseudo-second-order and Webber and Morris intra-particle diffusion) and adsorption isotherms (Langmuir and Freundlich) are used for the evaluation of adsorption capacities. The physicochemical characterization of these adsorbents showed that they were micro-porous (iodine value: 600 mg/g) and strongly crystallized according to their regeneration pathways. The influence of the parameters revealed that the adsorption of MO is the most favorable for concentrations from 5 to 25 mg/L (for materials CA and CAR 400 °C) and 10 to 25 g/L (for materials CAR 700 °C and 900 °C); and that it was maximum in acid medium (at pH = 3 on the materials CA, CAR 400 °C, CAR 900 °C and at pH = 5 on the material CAR 900 °C). The modeling of the adsorption kinetics of MO has revealed the conformity of the kinetic model of pseudosecond-order and intra-particle diffusion for some of these materials. The study of isotherms has shown that the Langmuir isotherm best describes the adsorption of MO on most of these adsorbents.
再生活性炭吸附去除水中有害偶氮染料甲基橙的批量研究
研究了再生活性炭对MO(甲基橙)的吸附性能,评价了再生活性炭对MO(甲基橙)的吸附性能。对喀麦隆迪班巴电力开发公司(Dibamba power Development Company, dpdc)热电站油处理单元生产的3种再生活性炭进行了热化学制备。采用碘值、XRD (x射线衍射)和FTIR(傅里叶变换红外光谱)对这三个样品(CAR 400℃(化学再生活性炭400℃)、CAR 700℃(物理再生活性炭700℃)和CAR 900℃(物理再生活性炭900℃)以及未使用的一个CA进行了表征。以批处理方式进行MO吸附试验;该技术允许研究接触时间、初始MO浓度和ph等参数的影响。此外,不同的动力学模型(一阶、拟二阶、Webber和Morris颗粒内扩散)和吸附等温线(Langmuir和Freundlich)用于评估吸附能力。对这些吸附剂的理化性质进行了表征,表明它们具有微孔特性(碘值为600 mg/g),并且具有强结晶性。各参数对MO吸附效果的影响表明,在浓度为5 ~ 25mg /L(材料CA和CAR为400℃)和10 ~ 25g /L(材料CAR为700℃和900℃)时MO吸附效果最好;在酸性介质中(在CA、CAR 400°C、CAR 900°C材料上pH = 3,在CAR 900°C材料上pH = 5)达到最大值。对MO吸附动力学的模拟表明,其中一些材料的准二级和颗粒内扩散动力学模型是一致的。等温线的研究表明,Langmuir等温线最能描述MO在大多数吸附剂上的吸附。
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