Application of kinetic models to study the sorption rate in the ‘ammonium ions–calcined sorbent’ system

G. T. Korotkova, A. M. Zakolyukina, S. A. Bushumov
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Abstract

This study examines sorption kinetics for the extraction of ammonium ions from an aqueous solution under static conditions using 5 g of sorbent. The sorbent was obtained by calcining ash and slag waste accumulated in the ash dump following hydraulic ash removal. The initial concentrations of ammonium ions in the model solutions were 5, 20, 50 and 100 mg/dm3. The volume of the model solution was 50 cm3. For each initial concentration, the kinetic curves of the ammonium ion sorption at the sorption duration of 10, 30, 60, 90, 120, 150 and 180 min were obtained. The kinetic curves were processed using the Lagergren (pseudo-first order), Ho and McKay (pseudo-second order), Morris-Weber (diffusion) and Elovich kinetic equations. It was demonstrated that all kinetic equations adequately describe the experimental data. The linear correlation of the equations was given. The Boyd equation was used to determine the limiting stage in the Morris–Weber model. It was established that the external diffusion mechanism is limiting for the sorption of ammonium ions by a calcined sorbent. The Lagergren model, with a coefficient of determination R2 of 0.9801–0.9949, best described the experimental data on sorption kinetics. Sorption rate curves as a function of the adsorption value and sorption time were given. The latter are described by exponential and polynomial dependence according to the Lagergren model, polynomial dependence according to the Ho and McKay model and exponential dependence according to the Morris–Weber and Elovich models. The sorption rate was the highest at the initial stage of sorption for all dependencies, which is consistent with previous studies on the sorption of pollutants from aqueous solutions using various sorbents.
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应用动力学模型研究 "铵离子-煅烧吸附剂 "体系的吸附率
本研究考察了在静态条件下使用 5 克吸附剂从水溶液中萃取铵离子的吸附动力学。吸附剂是通过煅烧水力除灰后灰渣堆中积累的灰渣和炉渣废料获得的。模型溶液中铵离子的初始浓度分别为 5、20、50 和 100 mg/dm3。模型溶液的体积为 50 立方厘米。针对每种初始浓度,分别获得了铵离子在吸附持续时间为 10、30、60、90、120、150 和 180 分钟时的吸附动力学曲线。使用 Lagergren(伪一阶)、Ho 和 McKay(伪二阶)、Morris-Weber(扩散)和 Elovich 动力学方程处理了这些动力学曲线。结果表明,所有动力学方程都能充分描述实验数据。给出了这些方程的线性相关关系。博伊德方程用于确定莫里斯-韦伯模型中的极限阶段。结果表明,外部扩散机制是煅烧吸附剂吸附铵离子的极限机制。拉格伦模型的判定系数 R2 为 0.9801-0.9949,最能说明吸附动力学的实验数据。吸附速率曲线是吸附值和吸附时间的函数。根据 Lagergren 模型,后者与指数和多项式有关;根据 Ho 和 McKay 模型,与多项式有关;根据 Morris-Weber 和 Elovich 模型,与指数有关。在所有依存关系中,吸附初始阶段的吸附率最高,这与以往使用各种吸附剂从水溶液中吸附污染物的研究结果一致。
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