Kinetic study on the removal of heavy metals by Cajanus Cajan husk

WEENTECH Proceedings in Energy Pub Date : 2019-08-01 DOI:10.32438/wpe.6019

Mallappa A. Mallappa A. Devania, Mallappa A. Devania, Basudeb Munshi

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Abstract

The removal of heavy metals from wastewater has become crucial to meet safe discharge standards. Development of more economic process has been strived owing to high cost of adsorbents. Thus, biosorption process has become the area of interest to researchers and engineers. The present study has carried out the transient removal of heavy metals from wastewater by both physically treated and chemically modified Cajanus cajan (Pigeon pea) husk (CCH) as novel biosorbents. Work includes five different models such as first order, second order, nth order, first order reversible and second order reversible under the heading of prediction of transient concentration of metal in the solution are used, and under the heading of prediction of transient metal uptake capacity; fractional power, pseudo first order, pseudo second order, second order reversible, Elovich, intra-particle diffusion and film diffusion models are used to analyse the kinetic data. For a metal at any particular initial concentration the best kinetic model with the least RMSE is identified. Pictorial comparison between experimental and pseudo second order and pseudo first order model predictive data of Cd(II) and Cu(II) transient biosorption, respectively onto CCH are illustrated. The trend of the results shows a successful prediction capability of all the kinetic models used in the present work. According to RMSE data, it can be concluded that the best kinetic models are pseudo second order for Cd(II) and pseudo first order for Cu(II). It has been found that the required equilibrium time is always less for the chemically activated than the physically activated sorbent. At 100 mg/L initial metal concentration, pseudo-first-order model has been identified as the best kinetic model for the transient Cu(II) and the best kinetic model for fitting the transient sorption of Cd(II) on CCH is pseudo-second-order. At initial metal concentration of 150 mg/L, initial biosorption rate of 9.7038 for Cd(II) on CCH(N) is greater than 1.4553 for Cu(II) on CCH(N). These indicate that Cd(II) undergoes faster adsorption rate than Cu(II) onto CCH.

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柴豆壳去除重金属的动力学研究

从废水中去除重金属已成为满足安全排放标准的关键。由于吸附剂价格昂贵，一直在努力开发更经济的工艺。因此，生物吸附过程已成为研究人员和工程师感兴趣的领域。本研究采用物理处理和化学改性的木豆壳作为新型生物吸附剂，对废水中的重金属进行了瞬时脱除。工作包括一阶、二阶、n阶、一阶可逆和二阶可逆五种不同的模型，在预测溶液中金属瞬态浓度的标题下分别使用，在预测瞬态金属吸收能力的标题下使用;采用分数功率模型、伪一阶模型、伪二阶模型、二阶可逆模型、Elovich模型、粒子内扩散模型和膜扩散模型对动力学数据进行了分析。对于任何特定初始浓度的金属，确定了RMSE最小的最佳动力学模型。对Cd(II)和Cu(II)在CCH上的瞬态生物吸附实验数据与伪二阶和伪一阶模型预测数据进行了图像比较。结果的趋势表明，本文所用的动力学模型都具有较好的预测能力。根据RMSE数据，Cd(II)和Cu(II)的最佳动力学模型分别为伪二阶和伪一阶。研究发现，化学活化吸附剂所需的平衡时间总是小于物理活化吸附剂。在初始金属浓度为100 mg/L时，拟一阶模型是Cu(II)暂态吸附的最佳动力学模型，拟二阶模型是Cd(II)在CCH上暂态吸附的最佳动力学模型。在初始金属浓度为150 mg/L时，CCH(N)对Cd(II)的初始生物吸附率为9.7038，对Cu(II)的初始生物吸附率为1.4553。这表明Cd(II)比Cu(II)在CCH上的吸附速率更快。

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WEENTECH Proceedings in Energy

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