COLUMN STUDY FOR THE CU(II) REMOVAL BY THE COCONUT SHELL FROM AQUEOUS SOLUTION – MLR AND GA MODELING

IF 1 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES Journal of Environmental Engineering and Landscape Management Pub Date : 2022-06-17 DOI:10.3846/jeelm.2022.16764
Shreyashi Sarkar, Nirjhar Bar, S. Das
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Abstract

Adsorption characteristics of locally available inexpensive natural adsorbent coconut shells were studied for Cu(II) removal. The present study adsorption process was carried through a fixed bed column to find out the breakthrough characteristics. The variation of operating variables is investigated, pH 6, influence Cu(II) concentration (10–30 mg·L–1), bed height (5–15 cm), the flow rate (10–30 ml·min–1). The suitability of various kinetic models has been tested. Maximum adsorption capacity, qe according to Thomas model, was 30.09 mg·g–1obtained at 20 ml/min, flow rate, 30 mg·L–1 metal solution, and 15 cm bed height. The correlation coefficient of the Thomas model ranges from 0.8260 to 0.9839. Besides this, according to the statistical parameters of the Yoon-Nelson and Yan et al. models, proving that the experimental data are suitable for this model. The statistical and GA modeling of the experimental data has also been performed successfully.
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椰壳去除水溶液中cu (ii)的柱状研究- MLR和ga模型
研究了当地廉价的天然吸附剂椰子壳对Cu(II)的吸附特性。本研究的吸附过程是通过固定床柱进行的,以找出突破性的特征。研究了操作变量的变化,pH 6,影响Cu(II)浓度(10-30 mg·L–1),床高(5-15 cm),流速(10-30 ml·min–1)。已经测试了各种动力学模型的适用性。根据Thomas模型,最大吸附容量qe为30.09 mg·g–1,在20 ml/min、流速、30 mg·L–1金属溶液和15 cm床高下获得。托马斯模型的相关系数在0.8260到0.9839之间。此外,根据Yoon Nelson和Yan等人模型的统计参数,证明实验数据适用于该模型。还成功地对实验数据进行了统计和遗传算法建模。
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来源期刊
CiteScore
1.90
自引率
7.70%
发文量
41
审稿时长
>12 weeks
期刊介绍: The Journal of Environmental Engineering and Landscape Management publishes original research about the environment with emphasis on sustainability.
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