Parametric optimization of hexavalent chromium removal by electrocoagulation technology with vertical rotating cylindrical aluminum electrodes using Taguchi and ANN model

IF 3 4区 环境科学与生态学 Q3 ENGINEERING, ENVIRONMENTAL
Amit Kumar, D. Basu
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Abstract

This study aims to evaluate the performance of rotating aluminum electrodes in the electrocoagulation reactor for removing hexavalent chromium (Cr6+) from synthetic tannery wastewater. Taguchi and Artificial Neural Network (ANN) based models were developed to obtain the optimum condition for maximum Cr6+ removal. The optimum working condition obtained by Taguchi approach for the maximum Cr6+ removal (94%) was: Initial Cr6+ concentration (Cr6+i) = 15 mg/L; Current Density (CD) = 14.25 mA/cm2; Intial pH = 5; Rotational Speed of Electrode (RSE) = 70 rpm. In contrast, the optimal condition for maximum Cr6+ ions removal (98.83%) obtained from the BR-ANN model was: Cr6+i = 15 mg/L; CD = 14.36 mA/cm2; pHi = 5.2; RSE = 73 rpm. Compared to the Taguchi model, the BR-ANN model outperformed in terms of providing higher Cr6+ removal (+ 4.83%); reduced energy demand (-0.035 KWh/gm Cr6+ remove); lower error function value (χ2 = -7.9674 and RMSE = -3.5414); and highest R2 value (0.9991). The data for the conditions 91,007 < Re < 227,517 and Sc = 102.834 were found to fit the equation for the initial Cr6+ concentration of 15 mg/l; Sh = 3.143Re0.125 Sc0.33. The Cr6+ removal kinetics was best described by Pseudo 2nd Order model, as validated by high R2 and lower error functions value. The SEM and XRF analysis confirmed that Cr6+ was adsorbed and precipitated along with metal hydroxide sludge. The rotating electrode led to lower SEEC (10.25 kWh/m3), as well as maximum Cr6+ removal (98.83%), compared to EC process with stationary electrodes.

Abstract Image

垂直旋转圆柱形铝电极电絮凝去除六价铬的参数优化
本研究旨在评价电凝反应器中旋转铝电极去除合成革废水中六价铬(Cr6+)的性能。建立了基于Taguchi和人工神经网络(ANN)的模型,以获得最大去除Cr6+的最佳条件。田口法获得的最大Cr6+去除率(94%)的最佳工况为:初始Cr6+浓度(Cr6+i) = 15 mg/L;电流密度(CD) = 14.25 mA/cm2;初始pH = 5;电极转速(RSE) = 70 rpm。BR-ANN模型对Cr6+离子最大去除率(98.83%)的最佳条件为:Cr6+i = 15 mg/L;CD = 14.36 mA/cm2;pHi = 5.2;RSE = 73 rpm。与Taguchi模型相比,BR-ANN模型在提供更高的Cr6+去除率方面表现更好(+ 4.83%);降低能源需求(-0.035 KWh/gm Cr6+去除量);误差函数值较低(χ2 = -7.9674, RMSE = -3.5414);最高R2值为0.9991。发现条件91,007 < Re < 227,517和Sc = 102.834的数据符合Cr6+初始浓度为15 mg/l的方程;Sh = 3.143Re0.125 Sc0.33。伪二阶模型能很好地描述Cr6+的去除动力学,R2高,误差函数值小。SEM和XRF分析证实,Cr6+随金属氢氧化物污泥被吸附沉淀。与固定电极的EC工艺相比,旋转电极的SEEC (10.25 kWh/m3)较低,Cr6+去除率最高(98.83%)。
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来源期刊
Journal of Environmental Health Science and Engineering
Journal of Environmental Health Science and Engineering ENGINEERING, ENVIRONMENTAL-ENVIRONMENTAL SCIENCES
CiteScore
7.50
自引率
2.90%
发文量
81
期刊介绍: Journal of Environmental Health Science & Engineering is a peer-reviewed journal presenting timely research on all aspects of environmental health science, engineering and management. A broad outline of the journal''s scope includes: -Water pollution and treatment -Wastewater treatment and reuse -Air control -Soil remediation -Noise and radiation control -Environmental biotechnology and nanotechnology -Food safety and hygiene
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