Optimization of removal of toluene from industrial wastewater using RSM Box–Behnken experimental design

IF 4.6 3区 环境科学与生态学 Q2 ENGINEERING, ENVIRONMENTAL
Dariush Jafari, Morteza Esfandyari, Mehdi Mojahed
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引用次数: 0

Abstract

Abstract The study is concerned with the adsorption of toluene from real wastewater using granular beads of activated carbon. The adsorbent was analyzed before and after the process using Scanning Electron Microscope analysis to characterize its surface characteristics. The adsorption parameters including solution pH, contact time, dosage of adsorbent, temperature and toluene initial concentration were optimized using response surface methodology (RSM) Box-Behnken experimental design to maximize the toluene adsorption. The adsorption capacity of the adsorbent was 298 mg g −1 and the maximum toluene removal was 99.5% which was achieved in the following optimal conditions: pH: 2, 100 min, adsorbent dosage: 0.7 g L −1 , 40 °C and initial concentration: 30 mg L −1 . The adjusted coefficient of determination of the model was over 0.99 which denotes that the model was quite appropriate and accurate and also it was effective in the optimization of toluene adsorption. Finally, the activated carbon adsorbent was applied to remove toluene from a real sample of wastewater under the optimal operating conditions and the uptake percentage of 96.9% was achieved which was in accordance with the output of the removal of toluene from synthetic wastewater.
采用RSM Box-Behnken实验设计优化工业废水中甲苯的去除
摘要研究了活性炭颗粒珠对实际废水中甲苯的吸附性能。利用扫描电镜对吸附前后进行了分析,表征了吸附前后的表面特征。采用响应面法(RSM) Box-Behnken实验设计优化了溶液pH、接触时间、吸附剂用量、温度和甲苯初始浓度对甲苯的吸附效果。在pH为2,100 min、吸附剂用量为0.7 g L−1、温度为40℃、初始浓度为30 mg L−1的条件下,该吸附剂的吸附量为298 mg g−1,甲苯去除率为99.5%。模型调整后的确定系数大于0.99,表明该模型具有较好的适用性和准确性,对甲苯吸附性能的优化是有效的。最后,在最佳操作条件下,将活性炭吸附剂应用于实际废水中甲苯的去除,吸附率达到96.9%,与合成废水中甲苯的去除率相当。
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来源期刊
CiteScore
8.00
自引率
2.00%
发文量
47
审稿时长
30 weeks
期刊介绍: The primary goal of Sustainable Environment Research (SER) is to publish high quality research articles associated with sustainable environmental science and technology and to contribute to improving environmental practice. The scope of SER includes issues of environmental science, technology, management and related fields, especially in response to sustainable water, energy and other natural resources. Potential topics include, but are not limited to: 1. Water and Wastewater • Biological processes • Physical and chemical processes • Watershed management • Advanced and innovative treatment 2. Soil and Groundwater Pollution • Contaminant fate and transport processes • Contaminant site investigation technology • Soil and groundwater remediation technology • Risk assessment in contaminant sites 3. Air Pollution and Climate Change • Ambient air quality management • Greenhouse gases control • Gaseous and particulate pollution control • Indoor air quality management and control 4. Waste Management • Waste reduction and minimization • Recourse recovery and conservation • Solid waste treatment technology and disposal 5. Energy and Resources • Sustainable energy • Local, regional and global sustainability • Environmental management system • Life-cycle assessment • Environmental policy instruments
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