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煤气化渣改性工艺及吸附Cd^(2+)性能

Coal gasification slag modification process and its adsorption performance for Cd^(2+)
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摘要 以固体废弃物煤气化渣(CGS)为材料,通过水热法制备改性煤气化渣(MCGS)吸附材料,并用于吸附Cd^(2+)。由于CGS吸附Cd^(2+)能力较低,利用Box-Behnken响应面模型方法优化改性条件,X射线衍射仪、傅里叶变换红外光谱仪等表征CGS及制备的MCGS的物理化学性质。改性结果表明,MCGS最佳反应条件为碱度6.20%~8.10%、温度102~108℃和时间138~192 min,温度对MCGS吸附Cd^(2+)性能影响最大。改性后Si-O-Si键断裂,MCGS表面含有丰富的孔隙结构,比表面积、孔容和孔径分别为255.08 m^(2)/g,0.24 cm^(3)/g和3.72 nm;吸附结果表明,当Cd^(2+)浓度50 mg/L、MCGS投加量为0.10 g时,Cd^(2+)饱和吸附量为13.96 mg/g;当Cd^(2+)浓度40 mg/L、MCGS投加量为0.20 g时,Cd^(2+)去除率98.08%;MCGS对重金属Cd^(2+)的吸附过程符合准二级动力学模型和Langmuir模型。本研究可为CGS处理含Cd^(2+)废水提供理论依据。 Modified coal gasification slag (MCGS)adsorption material was prepared by hydrothermal method,by Na OH activation to remove Cd^(2+)from aqueous solution.Due to the low Cd^(2+)adsorption capacity of coal gasification slag (CGS),the modification conditions were optimized by BoxBehnken response surface method.X-ray diffraction (XRD) analysis revealed the presence of amorphous"steamed bread"SiO_(2) and residual carbon peaks in the range of 15°~30°in the coal gasification slag (CGS).These peaks had broad diffraction patterns.Fourier transform infrared (FTIR) spectroscopy showed that MCGS contained stretching and bending vibration peaks for the Si-O-T bond (where T is either Al or Si),indicating that the modified Si-O-Si bond had been broken and the vibration peak had increased.Scanning electron microscopy (SEM) images showed that the CGS mainly consisted of microbeads with smooth surfaces and flocculent or flaky blocks.The surface of the MCGS had an abundance of pores,with a specific surface area,pore volume,and pore diameter of 255.08 m^(2)/g,0.24 cm^(3)/g,and 3.72 nm,respectively.The modification results showed that the best reaction conditions of MCGS were basicity6.20%~8.10%,temperature 102~108℃,and time 138~192 min,and the temperature was the greatest influence on Cd^(2+)adsorption performance of MCGS.The adsorption results showed that when the concentration of Cd^(2+)was 50mg/L and the dosage of MCGS was 0.10 g,the saturated adsorption capacity of Cd^(2+)was 13.96 mg/g;when the concentration of Cd^(2+)was 40 mg/L and the dosage of MCGS was 0.20 g,the removal rate of Cd^(2+)was 98.08%.The adsorption of Cd^(2+)on modified coal gasification slag follows a quasi second-order kinetic model,indicating that the adsorption of Cd^(2+)by MCGS was mainly chemical adsorption.The isothermal adsorption of Cd^(2+)onto the modified slag can be described well by the Langmuir model,indicating a monolayer adsorption process.This study can provide a theoretical basis for the treatment of Cd^(2+)wastewater with alkali-modified coal gasification slag.
作者 徐颖 姚鑫毅 宋永红 孙一平 邹晶晶 郭春彬 Ying XU;Xinyi YAO;Yonghong SONG;Yiping SUN;Jingjing ZOU;Chunbin GUO(College of Environmental Science and Engineering,Liaoning Technical University,Fuxin,Liaoning 123000,China;College of Materials Science and Engineering,Liaoning Technical University,Fuxin,Liaoning 123000,China;National Engineering Laboratory of Cleaner Production Technology of Hydrometallurgy,Institute of Process Engineering,Chinese Academyof Sciences,Beijing100190,China)
出处 《过程工程学报》 CAS CSCD 北大核心 2024年第1期47-57,共11页 The Chinese Journal of Process Engineering
基金 国家重点研发计划资助项目(编号:2019YFC1803800) 辽宁省高等学校基本科研项目(编号:LJKZ0348,LJKMZ20220682) 辽宁省科技厅“揭榜挂帅”项目(编号:2021JH1/10400018)。
关键词 煤气化渣 改性 重金属吸附 Box-Behnken响应面法 coal gasification slag modification adsorption of heavy metals Box-Behnken response surface method
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