改性龙眼壳吸附Cr(VI)的性能研究
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摘要
利用磷酸酯化改性龙眼壳,考察其吸附Cr(VI)的性能,并探讨吸附的动力学和热力学过程。通过SEM分析发现,改性龙眼壳表面孔隙增加,更有利于吸附。FTIR分析发现龙眼壳中羟基参与了酯化改性。龙眼壳改性后对Cr(VI)的吸附能力增强,其吸附过程符合Langergren准二级动力学模型,吸附等温线符合Langmuir模型。
The adsorption property of Cr( VI) on longan shell esterified by phosphoric acid is studied,and the kinetics and thermodynamics of adsorption are discussed. The scanning electron microscopes( SEM) analysis shows that the pores on the surface of modified longan shell increase,which is more conducive to adsorption. The Fourier transform infra-red( FTIR) analysis finds that hydroxyl groups in longan shell are involved in the esterification modification. The adsorption capacity of the modified longan shell of Cr( VI) enhances. The adsorption process accords with the pseudo-second order kinetic equations of Langergren and the adsorption isotherm conforms to the Langmuir model.
The adsorption property of Cr( VI) on longan shell esterified by phosphoric acid is studied,and the kinetics and thermodynamics of adsorption are discussed. The scanning electron microscopes( SEM) analysis shows that the pores on the surface of modified longan shell increase,which is more conducive to adsorption. The Fourier transform infra-red( FTIR) analysis finds that hydroxyl groups in longan shell are involved in the esterification modification. The adsorption capacity of the modified longan shell of Cr( VI) enhances. The adsorption process accords with the pseudo-second order kinetic equations of Langergren and the adsorption isotherm conforms to the Langmuir model.
引文
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[16]陈钰,龚正君,杨顺生,等.改性玉米秸秆吸附Cu2+的动力学和热力学[J].环境工程学报,2013(2):523-529.
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[19]梁龄予,王耀晶,闫颖,等.玉米芯吸附水中Cr(VI)的特性及SEM-EDS表征分析[J].生态环境学报,2015(2):305-309.
[2]Altun T,Pehlivan E. Removal of Cr(VI)from aqueous solutions by modified walnut shells[J]. Food chemistry,2012(2):693-700.
[3]李航彬,钱波,黄聪聪,等.钡盐沉淀法处理六价铬电镀废水[J].电镀与涂饰,2014(9):391-395.
[4]董新,程圣远,王坚坚,等.离子交换法对电镀含铬废水的资源化回收治理研究[J]能源与环境,2017(3):51-59.
[5]周杰,陈禾,逸魏俊,等.铁碳微电解处理含铬废水的试验研究[J].电镀与涂饰,2013(6):43-45.
[6]王建刚,张伟东,崔怡亭,等.含铬废水高效膜处理新技术的应用[J].资源节约与环保,2015(2):56-59.
[7]龚新怀.改性竹屑对孔雀石绿(MG)的吸附性能研究[J].武夷学院学报,2012(2):41-45.
[8]Zafarani H R,Bahrololoom M E,Noubactep C,et al. Green walnut shell as a new material for removal of Cr(VI)ionsfrom aqueous solutions[J]. Desalination and Water Treatment,2015(2):431-439.
[9]陈艺敏,陈建福.荔枝壳对Cr(VI)的吸附性能研究[J].井冈山大学学报,2015(3):49-53.
[10]杨江帆,黄彪,王彦威.茶叶产业剩余物制备环境友好型符合功能材料的研究与开发[J].武夷学院学报,2011(2):1-5.
[11]马毅红,钟文毅,陶海霞.改性龙眼壳对废水中六价铬离子的吸附研究[J].广东化工,2014(41):33-34.
[12]邓殳.改性龙眼壳对重金属Pb2+和Cd2+吸附特性的研究[D].福州:福州大学,2013.
[13]吴文炳.微波制备龙眼壳活性炭及其对Pb2+的吸附与再生[J].闽南师范大学学报(自然科学版),2016(2):58-64.
[14]张德敏,高洁,孙进,等.铜离子和孔雀绿在磷酸酯化改性豆壳上的吸附行为[J].环境科学学报,2008(4):720-725.
[15]陈巨冰,高贵珍,安亮,等.磷酸酯化改性梨渣对污水中金属离子吸附行为的研究[J].宿州学院学报,2010(8):26-30.
[16]陈钰,龚正君,杨顺生,等.改性玉米秸秆吸附Cu2+的动力学和热力学[J].环境工程学报,2013(2):523-529.
[17]程亮,徐丽,雒廷亮,等.纳米腐殖酸对重金属铬的吸附热力学及动力学[J].化工进展,2015(6):1792-1798.
[18]普雷士.波谱数据表-有机化合物的结构解析[M].荣国斌,译.上海:华东理工大学出版社,2002.
[19]梁龄予,王耀晶,闫颖,等.玉米芯吸附水中Cr(VI)的特性及SEM-EDS表征分析[J].生态环境学报,2015(2):305-309.
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