微波促进Fe@MCM-48催化K2S2O8降解甲基橙废水

占昌朝; 陈义; 严平; 谢宝华; 曹小华; 夏祥

doi:10.12030/j.cjee.20150710

微波促进Fe@MCM-48催化K2S2O8降解甲基橙废水

1.
九江学院化学与环境工程学院, 九江 332005
2.
江西省生态化工工程技术中心, 九江 332005
基金项目:
国家自然科学基金资助项目(21161009,21367014,21274131,51273178)

江西省自然科学基金项目(2013BAB203023)

江西省教育厅科技基金项目(GJJ2013723,KJLD13092))

江西省大学生创新创业计划项目(201311843029)
中图分类号: X786

Degradation of methyl orange wastewater by microwave assisted catalysis of potassium persulfate with Fe@MCM-48

1.
College of Chemistry and Environmental Engineering, Jiujiang University, Jiujiang 332005, China
2.
Jiangxi Province Engineering Research Center of Ecological Chemical Industry, Jiujiang 332005, China
Fund Project:

摘要: 以正硅酸四乙酯(TEOS)为起始原料,硝酸铁为掺杂剂,十六烷基三甲基溴化铵(CTAB)为结构导向剂,经沉淀法成功制备了Fe掺杂MCM-48分子筛(Fe@MCM-48),并采用SEM、EDS、XRD、BET、FTIR对其进行了表征。研究了微波促进Fe@MCM-48催化K2S2O8降解甲基橙废水的行为,考察了溶液初始pH、微波功率、微波时间、Fe@MCM-48及K2S2O8用量等因素对废水脱色效果的影响。结果表明,微波-K2S2O8-Fe@MCM-48体系能高效快速降解废水中的甲基橙,在50 mL初始pH为7、质量浓度为500 mg/L的甲基橙废水中,微波辐射功率280 W、微波辐射10 min、Fe@MCM-48用量0.06 g、K2S2O8浓度为0.491 mmol/L的较佳处理工艺条件下,色度和及TOC去除率分别为97.6%和43.7%,微波、K2S2O8、Fe@MCM-48体系对甲基橙废水降解效果明显,产生了协同效应。
- 微波 /
- Fe@MCM-48分子筛 /
- 过硫酸钾 /
- 甲基橙 /
- 协同效应
Abstract: Iron incorporated into MCM-48 molecular sieve (Fe@MCM-48) was successfully synthesized by precipitation method using cetyltrimethylammonium bromide (CTAB) as a structural directing agent,and tetraethylorthosilicate (TEOS) as starting raw materials and ferric nitrate as dopant.And then the samples were characterized by scanning electron microscopy (SEM),energy disperse spectrum (EDS),X-ray diffraction (XRD) patterns,N2 adsorption/desorption measurements(BET) and Fourier transform infrared spectroscopy (FTIR).Catalytic degradation performance of methyl orange (MO) solution in microwave-assisted Fe@MCM-48/K2S2O8 system was studied.The effects of different factors including solution initial pH value,microwave power,radiated time,dose of Fe@MCM-48 and potassium persulfate on the degradation of MO were studied.The results showed that the MO was degraded rapidly and efficiently.For 50 mL solution with initial pH of 7 and MO concentration of 500 mg/L,97.6% of color and 43.7% of TOC were removed,under the better reaction conditions of the microwave radiation power input of 280 W,the microwave radiation time of 10 min,Fe@MCM-48 mass of 0.06 g and K2S2O8concentration of 0.491 mmol/L.Degradation process of MO wastewater by microwave,potassium persulfate and Fe@MCM-48 have excellent results and synergetic effect.
- microwave /
- Fe@MCM-48 molecular sieve /
- potassium persulfate /
- methyl orange /
- synergetic effect

[1]	El-Ghenymy A.,Centellas F.,Garrido J.A.,et al.Decolorization and mineralization of Orange G azo dye solutions by anodic oxidation with a boron-doped diamond anode in divided and undivided tank reactors.Electrochimica Acta,2014,130:568-576
[2]	Fu Jie,Kyzas G.Z.Wet air oxidation for the decolorization of dye wastewater:An overview of the last two decades.Chinese Journal of Catalysis,2014,35(1):1-7
[3]	Zhan Changchao,Chen Feng,Yang Jintao,et al.Visible light responsive sulfated rare earth doped TiO₂@fumed SiO₂ composites with mesoporosity:Enhanced photocatalytic activity for methyl orange degradation.Journal of Hazardous Materials,2014,267:88-97
[4]	Chen Xiaoyang,Wang Weiping,Xiao Hua,et al.Accelerated TiO₂photocatalytic degradation of Acid Orange 7 under visible light mediated by peroxymonosulfate.Chemical Engineering Journal,2012,193-194:290-295
[5]	杨梅梅,周少奇,刘聃,等.活性炭催化过硫酸钠降解金橙G动力学.环境科学,2013,34(3):962-967 Yang Meimei,Zhou Shaoqi,Liu Dan,et al.Degradation Kinetics of activated carbon catalyzed persulfate oxidation orange G.Environmental Science,2013,34(3):962-967(in Chinese)
[6]	汪昆平,赵越,郭劲松,等.微波诱导AC/Cu、AC/Fe催化非均相Fenton反应催化降解垃圾渗滤液.环境工程学报,2012,6(11):3947-3952 Wang Kunping,Zhao Yue,GuoJingsong,et al.Heterogeneous Fenton reaction for landfill leachate degradation of active carbon/Cu and active carbon/Fe catalysts through microwave induced method.Chinese Journal of Environmental Engineering,2012,6(11):3947-3952(in Chinese)
[7]	占昌朝,曹小华,严平,等.微波促进Fe²⁺-K₂S₂O₈体系快速降解甲基橙废水的研究.水处理技术,2013,39(8):43-46 Zhan Changchao,Cao Xiaohua,Yan Ping,et al.Study on quickly degradation of methyl orange dye wastewater by microwave enhanced Fe²⁺-K₂S₂O₈ system.Technology of Water Treatment,2013,39(8):43-46(in Chinese)
[8]	Zhao Wei,Qin Ming,Wang Lina,et al.Synthesis of submicron spherical Fe-MCM-48 with actual gyroidlike structure.Journal of Colloid and Interface Science,2012,384(1):81-86
[9]	Maneesuwan H.,Longloilert R.,Chaisuwan T.,et al.Synthesis and characterization of Fe-Ce-MCM-48 from silatrane precursor via sol-gel process.Materials Letters,2013,94:65-68
[10]	李亚男,郭晓红,周广栋,等.Co-MCM-41 和Co-MCM-48 分子筛的合成与表征及其对临CO₂乙烷脱氢反应的催化性能.催化学报,2005,26(7):591-596 Li Yanan,GuoXiaohong,Zhou Guangdong,et al.Synthesis,Characterization and catalytic activity of Co-MCM-41 and Co-MCM-48 for CO₂-dehydrogenation of ethane.Chinese Journal of Catalysis,2005,26(7):591-596(in Chinese)
[11]	蔡强,魏长平,许永宜,等.过渡金属(Ti,Zr,Mn,Cu,Mo,Cr,Co)离子掺杂的MCM-48的合成、表征与催化性能研究.高等学校化学学报,1999,20(3):344-349 CaiQiang,Wei Changping,Xu Yongyi,et al.Synthesis,characterization and catalysis acitivity of the MCM-48 framework containing Ti,Co,Cr,Mn,Cu,Mo.Chemical Journal of Chinese Universities,1999,20(3):344-349(in Chinese)
[12]	Zhao Wei,LuoYunfei,Deng Peng,et al.Synthesis of Fe-MCM-48 and its catalytic performance in phenol hydroxylation.Catalysis Letters,2001,73(2-4):199-202
[13]	Kumar D.,Schumacher K.,du Fresne von Hohenesche C.,et al.MCM-41,MCM-48 and related mesoporous adsorbents:Their synthesis and characterisation.Colloids and Surfaces A:Physicochemical and Engineering Aspects,2001,187-188:109-116
[14]	BandyopadhyayM.,KorsakO.,Van den Berg M.W.E.,et al.Gold nano-particles stabilized in mesoporous MCM-48 as active CO-oxidation catalyst.Microporous and Mesoporous Materials,2006,89(1-3):158-163
[15]	Subramanian H.,Nettleton E.G.,BudhiS.,et al.Baeyer-Villiger oxidation of cyclic ketones using Fe containing MCM-48 cubic mesoporous materials.Journal of Molecular Catalysis A:Chemical,2010,330(1-2):66-72
[16]	Yuan Shuai,Sheng Qiaorong,ZhangJinlong,et al.Synthesis of La³⁺ doped mesoporoustitania with highly crystallized walls.Microporous and MesoporousMaterials,2005,79(1-3):93-99
[17]	Aghaeia H.,Nourbakhsh A.A.,Karbasic S.,et al.Investigation on bioactivity and cytotoxicity of mesoporousnano-composite MCM-48/hydroxyapatite for ibuprofen drug delivery.Ceramics International,2014,40(5):7355-7362
[18]	龚丹,李海燕,刘红玉,等.离子色谱在偶氮染料光催化氧化降解历程研究中的应用.安全与环境学报,2013,13(1):14-18 GongDan,Li Haiyan,Liu Hongyu,et al.Application of ion chromatography to the study of the photocatalytic oxidation degradation process of AZO dye.Journal of Safety and Environment,2013,13(1):14-18(in Chinese)
[19]	韩强,杨世迎,杨鑫,等.钴催化过一硫酸氢盐降解水中有机污染物:机理及应用研究.化学进展,2012,24(1):144-156 HanQiang,YangShiying,YangXin,et al.Cobalt catalyzed peroxymonosulfate oxidation:A review of mechanisms and applications on degradating organic pollutants in water.Progress in Chemistry,2012,24(1):144-156(in Chinese)
[20]	王诗宗,杨琦,田璐.过硫酸钾去除水中的TCE.环境工程学报,2013,7(1):31-36 WangShizong,Yang Qi,Tian Lu.Removal of trichloroethylene from water by potassium persulfate.Chinese Journal ofEnvironmental Engineering,2013,7(1):31-36(in Chinese)
[21]	Rodriguez S.,Vasquez L.,Costa D.,et al.Oxidation of Orange G by persulfate activated by Fe(II),Fe(III) and zero valent iron (ZVI).Chemosphere,2014,101:86-92
[22]	Ouyang Huixiang,Wang Lisheng,Tian Jianniao,et al.A Simple and sensitive nanocatalyticfluorescence methodfor the determination of folic acid in foods using Fe₃O₄nanoparticle-K₂S₂O₈system.Food Analytical Methods,2013,6(1):76-81
[23]	JamalluddinN.A.,Abdullah A.Z.Low frequency sonocatalytic degradation of Azo dye in water using Fe-doped zeolite Y catalyst.Ultrasonics Sonochemistry,2014,21(2):743-753
[24]	LengYanqiu,GuoWeilin,Shi Xiao,et al.Degradation of Rhodamine B by persulfate activated with Fe₃O₄:Effect of polyhydroquinone serving as an electron shuttle.Chemical Engineering Journal,2014,240:338-343
[25]	汤茜,王艳华,迟赫.电Fenton法降解甲基橙的机理研究.安全与环境工程,2011,18(5):37-41 Tang Qian,Wang Yanhua,Chi He.Study on the degradation mechanism of methyl orange by electro-Fenton method.Safety and Environmental Engineering,2011,18(5):37-41(in Chinese)
[26]	Li Hua,Ma Hongrui,Zhang Lei.Degradation process analysis of the azo dyes by catalytic wet air oxidation with catalyst CuO/Al₂O₃.Chemosphere,2013,90(2):143-149

点击查看大图

计量

文章访问数: 2079
HTML全文浏览数: 1401
PDF下载数: 628
施引文献: 0

微波促进Fe@MCM-48催化K2S2O8降解甲基橙废水

Degradation of methyl orange wastewater by microwave assisted catalysis of potassium persulfate with Fe@MCM-48

计量

微波促进Fe@MCM-48催化K2S2O8降解甲基橙废水

English Abstract

Degradation of methyl orange wastewater by microwave assisted catalysis of potassium persulfate with Fe@MCM-48

全文HTML

目录

微波促进Fe@MCM-48催化K2S2O8降解甲基橙废水

Degradation of methyl orange wastewater by microwave assisted catalysis of potassium persulfate with Fe@MCM-48

计量

出版历程

微波促进Fe@MCM-48催化K2S2O8降解甲基橙废水

English Abstract

Degradation of methyl orange wastewater by microwave assisted catalysis of potassium persulfate with Fe@MCM-48

全文HTML

目录