海泡石吸附混合污染物和气态污染物的研究进展
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摘要
海泡石是一种具有吸附活性的天然硅酸盐黏土矿物,在水污染、土壤污染、大气污染治理中可作为一种高效吸附剂。本文论述了海泡石的吸附机理,介绍了海泡石吸附混合重金属离子、混合有机染料、重金属与有机物共存等混合污染物和CO2、CH2O、NH3、SO2等有毒有害气体的吸附效果,并展望了今后的研究方向:(1)目前的研究多是基于静态吸附试验,且试验所用废水均为实验室配制的模拟废水,今后应进行动态吸附试验,并以实际废水为研究对象;(2)海泡石经过改性后,可在一定程度上提高吸附容量,今后可继续优化改性剂和改性工艺,从而进一步提高吸附容量;(3)结合各类吸附剂之所长,将海泡石与其他有机、无机或生物材料复合,研制出吸附效果更佳的新型复合吸附剂。
Sepiolite,a natural silicate clay mineral with adsorption activity,is a kind of adsorbent with high efficiency in water pollution,soil pollution and air pollution control.The adsorption mechanism of sepiolite is reviewed,and the effects of sepiolite adsorption on mixed pollutants,such as mixed heavy metal ions,mixed organic dye,coexistence of heave metal and organic dye,and toxic and/or harmful gases,such as carbon dioxide,formaldehyde,ammonia,sulfur dioxide is introduced.The existing problems of sepiolite used as adsorbent for environmental protection are summarized,and the directions for future research direction are prospected.The current research is mainly based on static adsorption tests,and the wastewater used in experiments is simulated wastewater prepared by the laboratory.Dynamic adsorption tests should be carried out in the future,and the actual wastewater should be taken as the research object.After being modified,the adsorption capacity of sepiolite is improved to a certain extent.In the future,the modifier and modification process should be optimized,thus the adsorption capacity can be improved further.Combining with the advantages of all kinds of adsorbent,sepiolite should be combined with other organic,inorganic or biological materials to develop new composite adsorbents with better adsorption effect.
Sepiolite,a natural silicate clay mineral with adsorption activity,is a kind of adsorbent with high efficiency in water pollution,soil pollution and air pollution control.The adsorption mechanism of sepiolite is reviewed,and the effects of sepiolite adsorption on mixed pollutants,such as mixed heavy metal ions,mixed organic dye,coexistence of heave metal and organic dye,and toxic and/or harmful gases,such as carbon dioxide,formaldehyde,ammonia,sulfur dioxide is introduced.The existing problems of sepiolite used as adsorbent for environmental protection are summarized,and the directions for future research direction are prospected.The current research is mainly based on static adsorption tests,and the wastewater used in experiments is simulated wastewater prepared by the laboratory.Dynamic adsorption tests should be carried out in the future,and the actual wastewater should be taken as the research object.After being modified,the adsorption capacity of sepiolite is improved to a certain extent.In the future,the modifier and modification process should be optimized,thus the adsorption capacity can be improved further.Combining with the advantages of all kinds of adsorbent,sepiolite should be combined with other organic,inorganic or biological materials to develop new composite adsorbents with better adsorption effect.
引文
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[2]郑水林.非金属矿加工与应用[M].北京:化学工业出版社,2003.
[3] ALKAN M,ELIKAPA S,DEMIRBA爦,et al.Removal of reactive blue 221 and acid blue 62 anionic dyes from aqueous solutions by sepiolite[J].Dyes&Pigments,2005,65(3):251-259.
[4]张永辉.五水硫代硫酸钠/海泡石复合相变储热材料的制备与性能测试[D].西安:西北大学,2017.
[5] GONZLEZ-PRADAS E,SOCAS-VICIANA M,UREAAMATE M D,et al.Adsorption of chloridazon from aqueous solution on heat and acid treated sepiolites[J].Water Research,2005,39(9):1849-1857.
[6] KARA K,YUZER H,SABAH E,et al.Adsorption of cobalt from aqueous solutions onto sepiolite[J].Water Research,2003,37(1):224-232.
[7]李双双,戴友芝,于磊,等.铁改性海泡石除锑的影响因素研究[J].环境工程学报,2009,3(3):485-488.LI Shuangshuang,DAI Youzhi,YU Lei,et al.Study on affecting factors of removing antimony with iron modified sepiolite[J].Chinese Journal of Environmental Engineering,2009,3(3):485-488.
[8] ALKAN M,TEKIN G,NAMLI H.FTIR and zeta potential measurements of sepiolite treated with some organosilanes[J].Microporous&Mesoporous Materials,2005,84(1):75-83.
[9]丁德宝,汤庆国,王菲,等.偶联改性对海泡石粉体表面官能团结构及性能的影响[J].科学技术与工程,2017,17(20):17-22.DING Debao,TANG Qingguo,WANG Fei,et al.Effect of coupling modification on the surface functional group and properties of sepiolite powder[J].Science Technology and Engineering,2017,17(20):17-22.
[10]苏小丽,夏光华,廖润华.有机海泡石的制备及其结构性能的研究[J].陶瓷学报,2010,31(2):310-314.SU Xiaoli,XIA Guanghua,LIAO Runhua.Study on preparation and properties of organic sepiolite[J].Journal of Ceramics,2010,31(2):310-314.
[11]ZDEMIR O,INAR M,SABAH E,et al.Adsorption of anionic surfactants onto sepiolite[J].Journal of Hazardous Materials,2007,147(1-2):625-632.
[12]杨秀敏,乔艳云,李立欣,等.重金属Cu2+、Zn2+、Cd2+在海泡石中的吸附特征[J].黑龙江科技学院学报,2013,23(1):51-54.YANG Xiumin,QIAO Yanyun,LI Lixin,et al.Adsorption characteristic of Cu2+,Zn2+and Cd2+by sepiolite[J].Journal of Heilongjiang Institute of Science&Technology,2013,23(1):51-54.
[13]刘翔.改性海泡石对Cu2+和Zn2+混合溶液吸附效果研究[J].工业安全与环保,2015,41(11):29-32.LIU Xiang.The study on the adsorption effect of modified sepiolite on Cu2+and Zn2+mixed solution[J].Industrial Safety and Environmental Protection,2015,41(11):29-32.
[14]胡忠于,罗道成,易平贵,等.改性海泡石对电镀废水中Pb2+、Cu2+、Cd2+的吸附[J].材料保护,2002,35(5):45-46,53.HU Zhongyu,LUO Daocheng,YI Pinggui,et al.Adsorption of Pb2+,Cu2+,Cd2+in electroplating wastewater by modified meerschaum[J].Materials Protection,2002,35(5):45-46,53.
[15]金胜明,阳卫军,唐谟堂.海泡石表面改性及其应用试验研究[J].非金属矿,2001,24(4):23-24,49.JINShengming, YANGWeijun, TANGMotang.Experimental research on surface modification of sepiolite and its application[J].Non-Metallic Mines,2001,24(4):23-24,49.
[16]李琛,于俊洋.海泡石的改性及其在铅锌冶炼废水处理中的应用[J].科学技术与工程,2013,13(30):9153-9157.LI Chen,YU Junyang.Modification and application of sepiolite inlead and zinc smelter wastewater treatment[J].Science Technology and Engineering,2013,13(30):9153-9157.
[17]余铁萍,戴友芝,王未平,等.磁性海泡石吸附水中重金属离子的特性及机理[J].环境化学,2013,32(8):1566-1570.YU Tieping,DAI Youzhi,WANG Weiping,et al.Adsorption characteristic andmechanismofheavymetalsonto magnetically modified sepiolite[J].Environmental Chemistry,2013,32(8):1566-1570.
[18]林大松,刘尧,徐应明,等.海泡石对污染土壤镉、锌有效态的影响及其机制[J].北京大学学报:自然科学版,2010,46(3):346-350.LIN Dasong,LIU Yao,XU Yingming,et al.Effects of sepiolite on the immobilization of cadmium and zinc in soil[J].Acta Scientiarum Naturalium Universitatis Pekinensis,2010,46(3):346-350.
[19]方至萍,廖敏,张楠,等.施用海泡石对铅、镉在土壤-水稻系统中迁移与再分配的影响[J].环境科学,2017,38(7):3028-3035.FANG Zhiping,LIAO Min,ZHANG Nan,et al.Effect of sepiolite application on the migration and redistribution of Pb and Cd in soil rice system in soil with Pb and Cd combined contamination[J].Environmental Science,2017,38(7):3028-3035.
[20]孙约兵,王朋超,徐应明,等.海泡石对镉-铅复合污染钝化修复效应及其土壤环境质量影响研究[J].环境科学,2014,35(12):4720-4726.SUN Yuebing,WANG Pengchao,XU Yingming,et al.Immobilization remediation of Cd and Pb contaminated soil:remediation potential and soil environmental quality[J].Environmental Science,2014,35(12):4720-4726.
[21]吴玉俊,周航,朱维,等.碳酸钙和海泡石组配对水稻中Pb和Cd迁移转运的影响[J].环境工程学报,2015,9(8):4047-4054.WU Yujun,ZHOU Hang,ZHU Wei,et al.Effects of combined amendment(limestone+sepiolite)on translocation of Pb and Cd in rice[J].Chinese Journal of Environmental Engineering,2015,9(8):4047-4054.
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