期刊文献+

天然锰矿对水体中磷的去除研究 被引量:2

Adsorption of Phosphate onto Natural Manganese Ore
原文传递
导出
摘要 研究了天然锰矿对水体中磷的去除效果,考察了温度、光照、锰矿用量、溶液pH及共存离子对除磷效果的影响。结果表明,pH对磷的吸附影响很大。离子影响中,Ca2+、Mg2+、CO32-、HCO3-、SiO32-和SO24-的影响不大,而AsO43-和AsO3-却能明显抑制锰矿对磷的吸附。Freundlich等温吸附模型(r2=0.984 4)能很好的描述磷的吸附。动力学数据符合二级动力学模型(r2=0.999 9),最大吸附量为30.40μg/g。FTIR和SEM结果显示磷主要是通过与锰矿表面的羟基发生置换或生成内层络合物而被吸附。天然锰矿,具有较大的比表面积,强选择性,是一种很有前景的去除天然水体中磷的吸附剂。 Adsorption of phosphate from aqueous solution onto natural manganese ore was investigated.The effects of different experimental parameters,namely temperature,light,natural manganese ore amount,solution pH,and interfering ion dosage on the phosphate adsorption were investigated.It was found that the phosphate adsorption was highly pH dependent.Ca2+,Mg2+,CO2-3,HCO-3,SiO2-3 and SO2-4 had no significant effect on phosphate removal.However,the percentage of phosphate removal obviously decreased with increasing concentration of AsO3-4 and AsO3-3.The adsorption isotherm was fitted well with Freundlich isotherm model(r2=0.984 4).The kinetic data correlated well with the second order kinetic model(r2=0.999 9),and the maximal adsorption capacity was 30.40 μg/g.The FTIR spectrum and SEM image show that the phosphate removal was mainly achieved through the replacement of surface hydroxyl groups by the phosphate species and the formation of inner-sphere surface complexes at the water/oxide interface.
出处 《武汉理工大学学报》 CAS CSCD 北大核心 2012年第4期76-80,共5页 Journal of Wuhan University of Technology
基金 国家"863"项目(2007AA06Z332)
关键词 天然锰矿 吸附 等温线 动力学 natural manganese ore phosphate adsorption isotherms kinetics
  • 相关文献

参考文献19

  • 1Choi J W,Lee S Y,Park K Y,et al.Investigation of Phosphorous Removal from Wastewater Through Ion Exchange ofMesostructure[J].Desalination,2011,266(1-3):281-285.
  • 2Gao J,Xiong Z,Zhang J,et al.Phosphorus Removal from Water of Eutrophic Lake Donghu by Five Submerged Macro-phytes[J].Desalination,2009,242(1-3):193-204.
  • 3Huang Y B,Wang L L,Tu S X,et al.Influence of Various Factors on Arsenic Removal Using Ferruginous Manganese Ore[J].Applied Mechanics and Materials,2011,71-78:2753-2758.
  • 4Tanada S,Kabayama M,Kawasaki N,et al.Removal of Phosphate by Aluminum Oxide Hydroxide[J].Journal of ColloidInterface Science,2003,257(1):135-140.
  • 5Peleka E N,Deliyanni E A.Adsorptive Removal of Phosphates from Aqueous Solutions[J].Desalination,2009,245(1-3):357-371.
  • 6Zeng L,Li X M,Liu J D.Adsorptive Removal of Phosphate from Aqueous Solutions Using Iron Oxide Tailings[J].WaterResearch,2004,38(5):1318-1326.
  • 7Arne Gnz,Anja Kornmuller,Martin Jekel.Advanced Phosphorus Removal from Membrane Filtrates by Adsorption Acti-vated Aluminium Oxide and Granulated Ferric Hydroxide[J].Water Research,2004,38(16):3523-3530.
  • 8Xiong J B,Mahmood Q.Adsorptive Removal of Phosphate from Aqueous Media by Peat[J].Desalination,2010,259(1-3):59-64.
  • 9Makris K C,Harris W G,O’Connor G A,et al.Long-term Phosphorus Effects on Evolving Physicochemical Properties ofIron and Aluminum Hydroxides[J].Journal of Colloid Interface Science,2005,287(2):552-560.
  • 10Mustafa S,Zaman M I,Khan S.pH Effect on Phosphate Sorption by Crystalline MnO2[J].Journal of Colloid InterfaceScience,2006,301(2):370-375.

二级参考文献17

  • 1董岁明,闫英桃,董延芳.载铁改性沸石吸附剂去除含氟水中氟离子的研究[J].汉中师范学院学报,2004,22(3):57-60. 被引量:13
  • 2刘超.地下水除砷[J].给水排水,1991,17(3):52-56. 被引量:3
  • 3李彬,宁平,陈玉保,邱琳.除磷稀土吸附剂的再生实验研究[J].昆明理工大学学报(理工版),2005,30(4):88-91. 被引量:5
  • 4陈春宁,石林,刘金香,谢水波.水中竞争性阴离子对Fe^0除砷效率的影响研究[J].南华大学学报(自然科学版),2006,20(4):51-54. 被引量:6
  • 5石荣,贾永锋,王承智.土壤矿物质吸附砷的研究进展[J].土壤通报,2007,38(3):584-589. 被引量:55
  • 6Chakravarty S,Dureja V, Bhattacharyya G, et al. Removal of Arsenic from Groundwater Using Low Cost Ferruginous Manganese Ore[J]. Water Research, 2002,30 (3) : 625-632.
  • 7Huang Yongbing,Wang I.ili, Tu Shuxin, et al. Influence of Various Factors on Arsenic Removal Using Ferruginous Man ganese Ore[J]. Applied Mechanics and Materials,2011,71-78: 2753-2758.
  • 8Gupta V K, Rastogi A. Equilibrium and Kinetic Modeling of Cadmium( Ⅱ ) Biosorption by Nonliving Algal Biomass Oe- dogonium sp. from Aqueous Phase[J].Journal of Hazard Mater, 2008,153(1 2): 759 -766.
  • 9Mehmet K, Mustafa E K, Suleyman M, et al. Hg( Ⅱ ) and Pb( Ⅱ ) Adsorption on Activated Sludge Biomass: Effective Bbiosorption Mechanism[J]. Int Miner Process, 2008,87 (1-2) : 1-8.
  • 10Jalali R, Ghafourian H, Asef Y, et al. Removal and Recovery of Lead Using Nonliving Biomass of Marine Alage[J]. Jour- nal of Hazard Mater, 2002,92(3) : 253-262.

共引文献13

同被引文献24

引证文献2

二级引证文献5

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部