化学研究与应用
化學研究與應用
화학연구여응용
CHEMICAL RESEARCH AND APPLICATION
2014年
4期
508-513
,共6页
陈圆圆%杨骏%王雪雷%龙俞霖
陳圓圓%楊駿%王雪雷%龍俞霖
진원원%양준%왕설뢰%룡유림
硅分子筛%除磷%动力学%共存离子%离子强度
硅分子篩%除燐%動力學%共存離子%離子彊度
규분자사%제린%동역학%공존리자%리자강도
mesoporous molecular sieves%phosphate removal%kinetics%coexisting anions%ionic strength
分别在甲基二甲氧基硅烷改性介孔分子筛MCM41上锚定Al和Fe离子,成功制备了功能化的介孔硅分子筛有机/无机杂化吸附剂Al-NN-MCM41和Fe-NN-MCM41。详细考察了磷溶液初始浓度、吸附时间,溶液pH值和共存离子等对吸附剂磷吸附性能的影响。实验结果表明:Langmiur等温方程比Freundlich等温方程能更好地描述磷酸根离子在两种吸附剂上的吸附,两种吸附剂的吸附动力学过程更适合动力学准二级方程(r2>0.99)。磷溶液的pH值对吸附剂的磷吸附容量有显著影响。此外,同时添加NO33-、Cl-、SO42-、CO32-四种共存离子对吸附剂磷吸附效率没有显著影响。
分彆在甲基二甲氧基硅烷改性介孔分子篩MCM41上錨定Al和Fe離子,成功製備瞭功能化的介孔硅分子篩有機/無機雜化吸附劑Al-NN-MCM41和Fe-NN-MCM41。詳細攷察瞭燐溶液初始濃度、吸附時間,溶液pH值和共存離子等對吸附劑燐吸附性能的影響。實驗結果錶明:Langmiur等溫方程比Freundlich等溫方程能更好地描述燐痠根離子在兩種吸附劑上的吸附,兩種吸附劑的吸附動力學過程更適閤動力學準二級方程(r2>0.99)。燐溶液的pH值對吸附劑的燐吸附容量有顯著影響。此外,同時添加NO33-、Cl-、SO42-、CO32-四種共存離子對吸附劑燐吸附效率沒有顯著影響。
분별재갑기이갑양기규완개성개공분자사MCM41상묘정Al화Fe리자,성공제비료공능화적개공규분자사유궤/무궤잡화흡부제Al-NN-MCM41화Fe-NN-MCM41。상세고찰료린용액초시농도、흡부시간,용액pH치화공존리자등대흡부제린흡부성능적영향。실험결과표명:Langmiur등온방정비Freundlich등온방정능경호지묘술린산근리자재량충흡부제상적흡부,량충흡부제적흡부동역학과정경괄합동역학준이급방정(r2>0.99)。린용액적pH치대흡부제적린흡부용량유현저영향。차외,동시첨가NO33-、Cl-、SO42-、CO32-사충공존리자대흡부제린흡부효솔몰유현저영향。
The inorganic/organic hybrid mesoporous silica adsorbents,Al-NN-MCM41 and Fe-NN-MCM41,were successfully syn-thesized by introducing aluminum and iron ions onto diamino modified MCM-41,respectively. Effect of the initial phosphate concen-trations,contact times,pH values,and coexisting anions on adsorption capacity of the synthesized adsorbents was also systematically studied. The Langmuir and Freundlich isotherm models were used to simulate the adsorption equilibrium,and the results show that the Langmuir model fit the experiment data better than the Freundlich model. For kinetic study,the phosphate adsorption of the ad-sorbents could be well-described by the pseudo-second-order equation with correlation coefficients greater than 0. 99. The results show that pH value of the phosphate solution plays a dramatic role in determining the adsorption capacity, and the presence of NO3-,Cl-, SO4 2- and CO3 2- has negliable influence on the adsorption capacity of phosphate on Al-NN-MCM41 and Fe-NN-MCM41.