功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
8期
1001-1004
,共4页
毕韶丹%安向艳%党明岩%刘清玉
畢韶丹%安嚮豔%黨明巖%劉清玉
필소단%안향염%당명암%류청옥
香草醛改性壳聚糖%吸附%Cd2+%热力学%动力学
香草醛改性殼聚糖%吸附%Cd2+%熱力學%動力學
향초철개성각취당%흡부%Cd2+%열역학%동역학
chitosan modified by vanillin%adsorption%Cd2+%thermodynamics%kinetics
研究了微波辐射条件下香草醛改性壳聚糖(V-CTS)对Cd2+离子的吸附性能,测定了吸附等温线和吸附动力学曲线。结果表明,该吸附剂对Cd2+离子的吸附行为符合Freundlich吸附等温式,在298~318K温度范围内,焓变ΔH=24.22kJ/mol,表明吸附是吸热过程。吸附动力学符合Lagergren二级吸附速率方程,反应活化能为25.58kJ/moL,表明V-CTS对金属离子的吸附由化学反应控制,而非扩散控制。吸附剂解吸再生循环使用4次后,镉离子的吸附容量仅减少18.9%,该吸附剂具有较好地再生使用性。
研究瞭微波輻射條件下香草醛改性殼聚糖(V-CTS)對Cd2+離子的吸附性能,測定瞭吸附等溫線和吸附動力學麯線。結果錶明,該吸附劑對Cd2+離子的吸附行為符閤Freundlich吸附等溫式,在298~318K溫度範圍內,焓變ΔH=24.22kJ/mol,錶明吸附是吸熱過程。吸附動力學符閤Lagergren二級吸附速率方程,反應活化能為25.58kJ/moL,錶明V-CTS對金屬離子的吸附由化學反應控製,而非擴散控製。吸附劑解吸再生循環使用4次後,鎘離子的吸附容量僅減少18.9%,該吸附劑具有較好地再生使用性。
연구료미파복사조건하향초철개성각취당(V-CTS)대Cd2+리자적흡부성능,측정료흡부등온선화흡부동역학곡선。결과표명,해흡부제대Cd2+리자적흡부행위부합Freundlich흡부등온식,재298~318K온도범위내,함변ΔH=24.22kJ/mol,표명흡부시흡열과정。흡부동역학부합Lagergren이급흡부속솔방정,반응활화능위25.58kJ/moL,표명V-CTS대금속리자적흡부유화학반응공제,이비확산공제。흡부제해흡재생순배사용4차후,력리자적흡부용량부감소18.9%,해흡부제구유교호지재생사용성。
Chitosan modified by vanillin(V-CTS) were prepared with microwave radiation method for adsorption of Cd( Ⅱ )ions were investigated. V-CTS was characterized by means of FT-IR,SEM and XRD. Results showed that the isothermal adsorption follows the isothermal adsorption model of Freundlich. Enthalpy change at ad- sorption temperatures in range of 298-318K is 24. 2174kJ/mol, which suggests that adsorption process is endo-thermic. The adsorption kinetics followed the mechanism of the pseudo-second-order equation and activity energy is 25. 57597kJ/mol, evidencing chemical sorption as the rate-limiting step of adsorption mechanism and not involving a mass transfer in solution. After 4 times regeneration experiment,the uptake amount of Cd( 11 )ions reduced 18.9%.
