化学研究
化學研究
화학연구
CHEMICAL RESEARCHES
2012年
1期
29-34
,共6页
Al3+%Ti4+%化学改性%MCM-41%介孔材料%Cd2+%吸附行为
Al3+%Ti4+%化學改性%MCM-41%介孔材料%Cd2+%吸附行為
Al3+%Ti4+%화학개성%MCM-41%개공재료%Cd2+%흡부행위
Al3+%Ti4+%chemical modification%MCM-41%mesoporous material%Cd2+%adsorption behavior
通过在MCM-41材料中引入Al3+和Ti4两种诱因金属离子合成了化学改性介孔材料Al-Ti- MCM-41和Ti-Al-MCM-41;评价了两种介孔材料对污水中镉离子的吸附行为.利用氮气吸附-脱附等温线对Al-Ti-MCM-41(1∶1)样品的吸附行为进行了详细分析,考察了吸附剂投加量、Cd2初始质量浓度和吸附温度对其吸附行为的影响.结果表明:改性Al-Ti-MCM-41(1∶1)介孔材料的最可几孔径和比孔容分别为16 nm和0.04cm3/g,由BJH法计算得到的平均孔径为17.02 nm;其对污水中Cd2+的吸附率达99.8%.Cd2+的吸附率随Al-Ti-MCM-41(1∶1)介孔材料投加量的增加先增加而后降低最终达到平衡,吸附容量随Cd2+初始浓度的增大而增加;吸附温度对吸附行为基本无影响.
通過在MCM-41材料中引入Al3+和Ti4兩種誘因金屬離子閤成瞭化學改性介孔材料Al-Ti- MCM-41和Ti-Al-MCM-41;評價瞭兩種介孔材料對汙水中鎘離子的吸附行為.利用氮氣吸附-脫附等溫線對Al-Ti-MCM-41(1∶1)樣品的吸附行為進行瞭詳細分析,攷察瞭吸附劑投加量、Cd2初始質量濃度和吸附溫度對其吸附行為的影響.結果錶明:改性Al-Ti-MCM-41(1∶1)介孔材料的最可幾孔徑和比孔容分彆為16 nm和0.04cm3/g,由BJH法計算得到的平均孔徑為17.02 nm;其對汙水中Cd2+的吸附率達99.8%.Cd2+的吸附率隨Al-Ti-MCM-41(1∶1)介孔材料投加量的增加先增加而後降低最終達到平衡,吸附容量隨Cd2+初始濃度的增大而增加;吸附溫度對吸附行為基本無影響.
통과재MCM-41재료중인입Al3+화Ti4량충유인금속리자합성료화학개성개공재료Al-Ti- MCM-41화Ti-Al-MCM-41;평개료량충개공재료대오수중력리자적흡부행위.이용담기흡부-탈부등온선대Al-Ti-MCM-41(1∶1)양품적흡부행위진행료상세분석,고찰료흡부제투가량、Cd2초시질량농도화흡부온도대기흡부행위적영향.결과표명:개성Al-Ti-MCM-41(1∶1)개공재료적최가궤공경화비공용분별위16 nm화0.04cm3/g,유BJH법계산득도적평균공경위17.02 nm;기대오수중Cd2+적흡부솔체99.8%.Cd2+적흡부솔수Al-Ti-MCM-41(1∶1)개공재료투가량적증가선증가이후강저최종체도평형,흡부용량수Cd2+초시농도적증대이증가;흡부온도대흡부행위기본무영향.
Chemically modified mesoporous materials Al-Ti-MCM-41 and Ti-Al-MCM-41 were prepared by incorporating Als+ and Ti4+ ions as inducement ions into MCM-41.The adsorption behavior of the two kinds of mesoporous materials for Cd2+ in wastewater was evaluated.Particularly,the adsorption performance of sample Al-Ti-MCM-41 (1 ∶ 1) was analyzed in detail based on nitrogen adsorption and desorption isotherms,with which the effects of adsorbent dosage on the adsorption rate and initial concentration of Cd2+ on the adsorption capacity were highlighted.However,the adsorption behavior was not affected by temperature.Results show that the most probable pore diameter and specific pore volume of Al-Ti-MCM-41(1 ∶ 1) are 16nm and 0.04 cm3/g,respectively.Its average diameter determined by the BJH method is 17.02nm,and it is able to adsorb Cd2+ in wastewater at a rate of up to 99.8%.Moreover,the adsorption capacity of Cd2+ decreased with increasing adsorbent dosage but increased with increasing initial concentration of Cd2+.