中国科技论文在线
中國科技論文在線
중국과기논문재선
SCIENCEPAPER ONLINE
2011年
9期
700-706
,共7页
丁爱中%付云飞%刘培生%豆俊峰%郑蕾
丁愛中%付雲飛%劉培生%豆俊峰%鄭蕾
정애중%부운비%류배생%두준봉%정뢰
多孔沸石%吸附除砷%一水软铝石%Langmuir方程%Elovich方程
多孔沸石%吸附除砷%一水軟鋁石%Langmuir方程%Elovich方程
다공비석%흡부제신%일수연려석%Langmuir방정%Elovich방정
porous zeolite%arsenate removal by adsorption%boehmite%Langmuir equation%Elovich equation
以多孔沸石为载体和拟薄水铝石溶胶为原料制备了载铝多孔沸石吸附剂,根据不同工艺条件下制备样品的除砷效果,优化了制备工艺参数;并通过XRD和SEM对吸附剂进行了表征分析;研究了pH值、时间和阴离子对除砷效果的影响,以及吸附剂对砷的等温吸附方程和吸附动力学方程。结果表明:吸附剂350℃烧结,5 h保温,载铝层负载2次为最优工艺参数,该条件下样品砷去除率可达98%。综合XRD、SEM表征分析,在此烧结条件下载铝层主要成分为一水软铝石。对砷吸附的等温吸附数据进行拟合,发现符合Langmiur方程,随时间的变化规律符合Elovich方程。该吸附剂在pH值为5.5-6.5范围内时吸附性能较佳,而SO42-,PO43-对吸附砷影响明显。
以多孔沸石為載體和擬薄水鋁石溶膠為原料製備瞭載鋁多孔沸石吸附劑,根據不同工藝條件下製備樣品的除砷效果,優化瞭製備工藝參數;併通過XRD和SEM對吸附劑進行瞭錶徵分析;研究瞭pH值、時間和陰離子對除砷效果的影響,以及吸附劑對砷的等溫吸附方程和吸附動力學方程。結果錶明:吸附劑350℃燒結,5 h保溫,載鋁層負載2次為最優工藝參數,該條件下樣品砷去除率可達98%。綜閤XRD、SEM錶徵分析,在此燒結條件下載鋁層主要成分為一水軟鋁石。對砷吸附的等溫吸附數據進行擬閤,髮現符閤Langmiur方程,隨時間的變化規律符閤Elovich方程。該吸附劑在pH值為5.5-6.5範圍內時吸附性能較佳,而SO42-,PO43-對吸附砷影響明顯。
이다공비석위재체화의박수려석용효위원료제비료재려다공비석흡부제,근거불동공예조건하제비양품적제신효과,우화료제비공예삼수;병통과XRD화SEM대흡부제진행료표정분석;연구료pH치、시간화음리자대제신효과적영향,이급흡부제대신적등온흡부방정화흡부동역학방정。결과표명:흡부제350℃소결,5 h보온,재려층부재2차위최우공예삼수,해조건하양품신거제솔가체98%。종합XRD、SEM표정분석,재차소결조건하재려층주요성분위일수연려석。대신흡부적등온흡부수거진행의합,발현부합Langmiur방정,수시간적변화규률부합Elovich방정。해흡부제재pH치위5.5-6.5범위내시흡부성능교가,이SO42-,PO43-대흡부신영향명현。
An effective adsorbent for simultaneous arsenate removal has been prepared by loading pseudoboehmite on porous zeolite.Optimization of process parameter was obtained based on the removal effect of the samples.X-ray diffraction and scanning electron microscopy were employed to characterize the adsorbent.The adsorption isotherm,kinetics,effect of pH,temperature,time,and co-exist anions were also investigated in the study.The results showed that the optimal parameters were sintering temperature 350 ℃,holding time 5 hous,loads 2 times.And the removal rate can be reached 87% under the optimal conditions.The composition of the loaded layer was boehmite through XRD and SEM characterization.The adsorption data fits by Langmuir isotherm model and the adsorb velocity could be predicted well by applying Elovich equation.The absorption performance of the absorbent is better when pH is within a range of 5.5-6.5 and SO42-,PO43-can markedly decrease arsenite adsorption.
