化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2014年
5期
1290-1295
,共6页
常贵娟%肖武%李祥村%贺高红
常貴娟%肖武%李祥村%賀高紅
상귀연%초무%리상촌%하고홍
乳液交联法%多孔淀粉%吸附%染料废水
乳液交聯法%多孔澱粉%吸附%染料廢水
유액교련법%다공정분%흡부%염료폐수
emulsion crosslinking method%porous starch%adsorption%dye wastewater
以可溶性淀粉为原料,用环己烷为油相的油包水乳液,通过交联反应成功制备了多孔淀粉。通过实验,优化了环己烷的加入量。扫描电镜显示多孔淀粉的表面有大量微孔;红外光谱扫描表明交联成功,并且大量羟基仍然存在;X射线衍射光谱分析结晶度大大降低。多孔淀粉的比表面积为3.456m2/g,吸油率高达162%,对亚甲基蓝的最大饱和吸附量是145mg/g;相比酶解法制备的多孔淀粉,本文提出的乳液交联法制备的多孔淀粉的比表面积提高了1.6倍,吸油率提高了0.7倍,对亚甲基蓝的最大饱和吸附量提高了近4倍。多孔淀粉通过氢键作用吸附染料亚甲基蓝和碱性品红,且是一个快速平衡的过程。
以可溶性澱粉為原料,用環己烷為油相的油包水乳液,通過交聯反應成功製備瞭多孔澱粉。通過實驗,優化瞭環己烷的加入量。掃描電鏡顯示多孔澱粉的錶麵有大量微孔;紅外光譜掃描錶明交聯成功,併且大量羥基仍然存在;X射線衍射光譜分析結晶度大大降低。多孔澱粉的比錶麵積為3.456m2/g,吸油率高達162%,對亞甲基藍的最大飽和吸附量是145mg/g;相比酶解法製備的多孔澱粉,本文提齣的乳液交聯法製備的多孔澱粉的比錶麵積提高瞭1.6倍,吸油率提高瞭0.7倍,對亞甲基藍的最大飽和吸附量提高瞭近4倍。多孔澱粉通過氫鍵作用吸附染料亞甲基藍和堿性品紅,且是一箇快速平衡的過程。
이가용성정분위원료,용배기완위유상적유포수유액,통과교련반응성공제비료다공정분。통과실험,우화료배기완적가입량。소묘전경현시다공정분적표면유대량미공;홍외광보소묘표명교련성공,병차대량간기잉연존재;X사선연사광보분석결정도대대강저。다공정분적비표면적위3.456m2/g,흡유솔고체162%,대아갑기람적최대포화흡부량시145mg/g;상비매해법제비적다공정분,본문제출적유액교련법제비적다공정분적비표면적제고료1.6배,흡유솔제고료0.7배,대아갑기람적최대포화흡부량제고료근4배。다공정분통과경건작용흡부염료아갑기람화감성품홍,차시일개쾌속평형적과정。
Porous starch was prepared by crosslinking from soluble starch through water-in-oil emulsion,with cyclohexane as the oil phase. The amount of cyclohexane was optimized by experiment. A large number of micropores could be seen with scanning electron microscopy. FTIR scanning showed that crosslinking reaction was successful,and a large number of hydroxyl groups still remained. XRD analysis showed that crystallinity was reduced greatly. The specific surface area of the porous starch was 3.456m2/g,oil absorption rate was up to 162%,and the maximum saturated adsorption capacity for methylene blue was 145mg/g. Compared with the porous starch prepared by the enzymatic hydrolysis method,the specific surface area of the porous starch increased 1.6 times,oil absorption rate increased 0.7 times,and maximum saturation adsorption capacity for methylene blue increased nearly 4 times. Through hydrogen bonding,the porous starch adsorbed methylene blue and fuchsin,as a rapid equilibrium process.
