摘要
以HAC型粉状活性炭对酶解低聚木糖液进行吸附脱色,研究了活性炭的用量和酶解低聚木糖的初始浓度等因素对吸附脱色的影响规律。结果表明,酶解低聚木糖中含有少量不能被HAC型活性炭所吸附的色素类物质,活性炭对色素的吸附率高于对低聚木糖的吸附率,并且对色素的吸附属于典型的"Langmuir"型等温吸附。以2.5g/L活性炭吸附16.0g/L酶解低聚木糖时,色素的吸附率可达到89.9%,低聚木糖的吸附率为14.7%。
The xylooligosaccharide solution was prepared by enzymatic hydrolysis of hemicellulose and this solution was decolorized on the HAC type powder active carbon(AC) by adsorption,the effects of the active carbon dosage and the initial total reductive sugar (TRS) concentration of xylooligosaccharide on the adsorption decolorization were experimentally studied.The experimental results showed that there was a little of coloring matter in xylooligosaccharide solution to be inaccessible to AC,and the others might be either linear or plate molecule structure which was adsorbable to AC.During the adsorption decolorization of xylooligosaccharide on AC,the adsorption rate of coloring matters was larger than that of xylooligosaccharide.In the saccharide components of the xylooligosaccharide solution,the adsorption rate of xylopentaose was the largest,that of xylotetraose was the larger and that of xylose was the smallest,which showed that the pore structure of this AC was preferable to the molecules of xylopentaose and xylotetraose.It was concluded that the adsorption isotherm of coloring matter on AC belongs to Langmuir type and the adsorption isotherms of xylooligosaccharides might be High type.Raising the AC dosage could increase both adsorption rates of xylooligosaccharide and coloring matter,and there was a linear relationship between the adsorption rate of xylooligosaccharide and the AC dosage but it was not so for the coloring matter.The adsorption rate of coloring matter could reach the highest rate 89.9% and the adsorption rate of xylooligosaccharide was 14.7% at 2.5 g/L AC dosage and 16.0% TRS of xylooligosaccharide.
出处
《南京林业大学学报(自然科学版)》
CAS
CSCD
北大核心
2003年第2期7-10,共4页
Journal of Nanjing Forestry University:Natural Sciences Edition
基金
国家自然科学基金资助项目(39770601
30070636)
关键词
低聚木糖
活性炭
色素
吸附脱色
Xylo-oligosaccharide
Active carbon
Coloring matter
Adsorption decolorization
