生物质化学工程
生物質化學工程
생물질화학공정
BIOMASS CHEMICAL ENGINEERING
2014年
2期
13-17
,共5页
杨静%蒋剑春%张宁%卫民%赵剑
楊靜%蔣劍春%張寧%衛民%趙劍
양정%장검춘%장저%위민%조검
橡子壳%酸法预处理%酶水解%木质纤维素%纤维结构
橡子殼%痠法預處理%酶水解%木質纖維素%纖維結構
상자각%산법예처리%매수해%목질섬유소%섬유결구
Oak shell%dilute acid pretreatment%enzymatic hydrolysis%lignocellulose%cellulose structure
以橡子壳为木质纤维素原料,考察了酸法预处理对其化学组成变化以及酶水解得率的影响,并采用电子扫描电镜( SEM)、红外光谱( IR)和X射线衍射分析( XRD)对橡子壳纤维结构特征进行了表征。结果表明:橡子壳用2%硫酸溶液按固液比1∶8(g∶mL)室温处理48 h,半纤维素和木质素去除率分别为21.6%和6.6%;酶水解得率从42.8%增加至71.4%,总体葡萄糖产率达到71.2%,提高了66.4%。经过121℃(0.15 MPa)处理1 h,半纤维素和木质素的去除率分别为84.6%和24.5%。酶水解得率为72.1%,较处理前提高了68.5%,但由于纤维素损失率较高,导致总体葡萄糖产率增幅不大。经过酸处理后,橡子壳纤维比表面积增大、表面孔洞增加,纤维结构的结晶度下降,有利于纤维素酶水解作用的进行。
以橡子殼為木質纖維素原料,攷察瞭痠法預處理對其化學組成變化以及酶水解得率的影響,併採用電子掃描電鏡( SEM)、紅外光譜( IR)和X射線衍射分析( XRD)對橡子殼纖維結構特徵進行瞭錶徵。結果錶明:橡子殼用2%硫痠溶液按固液比1∶8(g∶mL)室溫處理48 h,半纖維素和木質素去除率分彆為21.6%和6.6%;酶水解得率從42.8%增加至71.4%,總體葡萄糖產率達到71.2%,提高瞭66.4%。經過121℃(0.15 MPa)處理1 h,半纖維素和木質素的去除率分彆為84.6%和24.5%。酶水解得率為72.1%,較處理前提高瞭68.5%,但由于纖維素損失率較高,導緻總體葡萄糖產率增幅不大。經過痠處理後,橡子殼纖維比錶麵積增大、錶麵孔洞增加,纖維結構的結晶度下降,有利于纖維素酶水解作用的進行。
이상자각위목질섬유소원료,고찰료산법예처리대기화학조성변화이급매수해득솔적영향,병채용전자소묘전경( SEM)、홍외광보( IR)화X사선연사분석( XRD)대상자각섬유결구특정진행료표정。결과표명:상자각용2%류산용액안고액비1∶8(g∶mL)실온처리48 h,반섬유소화목질소거제솔분별위21.6%화6.6%;매수해득솔종42.8%증가지71.4%,총체포도당산솔체도71.2%,제고료66.4%。경과121℃(0.15 MPa)처리1 h,반섬유소화목질소적거제솔분별위84.6%화24.5%。매수해득솔위72.1%,교처리전제고료68.5%,단유우섬유소손실솔교고,도치총체포도당산솔증폭불대。경과산처리후,상자각섬유비표면적증대、표면공동증가,섬유결구적결정도하강,유리우섬유소매수해작용적진행。
The effect of dilute acid pretreatment on the composition and enzymatic hydrolysis rate of Sawtooth Oak ( Quercus acutissima) shells was investigated. And the fiber structures of pretreated residues were studied with scanning electron microscopy ( SEM) , infrared spectra ( IR ) and X-ray diffraction spectrum ( XRD ) . Results showed that after pretreatment at room temperature with 2% H2 SO4 , the contents of hemicellulose and lignin were reduced by 21. 6% and 6. 6%, respectively. The enzymatic hydrolysis yield reached 71. 4% from 42. 8%, and total glucose yield was 71. 2% which was 66. 4% more than that of untreated oak shell. After pretreatment at 121℃ (0. 15 MPa) for 1 h, the contents of hemicellulose and lignin were reduced by 84. 6% and 24. 5%, respectively. The enzymatic hydrolysis yield reached 72. 1% which was 68. 5% more than that of untreated oak shell. Because of the high cellulose loss, the glucose yield improvement was not so obvious. The fiber surface and pore volume increased and the crystallinity of cellulose decreased, which are favorable to increase the enzymatic hydrolysis rate.