[1]孙培勤,衡明星,孙绍晖,等.泡桐直接液化固体及液相产物的红外光谱分析[J].郑州大学学报(工学版),2010,31(01):69.
 SUN Peiqin,HENG Mingxing,SUN Shaohui,et al.The Solid Residue and liquid Products of Paulownia DirectLiquefaction Analyzed With FTIR[J].Journal of Zhengzhou University (Engineering Science),2010,31(01):69.
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泡桐直接液化固体及液相产物的红外光谱分析()
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《郑州大学学报(工学版)》[ISSN:1671-6833/CN:41-1339/T]

卷:
31
期数:
2010年01期
页码:
69
栏目:
出版日期:
2010-01-30

文章信息/Info

Title:
The Solid Residue and liquid Products of Paulownia DirectLiquefaction Analyzed With FTIR
作者:
孙培勤衡明星孙绍晖等.
郑州大学化工与能源学院,河南,郑州,450001
Author(s):
SUN Peiqin; HENG Mingxing; SUN Shaohui; etc
School of Chemical and Energy Engineering,Zhengzhou University,Zhengzhou 450001。China
Keywords:
biomassfunctional groupFTIR analysispaulowniadirect liquefaction
文献标志码:
A
摘要:
利用傅立叶变换红外光谱对泡桐以铁粉为催化剂在280~360℃去离子水中直接液化产物进行了分析,通过比较原料与残渣的红外基团差异,考察了反应温度对生物质泡桐直接液化进程及重油和轻油成分的影响.研究表明,以铁粉作为催化剂,反应温度对液化过程具有明显的影响,泡桐中的半纤维素和纤维素在320℃时反应完全;木质素从280℃开始降解,在考察的反应温度范围内,固体残渣中还包含有芳香环结构;最终液化产物重油的官能团受反应温度的影响不大;重油和轻油是复杂的混合物,含有烃、醛、酮、羧酸、酚和酯等各类化合物.
Abstract:
Paulownia was liquefied by water in an autoclave in the reaction temperatures range of 280—360℃with iron powder as the catalyst.Effect of reaction temperature to biomass direct liquefaction process and thecomposition of heavy oil and water—·soluable oil were investigated through compared to the functional group in—frared spectrum differences between raw material and solid residue.The experimental results show that thecourse of liquefaction was significantly influenced by the reaction temperature.The solid residue,heavy oiland water—·soluble oil obtained at different reaction temperatures were analyzed by Fourier Transform InfraredSpectrophotometer(FTIR).The analytical results show:(1)the cellulose and hemi—cellulose is entirelyconsumed at 320℃,and lignin are depolymerized at 280℃.but during the reaction temperature solid resi—due also contain aromatic ring structure.(2)The functional group of heavy oil is not change during the reac·tion temperatures.(3)The heavy oil and water—soluble oil is complex compound that contain hydrocarbons,aldehydes,ketones,earboxylic acids,phenols,esters and other compounds.
更新日期/Last Update: 1900-01-01