Pyrolysis Process of Plant Fibers北大核心CSCD

The natural plant fiber has a large molecular weight and complex structure and composition,and its thermal cracking products and the composition distribution are also more complex. The fast pyrolysiscomprehensive two-dimensional gas chromatography with time-of-flight mass spectrometry（Py-GC×GC-TOF/MS）,thermogravimetry-Fourier transform infrared spectroscopy（TG-FT-IR）,and in situ Fourier transform infrared spectroscopy（in situ FT-IR）methods were used to study the thermal pyrolysis process of six different natural fibers. The distribution of thermal pyrolysis products of different fibers under different pyrolysis temperatures was investigated and the product form was fully discussed. The research results show that the products of fiber pyrolysis mainly include alcohols,aldehydes,ketones,acids,esters,hydrocarbons, dehydrated sugars and CO2,etc. The types of pyrolysis products of different natural plant fibers are obviously different,and the main product types obtained are all different. At the same time,the results of in situ infrared spectroscopy and mass spectrometry show that pyrolysis products are closely related to the pyrolysis temperature. The results of in situ infrared experiments show that when the pyrolysis temperature is lower than 100 °C,the adsorbed water on the surface of the fiber structure is desorbed,but the fiber structure does not change significantly. When the pyrolysis temperature range is 100~200 °C,the temperature has little effect toward the pyrolysis process. When the temperature exceeds 300 °C,the fiber pyrolysis reaction intensifies and the surface structure changes significantly,and the main products are aldehydes and ketones. © 2022, Science Press (China). All rights reserved.     

不同植物纤维的热解和燃烧特性研究

本研究采用不等温热重法研究六种纤维（针叶、阔叶、竹、亚麻、草和棉）在N₂和空气气氛下的热解和燃烧特性,并采用Friedman法对其进行动力学分析。结果表明,纤维不同的热解和燃烧特性参数与其自身结构组成有关。纤维在热解和燃烧过程中,其挥发分析出温度Ts、终止温度Th、DTG峰温T_max、固定碳燃烧峰温、最大质量损失速率、热解指数P和燃烧指数S均随着升温速率的增加而增加;在N₂气氛下,亚麻纤维T_max最大,竹纤维T_max最小,棉纤维的T_s最大,草纤维的最大热解质量损失速率-（dm/dt）_max、热解指数P和燃烧指数S均最小;在转化率为0.05-0.85条件下,阔叶纤维平均表观活化能最小（173.3 kJ/mol）,竹纤的最大（201.10 kJ/mol）。在空气气氛下,所有纤维的热解过程的T_max均低于N₂条件下,在转化率为0.05-0.65时,纤维在空气中热解的表观活化能E_α     

巨大芽孢杆菌D01吸附金(AU3+)的谱学表征

对休眠的巨大芽孢杆菌(Bacillus megatherium)D01菌体吸附Au^3 的作用过程进行了谱学表征．运用AAS考察了pH、时间和温度对D01菌体吸附Au^3 过程的化学动力学和热力学相关参数的影响．D01菌粉中硫元素含量的EDX分析说明该菌体中对Au^3 具有还原作用的L-半胱氨酸和蛋氨酸的含量极少；D01菌体水解后葡萄糖含量的UV-vis测定说明该菌体水解产物中含有一定量的还原糖，空白的和吸附Au^3 的D01菌体的FFIR检测表明该菌体细胞壁肽聚糖层糖类化合物的羟基和肽链侧链氨基酸残基离子化羧基为吸附Au^3 的活性基团；肽聚糖层部分多糖的水解产物低聚糖、二糖及单糖等还原糖的半缩醛羟基游离态醛基为电子供体，将Au^3 原位还原成Au^0．葡萄糖和Au^3 相互作用的XRD和FFIR表征证明Au^3 是在还原糖的醛基上直接被还原成Au^0．     

高硫化氢合成气制甲硫醇新型钼基催化剂研究

研究了一系列负载型钼基催化剂催化含高硫化氢合成气制甲硫醇的性能 ,用XPS和ESR对其进行表征 .活性测试显示 ,钾促进的钼基催化剂催化的反应产物中甲硫醇成为主导产物 .几种钼基催化剂合成甲硫醇的活性大小顺序 :K2 MoO4/CoO/SiO2 >K2 MoO4/SiO2 >MoO3 /K2 CO3 /SiO2 >K2 MoS4/SiO2 >MoS2 /K2 CO3 /SiO2 .ESR表征显示 ,反应后的催化剂可以检测到“oxo Mo(V)”和“thio Mo(V)”物种 .XPS表征显示反应后催化剂中的Mo包含着Mo4+ ,Mo5+ 和Mo6+ ,S包含着S2 -,(S—S) 2 -和S6+ 三种价态 .添加CoO后 ,“oxo Mo(V)”含量减少 ,而“thio Mo(V)”含量增加 ,(S—S) 2 -物种的生成得到抑制 ,S2 -物种的量增多 .(Mo4+ +Mo5+ ) /Mo6+ 峰强度比为 0 75以及S2 -/(S—S) 2 -接近 1有利于甲硫醇的生成 .本文提出甲硫醇的合成与“Mo S K”相关联的反应机理