Optimizing hemicelluloses pre-extraction in eucalyptus kraft pulping:A pathway towards enhancing pulp mill biorefineries

A critical pathway towards enhancing pulp mill biorefineries is to integrate the extraction and utilization of hemicelluloses into the pulping processes.Hence,an industrial pre-extraction strategy for hemicelluloses targeting eucalyptus kraft pulping process was developed.Alkaline solution or pulping white liquor was used to pre-extract hemicelluloses before the actual pulping process.The response surface methodology(RSM)technique was applied to investigate the most suitable conditions to maximize the yield of these hemicelluloses while simultaneously minimizing the damage to pulp yields and properties.Temperature(105 to 155℃),alkali concentration(3%to 8%),sulfidity(20%to 30%)and retention time(19 to 221 min)were combined to evaluate their effects on hemicellulose yields and chemical structures.The optimal pre-extraction conditions identified in this work(5.75%NaOH concentration,25%sulfidity at 135℃for 60 min)successfully allowed recovering 4.8%of hemicelluloses(based on the wood dry mass)and limited damages to pulp yields and properties.The cellulose content in pulp can even be increased by about 10%.Hemicellulose emulsification properties were also evaluated,which were comparable to synthetic emulsifiers.This study provides an industrial pathway to effectively separate and utilize wood hemicelluloses from the pulping process,which has the potential to improve the economy and material utilization of pulp and paper mills.

山杏壳中纤维素、半纤维素、木质素含量的测定

以榆林市的山杏壳作为研究对象,为了精确测定其主要成分(纤维素、半纤维素和木质素)的质量分数,采用了硫酸与重铬酸钾氧化法、2 mol·L^(-1)盐酸水解法和72%的硫酸法,分别针对上述3种成分进行测定。通过控制单因素变量法,确定了每种方法的最佳条件。在最佳条件下,测得山杏壳中纤维素质量分数为26.10%,半纤维素的质量分数达到33.03%,木质素质量分数为31.22%。榆林市山杏壳中富含纤维素、木质素和半纤维素,是重要的可再生资源。

Dynamic Changes in Distribution of Lignin and Hemicelluloses in Cell Walls During Differentiation of Secondary Xylem in Eucommia ulmoides

The dynamic changes in the distribution of lignin and hemicelluloses (xylans and xyloglucans) in cell walls during the differentiation of secondary xylem in Eucommia ulmoides Oliv. were studied by means of ultraviolet light microscopy and transmission electron microscopy combined with immunogold labelling. In the cambial zone and cell expansion zone, xyloglucans were localized both in the tangential and radial walls, but no xylans or lignin were found in these regions. With the formation of secondary wall S-1 layer, lignin occurred in the cell corners and middle lamella, while xylans appeared in S-1 layer, and xyloglucans were localized in the primary walls and middle lamella. In pace with the formation of secondary wall S-2 and S-3 layer, lignification extended to S-1, S-2 and S-3 layer in sequence, showing a patchy style of lignin deposition. Concurrently, xylans distributed in the whole secondary walls and xyloglucans, on the other hand, still localized in the primary walls and middle lamella. The results indicated that along with the formation and lignification of the secondary wall, great changes had taken place in the cell walls. Different parts of cell walls, such as cell corners, middle lamella, primary walls and various layers of secondary walls, had different kinds of hemicelluloses, which formed various cell wall architecture combined with lignin and other cell wall components.

木糖生物炼制与高值化应用研究进展

木糖作为木质纤维素生物质中半纤维素部分最丰富的戊糖,其衍生物具有巨大的应用市场。在国家“双碳”目标下,绿色高效的木糖炼制工艺不仅符合国家节能减排、绿色循环发展的要求,也能有效降低木糖制备成本并促进木糖的高值化利用。本文对木糖的生物炼制工艺进行了综述,并分析了不同工艺发展现状及存在的问题。同时综述了近年来木糖水解分离技术的进展以及木糖在生物基化学品和生物基材料的高值化应用,最后提出了促进木糖生物炼制发展的建议并对木糖高值化应用进行了展望。

木质纤维生物质组分新型分离方法的研究进展

木质纤维生物质是地球上最丰富的可再生资源,被认为是最有希望的化石资源替代物。如何有效地将木质纤维原料转化生物材料、化学品和生物燃料等高值产品是科技工作者一直研究的热点课题。探索高效绿色的分离技术,将木质纤维生物质分解为易于转化的纤维素、半纤维素和木质素,是实现木质纤维资源高值化、多元化利用的关键。本文旨在介绍木质纤维生物质全组分分离工艺的研究进展,重点介绍4种新型的组分分离方法,包括有机溶剂法、离子液体法、低共熔溶剂法,以及“木质素优先”策略下催化分离法,探讨了上述新型分离方法的发展现状和产业化过程中面临的挑战,并展望了其未来发展的前景。

碱预处理耦合三元DES体系对提高桉木组分分离效率的研究

本研究探索了一种氢氧化钾预处理耦合三元低共熔溶剂(DES)两段处理法,并用于分离桉木组分。首先采用单因素和Box-Behnken法优化了碱预处理分离桉木半纤维素的工艺条件,然后探究了碱预处理耦合三元DES两段处理桉木的微观形貌、比表面积、结晶度等。结果表明,优化后的氢氧化钾处理工艺条件为:处理温度76℃、处理时间5 h、氢氧化钾质量分数15%,此时半纤维素去除率可达(77.1±0.2)%。经碱预处理耦合三元DES(固液比1∶20(g∶mL)、反应时间30 min、反应温度90℃)两段处理后,桉木中纤维素、半纤维素和木质素形成的致密结构被打破,半纤维素去除率达83.3%,木质素去除率达96.5%,纤维素保留率达91.0%,比表面积和相对结晶度分别达0.9015 m^(2)/g和89.7%,显著提升了后续溶剂或生物酶的接触表面积。

半纤维素分解菌群HMC的微生物群落结构及功能

为明确半纤维素分解菌群HMC(hemicellulolytic microbial consortium)的微生物群落结构及其在半纤维素降解中的潜在功能;该研究测定了其在降解半纤维素主链木聚糖及玉米芯的典型理化指标,并利用16S rDNA测序技术及生物信息学手段对其微生物群落结构及功能注释进行了宏基因组学分析。结果表明,HMC在7 d内能高效降解木聚糖和玉米芯,降解率达80%,木聚糖降解产生的高值产物包括还原糖、甲酸、乳酸及乙酸,最高浓度分别为1.30、0.50、1.19与1.23 mg/mL,HMC降解玉米芯时可累积挥发性脂肪酸浓度高达3.54 mg/mL。HMC是由厚壁菌门Firmicutes的多个属的微生物组成的复合微生物菌群,宏基因组分析揭示了HMC在木聚糖降解过程中的关键碳水化合物活性酶系;HMC的半纤维素降解酶系完整,包括19个木聚糖分解及下游产物代谢相关的酶;同时涵盖了乙酸、乳酸等半纤维素关键分解产物代谢相关的通路。HMC蕴含半纤维素及玉米芯高值生物转化的潜力,该研究为深入探究半纤维素在生物降解应用中的分子机制提供了重要线索,有助于推动天然半纤维素生物降解技术的发展。

木质纤维素合成与调控机制:从模式植物到油菜

木质纤维素由木质素、纤维素和半纤维素三者组成,是植物细胞的重要组成成分,能增强植物细胞和组织的机械强度,对于保障植物营养物质运输、茎秆支撑等具有重要意义。而油菜是我国和世界范围内重要的油料作物,具有油用、饲用、菜用、蜜用、观光等多种用途,其木质纤维素也可有效保障植物细胞和组织的机械强度,提高植株的抗倒伏、抗病虫等能力。本文综述了模式植物拟南芥和油菜中木质纤维素合成与调控机制的研究进展,希望模式植物木质纤维素的研究能促进油菜相关研究的深入开展,并对木质纤维素相关研究在油菜中的潜在应用进行了讨论。

Wood By-Products as UV Protection:A Consequence Review

In recent decades,the ozone layer has suffered considerable damage,increasing the entry of ultraviolet(UV)light into the atmosphere and reaching the earth’s surface,negatively affecting life.Accordingly,researchers aimed to solve this problem by synthesizing advanced UV-shielding materials.On the other hand,developing an easy and green strategy to prepare functional materials with outstanding properties based on naturally abundant and environmentally friendly raw materials is highly desirable for sustainable development.Because biomass-derived materials are sustainable and biodegradable,they present a promising substitute for petroleum-based polymers.The three main structural constituents of the plant biomass-based materials that are naturally available are cellulose,hemicellulose,and lignin.This review details current developments using wood-based products such as cellulose,hemicellulose,and lignin in UV-shielding applications.It will start with assembling the structure and chemistry of cellulose,hemicellulose,and lignin,followed by their contributions to preparing UV-shielding materials.Finally,it will briefly discuss the different processing methods for the design of UV-shielding materials.The wood by-products offer additional opportunities to use the whole tree harvest.

半纤维素对玉米秸秆皮Lyocell纤维性能的影响

探讨了半纤维素对Lyocell纤维制备时溶浆过程以及纺丝过程的影响,研究了半纤维素对Lyocell纤维的力学、抗原纤化和染色等性能的影响。试验可知:使用市售质量分数50%的NMMO溶剂在90℃温度下即可完全溶解玉米秸秆皮浆粕;半纤维素含量较高的玉米秸秆皮浆粕的流动性更好,制成的Lyocell纤维的染色性能和抗原纤化性能更好,断裂伸长率较大,结晶度较小。

联合预处理提取半纤维素的研究进展

半纤维素含量丰富,应用前景广阔。但半纤维素结构复杂多样,实现其高值化利用是一个长期存在的挑战。采用单一物理法、化学法或生物法预处理提取半纤维素时,在能耗、成本、效果等方面均存在一定局限性。联合预处理可结合各种预处理方法的优势,降低单一预处理的局限性,已成为目前半纤维素提取的研究热点。本文综述了木质纤维中半纤维素的联合预处理提取工艺,如超声辅助、微波辅助、酸/水热处理和碱/水热处理等,并简要介绍了各种预处理方法的优缺点,以期为半纤维素的提取及应用提供理论指导。

枸杞果实生长发育过程中细胞壁多糖及其降解酶活性变化研究

为进一步探究枸杞多糖代谢规律,以不同生长时期的枸杞果实为研究对象,用透射电镜观察细胞壁微观结构,通过化学法提取细胞壁多糖并测定含量及其降解酶活性,使用显微共聚拉曼光谱法分析不同生长时期枸杞果实细胞壁多糖成分的变化规律,并对其细胞壁多糖含量与降解酶活性进行了相关性分析。结果表明:枸杞果实细胞壁结构变化主要发生在28~35 d,细胞壁明显变薄,果胶降解,细胞壁结构逐渐崩毁。细胞壁物质(CWM)含量先增加后降低,水溶性果胶(WSP)含量显著增加(P<0.05),碳酸钠可溶性果胶(SSP)和半纤维素含量先增加后降低。多聚半乳糖醛酸酶(PG)、β-半乳糖苷酶(β-Gal)和纤维素酶(Cx)活性升高,果胶甲酯酶(PME)和β-氨基己糖苷酶(β-Hex)活性先降低后升高。相关性分析结果表明,在枸杞果实生长发育过程中细胞壁多糖含量与细胞壁降解酶活性显著相关(P<0.05)。随着枸杞果实的发育和成熟,其细胞壁微观结构随降解酶活性的变化呈细胞壁结构崩毁、细胞壁多糖降解的变化趋势。研究结果对提高枸杞果实的加工品质、制定适合的贮藏策略具有理论和实践意义。

果胶酶与半纤维素酶复合酶解制备费约果果汁的工艺优化

为减少费约果细胞壁中果胶和半纤维素等物质对果汁品质的负面影响,提高果汁出汁率,本文研究了复合酶(半纤维素酶和果胶酶)比例、加酶量、温度、时间对“Unique U-100”费约果果汁出汁率和可溶性固形物的影响。在单因素实验的基础上,进行四因素三水平的响应面优化。结果显示:在复合酶(半纤维素酶/果胶酶)比例为2.14:1,加酶量19.6 g/L,酶解温度56.8℃,酶解时间92 min的条件下,费约果果实出汁率最高,为79.5%,与模型预测值相对误差为5.67%;果汁中可溶性固形物含量为15.7%,与模型预测值相对误差为0.83%。此外,与直接压榨的费约果果汁相比,酶解后的果汁表现出更高的澄清度、总酚含量(24.4 mg GAE/100 g)和VC含量(2.42 mg/100 g)。因此,本研究优化了复合酶酶解制备费约果果汁的工艺,提高费约果果汁出汁率和营养品质,可为后续费约果果汁深加工提供理论依据。

樟子松人工成熟林凋落叶“三大素”含量特征及其影响因子研究

揭示樟子松人工成熟林凋落叶“三大素”含量(木质素、纤维素、半纤维素)的变化机理及影响因子,为樟子松人工成熟林的经营提供科学依据。以辽宁省彰武县章古台镇成熟期樟子松人工林(林分生长阶段分别为43、49、65 a,林分密度分别为400、625、800株/hm 2,各3次重复)为研究对象,对凋落叶“三大素”含量的动态及影响因子进行分析。凋落叶木质素、纤维素和半纤维素均在3月出现峰值,2月出现相对较低值。3—6月这3种成分的含量表现为先降低再升高再降低的趋势。在7月3种成分的含量差值最大,分别为木质素(432.44 g/kg)、纤维素(222.34 g/kg)、半纤维素(343.08 g/kg)。10—12月这3种成分的含量整体呈下降趋势。林分生长、林分密度及它们之间的交互作用对凋落叶的木质素、纤维素、半纤维素含量均无显著影响(P>0.05)。但从3种成分含量的均值来看,800株/hm 2林分密度下的木质素和半纤维素含量最高,400株/hm 2林分密度下的纤维素含量最高,且在不同林分密度和生长条件下3种成分含量变化趋势不同。月最大风速与樟子松凋落叶木质素含量之间呈显著正相关(P<0.05)。

草本和木本多糖协同葡萄糖对香菇多糖的影响

采用不同质量分数氢氧化钠乙醇溶液提取草本和木本来源的半纤维素多糖。研究分级提取的半纤维素多糖协同不同质量浓度葡萄糖对香菇菌丝体多糖抗氧化活性的影响,同时分析菌丝体生长情况和多糖含量。结果表明:所有提取多糖协同0~20 g/L葡萄糖诱导菌丝体生物量均高于对照组,柞木多糖诱导的胞外多糖含量低于玉米秸秆多糖,但其抗氧化活性较高;质量分数1.5%氢氧化钠乙醇溶液提取的柞木多糖协同5 g/L葡萄糖诱导菌丝体胞外多糖的抗氧化活性最高,同时生物量和多糖含量也得到提升。动态结果表明,质量分数1.5%氢氧化钠乙醇溶液提取的秸秆多糖和柞木多糖协同5 g/L葡萄糖在不影响香菇菌丝生长和多糖含量的情况下,不仅使胞外多糖抗氧化活性提高,还缩短了达到最大抗氧化活性的时间。

木质纤维素预处理技术研究现状与展望

木质纤维素是自然界中最丰富的可再生资源,可用于生产燃料乙醇、生物柴油等能源产品,也是制备化学品和造纸的主要原料。木质纤维素主要由纤维素、半纤维素和木质素组成,复杂的化学结构限制了其高效利用,故必须对其进行预处理,去除木质素、半纤维素等不可溶物质,从而使其更易被酶水解成可发酵的糖,进而提高木质纤维素的降解转化率。预处理技术可以改变木质纤维原料的内部结构和表面性质,为后续的酶解糖化创造良好条件。从物理、化学、生物、联合处理等4个方面全面综述了不同木质纤维素预处理技术的研究现状,总结了其预处理效果和优缺点,并展望了其未来的研究方向,旨在为木质纤维素生物质降解利用研究提供参考。

五种野生竹材纤维形态及化学成分分析

研究了吊丝竹、梁山慈、四川硬头黄、粉单竹和斜杆思劳竹的纤维形态和化学组成,发现在纤维形态上几种竹子的重量加权长度都大于1.5 mm,纤维长宽比在90~160之间,纤维细胞狭长,是优良的造纸原料。对比化学组成,梁山慈的综纤维素含量最高(64.70%),抽出物(4.35%)、灰分(1.23%)含量较低。进而研究了NaOH-戊醇两相预处理对梁山慈竹分离得到的半纤维素和木质素的化学结构和性质的影响,发现预处理得率、纤维素保留率随着温度上升而下降,半纤维素和木质素脱除率随温度上升而提高。分离的木质素和半纤维素分子量较高,半纤维素主要为阿拉伯木聚糖,含有4-O-甲基葡萄糖醛酸,木质素为典型的竹材HGS型木质素。

果渣中纤维素、半纤维素和木质素方法数据对比及优化

本文的研究目的是对比NREL法和范氏法检测木材中半纤维素、纤维素和木质素的数据差异,并对NREL法进行优化。分别用两种方法对6种甘蔗渣样品中半纤维素、纤维素和木质素进行检测,分析两种方法的数据差异。研究结果显示NREL法与范氏法检测甘蔗渣中木质素含量差异不显著,范氏法检测果渣中半纤维素和纤维素的含量显著高于NREL法。从而得出结论,NREL法数据准确性高,范氏法成本低,在做大批量样品间比较时,可以选择范氏法。

Efficient hydrolysis of hemicellulose to furfural by novel superacid SO_4H-functionalized ionic liquids

Novel superacid SO_4H-functionalized ionic liquids(SFILs) were designed and prepared in this work. The catalytic activities of SFILs were evaluated in xylan hydrolysis and xylose dehydration to produce furfural. Combined with the results of acid strength of SFILs characterized by solid-state ^(31)P MAS NMR, it was found that the catalytic performance of SFILs was positively correlated to their acid strength. The superacid SFIL [Ch-SO_4H][CF_3SO_3] displayed the best catalytic performance with more than 80% yield of furfural, and it was also obviously superior to usual SO_3H-functionalized acidic ILs, mineral liquid acids, and acidic resin Amberlyst-15 catalysts in catalytic activity under optimized conditions. In addition, the superacid SFIL [Ch-SO_4H][CF_3SO_3] could be easily separated from reaction system and reused at least five times without obvious decrease.

Isolation of Hemicellulose from Wood Chips via Extraction with Kraft Green Liquor

The present paper covers the extraction of hemicelluloses from woods, i.e., Eucalyptus Globulus, white fir and Douglas fir via green liquor pretreatment and alkali post-treatment with sodium hydroxide. The effects of such extraction conditions as extraction time, temperature on the yields of hemicellulose and the degree of deliginification were investigated. Sugar analyses using Dionex indicate that xylose, glucose and mannose are the main sugar types present in the hemicellulose from Eucalyptus. Other sugar components such as arabinose and galactose were also found in Dogulas fir hemicellulose. The highest yield of hemicellulose was 8.4% for Eucalyptus extracted with green liquor at 130 ℃ for 3.5 h. Further sodium hydroxide extraction for 5 h gave a hemicellulose yield of about 20%. The use of green liquor for the extraction of wood hemicellulose is believed to be the first attempt.