类木质素小分子协同甲酸蒸煮制备高白度木材纸浆纤维

Preparation of High-Brightness Wood Pulp Fibers via Synergistic Cooking with Lignin-like Small Molecules and Formic Acid

  • 摘要: 木质纤维生物质三大组分的高效分离是制备高质量纸浆的关键。然而,传统的酸法蒸煮过程中木质素分子间的缩合反应使其脱除难度增加,组分分离效率降低。本研究以针叶木云杉为原料,通过引入类木质素小分子愈创木酚或紫丁香醇,控制木质素缩合提升纸浆质量。实验表明,相比纯甲酸体系,该策略能够促进木质素和半纤维组分从纸浆纤维中分离,使纸浆纤维素含量提至82%以上、木质素降至2%以下,白度从40.5% ISO分别提高至56.2% ISO和55.76%ISO,表面木质素覆盖率大幅下降;同时,制得浆纸的抗张强度提升近一倍,木质素总酚羟基含量提升超一倍,β–O–4键得到有效保留,制备得到高活性的木质素,显著提升其高值化利用潜力。这为木质纤维生物质组分的高效分离、制备较高白度的高品质纸浆材料提供了新的思路。

     

    Abstract: Efficient separation of the three main components of lignocellulosic biomass is crucial for the preparation of high-quality pulp. However, the intermolecular condensation reactions of lignin during conventional acid cooking increase the difficulty of lignin removal and reduce the efficiency of component separation. In this study, spruce, a softwood species, was used as raw material, and lignin-like small molecules (guaiacol or syringol) were introduced to suppress lignin condensation and improve pulp quality. Experimental results showed that compared with the pure formic acid system, this strategy promoted the separation of lignin and hemicellulose components from cellulose pulp. The cellulose content in pulp was increased to more than 82%, while the lignin content was reduced to less than 2%. The brightness was increased from 40.5% ISO to 56.2% ISO and 55.76% ISO, respectively, and the surface lignin coverage was significantly decreased. Meanwhile, the tensile strength of the prepared pulp was nearly doubled, the total phenolic hydroxyl content of lignin was more than doubled, and the β‑O‑4 linkages were effectively preserved, resulting in highly reactive lignin with significantly enhanced potential for high-value utilization. This work provides a new approach for the efficient separation of lignocellulosic biomass components and the preparation of high-brightness, high-quality pulp materials.

     

/

返回文章
返回