Impact of dissolved lignin in oxygen delignification and chlorine dioxide stages

IF 0.6 4区 农林科学 Q4 MATERIALS SCIENCE, PAPER & WOOD
Tappi Journal Pub Date : 2016-04-01 DOI:10.32964/TJ15.3.167
Carolyn M. Wilke, N. Andersson, R. Fleet, Akhlesh K. Mathur, U. Germgard
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引用次数: 6

Abstract

While carryover of dissolved lignin between stages in the pulp mill fiber line is a well-known problem, it is still typically seen only as a minor disturbance factor or bias in the control of oxygen (O-2) delignification and bleaching stages. The present study, however, reveals that it plays a larger role than anticipated, and that it should be properly analyzed in order to correctly control the process stages. This is especially important for the O-2 and D-0 stages as the lignin content is still high in these positions. The results of the study show that dissolved lignin carried over between stages may have a significant impact on the bleaching chemical consumption and, indirectly, on the pulp quality. Mill investigations have shown very large variations in the dissolved lignin content in the pulp before the oxygen delignification stage and before the D-0 stage that have significantly influenced the bleaching chemical demand and, subsequently, the degree of delignification. In order to develop a better understanding of the mechanisms of the dissolved lignin's reactions, laboratory O-2 and D-0 experiments with controlled levels of dissolved lignin were conducted. It was anticipated that a better feedforward control could be achieved using an online dissolved lignin measurement, and results from mill trials are presented. Chlorine dioxide laboratory experiments using different levels of carryover (i.e., different dissolved lignin contents) were conducted. It was concluded that the filtrate kappa number provides a relevant measure of the bleach demand due to the dissolved lignin and that, subsequently, the combined fiber and filtrate kappa number provides an appropriate measure for optimum feedforward control of the stages. Mill results support these findings, which show that the chemical consumption is reduced significantly using the total kappa number. The post-D or post-DE kappa number feedback control can most probably be eliminated by using this technology.
溶解木质素对氧脱木质素和二氧化氯阶段的影响
虽然溶解木质素在纸浆厂纤维生产线各阶段之间的携带是一个众所周知的问题,但它仍然通常被视为控制氧(O-2)脱木质素和漂白阶段的一个小干扰因素或偏差。然而,目前的研究表明,它的作用比预期的要大,为了正确控制过程阶段,应该对其进行适当的分析。这对于O-2和D-0阶段尤其重要,因为这些位置的木质素含量仍然很高。研究结果表明,在各阶段之间携带的溶解木质素可能对漂白化学品的消耗产生重大影响,并间接影响纸浆质量。工厂调查表明,在氧气脱木质素阶段和D-0阶段之前,纸浆中溶解木质素含量的变化非常大,这极大地影响了漂白化学需求,随后影响了脱木质素的程度。为了更好地了解溶解木质素的反应机制,在控制溶解木质素水平的实验室进行了O-2和D-0实验。预计通过在线测量溶解木质素可以实现更好的前馈控制,并给出了工厂试验的结果。二氧化氯实验室实验使用不同水平的结转(即,不同的溶解木质素含量)进行。综上所述,滤液卡帕数是反映木质素溶解引起的漂白剂需要量的相关指标,而纤维和滤液卡帕数的组合为各阶段的最佳前馈控制提供了合适的指标。工厂的结果支持这些发现,这表明,化学消耗显著减少使用总卡帕数。后d或后de卡帕数反馈控制很可能通过使用这种技术来消除。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Tappi Journal
Tappi Journal 工程技术-材料科学:纸与木材
CiteScore
1.30
自引率
16.70%
发文量
59
审稿时长
6-12 weeks
期刊介绍: An internationally recognized technical publication for over 60 years, TAPPI Journal (TJ) publishes the latest and most relevant research on the forest products and related industries. A stringent peer-review process and distinguished editorial board of academic and industry experts set TAPPI Journal apart as a reliable source for impactful basic and applied research and technical reviews. Available at no charge to TAPPI members, each issue of TAPPI Journal features research in pulp, paper, packaging, tissue, nonwovens, converting, bioenergy, nanotechnology or other innovative cellulosic-based products and technologies. Publishing in TAPPI Journal delivers your research to a global audience of colleagues, peers and employers.
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