通过纤维素酶减少再生纸白水中的细小颗粒

IF 1.3 4区 农林科学 Q2 MATERIALS SCIENCE, PAPER & WOOD
Đorđe Jevtović, Predrag Živković, Ana Milivojević, Dejan I. Bezbradica, Luc Van Der Auwera
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引用次数: 0

摘要

由于废纸的高可回收性和水循环系统的封闭性,包装纸厂与增加的罚款作斗争,造成可操作性问题。纤维素酶是浆料制备领域改善纸浆精炼的首选处理方法,但在生产过程中应用并不广泛,也不容易引入。测试了不同的纤维素酶,并将活性最高的酶引入白水(WW)样品中,目的是降低细粒含量,作为潜在的新酶在造纸机上的应用。研究的第一部分包括建立实验模型,以寻找和确定实验室制白水的最佳酶工艺参数(40°C, pH 5.7,反应时间3 h,酶添加量0.18% v/v)。研究的第二部分包括在优化的工艺参数下对工业和实验室制备的白水样品进行浊度、胶体电荷、流式细胞术(FCM)和化学需氧量(COD)分析。所获得的结果与白水样品中细粒含量的降低相对应,这证明了纤维素酶在再生纸机短回路上的商业使用是合理的,并且可能提高机器的运行性能,而不会对废水处理厂产生负面影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reduction of fines in recycled paper white water via cellulase enzymes
Due to the high wastepaper recyclability and water-loop system closure, packaging paper mills struggle with increased fines, causing runnability issues. Cellulase enzymes are a preferred treatment choice for the improvement of the pulp refining in stock preparation area but are not widely used or easy to introduce in the production process. Different cellulase enzymes were tested, and those with the highest activity were introduced to the white-water (WW) samples with the aim to reduce fines content as potentially new enzyme applications on the paper machine. The first portion of the study involved the development of an experiment model to find and confirm the optimal enzyme process parameters (40 °C, pH 5.7, reaction time 3 h, and 0.18% v/v enzyme addition) for laboratory made white-water. The second portion of the study included turbidity, colloidal charge, flow cytometry (FCM), and chemical oxygen demand (COD) analysis on industrial and laboratory made white-water samples at optimized process parameters. Obtained results corresponded to reduced fines content in white-water samples, which justified commercial usage of cellulase enzymes on recycled paper machine short loop and potentially increased machine runnability without negative influence on wastewater treatment plant.
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来源期刊
Bioresources
Bioresources 工程技术-材料科学:纸与木材
CiteScore
2.90
自引率
13.30%
发文量
397
审稿时长
2.3 months
期刊介绍: The purpose of BioResources is to promote scientific discourse and to foster scientific developments related to sustainable manufacture involving lignocellulosic or woody biomass resources, including wood and agricultural residues. BioResources will focus on advances in science and technology. Emphasis will be placed on bioproducts, bioenergy, papermaking technology, wood products, new manufacturing materials, composite structures, and chemicals derived from lignocellulosic biomass.
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