Enhanced energy savings in enzymatic refining of hardwood and softwood pulp

IF 4.6 3区 工程技术 Q2 ENERGY & FUELS
Martin Nagl, Oskar Haske-Cornelius, Wolfgang Bauer, Gibson S. Nyanhongo, Georg M. Guebitz
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引用次数: 1

Abstract

Background

Pulp refining is an energy consuming, but integral part of paper production with the aim to increase tensile strength and smoothness of paper sheets. Commercial enzyme formulations are used to lower the energy requirements by pre-treatment of pulp before refining. However, a high number of different commercial enzyme products are available on the market containing enzymes of varying origin and composition, which complicates the prediction of their behavior, especially using different pulp types.

Results

Endoglucanase-rich enzyme formulations were characterized regarding enzyme activity at different temperatures, resulting in a significant decrease of activity above 70 °C. Some enzyme preparations additionally contained arabinosidase, xylanase and β-glucosidase activity consequently resulting in a release of xylose and glucose from pulp as determined by high-performance liquid chromatography. Interestingly, one enzyme formulation even showed lytic polysaccharide monooxygenase (LPMO) activity of 3.05 nkat mg−1. A correlation between enzyme activity using the endoglucanase specific derivatized cellopentaose (CellG5) substrate and enzyme performance in laboratory PFI (Papirindustriens forskningsinstitut) refining trials was observed on softwood pulp resulting in a maximum increase in the degree of refining values from 27.7°SR to 32.7°SR. When added to a purified endoglucanase enzyme (31.6°SR), synergistic effects were found for cellobiohydrolase II (34.7°SR) or β-glucosidase enzymes (35.7°SR) in laboratory refining. Comparison with previously obtained laboratory refining results on hardwood pulp allowed differences in enzyme performance based on varying pulp types to be elucidated.

Conclusions

Interestingly, the individual enzymes indeed showed different refining effects on softwood and hardwood pulp. This difference could be predicted after development of an adapted enzyme activity assay by combination of the derivatized cellopentaose CellG5 substrate with either softwood or hardwood sulfate pulp.

在硬木和软木纸浆的酶炼中提高能源节约
纸浆精炼是一个能源消耗,但造纸生产的一个组成部分,目的是提高纸张的抗拉强度和平整度。商业酶制剂用于在精炼前对纸浆进行预处理,以降低能量需求。然而,市场上有大量不同的商业酶产品含有不同来源和组成的酶,这使得预测它们的行为变得复杂,特别是使用不同的纸浆类型。结果富含葡聚糖酶的酶制剂在不同温度下具有不同的酶活性特征,在70℃以上酶活性显著降低。一些酶制剂还含有阿拉伯糖酶、木聚糖酶和β-葡萄糖苷酶活性,从而使木糖和葡萄糖从果肉中释放出来,用高效液相色谱法测定。有趣的是,一种酶制剂甚至显示出3.05 nkat mg−1的裂解多糖单加氧酶(LPMO)活性。在实验室PFI (Papirindustriens forskningsinstitut)精炼试验中,观察到使用内切葡聚糖酶特异性衍生化纤维素戊二酶(CellG5)底物的酶活性与酶性能之间的相关性,导致软木纸浆的精炼程度从27.7°SR最大增加到32.7°SR。当添加到纯化的内切葡聚糖酶(31.6°SR)时,在实验室精炼中发现了纤维素生物水解酶II(34.7°SR)或β-葡萄糖苷酶(35.7°SR)的协同效应。与先前获得的实验室精炼硬木纸浆的结果进行比较,可以阐明基于不同纸浆类型的酶性能差异。结论不同酶对软木浆和硬木纸浆的精炼效果不同。这种差异可以通过将衍生化的纤维素戊糖CellG5底物与软木或硬木硫酸盐浆结合进行适应性酶活性测定后预测。
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来源期刊
Energy, Sustainability and Society
Energy, Sustainability and Society Energy-Energy Engineering and Power Technology
CiteScore
9.60
自引率
4.10%
发文量
45
审稿时长
13 weeks
期刊介绍: Energy, Sustainability and Society is a peer-reviewed open access journal published under the brand SpringerOpen. It covers topics ranging from scientific research to innovative approaches for technology implementation to analysis of economic, social and environmental impacts of sustainable energy systems.
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