利用不同浓度的钠碱预处理提高甘蔗渣的酶水解和木质素化程度

Q4 Environmental Science

Nature Environment and Pollution Technology Pub Date : 2024-03-01 DOI:10.46488/nept.2024.v23i01.037

Arti Yadav, P. Rani, Deepak Kumar Yadav, Nisha Bhardwaj, Asha Gupta, N. Bishnoi

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引用次数: 0

摘要

木质素具有很强的抗性，需要在从木质纤维素生物质中提取可溶性还原糖和生产生物乙醇的过程中去除。本研究使用不同浓度（1-5%）的 NaOH 对甘蔗渣（SCB）进行预处理，以促进木质素的脱除。在不同的反应时间内，使用 Cellic CTec2 酶产生的还原糖评估了经预处理的甘蔗渣的水解效率。2% 的氢氧化钠在 121°C 高温高压灭菌 60 分钟后，纤维素含量最高达 57.6%，木质素去除率最高达 62.04%。半纤维素含量随着 NaOH 浓度的增加而减少，木聚糖含量为 26.5%的原生蔗渣的半纤维素含量最大减少了 13.6%。使用场发射扫描电子显微镜（FESEM）、傅立叶变换红外光谱（FTIR）和 XRD 分析了蔗渣的微观结构、形态和化学成分。在 2% NaOH 预处理的 SCB 中，10 FPU.g-1 的酶在 48 小时的反应时间内水解的最大产率为 12.34 g.L-1，相当于 55.53 ± 0.45%。这项研究表明，木质素成分对 NaOH 预处理的敏感性最高，这直接影响了酶水解作用。

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Enhancing Enzymatic Hydrolysis and Delignification of Sugarcane Bagasse Using Different Concentrations of Sodium Alkaline Pretreatment

Lignin, being highly resistant, needs to be eliminated in the process of extraction of soluble reducing sugar and bioethanol production from lignocellulosic biomass. In the present work, pretreatment of sugarcane bagasse (SCB) was performed using NaOH of various concentrations (1-5%) to facilitate delignification. The hydrolysis efficiency of pretreated SCB was evaluated at different reaction times by the production of reducing sugar using the Cellic CTec2 enzyme. The maximum cellulose content of 57.6% and lignin removal of 62.04% were observed with 2% sodium hydroxide at 121°C autoclaved for 60 min. The hemicellulose content decreased with increasing NaOH concentration with the maximum decrease of 13.6% from native bagasse having 26.5% xylan content. The microstructure, morphology, and chemical composition of SCB were analyzed using Field Emission Scanning Electron Microscopy (FESEM), Fourier Transform InfraRed (FTIR), and XRD. The hydrolysis with 10 FPU.g-1 of enzyme at 48 h of reaction time shows a maximum yield of 12.34 g.L-1 corresponding to 55.53 ± 0.45% at 2% NaOH pretreated SCB. This study claims that lignin components exhibited the highest susceptibility to NaOH pretreatment, which directly affects enzymatic hydrolysis.

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来源期刊

Nature Environment and Pollution Technology Environmental Science-Environmental Science (all)

CiteScore

1.20

自引率

0.00%

发文量

159

审稿时长

36 weeks

期刊介绍： The journal was established initially by the name of Journal of Environment and Pollution in 1994, whose name was later changed to Nature Environment and Pollution Technology in the year 2002. It has now become an open access online journal from the year 2017 with ISSN: 2395-3454 (Online). The journal was established especially to promote the cause for environment and to cater the need for rapid dissemination of the vast scientific and technological data generated in this field. It is a part of many reputed international indexing and abstracting agencies. The Journal has evoked a highly encouraging response among the researchers, scientists and technocrats. It has a reputed International Editorial Board and publishes peer reviewed papers. The Journal has also been approved by UGC (India). The journal publishes both original research and review papers. The ideology and scope of the Journal includes the following. -Monitoring, control and management of air, water, soil and noise pollution -Solid waste management -Industrial hygiene and occupational health -Biomedical aspects of pollution -Toxicological studies -Radioactive pollution and radiation effects -Wastewater treatment and recycling etc. -Environmental modelling -Biodiversity and conservation -Dynamics and behaviour of chemicals in environment -Natural resources, wildlife, forests and wetlands etc. -Environmental laws and legal aspects -Environmental economics -Any other topic related to environment