优化热化学脱木质素工艺制备油棕空果串高产α -纤维素微晶纤维素

IF 3 Q3 MATERIALS SCIENCE, BIOMATERIALS
Susi Susi, Makhmudun Ainuri, Wagiman Wagiman, Mohammad Affan Fajar Falah
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引用次数: 1

摘要

油棕空果束(OPEFB)是一种木质纤维素材料,是棕榈油工业的副产品,使用较少,利用率仍然有限。OPEFB纤维素含量高,具有开发各种生物制品,特别是生物材料的潜力。热化学脱木质素过程可以获得高产的纤维素。纤维素提取工艺可将酸性条件下的漂白工艺与碱性脱木质素工艺相结合,得到高纯度的纤维素。漂白条件随NaClO2浓度、漂白时间、温度和阶段数的变化而变化。采用响应面法(response surface methodology, RSM),在nacl浓度和漂白时间变化的条件下,对酸性条件下OPEFB提取纤维素的漂白条件进行优化,得到高α-纤维素。在pH为4-4.5的条件下,以醋酸为原料,以氯化钠浓度为3%,漂白时间为2小时为中心,漂白周期2次。漂白后的纤维在室温下用10% NaOH脱色2小时。RSM分析结果表明,在nacl浓度为3.22%的条件下漂白1小时,OPEFB的纤维素含量为82.96%±2.53,半纤维素含量为9.27%±2.28,木质素含量为1.68%±0.58。在漂白条件下的验证工艺得到纤维素含量为84.87%,α-纤维素含量为88.51%,结晶度指数为70.55%,晶粒尺寸为2.35 nm。在最佳漂白条件下,纤维素表面形貌的扫描电子显微镜有助于去除半纤维素杂质、木质素和无机物质,并使纤维素纤维更密集地开放。验证了漂白工艺优化点,提高了脱木质素性能,有可能生产出高收率α-纤维素含量的微晶纤维素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

High-Yield Alpha-Cellulose from Oil Palm Empty Fruit Bunches by Optimizing Thermochemical Delignification Processes for Use as Microcrystalline Cellulose.

High-Yield Alpha-Cellulose from Oil Palm Empty Fruit Bunches by Optimizing Thermochemical Delignification Processes for Use as Microcrystalline Cellulose.

High-Yield Alpha-Cellulose from Oil Palm Empty Fruit Bunches by Optimizing Thermochemical Delignification Processes for Use as Microcrystalline Cellulose.

High-Yield Alpha-Cellulose from Oil Palm Empty Fruit Bunches by Optimizing Thermochemical Delignification Processes for Use as Microcrystalline Cellulose.

Oil palm empty fruit bunches (OPEFB) are lignocellulosic materials that are a by-product of the palm oil industry, which have less use and utilization is still limited. OPEFB's high cellulose content could potentially develop into various bioproducts, especially biomaterials. The thermochemical delignification process can obtain high-yieldalpha-cellulose. The cellulose extraction process can be done by combining the bleaching process under acidic conditions and alkaline delignification to obtain high-purity cellulose. The bleaching conditions vary in the concentration of NaClO2, the length of bleaching, the temperature, and the number of stages. The research obtains high α-cellulose by optimizing bleaching conditions under acidic conditions in cellulose's OPEFB extraction with variability on NaClO2 concentration and bleaching time using response surface methodology (RSM). The bleaching process was implemented at an early stage with a concentration of 3% NaClO2 and a bleaching time of 2 hours as a center point with a bleaching cycle of twice at pH 4-4.5 using acetic acid. Bleached fibers were delignified using 10% NaOH for 2 hours at room temperature. The RSM analysis resulted in optimum bleaching conditions at a concentration of 3.22% NaClO2 for 1 hour, yielding OPEFB's cellulose of 82.96% ± 2.53, hemicellulose of 9.27% ± 2.28, and lignin of 1.68% ± 0.58. The validation and verification process in the bleaching conditions obtained cellulose of 84.87% and α-cellulose of 88.51%, with a crystallinity index of 70.55% and crystallite size of 2.35 nm. Scanning electron microscopy on surface cellulose morphology at optimum bleaching helped remove hemicellulose impurities, lignin, and inorganic materials and a more intensive opening of cellulose fibrils. The bleaching process optimization point was verified to improve the delignification performance and potentially produce high yield α-cellulose content for microcrystalline cellulose use.

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来源期刊
International Journal of Biomaterials
International Journal of Biomaterials MATERIALS SCIENCE, BIOMATERIALS-
CiteScore
4.30
自引率
3.20%
发文量
50
审稿时长
21 weeks
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