Isolation And Characterization Of Cellulose Nanofiber Obtained From Agriculture Waste

Q3 Chemical Engineering Recent Innovations in Chemical Engineering Pub Date : 2022-09-05 DOI:10.2174/2405520415666220905120334

Ganesh Patil, Shabib Sulaiman Ali Al Rashdi, Noura Ali Moosa Al Balushi, S. A M

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引用次数: 2

Abstract

The fibers of date palm [DPFs] were used as a raw material to isolate cellulose nanofibers [CNFs] to assess their potential as reinforcements of composite materials in producing Bioplastic. The isolation of Nano cellulose [NCs] from DPF is still lacking, and the authors are not aware of any previous publication concerning the isolation of NCs from DPF. The date palm has huge potential in the application as a reinforcement agent to manufacture bio-nano composites and can be considered a renewable source of nanofibers with an etymology to agro-waste. High-purity cellulose nanofibers were isolated from DPFs through an environmentally friendly treatment process that combined chemical [alkali & bleaching] and mechanical [ball milling]. A high yield of CNFs was successfully extracted, with 50% CNFs from overall DPFs. Scanning electron microscopy [SEM] results revealed the effects of isolation treatments on fiber morphology and showed long, loose nanofiber bundles with 8–100 nm in diameter. FTIR results showed that noncellulosic components were effectively removed. X-ray diffraction analysis revealed the improved crystallinity of the processed fibers with a high crystalline index of 69.78%. TGA results showed an enhancement in the thermal properties of the nanofibers. The removal of hemicellulose and lignin increased the crystallinity of the fibers, and the extracted CNFs were used in the synthesis of Bioplastic by using glycerol as a plasticizer and corn starch as a matrix using the casting method. The feasibility study proved that NC production is feasible in Oman and was successfully yielding cellulose nanofibers with potential in advanced applications. The availability of raw materials is sufficient to sustain the plan with a total capital investment of OMR 9,694,127, an operating cost of OMR 10,058,976, and a total annual net profit of OMR 2,235,445.926 which shows an ROI of 23%/year with a payback period of 4.34 years.

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农业废弃物中纤维素纳米纤维的分离与表征

以枣椰树纤维为原料分离纤维素纳米纤维，以评估其作为复合材料增强材料在生物塑料生产中的潜力。从DPF中分离纳米纤维素[nc]仍然缺乏，作者不知道以前有任何关于从DPF中分离纳米纤维素的出版物。枣椰树在作为增强剂制造生物纳米复合材料方面具有巨大的应用潜力，可以被认为是一种源于农业废弃物的纳米纤维的可再生来源。高纯度的纤维素纳米纤维通过化学(碱和漂白)和机械(球磨)相结合的环保处理工艺从DPFs中分离出来。成功地提取了高产量的CNFs，从整个DPFs中提取了50%的CNFs。扫描电镜(SEM)结果显示，分离处理对纤维形态的影响，显示出直径为8-100 nm的长而松散的纳米纤维束。FTIR结果表明，非纤维素成分被有效地去除。x射线衍射分析表明，加工后的纤维结晶度提高，结晶指数高达69.78%。热重分析结果表明，纳米纤维的热性能得到了增强。去除半纤维素和木质素后，纤维结晶度提高，提取的CNFs以甘油为增塑剂，玉米淀粉为基质，采用浇铸法制备生物塑料。可行性研究证明，NC生产在阿曼是可行的，并且成功地生产出具有先进应用潜力的纤维素纳米纤维。原材料的可用性足以维持该计划，总资本投资为9,694,127 OMR，运营成本为10,058,976 OMR，年净利润为2,235,445.926 OMR，投资回报率为23%/年，投资回收期为4.34年。

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来源期刊

Recent Innovations in Chemical Engineering Chemical Engineering-Chemical Engineering (all)

CiteScore

2.10

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0.00%

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