Microfibrillated Cellulose Fabrication and Characterization from Sri Lankan Rice Straw: A Comparison between Traditional and Hybrid Variety

A. Ratnakumar, A. Samarasekara, D. Amarasinghe, L. Karunanayake
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引用次数: 4

Abstract

Rice is one of the major cereal crops cultivated globally. In the recent past, rice straw has gained momentum as a source of cellulose. However, it is notable that rice straw generated from rice cultivation has less or no commercial value. In this study, microfibrillated cellulose (MFC) was extracted from Sri Lankan traditional rice straw variety Pachaperumal and hybrid variety BG352 in two distinct stages. Initially, a series of chemical treatment methods that includes removal of wax and oil, lignin, hemicellulose and silica was employed to extract cellulose fibers from the aforementioned rice straw varieties. Then, using high-intensity ultrasonication (HIUS) process microfibrillated cellulose (MFC) was isolated from the obtained chemically extracted cellulose fibers. FTIR analysis validated that the chemical composition of MFC from both varieties were mainly cellulose where hemicelluloses and lignin were successfully removed during the set of chemical processes. Study revealed that around 34 per cent cellulose was extracted from Pachaperumal and around 25 per cent cellulose was extracted from BG352. Out of these chemically extracted cellulose fibers around 16 per cent of MFC was disintegrated from Pachaperumal and around 9 per cent from BG352 via HIUS process. SEM analysis showed that the diameters of the MFC were in 200 to 300 nanometer range Results indicated that traditional variety yielded high amount of MFC than technically modified variety via the efficient multi-step treatment process with potential industrial applications.
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斯里兰卡稻秸秆微纤化纤维素的制备及其特性:传统与杂交品种的比较
水稻是全球种植的主要谷类作物之一。最近,稻草作为纤维素的一种来源获得了发展势头。然而,值得注意的是,水稻种植过程中产生的稻草具有较少或没有商业价值。本研究以斯里兰卡传统水稻品种Pachaperumal和杂交种BG352为原料,分两个阶段提取微纤化纤维素(MFC)。最初,采用除蜡除油、除木质素、半纤维素和二氧化硅等一系列化学处理方法从上述水稻秸秆品种中提取纤维素纤维。然后,利用高强度超声(HIUS)工艺从化学提取的纤维素纤维中分离出微纤化纤维素(MFC)。FTIR分析证实,这两个品种的MFC的化学成分主要是纤维素,其中半纤维素和木质素在一系列化学过程中被成功地去除。研究表明,大约34%的纤维素是从Pachaperumal中提取的,大约25%的纤维素是从BG352中提取的。在这些化学提取的纤维素纤维中,约有16%的MFC通过HIUS工艺从Pachaperumal分解,约有9%的MFC通过HIUS工艺从BG352分解。SEM分析表明,MFC的直径在200 ~ 300纳米范围内。结果表明,通过高效的多步处理工艺,传统品种的MFC产量比技术改良品种高,具有潜在的工业应用前景。
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