Barley Straw Fiber Extraction in the Context of a Circular Economy

IF 4 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Fibers Pub Date : 2023-12-08 DOI:10.3390/fib11120108
Z. Kovačević, Sara Strgačić, S. Bischof
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Abstract

The potential for sustainable lignocellulosic agro-waste is immense, owing to the fact that it represents the most abundant organic compound on Earth. It is a valuable and desirable source for material production across numerous industries due to its abundance, renewability, and biodegradability. This paper explores the world of barley fibers, which are extracted from the straw of two different cultivars (old Rex or new Barun) and have tremendous potential for use, primarily for technical textiles. The quantity of the extracted fibers depends both on the type of barley used and on climate conditions that influence the plants’ growth, resulting in fiber yields ranging from 14.82% to 19.59%. The chemical composition of isolated fibers revealed an optimal content of cellulose and lignin in barley fibers isolated from the Rex variety. Those results were confirmed with FTIR analysis, which revealed a lower intensity of peaks associated with hemicellulose and lignin and, therefore, indicated their better removal after the chemical maceration process. In terms of fiber density, the quality of the fibers was comparable to that of cotton fibers, but they differed significantly in moisture regain (10.37–11.01%), which was higher. Furthermore, sufficient fiber tenacity (20.31–23.08 cN/tex) was obtained in a case of old-variety Rex, indicating the possibility of spinning those fibers into yarns, followed by their extended usage for apparel. Additionally, our paper reveals the possibility of fulfilling the requirements of the zero waste principle due to the fact that a high percentage of solid waste left after the fiber extraction (26.3–32.3%) was afterwards successfully used for the production of biofuels, enabling the closing of the loop in a circular economy.
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在循环经济背景下提取大麦秸秆纤维
可持续木质纤维素农业废弃物的潜力是巨大的,因为它代表了地球上最丰富的有机化合物。由于其丰富性、可再生性和可生物降解性,它是许多行业中有价值和理想的材料生产来源。本文探讨了大麦纤维的世界,这些纤维是从两种不同品种(旧雷克斯或新巴伦)的秸秆中提取的,具有巨大的使用潜力,主要用于技术纺织品。提取纤维的数量取决于所用大麦的类型和影响植物生长的气候条件,因此纤维产量从14.82%到19.59%不等。分离纤维的化学成分表明,从雷克斯品种分离的大麦纤维中纤维素和木质素的含量最佳。FTIR分析证实了这一结果,发现与半纤维素和木质素相关的峰强度较低,因此表明化学浸渍过程对它们的去除效果较好。纤维密度与棉纤维质量相当,但回潮率差异较大(10.37 ~ 11.01%),回潮率高于棉纤维。此外,在老品种Rex的情况下,获得了足够的纤维强度(20.31-23.08 cN/tex),这表明这些纤维有可能纺成纱线,从而扩大其在服装中的应用。此外,我们的论文揭示了实现零废物原则要求的可能性,因为纤维提取后留下的高百分比固体废物(26.3-32.3%)后来成功地用于生产生物燃料,从而实现了循环经济中的闭环。
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来源期刊
Fibers
Fibers Engineering-Civil and Structural Engineering
CiteScore
7.00
自引率
7.70%
发文量
92
审稿时长
11 weeks
期刊介绍: Fibers (ISSN 2079-6439) is a peer-reviewed scientific journal that publishes original articles, critical reviews, research notes and short communications on the materials science and all other empirical and theoretical studies of fibers, providing a forum for integrating fiber research across many disciplines. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Electronic files or software regarding the full details of the calculation and experimental procedure, if unable to be published in a normal way, can be deposited as supplementary material. The following topics are relevant and within the scope of this journal: -textile fibers -natural fibers and biological microfibrils -metallic fibers -optic fibers -carbon fibers -silicon carbide fibers -fiberglass -mineral fibers -cellulose fibers -polymer fibers -microfibers, nanofibers and nanotubes -new processing methods for fibers -chemistry of fiber materials -physical properties of fibers -exposure to and toxicology of fibers -biokinetics of fibers -the diversity of fiber origins
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