Valorization of fishery industry waste: Chitosan extraction and its application in the industry

IF 1.6 Q2 MULTIDISCIPLINARY SCIENCES
MethodsX Pub Date : 2024-08-05 DOI:10.1016/j.mex.2024.102892
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引用次数: 0

Abstract

Waste from the fishing industry is disposed of in soils and oceans, causing environmental damage. However, it is also a source of valuable compounds such as chitin. Although chitin is the second most abundant polymer in nature, its use in industry is limited due to the lack of standardized and scalable extraction methods and its poor solubility. The deacetylation process increases its potential applications by enabling the recovery of chitosan, which is soluble in dilute acidic solutions. Chitosan is a polymer of great importance due to its biocompatible and bioactive properties, which include antimicrobial and antioxidant capabilities. Chitin extraction and its deacetylation to obtain chitosan are typically performed using chemical processes that involve large amounts of strongly acidic and alkaline solutions. To reduce the environmental impact of this process, extraction methods based on biotechnological tools, such as fermentation and chitin deacetylase, as well as emerging technologies, have been proposed. These extraction methods have demonstrated the potential to reduce or even avoid using strong solvents and shorten extraction time, thereby reducing costs.

Nevertheless, it is important to address existing gaps in this area, such as the requirements for large-scale implementation and the determination of the stoichiometric ratios for each process. This review highlights the use of biotechnological tools and emerging technologies for chitin extraction and chitosan production. These approaches truly minimize environmental impact, reduce the use of strong solvents, and shorten extraction time. They are a reliable alternative to fishery waste valorization, lowering costs; however, addressing the critical gaps for their large-scale implementation remains challenging.

Abstract Image

渔业废弃物的价值评估:壳聚糖提取及其在工业中的应用
渔业产生的废物被丢弃在土壤和海洋中,对环境造成破坏。然而,它也是甲壳素等有价值化合物的来源。虽然甲壳素是自然界中含量第二高的聚合物,但由于缺乏标准化和可扩展的提取方法,而且其溶解性较差,因此在工业中的应用十分有限。脱乙酰化工艺可回收甲壳素,从而增加其潜在的应用领域,因为甲壳素可溶于稀酸性溶液。壳聚糖是一种非常重要的聚合物,具有生物相容性和生物活性,包括抗菌和抗氧化能力。提取甲壳素和脱乙酰基以获得壳聚糖通常采用化学工艺,其中涉及大量强酸性和强碱性溶液。为了减少这一过程对环境的影响,人们提出了基于生物技术手段(如发酵和甲壳素脱乙酰酶)以及新兴技术的提取方法。这些萃取方法已证明有可能减少甚至避免使用强溶剂,并缩短萃取时间,从而降低成本。然而,重要的是要解决该领域的现有差距,如大规模实施的要求和确定每种工艺的化学计量比。本综述重点介绍了利用生物技术工具和新兴技术提取甲壳素和生产壳聚糖的情况。这些方法真正将环境影响降至最低,减少了强溶剂的使用,并缩短了提取时间。它们是渔业废弃物价值化的可靠替代方法,可降低成本;然而,解决大规模实施过程中的关键差距仍具有挑战性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
MethodsX
MethodsX Health Professions-Medical Laboratory Technology
CiteScore
3.60
自引率
5.30%
发文量
314
审稿时长
7 weeks
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