木质纤维素生物质原料:可持续生产生物塑料的基准绿色资源

Shivani Narwal, Rajesh Dhankhar, Savita Kalshan, Poonam Yadav, Azad Yadav, Tamanna Deswal
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引用次数: 0

摘要

随着全球塑料产量的激增,塑料在海洋中的积累对海洋生物、公众健康和周围环境造成了有害影响,塑料在周围环境中的存在无处不在。由于其不可降解的性质,塑料颗粒在周围环境中停留较长时间,从而自动促进其向外扩散。因此,有必要转向生物基塑料,因为生物基绿色经济取决于生物资源的可持续利用,以产生广泛的产品,生物燃料,化学品和生物塑料。通常,生物塑料是由生物基资源合成的,作为循环经济的一部分,被认为对塑料的可持续生产做出了更大的贡献。生物塑料由于其可生物降解性而成为石油衍生塑料的假冒材料,越来越受到人们的关注。近年来,人们对利用木质纤维素原料生产聚合物和新型生物塑料的兴趣日益浓厚。本文综述了木质纤维素原料作为生物塑料合成重要的不可食用底物的巨大潜力。聚羟基烷酸酯、聚氨酯、聚乳酸和淀粉生物塑料是目前流行的生物基塑料,它们都是从木质纤维素生物质中提取的。在未来的几年里,从木质纤维素中提取的生物塑料将作为一种有价值的材料在许多领域得到广泛的前沿应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Lignocellulosic biomass feedstock: A benchmarking green resource for sustainable production of bioplastics
Presence of plastics in the surroundings is ubiquitous, as generation of plastics is booming globally and it gets accumulated in oceans leading to deleterious impacts on marine life, public health and the surrounding environment. Owing to its non-degradable nature, plastic particles remain in surroundings for extended periods which automatically facilitate its out spreading. Therefore, there is a need to shift to bio-based plastics, as bio-based green economy hinges on sustainable employment of bioresources for generating a broad spectrum of products, biofuels, chemicals and bioplastics. Typically bioplastics are synthesized from bio-based resources considered to contribute more to sustainable production of plastic as a part of the circular economy. Bioplastics are luring attention and growing as counterfeit material for petroleum-derived plastics owing to their biodegradability. Recently an engrossed interest has been burgeoning in producing drop-in polymers and new-fangled bioplastics by utilizing lignocellulosic feedstock. This paper reviews the enormous potential of lignocellulosic feedstock as a significant inedible substrate for bioplastic synthesis. Polyhydroxyalkanoates, polyurethanes, polylactic acid and starch-bioplastic are prevailing bio-based plastic comparably derived from lignocellulosic biomass. In forthcoming years bioplastic derived years’ bioplastic derived from lignocellulose will loom as valuable material in numerous fields for an extensive range of cutting-edge applications.
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