开发可替代石化塑料的可持续生物基聚合物

Syed Masroor Hassan Rizvi
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引用次数: 0

摘要

21 世纪,由于传统石化塑料对环境的影响日益严重,材料科学和工业的发展模式正在发生转变。这种转变推动了对可持续替代品的探索和开发,其中生物基聚合物已成为前景广阔的竞争者。本文全面探讨了作为石化塑料替代品的可持续生物基聚合物的发展,阐明了它们的生产方法、独特性能、多种应用以及对环境的影响。当代石化塑料无处不在,同时也带来了无数环境问题,从资源枯竭、温室气体排放到普遍的塑料污染问题。塑料生产和消费的指数级增长导致塑料废物在陆地和海洋生态系统中不断积累,对生物多样性和人类健康构成了严重威胁。从可再生生物资源中提取的生物基聚合物为减轻石化塑料对环境的不利影响提供了一个令人信服的解决方案。本文介绍了生物基聚合物的各种来源,包括植物基材料、微生物来源和废物流的价值化。生物基聚合物的生产方法包含多种技术,包括生物质转化、发酵过程、化学合成和加入可生物降解的添加剂。生物基聚合物的特性和应用范围十分广泛,从机械和热特性到对包装应用至关重要的阻隔特性,不一而足。生物基聚合物的多功能性不仅限于包装领域,还包括纺织品、汽车部件、生物医学设备等,这些都是生物基聚合物给各行各业带来革命性变化的潜力所在。技术障碍、经济可行性、监管框架和消费者接受度是加速向生物基塑料过渡必须解决的关键障碍。此外,全面评估对环境的影响和可持续发展指标对于确保生物基聚合物实现其作为真正可持续替代品的承诺也是不可或缺的。本文可作为导航路线图,帮助读者了解可持续生物基聚合物的复杂领域,并对其开发、应用和对环境的影响提出见解。通过阐明向生物基塑料过渡过程中固有的机遇和挑战,本文将为当前有关消除塑料污染、为子孙后代创造更可持续的未来的讨论做出贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of Sustainable Bio-Based Polymers as Alternatives to Petrochemical Plastics
The 21st century is witnessing a paradigm shift in material science and industry due to the increasing environmental concerns associated with traditional petrochemical plastics. This shift has propelled the exploration and development of sustainable alternatives, among which bio-based polymers have emerged as promising contenders. This paper embarks on a comprehensive exploration of the development of sustainable bio-based polymers as alternatives to petrochemical plastics, elucidating their production methods, distinctive properties, diverse applications, and environmental ramifications. The contemporary ubiquity of petrochemical plastics has been accompanied by a myriad of environmental concerns, ranging from resource depletion and greenhouse gas emissions to the pervasive issue of plastic pollution. The exponential growth in plastic production and consumption has led to the accumulation of plastic waste in terrestrial and marine ecosystems, posing significant threats to biodiversity and human health. Thus, the imperative for sustainable alternatives has become increasingly urgent. Bio-based polymers, derived from renewable biological sources, offer a compelling solution to mitigate the adverse environmental impacts associated with petrochemical plastics. The paper navigates through various sources of bio-based polymers, including plant-based materials, microbial sources, and valorization of waste streams. Each source presents distinct advantages and challenges, shaping the landscape of bio-based polymer research and development. Production methods of bio-based polymers encompass a diverse array of techniques, including biomass conversion, fermentation processes, chemical synthesis, and incorporation of biodegradable additives. Understanding these methods is crucial for optimizing polymer properties and scalability while minimizing environmental footprints. Properties and applications of bio-based polymers span a broad spectrum, from mechanical and thermal properties to barrier properties crucial for packaging applications. The versatility of bio-based polymers extends beyond packaging to textiles, automotive components, biomedical devices, and more, underpinning their potential to revolutionize diverse industries. Yet, the adoption of bio-based polymers is not devoid of challenges. Technological hurdles, economic viability, regulatory frameworks, and consumer acceptance represent key obstacles that must be addressed to accelerate the transition towards bio-based plastics. Moreover, a comprehensive assessment of the environmental implications and sustainability metrics is indispensable to ensure that bio-based polymers fulfill their promise as truly sustainable alternatives. This paper serves as a roadmap for navigating the complex terrain of sustainable bio-based polymers, offering insights into their development, applications, and environmental implications. By elucidating the opportunities and challenges inherent in the transition towards bio-based plastics, this paper contributes to the ongoing discourse on combating plastic pollution and fostering a more sustainable future for generations to come.
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