微生物油用于生物基环氧树脂研究进展的文献计量学综述

IF 1.4 Q4 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY

Environmental and Climate Technologies Pub Date : 2023-01-01 DOI:10.2478/rtuect-2023-0012

Maksims Feofilovs, K. Spalvins, K. Valters

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引用次数: 1

摘要

摘要环氧树脂是一种应用广泛的聚合物，它衍生出各种各样的产品，并在许多工业中得到应用。大多数环氧树脂仍然主要来自化石原料，如环氧氯丙烷和双酚A，它们也是剧毒的。此外，化石衍生的环氧树脂产品在使用寿命结束时形成不可生物降解的废物。近年来，旨在寻找替代化石衍生环氧树脂的解决方案和其他原料的研究数量有所增加，表明生物基环氧树脂是一种很有前途的替代品。生物基环氧树脂的另一种有趣的替代原料是从微生物中提取的环氧化物，如环氧化微生物油。本文对微生物油在生物基环氧化物生产中的最新应用进行了探讨和比较，并对其应用前景进行了展望，指出了这些解决方案的不足之处。

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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Bibliometric Review of State-of-the-art Research on Microbial Oils’ Use for Biobased Epoxy

Abstract Epoxy resins are widely used polymers from which a variety of products are derived and applied in many industries. Most epoxy resins are still obtained from mainly fossil feedstocks, such as epichlorohydrin and bisphenol A, which are also highly toxic. Additionally, fossil derived epoxy resin products are forming non-biodegradable waste at their end of life. Recently the number of studies aiming to find solutions and other raw materials for the replacement of fossil derived epoxy resins has increased, showing that bio-based epoxy resins are a promising alternative. An interesting alternative raw material for bio-based epoxy resins is epoxides derived from microorganisms, such as epoxidized microbial oil. This review article explores and compares the latest solutions for the use of microbial oils in the production of bio-based epoxides, outlines the prospects for their future use and points out the shortcomings of these solutions.

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来源期刊

Environmental and Climate Technologies GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY-

CiteScore

3.10

自引率

28.60%

发文量

审稿时长

16 weeks

期刊介绍： Environmental and Climate Technologies provides a forum for information on innovation, research and development in the areas of environmental science, energy resources and processes, innovative technologies and energy efficiency. Authors are encouraged to submit manuscripts which cover the range from bioeconomy, sustainable technology development, life cycle analysis, eco-design, climate change mitigation, innovative solutions for pollution reduction to resilience, the energy efficiency of buildings, secure and sustainable energy supplies. The Journal ensures international publicity for original research and innovative work. A variety of themes are covered through a multi-disciplinary approach, one which integrates all aspects of environmental science: -Sustainability of technology development- Bioeconomy- Cleaner production, end of pipe production- Zero emission technologies- Eco-design- Life cycle analysis- Eco-efficiency- Environmental impact assessment- Environmental management systems- Resilience- Energy and carbon markets- Greenhouse gas emission reduction and climate technologies- Methodologies for the evaluation of sustainability- Renewable energy resources- Solar, wind, geothermal, hydro energy, biomass sources: algae, wood, straw, biogas, energetic plants and organic waste- Waste management- Quality of outdoor and indoor environment- Environmental monitoring and evaluation- Heat and power generation, including district heating and/or cooling- Energy efficiency.