Biodiesel from microalgae: Recent progress and key challenges

IF 32 1区 工程技术 Q1 ENERGY & FUELS
Jee Young Kim , Jong-Min Jung , Sungyup Jung , Young-Kwon Park , Yiu Fai Tsang , Kun-Yi Andrew Lin , Yoon-E Choi , Eilhann E. Kwon
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引用次数: 28

Abstract

High lipid content and excellent CO2 fixation capability of microalgae by photosynthesis have made microalgal biodiesel (BD) a promising carbon-neutral fuel. Nonetheless, the commercialization of BD has not yet been realized because of expensive and energy-intensive cultivation, pretreatment, and BD conversion processes in reference to 1st generation BD production. To resolve the issues, this study comprehensively reviewed the current technical developments of microalgal BD production process and suggested promising future studies. Current microalgal BD production processes highly rely on the processes developed from 1st generation BD process, namely base-catalyzed transesterifications. However, the base-catalyzed suffers from saponification reaction and low production yield due to high water and free fatty acid contents in microalgae. Vigorous pretreatments such as dewatering, drying, esterification of free fatty acid, and purification are required for high yield of microalgal BD production, making this process economically not attractive. As efforts to construct new transesterification platform, novel approaches tolerant to impurities such as thermally induced non-catalytic transesterifications were suggested. The thermally induced reactions allowed in situ conversion of microalgal lipid into BD (≥ 95 wt.% yield) within 1 min of reaction at ≥ 350 ˚C. This process resists to presence of water and free fatty acids and does not require lipid extraction process. To make this process more promising, it was suggested lowering reaction temperature for thermally induced transesterifications. In addition, pilot study, in-depth life cycle assessment, and economic analysis were suggested to assess economic viability and environmental impacts.

微藻生物柴油:最新进展和主要挑战
微藻的高脂含量和良好的光合作用固CO2能力使微藻生物柴油成为一种很有前途的碳中性燃料。尽管如此,与第一代双酚d生产相比,由于种植、预处理和双酚d转化过程昂贵且能源密集,双酚d的商业化尚未实现。为了解决这些问题,本研究对目前微藻生产工艺的技术进展进行了综述,并对未来的研究前景进行了展望。目前的微藻双酚d生产工艺高度依赖于从第一代双酚d工艺发展而来的工艺,即碱催化酯交换。但由于微藻中水分和游离脂肪酸含量高,碱催化的皂化反应容易发生,产率低。为了生产高产量的微藻BD,需要大量的预处理,如脱水、干燥、游离脂肪酸酯化和纯化,这使得该工艺在经济上不具有吸引力。为了构建新的酯交换平台,提出了热诱导非催化酯交换等耐杂质的新方法。在温度≥350℃的条件下,热诱导反应可在1分钟内将微藻脂原位转化为bcd(产率≥95 wt.%)。这个过程抵抗存在的水和游离脂肪酸,不需要脂质提取过程。为了使这一过程更有前景,建议降低热诱导酯交换反应的温度。此外,还建议通过试点研究、深入的生命周期评价和经济分析来评估经济可行性和环境影响。
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来源期刊
Progress in Energy and Combustion Science
Progress in Energy and Combustion Science 工程技术-工程:化工
CiteScore
59.30
自引率
0.70%
发文量
44
审稿时长
3 months
期刊介绍: Progress in Energy and Combustion Science (PECS) publishes review articles covering all aspects of energy and combustion science. These articles offer a comprehensive, in-depth overview, evaluation, and discussion of specific topics. Given the importance of climate change and energy conservation, efficient combustion of fossil fuels and the development of sustainable energy systems are emphasized. Environmental protection requires limiting pollutants, including greenhouse gases, emitted from combustion and other energy-intensive systems. Additionally, combustion plays a vital role in process technology and materials science. PECS features articles authored by internationally recognized experts in combustion, flames, fuel science and technology, and sustainable energy solutions. Each volume includes specially commissioned review articles providing orderly and concise surveys and scientific discussions on various aspects of combustion and energy. While not overly lengthy, these articles allow authors to thoroughly and comprehensively explore their subjects. They serve as valuable resources for researchers seeking knowledge beyond their own fields and for students and engineers in government and industrial research seeking comprehensive reviews and practical solutions.
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