Biotechnologies for bulk production of microalgal biomass: from mass cultivation to dried biomass acquisition

IF 6.1 1区 工程技术 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Biotechnology for Biofuels Pub Date : 2023-08-29 DOI:10.1186/s13068-023-02382-4
Song Qin, Kang Wang, Fengzheng Gao, Baosheng Ge, Hongli Cui, Wenjun Li
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引用次数: 1

Abstract

Microalgal biomass represents a sustainable bioresource for various applications, such as food, nutraceuticals, pharmaceuticals, feed, and other bio-based products. For decades, its mass production has attracted widespread attention and interest. The process of microalgal biomass production involves several techniques, mainly cultivation, harvesting, drying, and pollution control. These techniques are often designed and optimized to meet optimal growth conditions for microalgae and to produce high-quality biomass at acceptable cost. Importantly, mass production techniques are important for producing a commercial product in sufficient amounts. However, it should not be overlooked that microalgal biotechnology still faces challenges, in particular the high cost of production, the lack of knowledge about biological contaminants and the challenge of loss of active ingredients during biomass production. These issues involve the research and development of low-cost, standardized, industrial-scale production equipment and the optimization of production processes, as well as the urgent need to increase the research on biological contaminants and microalgal active ingredients. This review systematically examines the global development of microalgal biotechnology for biomass production, with emphasis on the techniques of cultivation, harvesting, drying and control of biological contaminants, and discusses the challenges and strategies to further improve quality and reduce costs. Moreover, the current status of biomass production of some biotechnologically important species has been summarized, and the importance of improving microalgae-related standards for their commercial applications is noted.

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微藻生物质批量生产的生物技术:从大规模培养到干燥的生物质获取
微藻生物量代表了一种可持续的生物资源,可用于各种应用,如食品、保健品、药品、饲料和其他生物基产品。几十年来,它的大量生产引起了广泛的关注和兴趣。微藻生物质生产过程涉及几种技术,主要是种植、收获、干燥和污染控制。这些技术通常经过设计和优化,以满足微藻的最佳生长条件,并以可接受的成本生产高质量的生物质。重要的是,大规模生产技术对于生产足够数量的商业产品非常重要。然而,不应忽视的是,微藻生物技术仍然面临挑战,特别是生产成本高、缺乏对生物污染物的了解以及在生物质生产过程中失去有效成分的挑战。这些问题涉及低成本、标准化、工业化规模的生产设备的研发和生产工艺的优化,以及迫切需要加大对生物污染物和微藻活性成分的研究。本文系统地综述了用于生物质生产的微藻生物技术的全球发展,重点介绍了微藻的培养、收获、干燥和生物污染物的控制技术,并讨论了进一步提高质量和降低成本的挑战和策略。此外,总结了一些重要生物技术物种的生物质生产现状,并指出了提高微藻相关标准对其商业应用的重要性。
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来源期刊
Biotechnology for Biofuels
Biotechnology for Biofuels 工程技术-生物工程与应用微生物
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审稿时长
2.7 months
期刊介绍: Biotechnology for Biofuels is an open access peer-reviewed journal featuring high-quality studies describing technological and operational advances in the production of biofuels, chemicals and other bioproducts. The journal emphasizes understanding and advancing the application of biotechnology and synergistic operations to improve plants and biological conversion systems for the biological production of these products from biomass, intermediates derived from biomass, or CO2, as well as upstream or downstream operations that are integral to biological conversion of biomass. Biotechnology for Biofuels focuses on the following areas: • Development of terrestrial plant feedstocks • Development of algal feedstocks • Biomass pretreatment, fractionation and extraction for biological conversion • Enzyme engineering, production and analysis • Bacterial genetics, physiology and metabolic engineering • Fungal/yeast genetics, physiology and metabolic engineering • Fermentation, biocatalytic conversion and reaction dynamics • Biological production of chemicals and bioproducts from biomass • Anaerobic digestion, biohydrogen and bioelectricity • Bioprocess integration, techno-economic analysis, modelling and policy • Life cycle assessment and environmental impact analysis
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