Valorisation of food waste with distinct carbon-to-nitrogen ratios by the microalga Isochrysis galbana: laboratory demonstration and techno-economic assessment†

IF 5 3区 材料科学 Q2 CHEMISTRY, PHYSICAL
Xu Zeng, Zhi-yuan Zhao, Gui-meng Wang, Derek M. Ayittey, Jia-le Zhu, Zhi-gang Zhou, Kin-chung Ho, Carol Sze Ki Lin and Zheng Sun
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Abstract

The use of microorganisms to convert food waste into high-value products is a promising biorefinery approach for not only the reduction of food waste but also its recycling and valorisation. Moreover, microalgae are increasingly recognised as cellular factories capable of producing various value-added metabolites by utilising organic nutrients. In this regard, this study examined different food waste with distinct carbon-to-nitrogen ratios as nutrient sources for the production of diverse value-added products via mixotrophic cultivation of the microalga Isochrysis galbana. It was demonstrated that, while both hydrolysates enhanced the microalgal growth compared to the autotrophic cultivation, steamed bun waste hydrolysate with a high carbon-to-nitrogen ratio led to improved lipid accumulation and the nitrogen-rich shrimp waste hydrolysate favoured the production of fucoxanthin. Based on these experimental results, techno-economic analyses were conducted and demonstrated that the strategies examined on a laboratory scale would be economically viable at pilot-plant scale, especially if a nitrogen-rich hydrolysate such as that derived from shrimp waste were used, as this promotes microalgal growth. This study highlighted the significance of adopting various kinds of food waste in microalgae-based biorefineries, and hopes to provide insights to relevant sectors from both experimental and economic perspectives.

Abstract Image

微型藻类 Isochrysis galbana 对碳氮比不同的厨余垃圾的利用:实验室示范和技术经济评估†。
利用微生物将厨余垃圾转化为高价值产品是一种前景广阔的生物精炼方法,不仅能减少厨余垃圾,还能实现厨余垃圾的循环利用和价值化。此外,越来越多的人认为微藻是细胞工厂,能够利用有机养分生产各种增值代谢产物。在这方面,本研究考察了不同碳氮比的厨余作为营养源,通过混养培养微藻 Isochrysis galbana 来生产各种增值产品的情况。实验结果表明,与自养培养相比,两种水解物都能促进微藻的生长,但高碳氮比的蒸馒头废水解物能改善脂质积累,而富含氮的虾废水解物则有利于生产岩藻黄素。在这些实验结果的基础上,进行了技术经济分析,结果表明在实验室规模上研究的策略在中试工厂规模上具有经济可行性,特别是在使用富氮水解物(如从虾废料中提取的水解物)的情况下,因为富氮水解物能促进微藻生长。这项研究强调了在基于微藻的生物炼制厂中采用各种食物废料的意义,并希望从实验和经济角度为相关部门提供启示。
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来源期刊
Sustainable Energy & Fuels
Sustainable Energy & Fuels Energy-Energy Engineering and Power Technology
CiteScore
10.00
自引率
3.60%
发文量
394
期刊介绍: Sustainable Energy & Fuels will publish research that contributes to the development of sustainable energy technologies with a particular emphasis on new and next-generation technologies.
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