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Hydrothermal processing of microalgal biomass: Circular bio-economy perspectives for addressing food-water-energy nexus
Bioresource Technology ( IF 9.7 ) Pub Date : 2022-06-10 , DOI: 10.1016/j.biortech.2022.127443 Bunushree Behera 1 , S Mari Selvam 1 , Paramasivan Balasubramanian 1
Bioresource Technology ( IF 9.7 ) Pub Date : 2022-06-10 , DOI: 10.1016/j.biortech.2022.127443 Bunushree Behera 1 , S Mari Selvam 1 , Paramasivan Balasubramanian 1
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Hydrothermal processing of microalgae is regarded as a promising technology to generate multitude of energy based and value-added products. The niche of hydrothermal technologies is still under infancy in terms of the technical discrepancies related to research and development. Thus, the present review critically surveyed the recent advancements linked to the influencing factors governing the algal hydrothermal processing in terms of the product yield and quality. The sustainability of hydrothermal technologies as a standalone method and in broader aspects of circular bio-based economy for energy and value-added platform chemicals are comprehensively discussed. Process optimization and strategic integration of technologies has been suggested to improve efficiency, with reduced energy usage and environmental impacts for addressing the energy-food-water supply chains. Within the wider economic transition and sustainability debate, the knowledge gaps identified and the research hotspots fostering future perspective solutions proposed herewith would facilitate its real-time implementation.
中文翻译:
微藻生物质的水热处理:解决食物-水-能源关系的循环生物经济视角
微藻的水热处理被认为是产生多种能源和增值产品的有前景的技术。就与研发相关的技术差异而言,水热技术的利基仍处于起步阶段。因此,本综述批判性地调查了与控制藻类水热处理的影响因素有关的产品产量和质量的最新进展。全面讨论了水热技术作为一种独立方法的可持续性,以及在能源和增值平台化学品的循环生物基经济的更广泛方面的可持续性。建议通过流程优化和技术战略整合来提高效率,减少能源使用和环境影响,以解决能源-食品-水供应链问题。在更广泛的经济转型和可持续性辩论中,所发现的知识差距和促进此处提出的未来前景解决方案的研究热点将有助于其实时实施。
更新日期:2022-06-10
中文翻译:
微藻生物质的水热处理:解决食物-水-能源关系的循环生物经济视角
微藻的水热处理被认为是产生多种能源和增值产品的有前景的技术。就与研发相关的技术差异而言,水热技术的利基仍处于起步阶段。因此,本综述批判性地调查了与控制藻类水热处理的影响因素有关的产品产量和质量的最新进展。全面讨论了水热技术作为一种独立方法的可持续性,以及在能源和增值平台化学品的循环生物基经济的更广泛方面的可持续性。建议通过流程优化和技术战略整合来提高效率,减少能源使用和环境影响,以解决能源-食品-水供应链问题。在更广泛的经济转型和可持续性辩论中,所发现的知识差距和促进此处提出的未来前景解决方案的研究热点将有助于其实时实施。
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