Dewatering of Scenedesmus obliquus Cultivation Substrate with Microfiltration: Potential and Challenges for Water Reuse and Effective Harvesting

IF 10.1 1区 工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY
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Abstract

In the microalgae harvesting process, which includes a step for dewatering the algal suspension, directly reusing extracted water in situ would decrease the freshwater footprint of cultivation systems. Among various algae harvesting techniques, membrane-based filtration has shown numerous advantages. This study evaluated the reuse of permeate streams derived from Scenedesmus obliquus (S. obliquus) biomass filtration under bench-scale and pilot-scale conditions. In particular, this study identified a series of challenges and mechanisms that influence the water reuse potential and the robustness of the membrane harvesting system. In a preliminary phase of this investigation, the health status of the initial biomass was found to have important implications for the harvesting performance and quality of the permeate stream to be reused; healthy biomass ensured better dewatering performance (i.e., higher water fluxes) and higher quality of the permeate water streams. A series of bench-scale filtration experiments with different combinations of cross-flow velocity and pressure values were performed to identify the operative conditions that would maximize water productivity. The selected conditions, 2.4 m·s−1 and 1.4 bar (1 bar = 105 Pa), respectively, were then applied to drive pilot-scale microfiltration tests to reuse the collected permeate as a new cultivation medium for S. obliquus growth in a pilot-scale photobioreactor. The investigation revealed key differences between the behavior of the membrane systems at the two scales (bench and pilot). It indicated the potential for beneficial reuse of the permeate stream as the pilot-scale experiments ensured high harvesting performance and growth rates of biomass in permeate water that were highly similar to those recorded in the ideal cultivation medium. Finally, different nutrient reintegration protocols were investigated, revealing that both macro- and micro-nutrient levels are critical for the success of the reuse approach.

Abstract Image

利用微滤技术对双孢蘑菇栽培基质进行脱水:水回用和有效收集的潜力与挑战
在微藻类收获过程中,有一个步骤是对藻类悬浮液进行脱水,直接就地再利用提取的水可减少培养系统的淡水足迹。在各种藻类收获技术中,膜过滤已显示出诸多优势。本研究评估了在工作台规模和中试规模条件下,对从双孢藻类(S. obliquus)生物过滤中提取的渗透水流进行再利用的情况。特别是,这项研究确定了影响水回用潜力和膜收集系统稳健性的一系列挑战和机制。在调查的初步阶段,发现初始生物质的健康状况对收集性能和待回用渗透水流的质量有重要影响;健康的生物质可确保更好的脱水性能(即更高的水通量)和更高的渗透水流质量。对不同的横流速度和压力值组合进行了一系列台式过滤实验,以确定能最大限度提高水生产率的操作条件。选定的条件分别为 2.4 米-秒-1 和 1.4 巴(1 巴 = 105 帕),然后将其用于驱动中试规模的微过滤试验,以便在中试规模的光生物反应器中将收集到的渗透水作为新的栽培介质重新利用,促进斜管藻的生长。这项研究揭示了两种规模(台式和中试)的膜系统行为之间的主要差异。中试规模的实验确保了渗透水中生物量的高采集性能和生长率,与理想培养基中记录的生物量生长率高度相似,这表明渗透水具有有益再利用的潜力。最后,对不同的养分再整合方案进行了研究,结果表明,宏观和微观养分水平对于再利用方法的成功至关重要。
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来源期刊
Engineering
Engineering Environmental Science-Environmental Engineering
自引率
1.60%
发文量
335
审稿时长
35 days
期刊介绍: Engineering, an international open-access journal initiated by the Chinese Academy of Engineering (CAE) in 2015, serves as a distinguished platform for disseminating cutting-edge advancements in engineering R&D, sharing major research outputs, and highlighting key achievements worldwide. The journal's objectives encompass reporting progress in engineering science, fostering discussions on hot topics, addressing areas of interest, challenges, and prospects in engineering development, while considering human and environmental well-being and ethics in engineering. It aims to inspire breakthroughs and innovations with profound economic and social significance, propelling them to advanced international standards and transforming them into a new productive force. Ultimately, this endeavor seeks to bring about positive changes globally, benefit humanity, and shape a new future.
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