High-throughput separation of microalgae on a runway-shaped channel with ordered semicircular micro-obstacles

IF 2.3 4区 工程技术 Q2 INSTRUMENTS & INSTRUMENTATION Microfluidics and Nanofluidics Pub Date : 2024-11-23 DOI:10.1007/s10404-024-02773-5
Sheng Hu, Shuai Jin, Xiaoming Chen, Ruijie Tong
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Abstract

Microalgae serve as a valuable biological resource in many industrial applications. Thus, it is essential to obtain a high-efficiency separation technique for microalgae precisely. In this study, a runway-shaped microchannel with ordered semicircular micro-obstacles was introduced to conduct the separation of microalgae with different sizes. The runway-shaped microchannel combined the spiral characteristics with a series of semicircular micro-obstacles to realize the advantage of a sheathless configuration, high-throughput, and low aspect ratio advantages. These micro-obstacles improved the performance of particle focusing, which can promote the microalga separation effectively. These simulated results demonstrated that the runway-shaped channel with ordered semicircular micro-obstacles could form the evident distribution of local Dean vortices to separate particles with different size and density. When the flow rate is considered 4mL/min, the experiment indicated that the microchannel could separate the Chlorella vulgaris and Haematococcus pluvialis in 94.6% and 81.5% purity, respectively. The microchannel with the high throughput and separation efficiency is competent to carry out the task of microalga screening and artificial cultivation.

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在带有有序半圆形微障碍物的跑道形通道上高通量分离微藻
在许多工业应用中,微藻都是一种宝贵的生物资源。因此,精确地获得高效的微藻分离技术至关重要。本研究采用了带有有序半圆形微障碍物的跑道形微通道来分离不同大小的微藻。跑道形微通道结合了螺旋特性和一系列半圆形微障碍物,实现了无鞘配置、高通量和低纵横比的优势。这些微障碍物改善了粒子聚焦的性能,能有效促进微藻分离。这些模拟结果表明,带有有序半圆形微障碍物的跑道形通道可以形成明显的局部迪安涡流分布,从而分离不同大小和密度的颗粒。当流速为 4mL/min 时,实验结果表明该微通道能分离出纯度分别为 94.6% 和 81.5% 的小球藻和血球藻。高通量、高分离效率的微通道可以胜任微藻筛选和人工培养的任务。
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来源期刊
Microfluidics and Nanofluidics
Microfluidics and Nanofluidics 工程技术-纳米科技
CiteScore
4.80
自引率
3.60%
发文量
97
审稿时长
2 months
期刊介绍: Microfluidics and Nanofluidics is an international peer-reviewed journal that aims to publish papers in all aspects of microfluidics, nanofluidics and lab-on-a-chip science and technology. The objectives of the journal are to (1) provide an overview of the current state of the research and development in microfluidics, nanofluidics and lab-on-a-chip devices, (2) improve the fundamental understanding of microfluidic and nanofluidic phenomena, and (3) discuss applications of microfluidics, nanofluidics and lab-on-a-chip devices. Topics covered in this journal include: 1.000 Fundamental principles of micro- and nanoscale phenomena like, flow, mass transport and reactions 3.000 Theoretical models and numerical simulation with experimental and/or analytical proof 4.000 Novel measurement & characterization technologies 5.000 Devices (actuators and sensors) 6.000 New unit-operations for dedicated microfluidic platforms 7.000 Lab-on-a-Chip applications 8.000 Microfabrication technologies and materials Please note, Microfluidics and Nanofluidics does not publish manuscripts studying pure microscale heat transfer since there are many journals that cover this field of research (Journal of Heat Transfer, Journal of Heat and Mass Transfer, Journal of Heat and Fluid Flow, etc.).
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