通过在带有水平挡板的平板生物反应器中利用计算流体动力学模拟强化闪光效应来提高微藻生长。

Improving microalgal growth by strengthening the flashing light effect simulated with computational fluid dynamics in a panel bioreactor with horizontal baffles.

作者信息

Ye Qing, Cheng Jun, Yang Zongbo, Yang Weijuan, Zhou Junhu, Cen Kefa

机构信息

State Key Laboratory of Clean Energy Utilization, Zhejiang University Hangzhou 310027 China

出版信息

RSC Adv. 2018 May 23;8(34):18828-18836. doi: 10.1039/c8ra02863j. eCollection 2018 May 22.

DOI:10.1039/c8ra02863j

PMID:35539675

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9080617/

Abstract

Biological CO elimination by photosynthetic microalgae is a sustainable way to mitigate CO from flue gas and other sources. Computational fluid dynamics was used to simulate algal cell movement with an enhanced flashing light effect in a novel panel bioreactor with horizontal baffles. Calculation results showed that the light/dark (L/D) cycle period decreased by 17.5% from 17.1 s to 14.1 s and that the horizontal fluid velocity increased by 95% while horizontal baffles were used under a 0.02 vvm air aeration rate and a microalgal concentration of 0.85 g L. The probability of the L/D cycle period within 5-10 s increased from 27.9% to 43.6%, indicating a 56% increase when horizontal baffles existed. It was proved by experiments that the mass-transfer coefficient increased by 31% and the mixing time decreased by 13% under a 0.06 vvm air aeration rate when horizontal baffles were used, and the algal biomass yield increased by ∼51% along with the decrease in the L/D cycle period when horizontal baffles were used.

摘要

光合微藻生物法去除二氧化碳是一种可持续的方法，可减少来自烟道气和其他来源的二氧化碳。利用计算流体动力学，在一种带有水平折流板的新型平板生物反应器中模拟了具有增强闪光效果的藻类细胞运动。计算结果表明，在0.02 vvm的空气曝气速率和0.85 g/L的微藻浓度下使用水平折流板时，光/暗（L/D）循环周期从17.1秒减少了17.5%至14.1秒，水平流体速度增加了95%。L/D循环周期在5 - 10秒内的概率从27.9%增加到43.6%，表明存在水平折流板时增加了56%。实验证明，在0.06 vvm的空气曝气速率下使用水平折流板时，传质系数增加了31%，混合时间减少了13%，并且使用水平折流板时，随着L/D循环周期的缩短，藻类生物量产量增加了约51%。

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通过在带有水平挡板的平板生物反应器中利用计算流体动力学模拟强化闪光效应来提高微藻生长。

Improving microalgal growth by strengthening the flashing light effect simulated with computational fluid dynamics in a panel bioreactor with horizontal baffles.

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