Experimental and computational study of a packed bed bioreactor for the continuous production of succinic acid

IF 3.4 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY Reaction Chemistry & Engineering Pub Date : 2024-08-23 DOI:10.1039/d4re00280f
Ioannis Zacharopoulos, Min Tao, Constantinos Theodoropoulos
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Abstract

In this work we present a packed bed bioreactor system packed, with immobilised cells in sodium alginate beads, for the biological conversion of glycerol to succinic acid. We simulate this continuous bioreactor system by constructing a partial differential equation, multi-phase, convection-diffusionmodel, which uses the intrinsic kinetics for the fermentation of glycerol with A. succinogenes. The model is validated, by conducting a series of fermentation experiments at different operating conditions and is subsequently used to successfully predict the dynamics and the species profiles throughout the length of the bioreactor. The model is then exploited for optimising the continuous bioprocess. The computed optimal conditions are experimentally validated. The succinic acid concentration at the end effluent of the bioreactor reached 51.16 g/L, with the substrate being fully consumed. The maximum succinic acid productivity was calculated to be 2.15 g/L/h, a value which is the highest recorded for the bioproduction of succinic acid with glycerol.
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连续生产琥珀酸的填料床生物反应器的实验和计算研究
在这项研究中,我们介绍了一种填料床生物反应器系统,该系统将固定细胞填入海藻酸钠珠中,用于将甘油转化为琥珀酸。我们通过构建一个偏微分方程、多相、对流-扩散模型来模拟这种连续生物反应器系统,该模型采用了琥珀酸菌发酵甘油的内在动力学原理。通过在不同操作条件下进行一系列发酵实验,对该模型进行了验证,随后成功预测了整个生物反应器长度范围内的动态和物种分布。然后利用该模型对连续生物过程进行优化。计算出的最佳条件得到了实验验证。生物反应器最终流出物中的琥珀酸浓度达到 51.16 克/升,底物被完全消耗。经计算,琥珀酸的最大生产率为 2.15 克/升/小时,这是利用甘油进行琥珀酸生物生产的最高记录。
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来源期刊
Reaction Chemistry & Engineering
Reaction Chemistry & Engineering Chemistry-Chemistry (miscellaneous)
CiteScore
6.60
自引率
7.70%
发文量
227
期刊介绍: Reaction Chemistry & Engineering is a new journal reporting cutting edge research into all aspects of making molecules for the benefit of fundamental research, applied processes and wider society. From fundamental, molecular-level chemistry to large scale chemical production, Reaction Chemistry & Engineering brings together communities of chemists and chemical engineers working to ensure the crucial role of reaction chemistry in today’s world.
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Back cover Ultrasound-assisted condensation cyclization reaction: fast synthesis of quinazolinones from o-aminobenzamides and aldehydes under ambient conditions† Metallic sealants increase flux and change selectivity in supported molten-salt membranes. Monitoring and controlling zeolite synthesis via reactor-based solutions: a fed-batch strategy. Back cover
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