Assessing the Impact of Transport Phenomena on Modeling and Optimization of Solid-State Fermentation for the Revalorization of Agro-Industrial Residues in a Wall‐Cooled Packed‐Bed Bioreactor

IF 3.7 3区 工程技术 Q2 ENGINEERING, CHEMICAL Chemical Engineering Research & Design Pub Date : 2024-08-28 DOI:10.1016/j.cherd.2024.08.031
M. Couder-García , L.A. Prado-Barragán , S. Huerta-Ochoa , C.O. Castillo-Araiza
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Abstract

This work assesses the influence of transport phenomena on the growth of Yarrowia lipolytica 2.2ab (Yl2.2ab) and protease production during Solid-State Fermentation (SSF) in a bench-scale wall-cooled tubular bioreactor packed with substrate-based pellets derived from agro-industrial residues. Our engineering methodology, in a novel manner, includes: (i) developing a new pseudo-heterogeneous model, (ii) identifying and quantifying the impact of all transport phenomena on microbial kinetics, (iii) elucidating how fluid dynamics enhances heat and mass transfer processes, and hence microbial kinetics, and (iv) determining the operational and geometric parameters for optimal bioreactor performance. As main results: (i) all transport phenomena occurring within the bench-scale bioreactor are fundamental for its reliable simulation and will be essential for its scale-up, and (ii) the maximum production of proteases, 420 U kgDS‐1−1, is achieved under the following operational conditions: a tube to particle diameter ratio of 5.6, a bath temperature of 45°C, an inlet airflow rate of 1 L min−1, and inlet fluid temperature of 43 °C. Finally, the pseudo-heterogeneous model is assessed by describing SSF-based observations from the literature, appropriately predicting the performance of Yl2.2ab in a bench-scale bioreactor. These results pave the way for future exploration of Yl2.2ab in SSF within larger-scale packed-bed bioreactors.

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评估运输现象对壁式冷却填料床生物反应器中固态发酵农用工业残渣再资源化的建模和优化的影响
这项研究评估了固态发酵(SSF)过程中运输现象对脂肪溶解亚罗诺氏菌 2.2ab(Yl2.2ab)生长和蛋白酶生产的影响。我们采用新颖的工程方法,包括(i) 建立一个新的伪均质模型,(ii) 确定并量化所有传输现象对微生物动力学的影响,(iii) 阐明流体动力学如何增强热量和质量传递过程,进而增强微生物动力学,以及 (iv) 确定操作和几何参数,以优化生物反应器的性能。主要结果是:(i) 在台式生物反应器内发生的所有传输现象都是其可靠模拟的基础,也是其放大的关键;(ii) 蛋白酶的最大产量(420 U kgDS-1-1)是在以下操作条件下实现的:管与颗粒直径比为 5.6,浴槽温度为 45 °C,入口气流速率为 1 L min-1,入口流体温度为 43 °C。最后,通过描述文献中基于 SSF 的观察结果,评估了伪均质模型,并适当预测了 Yl2.2ab 在台式生物反应器中的性能。这些结果为今后探索 Yl2.2ab 在更大规模填料床生物反应器中的 SSF 性能铺平了道路。
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来源期刊
Chemical Engineering Research & Design
Chemical Engineering Research & Design 工程技术-工程:化工
CiteScore
6.10
自引率
7.70%
发文量
623
审稿时长
42 days
期刊介绍: ChERD aims to be the principal international journal for publication of high quality, original papers in chemical engineering. Papers showing how research results can be used in chemical engineering design, and accounts of experimental or theoretical research work bringing new perspectives to established principles, highlighting unsolved problems or indicating directions for future research, are particularly welcome. Contributions that deal with new developments in plant or processes and that can be given quantitative expression are encouraged. The journal is especially interested in papers that extend the boundaries of traditional chemical engineering.
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