Simulation on non-ideal behaviour of plug flow bioreactor based on the growth study of Lactobacillus species

IF 0.9 Q4 ENGINEERING, CHEMICAL
S. Sarkar, R. Chowdhury
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引用次数: 0

Abstract

ABSTRACT The physical properties of a biological system vary with time due to the growth of biomass, and thus the flowability of such a medium inside any bioreactor also changes with time. The present study aims to study the non-ideal behaviour of a plug flow bioreactor (PFBR) under non-reactive conditions for a biological system. Different physical parameters of this study have been incorporated from the batch growth study of Lactobacillus sp. The growth of bacteria culture was simulated using a PVA solution to conduct residence time distribution (RTD) experiments in pulse and step mode. Different parameters of the dispersion model were measured, and the non-zero variance indicated that dispersion always occurred along the path of reaction which led to turbulence and diffusion. The Peclet No was non-infinite; thus, PFBR always deviates from the ideal behaviour of the plug flow reactor. During the velocity distribution study, it had also been established that the Peclet number was decreased with the increase of Reynolds Number at a certain medium viscosity. Moreover, the non-ideality of PFBR further increased due to the change of physical properties of the medium. Here, a polynomial relation had been established between the Peclet number and medium viscosity. Therefore, the current study might be a value addition towards the designing of the plug flow bioreactor. GRAPHICAL ABSTRACT
基于乳杆菌生长研究的塞流式生物反应器非理想行为模拟
由于生物量的增长,生物系统的物理性质随时间而变化,因此任何生物反应器内这种介质的流动性也随时间而变化。本研究旨在研究塞流生物反应器(PFBR)在非反应条件下的非理想行为。本研究的不同物理参数来自于乳酸杆菌的批量生长研究,采用PVA溶液模拟细菌培养物的生长,在脉冲和阶梯模式下进行停留时间分布(RTD)实验。对不同参数的色散模型进行了测量,非零方差表明,色散总是沿反应路径发生,导致湍流和扩散。Peclet No是非无限的;因此,PFBR总是偏离塞流反应器的理想性能。在速度分布的研究中,还发现在一定的介质粘度下,佩莱特数随着雷诺数的增加而减小。此外,由于介质物理性质的改变,PFBR的非理想性进一步增加。在此基础上,建立了Peclet数与介质粘度之间的多项式关系。因此,本研究对塞流式生物反应器的设计具有一定的参考价值。图形抽象
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Indian Chemical Engineer
Indian Chemical Engineer ENGINEERING, CHEMICAL-
CiteScore
3.00
自引率
6.70%
发文量
33
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