CONTINUOUS-FLOW EXTRACTION OF BIOCOMPOUNDS IN FIXED BED: INFLUENCE OF SWAPPING FROM DIRICHLET TO DANCKWERTS CONDITION AT INLET IN PHENOMENOLOGICAL MODELS

Revista Brasileira de Engenharia de Biossistemas Pub Date : 2021-11-29 DOI:10.18011/bioeng2021v15n4p538-560

N. A. de Oliveira, J. Rabi

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Abstract

Phenomenological models have increasingly become vital to bioprocess engineering. In continuous-flow biocompounds extraction models, diffusion requires an extra boundary condition at exit (usually null Neumann condition) while either Dirichlet or Danckwerts condition can be imposed at inlet. By taking an extant case study and with the help of an in-house lattice-Boltzmann simulator, this work numerically examines prospective effects of interchanging aforesaid inlet conditions. Trial simulations were performed for scenarios ranging from convective-dominant to diffusive-dominant. Extraction yields numerically simulated under each inlet condition were compared with experimental data. Expected shape of extraction yield curves was simulated whenever process parameters were properly provided and differences due to switching inlet conditions became evident only in diffusion-dominant extraction scenarios. At diffusivities of order 10-6 m2 s-1, numerical results suggest that Danckwerts boundary condition should be preferred at bed inlet.

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固定床连续流萃取生物化合物:现象学模型中进口dirichlet条件切换到danckwerts条件的影响

现象学模型对生物过程工程越来越重要。在连续流生物化合物提取模型中，扩散需要在出口处施加额外的边界条件（通常为零Neumann条件），而可以在入口处施加Dirichlet或Danckwerts条件。通过现有的案例研究，并在内部晶格玻尔兹曼模拟器的帮助下，这项工作对改变上述入口条件的预期影响进行了数值研究。对从对流为主到扩散为主的场景进行了试验模拟。将每个入口条件下数值模拟的萃取率与实验数据进行了比较。只要适当地提供了工艺参数，就模拟了提取产率曲线的预期形状，并且只有在扩散主导的提取场景中，由于切换入口条件而产生的差异才变得明显。在10-6 m2 s-1量级的扩散系数下，数值结果表明，床入口处应优先采用Danckwerts边界条件。

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