2016
DOI: 10.1371/journal.pone.0153000
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Effectiveness Factors and Conversion in a Biocatalytic Membrane Reactor

Abstract: Analytical expressions of the effectiveness factor of a biocatalytic membrane reactor, and its asymptote as the Thiele modulus becomes large, are presented. The evaluation of the effectiveness factor is based on the solution of the governing equations for solute transport in the two regions of the reactor, i.e. the lumen and the matrix (with the biofilm immobilized in the matrix). The lumen solution accounts for both axial diffusion and radial convective flow, while the matrix solution is based on Robin-type b… Show more

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Cited by 10 publications
(8 citation statements)
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“…The increase of these values is not considered detrimental for future applications. It should also be noted that, based on the apparent pore diameters from the internal structure of supraparticles in Scanning Electron Microscopy in previous studies, supraparticles are unlikely to limit diffusion in a way that makes the Weisz‐Prater criterion a subject of concern (Godongwana, 2016; Park & Champion, 2016; Zhao & Sun, 2014). This is corroborated by Figure S5, which shows rapid loading of eGFPZ E into supraparticles during a diffusion experiment.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…The increase of these values is not considered detrimental for future applications. It should also be noted that, based on the apparent pore diameters from the internal structure of supraparticles in Scanning Electron Microscopy in previous studies, supraparticles are unlikely to limit diffusion in a way that makes the Weisz‐Prater criterion a subject of concern (Godongwana, 2016; Park & Champion, 2016; Zhao & Sun, 2014). This is corroborated by Figure S5, which shows rapid loading of eGFPZ E into supraparticles during a diffusion experiment.…”
Section: Resultsmentioning
confidence: 99%
“…Given the moderate enzymatic reaction rates and large pore volumes, mass transfer limitations are unlikely to be a serious problem. However, these phenomena can be investigated in the future using continuous flow reactors (Bommarius, 2015; Godongwana, 2016; Sheldon, 2012).…”
Section: Resultsmentioning
confidence: 99%
“…Following we proceed to determine the effectiveness factor (η), which indicates the ratio between the reaction rate and the reaction rate without resistance to diffusion [7], [8] as described in (15)…”
Section: Is Transformed Into (3) [4]mentioning
confidence: 99%
“…The value of the superficial convective velocity can vary across the membrane, depending on its structure, porosity change, and/or the change of the volumetric flow rate due to a reaction, etc. The effect of the chemical reactions with different reaction kinetics was relatively intensively studied in the literature for simple diffusive transport [12,13], but perhaps less intensively for the diffusive plus convective transport process [25][26][27][28][29][30][31][32].This study focuses on the reactant(s) transport's description with variable transport parameters (diffusion coefficient, convective velocity) without chemical/biochemical reactions and those accompanied by chemical/biochemical reactions, assuming constant and variable diffusion coefficients and/or reaction rate constant [6], as well as with constant and variable solvent/solute convective velocities. The effect of the variable convective velocity is of emphasized importance in this discussion.…”
mentioning
confidence: 99%
“…The value of the superficial convective velocity can vary across the membrane, depending on its structure, porosity change, and/or the change of the volumetric flow rate due to a reaction, etc. The effect of the chemical reactions with different reaction kinetics was relatively intensively studied in the literature for simple diffusive transport [12,13], but perhaps less intensively for the diffusive plus convective transport process [25][26][27][28][29][30][31][32].…”
mentioning
confidence: 99%