Formation of dead zone in catalytic particles in catalysis and biocatalysis—new alternative method of determination
Author:
Affiliation:
1. Van PurBreweryRakszawaPoland
2. Faculty of ChemistryRzeszow University of TechnologyRzeszowPoland
Funder
The National Science Centre, Poland
Publisher
Wiley
Subject
General Chemical Engineering
Link
https://onlinelibrary.wiley.com/doi/pdf/10.1002/cjce.23383
Reference17 articles.
1. Comparison between experimental and theoretical values of effectiveness factor in cephalosporin C production process with immobilized cells
2. External and internal mass transfer effects in an anaerobic fixed-bed reactor for wastewater treatment
3. The dead core model applied to beads with immobilized cells in a fed-batch cephalosporin C production bioprocess
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1. Reaction-Diffusion Processes and “Dead Zone” in a Porous Catalyst Granule;Journal of Mathematical Sciences;2024-07-25
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3. An efficient and robust method for numerical analysis of a dead zone in catalyst particle and packed bed reactor;Engineering Reports;2021-02-03
4. Dead-core solutions for slightly non-isothermal diffusion-reaction problems with power-law kinetics;Applied Mathematical Modelling;2020-07
5. Dead-core and non-dead-core solutions to diffusion-reaction problems for catalyst pellets with external mass transfer;Chemical Engineering Journal;2020-04
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