Knorr T, Strobl F, Glenk F, Etzold B (2012)
Publication Type: Journal article
Publication year: 2012
Book Volume: 35
Pages Range: 1495-1503
Journal Issue: 8
Recommendations for mode of operation and critical dimensions regarding inner mass transfer limitation were deduced for the technical extraction of silicon from silicon carbide to produce nanoporous carbon (carbide-derived carbon, CDC). The recommendations are based on intrinsic kinetics derived from experimental data and reaction engineering simulation of the transient process (shrinking-core like mechanism). As the reaction takes place at 1000 °C under chlorine atmosphere, kinetic data as well as diffusion coefficients are extracted from integral conversion data in a lab scale reactor. The reaction rate dependency for varying chlorine concentrations is represented best by a Hougen-Watson type rate approach with dissociative adsorption of a reactant. From the experimental data the effective diffusion coefficient of chlorine in the resulting nanoporous carbon could also be derived to 4 · 10--8 m2s--1 at 1000 °C.
APA:
Knorr, T., Strobl, F., Glenk, F., & Etzold, B. (2012). Recommendations for the Production of Silicon Carbide-derived Carbon Based on Intrinsic Kinetic Data. Chemical Engineering & Technology, 35(8), 1495-1503. https://doi.org/10.1002/ceat.201200110
MLA:
Knorr, Tilman, et al. "Recommendations for the Production of Silicon Carbide-derived Carbon Based on Intrinsic Kinetic Data." Chemical Engineering & Technology 35.8 (2012): 1495-1503.
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