Resources
White Papers and Application Notes
Modeling of Packed Bed Reactors: Hydrogen Production by the Steam Reforming of Methane and Glycerol
Published in 2014
The conventional route to hydrogen production is by steam reforming of methane (MSR) in a multitubular packed bed. With the increasing use of biodiesel as a renewable fuel, interest has grown in steam reforming of the excess glycerol produced as a side product (GSR).
We use COMSOL Multiphysics® software to model a tubular packed bed reactor, solving a single pellet model at each point. The two reforming reactions involve significant changes in moles. The impact of the mole changes in the absence of heat effects in a one-dimensional tube model with a coupled single particle model is presented. The equations are formulated in terms of mole fractions, and then equations for the evolution of the mean molar mass are included.
Download
- dixon_poster.pdf - 1.4MB
- dixon_paper.pdf - 0.57MB
- dixon_abstract.pdf - 0.21MB