Modeling of Packed Bed Reactors: Hydrogen Production by the Steam Reforming of Methane and Glycerol
A. G. Dixon, B. MacDonald and A. Olm, Department of Chemical Engineering,Worcester Polytechnic Institute, Worcester, MA, USA
Introduction: For gas-phase reactions withlarge mole changes in a packed tube reactor,density and velocity change.1 We show howto include these in the reactor model, formethane steam reforming (MSR):
CH4 + H2O ↔ 3H2 + COCO + H2O ↔ CO2 + H2
CH4 + 2H2O ↔ 4H2 + CO2and steam reforming of glycerol (GSR):
C3H8O3 + 3H2O → 7H2 + 3CO2We solve an isothermal model with a 1-Ddomain for the reactor tube coupled to a 2-Ddomain for the single particle2 in COMSOL.
Results: MSR has higher ∆P and lowerreaction mole change. GSR has lower ∆Pand high reaction mole change. Effects ofboth on velocity are accounted for by themodel equations.
Conclusions: Effects of mole increaseson the gas velocity and conversion forMSR and GSR were simulated using themean molar mass. Results are given forisothermal 1-D calculations; future workwill extend to 2-D non-isothermal cases.
References:1. Allain, F.; Dixon, A. G., Modeling of transport and
reaction in a catalytic bed using a catalyst particle model, COMSOL Conference, Boston (2010)
2. Petera, J.; Nowicki, L.; Ledakowicz, S., New numerical algorithm for solving multidimensional heterogeneous model of the fixed bed reactor, Chem. Eng. J. 214, 237-246 (2013)
3. Cropley, J. B.; Burgess, L. M.; Loke, R. A., The optimal design of a reactor for the hydrogenation of butyraldehyde to butanol, ACS Symp. Ser., 237, 255-270 (1984)Figure 1. Tube and particle geometry
Figure 2. Methane pellet conc. Figure 3. MSR: Conv. and v
Figure 4. Glycerol pellet conc. Figure 5. GSR: M and v
0 1x
y
Particle
Tube ci*(x)
Cpi(y,x)Couplingvariables
0 2 4 6 8 10x (m)
0
0.04
0.08
0.12
Co
nver
sio
n
2.6
2.65
2.7
2.75
2.8
2.85
2.9
Velocity (m
/s)P co
ntrol
c
ontro
l
0 0.2 0.4 0.6 0.8 1x (m)
2
2.1
2.2
2.3
2.4
Vel
ocity
(m
/s)
0.022
0.023
0.024
0.025
0.026
Mea
n mo
lar m
ass (kg/m
ol)
Excerpt from the Proceedings of the 2014 COMSOL Conference in Boston