| 1 |
Potential for metal foams to act as structured catalyst supports in fixed-bed reactors
Kolaczkowski ST, Awdry S, Smith T, Thomas D, Torkuhl L, Kolvenbach R
Catalysis Today, 273, 221, 2016 |
| 2 |
Y Removal of CO2 from a submersible atmosphere by scrubbing with water-Experiments in a single column
Kolaczkowski ST, Awdry S, Le CD, Nuckols ML, Smith T, Thomas D
Chemical Engineering Research & Design, 100, 157, 2015 |
| 3 |
Development of a continuous flow reactor for pharmaceuticals using catalytic monoliths: Pt/C selective oxidation of benzyl alcohol
Al Badran F, Awdry S, Kolaczkowski ST
Catalysis Today, 216, 229, 2013 |
| 4 |
Application of a CFD code (FLUENT) to formulate models of catalytic gas phase reactions in porous catalyst pellets
Kolaczkowski ST, Chao R, Awdry S, Smith A
Chemical Engineering Research & Design, 85(A11), 1539, 2007 |
| 5 |
The condensation/polymerisation of dimethyl siloxane fluids in a three-phase trickle flow monolith reactor
Awdry S, Kolaczkowski ST
Catalysis Today, 69(1-4), 275, 2001 |
| 6 |
The palladium catalysed oxidation of methane: reaction kinetics and the effect of diffusion barriers
Hayes RE, Kolaczkowski ST, Li PKC, Awdry S
Chemical Engineering Science, 56(16), 4815, 2001 |
| 7 |
Evaluating the effective diffusivity of methane in the washcoat of a honeycomb monolith
Hayes RE, Kolaczkowskib ST, Li PKC, Awdry S
Applied Catalysis B: Environmental, 25(2-3), 93, 2000 |
| 8 |
Catalytic combustion of methane in a monolith washcoat: Effect of water inhibition on the effectiveness factor
Hayes RE, Awdry S, Kolaczkowski ST
Canadian Journal of Chemical Engineering, 77(4), 688, 1999 |
