1 |
Electrochemical removal of metals from crude oil samples Welter K, Salazar E, Balladores Y, Marquez OP, Marquez J, Martinez Y Fuel Processing Technology, 90(2), 212, 2009 |
2 |
A novel demetalation process for vanadyl- and nickelporphyrins from petroleum residue by photochemical reaction and liquid-liquid extraction Shiraishi Y, Hirai T, Komasawa I Industrial & Engineering Chemistry Research, 39(5), 1345, 2000 |
3 |
Simulation and experiment of multicomponent diffusion and reaction in three-dimensional networks Rieckmann C, Keil FJ Chemical Engineering Science, 54(15-16), 3485, 1999 |
4 |
The use of magnetic resonance images in the simulation of diffusion in porous catalyst support pellets Rigby SP, Gladden LF Journal of Catalysis, 173(2), 484, 1998 |
5 |
NMR and Fractal Modeling Studies of Transport in Porous-Media Rigby SP, Gladden LF Chemical Engineering Science, 51(10), 2263, 1996 |
6 |
Simulation of Catalyst Fouling at the Particle and Reactor Levels Zhang L, Seaton NA Chemical Engineering Science, 51(12), 3257, 1996 |
7 |
Initial Deactivation of Residue Hydrodemetallization Catalysts Gualda G, Kasztelan S Journal of Catalysis, 161(1), 319, 1996 |
8 |
Hydrodemetallisation of Nickel-5,10,15,20-Tetraphenylporphyrin over Sulfided Mo/Al2O3 - Initial Catalyst Deactivation Bonne RL, Vansteenderen P, Vandiepen AE, Moulijn JA Applied Catalysis A: General, 108(2), 171, 1994 |