The use of both reactors monolithic ceramic as metal has shown significant benefits in the hydrodynamic and transport of mass regard to conventional reactors. This study evaluated the thermal behavior of different types of metal mesh stainless steel coupled in series in a way that emuled monolithic structure. The system was a silica coating on the surface of each mesh; coating was obtained by gel electrophoresis using monophasic ortosilicato a solution of tetraethyl and ethanol-water conditions. We evaluated alternatives electrodeposition conditions such as time of deposition, the type of counter electrode, the type of drying and current supplied to the metal mesh of 21 mm diameter, 1 mm thick and in three different geometric configurations. The experimental results show that the best conditions of deposition times were no more than 60 minutes, using two counter electrodes graphite and a flow provided no more than 20 mA. The axial gradients of temperature were quantified at different flow rates (500 - 5000 standard cm 3 /min), for a settlement of 10 metal mesh coupled in series with and without deposit of silica. Finally, these results have been compared with those obtained under the same operating conditions with ceramic monoliths type foam and found that the gradients of the meshes with silica deposit are up to 35% lower than those obtained with ceramic substrates.