Lisi, Luciana||Cimino, Stefano <br/><br/>
Catalysts Deactivation, Poisoning and Regeneration 

<br/><br/><br/>English[eng] 
<br/><br/><label>Subjects--Topical Terms: </label><br/>cyclic operation||n/a||nickel catalysts||regeneration||Cu/SSZ-13||syngas||NH3-SCR||oxysulfate||Ni-catalyst||MW incinerator||iso-octane||hydrogenation||dry reforming of methane||oxysulfide||Co-Zn/H-Beta||Low-temperature catalyst||Rh catalysts||deactivation||vanadia species||SO2 poisoning||vehicle emission control||barium carbonate||sodium ions||sulfur deactivation||tetragonal zirconia||sulfur poisoning||Liquefied natural gas||water||deactivation by coking||phase stabilization||catalyst||NO removal||physico-chemical characterization||octanol||SEM||aluminum sulfate||oxygen storage capacity||unusual deactivation||diesel||nitrous oxide||exhaust gas||over-reduction||poisoning||catalyst deactivation||ammonium sulfates||CO2 reforming||SO3||Rh||in situ regeneration||copper||V2O5–WO3/TiO2 catalysts||palladium sulfate||Selective Catalytic Reduction (SCR)||biogas||thermal stability||phthalic anhydride||octanal||natural gas||sulfur-containing sodium salts||washing||coke deposition||vanadia-titania catalyst||CPO reactor||homogeneous catalysis||NOx reduction by C3H8||nitrogen oxides||effect of flow rate||DeNOx||catalytic methane combustion||deactivation mechanism||TEM||catalyst durability