TH34045A - Supported catalysts Processes for its production. And using it in ethylene oxidation - Google Patents

Abstract

DC60 (29/01/42) supported catalysts containing a) 0.5 - 15% by weight of one or more Cu-II compounds. Reference quantity To copper metal b) 0.1 - 15% by weight of one or more alkali metal compounds, referring to alkali metals c) 0.1-10% by weight of oxide mixtures containing c1) 80 - 95 % By moles of zirconium dioxide, rare earth with atomic numbers 57 to 62, except promethium and c2) 5 - 20% by moles of zirconium dioxide as c1) and c2) must be 100% combined. Where the mole and the content of c) refer to the oxide of the mixture and d) the remainder up to 100% by weight as alpha- and / or-aluminum oxide as the backing material, e) the supporting material d) the hole volume. Overall porosity ranges from 0.65 to 1.2 cubic cm / g and where f) has a supporting catalyst in the form of a cylindrical hollow object with at least one passage. The ratio of height h to outer diameter dm is less than 1.5 for dm diameters up to 6 mm and h / dm ratios of less than 0.6 for dm diameters less than 6 mm. Supported catalysts according to this invention are shown or given. - low pressure loss - low bulk density - relatively large external surface to the volume of one reactor tube - uniform flow through passageway or channel - generation of turbulence, internal reaction gas of the object Catalyst compression - formation of high turbulence of reactive gas around the body; shaped catalyst - addition to the axial and radial mixtures. In other words, the transport of mass against the flow direction under the influence of the gradient, concentration-amplification and diffusion efficiency of the gas reagent in the channel; - expansion and assisted diffusion performance of the gas reagent in the catalyst hole The reaction is the result of the dominance of the medium hole - high turbulence of the reactive gas at the catalytic object. And in the modulated reaction space Cook, the problem of thermal decomposition disappears that is a disadvantage. Born when considering the exchange coefficient Change the lower heat Between the catalyst compression material and the reaction gas - achieving effect space - higher time - increase in transition - increase in selection - increase in catalyst service life Use a specific catalyst for ethylene oxidation. Supported catalysts containing a) 0.5-15% by weight of one or more Cu-II compounds, referring to copper metal content; b) 0.1-15% by weight of one or more alkali metal compounds. Content with reference to alkali metals c) 0.1-10% by weight of oxide mixtures containing c1) 80-95% by moles of zerite rare earth oxides with atomic number 57-62 except. Promethium and c2) 5-20% by mole of oxide as c1) and c2) must be 100% combined by mole and c) referring to the oxide of the mixture and d) the remainder up to 100% by Weight is (formula) aluminum oxide as a support material, e) support material d) has an overall pore volume in the range from 0.65-1.2 cm3 / g and where f) has a supporting catalyst in the form of a hollow body. Shape Cylinder with at least one funnel through the ratio of height h to outer diameter du is less than 1.5 for diameter du up to 6mm and h / du ratio of less than 0.6 for diameter du less than 6mm. Catalyzed the supported reactions according to this invention, show or give Low pressure loss, low bulk density, external surface to tube volume, rather large unit of reactor and uniform flow through passageway or funnel:

Claims (1)

1.Supported catalysts containing a) 0.5-15% by weight of one or more Cu-II compounds, with reference to copper metal, b) 0.1-15% by weight of one alkali metal compound. Or greater than the quantities referenced to alkali metals; c) 0.1-10% by weight of oxide mixtures containing c1) 80-95% by moles of serite rare earth oxides with atomic number 57- 62 Except for promethium and c2) 5-20% by mole of oxides as c1) and c2) must be 100% combined by mole and c) content with reference to the oxide of the mixture and the tags: