TH21618B - Oxidation catalyst, preparation and oxidation using oxidation catalyst. - Google Patents

Abstract

In oxidation catalyst They are based on titanium or vanadium silicaite with zeolite structure and are from 0.01 or 20% by weight of one or more platinum group metals selected from the group. Contains ruthenium, rhodium, palladium, osmium, eridium, and platinum. The metals in the platinum group each appear in the bond energy state. That are at least two different levels and likely have no metal-metal bond

Claims (9)

1.Process for preparing epoxides from olifins Hydrogen and oxygen by doing Olefin reaction under Vivichaphan catalyst using oxidation catalyst based on Titanium or vanadium silicaite with a zeocite structure and ranges from 0.01 to 20% by weight of one or more platinum-based metals selected from a group containing ruthenium, rhodium, palladium. Osmium, eridium and platinum Where the metals in each platinum group that appear There are at least two different levels of bond energy conditions where platinum metals are used by implantation (impregnation) in oxidation catalysts with platinum metal salt solutions. Oxidation states +2 to +4, and followed by hydrogenation of dry catalysts in the atmosphere. Hydrogen from 20 to 120 ํ C until there is no metal-metal bond. And titanium or Vanadium silicaite has a pentcyl zeolite structure, defined as MFI, MEL or MFI / MEL composite structures by X-ray analysis. 2. Process for preparing epoxide as requested in claim 1 using catalyst. Oxidation ranges from 0.01 to 20% by weight of palladium. In which the palladium appears to have Two or three different bond energy conditions. 3. Process for epoxide preparation as requested in Claim No. 1 or No. 2 using the catalyst. An additional oxidation reaction with one or more strains selected from a group containing iron, cobalt, nickel, rhenium, silver and gold. 4. Procedures for the epoxide stage as requested in the 1st to 3rd claim. Where oxidation catalysts are used That is the molar ratio of titanium And / or vanadium to the sum of silicon plus titanium and / or vanadium from 0.01: 1 to 0.1: 1. 5. Process for preparing epoxide as requested in claim 1 to 4 any one Which reacts while having water 6. Process for preparing propylene oxide as requested in the 1st to 5th claim. 7. The process for preparing hydrogen peroxide from hydrogen and oxygen, which was performed Reaction under a Vivichaphan using an oxidation catalyst as requested in claim 1 to 4. 8.Titanium-based oxidation catalyst Or vanadium silicaite containing Zeolite structure and ranges from 0.01 to 20% by weight of one or more platinum group metals. Than chosen from a group consisting of ruthenium, rhodium, palladium, osmium, eridium and platinum. Where each platinum metal appears in at least two levels of bond energy at Different and is used by implantation in an oxidation catalyst with a solution of group metal salts. Platinum in the oxidation state +2 to +4 and followed by catalyst hydration dried in Hydrogen atmosphere at 20 to 120 ํ until there is no metal-metal bond. Of which titanium Or vanadium silicaite, with pentecyl zeolite structure, defined as MFI, MEL or MFI / MEL mixed structure by X-ray analysis. 9. Oxidation catalyst upon request for claim 8, ranging from 0.01 to 20% by weight of palladium. There are at least two different levels of the palladium bond energy, the distance of the palladium-oxygen bond. Or palladium-nitrogen, most have a specific value of 2.02 + 0.02 (formula) and do not appear to have a 2.74 + 0.02 (formula) and 3.047 + 0.02 (formula)