TH27751C3 - - Google Patents

Abstract

DC60 (23/08/42) Catalyst for vinyl production Acetate by the reaction of ethylene, oxygen and acetyl acid that is composed of A porous substrate on porous substrates which is bonded with metallic palladium, gold and copper in amounts to produce catalytic effect. Prepared step by step That consists of a porous support material, a porous surface Metallic Precipitated palladium in The catalytic dose, alternatively saturated with a solution of potassium orate, may be supplied with a substrate. In contact with Gold first, later to be exposed to the complex of Palladium / Copper An additional option is the use of sodium-free reagents. Catalyst for vinyl production Acetate by the reaction of ethylene, oxygen and acetyl acid that is composed of A porous substrate on porous substrates, which is bonded with metallic, talledium, gold and copper in amounts to produce catalytic effect, such catalysts at Prepared step by step That consists of a porous support material, a porous surface Metallic Precipitated palladium in The catalytic dose, alternatively saturated with a solution of potassium orate, may be supplied with a substrate. In contact with Gold first, later to be exposed to the complex of Palladium / Copper An additional option is the use of sodium-free reagents.

Claims (6)

1.Catalyst for vinyl production Acetates by the reaction of ethylene, oxygen and acetylsides, which includes A porous support material on porous surfaces, which is bonded with metallic palladium, gold and copper in amounts to produce catalytic effect, such a catalyst. Prepared by step The composite is made of a porous support material, a porous surface containing metallic palladium and pre-reducing copper. The catalyst for the catalytic effect, saturated with a solution of potassium orate, and reduced potassium orate to metallic gold in catalytic volume. 1 which prepares the substrate Such a receiver contains reduced palladium and copper. Then, by a compounding procedure, the substrate was saturated with an anhydrous solution of palladium and copper soluble salts, fixed palladium and copper. It is an insoluble compound by reacting with appropriate alkaline compounds, and reducing the insoluble palladium and copper compounds present on the material. Accommodate to stay in 3. The catalyst of claim 2, in which the palladium salt The soluble calcium is sodium tetrachloropallium (II), and the aforementioned soluble copper salt is cupric chloride. 4. Catalyst of claim 1 containing palladium. Approximately 1 to approx. 10 grams, approximately 0.5 to approximately 10 grams of gold, and approximately 0.3 to approximately 5.0 grams of copper per liter of catalyst, with gold content from approximately 10 to approximately 1.25% by weight based on palladium weight. 5. The catalyst of claim 1 that still has a seizure. Isles of alkali methanol acetate 6. Catalyst of claim 5, in which alkali methanol acetate is potassium acetate, which contains approximately 10 nitrates. 7. The catalyst of claim 1, in which the support material (1) was exposed to a solution of potassium orate, and reduced potassium orate to methanol. Gold in the amount that results in Catalyst, and (2) is also in contact with the gold-supported catalyst. Water soluble palladium and copper complexes, (3) bind and reduce palladium complexes. And copper It is the metallic state of those substances. 8. Catalyst of claim 7, which is prepared to accelerate Reaction with sodium-free reagent 9. Catalyst of claim 7, where the catalyst produces a thin shell of Pd, Au and Cu on the surface of the substrate 1 0. The catalyst of claim Article 7 that there is still anchors Calculation of Alkali Methanol Acetate 1 1. Catalyst of claim 1, which was prepared Catalyzed with sodium-free reagent 1 2. Catalyst of claim 1, which was added potassium orate at the same time as potassium acetate 1 3. The catalyst preparation method for quick preparation. By the reaction of ethylene, oxygen and acetyl acid, it is composed of a porous substrate, a porous substrate containing pre-deducted palladium and copper. They were catalyzed, saturated with solutions of potassium orate, and reduced potassium. Orate to Metallic Gold in quantities that yield catalytic effect 1 4. Method of Clause 13 which prepares the substrate as Containing pre-reducing palladium and copper. Then, by the combined process, the substrate was saturated with an anhydrous solution of palladium salts and soluble coppers, fixing the palladium and copper thereof. Is an insoluble compound By reacting with appropriate alkaline compounds, and reducing the insoluble palladium and copper compounds present on Support material placed in Status of the free methanol of those substances 1 5. Method of claim 14 In which dissolved palladium salt Such water is sodium tetrachloropallium (II), and the soluble copper salt is cupric chloride 1 6. Method of claim No. 13 where the porous support material is It is said to contain approximately 1 to approximately 10 grams of palladium, 0.5 to approximately 10 grams of gold, and approximately 0.3 to approximately 5.0 grams of copper per catalyst per liter, with gold content ranging from approximately 10 to approximately 1.25% by weight. Of palladium 1 7. Method of claim 13, which acts as a catalyst It is saturated with a solution of alkali methyl acetate 1 8. Method of claim 17, in which the aforementioned alkali methyl acetate is potassium acetate which binds. On catalyst In the amount of approximately 10 to approximately 70 g / l of the catalyst 1 9. Method of claim 17, which is the addition of potassium orate at the same time as potassium acetate 2 0. Method of claim 13, which Prepare to catalyze With sodium free reagent 2 1. Method of Clause 13 in which the support material (1) is exposed to a solution of potassium orate, and reducing the potassium orate to metallic gold in the resulting quantity in Catalyst (2) was exposed to gold-backed catalyst with soluble palladium and copper complexes (3) binded and reducing palladium complexes. And copper Is the metallic state of those substances 2 2. Method of claim No. 21, which prepares to accelerate the reaction With sodium free reagent 2 3. The method of claim 21 which the catalyst makes A thin shell of Pd, Au, and Cu is formed on the surface of the substrate 2. 4. Method of claim 21 with an alkali methyl acetate binder 2 5. Method of claim 24, in which potassium orate is added at the same time as potassium acetate 2. 6.The method of claim 13, which the catalyst makes Thin shells of Pd, Au and Cu are formed on the surface of the substrate.