TH22245C3 - How to prepare for vinyl acetate catalyst? - Google Patents

Abstract

DC60 (17/05/42) method, which is supplied to produce palladium-gold catalyst by separate saturation and The fixation of palladium and gold and the reduction of the frozen solid is free metal on a substrate that It is useful for the production of vinyl acetate from ethylene and acetic acid. Method, which is supplied to produce the palladium-gold catalyst by separate saturation and The fixation of palladium and gold and the reduction of the frozen solid is free metal on a substrate that It is useful for the production of vinyl acetate from ethylene and acetic acid.

Claims (4)

1. Method for preparing a catalyst containing a porous backing containing metal palladium and gold. On them, consisting of: impregnating the substrate with a compound that Water solubility of such precious metals, the conversion of absorbable precious metal compounds. It is an insoluble precious metal compound by contact with the saturated substrate, in the process of fixation with a solution containing an active compound with such a water-soluble precious metal compound to precipitate on the non Dissolve the water that supports it And compound reduction Such insoluble precious metals with a reducer form free precious metals on the substrate, characterized by a sequence of (1) exposure to one of the substrate. That dissolves the water. Of such precious metals To saturate the dissolved compounds on The substrate, (2) the conversion of such dissolved precious metal compounds into solid metal compounds. Insoluble values by contact with such saturated substrate in the first fixation phase to the substance. Dissolves containing compounds That are agile with such soluble compounds To precipitate on the compound Such insoluble precious metals As a supporting agent, (3) exposure to saturated supports. The second type of the precious metal is to saturate the dissolved compound on the substrate, (4). The second water soluble of such precious metals is insoluble precious metal compounds. Exposed to the said saturated substrate In the second fixation stage with the second solution containing the It is active with the aforementioned second soluble compounds. To precipitate on the compound The second type of insoluble precious metal is such a support. And after (5) the reduction of the precious metal compound The insoluble compounds are free precious metals on the substrate. 2. Method of claim 1, wherein the active compound at each fixation stage first. And the second is the alkaline compound 3. Method of claim 2, in which the alkaline compound consists of Potassium or sodium hydroxide 4. Metal of claim 1, where the volume of the aforementioned active solution in contact with the receptacle That saturated In the process of fixing the first such place Equal to the dry absorption of the substrate 5. Method of claim 1, in which the volume of the aqueous solution in contact with the substrate is saturated. As mentioned in the first such fixation process 6. Method of claim 1, where the volume of the agile solution was in contact with the substrate. In the second fixation stage thereof Equal to the dry absorption of the substrate. 7. Method of claim 1, in which the volume of the aforementioned resonant comes into contact with the substrate. Saturated it in the aforementioned second fixation step. Which is sufficient to soak the substrate. 8. Method of claim 5, in which the first step of fixing is This is done by the circulating dip method. 9. Method of claim 8, in which the precious metal was initially exposed to the substrate. And taken to the step The first fixation is Pd 1 0. The claim 1 method has a specific step: (1) the contact of the soluble Pd solution with the pore support to saturate the dissolved Pd on the substrate. that; (2) The conversion of such soluble Pd metal compounds into insoluble Pd compounds. By touching the Pd compound and the substrate in the first fixation step. Alkaline compounds Where the substrate, immersed in the alkaline compound and flipped back and forth, at least during the initial precipitation of the insoluble Pd compound; (3) The exposure of the substrate is first saturated and then immobilized. With a dissolved Au metal compound to dissolve Au that water is saturated on that substrate; (4) The conversion of such water-soluble Au metal compounds into insoluble Au compounds by contact with the Au compound and the substrate in the second fixation stage with the substance. Alkaline assembly Which supports and alkaline compounds Which is exposed by the initial moisture; And, (5) Reduction of metal compounds Pd and Au, with a redox, are formed as free metals Pd and Au on that substrate 1. 1. Method of claim 1, which has specific steps: (1) the contact of a solution of soluble Pd with a porous backing to saturate the dissolved Pd on the substrate; (2) the replacement of such dissolved Pd metal compounds. It is insoluble Pd compound by first exposure to that Pd compound and its support at the fixation stage. Alkaline compounds Where the substrate, immersed in the alkaline compound and flipped back and forth, at least during the initial precipitation of the insoluble Pd compound; (3) The exposure of the substrate is first saturated and then immobilized. With a water-soluble Au metal compound and an alkaline compound to saturate the dissolved Au on that substrate and at the same time induce a second fixation stage (4); And (5) Reduction of metal compounds Pd and Au, with reductors, are formed as free metals Pd and Au on that substrate 1. 2. Method according to claim 1 to 11, any one Which the reducer is Gas Reducer 1 3. Method according to the claim 1 to 12, any one In which the above receptors are in contact with one substance As said of the aforementioned water-soluble compounds in procedure (1), without soluble compounds. The second kind is with 1. 4. Any method of claim 1 to 12 In which the above receptors are in contact with one substance As said of the aforementioned water-soluble compounds in procedure (1), without soluble compounds. The second kind is also And next to which the substrate saturates And then immobilized in contact with the compound The second type of soluble compound, according to procedure (3), does not contain one substance of the soluble compound. Such as