TH3891A - Composition of catalysts and their conversion methods for type C3 and C4 hydrocarbons. - Google Patents

Abstract

Various types of elements Of substances containing various oxides Of silicon alumina And / or titanium Which is mixed with different forms of coexistence Of manganese oxide And magnesium oxide, iron oxide And magnesium oxide 3. Calcium oxide, strontium oxide, barium oxide, tin oxide and / or antimony oxide, manganese oxide. And magnesium oxide, and iron oxide, manganese oxide. And magnesium oxide These elements are especially useful as catalysts for the selective conversion of propane and butane to ethylene and ethane, and especially to ethylene. A method for the conversion of propane and butane to less saturated hydrocarbons has also been disclosed. Where the service life of the catalyst is extended and the ability to selectively produce ethylene and ethylene products, especially ethylene, is improved by exposure to the catalyst. That reaction with water vapor in it When the catalyst contains a type of iron oxide and as an option when the catalyst does not contain iron oxide,

Claims (8)

1. A type of catalytic component. Which has been modified to convert hydrocarbon feeders It comprises, at least, one type of C3 and C4 hydrocarbons to be less saturated hydrocarbon products. Where the aforementioned catalyst component, a. It must necessarily contain at least (1) A type of oxides of silicon, aluminum, and titanium, at least one (2) at least one type of oxide of manganese (3), at least one type of oxide of magnesium b. It necessarily contains ( 1) At least one oxides of silicon, aluminum, and at least one titanium (2) at least one oxides of calcium, strontium, barium, tin, and at least antimony. One (3) at least a type of manganese oxide (4), at least a type of magnesium c. It is necessary to contain (1) at least one oxides of silicon, aluminum and titanium. At least one (2) iron oxide, and (3) at least one oxide of magnesium, and d. Necessarily contain (1) at least one oxide, silicon, alumina. At least one (2) num and titanium oxide, at least a type of iron oxide, (3) at least a manganese oxide, and (4) at least a type of magnesium oxide. Assemble one of the catalysts according to claim 1 where the necessary elements contain (1) at least one oxides of silicon, aluminum, and titanium ( 2) at least a type of manganese oxide and (3) at least a type of magnesium oxide 3. a catalytic element according to claim 1, where the catalytic element Necessary, it contains at least one (1) oxides of silicon, aluminum, and at least one (2) titanium oxide of calcium, strontium, barium, At least one (3) tin and antimony oxide, and (4) at least one type of magnesium oxide, 4. One of the catalysts according to claim 3, which consists of at least One of the most oxides of calcium, strontium, or barium 5. A catalyst component according to claim 4, which contains at least one oxides of calcium. 6. A type of catalyst according to claim. Point 1 Where the catalyst component is essential, it contains at least (1) at least one oxides of silicon, aluminum and at least one (2) type of iron oxide. And (3) at least one type of magnesium oxide. 7. A catalyst component according to claim 1, where the catalytic element The necessary components contain (1) at least one oxides of silicon, aluminum and at least one titanium (2), at least one type of iron oxide (3), at least one type of oxide. One of manganese; and (4) at least one type of magnesium oxide. 8. One type of catalyst according to any of the above claims, with at least one type of magnesium oxide in the composition. In large quantities and with other oxides. 9. Composition of one of the catalysts according to one of the above claims, while the other Each is contained in an approximate amount of between 0.1-30%, with the weight expressed in the term of the element relative to the total weight of the element 1 0. One of the above claims, one of the catalytic elements, is: At least one of the alumina oxides 1 1. A method for the conversion of hydrocarbon feeders containing at least one type of C3 and C4 hydrocarbons to less saturated hydrocarbons. Which consists of The exposure of such hydrocarbons to a particular catalyst component (a), which necessarily contains at least one (1) oxides of silicon, aluminum and titanium (2). ) At least a type of manganese oxide, and (3) at least a type of magnesium oxide, (b) essential, containing (1) at least a type of oxide of silicon, aluminum and at least titanium. At least one (2) at least one of the oxides of calcium, strontium, barium tin and at least one (3) antimony, at least one type of manganese oxide, and (4) at least. One of the most important oxides of magnesium (c) is necessarily composed of (1) at least one oxides of silicon, aluminum and at least one (2) of titanium. And (3) at least one type of oxide of magnesium, or (d), is necessarily composed of (1) at least one oxide of silicon, aluminum and titanium (2). (3) at least a type of manganese oxide and (4) at least a type of magnesium oxide under various conditions. This includes the presence of water vapor with the catalyst components (c) and (d) sufficient for the conversion of such hydrocarbons to less saturated hydrocarbon products 1. 2. One of the claims. Article 11 Where necessary the catalyst component contains at least (1) at least one oxide of silicon, aluminum and at least one (2) of manganese oxide. And (3) at least one oxide of magnesium 1 3. One of the methods pursuant to claim 11, where necessary, the catalytic component contains (1) at least one oxide of silicon, a At least one (2) of luminum and titanium, at least one type of oxides of calcium, strontium, barium, tin, and at least one (3) antimony of manganese. And (4) at least one type of magnesium oxide 1 4. One method of claim 13, where the catalyst component contains at least one type of calcium oxide. Sium, strontium or barium 1 5. One method according to claim 14, where the constituents for the reaction consist of at least one type of calcium oxide 1 6. One method according to claim 11. Where the catalyst component is required to contain at least (1) at least one oxides of silicon, aluminum and at least one titanium, (2) at least one type of iron oxide, and (3) ) At least one oxide of magnesium 1. 7. One of the methods according to claim 11, where necessary, the catalytic component contains (1) at least one oxide of silicon, aluminum. (2) at least one type of iron oxide, (3) at least a type of manganese oxide, and (4) at least one type of magnesium oxide. 8. One of the following methods. Holds no. 11-14, where at least there is a large amount of magnesium in the composition And the rest of the oxides 1 9. Method for claim 18 where each of those residual oxides is approximately in quantity between 0.1-30% by weight Expressed in the term of the element with respect to the total weight of the element 2 0. Method of claim 11-19. Where the catalyst component contains at least one type of alumina2 oxide. 1. Method according to Clause 11-20, any one Where the reaction temperature was maintained between approximately 550-850 degrees C 2. 2. Method according to Clause 11-21, any one Where the contact is carried out with the presence of water vapor And the mole ratio of water vapor / hydrocarbon feeders is approximately 0.11 to 10/1 2. 3. Method according to Clause 11-22, any one Where the sulfur content in the catalyst component is approximately less than 0.2% by weight expressed in the sulfur term relative to the total weight of the catalyst 2. 4. Method according to Clause 11-23, any one Where the hydrocarbon feeder contains propane 2 5. Any one of Claim 11-23 where the hydrocarbon feeder contains butane 2. 6. Procedures according to Clause 11-23, any one Where hydrocarbon feeders are composed of a mixture of propane and butane2 7. Any one of Claims 11-26 where conditions of those reactions are sufficient to selectively convert those hydrocarbon feeders to ethylene and ethane 2. 8. One of the methods pursuant to claim 27, provided that the conditions of those reactions are sufficient to selectively convert those hydrocarbon feeders to ethylene.