TH3892A - Dehydrogenation and care for hydrocarbons type C3 and C4 - Google Patents

Abstract

New elements of the substance include at least one type of chromium oxide, at least one type of manganese oxide. And at least one type of oxide of magnesium, the oxide in the series of lanthanum, which is ideally lanthanum and cerium and / or niobium B. at least one type of chromium oxide. At least one type of oxide of calcium, strontium, tin, and / or antimony. At least a type of manganese oxide and at least a type of oxide of magnesium, a metal in the series of lanthanum or / or niobium C. At least a type of chromium oxide. At least one type of iron oxide. And at the very least, one kind of magnesium oxide. Metal in Lanthanum's derivatives And / or niobium, and d. At least a type of chromium oxide At least one type of iron oxide. At least one type of manganese oxide. And at the very least, one kind of magnesium oxide. Metals in the series of lanthanum and / or niobium. These elements are particularly effective as catalysts for the conversion of C3 and C4 hydrocarbons to less saturated hydrocarbons. They have the ability to select ethylene and ethylene products, especially ethylene. And the addition of chromium significantly increases the catalyst sensitivity for such selective conversion before regeneration is required. One method of conversion has been disclosed. Hydrocarbons types C3 and C4 to hydrocarbons. Less saturated And produce ethylene and ethane Especially selective ethylene When the catalyst contains iron, this process needs to be performed with the presence of water vapor. But when there is no iron included with this process, there may be steam. Limiting the amount of bound or plant sulfur in the catalyst also improves the catalyst.

Claims (9)

1. A method for converting hydrocarbon feeders containing at least one type of hydrocarbon type C3 and C4 to less saturated hydrocarbons consisting of: Exposure to such hydrocarbon feeders with selected catalyst components from a group consisting of (a) catalysts, comprising approximately 0.1 to 30% by weight of each of at least (1) type oxides. One of chromium (2), at least one type of manganese oxide. And the remainder to 100% by weight belongs to at least a type of oxide of magnesium (b) a catalyst comprising approximately 0.1 to 30% by weight of each of (1) at least a type of oxide. One of chromium and (2) at least one type of manganese oxide. And the remainder to 100% by weight belongs to at least (3) one type of oxide of the selected metal from a group consisting of at least one of the metals in the lanthanum and niobium series (c). The reactions constituted is significant with approximately 0.1 to 30% by weight of each itself (1), at least one type of chromium oxide (2), at least one type of metal oxide selected from the group containing calcium, stron. At least one sium, barium, tin, and bunch, and (3) at least one type of manganese oxide. And the remainder until 100% by weight belongs to (4) at least a type of oxide of magnesium (d) a catalyst consisting of approximately 0.1 to 30% by weight of each itself (1) at least oxide. One type of chromium (2), at least one type of oxide of the selected metal, comes from at least one group of calcium, stromium, barium, tin and antimony; and (3) at least one type of oxide of manganese And the remainder to 100% by weight is at least (4) of the metal oxide, chosen from the group consisting of metals in the santanum series. And Nobia, where the% by weight is in the elemental term compared to the total weight of the catalyst. These hydrocarbon feeders are under sufficient conditions to convert those hydrocarbon feeders into less saturated hydrocarbon products. 2. Method according to claim 1, where the catalyst component contains (1) at least one type of chromium oxide, (2) at least one manganese oxide, and (3) at least one type of oxide. One of the metals selected from the group consisting of metals in the lanthanum nuclei "aluminum. At least 3. Method according to claim 1, where the catalyst compound contains (1) at least a type of chromium oxide, (2) at least one type of metal oxide selected from the calcium-containing group, At least one (3) strontium, barium, tin, and antimony, at least one type of manganese oxide, and (4) at least one type of oxide of the selected metal from the group consisting of metals in the Lantha series. Nam And at least one niobium 4. Method for claim No. 1, where the hydrocarbon feeder contains propane. 5. Method according to claim 1, where the hydrocarbon feeder contains butane. 6.Method of claim 1, where hydrocarbon feeders contain propane and butane mixtures. 7. Method according to claim No. 1, where various conditions Sufficient to convert selective hydrocarbon feeders into ethylene and ethane. 8. Method according to Clause 7, where various conditions Sufficient to convert selective hydrocarbon feed to ethylene. 9. Claim Method 1, where at least one metal selected from a group consisting of metals in the lanthanum and niobium series is at least one metal selected from the metallic group. In the series of lanthanum 1 0. Clause 9 Clause 9 where at least one metal selected from the metal-containing group of the lanthanum is at least one metal selected from the lanthanum group. And cerium 1 1. Method according to claim 1, where the components of the catalyst are necessary (1) at least one type of chromium oxide, (2) at least one type of manganese oxide, and (3). A minimal type of oxide of magnesium 1. 2. Method according to claim 1, where the components of the catalyst are also necessary (1) at least one type of chromium oxide (2), at least one type of metal oxide of the selected type. From the group consisting of calcium, strontium, barium tin, and antimony (3), at least a type of manganese oxide, and (4) at least one type of magnesium oxide. 3. Method according to claim 1, where the temperature is maintained between approximately 550 degrees C and approximately 850 degrees C 1. 4. Method according to claim 1, where method is performed in the presence of water vapor / hydrocarbon feeder ratios between approx. 0.1 / 1 and approx. 10/1 1. 5. Method according to claim 1, where the sulfur content of the catalyst component is less than 0.2% by weight expressed in the sulfur term relative to the total weight of the catalyst 1. 6. The conversion method converts hydrocarbon feeders containing at least one hydrocarbon type C3 and C4 to less saturated hydrocarbons consisting of: Exposure to such hydrocarbon media In the presence of water vapor with the selected catalyst component from the group containing (a) the catalyst component comprising at least 0.1 to 30% by weight of each of (1), at least the oxide type. One of chromium, and (2) at least a type of iron oxide, and a fraction of 100% by weight, belong to (3) at least a type of magnesium oxide (b). 0.1 to 30% by weight of each of (1) at least one type of chromium oxide and (2) at least one type of iron oxide. And the remainder of (3), at least one type of metal oxide, selected from a group consisting of metals in the series of lanthanum and niobium (c). It comprises approximately 0.1 to 30% by weight of at least one type of chromium oxide, (2) at least a type of iron oxide, and (3) at least one type of manganese oxide. And the remainder until 100% by weight is of (4) at least a type of oxide of magnesium (d) components of the catalyst. It consists of approximately 0.1 to 30% by weight of each itself, (1) at least a type of chromium oxide, (2) at least a type of iron, and (3) at least a type of manganese. And the remainder to 100% by weight belongs to (4) at least one type of metal oxide, at least one selected from a group consisting of approximately 0.1 to 30% of lanthanum and niobium metals, with The weight of the substance in each of them, where% by the above weights is expressed in the term of the element relative to the total weight of the catalyst. Under sufficient conditions to convert such hydrocarbons to less saturated hydrocarbons 1 7. Method according to claim 16, where the components of the catalyst are necessary (1) at least one type of chromium oxide (2), at least one type of iron oxide (3). The most oxides and manganese; and (4) at least one type of magnesium oxide. 8. Method according to claim 16, where the catalyst component contains (1) at least one type of chromium oxide, (2) at least one type of iron oxide, and (3) at least one type of iron oxide. One of at least one metal, selected from a group of metals in the series of lanthanum and niobium. 9.Method of claim 16, where hydrocarbon feeders contain propane 2. 0. Method according to claim 16, where hydrocarbon feeders contain butane 2. 1. Method according to claim 16, where hydrocarbon feeders contain a mixture of propane and butane 2. 2. Method according to Clause 16, where various conditions Sufficient to convert selective hydrocarbon feeders to ethylene and ethane 2. 3. Method according to Clause 22, where various conditions Sufficient to convert selective hydrocarbon feed to ethylene 2 4. Clause 16, where at least one metal selected from a group consisting of metals in the lanthanum and niobium series is at least one metal selected from the group containing metals in Lanthanum's serial 2 5. Method according to claim 24, where at least one metal selected from the metal-containing group of the lanthanum is at least one metal selected from the lanthanum group. And Thiriam 2 6. Method according to claim 16, where the components of the catalyst consist of (1) at least one type of chromium oxide, (2) at least one type of iron oxide, and (3) at least. Magnesium Oxide 2 7. Method according to claim 16, where the catalyst component contains at least (1) at least one type of chromium oxide (2), at least one type of iron oxide (3), one type of oxide. Of manganese and (4) at least one type of metal oxide, selected from a group of metals in the lanthanum and niobium series 2. 8. Method according to claim 16, where the temperature is maintained between approximately 550 degrees C and approximately 850 degrees C 2. 9. Method according to claim 16, where the water vapor / hydrocarbon ratios are maintained between approximately 0.1 / 1 and 10/1 3. 0. Method according to claim 16, where the sulfur content of the catalyst component is approximately 0.2% lower by weight expressed in the sulfur term compared to the total weight of the catalyst.