TH3101B - Solid contact mixture, useful for use in oxidizing organic compounds conversion processes. - Google Patents

Abstract

A solid mixtures containing the essentials are Sodium thassium, group IA and group IIA metals, titanium, oxygen and at least one halogen and tin may be chosen, of which at least one sodium, potassium, group IA or group IIA metal will There is too much of the amount contained in the neutral electrical compound containing the metal, titanium and oxygen. The above mixtures are particularly useful as solid contact materials for the conversion of oxidizing precursor organic compounds into organic compound products, especially where gases contain Oxygen is finished with that. Which method for That change was also disclosed. The preferred method for methane conversion is that natural gas is oxidized to a larger hydrogen carbon, especially ethylene and ethane, which has been disclosed, which causes Methanes and gases containing free oxygen are exposed to group IA metals, group IIA or group IA metals, and group IIA metals, titanium, oxygen, and may choose to use halogens and / or tin.

Claims (3)

1. Mixture of solid material selected from a group containing: (a) Mixture containing the essential is: (1) At least one group IA metal, which is sodium. Or potassium, (2) titanium, (3) oxygen, and (4) may select at least one material, the halogen ion, at least one group IA metal, contained in excess of sufficient quantity. Any Present in compounds with neutral electrical conditions It consists of at least one group IA metal, titanium and such oxygen, (b) the essential constituents are: (1) at least one group IIA metal (2) titanium (3) oxygen and may be selective. Use (4) At least one material, a halogen ion, tin or tin containing compound, at least one of the group IIA metals, will be present in excess of any quantity present in the compound. There is an electrical neutral consisting of at least one group IIA metal, such titanium and oxygen, or (c) an alloy containing essentials: (1) at least one group IA metal, (2) metal. At least one type IIA, (3) titanium, (4) oxygen and (5) may be chosen (5) material which is the halogen ion, the substance contains the halogen ion, tin or tin doped compound, at least One or more of the Group IA metals and at least one of the Group IIA metals are present in excess of any quantity in a neutral conductive compound containing metals. swine At least one such IA, titanium and oxygen thereof, and group metal At least one such type of IIA, titanium and oxygen. 2. Mixture according to claim 1, in which the solid material mixtures are necessary are: (1) at least one group IA metal selected from the sodium and potassium group, (2) titanium, (3) Oxygen and may select, (4) At least one material selected from among containing halogen ions, halogen ion compounds, tin and tin-containing compounds of at least one group IA metal will be present in An excessive amount of any volume Contained in neutral compounds of one or more group IA metals, such titanium and oxygen. 3. Mixture according to claim 2, in which one or more metals are selected from the sodium and potassium-containing groups, mainly in the form of compounds selected from the groups containing oxides and carbons of metals. Such 4. Compound according to claim 1, in which the mixture of such solid material is a compound containing the necessary: (1) at least one group IIA metal, (2) titanium, (3) oxygen. And may choose at least one material chosen from among containing halogen ions, halogen-containing compounds, tin and tin-containing compounds, at least one of these group IIA metals will be present in large quantities. More than enough of any quantity Contains in an electrically neutral compound of at least one group IIA metal, such titanium and oxygen. 5. Mixture according to claim 4, where most group IIA metals are in the form of compounds selected from the group containing oxides and carbons of such metals. 6. Mixture according to claim 4, where group IIA metals are selected from among those containing magnesium, calcium, strontium and barium 7. Mixture according to claim 1, which is a mixture of such solid materials. Is an alloy containing the essentials: (1) at least one group IA metal, (2) at least one group IIA metal, (3) titanium, (4) oxygen, and (5) at least one material that Select from among containing halogen ions, halogen ions, tin and tin-containing compounds of one or more group IA metals, and at least one of the group IIA metals. An excessive amount of any volume There is an electrical neutral compound of one or more group IA metals, such titanium and oxygen and group IIA metals, such titanium and oxygen. 8. Mixture according to claim 7, where at least one group IA metal is a metal chosen from the category containing lithium, sodium and potassium. 9. Mixture according to claim 7, where most IA metals are in the form of compounds selected from the group containing oxides and carbons of the said metal 1 0. Mixture according to clause IA. Clause 7 is held in which category IIA metals are selected metals from the category containing magnesium, calcium, strontium and barium 1 1. Mixture according to claim 1, of which the mixture is made by: (a) Combination of group IA metal compounds, group IIA metals, titanium as required by selecting mixtures and in the presence of halogen ions and tin; And (b) the calcination of the combined compounds with free oxygen-containing gases 1 2. Mixture according to claim 11, in which the composite compound of group IA, group IIA and titanium alloy is Slurry in water 1 3. Mixture according to claim 11 in which compounds of sodium, potassium, group IA metals, group IIA metals, titanium alloys, in the presence of halogen Ions and tin, most of which are in the form of one or more compounds chosen from among those containing carbonate, hydroxide, nitrate, titanate, octoate and hali. 1 4. The solid contact material is adapted to convert oxidizing feed-fed organic compounds into product organic compounds, chosen from a group consisting of: (a) contact materials containing the essentials of: (1) At least one group IA metal selected from a group containing sodium and potassium (2) titanium, (3) oxygen and may be selected, (4) at least one material selected from among the halogen ions, Contains halogen ions, tin and tin-containing compounds, one or more group IA metals present in excess of any quantity. In an electrically neutral compound of at least one group IA metal, such titanium and oxygen (b) Contact material containing the essentials of: (1) at least one group IIA metal, (2) titanium, (3) oxygen, and (4) at least one material selected from the halo group. Gen ions, halogen-containing compounds, tin and tin-containing compounds, one or more of the class IIA metals are present in excess of any quantity. Contained in neutral compounds of at least one group IIA metal. Such titanium and oxygen; And (c) contact material containing the essentials of: (1) at least one group IA metal, (2) at least one group IIA metal, (3) titanium, (4) oxygen, and (5) one or more group IA material. Selected from among containing halogen ions, halogen-containing compounds, tin and tin-containing compounds of at least one of the group IA metals and at least one of the group IIA metals. Shall be in excess of any quantity contained in an electrically neutral compound of one or more group IA metals, such titanium and at least one of the oxygen and group IIA metals, Such titanium and oxygen, their constituents, are contained in quantities and ratios for the conversion of the organic compounds used by such feeders by oxidizing them to the organic compound products. Clause 14 in which the contact material is adjusted to convert the feed organic compound into an organic compound product with free oxygen gas 1 6. Mixture according to claim 1, which the mixture request A solid material is a mixture containing the essentials of: (1) at least one group IA metal selected from a group containing sodium and potassium, (2) titanium, (3) oxygen, (4) at least one material. Species selected from among the halogen ions, halogen-containing compounds, tin and tin-containing compounds, one or more group IA metals will be present in excess of any quantity contained in Conductive neutral compounds of one or more group IA metals, such titanium and oxygen 1. 7. Mixture according to claim 1, in which a mixture of solid material is a mixture containing essential elements of : (1) at least one group IIA metal, (2) titanium, (3) oxygen, and (4) at least one material selected from among containing halogen ions, halogen-containing compounds, tin and containing compounds. Tin, one or more of the IIA group metals, would be present in excess of any quantity. Contained in neutral compounds of group metals At least one of the aforementioned IIA, such titanium and oxygen 1 8. Method for converting methane to higher carbon hydrogen by oxidizing, consisting of The exposure of the substrate consisting of methane and free oxygen-containing gas to this contact material is a solid of choice from among containing (a) Essential-containing contact material is (1) at least one group IA metal, (2) titanium and (3) oxygen, (b) essential-containing contact material is (1) at least one group IIA metal, (2) titanium and (3) oxygen; (c) contact material containing essentials: (1) at least one group IA metal, (2) at least one group IIA metal, (3) titanium and oxygen, (d) material. The senses containing the essentials are (1) at least one group IA metal, (2) titanium, (3) oxygen, and (4) at least one metal selected from among the halogen ions and halogen-containing compounds. The ionic ion, (e) the essential-containing contact material is (1) at least one group IIA metal, (2) titanium, (3) oxygen, and (4) at least one material selected from among the halogen ions. And compounds containing halogen ions and (f) the contact materials containing essentials are (1) at least one group IA metal, (2) at least one group IIA metal, (3) titanium, (4) oxygen, and (5). At least one material selected from the group containing the halogen ions Each compound containing halogen In the oxidizing transition conditions sufficient to convert the said methane to higher hydrocarbons, 9. Method of claim 18 in which the solid contact material is a contact material containing essential. Is (1) at least one group IA metal, (2) titanium, (3) oxygen, and (4) at least one material selected from among the halogen ions and compounds containing the halogen ions 2 0. Holds Article 19 where at least one group IA metal is a metal selected from the group containing lithium. Sodium and Potassium 2 1. Method according to claim 19 in which at least one group IA metal is contained in sufficient quantities in at least one of the group IA metal compounds, such titanium. And that oxygen with a neutral electrical state contained in any quantity 2. 2. Method according to claim 18, in which the solid contact material is a contact material containing at least one essential group IIA metal (1). Type (2) titanium, (3) oxygen, and (4) one or more materials selected from among containing halogen ions and compounds containing halogen ions 2. 3. Method according to claim 22, where at least IIA metal group. One of them is a metal selected from the group containing magnesium, calcium strontium and barium 2 4. Method according to claim 22, where at least one group IIA metal is contained in excess of sufficient quantities in the compound. Of at least one of the group IIA metals, the titanium and the neutral electrical oxygen contained in any quantity 2 5. Method of claim 18 where the solid contact material is material. A contact containing essentials (1) at least one group IA metal, (2) at least one group IIA metal, (3) titanium, (4) oxygen, and (5) at least one material selected from the halogen group. Ions and compounds Hob containing halogen ions 2. 6. Method according to claim 18 where at least one group IA metal is Metals selected from groups containing lithium, sodium and potassium 2. 7. Method according to claim 25 where group IIA metals are metals selected from groups containing magnesium, calcium, strontium and barium. Claim 25, in which at least one of the group IA metals and at least one group IIA is contained in excess of enough in at least one of the group IA metal compounds. Such titanium and at least one group of oxygen and group IIA metals. Such titanium and oxygen at a neutral electrical state in which any quantity exists. 2. Method of claim 18, where the solid contact material is a contact material containing essential (1) group IA metals. At least one type (2) titanium and (3) oxygen 3 0. Method according to claim 29, where at least one group IA metal is a metal selected from a group containing titanium, sodium and potassium. Holds Article 29 in which at least one group IA metal is contained in excess of sufficient quantities in at least one group IA metal compound. Such titanium and that oxygen, at a neutral electrical state, are present in any quantity. 3 2. Method of claim 18 in which the solid contact material is a contact material containing essential (1) group IIA metals. At least one type (2) titanium and (3) oxygen 3. 3. Method according to claim 32, where at least one group IIA metal is a metal selected from the group containing magnesium, calcium, stonsium and Barium 3 4. Method according to claim 32, where at least one group IIA metal is contained in excess of sufficient quantities in at least one group IIA metal compound. Such titanium 3 5. Method of claim 18 in which the solid contact material is a contact material containing at least one essential (1) group IA metal. Type (2) at least one Category IIA metal, (3) titanium, and (4) oxygen 3 6. Method according to claim 35 where at least one group IA metal is a metal selected from the group containing lithium, sodium. And potassium 3. 7. Method according to claim 35, where group IIA metals are metals selected from groups containing magnesium, calcium, strontium and barium 3. 8. Method according to claim 35. At least one type and at least one group IIA metal is present in excess of sufficient amounts in at least one group IIA metal compound. Titanium and oxygen and at least one of the group IIA metals. Such titanium and the oxygen at a neutral electrical state present in any quantity 3. 9. Method of claim 35, where the source gas contains natural gas methane 4 0. Clause 18 in which the volume ratio of methane to free oxygen is at least 1/1 4. 1. Method according to claim 18 in which the volumetric ratio of methane to free oxygen is between approximately 1/1 and approximately 30/1 4. 2. Method according to claim 18 in which the exposure temperature is at least approximately 500 cc 4. 3. Method according to claim 18, in which the exposure temperature is between approximately 500 c and approximately 1500 c.