TH22499C3 - Transformation using halidade, zeolite, coherent catalyst. - Google Patents

Abstract

DC60 catalyst conversion process Contains changes using catalyst. Of hydrocarbons to be aeromatic, the method consists of action against halidade zeolite catalist (Hiz-Cat) with group VIII metal at commercially available starting conditions. And then do Hydrocarbon transitions The catalist was prepared by clearing the zeolite, the cohesive catalist base, or the coiled catalist zeolite before adding the halides. A suitable type of Hiz-Cat is Pt K L-zeolite, non-azidic catalist. It was prepared by a process consisting of steps including the preparation of K L-zeolite, catalist base, silica-binding. And was calsine; Washing of the binding zeolite catalyst base mentioned with aqueous liquid; And the separation of Pt and halogen-containing compounds, consisting of chlorine and fluorine, are combined with catalysts. Such washed bases, ammonium chloride and ammonium Fluoride is a suitable source of halides. Method for changing the condition with catalyst Contains changes using catalyst. Of hydrocarbons as aromatic, the process consists of action against helite zeolite catalist (Hiz-Cat) with group VIII metal at commercially available precursor conditions. And then do Hydrocarbon transitions The catalist was prepared by washing the zeolite, the cohesive catalist base, or the coagulated zeolite catalist before the addition of the helite. A suitable type of Hiz-Cat is Pt K L-zeolite, non-azidic catalist. It was prepared by a process consisting of steps: preparation of KL-zeolite, catalist base, silica-bonded binding. And was calsine; Detergent zeolite catalyst base mentioned with aqueous liquid, and the purification of Pt and halogen-containing compounds containing chlorine and fluorine are combined with catalyst. Such washed bases, ammonium chloride and ammonium Fluoride is a suitable source of halides.

Claims (7)

1. The process of transforming using catalyst, including transformation Hydrocarbons to be aromatic Using catalysts, the processes discussed include Acts on halidead zeolite catalysts containing group VIII metals at the initial state in a commercial setting and then by hydrocarbon transformations, for which the catalist mentioned was prepared by washing zeolite kata. Bounded list base or zeolite coagulated catalist before adding halide 2. Transformation process by using catalist according to claim 1, which helites Halidade zeolite catalist consists of both chloride and fluoride 3. Catalytic conversion process according to claim 1, which halidead zeolite catalist at Mention includes halidade platinum L-zeolite catalyst 4. Catalytic conversion process according to claim 2 using ammonium. Halide in the preparation of halid, zeolite catalist 5. Transition process by using catalist according to claim 1, which catalist mentioned It was prepared by processes which included agglutination, compaction, calcining, and flushing of the bonded catalist base before the helite was added. 6. The transformation process using katas. List of claim 1, which the catalyst mentioned This was done by a method which includes the following steps: a) Preparation of zeolite, catalyst base, silica binding. And was calsine; b) washing of such binding zeolite catalist bases with a liquid containing water; And c) purification of compounds containing group VIII and halogens containing chlorine and Fluorine is combined with such washed bases. To produce halid-zeolite catalist 7. Transition process by catalist according to claim 6, which catalist base mentioned To be prepared by compression molding, which uses compression aids in the process (a), and also includes calcine. The bases were washed according to the procedure (b) prior to the integration with the halogen-containing compound. 8. Catalytic conversion process according to claim 5,6 or 7, which helite zeolite Listed talents are composed of halidade platinum L-zeolite catalist 9. Transfiguration method using catalist according to claim 8 which is halidade zeolite catalist. The aforementioned was prepared using ammonium chloride and fluoride 1 0. Catalytic conversion process according to claim 1. Combined by making hydrocarbon currents less than 50 ppb of sulfur in contact with halidec zeolite catalyst 1 1. A catalyst transformation process according to claim 1, where currents containing at least C6 and C7 hydrocarbons containing sulfur less than 50ppb are exposed to Pt K L-zeolite, non-ferrous catalyst. - azidic chlorides And fluoride, the catalyst mentioned was Wash with water before adding halide 1. 2. A process for producing aromatic, consisting of the preparation of halid, zeolite catalist, by washing the binding zeolite catalist base that was calyzed with a liquid that Assembled with water; Adding at least one halogen-containing compound And compounds of group VIII metals into the washed bases; Bringing the catalist mentioned into the stream using the initial state in Commercial model; And exposing the catalist to paraffinics Hydrocarbon conditions Transition with catalyst To achieve an aromatic 1 3.Process according to claim 12 in which the catalyst contains both chloride and fluoride, and zeolite is L-zeolite 1. 4. The hydrocarbon conversion process that consists of alteration using Catalyst of hydrocarbon-containing feed materials To a product under a replacement condition which includes Initialization of the catalyst at a GHSV composite gas flow rate between 400 and 2000 per hour and a heating rate of between 5 and 50 ํ per hour during reduction. Of the catalist approximately 500 ° F, the method mentioned using the halidade zeolite catalist with group VIII metal, the haloded catalist mentioned was prepared by the Including cleaning zeolite catalyst base or stick catalist before adding halide 1 5. Hydrocarbon conversion process according to claim 14, in which the halides of the halidade, zeolite catalist include both chloride and fluoride 1. 6. Hydrocarbon conversion process according to claim 14, in which the halidade, zeolite, catalyst mentioned was prepared using ammonium. Chloride and Fluoride 1 7. Hydrocarbon replacement process according to claim 14, which the gas flow rate It consists of GHSV between 600 and 1500 / h and the heat increase rate is between 10 and 25 ํ per hour during a higher catalyst reproduction of about 500 ํ.