TH403B - Molecular cutting process using hydrogen - Google Patents

Abstract

Methods for cutting molecules have been revealed. By using hydrogen that can be used with polynuclear aromatic hydrocarbon raw materials that are easily formed. without causing the process unit to have too much contaminants. This hydrogen-assisted molecular cutting method includes contacting a hydrocarbon feedstock with a molecular cutting catalyst. that uses hydrogen, which is zeolite hydrolysis of oil Unreactive carbon changes in results. which contains polynuclear aromatic substances At least part of it is exposed to selective adsorbents, but only polynuclear aromatics and the introduction of unreactive hydrocarbon oils. The polynuclear aromatic substances in low concentrations are fed back into the molecular cutting zone using hydrogen.

Claims (8)

1. Molecular cutting process by using hydrogen type with catalyst. It consists of (a) contact between hydrocarbon-type feedstocks that easily form aromatic polyonuclear (PNA) in the hydrogen dissociation reaction zone. Where there is hydrogen added and a molecular cut catalyst by crystalline hydrogen zeolite that has been promoted with metal catalysis. The exposure was carried out to a sufficiently high temperature and pressure to be transformed into a product of moderately low boiling point (b) the hydrocarbon exiting from the hydrocarbon chopping reaction zone. condensed And separate the condensed fraction into a product that is low boiling point hydrocarbons. And unchanged hydrocarbon oils It has a high boiling point of approximately (650 ° F) 340 ° C and contains a small amount of aromatic polyonuclear (c) exposure of at least one such unchanged hydrocarbon oil at Contains aromatic polynuclear with sorbents, which are selective to contain such polynuclear aromas, and (d) the introduction of unmodified hydrocarbon oils containing polyonuclear concentrations. The molecules are reduced from the (C) step and fed back into the molecular cut reaction zone by hydrogen. 2. The process of claim 1 in which raw materials are fed hydrocarbon type. Contains vacuums oil, gas 3.Procedure of claim 1, where the pressure of the hydrogen cutting reaction zone is approximately 1000 to approximately 3000 psig (6900 to approximately 20,700 KPA). 4. The process of claim 1, in which the temperature of the hydrogen cutting reaction zone is maintained. It ranges from approximately (500 degrees F) to approximately 775 degrees F) 260 degrees Celsius to about 413 degrees Celsius. 5. Process of claim No. 1, where a crystalline zeolite-type hydrogen molecule cutting catalyst has been promoted with a metal catalyst. Contains synthetic faqesite. 6. The process of claim No. 1 in which the catalyst for cutting hydrogen molecules is a crystalline zeile. That has been promoted with metal catalysis. There are nickel and tungsten as elements. 7. The process of claim No. 1, in which the adsorbent is silicagel, activated charcoal. Activated alumina hypoallergenic Silica-Alumina Gel, Molecular Clay Cipe Or a mixture of these substances 8. Claim No. 1 movement where there is exposure between these untreated hydrocarbons. And contains aromatic polynuclear substances with such adsorbents In places including pressures ranging from approximately 25 to approximately 500 psig (170 to approximately 3450 KPA), temperatures from approximately (100 to 500 Fahrenheit) 38 to approximately 260 ° C, and the velocity of the fluid flowing. Through gaps per hour ranging from about 0.5 to about 400