TH16729B - Procedures for elimination of selective mercury and arsenic from hydrocarbons. - Google Patents

Abstract

A method for elimination of selective mercury and arsenic from hydrocarbons in mercury-containing compounds converted to mercury. Which divides the input section into sections And bring the part that has a lot of mercury Let's purify by touching the mercury collecting mass.

Claims (3)

1. Procedures for removing mercury from hydrocarbon feeders. Characteristic Only that the process contains a step for mercury conversion is contained in the feed element. Then to the element mercury In which the substance that flows from the aforementioned transformations is divided into sections To get samples Two least parts with different amounts of mercury. The share has an initial boiling point of less than 180 ํ and a higher than the maximum permissible mercury content. The other share is not necessary to act on the mercury aggregate mass. 2. The process according to claim 1, which makes it unique in that the conversion process takes place between 120 and 400 ํ and under pressure from 1 to 60 bar. Above that Which makes it unique in that the The transformation consists of heat treatment without a catalyst. 4. Process according to any one of claim 1 or 2, which makes it unique in that the process The plots consist of heat treatment in the presence of a catalyst and without hydrogen. 5. Process according to any one of claim 1 or 2, which makes it unique in that the process The plots consist of catalytic converting operations. When there is hydrogen the rate from 1 to 500 the volume of gas Under normal conditions the volume of catalyst per hour 6. Process according to any of the claims 4 or 5 which gives the accelerator a unique characteristic. The reaction consists of at least one M element selected from the group formed by iron, nickel, cobalt, molybdenum, tungsten. And palladium and M, at least 20% (by weight) in the Pridium form, the catalyst also contains a solid support agent selected from the alumina-formed group, silica-alumina, silica, Zeolite, activated carbon, clay and aluminum cement as well. 7. A process according to one of claim 4 or 5, which gives the catalyst a unique characteristic. That reaction consists of at least one element M selected from the group formed by iron, nickel, cobalt, molybdate, tungsten. And at least 5% palladium and M (by weight) in sulfide form. The catalyst also contains the solid support selected from the alumina, silica-alumina group. , Silica, zeolite, activated carbon, clay and aluminum cement as well. 8. Process according to any of the above claims, which gives it a unique characteristic. At the part That break with an initial boiling point of less than 160 ํ has been exposed to at least one mercury aggregate mass. 9. Procedures pursuant to any of the above claims which give rise to specific characteristics in that Proceed to bring that share into contact with the aggregate Occurs at temperatures below 220 ํ with VVH from 1 to 50 h-1 0. The process according to any of the above claims, which makes it unique, is that the rate The volume by volume of the used catalyst is in the transition to the collected mass. Converts between 1:10 and 5: 1 1 1. Procedures pursuant to any of the above claims that make it unique in that part. The resulting hydrocarbon contains mercury from 10-3 to 5 mg / kg of that feeder 1. 2. Procedures pursuant to any of the above claims which make it unique in that part. The resulting hydrocarbon contains arsenic from 0 to 5 mg / kg of that feeder 1. 3. Procedures pursuant to any of the above claims which make it unique in that part. Enter the hydrocarbon acting on it Which contains sulfur from 0 to 4% by weight per kg of that feeder