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Coker gasoline hydrorefining process

A technology for hydrofining and coking gasoline, which is applied in the petroleum industry, refining hydrocarbon oil, treating hydrocarbon oil, etc. It can solve the problems of increased carbon deposition in the catalyst bed, difficulty in adapting to such a high sulfur content, and reduction of active components.

Inactive Publication Date: 2016-11-16
锡山区绿春塑料制品厂
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In the existing desulfurization process, hydrofining has been widely used due to its mature environment-friendly technology. However, the sulfur content of the raw materials targeted by the existing hydrogenation process is mostly at the level of several hundred ppm, and for as high as 6000ppm-10,000 The sulfur content in ppm, the catalyst used in the existing hydrorefining process is difficult to adapt to such a high sulfur content, generally there will be two problems: first, the activity of the catalyst decreases rapidly, and the device is under the condition of processing other raw materials The service life of the catalyst can reach 6a (6 years) or even longer, but after dealing with coked gasoline, the service life of the catalyst is only 1-2a
[0005] After analysis, it is found that when the catalyst used in the existing hydrofinishing is used for the hydrofinishing of coked gasoline, the loss of the metal components of the catalyst is relatively large, indicating that the active components on the catalyst are reduced, and the pore volume is much smaller, resulting in the reaction between the reactant and the catalyst. The contact area of ​​the catalyst decreases, which is directly reflected in the decrease of the catalyst activity
At the same time, when producing ethylene feedstock, reformate feedstock, and synthetic ammonia feedstock, coking gasoline requires high operating severity and high hydrogenation depth, which leads to aggravated carbon deposition in the catalyst bed and a rapid increase in pressure drop

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0049] The catalyst was prepared by impregnation method, and the carrier was doped Co 2+ MCM-41, Co. 2+ The doping amount in MCM-41 is controlled at 0.65% of the mass of the carrier. The active component molybdenum nitride MO 2 N, tungsten nitride W 2 N, molybdenum carbide Mo 2 The total content of C and tungsten carbide WC is 10% of the mass of the carrier, and their molar ratio is 1:0.4:0.3:0.8.

[0050] The catalyst is loaded into a fixed bed reactor, the reaction tube of the reactor is made of stainless steel with an inner diameter of 50 mm, the catalyst bed is set to 3 layers, the temperature of the catalyst bed is measured with a UGU808 temperature control meter, and the raw material coking gasoline The double-plunger micropump manufactured by Beijing Satellite Manufacturing Plant is continuously transported. The hydrogen is supplied by a high-pressure cylinder and the flow rate is controlled by a Beijing Qixing Huachuang D07-11A / ZM gas mass flow meter. The catalyst ...

Embodiment 2

[0055] The catalyst was prepared by impregnation method, and the carrier was doped Co 2+ MCM-41, Co. 2+ The doping amount in MCM-41 is controlled at 0.7% of the carrier mass. The active component molybdenum nitride MO 2 N, tungsten nitride W 2 N, molybdenum carbide Mo 2 The total content of C and tungsten carbide WC is 10% of the mass of the carrier, and the molar ratio is 1:0.6:0.45):1.2.

[0056] All the other conditions are the same as in Example 1.

[0057]The final product was tested and the total sulfur content was reduced to 4ppm. After half a year of operation of the device, the pressure drop of the catalyst bed did not change.

Embodiment 3

[0082] The catalyst contains catalytic promoter Cr 2 o 3 , ZrO 2 , CeO 2 , V 2 o 5 and NbOPO 4 , its content is respectively 1%, 2%, 1.5%, 1% and 3%, all the other are identical with embodiment 1.

[0083] The final product was tested, and after 3 months of use, the pressure drop of the catalyst bed did not change, which was 12.5% ​​lower than the pressure drop of the catalyst bed in Example 1 for the same use time.

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PUM

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Abstract

The invention discloses a coker gasoline hydrorefining process. According to the process, a fixed bed reactor is adopted and is filled with a hydrogenation desulfuration and denitrification catalyst, wherein the catalyst comprises a carrier and an active ingredient; the carrier is MCM-41 doped with heteroatom Co<2+> in a synthetic skeleton structure; the active ingredient is a mixture of bimolybdenum nitride Mo2N, tungsten nitride W2N, molybdenum carbide Mo2C and tungsten carbide WC; the catalyst also comprises a catalytic addictive which is a mixture of Cr2O3, ZrO2, CeO2, V2O5 and NbOPO4; and the reaction conditions of the fixed bed reactor comprise the reaction temperature of 240-350 DEG C, the hydrogen partial pressure of 2-3.5MPa, the volume ratio of hydrogen to oil of 450-700 and the volume velocity of 1-2h<-1>. According to the process, the total sulfur content of coker gasoline can be controlled to be lower than 5ppm, and the service life of the catalyst is prolonged to be 8a or more.

Description

technical field [0001] The invention relates to a coking gasoline hydrogenation desulfurization refining process, in particular to a coking gasoline hydrogenation refining process using a specific catalyst. Background technique [0002] Coker gasoline, also known as coker naphtha, is a fraction with an initial boiling point up to 180 (205°C) produced during delayed coking. Coking gasoline has high sulfur content and olefin content, low motor octane number (about 60), and poor stability (bromine price 40-60gBr / 100g). Stabilized coking gasoline can only be used as a semi-finished product, and generally needs to be processed Hydrofining to remove nitrogen-containing, sulfur-containing compounds and diolefins before it can be used as a blending component of gasoline for vehicles or as a petrochemical raw material (light oil) to produce ethylene, as a raw material for ammonia synthesis, or as a raw material for catalytic reforming . [0003] The sulfur content of coking gasolin...

Claims

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Application Information

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IPC IPC(8): C10G45/12
CPCC10G45/12C10G2300/202C10G2300/70
Inventor 朱忠良
Owner 锡山区绿春塑料制品厂