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Hydro-conversion process for catalytic diesel oil

A technology for hydrotreating and catalyzing diesel oil, which is applied in hydrotreating process, petroleum industry, molecular sieve catalyst, etc., and can solve the problem of reducing the hydrogen saturation of gasoline components and unfavorable hydrotransformation to produce high-octane gasoline and gasoline components. Problems such as strong saturation capacity

Active Publication Date: 2018-10-09
CHINA PETROLEUM & CHEM CORP +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, this method cannot selectively reduce the hydrogenation saturation of gasoline components, so the octane number loss of gasoline products is relatively large
[0005] EP20110834653 discloses a method for preparing a polycyclic aromatic hydrocarbon hydrogenation conversion catalyst. The catalyst carrier is composed of β molecular sieve and pseudo-boehmite. The active metal components of Group VIB and Group VIII are added by conventional methods, but the catalyst is also Strong saturation ability for gasoline components, which is not conducive to the process of catalytic diesel hydrogenation conversion to produce high-octane gasoline

Method used

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  • Hydro-conversion process for catalytic diesel oil
  • Hydro-conversion process for catalytic diesel oil
  • Hydro-conversion process for catalytic diesel oil

Examples

Experimental program
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Effect test

Embodiment 1

[0038] (1) Mix 150g of industrially produced modified Y molecular sieve with 50g of industrially produced macroporous alumina, add 4g / 100ml of dilute nitric acid, mix and roll in a mixer until it can be extruded, and extrude on an extruder to obtain the example 1 carrier;

[0039] (2) Configure Mo-Ni impregnation solution, MoO 3 1. Basic nickel carbonate is added to distilled water to prepare a partial Mo-Ni impregnation solution, and the MoO is adjusted in the mixed solution by the oxide of the metal salt. 3 26g / 100ml, NiO 8g / 100ml;

[0040] (3) Take the carrier in step 1 and impregnate it in the Mo-Ni active metal impregnation solution, and the impregnated sample is dried and calcined to obtain the catalyst C1.

Embodiment 2

[0042] (1) Take 200g of industrially produced macroporous alumina and place it in a closed container filled with butadiene atmosphere, control the pressure at 0.3MPa and fully contact it for 20 minutes, and then heat it at 180°C for 70 hours in an air atmosphere;

[0043] (2) Take 80g of alumina obtained in step (1), 50g of industrially modified Y molecular sieve, MoO 3 Mix 15g with 20g of cobalt nitrate, add 4g / 100ml of dilute nitric acid, mix and roll in a mixer until it can be extruded, and then extrude into strips;

[0044] (3) Step (2) After the sample was dried at 120°C for 4 hours in an air atmosphere, it was transferred to a nitrogen atmosphere and calcined at 500°C for 3 hours to obtain catalyst C2.

Embodiment 3

[0046] (1) Soak 200g of industrially produced macroporous alumina in heptene for 4 hours, then heat at 160°C for 120 hours in an air atmosphere;

[0047] (2) Mix 100g of alumina obtained in step (1) with 60g of industrially modified Y molecular sieve, add 4g / 100ml of dilute nitric acid in a mixer, mix, roll, extrude, and then dry at 120°C for 4 hours to obtain the carrier of Example 3;

[0048] (3) Configure Mo-Co impregnation solution, MoO 3 , Basic cobalt carbonate is added to distilled water to prepare a partial Mo-Co impregnation solution, and the MoO is adjusted in the mixed solution by the oxide of the metal salt. 3 30g / 100ml, CoO 10g / 100ml;

[0049](4) Take the Mo-Co impregnation solution obtained in step (3), impregnate the catalyst carrier obtained in step (2) for 2 hours according to the liquid-solid ratio of 3:1, and then dry at 150°C for 2 hours in the air atmosphere, then transfer to CO 2 Catalyst C3 was obtained by calcining at 400° C. for 4 h in an air atmosp...

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Abstract

The invention discloses a hydro-conversion process for catalytic diesel oil. The hydro-conversion process comprises the following steps: (1) firstly putting a mixture of catalytic diesel oil and hydrogen into a hydrogenation reactor to have a hydrofining reaction; (2) enabling a hydrofining reaction effluent to directly enter a cracking reactor to contact and react with a hydrocracking catalyst bed in the cracking reactor; wherein upper and lower hydrocracking catalyst beds are graded and loaded in a hydrocracking reactor, a catalyst of the upper bed takes W-Ni and / or Mo-Ni as the active metalcomponent, a catalyst of the lower bed takes Mo-Co as the active metal component, and a modified Y molecular sieve and carbonized alumina are taken as carriers; (3) separating and distilling the hydrofining reaction effluent obtained in the step (2) to obtain a naphtha component and a diesel component, wherein the naphtha component is directly discharged out of a device to serve as high-octane gasoline blending component, the diesel component is directly discharged out of the device to serve as a blending diesel, and the naphtha component and the diesel component can also be recycled back inthe cracking reactor for further reaction. The process reduces the hydrogenation saturation of the generated gasoline component and increases the octane number of the gasoline component on the premiseof better meeting the conversion rate of the catalytic diesel oil.

Description

technical field [0001] The invention belongs to the technical field of hydrogenation treatment, in particular to a catalytic diesel oil hydrogenation conversion process. Background technique [0002] Since the beginning of the new century, with the increasing awareness of environmental protection, the stricter national environmental protection regulations and the rapid development of the national economy, the demand for clean motor fuels has been increasing all over the world. Catalytic cracking (FCC) technology is one of the main technological means for lightening heavy oil, and it occupies a relatively important position in oil refining enterprises all over the world. The annual processing capacity of catalytic cracking units in my country has exceeded 100 million tons, second only to the United States. In the composition of gasoline and diesel products, catalytic cracking gasoline accounts for about 80%, and catalytic diesel oil accounts for about 30%. In recent years, ...

Claims

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Application Information

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IPC IPC(8): C10G67/02
CPCB01J29/166B01J2229/186C10G67/02C10G2300/305C10G2400/02C10G2400/04
Inventor 王阔柳伟杜艳泽王凤来秦波高杭张晓萍
Owner CHINA PETROLEUM & CHEM CORP
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