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A method for regeneration of spent hydrogenation catalyst

A waste hydrogenation catalyst and catalyst technology, applied in the direction of catalyst regeneration/reactivation, catalyst carrier, molecular sieve catalyst, etc., can solve the problems of waste oil, incomplete metal recovery, secondary pollution, etc. The effect of composite utilization and avoiding clogging of micropores

Active Publication Date: 2020-12-08
BEIJING HUASHI UNITED ENERGY TECH & DEV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

But, there are following problems in this flow process: 1) valuable metal recovery such as molybdenum, nickel is incomplete, and recovery rate is low; environment; 3) The sulfur of metal sulfides is oxidized during incineration and oxidative roasting, and converted into sulfur dioxide to pollute the environment; 4) The treated waste residue still contains heavy metal salts, and long-term stacking and treatment may cause secondary pollution
[0007] However, after analysis, it is found that the technical solutions disclosed in the above patent documents have the following defects: 1) the carrier and active components are not effectively compounded and utilized during the recovery and treatment of spent hydrogenation catalysts; 2) metal impurities are removed by acid washing, but some metal impurities It can be used as an active metal in the subsequent hydrogenation process, resulting in ineffective use of these metal impurities; 3) by dry distillation, part of the coke material is obtained through dry distillation reaction to obtain liquid hydrocarbons, but the remaining coke material is not effectively used; and then the carbon deposit is removed by roasting, Carbon deposits are not utilized

Method used

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  • A method for regeneration of spent hydrogenation catalyst
  • A method for regeneration of spent hydrogenation catalyst

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Effect test

Embodiment 1

[0034] A method for regenerating a spent hydrogenation catalyst provided in this embodiment comprises the following steps:

[0035] S1. Under the action of the suspension bed hydrogenation catalyst, after the heavy oil raw material - high temperature coal tar is subjected to the suspension bed hydrogenation process, the mixed solution of the spent catalyst and the heavy oil discharged from the bottom of the vacuum tower is automatically backflushed The washed filter is subjected to solid-liquid separation to obtain a filter cake, that is, the spent hydrogenation catalyst;

[0036] S2. Carbonize the spent hydrogenation catalyst at 600°C for 2.2 hours to obtain dehydrated and deoiled catalyst A and dry distillation gas, then remove dust from the dry distillation gas, mix the obtained dust with catalyst A, and mix the dedusted The dry distillation gas is cooled to obtain a mixture of high boiling point oil and water and flammable low boiling point gas. The high boiling point oil ...

Embodiment 2

[0040] A method for regenerating a spent hydrogenation catalyst provided in this embodiment comprises the following steps:

[0041]S1. Under the action of the suspension bed hydrogenation catalyst, after the heavy oil raw material-atmospheric pressure residue is subjected to the suspension bed hydrogenation process, the mixed solution of the spent catalyst and the heavy oil discharged from the bottom of the vacuum tower is used in a plate frame The filter performs solid-liquid separation to obtain the filter residue, that is, the spent hydrogenation catalyst;

[0042] S2. Dry distillation the spent hydrogenation catalyst at 700°C for 2.1 hours to obtain dehydrated and deoiled catalyst A and dry distillation gas, then remove dust from the dry distillation gas, mix the obtained dust with catalyst A, and mix the dedusted The dry distillation gas is cooled to obtain a mixture of high boiling point oil and water and flammable low boiling point gas. The high boiling point oil and wa...

Embodiment 3

[0046] A method for regenerating a spent hydrogenation catalyst provided in this embodiment comprises the following steps:

[0047] S1. Under the action of the suspension bed hydrogenation catalyst, after the mixture of heavy oil raw material - medium and low temperature coal tar and asphalt is subjected to the suspension bed hydrogenation process, the spent catalyst discharged from the bottom of the vacuum tower is mixed with the heavy oil product The liquid is centrifugally separated by a centrifugal separator to obtain a solid residue, that is, a spent hydrogenation catalyst;

[0048] S2. Dry distillation of the spent hydrogenation catalyst at 400°C for 2.5 hours to obtain dehydrated and deoiled catalyst A and dry distillation gas, then dedust the dry distillation gas, mix the obtained dust with catalyst A, and dedust the dedusted The dry distillation gas is cooled to obtain a mixture of high boiling point oil and water and flammable low boiling point gas. The high boiling ...

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Abstract

FIELD: chemical industry.SUBSTANCE: composite substrate for a hydrogenation catalyst containing a semi-coke porous dilator material, a molecular sieve, and a catalytic cracking catalyst has been proposed. Mass ratio of semi-coke pore expanding material to the molecular sieve and to the spent catalytic cracking catalyst is (from 1 to 5):( from 2 to 4):( from 0.5 to 5); semi-coke pore expanding material has a specific surface area from 150 to 300 m / g and average pore size from 70 to 80 nm; molecular sieve has a specific surface area from 200 to 300 m / g and average pore size from 5 to 10 nm; and the spent catalytic cracking catalyst has a specific surface area from 50 to 300 m / g and average pore size from 3 to 7 nm. Method for producing a composite substrate for a hydrogenation catalyst, a hydrogenation catalyst, and a method for regenerating spent hydrogenation catalyst are also provided.EFFECT: technical result is the achievement of uniformity of pores and the provision of a composite substrate, which contains a uniform distribution of a multi-dimensional pore used with a hydrogenation catalyst by grinding.21 cl, 24 ex, 3 tbl

Description

technical field [0001] The invention belongs to the technical field of recovery of spent catalysts, in particular to a method for regenerating a spent hydrogenation catalyst, in particular to a method for regenerating a suspended bed spent hydrogenation composite catalyst. Background technique [0002] There are many kinds of suspension bed hydrogenation catalysts, and with the improvement of the performance requirements of hydrogenation catalysts, suspension bed hydrogenation composite catalysts have been widely used. The hydrogenation composite catalyst has the properties of hydrodesulfurization, hydrocracking, hydrodenitrogenation and the like. Commonly used suspension bed hydrogenation composite catalysts include molybdenum-cobalt-alumina system, molybdenum-cobalt-nickel-alumina system, etc., through catalytic hydrogenation of heavy oil raw materials such as heavy oil, residual oil, high-temperature coal tar, etc., to make heavy Lightening of high-quality oil raw materi...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B01J38/02C10B53/00C10G49/12
CPCB01J32/00B01J29/08B01J35/10B01J37/04B01J37/08B01J37/14B01J38/02B01J38/06C10G47/20C10G47/26
Inventor 李林林科李春桃
Owner BEIJING HUASHI UNITED ENERGY TECH & DEV
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