Alternate residual oil hydrotreatment-catalytic cracking combined process method and system

A catalytic cracking and hydrotreating technology, applied in hydrotreating process, hydrocarbon oil treatment products, petroleum industry, etc., can solve the problem of rapid rise of pressure drop in hydrotreating pretreatment reactor, affecting the economic efficiency of refinery, affecting the main catalyst Catalytic activity etc.

Active Publication Date: 2021-01-12
CHINA PETROLEUM & CHEM CORP +1
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  • Abstract
  • Description
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  • Application Information

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Problems solved by technology

However, after parallel and series operation, the method needs to stop and replace the catalysts of each hydrogenation pretreatment reactor, and requires a long shutdown time, and cannot continue hydrogenation of residual oil for a long time, thereby affecting the economic efficiency of the refinery; , the pressure drop of each hydrogenation pretreatment reactor is at the highest level in the late stage of operation, and it is also operated in series, which makes the total pressure drop of hydrogenation pretreatment very high. If the original operating conditions are maintained, it will affect the main The catalytic activity of the catalyst, this loss of catalytic activity is irreversible
In order to ensure the catalytic activity of the main catalyst, it is necessary to further increase the reaction severity of the front hydrogenation pretreatment and increase the reaction temperature to a greater extent, which will increase the load on the heating furnace. Sometimes the original design load may be too small to meet heating requirements
[0007] In the above residual oil hydrogenation process, when the fixed bed is filled with hydrogenation protecting agent and hydrodemetallization catalyst at the same time, if a lower proportion of hydrodemetallation agent is used, the hydrodemetallization performance of the entire catalyst system is insufficient, especially At the end of the operation, the metal-accommodating capacity is low, which leads to the rapid deactivation of the catalyst in the main reaction zone, which is not conducive to the long-term operation of the device; Insufficient scale and impurity capacity of the hydrogenation pretreatment reactor leads to a rapid rise in the pressure drop of the hydrogenation pretreatment reactor, shortens the normal operation time, and soon enters the end of operation, resulting in shutdown, which is also not conducive to the long-term operation of the device

Method used

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  • Alternate residual oil hydrotreatment-catalytic cracking combined process method and system
  • Alternate residual oil hydrotreatment-catalytic cracking combined process method and system
  • Alternate residual oil hydrotreatment-catalytic cracking combined process method and system

Examples

Experimental program
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Effect test

Embodiment 1

[0064] This embodiment adopts as figure 1 Shown reaction system, concrete reactor and connection relation are as follows:

[0065] The reaction system includes a first hydrotreating reactor 1, a second hydrotreating reactor 2, a third hydrotreating reactor 3, a hydrotreating reactor 4, a hydrotreating reactor 5, a hydrotreating Reactor 6. The main reaction feed pipeline L1 is respectively connected to the inlets of the first hydrogenation pretreatment reactor 1, the second hydrogenation pretreatment reactor 2, and the third hydrogenation pretreatment reactor 3 through three inlet pipelines. The inlet pipelines are all equipped with inlet valve bodies, that is, the main reaction feed pipeline L1 passes through the valve body 21, the valve body 22, and the valve body 23 to connect with the first hydrogenation pretreatment reactor 1 and the second hydrogenation pretreatment reactor 2 respectively. , The inlet of the third hydrogenation pretreatment reactor 3 is connected; The r...

Embodiment 2

[0091] This example is basically the same as Example 1, except that the raw material is residual oil B, the properties of the specific raw material are shown in Table 1, the reaction temperature and switching time of the hydrogenation pre-reactor are shown in Table 4 and Table 5, and the residual oil is hydrogenated to form See Table 6 for oil properties.

[0092] The reaction condition of hydrogenation pretreatment reaction zone in the embodiment 2 of table 4

[0093]

[0094] The switching time of hydrogenation pretreatment reactor in the embodiment 2 of table 5

[0095] switch for the first time second switch switch for the third time fourth switch switching time, h 6800 9600 13000 15000

Embodiment 3

[0097] This example adopts the reaction system, reaction raw materials and reactor rotation method of Example 1, the difference is: the first hydrogenation pretreatment reactor 1, the second hydrogenation pretreatment reactor 2, the third hydrogenation pretreatment The ratio of demetallization agent to protective agent in reactor 3 is 1:1, and remains unchanged for each rotation. The switching time of the hydrogenation pretreatment reactor is shown in Table 6. All catalytic cracking diesel fractions obtained after the catalytic cracking reaction are mixed with residual oil raw materials and enter the hydrogenation pretreatment reaction zone for reaction. Among them, based on the total weight of residual oil feedstock and catalytic cracking diesel oil fraction entering the hydrogenation pretreatment reaction area, the catalytic cracking diesel oil fraction returned to the hydrogenation pretreatment reaction area accounts for 30wt%.

[0098] Among them, the properties of the cat...

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Abstract

The invention discloses an alternate fixed bed residual oil hydrotreatment method and system. The method comprises a hydrogenation pretreatment reaction zone, a hydrogenation treatment reaction zone and a catalytic cracking reaction zone; the hydrogenation pretreatment reaction zone comprises a first hydrogenation pretreatment reactor, a second hydrogenation pretreatment reactor and a third hydrogenation pretreatment reactor; the first hydrogenation pretreatment reactor and the second hydrogenation pretreatment reactor are connected in series to serve as an online hydrogenation pretreatment reactor; and when the pressure drop in the first hydrogenation pretreatment reactor rises to the pressure drop design upper limit or the catalyst activity is lower than the requirement, the first hydrogenation pretreatment reactor is cut out, and switching is performed according to the following sequence: the second hydrogenation pretreatment reactor and the third hydrogenation pretreatment reactorare connected in parallel, the third and the first hydrogenation pretreatment reactors are connected in parallel, and the first hydrogenation pretreatment reactor and the second hydrogenation pretreatment reactor are connected in series. The method can realize long operation time without shutdown, ensures reasonable and limited alternate times, improves the utilization efficiency of the hydrotreating main catalyst and the operation stability of the device, and greatly prolongs the operation time and the working efficiency of the hydrotreating reactor.

Description

technical field [0001] The invention relates to a residual oil hydrotreating-catalytic cracking combined process method and system, in particular to a residue oil hydrotreating-catalytic cracking combined process method and system which can be rotated. Background technique [0002] As crude oil becomes heavier and worse, more and more heavy oil and residual oil need to be processed. The main purpose of the residue oil hydrotreating process is to greatly reduce the content of impurities such as sulfur, nitrogen, and metals in the residue oil raw material through hydrogenation treatment, and to convert non-ideal components such as polycyclic aromatics, colloids, and asphaltenes through hydrogenation. Increase the hydrogen-to-carbon ratio, reduce the residual carbon content, and significantly improve the cracking performance. [0003] Fixed bed residual oil hydrogenation technology is a deep processing technology for heavy oil. Under the condition of high temperature and high ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C10G69/04
CPCC10G69/04C10G2300/1037C10G2300/1048C10G2300/1055C10G2300/1059C10G2300/107C10G2300/1077C10G2400/02C10G2400/04
Inventor 翁延博耿新国刘铁斌李洪广金建辉韩坤鹏
Owner CHINA PETROLEUM & CHEM CORP
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