Catalytic gasoline desulfurization method capable of satisfying maximum light gasoline etherification olefin reduction demands

A technology for catalyzing gasoline and light gasoline, applied in the petroleum industry, processing hydrocarbon oil, hydrocarbon oil treatment products, etc., can solve problems such as octane number loss, reduce steam consumption, reduce construction investment, and reduce cooling water consumption Effect

Active Publication Date: 2017-02-08
洋浦中溢化工有限公司
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  • Abstract
  • Description
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Problems solved by technology

[0007] After the above two measures are adopted, in order to meet the national Ⅵ factory olefin standard, the olefin content in catalytic gasoline must be reduced by another 6-8 percentage points, that is, the olefin content must be reduced to below 22%; if the hydrogenation depth is simply increased to meet the olefin content requirements, the loss of octane number will be unacceptable

Method used

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  • Catalytic gasoline desulfurization method capable of satisfying maximum light gasoline etherification olefin reduction demands

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Embodiment 1

[0038] A kind of catalytic gasoline desulfurization method, its flow process is as follows figure 1 As shown, the steps are as follows:

[0039] (1) The catalytic gasoline is pre-hydrogenated to saturate the diolefins in the gasoline, and the small molecular sulfides are converted into macromolecular sulfides, which enter the heavier gasoline components; the pre-hydrogenated gasoline enters the light cutting tower.

[0040] (2) In the light cutting tower, the gasoline light fraction with a boiling point less than 80°C is cut out from the top of the tower, that is, C 5 、C 6 Distillate; the gasoline fraction with a boiling point greater than 80°C at the bottom of the tower enters the cutting tower for further cutting.

[0041] (3) In the middle of the tower, the middle fraction of gasoline at 80 ° C to 150 ° C is cut from the top of the tower, that is, C 7 ~C 9 Distillate; the bottom of the tower obtains the gasoline heavy fraction with a boiling point greater than 150°C. ...

Embodiment 2

[0047] A kind of catalytic gasoline desulfurization method, its flow process is as follows figure 1 As shown, the steps are as follows:

[0048] (1) The catalytic gasoline is pre-hydrogenated to saturate the diolefins in the gasoline, and the small molecular sulfides are converted into macromolecular sulfides, which enter the heavier gasoline components; the pre-hydrogenated gasoline enters the light cutting tower.

[0049] (2) In the light cutting tower, the gasoline light fraction with a boiling point less than 80°C is cut out from the top of the tower, that is, C 5 、C 6 Distillate; the gasoline fraction with a boiling point greater than 80°C at the bottom of the tower enters the cutting tower for further cutting.

[0050] (3) In the middle of the tower, the middle fraction of gasoline at 80 ° C to 150 ° C is cut from the top of the tower, that is, C 7 ~C 9 Distillate; the bottom of the tower obtains the gasoline heavy fraction with a boiling point greater than 150°C. ...

Embodiment 3

[0056] A kind of catalytic gasoline desulfurization method, its flow process is as follows figure 1 As shown, the steps are as follows:

[0057] (1) The catalytic gasoline is pre-hydrogenated to saturate the diolefins in the gasoline, and the small molecular sulfides are converted into macromolecular sulfides, which enter the heavier gasoline components; the pre-hydrogenated gasoline enters the light cutting tower.

[0058] (2) In the light cutting tower, the gasoline light fraction with a boiling point less than 80°C is cut out from the top of the tower, that is, C 5 、C 6 Distillate; the gasoline fraction with a boiling point greater than 80°C at the bottom of the tower enters the cutting tower for further cutting.

[0059] (3) In the middle of the tower, the middle fraction of gasoline at 80 ° C to 130 ° C is cut from the top of the tower, that is, C 7 ~C 8 Distillate; the bottom of the tower gets the gasoline heavy fraction with a boiling point greater than 130°C.

[...

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Abstract

The invention provides a catalytic gasoline desulfurization method capable of satisfying maximum light gasoline etherification olefin reduction demands. The method comprises the following steps: after carrying out prehydrogenation treatment on catalytic gasoline, cutting into gasoline light fractions mainly composed of C5 and C6, gasoline middle fractions mainly composed of C7-C8 or C7-C9 fractions and gasoline heavy fractions; directly carrying out adsorption distillation desulfurization treatment on the light fractions in the gas state, cooling, and carrying out etherification olefin reduction for later use; carrying out extractive distillation desulfurization treatment on the gasoline middle fractions in the saturated gas phase or gas-liquid mixed phase for later use; and carrying out selective hydrotreating desulfurization on the gasoline heavy fractions, and finally, mixing with the treated light and middle fractions to obtain the deep-desulfurized catalytic gasoline. The method satisfies the requirements of the gasoline maximum etherification process, and lowers the olefins and prevents the catalytic gasoline octane number from reduction in the catalytic gasoline desulfurization process. The technique has the advantages of fewer devices and simple process. The light and middle fraction desulfurization adopt gas-phase or gas-liquid mixed phase feeding, thereby avoiding the secondary vaporization and condensation in the process from distillation cutting to distillation desulfurization, and having obvious energy-saving effects.

Description

technical field [0001] The invention belongs to the field of petrochemical industry, in particular to a catalytic gasoline desulfurization method. Background technique [0002] Automobiles have become an indispensable element in modern human life, and the air pollution caused by their emissions is becoming more and more serious, directly threatening human health. Therefore, solving the problem of motor vehicle environmental pollution has become a major task at present. Gasoline quality upgrade is one of the important methods to reduce motor vehicle emission pollution. [0003] The difficulty in upgrading the quality of gasoline is to reduce the content of sulfur and olefins, but also to ensure low octane loss and high yield of gasoline. Almost all of the sulfur and olefins in gasoline come from catalytic gasoline. Therefore, reducing the sulfur and olefin content of catalytic gasoline while ensuring low octane loss and high yield has become a difficult point in gasoline qu...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C10G67/00
CPCC10G67/00C10G2300/104C10G2300/1044C10G2300/202C10G2400/02
Inventor 郝天臻高旭晖
Owner 洋浦中溢化工有限公司
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