Low-carbon-number light-color sulfur-free chlorine-free ash-free polymerization inhibitor and application thereof

A technology of polymerization inhibitor and carbon number, which is applied in the field of low-carbon number, light-colored, sulfur-free, chlorine-free, ash-free polymerization inhibitors, can solve the problem of few reports, and achieve the effect of reducing scaling and coking substances

Active Publication Date: 2020-10-27
GUANGDONG UNIV OF PETROCHEMICAL TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, most of these additives are only suitable for normal temperature processes, and it is very rare that they can be safely used in high temperature heating processes, and there are very few related reports

Method used

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  • Low-carbon-number light-color sulfur-free chlorine-free ash-free polymerization inhibitor and application thereof
  • Low-carbon-number light-color sulfur-free chlorine-free ash-free polymerization inhibitor and application thereof
  • Low-carbon-number light-color sulfur-free chlorine-free ash-free polymerization inhibitor and application thereof

Examples

Experimental program
Comparison scheme
Effect test

preparation example Construction

[0058] The present invention does not specifically limit the preparation method of the polymerization inhibitor, which can be prepared by mixing.

[0059] The second aspect of the present invention provides an application of the low-carbon number, light-colored sulfur-free, chlorine-free and ash-free polymerization inhibitor mentioned above, which is used in the high-temperature distillation and separation process of light mixed oil.

[0060] The light mixed oil described in the present invention is a mixture of gasoline and diesel oil. The high-temperature distillation in the present invention refers to the distillation and separation of light miscellaneous oil under the conditions of normal pressure and ≤250°C.

Embodiment 1

[0064] This example provides a kind of polymerization inhibitor, and the preparation raw material of described polymerization inhibitor comprises 15 parts of diphenylamine derivatives, 30 parts of p-phenylenediamine derivatives, 15 parts of succinimide and 30 parts of carbon Nine aromatic hydrocarbons; the diphenylamine derivative is 4-hydroxyl diphenylamine, and the succinimide is N-methylsuccinimide;

[0065] The structural formula of the p-phenylenediamine derivative is shown in formula (1):

[0066]

[0067] R 1 , R 2 Both are sec-butyl.

[0068] The N-methylsuccinimide was purchased from Nanjing Kangmanlin Chemical Industry Co., Ltd.

[0069] This example also provides the preparation method of the above-mentioned polymerization inhibitor, comprising the following steps: mixing the preparation raw materials of the polymerization inhibitor to obtain the polymerization inhibitor.

Embodiment 2

[0071] This example provides a kind of polymerization inhibitor, and the preparation raw material of described polymerization inhibitor comprises 25 parts of diphenylamine derivatives, 40 parts of p-phenylenediamine derivatives, 20 parts of succinimide and 35 parts of carbon Nine aromatic hydrocarbons; the diphenylamine derivative is 4-hydroxyl diphenylamine, and the succinimide is N-ethylsuccinimide;

[0072] The structural formula of the p-phenylenediamine derivative is shown in formula (1):

[0073]

[0074] R 1 , R 2 Both are sec-butyl.

[0075] The N-ethylsuccinimide was purchased from Nanjing Kangmanlin Chemical Industry Co., Ltd.

[0076] This example also provides the preparation method of the above-mentioned polymerization inhibitor, comprising the following steps: mixing the preparation raw materials of the polymerization inhibitor to obtain the polymerization inhibitor.

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Abstract

The invention relates to a dielectric material required in the petrochemical production process, in particular to a low-carbon-number light-color sulfur-free chlorine-free ash-free polymerization inhibitor and application thereof. The method is based on the distillation separation reality of mixed oil (hereinafter referred to as light mixed oil) of gasoline and diesel oil; the low-carbon-number light-color sulfur-free chlorine-free ash-free polymerization inhibitor is compounded, the use safety performance of the low-carbon-number light-color sulfur-free chlorine-free ash-free polymerization inhibitor is evaluated, a technical guarantee is provided for long-period safe operation of a distillation device, and the product can be suitable for distillation separation of light mixed oil under the conditions of normal pressure and the temperature smaller than or equal to 250 DEG C. According to the invention, the diphenylamine derivative, the p-phenylenediamine derivative, the alkyl succinimide and the C9 aromatic hydrocarbon are added; condensation coking of olefin in the oil product, olefin, oxygen and various oil product additives in the oil product in the distillation process, and iron ions, manganese ions and the like generated by equipment corrosion and/or separated from the additives in the distillation separation process can be prevented, and scaling and coking substances arereduced.

Description

technical field [0001] The invention relates to a medium material required in the petrochemical production process, more specifically, the invention relates to a light-colored sulfur-free, chlorine-free and ash-free polymerization inhibitor with low carbon number and application thereof. Background technique [0002] At home and abroad, pipeline transportation technology has been widely used for the long-distance transportation of automotive gasoline and diesel products, but there are not many reports on the treatment technology of mixed oil in pipeline transportation technology. In summary, there are five main methods: direct back-blending method; distillation separation method; Metal oxide treatment; alkali treatment; filtration. Among them, the distillation separation method is used the most and is the most effective. However, in the distillation separation method, when the olefins in the oil are heated, they are easy to condense with the olefins in the oil, various addi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C10L1/223C10L1/224C10L1/16C10L10/04C10G7/00
CPCC10L1/14C10L10/04C10G7/00C10L1/223C10L1/224C10L1/16C10L2300/20
Inventor 梁朝林程丽华黄克明范钦臻洪晓英陈宏杨冲
Owner GUANGDONG UNIV OF PETROCHEMICAL TECH
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