CN110551555A

CN110551555A - High-octane gasoline blending aid

Info

Publication number: CN110551555A
Application number: CN201810552349.4A
Authority: CN
Inventors: 舒心; 余敏; 陈玲华; 刘晓丽
Original assignee: Jinao Science And Technology (hubei) Chemical Co Ltd
Current assignee: Jinao Science And Technology (hubei) Chemical Co Ltd
Priority date: 2018-05-31
Filing date: 2018-05-31
Publication date: 2019-12-10

Abstract

The embodiment of the invention discloses a high-octane gasoline blending aid, which comprises the following components: toluene, xylene, high-purity isooctane, high-olefin isomerized oil, hydrogenated carbon nine, an antioxidant antigum inhibitor, imported aromatic hydrocarbon and a gasoline antiknock agent. The embodiment of the invention has the following beneficial effects: the high-octane gasoline blending aid disclosed by the invention is uniform in component distribution, low in sulfur content, free of oxygen-containing compounds, low in vapor pressure and good in combustion performance, and can be blended into gasoline according to a certain proportion, so that the octane value of the gasoline can be greatly improved, the grade of the gasoline can be improved, and the high-grade gasoline can be obtained.

Description

High-octane gasoline blending aid

Technical Field

The invention relates to a gasoline blending additive without oxygen compounds, in particular to a high-octane gasoline blending additive.

Background

With the rapid development of economy, the number of high-grade vehicles in the society increases, and the demand for high-grade gasoline increases, particularly gasoline nos. 92, 95 and 98.

With the strict requirement on environmental protection, the hydrogenation depth of refineries is increased, the octane number of base oil is reduced, the octane number of the base oil needs to be improved by adding MTBE (methyl tert-butyl ether) to meet the quality requirements of No. 95 and No. 98 gasoline, the countries will comprehensively promote ethanol gasoline in 2020, the addition of MTBE to blended base oil is forbidden, the octane number will be reduced by 2, and a blending auxiliary agent capable of replacing MTBE is urgently needed in blending high-grade gasoline to supplement the octane number.

Disclosure of Invention

The technical problem to be solved by the embodiment of the invention is to provide a high-octane gasoline blending aid aiming at the problems that the octane number is reduced by 2 when MTBE is forbidden to be added into blended base oil, and the octane number needs to be supplemented by a blending aid capable of replacing the MTBE in high-grade gasoline blending.

In order to solve the technical problems, the embodiment of the invention provides a high-octane gasoline blending aid, which comprises the components of toluene, xylene, high-purity isooctane, high-olefin isomerized oil, hydrogenated carbon nine, an antioxidant antigum inhibitor, imported aromatic hydrocarbon and a gasoline antiknock agent.

The high-octane gasoline blending auxiliary comprises the following components in parts by weight: 35-40 parts of toluene, 30-35 parts of xylene, 10-15 parts of high-purity isooctane, 10-15 parts of high-olefin oil isomerate, nine 5 parts of hydrogenated carbon and 10-15 parts of imported aromatic hydrocarbon, wherein the high-octane gasoline oil blending auxiliary agent also comprises an antioxidant antigum inhibitor and a gasoline antiknock agent, the concentration of the antioxidant gum inhibitor is 200ppm of the sum of all the components, and the concentration of the gasoline antiknock agent is 500ppm of the sum of all the components.

Wherein the gasoline antiknock agent is LKSD-O-II type gasoline antiknock agent, and contains 1 wt% of ferrocene.

Wherein the antioxidant and anti-gum agent contains 2-6-2 tert-butyl p-methylphenol.

Wherein the purity of the high-purity isooctane is at least not less than 96 wt%, the purity of the toluene is at least not less than 96 wt%, the purity of the xylene is at least not less than 96 wt%, the content of olefin in the high-olefin isomerized oil is at least not less than 90 wt%, and the purity of the imported aromatic hydrocarbon is at least not less than 65 wt%.

The preparation method of the high-octane gasoline oil blending additive comprises the following steps: blending 35 parts of toluene, 30 parts of xylene and nine 5 parts of hydrogenated carbon according to parts by weight, and changing the density and distillation range of a single component to obtain a basic component 1; mixing 15 parts of high-purity isooctane, 15 parts of high-olefin oil isomerate and 15 parts of imported aromatic hydrocarbon according to parts by weight, and changing the density and distillation range of a single component to obtain a base component 2; adding the base component 1 and the base component 2 into a blending tank according to the weight ratio of 1:1 and the density, finally adding 500ppm of LKSD-O-II type gasoline antiknock agent and 200ppm of gasoline antioxidant for circular blending, and stopping circulation after the upper and lower densities are consistent to obtain the No. 1 oil blending additive.

The preparation method of the high-octane gasoline oil blending additive comprises the following steps: blending 35 parts of toluene, 30 parts of xylene and nine 5 parts of hydrogenated carbon according to parts by weight, and changing the density and distillation range of a single component to obtain a basic component 1; mixing 15 parts of high-purity isooctane, 15 parts of high-olefin oil isomerate and 15 parts of imported aromatic hydrocarbon according to parts by weight, and changing the density and distillation range of a single component to obtain a base component 2; adding the base component 1 and the base component 2 into a blending tank according to the weight ratio of 1:0.9 and the density, finally adding 500ppm of LKSD-O-II type gasoline antiknock agent and 200ppm of gasoline antioxidant for circular blending, and stopping circulation after the upper and lower densities are consistent to obtain the No. 2 oil blending additive.

The embodiment of the invention has the following beneficial effects: the high-octane gasoline blending aid disclosed by the invention is uniform in component distribution, low in sulfur content, free of oxygen-containing compounds, low in vapor pressure and good in combustion performance, and can be blended into gasoline according to a certain proportion, so that the octane value of the gasoline can be greatly improved, the grade of the gasoline can be improved, and the high-grade gasoline can be obtained.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a high-octane gasoline blending aid, which comprises the following components: 35-40 parts of toluene, 30-35 parts of xylene, 10-15 parts of high-purity isooctane, 10-15 parts of high-olefin oil isomerate, nine 5 parts of hydrogenated carbon, 10-15 parts of imported aromatic hydrocarbon, an antioxidant antigum inhibitor and a gasoline antiknock agent, wherein the concentration of the antioxidant gum inhibitor is 200ppm (m/m) of the sum of all the components, and the concentration of the gasoline antiknock agent is 500ppm (m/m) of the sum of all the components.

The gasoline antiknock agent is LKSD-O-II type gasoline antiknock agent, and contains 1 wt% of ferrocene. The antioxidant and antigum agent contains 2-6-2 tert-butyl p-methyl phenol.

Example 1

The preparation method of the high-octane gasoline oil blending additive comprises the following steps:

Blending 35 parts of toluene, 30 parts of xylene and nine 5 parts of hydrogenated carbon according to parts by weight, and changing the density and distillation range of a single component to obtain a basic component 1; mixing 15 parts of high-purity isooctane, 15 parts of high-olefin oil isomerate and 15 parts of imported aromatic hydrocarbon according to parts by weight, and changing the density and distillation range of a single component to obtain a base component 2; adding the base component 1 and the base component 2 into a blending tank according to the weight ratio of 1:1 and the density, finally adding 500ppm of LKSD-O-II type gasoline antiknock agent and 200ppm of gasoline antioxidant for circular blending, and stopping circulation after the upper and lower densities are consistent to obtain the No. 1 oil blending additive.

Example 2

Blending 35 parts of toluene, 30 parts of xylene and nine 5 parts of hydrogenated carbon according to parts by weight, and changing the density and distillation range of a single component to obtain a basic component 1; mixing 15 parts of high-purity isooctane, 15 parts of high-olefin oil isomerate and 15 parts of imported aromatic hydrocarbon according to parts by weight, and changing the density and distillation range of a single component to obtain a base component 2; adding the base component 1 and the base component 2 into a blending tank according to the weight ratio of 1:0.9 and the density, finally adding 500ppm of LKSD-O-II type gasoline antiknock agent and 200ppm of gasoline antioxidant for circular blending, and stopping circulation after the upper and lower densities are consistent to obtain the No. 2 oil blending additive.

See table 1 for quality performance analysis of base 1 and base 2.

Table 1 analysis of the quality properties of base component 1 and base component 2

See table 2 for the analysis of the quality properties of the components of the 1# oil blending aid and the 2# oil blending aid.

Component quality Properties analyses of oil blending additives # 21 and oil blending additives # 2

As can be seen from the data in Table 2, the two oil blending additives have uniform distribution, low sulfur content and vapor pressure and no oxygen-containing compound.

And blending the No. 1 blending auxiliary agent with the base oil to respectively prepare No. 92 gasoline, No. 95 gasoline and No. 98 gasoline.

First, gasoline No. 92 can be blended with base oil with different octane numbers.

1. And (3) uniformly mixing 80% of No. 85 base oil (RON85) and 20% of No. 1 oil blending aid in a weight ratio to obtain No. 92 gasoline.

2. And (3) uniformly mixing 75% of No. 87 base oil (RON87) and 25% of No. 1 oil blending aid according to the weight ratio to obtain No. 92 gasoline.

3. And uniformly mixing 90% of No. 90 base oil (RON90) and 10% of No. 1 oil blending aid according to the weight ratio to obtain No. 92 gasoline.

See table 3 for quality analysis of base oils No. 85, No. 87, and No. 90.

Quality analysis of base oils No. 385 and No. 87 and No. 90 in Table

The quality analysis of gasoline No. 92 obtained is shown in table 4.

Quality analysis of gasoline No. 492

II, blending No. 95 gasoline: and (3) uniformly mixing 80% of No. 90 base oil (RON90) and 20% of No. 1 oil blending auxiliary agent according to the weight ratio to obtain No. 95 gasoline. For quality analysis of gasoline No. 95, see table 5.

Quality analysis of gasoline No. 595

Third, blending 98 # gasoline: and (3) uniformly mixing 70% of No. 90 base oil (RON90) and 30% of No. 1 oil blending additive according to the weight ratio to obtain No. 98 gasoline. See table 6 for quality analysis of gasoline No. 98.

Quality analysis of gasoline No. 698 Table

After the high-octane gasoline blending auxiliary agent is blended with each base gasoline, gasoline No. 92, No. 95 and No. 98 are obtained, all indexes of the gasoline accord with all standards of GB17930-2016, and the oil consumption is reduced by 1 liter per hundred kilometers, so that the aims of sufficient power and reduced oil consumption are achieved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The high-octane gasoline blending aid is characterized by comprising the following components: toluene, xylene, high-purity isooctane, high-olefin isomerized oil, hydrogenated carbon nine, an antioxidant antigum inhibitor, imported aromatic hydrocarbon and a gasoline antiknock agent.

2. The high-octane gasoline blending aid of claim 1, wherein the high-octane gasoline blending aid comprises the following components in parts by weight: 35-40 parts of toluene, 30-35 parts of xylene, 10-15 parts of high-purity isooctane, 10-15 parts of high-olefin oil isomerate, nine 5 parts of hydrogenated carbon and 10-15 parts of imported aromatic hydrocarbon, wherein the high-octane gasoline oil blending auxiliary agent further comprises an antioxidant antigum agent and a gasoline antiknock agent, the concentration of the antioxidant gum agent is 200ppm of the sum of all the components, and the concentration of the gasoline antiknock agent is 500ppm of the sum of all the components.

3. The high-octane gasoline blending additive according to claim 2, wherein the gasoline antiknock agent is a LKSD-O-II type gasoline antiknock agent containing 1 wt% of ferrocene.

4. The high-octane gasoline blending aid of claim 2, wherein the antioxidant antigum agent contains 2-6-2 t-butyl-p-methylphenol.

5. The high-octane gasoline blending aid of claim 1, wherein the purity of high-purity isooctane is at least 96 wt%, the purity of toluene is at least 96 wt%, the purity of xylene is at least 96 wt%, the content of olefin in the high-olefin oil isomerate is at least 90 wt%, and the purity of imported aromatic hydrocarbon is at least 65 wt%.

6. The high-octane gasoline blending additive according to claim 1, wherein the preparation method of the high-octane gasoline blending additive comprises the following steps: blending 35 parts of toluene, 30 parts of xylene and nine 5 parts of hydrogenated carbon according to parts by weight, and changing the density and distillation range of a single component to obtain a basic component 1; mixing 15 parts of high-purity isooctane, 15 parts of high-olefin oil isomerate and 15 parts of imported aromatic hydrocarbon according to parts by weight, and changing the density and distillation range of a single component to obtain a base component 2; adding the base component 1 and the base component 2 into a blending tank according to the weight ratio of 1:1 and the density, finally adding 500ppm of LKSD-O-II type gasoline antiknock agent and 200ppm of gasoline antioxidant for circular blending, and stopping circulation after the upper and lower densities are consistent to obtain the No. 1 oil blending additive.

7. The high-octane gasoline blending additive according to claim 1, wherein the preparation method of the high-octane gasoline blending additive comprises the following steps: blending 35 parts of toluene, 30 parts of xylene and nine 5 parts of hydrogenated carbon according to parts by weight, and changing the density and distillation range of a single component to obtain a basic component 1; mixing 15 parts of high-purity isooctane, 15 parts of high-olefin oil isomerate and 15 parts of imported aromatic hydrocarbon according to parts by weight, and changing the density and distillation range of a single component to obtain a base component 2; adding the base component 1 and the base component 2 into a blending tank according to the weight ratio of 1:0.9 and the density, finally adding 500ppm of LKSD-O-II type gasoline antiknock agent and 200ppm of gasoline antioxidant for circular blending, and stopping circulation after the upper and lower densities are consistent to obtain the No. 2 oil blending additive.