CN101962586A - Gasoline detergent prepared from aromatic amine polyoxypropylene ether - Google Patents

Abstract

The invention relates to a gasoline detergent prepared from aromatic amine polyoxypropylene ether. The aromatic amine polyoxypropylene ether is represented by a structural formula (I), wherein R is hydrogen or an alkyl group of C1 to C10, and can be positioned at an ortho-position, a meta-position or a para-position on a benzene ring relative to nitrogen atoms; and the summation of a and b is a natural number in the range of 9 to 33. When used in gasoline, the gasoline detergent prepared from the aromatic amine polyoxypropylene ether serving as a main component can remarkably reduce the generation of sediments in fuel-intake system of a gasoline engine.

Description

A kind of gasoline cleaning agent with the preparation of aromatic amine polyethenoxy ether

Technical field

The present invention relates to a kind of gasoline cleaning agent, also relate to the synthetic method of aromatic amine polyethenoxy ether with the preparation of aromatic amine polyethenoxy ether.

Background technology

The aromatic amine polyethenoxy ether is a kind of of polyetheramine, belongs to the tertiary amine-type polyetheramine.Can be applicable to that Resins, epoxy quicken to solidify, bonding, weaving help dye, printing ink and colo(u)rant dispersion etc.Because this aromatic amine polyethenoxy ether has good surfactivity and oil soluble, and at high temperature be difficult for generating settling and colloid, therefore can be used as the main component of motor spirit purification agent.

The purification agent that is used for motor spirit can suppress and remove the sedimental formation of petrol engine fuel oil inlet system, motor car engine fuel oil inlet system can be kept as much as possible and returns to the new car state, thereby reach the minimizing of relative oil consumption and discharging, this is that propelling vehicle fuel cleans, and puts into practice one of important means of automotive energy-saving emission-reducing.

Main active princlple among disclosed gasoline cleaning agent CN1133873A, CN1167136A, CN1187474C, CN1227866A, the CN1718696A is PIBA, polyisobutene succinimide, mineral oil and polyethers at present.Such gasoline cleaning agent has good keeping a public place clean and cleanup action to petrolic fuel injection nozzle, intake valve, can suppress and clean the settling on these parts of petrol engine effectively.But the settling that such gasoline cleaning agent can wash down the fuel oil inlet system is brought the combustion chamber into, and the settling of combustion chamber is obviously increased.

The total settling of gasoline engine combustion chamber obviously increases, the compression ratio of engine is increased, and be difficult for heat radiation, to cause compression end of a period gas temperature rising in the combustion chamber, OR Octane Requirements increases, and increases the mechanical disturbance between top land and the cylinder cap when serious, produces " carbon engine knock ", cause that finally engine consumption increases deterioration of emission.

The main active princlple that on November 25th, 2009, State Intellectual Property Office's Granted publication number used for CN100562560C " a kind of gasoline cleaning agent that can remarkably reducing deposit of gasoline engine combustion chamber " is polyetheramine, and its structural formula is:

This is a kind of primary amine type polyetheramine tensio-active agent of buying from U.S. Huntsman company.Its preparation process is tediously long, and need high temperature (200～250 ℃), high pressure (5～20MPa) and the nickel-containing catalyst condition under face the hydrogen aminating reaction, the production difficulty is big, the product cost height.And the used aromatic amine polyethenoxy ether of the present invention is different with the polyetheramine structure of above-mentioned U.S. Huntsman company, belongs to the tertiary amine-type polyetheramine.Its simple synthetic method, working condition gentleness, temperature of reaction are at 100～180 ℃, and reaction pressure is 0.1～0.5MPa, and the catalyzer that reacts used is KOH, and product cost is low, excellent property.Therefore, the gasoline cleaning agent of making the preparation of main component of this aromatic amine polyethenoxy ether and Granted publication number are compared for the CN100562560C patented product, all have tangible characteristics and progress reaching on the purification agent product cost on the molecular structure of main component, on the synthetic method.

Summary of the invention

The objective of the invention is the polyetheramine tensio-active agent-aromatic amine polyethenoxy ether of synthetic a kind of new texture, it is easy to prepare, excellent property, and cost is lower.The gasoline cleaning agent of doing the preparation of main component with this aromatic amine polyethenoxy ether uses in motor spirit and can reduce the sedimental generation of petrol engine fuel oil inlet system significantly.Thereby make motor car engine be in good operation condition state for a long time, can reduce the motor car engine oil consumption, reduce the tail gas hazardous emission, prolong the work-ing life of engine.

Gasoline cleaning agent of the present invention is made up of aromatic amine polyethenoxy ether, oxidation inhibitor, rust-preventive agent, corrosion inhibitor and the solubility promoter of high surface, and the quality proportioning of above each component is:

Aromatic amine polyethenoxy ether 60.0～80.0%

Oxidation inhibitor 2.0～5.0%

Rust-preventive agent 1.0～3.0%

Corrosion inhibitor 0.5～1.5%

Solubility promoter 14.0～34.0%

The structural formula of described aromatic amine polyethenoxy ether is:

Wherein, R is the alkyl of hydrogen or C1～C10; A+b is 9～33 natural number; With respect to nitrogen-atoms, R can be positioned at ortho position, a position or the contraposition on the phenyl ring; The weight-average molecular weight of aromatic amine polyethenoxy ether is 700～2000, and total amine value is 28～79mgKOH/g.

Described oxidation inhibitor is selected from the mixture of one or more compositions among commercially available T501, T502, T531, the T534.

Described rust-preventive agent is selected from the mixture of one or more compositions among commercially available T703, T706, T747, SP-80, the SP-85.

Described corrosion inhibitor is selected from commercially available T551, the mixture of one or both compositions among the T561.

Described solubility promoter is selected from the mixture of one or more compositions in commercially available toluene, dimethylbenzene, alkylbenzene, aromatic hydrocarbon oil, solvent oil, methyl alcohol, ethanol, butanols, the isooctyl alcohol.

The dosage of gasoline cleaning agent of the present invention by 500～1000ppm is added in the commercially available gasoline, rate of descent according to the settling on the experimental technique simulated automotive intake valve of GB/T19230.4 regulation generates changes by thermogravimetric analyzer simulated automotive deposition of combustion chamber of engine increment.Under high pure nitrogen protection,, be under 10 ℃/minute the condition, to be heated to and to carry out the residual rate contrast more than 500 ℃ in temperature rise respectively the sample of gasoline cleaning agent of the present invention and marketable gasolines purification agent.Compare with commercially available gasoline cleaning agent, the settling rate of descent that gasoline cleaning agent of the present invention can produce intake valve is brought up to more than 80% from 50～60%, and the total settling increment of automotive engine combustion chamber can reduce more than 60%.

Embodiment

Aromatic amine polyethenoxy ether synthesis example one:

The preparation of synthesis reaction vessel: the autoclave of 2L brush several times earlier with distilled water, till clean, the oven dry reactor, be cooled to 50～70 ℃ standby.

The first step adds 535g to monomethylaniline in reactor, behind twice of the nitrogen replacement, intensification limit, limit vacuumizes, and when temperature is raised to 120 ℃, closes vacuum valve.Slowly add the 380g propylene oxide, after 130～175 ℃ of reactions extremely fully, be cooled to 80 ℃ of dischargings.

Second step: the product and the 4.0g solid KOH that in reactor, add 366g the first step gained, be warmed up to 90～110 ℃, vacuum hydro-extraction 0.5～1.0h, then the 1240g propylene oxide is pressed into reactor, the control feed rate, keep reactor pressure at 0.1～0.5MPa, keep temperature of reaction at 135～165 ℃, react no longer descend to reactor pressure till, be cooled to normal temperature, to going in the beaker, the acid atlapulgite of adding 28g neutralizes and decolours and the k adsorption ion, carries out suction filtration with Bush's funnel then, and the solution behind the suction filtration is 90～110 ℃ in temperature, vacuum tightness is to deviate from moisture and volatile small molecular weight impurity under the condition of 0.085～0.095MPa, promptly obtains light yellow transparent thick to the monomethylaniline polyethenoxy ether.Through chemical analysis, total amine value of this product is 69.8mgKOH/g, and potassium content is 1.7mg/L, and moisture content is 0.22%, and weight-average molecular weight is about 803.

Aromatic amine polyethenoxy ether synthesis example two:

The preparation of synthesis reaction vessel: the autoclave of 2L brush several times earlier with distilled water, till clean, the oven dry reactor, be cooled to 50～70 ℃ standby.

The first step adds 596g 3-tertiary butyl aniline in reactor, behind twice of the nitrogen replacement, intensification limit, limit vacuumizes, and when temperature is raised to 120 ℃, closes vacuum valve.Slowly add the 348g propylene oxide, after 140～160 ℃ of reactions extremely fully, be cooled to 80 ℃ of dischargings.

Second step: the product and the 4.3g solid KOH that in reactor, add 280g the first step gained, be warmed up to 90～110 ℃, vacuum hydro-extraction 0.5～1.0h, then the 1500g propylene oxide is pressed into reactor, the control feed rate, keep reactor pressure at 0.1～0.5MPa, keep temperature of reaction at 130～150 ℃, react no longer descend to reactor pressure till, be cooled to normal temperature, to going in the beaker, the acid atlapulgite of adding 30g neutralizes and decolours and the k adsorption ion, carries out suction filtration with Bush's funnel then, and the solution behind the suction filtration is 100～110 ℃ in temperature, vacuum tightness is to deviate from moisture and volatile small molecular weight impurity under the condition of 0.085～0.095MPa, promptly obtains light yellow transparent thick 3-tertiary butyl aniline polyethenoxy ether.Through chemical analysis, total amine value of this product is 37.5mgKOH/g, and potassium content is 4.3mg/L, and moisture content is 0.15%, and weight-average molecular weight is about 1496.

Embodiment 1:

Composite with obtain in the synthesis example one monomethylaniline polyethenoxy ether and oxidation inhibitor, rust-preventive agent, corrosion inhibitor and solubility promoter are carried out, the quality proportioning of its each component is: 65.0% pair of monomethylaniline polyethenoxy ether, 2.5% T502,1.5% T747,1.0%T551 and 34.0% aromatic hydrocarbon oil.

According to adding the ratio metering, at room temperature mixing and stirring until transparent, promptly gets gasoline cleaning agent of the present invention after the filtration with above-mentioned component.Gasoline cleaning agent of the present invention is pressed the dosage of 600ppm, add in the commercially available 93# gasoline, through specialized department's evaluation, the physical and chemical index of oil product all meets the requirement of GB17930-2006.Generate the settling rate of descent according to GB/T19230.4 test method simulated automotive intake valve, by the variation of thermogravimetric analyzer simulated automotive deposition of combustion chamber of engine increment.After tested, simulation intake valve settling rate of descent reaches 85.3%, and with elevated temperature heat weight analysis more than 500 ℃, simulated combustion chamber settling increment changes, and descends 94% than at present commercially available purification agent, and measured data is listed in the table 1.

Embodiment 2:

The 3-tertiary butyl aniline polyethenoxy ether that obtains with synthesis example two and oxidation inhibitor, rust-preventive agent, corrosion inhibitor and solubility promoter carry out composite, and the quality proportioning of each component is: 70.0%3-tertiary butyl aniline polyethenoxy ether, 2.5% T502,1.5% T747,1.5%T551 and 24.5% aromatic hydrocarbon oil.Repeat the preparation method of embodiment 1, promptly get gasoline cleaning agent of the present invention.

Gasoline cleaning agent of the present invention is pressed the dosage of 700ppm, add in the commercially available 93# gasoline, through specialized department's evaluation, the physical and chemical index of oil product all meets the requirement of GB17930-2006.Generate the settling rate of descent according to GB/T19230.4 test method simulated automotive intake valve, by the variation of thermogravimetric analyzer simulated automotive deposition of combustion chamber of engine increment.After tested, simulation intake valve settling rate of descent reaches 86.5%, and with elevated temperature heat weight analysis more than 500 ℃, simulated combustion chamber settling increment changes, and descends 91% than at present commercially available purification agent, and measured data is listed in the table 1.

Embodiment 3:

The 3-tertiary butyl aniline polyethenoxy ether that obtains with synthesis example two and oxidation inhibitor, rust-preventive agent, corrosion inhibitor and solubility promoter carry out composite, and the quality proportioning of each component is: 80.0%3-tertiary butyl aniline polyethenoxy ether, 2.5% T502,1.5% T706,1.0%T551 and 15.0% aromatic hydrocarbon oil.Repeat the preparation method of embodiment 1, promptly get gasoline cleaning agent of the present invention.

Gasoline cleaning agent of the present invention is pressed the dosage of 800ppm, add in the commercially available 93# gasoline, through specialized department's evaluation, the physical and chemical index of oil product all meets the requirement of GB17930-2006.Generate the settling rate of descent according to GB/T19230.4 test method simulated automotive intake valve, by the variation of thermogravimetric analyzer simulated automotive deposition of combustion chamber of engine increment.After tested, simulation intake valve settling rate of descent reaches 88.0%, and with elevated temperature heat weight analysis more than 500 ℃, simulated combustion chamber settling increment changes, and descends 90% than at present commercially available purification agent, and measured data is listed in the table 1.

Table 1

Claims (6)

1. gasoline cleaning agent with aromatic amine polyethenoxy ether preparation is characterized in that this gasoline cleaning agent is made up of aromatic amine polyethenoxy ether, oxidation inhibitor, rust-preventive agent, corrosion inhibitor and solubility promoter, more than the quality proportioning of each component be:

Aromatic amine polyethenoxy ether 60.0～80.0%

Oxidation inhibitor 2.0～5.0%

Rust-preventive agent 1.0～3.0%

Corrosion inhibitor 0.5～1.5%

Solubility promoter 14.0～34.0%

The structural formula of described aromatic amine polyethenoxy ether can be represented by general formula (I):

Wherein, R is hydrogen or C ₁～C ₁₀Alkyl, with respect to nitrogen-atoms, R can be positioned at ortho position, a position or the contraposition on the phenyl ring; A+b is 9～33 natural number; The weight-average molecular weight of aromatic amine polyethenoxy ether is 700～2000, and total amine value is 28～79mgKOH/g;

Described oxidation inhibitor is selected from the mixture of one or more compositions among commercially available T501, T502, T531, the T534;

Described rust-preventive agent is selected from the mixture of one or more compositions among commercially available T703, T706, T747, SP-80, the SP-85;

Described corrosion inhibitor is selected from commercially available T551, the mixture of one or both compositions among the T561;

Described solubility promoter is selected from the mixture of one or more compositions in commercially available toluene, dimethylbenzene, alkylbenzene, aromatic hydrocarbon oil, solvent oil, methyl alcohol, ethanol, butanols, the isooctyl alcohol.

2. gasoline cleaning agent as claimed in claim 1 is characterized in that the quality proportioning of each component is:

Aromatic amine polyethenoxy ether 60.0%

Oxidation inhibitor 2.5%

Rust-preventive agent 2.0%

Corrosion inhibitor 1.5%

Solubility promoter 34.0%.

3. gasoline cleaning agent as claimed in claim 1 is characterized in that the quality proportioning of each component is:

Aromatic amine polyethenoxy ether 70.0%

Oxidation inhibitor 2.0%

Rust-preventive agent 1.5%

Corrosion inhibitor 1.0

Solubility promoter 25.5%.

4. gasoline cleaning agent as claimed in claim 1 is characterized in that the quality proportioning of each component is:

Aromatic amine polyethenoxy ether 80.0%

Oxidation inhibitor 2.0%

Rust-preventive agent 1.0%

Corrosion inhibitor 0.5%

Solubility promoter 16.5%.

5. the preparation method of the gasoline cleaning agent of one of claim 1～4 is characterized in that by required quality proportioning metering, and at room temperature mixing and stirring until transparent, filtered and promptly got gasoline cleaning agent of the present invention.

6. according to the application of the gasoline cleaning agent of one of claim 1～4, it is characterized in that the adding dosage of this gasoline cleaning agent in motor spirit is 500～1000ppm.