CN105623755A - Efficient gasoline additive and preparation method thereof - Google Patents

Abstract

The invention provides an efficient gasoline additive. The efficient gasoline additive is prepared from the following components in parts by weight: 2 to 3 parts of coco fatty acid diethanol amide, 8 to 10 parts of petroleum ether, 6 to 8 parts of 2-methyl-2-butanol, 2 to 2.5 parts of heterogeneous decyl alcohol polyoxyethylene ether, 11 to 13 parts of dimethyl carbonate, 6 to 8 parts of propylene glycol monomethyl ether, 1.5 to 2 parts of octyl phenol polyoxyethylene ether, 1.5 to 2 parts of trimethylolpropane octanoate and 1 to 1.5 parts of nano aluminum hydroxide. According to the efficient gasoline additive provided by the invention, the engine power can be increased, and the function of obviously improving the economical efficiency and the dynamic property of an engine is obtained; meanwhile, deposited carbon generated after the combustion of fuel oil can be prevented from being attached to the surface of the engine, the deposited carbon can be effectively removed, a fuel system is cleaned, the power is increased, the fuel oil is saved, the noise is reduced, and an engine failure caused by the fuel oil is prevented.

Description

A kind of high-efficiency gasoline additive and its preparation method

Technical field

The present invention relates to a kind of vehicle fuel oil additive, particularly relate to a kind of high-efficiency gasoline additive and its preparation method.

Technical background

Gasoline dope is divided into uprising dose, promoting agent, catalytic type ignition dope, regulates combustion resist etc., and additive on probation to be seen needs. Fuel oil adds promoting agent, it is possible to remove and pull the grease being deposited on cylinder internal surface and long-pending carbon; Add catalytic type ignition dope, complete in the enable burning at one time as far as possible making fuel oil of trying one's best, it is possible to effectively improve motor efficiency; And use adjustment type fire retardant, then can improve fuel performance, prevent pinking, advanced combustion, decompose colloid etc., effective raising fuel oil mechanical efficiency. In fact the effect of additive is to improve fuel oil inner quality, and the fuel qualities that current China produces, with also having very big gap in the world, therefore, adds what some additives were necessary in addition in fuel oil. Research shows, adds suitable additive in fuel oil, it is possible to improve the performance of fuel oil, and the combustionvelocity making fuel oil brings up to suitable scope. And the combustionvelocity making fuel oil brings up to suitable scope.

During running of an engine, oil nozzle temperature is at about 100 DEG C, and intake valve temperature is between 200-300 DEG C. At such temperatures, the unstable composition in fuel oil, very easily produces oxidative dimerization, generates colloid and long-pending carbon, is deposited on intake valve and oil nozzle, and the engine of advanced highly turbocharged engine and use GDI fuel direct injection technology more easily produces long-pending carbon. The settling being deposited on intake valve, can cause induction trunk sectional area to reduce, and intake efficiency reduces, and power drop, can make valve slow movement, be not closed completely time serious. Oil nozzle amasss carbon, and oil spout can be made not smooth, and fuel spray quality declines, and after causing fuel oil to enter combustion chamber, it is difficult to burn completely, causes engine starting difficulty, unstable idle speed, and oil consumption strengthens, and exhaust emissions worsens, and especially in winter, these situations are more obvious.

Summary of the invention

It is an object of the invention to overcome the deficiency of prior art, it is provided that one can effectively remove long-pending carbon, clean fuel oil system; Promote engine power simultaneously, improve the high-efficiency gasoline additive of engine economy.

High-efficiency gasoline additive provided by the invention, is made up of the component of following weight part number: lauric acid amide of ethanol 2��3 parts, sherwood oil 8��10 parts, 6��8 parts, 2-methyl-2-butanols, different structure ten polyoxyethylenated alcohol 2��2.5 parts, methylcarbonate 11��13 parts, propylene glycol monomethyl ether 6��8 parts, polyoxyethylene octylphenol ether 1.5��2 parts, trimethylolpropane tris octanoate 1.5��2 parts, nano-aluminum hydroxide 1��1.5 part.

As optimization, this high-efficiency gasoline additive, is made up of the component of following weight part number: the nano-aluminum hydroxide 1.4 parts of lauric acid amide of ethanol 2.5 parts, sherwood oil 9 parts, 7 parts, 2-methyl-2-butanols, different structure ten polyoxyethylenated alcohol 2.2 parts, methylcarbonate 12 parts, propylene glycol monomethyl ether 7 parts, polyoxyethylene octylphenol ether 1.8 parts, trimethylolpropane tris octanoate 1.6 parts, median size 20nm.

The preparation method of high-efficiency gasoline additive of the present invention, comprises the following steps:

A, the trimethylolpropane tris octanoate by described weight part number, nano-aluminum hydroxide, polyoxyethylene octylphenol ether mixing, with ultrasonic dispersing machine, under 58��60 DEG C of conditions, ultrasonic disperse 20��30min;

B, by the methylcarbonate of described weight part number, propylene glycol monomethyl ether mixing, with magnetic stirrer stir 1��2min, then with in steps A mixture mix, with ultrasonic dispersing machine, under 45��50 DEG C of conditions, ultrasonic disperse 60��80min;

C, the lauric acid amide of ethanol by described weight part number, sherwood oil, 2-methyl-2-butanols, the mixing of different structure ten polyoxyethylenated alcohol, stir 3��4min with magnetic stirrer, under 52��55 DEG C of conditions, place 40 minutes;

D, the mixture in step B and the mixture in step C are mixed after, with ultrasonic dispersing machine, under 48��50 DEG C of conditions, ultrasonic disperse 60��80min.

High-efficiency gasoline additive of the present invention, made by special component and technique, nanometer composition in additive, can adsorb, wrap up colloid, under high temperature action, produce gas " micro-quick-fried " in combustion chamber, make fuel oil secondary-atomizing, cause and burn completely, promoting engine power, tool improves significantly the effect of engine economy, dynamic property. The long-pending carbon that the present invention simultaneously produces after preventing oil inflame is attached to engine surface, can effectively remove long-pending carbon, clean fuel oil system improving power, saves fuel oil, reduces noise, prevents the motor fault that fuel oil causes.

Related experiment: the test of engine use properties, the main testing apparatus that test uses is DW160 current vortex dynamometer machine, ET2000 engine automatic measuring and controlling system, experiment engine is engine model: Toyota 4A-FE, engine type: in upright arrangement, carburetor type, cylinder diameter �� stroke: 81mm �� 77mm, compression ratio: 9.8, peak power: 66kW (5800r/min). The 93# gasoline adopting common 93# gasoline respectively and adding inventive embodiments 1 respectively carries out the simultaneous test of engine test bench characteristic and part throttle characteristics. Experimental result is in table 1 and table 2. Visible by table 1, after gasoline adds high-efficiency gasoline additive of the present invention, the improvement successful of dynamic property and economy, in whole external characteristics, power has increase by a relatively large margin, also generally reduces than specific fuel oil consumption. By table 2 it may be seen that after using high-efficiency gasoline additive of the present invention, the specific fuel consumption of engine has reduction in various degree.

Peace and quiet measure of merit, chooses testing vehicle Toyota and draws roller 1.6L in-line four cylinder, actual service life 30000 kilometers, after adding high-efficiency gasoline additive of the present invention, travels 1500 kilometers; Respectively before gasoline dope uses and after using, dismantle the Bo Zui that disputes of vehicle, by high resolving power endoscope the air flue that spouts taken pictures and investigate its settling degree, the results are shown in Figure 1. As seen in Figure 1, the long-pending carbon of the uptake of testing vehicle or settling are effectively removed after using high-efficiency gasoline additive of the present invention.

Accompanying drawing explanation

Fig. 1 is before gasoline dope of the present invention uses and uses rear settling comparison figure.

Embodiment

The invention will be further described for embodiment given below plan; but can not be interpreted as it is limiting the scope of the invention; those skilled in the art according to content of the present invention to the improvement of some non-intrinsically safes of the present invention and adjustment, still belong to protection scope of the present invention.

Embodiment 1:A, by the nano-aluminum hydroxide 1.4 kilograms mixing of polyoxyethylene octylphenol ether 1.8 kilograms, trimethylolpropane tris octanoate 1.6 kilograms, median size 20nm, with ultrasonic dispersing machine, under 58��60 DEG C of conditions, ultrasonic disperse 20��30min;

B, by methylcarbonate 12 kilograms, propylene glycol monomethyl ether 7 kilograms mixing, with magnetic stirrer stir 1��2min, then with in steps A mixture mix, with ultrasonic dispersing machine, under 45��50 DEG C of conditions, ultrasonic disperse 60��80min;

C, by lauric acid amide of ethanol (6501) 2.5 kilograms, sherwood oil 9 kilograms, 7 kilograms, 2-methyl-2-butanols, different structure ten polyoxyethylenated alcohol (E-1005) 2.2 kilograms mixing, 3��4min is stirred with magnetic stirrer, under 52��55 DEG C of conditions, place 40 minutes;

D, the mixture in step B and the mixture in step C are mixed after, with ultrasonic dispersing machine, under 48��50 DEG C of conditions, ultrasonic disperse 60��80min. During use, by the high-efficiency gasoline additive of the present invention, directly adding in 93# gasoline or 97# gasoline, addition is the 0.3%��0.5% of gasoline weight, mixes.

Embodiment 2:A, the nano-aluminum hydroxide 1 kilogram mixing by polyoxyethylene octylphenol ether 1.5 kilograms, trimethylolpropane tris octanoate 1.5 kilograms, median size being 20nm, with ultrasonic dispersing machine, under 58��60 DEG C of conditions, ultrasonic disperse 20��30min;

B, by methylcarbonate 11 kilograms, propylene glycol monomethyl ether 6 kilograms mixing, with magnetic stirrer stir 1��2min, then with in steps A mixture mix, with ultrasonic dispersing machine, under 45��50 DEG C of conditions, ultrasonic disperse 60��80min;

C, by lauric acid amide of ethanol (6501) 2 kilograms, sherwood oil 8 kilograms, 6 kilograms, 2-methyl-2-butanols, different structure ten polyoxyethylenated alcohol (E-1005) 2 kilograms mixing, 3��4min is stirred with magnetic stirrer, under 52��55 DEG C of conditions, place 40 minutes;

D, the mixture in step B and the mixture in step C are mixed after, with ultrasonic dispersing machine, under 48��50 DEG C of conditions, ultrasonic disperse 60��80min. During use, by the high-efficiency gasoline additive of the present invention, directly adding in 93# gasoline or 97# gasoline, addition is the 0.3%��0.5% of gasoline weight, mixes.

Embodiment 3:A, the nano-aluminum hydroxide 1.5 kilograms mixing by polyoxyethylene octylphenol ether 2 kilograms, trimethylolpropane tris octanoate 2 kilograms, median size being 20nm, with ultrasonic dispersing machine, under 58��60 DEG C of conditions, ultrasonic disperse 20��30min;

B, by methylcarbonate 13 kilograms, propylene glycol monomethyl ether 8 kilograms mixing, with magnetic stirrer stir 1��2min, then with in steps A mixture mix, with ultrasonic dispersing machine, under 45��50 DEG C of conditions, ultrasonic disperse 60��80min;

C, by lauric acid amide of ethanol (6501) 3 kilograms, sherwood oil 10 kilograms, 8 kilograms, 2-methyl-2-butanols, different structure ten polyoxyethylenated alcohol (E-1005) 2.5 kilograms mixing, 3��4min is stirred with magnetic stirrer, under 52��55 DEG C of conditions, place 40 minutes;

D, the mixture in step B and the mixture in step C are mixed after, with ultrasonic dispersing machine, under 48��50 DEG C of conditions, ultrasonic disperse 60��80min. During use, by the high-efficiency gasoline additive of the present invention, directly adding in 93# gasoline or 97# gasoline, addition is the 0.3%��0.5% of gasoline weight, mixes.

Claims (3)

1. a high-efficiency gasoline additive and its preparation method; It is characterized in that by the component system of following weight part number: lauric acid amide of ethanol 2��3 parts, sherwood oil 8��10 parts, 6��8 parts, 2-methyl-2-butanols, different structure ten polyoxyethylenated alcohol 2��2.5 parts, methylcarbonate 11��13 parts, propylene glycol monomethyl ether 6��8 parts, polyoxyethylene octylphenol ether 1.5��2 parts, trimethylolpropane tris octanoate 1.5��2 parts, nano-aluminum hydroxide 1��1.5 part.

2. high-efficiency gasoline additive according to claim 1, it is characterised in that be made up of the component of following weight part number: the nano-aluminum hydroxide 1.4 parts of lauric acid amide of ethanol 2.5 parts, sherwood oil 9 parts, 7 parts, 2-methyl-2-butanols, different structure ten polyoxyethylenated alcohol 2.2 parts, methylcarbonate 12 parts, propylene glycol monomethyl ether 7 parts, polyoxyethylene octylphenol ether 1.8 parts, trimethylolpropane tris octanoate 1.6 parts, median size 20nm.

3. the preparation method of high-efficiency gasoline additive described in more than one arbitrary claim, it is characterised in that comprise the following steps:

A, the trimethylolpropane tris octanoate by described weight part number, nano-aluminum hydroxide, polyoxyethylene octylphenol ether mixing, with ultrasonic dispersing machine, under 58��60 DEG C of conditions, ultrasonic disperse 20��30min;

B, by the methylcarbonate of described weight part number, propylene glycol monomethyl ether mixing, with magnetic stirrer stir 1��2min, then with in steps A mixture mix, with ultrasonic dispersing machine, under 45��50 DEG C of conditions, ultrasonic disperse 60��80min;

C, the lauric acid amide of ethanol by described weight part number, sherwood oil, 2-methyl-2-butanols, the mixing of different structure ten polyoxyethylenated alcohol, stir 3��4min with magnetic stirrer, under 52��55 DEG C of conditions, placing 40 minutes;

D, the mixture in step B and the mixture in step C are mixed after, with ultrasonic dispersing machine, under 48��50 DEG C of conditions, ultrasonic disperse 60��80min.