UA16291U - A multifunctional additive to gasoline - Google Patents

Abstract

A multifunctional additive to gasoline contains N-methyl aniline and ferrocene, at least one ether formed by carboxylic acid of the series of C1-C4 and alcohol of the series of C2-C7, and hydrocarbons of the series of C2-C7, which have boiling temperature of -90 +120 DEGREE C.

Description

Description of the invention

This useful model refers to the field of technology - fuel, namely - improvement of consumer characteristics 2 of motor fuel by adding additives to fuel compositions.

Oxygenates (oxygen-containing compounds) are effective additives to gasoline that increase anti-knock properties and reduce the content of harmful compounds in exhaust emissions. The most well-known and approved for use in Ukraine is an additive based on absolute ethyl alcohol - high-octane oxygen additive (VKD) TU U 30183376.001 and methyl tert-butyl ether (MTBE) TU U 00149943.534. The disadvantage of this additive is that mixed motor gasolines containing 695 VKD have the ability to stratify due to the presence of submersible water, which is especially dangerous at low temperatures. The disadvantage of the MTBE additive is its environmental hazard.

Known additives that are used only to increase detonation resistance (octane number), containing M-methylaniline, ferrocene, antioxidant, washing additive "Automag", aliphatic alcohols С 4-Св and their 12 ethers, normal or branched structure, as well as their mixtures (RF patent 2132359). The disadvantage of this additive is the increased tar formation during storage, which negatively affects the operation of the elements of the intake system, as well as the increased content of nitrogen oxides in the exhaust gases.

The closest to the claimed composition is an additive created on the basis of the well-known additive "ADA" (99.895 monomethylanilinanoO,295 Agidol-12) according to (TU 38.401-58-61-930) and contains monomethylaniline stabilized with an antioxidant (agidol), ferrocene (iron dicyclopentadienyl) and oxypropylated fatty alcohols

Sev-S16 (Russian Patent Mo2057789). The disadvantage of such an additive is the high iron content, which negatively affects the engine due to increased soot formation. The reason for this shortcoming is the lack of substances in the composition of the additive that contribute to the removal of iron oxidation products from the engine.

Currently existing additives (additives), depending on the chemical composition, solve the problem of increasing the octane number of fuel, but in turn, they have both advantages and disadvantages. in

Ferromanganese additives have the highest ability to increase the octane number of fuel, but have a tendency to settle on the inner surface of the engine and form soot. Nitrogen-containing additives have stabilizing, anticorrosive, and antioxidant properties, but in large quantities, additives cause an increased content of toxic substances in exhaust gases. Oxygen-containing additives have low volatility, reduced photochemical activity, high octane number, but they have the ability to be "washed out" by submersible water. That is, there is a need for Ge"! in an additive that would be devoid of the listed disadvantages and at the same time, in addition to increasing the octane number of the fuel, had other consumer qualities. with

The purpose of the invention is to expand the functional capabilities of fuel additives, which should have a comprehensive effect, that is, aimed at increasing the anti-knock effect, improving the environmental characteristics of gasoline

From oil and gas condensate origin - reduction of smoke, as well as toxicity of exhaust gases, - creation of conditions for careful operation of the engine by increasing the completeness of fuel combustion, reducing friction, reducing soot formation in the fuel combustion chamber and preventing engine corrosion, as well as solving the problem of gasoline stabilization - ethanol mixtures when moisture gets into them. "

The developed additive is designed to increase the detonation resistance of motor fuels, improve their environmental characteristics, and stabilize motor gasoline blends, including high-octane oxygen-containing additive (VKD) and absolute technical methyl carbinol.

From" (MKAT).

In practice, it was established that the disadvantages of oxygen-containing additives (additives) for the production of mixed gasoline are the presence of water (0.295), aldehydes and uneven chemical composition depending on the manufacturer, raw materials and conditions, which are not strictly specified in the developed normative technical documentation. These factors often influence the "degradation" of mixed motor gasolines when substandard water gets into them.

Ge") The main components of the proposed additive are aromatic amines (M-methylaniline), metallocene compounds of iron (ferrocene), according to the proposed technical solution, the additive contains at least one ether formed by a carboxylic acid of the C 4-C series; and sterols of the Co-C7 series and hydrocarbons of the Co-C7 series, having (Te) 20 boiling point -90 - 41202С, (mass parts): "- Ferrocene 0.1-10

M-methylaniline 20-95

Ether of carbonic acids of the C1-Su series and alcohols of the Co-C7 series 1-15

Hydrocarbons of the C2-C7 series, which have a boiling point -90 - 12020 5-50 - Additionally, the additive may contain: - at least one alcohol of the C.-C7 series, for use in gasoline-ethanol mixtures, in the amount of 0.1-5 wt. h 60 - an organometallic compound of the general formula АКВОТ(СеНи1О)4(Сл6НявМ)р, where A, B are two different metals from the series of lithium, potassium, sodium, cesium, iron, aluminum, magnesium, calcium, strontium, yttrium, titanium, zirconium, cerium, niobium, scandium, praseodymium, erbium or non-metal silicon in the amount of 0.01-7 parts by mass. - Keropur detergent additive in the amount of 0.01 Imas.ch. - antioxidant additive Agidol in the amount of 0.01 Imas.ch. because - as an ether formed by a carboxylic acid of the C 41-Su series, the additive contains an acetic acid ether of alcohols of the -D- series

So-S,.

The multifunctionality of the action of the developed additive is based on the following principles:

The maximum octane-enhancing effect of the additive with a minimum content of organometallic compounds is achieved due to the synergistic enhancement of the action of ferrocene by organic compounds of the classes of organic amines and ethers.

Additional introduction to the addition of organometallic compounds of the general formula A КВиОт(СеНи1О)4(С16НивМ)р where

A, B - two different metals from the series of lithium, potassium, sodium, cesium, iron, aluminum, magnesium, calcium, strontium, yttrium, titanium, zirconium, cerium, niobium, scandium, praseodymium, erbium or non-metal silicon allows to reduce the content of iron , contributes to a significant increase in the effective octane number of the additive and leads to its additional 7% resistance to external factors during storage.

The stabilizing effect of the additive is based on the principle of stabilization of gasoline-ethanol mixtures by organic compounds of the classes of alcohols, amines, and ethers, which occupy an intermediate position in the Leo-Hanch polarity series between the polarities of alcohol and aliphatic hydrocarbons that are part of gasoline. The effect of stabilization of gasoline-ethanol mixtures is expressed in the lowering of the cloud point of motor gasoline mixtures at /5 introduction of the additive by 10-159С; (up to -352С) in the amount of 190 (volumes.) in gasoline containing 5-6956 VKD, as well as reducing the "leaching" of alcohol in the presence of water in gasoline.

The increase in the octane number according to the motor method when adding from 0.2 to 195 additives to base gasoline is from 6 to 12 units.

In comparison with the previously developed additives, this additive is free from the mentioned disadvantages due to the use of additional technological methods, finishing of the product on molecular sieves, a reduction in the content of compounds that lower the octane number and contribute to stratification of the gasoline-alcohol mixture. In addition, the additive contains a number of additional compounds of the class of ethers, alkylphenols, aromatic and aliphatic M-alkylamines, which have the properties of ambient surface-active substances that increase the stability of mixed fuels.

In addition, the additive contains an inert diluent, which is represented by C5-C7 hydrocarbons. The addition of an inert diluent leads to a decrease in the mass fraction of other components, without worsening their overall effect, namely: it makes it possible to significantly reduce the ferrocene content, which prevents rapid engine wear due to the reduction of iron oxide deposits, and leads to a decrease in the additive content of M- of methylaniline, which is a poisonous and dangerous substance to store, the consequence of this is the reduction of toxic aromatic substances in exhaust gases. As an inert diluent, stable gas gasoline or a broad fraction of light hydrocarbons can be used.

In addition to the additive, the antioxidant Agidol-12 and the detergent additive Keropur make it possible to strengthen the effect of its main components and improve consumer qualities. Ha

Gasoline-alcohol mixtures containing the additive are chemically stable under the influence of sunlight due to the presence of antioxidants and metal-containing sensitizers, as well as resistant to delamination at low temperatures.

Зз5 temperatures in the presence of submersible waters. "-

The additive is obtained by simple simultaneous mixing of its components under normal conditions.

The introduction of an additive into the fuel is a simple mixing. The calculated amount of additive is poured into an empty container, and then the container is filled with gasoline through the upper neck. The complete mixing of the fuel composition occurs when the vehicle moves for a distance of at least 1 km. "

The effect of the additive was tested on a mixture of isooctane-n-heptane (70-30), as well as on different fractions of gasoline with motor and research methods. The results are shown in Table 1. The additive was added in amounts from 0.195 (vol.) to 195 (vol.). The octane-enhancing effect of the additive varies widely depending on the composition of "" gasoline. ate

Ge) gasoline without additive gasoline with additive m method method method method method method method

ZOM Me NI POKY NNYA NO Pi MON n-heptane, 70-30 " olshVI 1617716 171 11 n-heptane, 70-30 0 OTHERS NINI NENYA SH NN NO NOA n-heptane, 70-30 4 | Mixture of isooctane - 04 70, 0 84.3 143 "WINTER sit NN NANNYA NOYA Po PO Nora OK

V. his SHBNY SHY NENNYA MOB OO NO ON NO OON b/d vovevyayaaATI 011835 m0000vya00me 013105 vo (8 BenzitlevAT | 01 8B6 1 eBb 0) 8lo emo nmya | nm

Table 2 shows data on the increase in octane number depending on the gasoline component. When the same amount of additive is added, the greatest increase in octane number is observed in straight-run gasoline.

components by motor method Additive, Fo vol. additives by the motor method by the motor method catalysts

Meekne ben 000 660000000010500100000000065000000000100000153 gasoline

Research was also conducted on the effect of water on gasoline mixtures containing the specified additive. Water was added in the amount of 195 and the gasoline was kept for two days at a constant temperature. Gasoline did not change, the volume of water practically did not increase (within the error of the experiment).

In addition, the addition of an additive to gasoline leads to an improvement in their environmental characteristics, which is expressed in a decrease in the content of carbon monoxide (CO) in exhaust gases by 8-1295. The obtained gasoline mixtures with 75 additive were also checked for compliance with DSTU 4063-2001. The additive does not have a negative effect on the main physico-chemical parameters of gasoline. In particular, gasoline with an additive has even better indicators in terms of the content of toxic substances, as shown in Table 3. production

C normalized normalized normalized h: zo (22)

Thus, the use of additives makes it possible to improve the marketability of gasoline, to produce A-76 and A-80, using stable gas gasoline, and to produce A-92 and A-95, to improve the environmental characteristics of gasoline, and to reduce the content of the ash component by 3-4 times in commercial gasolines compared to the widespread use of organometallic compounds due to the introduction of an amplifier that increases the anti-knock effect of the additives used. In addition, the stabilizing properties of the additive will make it possible to use fuel with the addition of VKD at low temperatures without fear of its stratification and formation ice crystals.

Claims (6)

The formula of the invention h - c 1. The multifunctional gasoline additive containing M-methylaniline and ferrocene differs in that "c" additionally contains at least one ether formed by a carboxylic acid of the C.4-C series, and an alcohol of the Co-C series, and hydrocarbons of the series Со-С7, having a boiling point of -90 4120 2С, (mass parts): - 45 ferrocene 0.1-10 M-methylaniline 20-95 (o) ether of carboxylic acids of the С 1-С4 series and alcohols of the С series C7 1-15 ko hydrocarbons of the Co-C7 series, which have a boiling point of -90-1202C with 50 5-5O. - M 2. Additive according to claim 1, which differs in that it additionally contains at least one alcohol of the C/-C series; in the amount of 0.1-5 wt.h. C. The additive according to p. 1-7, which is distinguished by the fact that it additionally contains an organometallic compound of the general formula АКВИОт(СеНи1О)п(Ст6НивМ)р where A, B are two different metals from the series of lithium, potassium, sodium, cesium, iron, aluminum, magnesium, calcium, strontium, yttrium, titanium, zirconium, cerium, niobium, scandium, praseodymium, erbium or non-metal silicon in the amount of 0.01-7 parts by mass. 4. The additive according to claim 1, which differs in that it additionally contains the Keropur detergent additive in the amount of 0.001-1 wt.h. 60 5. The additive according to claim 1, which is characterized by the fact that it additionally contains the antioxidant additive Agidol in the amount of 0.001-1 wt.h. 6. Additive according to claim 1, which differs in that, as an ether, the additive contains ether of acetic acid of alcohols of the C2-C series, 65 Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2006, M 8, 15.08.2006. State Department of Intellectual Property of the Ministry of Education and