RU2099395C1 - Gasoline additive and fuel composition - Google Patents

Abstract

FIELD: petroleum processing and petrochemistry. SUBSTANCE: gasoline additive is provided based on diethyldicyclopentadienyliron with 1-99.5 wt % of dicyclopentadienyliron and, optionally, aromatic amine or hydrocarbon fraction boiling away within 100-360 C as well as detergent additive. Fuel composition is provided containing gasoline and 0.005-0.06 wt % of claimed additive. EFFECT: improved anti-knock and detergent properties of gasolines, reduced toxicity of exhausted gases, and increased efficiency and reliability of internal combustion engine operation. 7 cl, 2 tbl

Description

 The invention relates to the field of oil refining and petrochemistry, specifically to the composition of the additive and fuel composition containing this additive, intended for use in internal combustion engines.

 Known additive to motor fuels, such as unleaded gasoline, which is a bicyclopentadienyl iron.

 However, this additive is ineffective, since it has limited solubility in gasolines.

 Known additive to motor fuel containing methyl tert-butyl ether, monomethylaniline, a mixture of alcohols and organometallic compounds, for example bicyclopentadienyl iron.

 The additive is introduced into the fuel composition in an amount of 12 -15% wt.

 However, the additive is not effective enough and to ensure the desired effect, it is necessary to introduce it in high concentrations.

 Closest to the claimed technical solution is a fuel additive containing an oil-soluble iron compound, for example a dialkyl derivative of bicyclopentadienyl iron; low-boiling monocarboxylic acid and detergent.

 Fuel compositions containing this additive in an amount of 0.5 to 2.2 wt.

 However, the known additive has insufficiently high antiknock and detergent properties.

 The objective of the invention is to develop an additive to gasoline with high antiknock and detergent properties, and a fuel composition containing this additive.

 To solve this problem, an additive to gasoline is proposed, including diethylbicyclopentadienyl iron and 1.0 to 99.5 wt. bicycdlopentadienyl iron.

The additive may contain an aromatic amine selected from the group: N-methylaniline, xylidine, a mixture of isomeric xylidines with triethylamine in a mass ratio of 1: 1, or a hydrocarbon fraction boiling within 100 360 ^o C.

The additive may also additionally contain a detergent additive, which is a mixture of polyethylene polyamine acylated with C ₅ -C ₂₅ carboxylic acids and monoacyl, monoalkyl or monoalkylphenyl ether polyoxyalkylene glycols m.m. 500 4000 taken in a mass ratio of 1: 1.

 A fuel composition comprising gasoline and 0.005 0.06 wt. additives, including diethylbicyclopentadienyl iron and 1 99.5 wt. bicyclopentadienyl iron.

The fuel composition may also contain 0.05 to 2 wt. aromatic amine selected from the group: N-methylaniline, xylidine, a mixture of isomeric xylidines with triethylamine in a weight ratio of 1: 1 and / or 0.005
0.5% of the mass. detergent additives of the above composition.

 The novelty of the claimed technical solution is the combined content of diethylbicyclopentadienyl iron and bicyclopentadienyl iron in the indicated amounts.

 The combined use of these components allows you to get an additive to gasoline with high anti-knock resistance, obtained due to a synergistic effect.

The additional content of the aromatic amine in the additive leads to an increase in the antiknock properties of the additive, in addition, the aromatic amine can act as a solvent, which, like the use of a hydrocarbon fraction boiling within 100 360 ^o C, allows this composition to be produced as a commercial product.

 Adding a detergent additive allows, along with providing high detergent properties of the additive, to increase its stability during storage.

 Introduction to the composition of gasolines of the above additives allows you to expand the range of manufactured commercial gasolines while improving their antiknock and detergent properties.

The proposed additive is prepared by mixing the components with vigorous stirring at a temperature of 30 to 80 ^o C for 0.5 to 1 hour. The prepared additive is introduced into gasoline with stirring without additional heating. In this way, six samples of the additive were prepared.

 To prepare the additive, components with the following characteristics were used.

Bicyclopentadienyl iron crystalline powder of orange color with a melting point of 174 ^o C (TU 6-02-964-78).

Diethylbicyclopentadienyl iron liquid is reddish brown in color, refractive index at 20 ^° C. 1.5785 (TU 6-02-593-86).

N-methylaniline is an oily liquid of light brown color, density 982 kg / m ³ (TU 6-14-5071-90).

 Xylidine-s (TU 6-04-5807974-90), fuel TG-02 (GOST 17147-80), which is a mixture of isomeric xylidines with triethylamine in a mass ratio of 1: 1, can also be used as aromatic amine. When introduced into the composition of the additive, they give an effect similar to N-methylaniline.

The detergent used to prepare the additive samples is a 1: 1 mixture of polyethylene polyamine, of the general formula: NH ₂ (C ₂ H ₅ NH) _n H, where n 1 -6, acylated with C ₁₂ -C ₁₈ petroleum acids and monoalkylphenyl polyethylene glycol ether of the formula R - C ₆ H ₄ -O (C ₂ H ₄ O) _m H, where R is alkyl C ₈ -C ₁₂ , m 6 (TU 3850724-87). In the preparation of a detergent additive for the acylation of polyethylene polyamine, synthetic fatty acids of the C ₅ -C ₂₅ fraction, higher isomeric acids C ₅ -C ₂₅ , synthetic naphthenic acids C ₁₇ -C ₂₅ , tall, coriander, and linseed oils can be used. Instead of polyethylene glycol monoalkylphenyl ether, as a component of the washing additive, the following can be used: polyoxyalkylene glycol monoalkyl ether of the formula:
R ₁ O (C ₃ H ₆ O) _to (C ₂ H ₄ O) _L H,
where R ₁ alkyl C ₃ -C ₂₅ , k 5 50, L 1 20,
or monoacyl ether of polyoxyalkylene glycols of the formula:
R ₁ -COO (C ₃ H ₆ O) _k (C ₂ H ₄ O) _L H,
where R ₁ is alkyl C ₃ -C ₂₅ , k 5 50, L 1 20.

These esters are obtained by anionic copolymerization of ethylene oxide and propylene in the presence of starting materials and alkaline catalysts. To obtain monoalkyl ethers, fatty alcohols with the length of the hydrocarbon radical C ₃ -C ₂₅ are used as starting substances, and monoacyl esters are higher carboxylic acids with the length of the C ₅ -C ₂₅ radical. The detergent additives obtained by the described method are close in terms of the washing action to the additives used for the preparation.

 As the hydrocarbon fraction in the examples, brand A diesel fuel (GOMT 305-82) was used, for this purpose diesel fuel of other brands, jet fuel (GOST 10227-86), denormalization of the Pareks installation can be used.

 Example 1. The additive to gasoline contains, by weight.

Bicyclopentadienyl Iron 1
Diethylbicyclopentadienyl iron the rest
Example 2. The additive to gasoline contains, by weight.

Bicyclopentadienyl Iron 99.5
Diethylbicyclopentadienyl iron the rest
Example 3. The additive to gasoline contains, by weight.

Bicyclopentadienyl Iron 40
Diethylbicyclopentadienyl iron the rest
Example 4. The additive to gasoline contains, by weight.

The additive of example 1 20
Detergent additive 20
Brand A diesel fuel
Example 5. The additive to gasoline contains, by weight.

The additive according to example 2 5
Aromatic amine rest
Example 6. The additive to gasoline contains, by weight.

The additive according to example 3 10
Detergent 10
Aromatic amine rest
The prepared samples were tested in fuel compositions containing as base gasoline: straight-run fraction of gas condensate 35 180 ^o C, gasoline A-76 (GOST 2084-77), gasoline AI-91, gasoline A-92 (TU 38.001165-87) . The proposed additive can be introduced into other gasolines.

 The tests were carried out in the amount of current regulatory and technical documentation: GOST 2084-77, TU 38.001165-87, TU 38.0011225-89. Detergent properties were evaluated by the interdepartmental laboratory-motor method in an IT-type installation.

 The test results are shown in tables 1 and 2.

 From the data given in tables 1 and 2, it can be seen that the introduction of small amounts of the proposed additives allows us to provide a wide range of fuels for spark ignition engines, obtaining commercial gasoline A-76 based on the straight-run fraction, and gasoline A-76, AI- 91, A-92 are high-octane grades of A-92, AI-93, A-96 gasolines with high detergent properties. The introduction of the proposed additive in the composition of gasolines also reduces the toxicity of exhaust gases (CO content decreases by 20.0% CH by 32.0%), increase the efficiency and reliability of the engine, and keep the fuel system clean.

Claims (7)

 1. Additive to gasoline, including diethylbicyclopentadienyl iron, characterized in that it further comprises bicyclopentadienyl iron in an amount of 1.0 to 99.5 wt.  2. The additive according to claim 1, characterized in that it further comprises an aromatic amine selected from the group N-methylanine, xylidine, a mixture of isomeric xylidines with triethylamine in a weight ratio of 1 1. 3. The additive according to claim 1, characterized in that it further comprises a hydrocarbon fraction boiling in the range of 100 360 ^o C. 4. The additive according to claims 1 to 3, characterized in that it further comprises a detergent additive, which is a mixture of polyethylene polyamine, acylated with carboxylic acids C ₅ C _{2 5} , and monoacyl, monoalkyl or monoalkylphenyl ether polyoxyalkylene glycols mol.m. 500 4000 taken in a mass ratio of 1 1.  5. A fuel composition based on gasoline containing an additive comprising diethylbicyclopentadienyl iron, characterized in that it further comprises bicyclopentadienyl iron, taken in an amount of 1.0 to 99.5 wt. calculated on the additive, with the content of the additive in the composition of 0.005 0.06 wt. 6. The composition according to claim 5, characterized in that it further comprises 0.05
2.0 wt. aromatic amine selected from the group N-methylaniline, xylidine, a mixture of isomeric xylidines with triethylamine in a mass ratio of 1 to 1. 7. The composition according to PP.5 and 6, characterized in that it further comprises 0.005 to 0.5 wt. detergent additive, which is a mixture of polyethylene polyamine, acylated with carboxylic acids C ₅ - C _{2 5} , and monoacyl, monoalkyl or monoalkylphenyl ether polyoxyalkylene glycols mol.m. 500 4000 taken in a mass ratio of 1 1.

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