RU2009174C1 - Additive for hydrocarbon fuel - Google Patents

Abstract

FIELD: fuel production. SUBSTANCE: additive contains, mass % : condensation product of polyamide having common formula NH₂-(CH₂)₂-[-NH-CH₂-CH₂-]_n-NH₂ where n is whole number 0-4 and synthetic fatty acids C₇-C₂₀ 5-10, aliphatic alcohol C₃-C₄ 25-40, hydrocarbon fraction having boiling away temperature 180-350 C to 100. Additive also may contain monoalkylphenyl ether of polyethylene glycol (0.3-5% ). EFFECT: improves fuel quality. 2 cl, 1 tbl

Description

 The invention relates to the field of oil refining and petrochemicals, in particular, to the compositions of additives for hydrocarbon fuels intended for use in internal combustion engines.

In order to improve the operational properties of hydrocarbon fuels abroad, multifunctional additives have been developed, manufactured and widely consumed, such as OGA 451 and 452 from ORODEIL, L ₃ 8100 and 8150 from Lubrizol, MGA-10 from Petrolight, SAP-941 from Shell, Keropur 5130 and Keropur ES 3222 from BASF and others with detergent, anticorrosive, anti-icing and other properties.

Known detergent additive to hydrocarbon fuel, which is a reaction product of a polyol of the formula
HO (CH ₂ —CH ₂ —0) _a (CH ₃ —CH ₂ —CH ₂ —O) _b (CH ₂ —CH ₂ —O) _c —H, where a + c = 10-80,
b = 5-70, dibasic anhydride and N-alkylalkylenediamine of the formula
R ^I NHR ^II NH ₂ where R ^I = C ₁₂ -C ₁₈ , R ^II = C ₃ -C ₁₂ [1].

 The disadvantage of this additive is the lack of raw materials: the specified polyol and dibasic anhydride.

Known detergent additive to gasoline, which is the reaction product of a partial fatty acid ester of C ₆ -C ₂₀ or C ₈ -C ₁₆ and mono- or di- (hydroxyhydrocarbyl) amine [2]. Hydrocarbyl contains an alkyl group of composition C ₁ -C ₁₀ . As the amine, mono- or di-ethanolamine is used; as well as N- (betahydroxyethyl) amine; N, N- (bis) - (betahydroxyethyl) amine. As a fatty acid, oil is used, for example, palm, olive, castor, coconut and others. Mono- or di- (hydroxy-hydrocarbyl) amine has the following formula:
RCON (R ^II OH) _2-a (OH) _a , where R is C ₆ -C ₂₀ alkyl,
R ^II is a hydrocarbon radical With ₁ -C ₁₀ ,
a = 0 or 1.

 The disadvantage in this case is also a shortage of raw materials - natural vegetable oils: palm, olive, coconut, etc.

A detergent additive for motor fuel is also known, which is obtained by the interaction of vegetable oil or higher fatty acids (C ₁₀ -C ₂₅ aliphatic acids or C ₁₂ -C ₄₂ arylalkyl substituted acids) with polyamine (for example, tetraethylpentamine) and the subsequent reaction of the resulting product with alkylene oxide, for example, C ₃ H ₆ O [3].

 The disadvantage in this case is the complexity of the process associated with the need for the stage of oxyalkylation, for example, hydroxypropylation.

 In addition, all of the above additives have only one functional effect - washing ability.

 Closest to the proposed additive is an additive to gasoline containing, by weight. including 1.6-32 of the reaction product of the condensation of oleic acid and hydroxyethylethylenediamine; condensation reactions of oleic acid and hydroxyethylethylenediamine; 1.6-32 of a condensation reaction product between nonylphenol-polyglycol and ethylene oxide; 1.7-34 xylene; 0,1-2 isopropyl or isobutyl alcohol [4].

This additive has multifunctional properties:
detergents, anticorrosion, anti-icing to reduce toxic emissions (carbon monoxide), polluting the atmosphere.

 The disadvantage is the need to use scarce raw materials of plant origin (oleic acid) and its relatively low washing efficiency.

In order to create a multifunctional additive on available raw materials with a simultaneous increase in the main functional property - washing ability, an additive for hydrocarbon fuel containing a polyamine condensation product of the general formula
NH ₂ - (CH ₂ ) ₂ - [NH-CH ₂ -CH ₂ ] _n -NH ₂ , (1) where n = 0-4, with synthetic fatty acids (FFA) C ₇ -C ₂₀ , aliphatic alcohol C ₃ -C ₄ and a hydrocarbon fraction boiling in the temperature range 180-350 ^about With the following ratio of components, wt. %: Condensation product of a polyamine of general formula (1) with FFA C ₇ -C ₂₀ 5-10 Aliphatic alcohol C ₃ -C ₄ 25-40 Hydrocarbon fraction boiling in the temperature range 180-350 ^о С Up to 100
The use of the specified hydrocarbon fraction in the composition of the additive provides a significant increase in its washing efficiency.

To enhance the washing ability, the additive may further comprise polyethylene glycol monoalkylphenyl ether of the general formula
RC ₆ H ₄ -O- (C ₂ H ₄ -O) _n -H (2) where R is C ₈ -C ₁₀ alkyl,
n = 4-7, in an amount of 0.3-5 wt. %

Sharing of the condensation product of a polyamine with SLC C ₇ -C _20, aliphatic alcohol of C ₃ -C ₄ along with the high boiling hydrocarbon fractions boiling in the temperature range 180-350 ^C, and the addition of ether monoalkilfenilovogo poietilenglikolya allows to obtain an effective multipurpose additive to the hydrocarbon fuel possessing high detergent, anticorrosive and anti-icing properties with fuel economy of up to 3% and reduction of toxic emissions of carbon monoxide in exhaust gases a in cars up to 20%.

 The proposed additive can be added to gasoline of all grades in a concentration of 0.05-0.15%.

To obtain condensation products, use technical polyethylene polyamines (TU 6-02-594-85) and synthetic fatty acids of the fractions: C ₇ -C ₉ , C ₁₀ -C ₁₃ , C ₁₀ -C ₁₆ , C ₁₇ -C ₂₀ (GOST 23239- 78).

 Isopropyl alcohol (GOST 9805-84) or normal butyl alcohol (GOST 5208-81) is used as aliphatic alcohols.

Hydrocarbon fractions boiling in the temperature range 180-350 ^{° C,} is a process denormalizat "Parex".

 Polyethylene glycol monoalkylphenyl ethers of the general formula (2) are industrial products (TU 38.507-62-171-91).

The additive is prepared by condensing a polyamine with synthetic fatty acids by heating at 130-170 ^C to completely remove water from the reaction zone, followed by adding the remaining components under stirring.

 Five additive samples were prepared. The content of the components in them is given in wt. %

PRI me R 1. The condensation product of polyethylene polyamine of the General formula (1), where n = 0-4, with FFA C ₇ -C ₉ 5; normal butyl alcohol 25; hydrocarbon fraction boiling in the temperature range 180-350 ^о С - up to 100.

PRI me R 2. The condensation product of polyethylene polyamine of the General formula (1), where n = 0-4, with FFA C ₁₀ -C ₁₆ 10; isopropyl alcohol 40; hydrocarbon fraction boiling in the temperature range 180-350 ^о С - up to 100.

PRI me R 3. The condensation product of polyethylene polyamine of the General formula (1), where n = 0-4, with FFA C ₁₇ -C ₂₀ 7.5; isopropyl alcohol 35; hydrocarbon fraction boiling in the temperature range 180-350 ^о С - up to 100.

PRI me R 4. The condensation product of polyethylene polyamine of the General formula (1), where n = 0-4, with FFA C ₁₀ -C ₁₃ 5; normal butyl alcohol 30; polyethylene glycol monoalkylphenyl ether of the formula (2), where R = alkyl C ₉ , n = 6 5; hydrocarbon fraction boiling in the temperature range 180-350 ^о С - up to 100.

PRI me R 5. The condensation product of polyethylene polyamine of the General formula (1), where n = 0-4, with FFA C ₁₀ -C ₁₆ 7.5; normal butyl alcohol 35; polyethylene glycol monoalkylphenyl ether of the formula (2), where R = alkyl C ₈ , n = 4 0.3; hydrocarbon fraction boiling in the temperature range 180-350 ^о С - up to 100.

 Given the particular importance of the washing properties of the additive, comparative bench tests were conducted on the washing efficiency of the additive samples in comparison with the foreign counterpart [4].

Tests of these samples of additives in a concentration of 0.1 wt. % spent on a single-cylinder installation of IT methods of qualification assessment. Washing efficiency is determined by the coefficient of flushing (K _cm ) and the coefficient of prevention (K _CR ). The higher the specified coefficients, the more effective the additive.

 The table shows comparative data on the washing efficiency for the proposed samples of additives and foreign additives prototype [4].

 The data in the table indicate that the proposed additive samples in terms of washing properties exceed the sample of the foreign additive prototype. The best detergent properties are possessed by the additive sample of Example 4.

 The anti-icing effectiveness of the proposed additive samples was evaluated by the interagency motor method. Tests according to the specified method were carried out on a standard single-cylinder washing unit UIT-65 and it was shown that the additive samples have anti-icing properties. The introduction of additives in the fuel at a concentration of 0.1% is equivalent to 0.5% isopropyl alcohol.

 The anticorrosive properties of the additive samples are determined by the electrochemical method. It was found that the proposed additive samples for this property are at the level of the foreign additive sample - prototype [4].

 Thus, it can be seen from the presented test results that the proposed multifunctional additive for hydrocarbon fuel, obtained on the basis of available commodity-produced raw materials, has anticorrosive and anti-icing properties comparable to the foreign additive model - prototype, and significantly exceeds it in terms of washing efficiency.

 The use of the proposed additives in gasoline of any brand in a concentration of 0.05-0.15 wt. % will improve their operational properties as a result of fuel savings of up to 3% and environmental improvement by reducing toxic carbon monoxide emissions up to 20% in automobile exhaust gases. (56) 1. U.S. Patent No. 4,643,734, cl. C 10 L 1/22, 1987.

 2. US patent N 4729769, CL. C 10 L 8/22, 1988.

 3. US patent N 4737160, CL. C 10 L 1/22, 1988.

 4. Romanian patent N 95627, cl. C 10 L 10/04, 1988.

Claims (1)

1. Additive to a hydrocarbon fuel containing a condensation product of a polyamine with monocarboxylic acid and an aliphatic alcohol C ₃ -C ₄ , characterized in that the condensation product of a polyamine with monocarboxylic acid contains a condensation product of a polyamine of the general formula NH ₂ - (CH ₂ )

NH-CH ₂ -CH

NH ₂
where n = 0-4,
with synthetic fatty acids C ₇ -C ₂₀ and additionally contains a hydrocarbon fraction boiling in the range of 180-350 ^o With the following ratio of components, wt. %:
The condensation product of a polyamine of General formula
5-10
Aliphatic alcohol C ₃ -C ₄ 25-40
Hydrocarbon fraction up to 100
2. The additive according to claim 1, characterized in that it further comprises 0.3-5.0% of polyethylene glycol monoalkylphenyl ether.

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