RU2208040C1 - Hydrocarbon fuel additive - Google Patents

Abstract

FIELD: petroleum processing and petrochemistry. SUBSTANCE: fuel additive, in particular additive for motor car gasolines, used for lowering fuel loss from evaporation upon storage contains, wt %: fluorine-containing quaternary ammonium salt of formula C₈F₁₇CONCHC₃H₆N(C₂H₄OH)(CH₃)₂Cl, 1-3; polyether based on ethylene oxide and propylene oxide with molecular weight 2501, 3-7; phthalic acid dinonyl ester, 1-3; phthalic acid dibutyl ester, 1-3; and 1-butanol, the balance. Use of additive lowers evaporation loss under tank storage conditions by 42.0-44.4% or by 1.3-3.7% as compared to known additive. EFFECT: increased antievaporation efficiency and achieved 200-fold reduction in concentration of additive in fuel. 2 tbl

Description

 The invention relates to petrochemistry, and more specifically to compositions of additives to fuels, in particular to automobile gasolines, added in order to reduce their losses from evaporation during storage, and can be used at oil depots and fuel depots.

 Known additive, consisting of a fluorine-containing surfactant, polyester based on ethylene oxide and propylene oxide with a mol.m. 2500 cu, ethylene glycol and aliphatic alcohol (butanol-1).

 However, this additive has a high concentration of components and low efficiency of the action to reduce fuel loss from evaporation during storage [1 - Usin V.V., Ulitko A.V. and other Environmental protection during the use of fuels and operation of transport, Ulyanovsk .: UTTSNTIP, 1993. S. 25].

 Also known is an additive consisting of a fluorine-containing surfactant, polyester based on ethylene oxide and propylene oxide per mol. m. 3503 a. e., ethylene glycol and aliphatic alcohol, selected as a prototype. The additive contains, wt.%: Fluorine-containing Quaternary ammonium salt 4,5-5,5; polyester based on ethylene oxide and propylene oxide with a mol.m. 3503 - 47.0-49.0; ethylene glycol 4.5-5.5; butanol-1 - up to 100. This additive is used to reduce evaporation losses when introduced directly into hydrocarbon fuels in a concentration of 0.2 wt.%. The experience of using the additive indicates its lack of effectiveness in reducing fuel loss from evaporation during storage [1 - V. Usin, A. V. Ulitko and other Environmental protection during the use of fuels and the operation of transport, Ulyanovsk .: UTTSNTIP, 1993. S. 34-35].

 An object of the invention is to increase the effectiveness of the additive to reduce the rate of evaporation of hydrocarbon fuels when they are stored in tanks at oil depots and fuel depots while reducing the concentration of the additive in the fuel.

The stated technical problem is achieved in that the known additive to hydrocarbon fuels based on aliphatic alcohol with the addition of a fluorine-containing quaternary ammonium salt of the formula C ₈ F ₁₇ CONCHC ₃ H ₆ N (C ₂ H ₄ OH) (CH ₃ ) ₂ Cl, an oxide-based polyester ethylene and propylene oxide, according to the invention as the polyester based on ethylene oxide and propylene oxide contains a polyester with a mol.m. 2501 cu and additionally contains dinonyl and dibutyl esters of phthalic acid in the following ratio of components, wt.%:
A fluorine-containing quaternary ammonium salt of the formula C ₈ F ₁₇ CONCHC ₃ H ₆ N (C ₂ H ₄ OH) (CH ₃ ) ₂ Cl - 1.0 - 3.0
Polyester based on ethylene oxide and propylene oxide with a mol.m. 2501 - 3.0 - 7.0
Phthalic acid dinonyl ester - 1.0 - 3.0
Phthalic acid dibutyl ester - 1.0 - 3.0
Butanol-1 - Else
The fluorine-containing quaternary ammonium salt of the formula C ₈ F ₁₇ CONCHC ₃ H ₆ N (C ₂ H ₄ OH) (CH ₃ ) ₂ Cl is a waxy substance of a light brown color, hygroscopic, soluble in alcohols. It has a density of 1560-1600 kg / m ³ , a melting point of 80 ^o C, the chlorine content is 5.0-5.6 wt.%. Technical name "HOUR 9". It is developed according to TU 6-02-2-817-84.

Polyester based on ethylene oxide and propylene oxide with a mol.m. 2501 is a syrupy, colorless liquid. The content of hydroxyl groups is 1.5-1.7%, the acid number is <0.1 mg KOH / g, the Heppler viscosity at 25 ^o C is 450-600 MPa • s, the density is 1010 kg / m ³ , mol. m. - 2501 at. e. The technical name is Laprol-2501. It is developed according to TU 6-05-221-484-79.

Phthalic acid dinonyl ether is a viscous, colorless liquid. It has a density of 986 kg / m ³ , T _bale - 387 ^o C, T _stas - minus 50 ^o C. It is produced according to TU 6-09-280-83. It is used as a plasticizer for vinyl polymers, rubbers, cellulose ethers, polystyrene [2 - Chemical Encyclopedia: 5 tons: Vol. 2: Knunyants I.L. et al. M .: Sov. enzikl., 1988. S. 74-75].

Phthalic acid dibutyl ether is a clear, colorless or slightly yellowish oily liquid. It has a density of 1047 kg / m ³ , T _bales - 340 ^o C, T _stas - minus 40 ^o C. It is produced according to TU 6-05-5119-81. It is used as a plasticizer for vinyl polymers, rubbers, cellulose ethers, polystyrene [2 Chemical encyclopedia: 5 tons: v.2: Knunyants I.L. and others. M .: Sov. encycl., 1988. S. 74-75].

Butanol-1 is a colorless transparent liquid. It has a density of 800-830 kg / m ³ , T _bales - 108 ^o C. It is produced by industry in accordance with GOST 6006. It is used as a solvent in the paint and varnish industry [3 Chemical Encyclopedia: 5 tons: v.1: Knunyants I.L. and others. M .: Sov. enzikl., 1988. S. 336-337].

These signs are essential for solving the problem of the invention. Since the synergistic effect of the interaction of a fluorine-containing quaternary ammonium salt of the formula C ₈ F ₁₇ CONCHC ₃ H ₆ N (C ₂ H ₄ OH) (CH ₃ ) ₂ Cl with a polyester based on ethylene oxide and propylene oxide with a mol. m. 2501, dinonyl and dibutyl ethers of phthalic acid can reduce the loss of fuel from evaporation while reducing the concentration of additives in the fuel.

To prepare the additive, a fluorine-containing quaternary ammonium salt of the formula C ₈ F ₁₇ CONCHC ₃ H ₆ N (C ₂ H ₄ OH) (CH ₃ ) ₂ Cl is dissolved in butanol-1. The resulting solution is mixed with polyester based on ethylene oxide and propylene oxide with a mol.m. 2501, dinonyl and dibutyl esters of phthalic acid.

 The proposed additive is introduced into motor gasoline at a concentration of 0.001 wt.% After filling the tank with fuel.

 To justify the quantitative composition of the additive, samples were prepared (Table 1), which were tested in the composition with motor gasoline A-76 according to GOST 2084. Samples 1-5 (Table 1) differ in the percentage of components in the proposed additive.

 The effectiveness of the additive was estimated by the average evaporation rate of hydrocarbon fuel during storage under static conditions for five days relative to the fuel without additives and fuel with the prototype additive.

 The test results of the additives are presented in table.2.

Tests for the evaporation rate were carried out under static conditions in glass beakers with an evaporation area of 12.44 cm ² at an air temperature of 18-20 ^o C and a relative humidity of 85-95%. The error in determining the evaporation rate is ± 0.05 g / day m ² .

 Additionally, indicators of the main operational properties that determine the effectiveness of the use of motor gasolines were evaluated: octane rating [4 - GOST 511. Fuel for engines. Motor method for determining the octane number]; weight of low-temperature deposits in the engine intake system according to the methodology approved by the State Interdepartmental Commission (MMC) [5 - GMK Decision 23 / 1-78 dated 05/17/78].

 When adding the proposed additive to hydrocarbon fuels in an amount of 0.001 wt.%, Fuel quality indicators vary within the deviations allowed by GOST for test methods.

An analysis of the results of Table 2 allows us to conclude that the most preferred are samples of additives 2–4 (row 2, columns 5–7) containing wt%: a fluorine-containing quaternary ammonium salt of the formula C ₈ F ₁₇ CONCHC ₃ H ₆ N (C ₂ H ₄ OH) (CH ₃ ) ₂ Cl - 1.0-3.0; polyester based on ethylene oxide and propylene oxide with a mol. m. 2501 cu 3.0-7.0; phthalic acid dinonyl ester 1.0-3.0; phthalic acid dibutyl ester 1.0-3.0; butanol-1 - the rest. The decrease in the content of fluorine-containing quaternary ammonium salt in the additive is less than 1.0 wt.% (Sample 1) leads to a significant increase in the rate of evaporation of motor gasolines relative to the fuel with the prototype additive (row 1, column 4); an increase in the content of fluorine-containing quaternary ammonium salt in the additive above 3.0 wt.% (sample 5) slightly changes the evaporation rate of gasoline (row 1, column 8).

The use of the invention will significantly reduce the loss of gasoline from evaporation during storage in tanks at oil depots and fuel depots. So, for example, in a ground vertical tank with a capacity of 1000 m ³ when storing gasoline with the proposed additive for 1 year in the 2nd climate zone, the savings from reducing fuel losses will be more than 1300 kg.

Sources of information
1. Usin VV, Ulitko A.V. et al. Environmental protection during the use of fuels and operation of vehicles, Ulyanovsk .: UTTSNTIP, 1993. P. 25 (analogue). S. 34-35 (prototype).

 2. Chemical Encyclopedia: In 5 volumes: Volume 2: Knunyants I.L. et al. M .: Sov. enzikl., 1988.S. 74-75.

 3. Chemical encyclopedia: In 5 volumes: Volume 1: Knunyants I.L. et al. M .: Sov. enzikl., 1988. S.336-337.

 4. GOST 511. Fuel for engines. Motor method for determining the octane number.

 5. The decision of the MMC 23 / 1-78 of 05.17.78

Claims (1)

Additive to hydrocarbon fuels based on aliphatic alcohol with the addition of a fluorine-containing quaternary ammonium salt of the formula C ₈ F ₁₇ CONCHC ₃ H ₆ N (C ₂ H ₄ OH) (CH ₃ ) ₂ Cl, a polyester based on ethylene oxide and propylene oxide, characterized in that as a polyester based on ethylene oxide and propylene oxide, it contains polyester with a mol.m. 2501 cu and additionally contains dinonyl and dibutyl esters of phthalic acid in the following ratio of components, wt.%:
Fluorine-containing Quaternary ammonium salt of the formula C ₈ F ₁₇ CONCHC ₃ H ₆ N (C ₂ H ₄ OH) (CH ₃ ) ₂ Cl - 1.0-3.0
Polyester based on ethylene oxide and propylene oxide with a mol.m. 2501 - 3.0-7.0
Phthalic acid dinonyl ester - 1.0-3.0
Phthalic acid dibutyl ether - 1.0-3.0
Butanol-1 - The rest

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