RU2121493C1 - Fuel composition - Google Patents

Abstract

FIELD: liquid fuels. SUBSTANCE: objective of invention is to produce all-purpose fuel composition for Otto and diesel automotive engines with improved anti-knock, anti-carbon deposit, and anti-smoke characteristics. Objective is achieved through using fuel composition containing, wt %: gasoline A-76 or AI-93 or diesel fuel, 99.995-99,980; 3,5,3Т,5Т-tetra-twert-butyl-4,4- dihydroxydiphenylmethane, 0.004-0.016; 3,5,3Т,5Т-tetra-tert- butylindophenol, 0.0001-0.0004; and ferrocene, 0.0009-0.0036. EFFECT: improved working characteristics. 5 tbl

Description

 The invention relates to fuels for carburetor and diesel engines and can be used in any sector of the national economy, where gasoline or diesel fuel is produced or used.

 The invention relates to compositions based on diesel fuels or industrial motor gasolines that do not contain tetraethyl lead and iron oxide scavengers and contain anti-knock, anti-burn and anti-smoke additives.

 Known fuel composition (TC) for diesel engines, containing as antimoke additives cyclopentadienyltricarbonyl manganese, lycetin and dehydrogenated castor oil (RF patent 2009175, class C 10 L 1/10, 1994). The composition provides smoke control up to 36%, but its disadvantage is that it is toxic due to the content of cyclopentadienyltricarbonyl manganese and cannot be recommended for gasoline engines due to the content of dehydrated castor oil in it.

 Known fuel compositions for gasoline engines containing ferrocene or its derivatives as anti-knock additives (US Pat. No. 4,336,033, class C 10 L 1/18, 1982; US patent N 4389220, class C 10 L 1/08, 1983). TCs provide an increase in the octane number of the base hydrocarbon composition, but the drawback when using it is the formation of iron oxide deposits in the combustion chamber that cannot be tolerated by the combustion products, which leads to their constant accumulation and reduction of the spark gap to the extent that leads to interruptions in engine operation. The composition is not applicable for diesel engines.

 Closest to the claimed technical essence is a hydrocarbon-based fuel composition for internal combustion engines that does not contain lead compounds and iron oxide scavengers and contains ferrocene as an antiknock additive (RF patent 2019559, class C 10 L 1 / 18, 1994).

 The use of additives in an amount of 0.01-0.20 wt.% Provides an increase in the octane number by 1.8-2.0 units, but there is a tendency to significant carbon formation compared to the base hydrocarbon mixture. Reducing the amount of additive to 0.001 wt.% Almost eliminates carbon formation, but the octane number increases by only 0.3 units. In addition, the additive is not recommended for diesel engines.

 The aim of the invention is the development of a universal fuel composition for carburetor and diesel engines with improved anti-knock, anti-stick and anti-smoke characteristics.

This goal is achieved by using a fuel composition containing unleaded gasoline A-76 or AI-93 as a base hydrocarbon component for carburetor or diesel fuel in accordance with GOST 305-82 for diesel engines, and as anti-knock, anti-fouling and anti-smoke additives: 3.5, 3 ', 5'-tetra-tert-butyl-4,4-dihydroxydiphenylmethane; 3,5,3 ', 5'-tetra-tert-butylindophenyl and dicyclopentadienyl iron (ferrocene) in the following ratio, wt.%:
Gasoline (A-76 or AI-93, GOST 2084-77) or diesel fuel (GOST 305-82) - 99.995 - 99.980
3,5,3 ', 5'-Tetra-tert-butyl-4,4-dihydroxydiphenylmethane - 0.004 - 0.016
3,5,3 ', 5'-Tetra-tert-butylindophenol - 0.0001 - 0.0004
The effectiveness of the composition (triple effect) is ensured by the authors, they found a relationship between the lifetime of phenoxyl free radicals and their effectiveness in interacting with coke-like multinuclear aromatic hydrocarbons.

 Therefore, shielded phenols that generate these radicals during autooxidation prior to combustion were chosen for research.

и 3,5,3',5'-тетра-трет-бутилиндофенол

соответственно генерирующие гальваноксил в соединении (1):

и радикал Коопингера в соединении

Время жизни каждого из указанных свободных радикалов намного превышает соответствующий параметр других пространственно-затруднительных фенолов (ПЗФ).The most effective were
3,5,3 ', 5'-tetra-tert-butyl-4,4-dihydroxydiphenylmethane:

and 3,5,3 ', 5'-tetra-tert-butylindophenol

respectively generating galvanoxyl in compound (1):

and the coopinger radical in conjunction

The lifetime of each of these free radicals far exceeds the corresponding parameter of other spatially-difficult phenols (PZP).

 Obviously, the triple effect of the claimed fuel composition is due to the fact that in the presence of ferrocene, fast dehydrogenation of PZP (compounds 1 and 2) occurs. With the formation of the above radicals, according to the literature, there are no other PZPs with comparable lifetimes of the corresponding radicals, just as a similar effect cannot be achieved using alkylated ferrocenes, which are often used as additives in TCs, since their dehydrogenation ability is an order of magnitude lower .

 The total content in TC of the components of antipyretic, antidim, and octane enhancing additives is 0.005-0.02 wt.%.

 The composition used in specific cases of the fuel composition is determined by the condition of the engine.

TC with a minimum content of components of the additive composition, wt.%:
Gasoline or Diesel - 99.995
3,5,3 ', 5'-Tetra-tert-butyl-4,4-dihydroxydiphenylmethane - 0.004
3,5,3 ', 5'-Tetra-tert-butylindophenol - 0.0001
Dicyclopentadienyl iron (ferrocene) - 0,0009
It is recommended for engines with low mileage, low soot on candles and small gumming on nozzles, low wear on cylinder liners of a diesel engine, i.e. with good condition of carburetor and diesel engines.

A composition with a maximum content of components of the additive composition, wt. %:
Gasoline or diesel - 99.98
3,5,3 ', 5'-Tetra-tert-butyl-4,4-dihydrooxydiphenylmethane - 0.016
3,5,3 ', 5'-Tetra-tert-butylindophenol - 0,0004
Dicyclopentadienyl iron (ferrocene) - 0.0036
It is recommended for high-smoke engines or for engines with a large soot on candles of carburetor engines or significant tar deposits on nozzles and slot filters of diesel automobile engines.

 The use of a fuel composition with an additive component content of less than the indicated amounts is not recommended due to a decrease in its effectiveness.

 When the content of 3,5,3 ', 5'-tetra-tert-butyl-4,4-dihydroxydiphenylmethane less than 0.004 wt. % in the TC does not ensure the destruction of the previously formed ion, the effectiveness of the TC decreases. With its content of more than 0.016 wt.%, The rate of actual resins in the initial fuel increases.

 When the content of 3,5,3 ', 5'-tetra-tert-butylindophenol is less than 0.0001 wt.%, The concentration of the free stable radical involved in the process of inhibition of detonation is not ensured, its content of more than 0.0004 wt.% Is impractical for economic reasons .

 When the ferrocene content is less than 0.0009 wt.%, The required degree of dehydrogenation of the first two components of the additive is not provided, the TC is ineffective in its anti-stick and antiknock properties, the ignition delay period of the fuel in the diesel engine increases, and the content of ferrocene in the TC in an amount greater than the specified upper limit requires introduction in it iron-releasing components, for example, alkyl halogens. In addition, the use of TC with the content of the additive components of more than the indicated amounts is impractical for economic reasons.

 The inventive TC is very convenient to use. The components of the additive are pre-mixed and tableted. Dry solid tablets can be introduced into gasoline or diesel fuel at any stage - from their production to gas stations and car tanks.

 The composition is non-toxic, as for 3,5,3 ', 5'-tetra-tert-4-dihydroxydiphenylmethane, LD is not installed (Harmful substances in industry. Chemistry, ed. 7, v.1, 1976, p. 230) .

 According to the Bashkir Medical Institute, indophenol is a low-toxic substance; its LD is also not established.

 Ferrocene belongs to the connectors of the 4th hazard group (Harmful substances in industry, v.2, 1977).

 In the table. 1 presents the compositions (in wt.%) Of the claimed composition, in table. 2,3 - some operational properties that are improved when using TC in relation to the base fuel, in table. 4,5 - physico-chemical properties of the claimed TC and base fuel.

The base gasoline in the composition is unleaded gasoline of the brand A-76 or AI-93 according to GOST 2084-77, or diesel fuel (d / t) according to GOST 305-82 (specifically, examples are made using d / t brand
L-0.5-40 - GOST 305-82
3-0.5 minus 45 - GOST 305-82
A-0.2 first grade - GOST 305-82
those. fuel grades with the worst sulfur content were selected).

 The CO content in the exhaust gases of gasoline engines was determined in road conditions using portable gas analyzers GAI-1.

 The operational characteristics of the fuel composition (Tables 2, 3) were evaluated by qualification interdepartmental assessment methods (KMMO) (Gureev A. A., Seregin A. P., Azev V. S. Qualification test methods for petroleum fuels. M .: Chemistry 1984).

 Analysis of the data given in table. 2 shows that the fuel composition has an octane number of 1.8-2.3 units (depending on the quantitative content of the additive) higher than base gasoline, however, a significant effect of reducing the tendency of TC to carbon formation is also manifested (by 5 -8% higher than base gasoline).

 The additive of the prototype provides a five-fold greater increase in soot relative to base gasoline with the same increase in octane as in the inventive composition (example 8 of the prototype), and only when the concentration of the additive is reduced to 0.001 wt.%, The carbon formation remains at the initial level hydrocarbon fraction (example 11 of the prototype), but the octane number increases by only 0.3 units.

 Studies of the nature of the carbon deposits on the spark plugs of a VAZ 2103 gasoline engine using a MIN-8 microscope showed that the resulting carbon deposits are microporous, loose and this provides, apparently, an easy removal of iron oxides from the combustion system using fuel combustion products.

 In addition, weighing the carbon deposit after 30 and 60 minutes of the operation of the UD-15 installation showed that approximately 2/3 of the carbon deposits on its surface are deposited for 1/2 hour, i.e. for the second 1/2 hour of engine operation, the growth of soot mass slows down and the gap between the ignition electrodes is stabilized, determined during the 60-hour operation of the VAZ 2103 engine (5-hour cycles) under various modes and performance in laboratory conditions.

 The measurements were made using the projector "Light" with an increase of x 100. Moreover, if at the maximum amount of additives according to the prototype (0.02 wt.% After 60 hours, the clearance decreases to 33% (example 8 according to the prototype), then when using the inventive composition with the same additive content, the maximum gap reduction is 12 rel.% (Example 10, Table 2).

 The introduction of additives according to the prototype in an amount of 0.01 wt.%, Provides a reduction in the content of CO in the exhaust gases by 18 rel.% (Example 4, Table 2), the claimed TC with the same content of the additive in it has half the content of CO in the exhaust gases in relation to base gasoline (example 9, table. 2). An analysis of the performance indicators of fuel oil based on diesel fuel (Table 3) shows that the exhaust fumes are reduced by an average of 38% relative to the original diesel fuel.

 All indicators characterizing the tendency of diesel fuel to carbonization improve. After 15 hours of testing the fuel composition, the mass of deposits on the slotted filters is 32% less on average than when burning the base d / t, the thickness of the resinous-varnish deposits on the nozzle nozzle needle when the composition is used decreases on average by 36 rel.%.

 The mass of carbon deposits on a removable carbon deposit placed in the combustion chamber of a single-cylinder IT 9-3 unit when testing the inventive composition is on average 30 rel.% Less than the base d / t.

 The inventive composition based on d / t allows approximately 7% to reduce fuel consumption (table 3).

 Physico-chemical indicators of the claimed composition are at the level.

 Thus, the inventive fuel composition provides a simultaneous threefold effect of improving operational performance: the octane number increases, the smoke content decreases (CO content in the exhaust gases), and the tendency to carbon formation decreases.

Claims (1)

A fuel composition for internal combustion engines based on hydrocarbon fuel that does not contain lead compounds and scavengers of iron oxides, with the addition of an anti-knock, anti-smoke and anti-burn additive, characterized in that the composition contains 3,5,3 'as an anti-knock, anti-smoke and anti-burn additive 5'-tetra-tert-butyl-4,4-dihydroxy-diphenylmethane; 3,5,3 ', 5'-tetra-tert-butyl indophenol and ferrocene and as fuel contains gasoline with an octane rating of 76 or 93, or diesel fuel in the following ratio, wt.%:
3,5,3 ', 5'-Tetra-tert-butyl-4,4-dihydroxy-diphenylmethane - 0.004 - 0.016
3,5,3 ', 5'-Tetra-tert-butyl-indophenol - 0.0001 - 0.0004
Ferrocene - 0.0009 - 0.0036
Gasoline with an octane rating of 76 or 93, or diesel - 99.995 - 99.98e

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