RU2723116C1 - Anti-wear additive to diesel fuel with ultra-low content of sulfur - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: invention relates to oil refining and petrochemistry, particularly, to additives to low-sulfur diesel fuel, which improves its lubricating properties. Composition of anti-wear additive to low-sulfur diesel fuel based on esters of organic acids, amido-imidazolines and amines is characterized by that it contains esters obtained by means of esterification of fatty acids of various vegetable oils, and the additive further contains amido-imidazolines and amines containing from 21 to 31 carbon atoms, with the following ratio of components, wt%: esters obtained by esterification of fatty acids of various vegetable oils 40–41; amido-imidazoline 36–37; amines containing 21 to 31 carbon atoms, the rest.EFFECT: technical result consists in improvement of lubricating power of diesel fuel with ultralow content of sulfur, which increases service life of diesel engine, prevents premature wear of fuel equipment parts.1 cl, 3 tbl, 7 ex

Description

The invention relates to oil refining and petrochemicals, in particular to additives for low-sulfur diesel fuel, improving its lubricating properties.

The known composition of antiwear additives to low-sulfur diesel fuel (RF patent No. 2267518, publ. 08/10/2005), including distilled tal oil 40-95% of the mass. and polyalkylbenzene 5-60% of the mass.

The main disadvantage of this additive is the lack of anti-wear efficiency, the smallest achievable wear spot diameter is 355 microns, as well as poor compatibility with water.

Known antiwear fuel additive with low sulfur content for diesel engines (RF patent No. 2289612, publ. 06/20/2006), where the additive is a composition of tall oil and propylene pentamers in a mass ratio of from 3-9 / 1.

The disadvantage of this additive is low anti-wear efficiency, the smallest achievable wear spot diameter is 315 microns.

The known composition of antiwear additives for low-sulfur diesel fuel (RF patent No. 2401861, publ. 20.10.2010), including distilled tall oil (or tall fatty acids) and the head fraction of hydrodeparaffinized diesel fuel in a mass ratio equal to (1-5) / 1 respectively.

The main disadvantage of this additive is the lack of anti-wear efficiency, the smallest achievable wear spot diameter is 315 microns, modern diesel fuels must have an increasingly high level of cetane number, which is achieved through the use of cetane-raising additives. At the same time, the possibility of the presence of antagonism of the use of these additives in diesel fuels is known [Mitusova T.N., Polina E.V., Kalinina M.V. Modern diesel fuels and additives to them. - M .: Publishing house "Technique", 2002. - 64 p.]. In this regard, the proposed anti-wear additive should be compatible with cetane-raising additive.

The known composition of antiwear additives for low-sulfur diesel fuel (RF patent No. 2529678, publ. 09/27/2014) based on carboxylic acids, while it additionally contains polyethylene polyamine, and technical alkyl (C16-C18) salicylic acids are used as carboxylic acids the weight ratio of polyethylene polyamine: technical alkyl (C16-C18) salicylic acids, equal to 0.007-0.035: 1.0.

The disadvantage of this additive is the lack of anti-wear efficiency, the smallest achievable wear spot diameter is 331 microns.

The known composition of antiwear additives for low-sulfur diesel fuel (RF patent No. 2254358, publ. 06/20/2015), adopted as a prototype, based on 80-99 mass. % esters of organic acids; 0.5-19.5 mass. % ester of monocarboxylic acid and alkylolamine and 0.5-2 mass. % monocarboxylic acid amide and alkylolamine.

The disadvantage of this additive is the lack of anti-wear efficiency, the smallest achievable wear spot diameter is 376 microns.

The technical result is to improve the lubricity of diesel fuel with ultra-low sulfur content, which increases the life of the diesel engine, prevents premature wear of fuel equipment parts. The proposed composition of the additive will reduce the diameter of the fuel spot - the main characteristic of the lubricity of the fuel.

The technical result is achieved in that the additive additionally contains amido-imidazolines and amines containing from 21 to 31 carbon atoms, in the following ratio of components, mass. %:

esters obtained by the process esterification of fatty acids of various vegetable oils 40-41 amido-imidazolines 36 - 37 amines containing from 21 to 31 carbon atoms rest.

The inventive additive composition for improving the lubricating properties of low-sulfur hydrotreated diesel fuel includes the following substances,% of the mass:

- esters obtained using the process of esterification of fatty acids of various vegetable oils - 40-41;

- amido-imidazolines - 36 - 37;

- amines containing from 21 to 31 carbon atoms - the rest.

As esters of organic acids, esters obtained by the process of esterification of fatty acids of various vegetable oils can be used, and substances containing a functional group —NH ₂ and from 21 to 31 carbon atoms can be used as amines.

The effectiveness of the proposed composition is proven by laboratory tests. Studies were conducted to determine the lubricity of the samples at different concentrations of antiwear additives in hydrotreated diesel fuel (fuel properties are given in table 1) when testing with the HFRR apparatus (High Frequency Reciprocating Rig - test bench for high-frequency reciprocating motion).

The result was an improvement in the lubricating properties of hydrotreated diesel fuel.

Reducing the adjusted diameter of the wear spot (SDPI) of fuel by 42% (SDPI for base diesel fuel is 443 microns, and when using 0.1% of additive C DI is 258 microns), it can be concluded that the additive used is sufficiently effective as a lubricant a reagent that reduces the SDPI of hydrotreated diesel fuel.

The composition is illustrated by the following examples.

Example 1. An antiwear additive, consisting of 40% organic acid esters, 36% amido-imidazolines and 24% amines, is introduced into hydrotreated diesel fuel in an amount of 0.005% by weight.

With the introduction of this quantity of additive, the diameter of the wear spot decreases to 384, which is 13.3% less than that of the initial fuel (Table 2).

Example 2. Anti-wear additive, consisting of 40% of esters of organic acids, 37% of amido-imidazolines and 23% of amines, is introduced into hydrotreated diesel fuel in an amount of 0.005% of the mass.

With the introduction of this quantity of additive, the diameter of the wear spot decreases to 401 microns, which is 9.4% less than that of the initial fuel (Table 2).

Example 3. Anti-wear additive, consisting of 41% of esters of organic acids, 36% of amido-imidazolines and 23% of amines, is introduced into hydrotreated diesel fuel in an amount of 0.005% of the mass.

With the introduction of this quantity of additive, the diameter of the wear spot decreases to 364 μm, which is 17.8% less than that of the initial fuel (Tables 2, 3).

Example 4. Anti-wear additive, consisting of 41% of esters of organic acids, 37% of amido-imidazolines and 22% of amines, is introduced into hydrotreated diesel fuel in an amount of 0.005% of the mass.

With the introduction of this quantity of additive, the diameter of the wear spot decreases to 370 μm, which is 16.4% less than that of the initial fuel (Table 2).

The following examples show a change in the lubricity of a fuel as a function of the concentration of antiwear additives in hydrotreated diesel fuel.

Example 5. An antiwear additive, consisting of 41% organic acid esters, 36% amido-imidazolines and 23% amines, is introduced into hydrotreated diesel fuel in an amount of 0.01% by weight.

With the introduction of this quantity of additive, the diameter of the wear spot decreases to 329 μm, which is 25.7% less than that of the initial fuel (Table 3).

Example 6. Anti-wear additive, consisting of 41% of esters of organic acids, 36% of amido-imidazolines and 23% of amines, is introduced into hydrotreated diesel fuel in an amount of 0.02% of the mass.

With the introduction of this quantity of additive, the diameter of the wear spot decreases to 282 μm, which is 36.3% less than that of the initial fuel (Table 3).

Example 7. Anti-wear additive, consisting of 41% of esters of organic acids, 36% of amido-imidazolines and 23% of amines, is introduced into hydrotreated diesel fuel in an amount of 0.1% of the mass.

With the introduction of this quantity of additive, the diameter of the wear spot decreases to 258 μm, which is 41.7% less than that of the initial fuel (Table 3).

Thus, the proposed technology allows to improve the lubricity of hydrotreated diesel fuel with ultra low sulfur content.

Thus, the proposed technology allows to improve the lubricity of hydrotreated diesel fuel with ultra low sulfur content.

Claims (2)

Anti-wear additive for diesel fuel with ultra-low sulfur content, containing esters obtained by the process of esterification of fatty acids of various vegetable oils, characterized in that the additive additionally contains amido-imidazolines and amines containing from 21 to 31 carbon atoms, in the following ratio of components mass. %: esters obtained by the process esterification of various vegetable fatty acids oils 40-41 amido-imidazolines 36-37 amines containing from 21 to 31 carbon atoms rest