RU2708887C1 - Composition and method of obtaining a package of additives for hydraulic oils and multigrade hydraulic oil containing - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to oil processing and petrochemistry, specifically to composition and method of producing additive package for all-year hydraulic oil for hydraulic systems of industrial equipment and all-season hydraulic oil containing this package. Method of preparing a package of hydraulic oil additives for industrial equipment involves heating of hindered alkylphenols (30.0–54.0 wt%) at 65–75 °C and constant stirring (500 rpm), sequential administration over a certain period of time (with interval of 10-15 minutes) of zinc dialkyl dithiophosphate (30.0–54.0 wt%), alkyl salicylate of calcium (5.0–25.0 wt%), nitrogen-containing glycine derivative (0.5–5.0 wt%) and N-alkylated benzotriazole (0.5–2.0 wt%), modified polyols in xylene (0.5–2.0 wt%) and diluent oil (3.0–10.0 wt%), followed by filtration through a filter material with pore size of 2 to 5 mcm.

EFFECT: improved processability of the additive package, as well as compatibility with the polymethacrylate thickener to ensure the required performance properties of all-season hydraulic oils, particularly used in hydraulic systems of industrial equipment and mobile equipment.

3 cl, 3 tbl

Description

The invention relates to the field of oil refining and petrochemicals. Specifically to the composition and method of obtaining a package of additives for hydraulic oils and multigrade hydraulic oil containing this package of additives.

With an increase in the specific power of modern hydraulic equipment, the conditions for the use of hydraulic oils are being tightened, which are associated not only with an increase in the frequency of its circulation in the lubrication system at elevated temperatures and operating pressures, but also with an increase in the risks of water cut. In this regard, high requirements are imposed on hydraulic oils for hydrolytic stability and filterability in the presence of water. The improvement of these indicators will significantly increase the life of the oil, as well as extend the overhaul period of expensive equipment, including filter elements.

Known oil for hydraulic systems of industrial equipment (US Pat. RF No. 1735348, C10M 161/00, publ. BI No. 11 of 04/20/1997), which in order to reduce emulsifiability and improve antiwear properties, contains. %: zinc dialkyldithiophosphate - 0.5-0.7, trinonylphenylphosphite - 0.5-0.7, detergent-dispersant additive - 1.0-1.2, dibutylparacresol - 0.5-0.7, nitrogen-containing block copolymer oxides of ethylene and propylene - 0.03-0.05 and petroleum oil - up to 100.

Known oil for hydraulic systems (US Pat. RF №2139922, C10M 161/00, publ. 10/20/1999), which to improve thermal stability contains, by weight. %: zinc dialkyldithiophosphate - 0.85-1.05; polymethacrylate - 0.30-0.60; dibutylparacresol - 0.40-0.60; polymethylsiloxane - 0.003-0.005; calcium sulfonate - 0.02-0.10; calcium alkyl salicylate or barium or calcium alkyl phenolate 0.02-0.10; nitrogen-containing block copolymer of ethylene oxide and propylene oxide - 0.03-0.05.

Known oil for hydraulic systems of industrial equipment (US Pat. RF No. 2565763, C10M 161/00, publ. 10/20/2015), which for higher filterability in the presence of water contains: wt. %: dibutylparacresol 0.40-0.60; zinc butyl octyl dithiophosphate 0.30-0.50; calcium alkyl salicylate 0.05-0.15; trialkyl phosphate 0.10-0.20; modified polyols in xylene 0.01-0.02; polymethylsiloxanes 0.003-0.007; petroleum oil - up to 100.

The disadvantages of these hydraulic oils are their low hydrolytic stability and poor filterability in the presence of water.

The effectiveness of the production of lubricants is primarily associated with the use of additive packages, the use of which not only reduces the number of technological operations, but also improves the operational properties of the oil itself due to synergism in compounding various types of additives.

Closest to the claimed technical solution (prototype) is oil for hydraulic systems of industrial equipment (US Pat. RF No. 2575171, С10М 157/00, publ. 02.20.2016), which contains a package of additives, wt., To improve hydrolytic stability and filterability in the presence of water. . %:

Zinc dialkyldithiophosphate 30.0-54.0 Calcium Alkyl Salicylate 5.0-25.0 Spatial hindered alkyl phenols 30.0-54.0 Glycine Nitrogen Derivative - 0.5-5.0 N-alkylated benzotriazole - 0.5-2.0 Modified Polyols in Xylene 0.5-2.0 The content of the additive package in oil 0.80-1.50 wt. %

The method of preparation of the additive package consists in mixing zinc dialkyl dithiophosphate and spatially hindered alkyl phenols at a temperature of 65-75 ° C, then add subsequently with an interval of 10-15 minutes at the same temperature and constant stirring (500 rpm) of calcium alkyl salicylate, a nitrogen-containing glycine derivative and N-alkylated benzotriazole. The manufacture of the additive package is completed by lowering the mixing temperature to 50-60 ° C and the introduction of modified polyols.

This method of obtaining a package of additives provides the production of hydraulic oil having the necessary level of hydrolytic stability and filterability in the presence of water.

However, this composition of the additive package at a negative temperature has a creamy texture, which complicates the transportation and storage of the product, and also causes technological difficulties when it is introduced into the oil without preliminary heating. In addition, in the presence of a thickener necessary to obtain a multigrade hydraulic oil operating in a wide temperature range, the filterability and hydrolytic stability of the oil with the additive package of the above composition and production method are impaired.

The present invention is to develop a composition and method for producing a package of additives for multigrade hydraulic oils and a composition of multigrade hydraulic oil containing this package and a thickening additive. The difficulty in solving this problem lies in the fact that the use of thickeners sharply affects the filterability of oils, the reason for this is not only blocking of the pores of the filters with a thickener, but also the insufficient compatibility of the thickener with the additive package, especially in the presence of water.

To solve this problem, a package of additives for multigrade hydraulic oils containing calcium alkyl salicylate, zinc dialkyl dithiophosphate, spatially hindered alkyl phenols, a nitrogen-containing glycine derivative, N-alkyl benzotriazole, modified polyols in xylene additionally introduce a diluent oil in the following ratio of components, wt. %:

Zinc dialkyldithiophosphate 30.0-54.0 Calcium Alkyl Salicylate 5.0-25.0 Spatial hindered alkyl phenols 30.0-54.0 Glycine Nitrogen Derivative 0.5-5.0 N-alkylated benzotriazole 0.5-2.0 Modified Polyols in Xylene 0.5-2.0 Diluent oil 3.0-10.0

The method of obtaining the additive package consists in a certain sequence of introducing components, namely spatially-hindered alkyl phenols at a temperature of 65-75 ° C and constant stirring (500 rpm), then sequential introduction of dialkyldithiophosphate after a certain period of time (with an interval of 10-15 minutes) zinc, calcium alkyl salicylate, a nitrogen-containing derivative of glycine and N-alkylated benzotriazole, modified polyols and a diluent oil. Next, the mixture of additives and diluent oil is filtered through filters with pore sizes from 2 to 5 microns.

The studies conducted by the authors showed that the operational properties of the oils obtained using the additive package depend not only on the sequence of introduction and the ratio of additives in the package, but also on the diluent oil content and transmission of the resulting colloidal system of the package through a deep filtering material with a certain pore size from 2 to 5 microns, containing cellulose fiber, kieselguhr, perlite and binders. The use of the specified filtration material allows one to provide the necessary throughput of the additive package, and, on the other hand, to obtain a uniform ordered structure eliminates the formation of a crystalline skeleton of the additive package (including at low temperatures). In addition, when using the diluent oil in the composition of the proposed additive package and the stage of final filtering of the package, a new result was obtained - to improve the hydrolytic stability and filterability of thickened all-weather hydraulic oil due to the content of the additive package in its composition with a uniform ordered structure. The result obtained will reduce the cost of preheating the additive package in the winter season when it is added to the oil, as well as increase the time for changing multigrade oil and the overhaul mileage of the equipment.

In accordance with the described preparation method for testing in the composition of multigrade oil, 5 samples of additive packages with different contents of diluent oil and a prototype package were prepared. The composition and appearance of samples of additive packages under conditions of negative temperatures are given in table 1.

Calcium alkyl salicylate was used to neutralize alkyl salicylic acids with a suspension of lime - fluff in oil with an alkaline number of 155 mg KOH / g. The zinc dialkyldithiophosphate additive was characterized by the presence of ethylhexyl radicals. As spatial-hindered alkyl phenols, a product with a melting point of 36 ° C was used. N-alkylated benzotriazole was used as a metal cladding component to prevent metal rusting. A nitrogen-containing glycine derivative, namely (z) -N-methyl-N- (l-oxo-9-octadecenyl) glycine, was used to increase hydrolytic and antioxidant stability. Polyols modified with fatty alcohols in a xylene solution were used as a demulsifier. Mineral oil SN-400 was used as a diluent oil.

The stability of the additive package at low storage temperatures was determined by appearance after exposure for 24 hours at a temperature of minus 15 ° C.

Due to the directed formation of a homogeneous ordered structure as a result of introducing the diluent oil and filtering the additive package through filters with specific pore sizes and structure, the additive package of the claimed composition (formulations 2-3, see table 1) is advantageous in terms of texture uniformity at low temperatures compared to with the prototype (see table 1). We studied samples of hydraulic oil prepared on a basic basis with a thickener and various compositions of additive packages (0.80% wt.) In comparison with the prototype thickened with the same thickener (table 2). As a thickener, a polymer of alkyl methacrylates C≥12 with a number average molecular weight of 10000-20000 Da in mineral oil was used.

From table 2 it follows that the multigrade hydraulic oil containing the additive package of the proposed composition and a thickener surpasses the prototype in operational properties, namely hydrolytic stability and filterability. Assessment of hydrolytic stability was carried out in accordance with ASTM D 2619, filterability with and without water was carried out according to ISO 13357-1 and ISO 13357-2 in accordance with the requirements of DIN 51524 or manufacturers of technology.

We also conducted studies on the effect of the content of the proposed sample additive package and thickener in the composition of multigrade hydraulic oil on its key properties. When the content of the additive package in the oil is less than the lower limit (0.80 wt.%), The tribological and antioxidant properties deteriorate; above the upper limit (1.5 wt.%) a significant improvement of these indicators is not observed (see table 3). Moreover, the antioxidant properties of multigrade oil with the proposed additive package are at the level of the oil with the prototype. When the content in the oil of the thickener is below 7.0% wt. the viscosity index of multigrade oil decreases, and above 15.0% the resistance to degradation or shear resistance, expressed in the loss of viscosity of the oil after 20 hours of the test, decreases.

The viscosity index was evaluated according to ASTM D 7042; resistance to destruction by shear according to (KRL method) according to DIN 51562-1; induction oxidation time (RPVOT method) according to ASTM 2272, wear spot diameter according to ASTM 4172.

Based on the studies, we propose a multigrade hydraulic oil based on a highly refined petroleum base containing the aforementioned additive package in an amount of 0.8-1.50% wt., Polymer of alkyl methacrylates C≥12 with a number average molecular weight of 10000-20000 Da in mineral oil - 7, 0-15.0% wt. Hydrotreated oil with a viscosity index of at least 95 is used as petroleum oil.

Thus, the proposed composition of the additive package, made in a certain way, has high stability during storage at low temperatures and gives the multigrade hydraulic oil in the presence of a thickener in the composition of the thickener new properties, namely, it improves the hydrolytic stability and filterability in the presence of water, thereby ensuring high operational properties that increase the life of the hydraulic oil and the reliability of the equipment. In addition, the proposed composition of the additive package facilitates its transportation and storage, as well as the production technology of multigrade hydraulic oil in comparison with the prototype. The above additive package makes it possible to obtain HVLP hydraulic oils according to DIN 51524-3 when using the basic bases I + or II according to API.

Claims (4)

1. A method of preparing a package of additives for hydraulic oils for industrial equipment by heating spatially hindered alkyl phenols (30.0-54.0 wt.%) At a temperature of 65-75 ° C and constant stirring (500 rpm), then sequential maintenance after a certain period of time (with an interval of 10-15 minutes) zinc dialkyl dithiophosphate (30.0-54.0 wt.%), calcium alkyl salicylate (5.0-25.0 wt.%), nitrogen-containing glycine derivative (0.5- 5.0 wt.%) And N-alkylated benzotriazole (0.5-2.0 wt.%), Modified polyols in xylene 0.5-2.0 wt.%) And ma weak diluent (3.0-10.0 wt.%), followed by filtration through a filter material with pore sizes from 2 to 5 microns. 2. A hydraulic oil additive package obtained by the method according to claim 1, comprising calcium alkyl salicylate, zinc dialkyldithiophosphate, hindered alkyl phenols, a nitrogen-containing glycine derivative, N-alkylated benzotriazole, modified polyols in xylene and a diluent oil in the following ratio, wt . %: Zinc dialkyldithiophosphate 30.0-54.0 Calcium Alkyl Salicylate 5.0-25.0 Spatially hindered alkyl phenols 30.0-54.0 Glycine Nitrogen Derivative 0.5-5.0 N-alkylated benzotriazole 0.5-2.0 Modified Polyols in Xylene 0.5-2.0 Diluent oil 3.0-10.0 3. Multigrade hydraulic oil based on hydrotreated petroleum oil containing an additive package according to claim 2 in an amount of 0.80-1.50 wt. % and a polymer of alkyl methacrylates C≥12 with a number average molecular weight of 10,000-20000 Da in mineral oil in an amount of 7.0-15.0 wt%.