RU2699665C1 - Method for assessment of oil tendency to formation of high-temperature deposits in gas turbine engines - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to the field of oil examination, for assessment of their tendency to formation of high-temperature deposits (HTD) as a result of thermal oxidative destruction of oil on surfaces of heat-loaded parts of gas turbine engines. Method consists in that oil poured into crankcase is heated by means of the first heater, at equal intervals oil is sprayed on aluminium plate by rotating spindle with fixed on it needles, method involves heating the aluminium plate with a second heater, the test is carried out for four hours, then the mass of high-temperature deposits (HTD) formed on the plate is determined from the difference in its weight before and after the test. At that, oil heating by the first heater is performed to temperature of 60 °C, a series of tests is carried out by heating the aluminium plate in steps of 5 to 25 °C sequentially from 200 to 350 °C, plotting a graph of the dependence of the weight of the HTD on the temperature of the plate, determining the temperature of appearance of deposits visually according to the graph, which is used to assess oil addiction to formation of HTD, and then determining the HTD index (I_HTD) by integrating the obtained relationship using a trapezoid method using a given formula.

EFFECT: higher reliability of test results aimed at assessment of influence of propensity of oils to formation of HTD on operational reliability of engines.

1 cl, 2 dwg, 2 tbl

Description

The present invention relates to the field of analysis of materials, namely, to the field of research of oils in relation to the assessment of their tendency to form high temperature deposits (WTO) as a result of thermal oxidative degradation of oil on the surfaces of heat-loaded parts of gas turbine engines (GTE).

A known method for determining the tendency of oils to form carbon deposits (GOST 12337-84, Motor oils for diesel engines. Specifications (with Changes N 1-7), Interstate Standard, 1985). In the known method, an apparatus is used for determining the coking ability of oils, including a plate 37 × 87 mm in size, inclined to a horizontal level of 25 °, heated to 315 ° C. Oil is sprayed with a spindle rotating with a frequency of (1000 ± 50) min ^-1 with fixed needles (8 radial rows - three in each row, the angle between the needles is 120 °) for 24 hours. Carbon deposits are scored from 0 to 4 points depending on the type of deposits. The installation described in the method allows you to simulate the spraying of oil from the nozzles on the hot surface of the oil system. The disadvantages of this method is the subjective assessment of the deposits in the absence of a quantitative test result, as well as the fact that the test conditions simulate the processes that occur at one fixed temperature value.

A known method for determining the tendency of oil to the formation of the WTO (AS USSR №1337769 A1, CL G01N 33/30 (2000.01), publ. 15.09.1987). Determination of the WTO by this method is carried out by pumping heated oil along a heated metal tube, the temperature of the tube varies linearly along its length from 40 to 240 ° C. The number of VTOs is determined by the area between the curves of changes in the brightness of the reflected light from the tube before and after contact with the oil and additionally determine the temperature at which deposits begin to form. The disadvantages of this method include the difficulty of its implementation and obtaining the result, as well as the fact that this method allows you to simulate one of the areas of operation of the gas turbine engine oil system - the flow of air-saturated oil through pipelines in the hot zone.

The closest technical solution adopted by the applicant as a prototype is a known method for evaluating the tendency of oils to form WTOs, implemented in lubricating oils for gas pumping units. Methodology for assessing the tendency to form high-temperature deposits, STO Gazprom 2-1.16-1005-2015, Gazprom Expo Limited Liability Company, 2017, p. 5-12. According to the known method, oil is periodically sprayed onto a hot aluminum plate 37 × 87 mm in size, which is inclined to a horizontal level of 25 °. Oil is sprayed with a spindle with fixed needles (8 radial rows - three in each row, the angle between the needles is 120 °). The tests are carried out at an oil temperature in the crankcase - 120 ° C; at one fixed temperature of the aluminum plate - 290 ° C; the frequency of oil spraying on the plate is 5 s / min, the test time is from 4 to 6 hours. The mass of carbon deposits is determined by the difference in the weight of the plate before and after the tests in mg. The test is carried out at one fixed temperature of the plate, which is a disadvantage of the known method, which leads to low information content due to the narrow temperature range.

The problem solved by the invention is to create a reliable method for assessing the tendency of oils to form high-temperature deposits in gas turbine engines.

The technical result, the achievement of which the present invention is directed, is to increase the reliability of test results aimed at assessing the influence of the tendency of oils to form a WTO on the operational reliability of engines.

The technical result of the invention is achieved due to the fact that in the method for assessing the tendency of oils to form high-temperature deposits in gas turbine engines, the oil poured into the crankcase is heated by the first heater, the oil is sprayed onto the aluminum plate at regular intervals with a rotating spindle with needles fixed to it, and the aluminum is heated the plate with a second heater, the test is carried out for four hours, then the mass of the high temperatures formed on the plate is measured deposits (WTO) according to the difference of its weights before and after the test, while the oil is heated by the first heater to a temperature of 60 ° C, a series of tests is carried out by heating an aluminum plate in increments of 5 to 25 ° C in series from 200 ° C to 350 ° C plotted mass WTO from the plate temperature is determined visually by the appearance of graphics Fat temperature (T _oN), the temperature assessed Fat appearance tendency of oils to form WTO and WTO calculated index (I _BTO) obtained by integrating dependent trapezoidal method according to the formula:

where h _{i-1 ... i} is the step of temperature change (i = 2, 3, 4 ,, n) between neighboring points, (° С);

m _i is the mass of the WTO for the i-th point, (mg);

n is the number of points.

The sedimentation temperature is used to evaluate the general characteristic of the tendency of oils to form high-temperature deposits.

The claimed invention is illustrated by drawings and tables.

In FIG. 1 shows the installation for testing.

In FIG. Figure 2 presents an example of oil testing for gas pumping units illustrated by the graph of the dependence of the mass of the WTO on the surface temperature of the plate in a given area.

Table 1 presents the results of the tests, reflecting the dependence of the change in mass of the WTO for different samples of oils on temperature in the range from 200 to 350 ° C.

Table 2 presents the data obtained as a result of testing oils of these grades for a known solution (described in STO Gazprom 2-1.16-1005-2015).

The implementation of the proposed method can be achieved by conducting tests on the installation shown in FIG. one.

The test installation may include: a crankcase 1, a first heater 2, designed to heat the oil placed in the crankcase, an aluminum plate 3, on which oil can be sprayed during rotation of the spindle 4, and a second heater 5. In this case, the test plate is installed so so that its working surface is turned towards the sprayer (spindle).

A series of tests is carried out under the following conditions.

Pre-pour oil into the crankcase 1 and heat it with the first heater 2 to a temperature of 60 ° C. Then the oil is periodically sprayed onto the aluminum plate 3 (for example, for 5 seconds every 55 sec. Pauses) using a rotating spindle 4 with needles fixed on it.

The tests are carried out for four hours. A series of consecutive similar tests is carried out, heating the aluminum plate with a second heater 5, with which the temperature of the plate is increased in the range from 200 to 350 ° C.

As a result of the studies, it was found that it is advisable to maintain a change in the temperature of the aluminum plate in increments of 5 to 25 ° C. The step is assigned based on the nature of the resulting dependence: in shallow sections 25 ° C, at extremes the step decreases to 5 ° C. After the time has passed, the crankcase and plate heating are turned off, then the test plate is removed with tweezers without touching the deposits and the plate is cooled. The crankcase is washed with several portions of solvent until the oil is completely removed and possible deposits are deposited. To remove traces of oil from the surface of the test plate, it is washed with two portions of solvent, then carefully immerse the plate with deposits up. After washing, the plate is dried in air at room temperature and weighed to an accuracy of 0.0002 g. The weight of the WTO is determined by the difference in weight of the plate before and after the tests in mg.

The obtained measured data is tabulated and a graph of the dependence of the mass of the VTO (m _WTO , mg) on the temperature of the plate (T _PL , ° C). Then, according to the schedule, the temperature of the occurrence of deposits (T _PO ) is visually determined, and then the WTO index (I _BTO ) is determined by integration by the trapezoid method according to the formula

where h _{i-1 ... i} is the step of temperature change (i = 2, 3, 4, ..., n) between adjacent points, (° С);

m _i is the mass of the WTO for the i-th point, (mg);

n is the number of points.

Assess the propensity of oils to form WTO as follows:

at a higher sedimentation temperature (T _ON ) and a low WTO index (I _BTO ), the oil is generally less prone to WTO formation and, therefore, at a lower sedimentation temperature (T _ON ) and a high WTO index (I _BTO ) , lubricating oil is generally more prone to WTO formation.

In FIG. 2 and table 1 presents the results of the tests, reflecting the dependence of the change in mass of the WTO for different samples of oils on temperature in the range from 200 to 350 ° C.

For testing, lubricating oils were used:

- Tp-22S (production of LLC Gazpromneft-SM) and

- “Petrim” (production of JSC SPC Spetsneftprodukt).

According to the graphical dependencies in FIG. Figure 2 defines the temperature of occurrence of deposits (T _PO ), which are 255 and 270 ° C for oils Тп-22С and Petrim, respectively.

Using the data obtained as a result of a series of tests (table 1), and the above dependence, the WTO index (I _BTO ) was calculated.

As a result of calculating the following values: for oil-22C Tn I _BTO - 8775, mg⋅ ° C oil Petri I _BTO ^_ 5585, mg⋅ ° C.

For comparison, table 2 presents the data obtained as a result of testing oils of these grades for a known solution (described in STO Gazprom 2-1.16-1005-2015) and the proposed method.

Analyzing the data obtained, presented in tables 1 and 2, as well as taking into account the graph shown in FIG. 2, it can be seen that the proposed method allows to evaluate the distribution of deposits depending on the temperature of the contacting surface (plate).

Petrim oil, which has greater thermal oxidative stability than Tp-22S Mark 1 turbine oil, and, accordingly, has a generally less tendency to form WTO in a wide temperature range, from 200 to 350 ° C, which is confirmed by a higher temperature of deposits (T _ON ) and low WTO index (I _BTO ) compared to Petrim oil.

At the same time, in a separate section (from 280 to 310 ° C) the opposite picture takes place, therefore, the assessment of the tendency of oils to high-temperature deposits, made only for one point, as is done according to the well-known solution (STO Gazprom 2-1.16-1005- 2015) reduces the reliability of the objective conclusion about the thermo-oxidative stability of the studied oil.

The application of the proposed method for assessing the propensity of oils in gas turbine engines to form a WTO will provide additional more reliable research results that allow us to evaluate the performance properties of oils and identify ways to improve the operational reliability of gas turbine engines.

In a real gas turbine engine, the temperature of the hot surfaces with which the oil comes into contact is different. The amount of OBE formed will be determined not only by the temperature of the contact surface, which determines the speed of the complex of chemical reactions leading to the carbonization of the oil, but also by the counter-burning process of the OBE, the evaporation of the oil itself at different temperatures, and the type of deposits obtained. Owing to all these numerous factors, the dependence of the WTO on the contact surface temperature will have a complex nonlinear character.

The achievement of the specified technical result is achieved by obtaining additional information about the tendency of oils to the WTO in the form of the dependence of the mass of the WTO on the temperature of the contacting surfaces.

Claims (5)

A method for assessing the tendency of oils to form high-temperature deposits in gas turbine engines, namely, that the oil poured into the crankcase is heated by the first heater, the oil is sprayed onto the aluminum plate at regular intervals with a rotating spindle with the needles fixed to it, the aluminum plate is heated by a second heater, testing carried out for four hours, then determine the mass formed on the plate of high-temperature deposits (WTO) by the difference in its weight before and after testing, characterized in that the oil is heated by the first heater to a temperature of 60 ° C, a series of tests is carried out by heating an aluminum plate in increments of 5 to 25 ° C, successively from 200 to 350 ° C, a graph of the dependence of the mass of the WTO on the temperature of the plate is built, visually determine from the graph the temperature of the occurrence of deposits (T _PO ), which assesses the tendency of oils to form the WTO, and then determine the WTO index (I _BTO ) by integrating the obtained dependence by the trapezium method according to the formula:

where h _{i-1 ... i} is the step of temperature change (i = 2, 3, 4, n) between adjacent points, ° С; m _i is the mass of the WTO for the i-th point, mg; n is the number of points.

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